Advanced Ceramic Capacitors Catalog Datasheet by KYOCERA AVX

IA A KYOCERA GROUP COMPANY
Advanced Ceramic Capacitors
101320-1
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
IMPORTANT INFORMATION/DISCLAIMER
All product specifications, statements, information and data (collectively, the “Information”) in this datasheet or
made available on the website are subject to change. The customer is responsible for checking and verifying
the extent to which the Information contained in this publication is applicable to an order at the time the order is
placed. All Information given herein is believed to be accurate and reliable, but it is presented without guarantee,
warranty, or responsibility of any kind, expressed or implied.
Statements of suitability for certain applications are based on AVX’s knowledge of typical operating conditions
for such applications, but are not intended to constitute and AVX specifically disclaims any warranty concerning
suitability for a specific customer application or use.
ANY USE OF PRODUCT OUTSIDE OF SPECIFICATIONS OR ANY STORAGE OR INSTALLATION
INCONSISTENT WITH PRODUCT GUIDANCE VOIDS ANY WARRANTY.
The Information is intended for use only by customers who have the requisite experience and capability to
determine the correct products for their application. Any technical advice inferred from this Information or
otherwise provided by AVX with reference to the use of AVX’s products is given without regard, and AVX
assumes no obligation or liability for the advice given or results obtained.
Although AVX designs and manufactures its products to the most stringent quality and safety standards, given
the current state of the art, isolated component failures may still occur. Accordingly, customer applications
which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as
installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component
does not result in a risk of personal injury or property damage.
Unless specifically agreed to in writing, AVX has not tested or certified its products, services or
deliverables for use in high risk applications including medical life support, medical device, direct physical
patient contact, water treatment, nuclear facilities, weapon systems, mass and air transportation control,
flammable environments, or any other potentially life critical uses. Customer understands and agrees
that AVX makes no assurances that the products, services or deliverables are suitable for any high-risk
uses. Under no circumstances does AVX warrant or guarantee suitability for any customer design or
manufacturing process.
Although all product–related warnings, cautions and notes must be observed, the customer should not assume
that all safety measures are indicted or that other measures may not be required.
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
Advanced Ceramic Capacitors
Table of Contents
fi ...................................................................................................................................................................... 1
SMPS Capacitors
SM Style Stacked MLC Capacitors ......................................................................................................................................................................................... 7
RM Style Stacked MLC Capacitors ....................................................................................................................................................................................... 35
SMM Style Stacked MLC Capacitors Extended Range.......................................................................................................................................................... 38
RMM Style Stacked MLC Capacitors Extended Range ......................................................................................................................................................... 40
SMX Style for High Temperature Applications up to 200ºC ................................................................................................................................................. 42
CH/CV - Radial, Dual-in-Line, 4 Terminal/SMT ‘J’ & ‘L’ Ranges .............................................................................................................................................. 46
SXP Style for High Temperature Applications up to 200ºC .................................................................................................................................................. 51
TurboCap™ ........................................................................................................................................................................................................................... 53
RoHS Compliant TurboCap™ ................................................................................................................................................................................................ 56
Mini-TurboCap™ .................................................................................................................................................................................................................... 59
RoHS Compliant Mini-TurboCap™......................................................................................................................................................................................... 61
MH Style Ceramic Capacitor................................................................................................................................................................................................. 63
RH Style - Surface Mount ‘J’ Lead Range .............................................................................................................................................................................. 64
Custom Geometries and Lead Configurations ...................................................................................................................................................................... 66
Assembly Guidelines ............................................................................................................................................................................................................ 67
SK Style – Commercial Radial Range ................................................................................................................................................................................... 69
SE Style – Extended Commercial Radial Range .................................................................................................................................................................... 71
CECC Offering ...................................................................................................................................................................................................................... 73
High Voltage MLC Capacitors
ESCC Qualified SMPS Capacitors ......................................................................................................................................................................................... 74
HV Styles (US Preferred Sizes) DIP Lead .............................................................................................................................................................................. 80
RV Style – RoHS Compliant High Voltage DIP Leaded ......................................................................................................................................................... 83
CH Style – Radial, Dual-in-line & ‘L’ Lead SMT ...................................................................................................................................................................... 86
CV Style – Chip Assemblies ................................................................................................................................................................................................. 87
CH/CV Style – Chip Assemblies ........................................................................................................................................................................................... 88
SV Style Radial Lead – Application Information ................................................................................................................................................................... 89
DSCC Radials ........................................................................................................................................................................................................................ 92
MLC Chip Capacitors
Basic Construction ............................................................................................................................................................................................................... 95
General Description .............................................................................................................................................................................................................. 96
Surface Mounting Guide ..................................................................................................................................................................................................... 100
MIL-PRF-123/Chips ............................................................................................................................................................................................................ 105
AT Series – High Temperature MLCC – 200ºC & 250°C Rated ........................................................................................................................................... 110
High Voltage MLC Chips – For 600V to 5000V Applications .............................................................................................................................................. 116
High Voltage MLC Chips – For 600V to 5000V Applications .............................................................................................................................................. 120
High Voltage MLC Chips Tin/Lead Termination “B” ............................................................................................................................................................ 121
High Voltage MLC Chips FLEXITERM® ............................................................................................................................................................................... 123
Tip & Ring Chips ................................................................................................................................................................................................................. 130
Tip & Ring Tin/Lead Termination “B” .................................................................................................................................................................................. 132
Packaging – Automatic Insertion Packaging ..................................................................................................................................................................... 134
Embossed Carrier Configuration – 4, 8 & 12mm Tape Only ................................................................................................................................................ 135
Surface Mount CapGuard™
Varistor/Capacitor Combination for EMI/Surge Suppression ............................................................................................................................................. 136
Filtered Arrays XD Type ................................................................................................................................................................................................... 138
Baseline Management
A Dedicated Facility / BS9100 Requirements ..................................................................................................................................................................... 139
fi ................................................................................................................................................................... 140
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 1
As the world’s leading manufacturer and innovator in application
specific multilayer ceramic (ASMLC) capacitors, AVX offers a
unique technological and production capability to the field. AVX
actively pursues and satisfies the high reliability and custom needs
of a variety of governmental and industrial customers. Successful
involvement in missile programs, extensive work in ultra-high
reliability telecommunications and sophisticated capacitor design
applications – all have established AVX as the source for advanced
and high reliability ASMLC capacitors.
fi
design and manufacturing of MLC capacitors.
AVX Advanced Application Capacitors are organized around three
distinct functions:
Application Specific Development Laboratories
Advanced Manufacturing Facilities
Quality Control
For designs or applications not listed please consult AVX Advanced Products.
Coleraine, Northern Ireland - ++44(0) 28703 44188
St. Appollinaire, France - ++33(0) 38071 7400
International Space Station Defense / Military Telecommunications
Undersea Cable Repeater
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Problem Solving at the Leading Edge
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
2
APPLICATION SPECIFIC DEVELOPMENT
LABORATORIES
Initially, AVX technical personnel communicate with customers
to learn the requirements that the new capacitor must satisfy.
The personnel involved are well-versed in material, manufacturing
and electronic application technologies. They study the overall
application and the environment in which the part will function.
Programs are begun for selection of appropriate ceramic
formulations, metal systems and designs. These programs yield
a detailed technology profile from which mechanical design and
process specifications follow.
ADVANCED
MANUFACTURING FACILITIES
The ability and reputation of AVX in high reliability MLCs is due
in part to the company’s complete control over all phases of the
production process. This includes powder processing, tape casting
and/or wet build-up, green MLC assembly and final capacitor
assembly/packaging. Recent renovations at AVX have upgraded
green MLC assembly areas to certified clean room levels.
A favorite feature with many customers of AVX is our ability to work
with customers in solving special packaging requirements. This
includes special lead configurations and multiple chip packaging
that simplifies the mounting of specialty capacitors. To the customer,
the total capability of AVX assures a high level of consistent control
at all steps of production.
QUALITY CONTROL
The Q. A. organization is an integral part of manufacturing. Quality
Control tests the product of each manufacturing process, detects
flaws or variations from the narrow acceptable standard and isolates
the cause of the deviation. Corrective action can then be taken to
return the process to within its predetermined control levels.
Quality Assurance has large and well-equipped laboratories
where statistical samples are evaluated and tested to determine
failure rates, characterize products and assure compliance with
specification. Both destructive and non-destructive testing are
used, including advanced ultrasonic inspection equipment for non-
destructive inspection of an entire production quantity.
Put the experience, technology and facilities of the leading company
in multilayer ceramics to work for you. No other source offers the
unique combination of capability and commitment to advanced
application specific components.
fi
Problem Solving at the Leading Edge
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 3
FOREWORD
High speed switch mode power supplies place high demands on the
capacitors used in the input or output filters of Resonant DC-DC or
Pulse Modulated DC-DC converters. AVX Corporation has developed
several multilayer ceramic (MLC) capacitor styles for these switcher
applications. These capacitors have been extensively tested and
characterized and found to have almost ideal performances to meet
the stringent requirements of these applications.
Input Filter Capacitor
The Input Filter capacitor is required to perform two functions: To
supply an unrestricted burst of current to the power supply switch
circuitry and to not only do it without generating any noise, but to help
suppress noise generated in the switch circuitry. It is, in effect, a very
large decoupling capacitor. It must have very low ESL, capabilities
for very high dv/dt, as well as di/dt and it must have a very low ESR
to eliminate power loss.
The distance from the primary DC source, as well as the type of
capacitor used in this source (usually electrolytics), presents a very
high inductance to the input of the Switcher. The MLC input capacitor,
with its excellent ESL and ESR characteristics, is located physically
close to the switch circuitry. Repetitive peak currents, inherent with
the Switcher design, require a high ripple capability, as well as high
surge capability for transients, both induced and conducted from
other sources. MLCs have both these capabilities.
Output Filter Capacitor
The output from the switching circuit of a Switcher consists of
current on and off. From an elevated DC reference, this current is
an AC ripple additive on the DC. In order to smooth this ripple effect,
a filter circuit (usually inductive input) is built to allow a storage of
energy to take place during the rising ripple portion and to allow a
discharge of energy during the falling ripple portion.
The ESR and ESL of the capacitor contribute to the net ripple effect.
The output filter capacitor is chosen for ESR, and with previous
types of capacitors, multiples were used in an attempt to lower the
net ESR. The MLC offers ESRs well below the minimum allowable to
lower noise levels, thus eliminating the need for multiple units.
Other MLC Capacitors for
SMPS Applications
AVX also manufactures coupling, decoupling, resonant and snubber
capacitors for SMPS applications. Contact AVX for Application
Specific S.M.P.S. capacitor requirements.
Coleraine, Northern Ireland ++44(0) 28703 44188
St. Apollinaire, France ++33(0) 38071 7400
SMPS Capacitors
SMPS Capacitor Applications
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
4
ASMLC CAPACITOR SELECTION
SMPS Design Information (SM, CH, CV, RH and SK Styles)
ASMLC CAPACITOR PERFORMANCE
SMPS Capacitors
Capacitor Selection and Performance
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 5
AC Ripple Capability
Due to the wide range of product offering in this catalog, the AC
ripple capabilities for switch mode power supply capacitors and
high voltage capacitors are provided in the form of IBM compatible
software package called SpiCalci. It is available free from AVX and
can be downloaded for free from AVX website: http://www.avx.com/
download/software/SpiCalci-AVX.zip.
SpiCalci program will provide answers to most of the design
engineers’ questions on critical parameters for their specific
applications:
Equivalent Series Resistance
- function of frequency and temperature
Equivalent Series Inductance
- function of design
Self Resonant Frequency
Thermal Characteristics
- function of design
AC Ripple Capabilities
- function of frequency, temperature and design
Examples of Product Performance
EXAMPLE (CH ONLY)
EXAMPLE (SM ONLY)
SMPS Capacitors
Capacitor Performance
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
6
SUPRACAP® - LARGE CAPACITANCE VALUE MLCS
High speed switch mode power supplies require extremely low
equivalent series resistance (ESR) and equivalent series inductance
(ESL) capacitors for input and output filtering. These requirements
are beyond the practical limits of electrolytic capacitors, both
aluminum and tantalums, but are readily met by multilayer ceramic
(MLCs) capacitors (Figure1).
Theoretical SMPS’s output filter capacitor values are in the range
of 6-10 μF/amp at 40KHz and drop to less than 1 μF/amp at 1MHz.
Most electrolytic applications use 10 to 100 times the theoretical
value in order to obtain lower ESR from paralleling many capacitors.
This is not necessary with SupraCap® MLC capacitors which
inherently have ESRs in the range of milliohms. These extremely
low values of ESR mean low ripple voltage and less self-heating of
the capacitor.
Output noise spikes are reduced by lowering the filter capacitance
self-inductance. The ripple current is a triangle wave form with
constant di/dt except when it changes polarity, then the di/dt is very
high. The noise voltage generated by the filter capacitor is
VNoise = LCapacitor di/dt
AVX SupraCap® devices have inductance value less than 3nH.
Figure 2 compares a 5.6 μF MLC to a 5.6 μF tantalum which was
specially designed for low ESR and ESL. When subjected to a di/dt
of 200 mA/ns the tantalum shows an ESR of 165 and an ESL
of 18nH versus the MLC’s 4 and 0.3 nH. These performance
differences allow considerable reduction in size and weight of the
filter capacitor.
Additionally, MLCs are compatible with surface mount technology
reflow and assembly techniques which is the desirable assembly for
conversion frequencies exceeding 1 MHz. Electrolytic capacitors
(both aluminum and tantalum) are not compatible with normal
vapor phase (VPS) or infrared (IR) reflow temperatures (205-215°C)
due to electrolyte and structural problems. AVX SupraCap® devices
are supplied with lead frames for either thru-hole or surface mount
assembly. The lead frames act as stress relief for differences
in coefficients of expansion between the large ceramic chip ( 10
ppm/°C) and the PC boards.
ESR Comparison of Different Capacitor Technologies
ESR -vs- Frequency
100µF Filter Capacitors
1.E-03
1.E-02
1.E-01
1.E+00
1.E+03 1.E+04 1.E+05 1.E+06 1.E+07
Frequency (Hz)
Aluminum Electrolytic 100µF / 50V
Low ESR Solid Tantalum 100µF / 10V
Solid Aluminum Electrolytic 100µF / 16V
MLCC 100µF / 50V
ESR ( )
Figure 1
Figure 2
SMPS Capacitors
Application Information on SupraCap®
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 7
AVX is the original inventor of large capacitance value, stacked MLCC capacitors constructed
with DIP leads. The SM-style, Switch Mode Power Supply (SMPS) capacitors were introduced by
AVX in 1980s. These capacitors are the closest to the ideal electrical energy storage devices due
to high CV product and extremely low ESR and ESL.
In addition to traditionally offered COG (Class I) and X7R (Class II) type dielectrics, AVX
introduces another class I, temperature compensated N1500 dielectric characterized with
very low dissipation factor. Thanks to considerably higher relative dielectric constant of N1500
dielectric, the CV product is more than doubled in comparison to ultra-stable COG dielectric,
resulting in a significant reduction in the size of capacitor and a significant improvement of
volumetric efficiency.
The typical applications for different type dielectrics are:
COG: High frequency resonant capacitors, avionic AC line filters (400Hz to 800Hz),
snubbers, timing circuits, high current repetitive discharge
N1500: Avionic AC line filters (400Hz to 800Hz), snubbers, high current repetitive discharge,
capacitive temperature compensation
X7R: General filtering, input and output filters in DC/DC converters, bulk filters, DC link
capacitors, motor drive filters, high current non-repetitive discharge
Not RoHS Compliant
GENERAL SPECIFICATIONS FOR ALL DIELECTRIC TYPES
GENERAL SPECIFICATIONS FOR ALL DIELECTRIC TYPES
Operating Temperature Range
-55° to +125°C
Voltage Ratings
50VDC through 500VDC (+125ºC)
Dielectric Withstanding Voltage
250% rated voltage for 5 seconds with 30 to 50mA charging current (500
Volt units @ 750VDC)
Insulation Resistance (25ºC, rated DC voltage)
100KMΩ min. or 1000MΩ-μF min. whichever is less
Insulation Resistance (125ºC, rated DC voltage)
10KMΩ min. or 100MΩ-μF min. whichever is less
Thermal Shock Capabilities
5 cycles (-55°C to +125°C)
Life Test Capabilities (1000 hours)
200% rated voltage at +125ºC (500 Volt units @ 600VDC)
C0G Dielectric
Capacitance Range
0.01μF to 15μF
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Temperature Characteristic
0 ± 30 ppm/°C
Dissipation Factor
0.15% max.
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
N1500
Capacitance Range
0.018μF to 33μF
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Temperature Characteristic
-1500 ± 250 ppm/°C
Dissipation Factor
0.15% max.
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
X7R Dielectric
Capacitance Range
0.1μF to 390μF
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
Capacitance Tolerances
±10%, ±20%, +80%, -20%
Temperature Characteristic
±15%
Dissipation Factor
2.5% max.
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
SMPS Stacked MLC Capacitors
SM Style Stacked MLC Capacitors
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available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
8
HOW TO ORDER AVX Styles: SM-1, SM-2, SM-3, SM-4, SM-5, SM-6
SM0 106 6501 7 C A NM
AVX Style
SM0 = Uncoated
SM5 = Epoxy Coated

See
Dimensions
chart
Voltage
50V = 5
100V = 1
200V = 2
500V = 7
Temperature
fi
C0G = A
N1500 = 4
X7R = C
Test Level
A = Standard
B = Hi-Rel*
5 = Standard/MIL**
6 = Hi-Rel/MIL***
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
P = P Style Leads
Z = Z Style Leads
Capacitance Tolerance
C0G/N1500:
J = ±5%
K = ±10%
M = ±20%
X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
Height
Max Dimension
“A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
650 = 0.650”
Capacitance Code
(2 significant digits
+ number of zeros)
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1μF = 105
10 μF = 106
100 μF = 107
See tables for
capacitance available
in specific height and
dielectric
Note: Capacitors with X7R dielectric are not intended for applications across AC supply
mains or AC line filtering with polarity reversal. Contact plant for recommendations.
* Hi-Rel screening option. Screening consists of 100% Group A
(B Level), Subgroup 1 per MIL-PRF-49470.
** Form, fit & function equivalent to MIL-PRF-49470 part.
Applies to 50V rated parts only. No screening.
*** Form, fit & function equivalent to MIL-PRF-49470 part.
Applies to 50V rated parts only. Hi-Rel screening the same as option B.

Aluminum
Electrolytic

Low ESR Solid
Tantalum

Solid Aluminum
Electrolytic

MLCC
SMPS

MLCC
SMPS

ESR @ 10KHz 300 72 29 366
ESR @ 50KHz 285 67 22 223
ESR @ 100KHz 280 62 20 2.5 15
ESR @ 500KHz 265 56 18 4 8
ESR @ 1MHz 265 56 17 77.5
ESR @ 5MHz 335 72 17 12.5 8
ESR @ 10MHz 560 91 22 20 14
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program- http://
www.avx.com/download/software/SpiCalci-AVX.zip
SMPS Stacked MLC Capacitors
SM Style Stacked MLC Capacitors
090518
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 9
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
“N” STYLE LEADS
E
C
RAD.
0.254
(0.010)
(TYP)
DETAIL B
0.254 (0.010) TYP.
CHIP SEPARATION
0.254 (0.010) TYP.
1.270 ± 0.254
(0.050 ± 0.010)
2.794 ± 0.254
(0.110 ± 0.010)
1.778 ±0.254
(0.070 ± 0.010)
3.048 ± 0.381
(0.120 ± 0.015)
DETAIL B
“Z” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
B
DETAIL A
4.191 ± 0.254
(0.165 ± 0.010)
1.651 ± 0.254
(0.065 ± 0.010)
2.540 ± 0.254
(0.100 ± 0.010)
6.350 (0.250) MIN
1.016 ± 0.254
(0.040 ± 0.010)
R 0.508
(0.020)
3 PLACES
CAPACITOR
DETAIL A
“P” STYLE LEADS
“J” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.905 (0.075)
±0.635 (0.025)
TYP.
1.778 (0.070)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.778 (0.070) 1.905 (0.075)
±0.635 (0.025)
TYP.
±0.254 (0.010)
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads per side
SM-1
See capacitance
range table for
maximum “A
dimensions
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065) For
J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080) For
P” Style Leads: “A” Dimension Plus 4.445 (0.175) For “Z
Style Leads: “A” Dimension Plus 3.048 (0.120)
11.4 (0.450) 52.1 (2.050) 12.7 (0.500) 20
SM-2 20.3 (0.800) 38.4 (1.510) 22.1 (0.870) 15
SM-3 11.4 (0.450) 26.7 (1.050) 12.7 (0.500) 10
SM-4 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
SM-5 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
SM-6 31.8 (1.250) 52.1 (2.050) 34.3 (1.350) 20
Note: For SM5 add 0.127 (0.005) to max. and nominal dimensions A, B, D, & E
SMPS Stacked MLC Capacitors
SM Style Surface Mount and Thru-Hole Styles (SM0, SM5)
011419
A H A A (voczm mu; (20.4mm /A\vn:< |="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
10
SM01 SM02 SM03 SM04 SM05 SM06
 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.01 120
0.012 120 120 240
0.015 120 120 240
0.018 120 120 240
0.022 240 240 360
0.027 240 120 240 360
0.033 240 120 120 240 480
0.039 240 120 120 240 480
0.047 120 240 120 240 240 650
0.056 120 120 360 240 240 360
0.068 120 120 360 240 240 360
0.082 120 120 240 480 240 360 480
0.1 240 120 120 240 480 240 360 480
0.12 120 120 240 120 120 240 650 360 360 650
0.15 120 120 120 240 120 240 360 360 480
0.18 120 120 120 240 240 240 360 480 650
0.22 240 120 240 360 240 240 480 650
0.27 120 240 240 120 240 360 240 360 480
0.33 120 240 240 120 120 240 480 360 360 650 120
0.39 120 360 120 240 120 120 240 650 360 360 120
0.47 240 360 120 240 120 240 360 650 360 480 120
0.56 120 240 480 120 360 240 240 360 480 650 240
0.68 120 240 480 120 240 360 240 240 480 650 240
0.82 120 240 360 650 120 120 240 480 240 360 650 120 240
1120 240 360 120 120 240 480 240 360 650 120 240
1.2 240 240 360 120 240 240 650 360 360 120 120 360
1.5 240 360 480 240 240 360 360 480 120 240 360
1.8 240 360 650 240 240 360 480 650 120 120 240 480
2.2 360 480 240 360 480 650 120 120 240 650
2.7 360 480 360 360 650 120 240 360
3.3 480 650 360 480 240 240 360
3.9 480 480 480 240 240 360
4.7 650 480 650 240 240 480
5.6 650 240 360 650
6.8 360 360
8.2 360 480
10 480 650
12 480 650
15 650
COG CLASS I DIELECTRIC, ULTRA STABLE CERAMIC
The number represented in each cell corresponds to the maximum “A” dimension (in mils) and to the last 3 digits of the part number.
CUSTOM VALUES, RATING AND CONFIGURATIONS ARE ALSO AVAILABLE.
SMPS Stacked MLC Capacitors
SM Style
090518
A H A A 4mm mu; (20.4mm /A\vn:< |="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 11
SM01 SM02 SM03 SM04 SM05 SM06
 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.018 120
0.022 120
0.027 120 120 120
0.033 120 120 240
0.039 120 120 240
0.047 120 120 240
0.056 120 120 360
0.068 120 120 120 360
0.082 240 120 120 240 360
0.1 120 240 120 120 240 480
0.12 120 240 120 240 240 650
0.15 120 240 240 240 360
0.18 120 120 120 360 240 240 360
0.22 120 120 120 240 480 240 360 480
0.27 120 120 120 240 480 360 360 480
0.33 120 240 120 240 240 650 360 480 650
0.39 120 120 240 240 240 360 480 480
0.47 120 120 120 240 240 240 360 480 650
0.56 240 120 120 360 240 360 480 650
0.68 240 240 120 120 360 240 360 480
0.82 120 240 240 120 120 240 360 360 360 650
1120 360 240 120 120 240 480 360 480 120
1.2 120 120 360 120 360 120 240 240 650 480 650 120
1.5 120 240 480 120 360 240 240 360 650 120
1.8 120 120 240 480 120 480 240 240 360 240
2.2 120 240 240 650 120 120 240 480 240 360 480 240
2.7 240 240 360 120 120 240 650 360 360 480 120 240
3.3 240 240 360 120 240 240 360 480 650 120 360
3.9 240 360 480 240 240 360 480 480 120 120 360
4.7 360 360 480 240 240 360 480 650 120 120 240 480
5.6 360 480 650 240 360 480 650 120 120 240 480
6.8 480 480 360 360 480 120 240 240 650
8.2 480 650 360 360 650 240 240 360
10 650 360 480 240 240 360
12 480 650 240 360 480
15 650 360 360 480
18 360 480 650
22 480 480
27 480 650
33 650
N1500 CLASS I DIELECTRIC, TEMPERATURE COMPENSATED CERAMIC
The number represented in each cell corresponds to the maximum “A” dimension (in mils) and to the last 3 digits of the part number.
CUSTOM VALUES, RATING AND CONFIGURATIONS ARE ALSO AVAILABLE.
SMPS Stacked MLC Capacitors
SM Style
011419
A H A A 4mm mu; (20.4mm mm |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
12
SM01 SM02 SM03 SM04 SM05 SM06
 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.1 120
0.12 120
0.15 120 120
0.18 120 120 240
0.22 120 120 240
0.27 120 120 240
0.33 120 120 360
0.39 120 120 120 360
0.47 240 120 240 360
0.56 120 240 120 240 480
0.68 120 120 240 120 240 650
0.82 120 120 360 240 360
1120 120 120 360 120 240 360
1.2 120 120 240 360 120 240 360
1.5 120 240 120 240 480 120 360 480
1.8 120 120 240 120 240 650 120 360 650
2.2 120 120 120 240 240 240 120 480
2.7 240 120 120 360 240 360 120 480
3.3 240 120 120 120 360 120 240 360 240 650
3.9 120 240 120 120 240 360 120 360 480 240
4.7 120 240 240 120 240 480 120 360 650 240 120
5.6 120 360 120 240 120 240 650 120 480 240 120
6.8 120 120 360 120 240 240 240 120 480 360 120
8.2 120 240 480 120 360 120 240 360 240 650 360 120
10 120 240 480 120 120 360 120 240 360 240 480 240
12 120 240 650 120 240 360 120 240 480 240 650 120 240
15 120 240 360 120 240 480 120 360 650 240 120 240
18 120 240 360 120 120 240 650 120 360 650 360 120 240
22 120 240 480 120 240 240 240 480 360 120 120 360
27 120 360 480 120 240 360 240 650 480 120 240 360
33 240 360 650 120 240 360 240 650 120 120 240 480
39 240 480 120 360 480 360 120 120 240 650
47 240 480 240 360 650 360 120 240 240 650
56 360 650 240 480 650 480 120 240 360
68 360 240 480 480 120 240 360
82 360 240 650 650 240 360 480
100 480 360 240 360 650
120 650 360 240 360 650
150 480 240 480
180 650 360 650
220 360
270 480
330 650
390 650
X7R CLASS II DIELECTRIC, STABLE CERAMIC
The number represented in each cell corresponds to the maximum “A” dimension (in mils) and to the last 3 digits of the part number.
CUSTOM VALUES, RATING AND CONFIGURATIONS ARE ALSO AVAILABLE.
SMPS Stacked MLC Capacitors
SM Style
090518
”M A man snow c Nol RoHS Camplian!
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 13
AVX IS QUALIFIED TO MIL-PRF-49470/1 AND
MIL-PRF-49470/2
The SMPS capacitors are designed for high current, high-power
and high-temperature applications. These capacitors have very
low ESR (Equivalent Series Resistance) and ESL (Equivalent Series
Inductance). SMPS Series capacitors offer design and component
engineers a proven technology specifically designed for programs
requiring high reliability performance in harsh environments.
MIL-PRF-49470 SMPS Series capacitors are primarily used
in input/output filters of high-power and high-voltage power
supplies as well as in bus filters and DC snubbers for high power
inverters and other high-current applications. These capacitors
are available with through-hole and surface mount leads. The
operating temperature is -55°C to +125°C.
The MIL-PRF-49470 capacitors are preferred over the DSCC
drawing 87106 capacitors. MIL-PRF-49470 specification was
created to produce a robust replacement for DSCC 87106. MIL-
PRF-49470 offers two product levels.
Level “B” is the standard reliability. Level “T” is the high reliability
suitable for space application.
AVX is qualified to supply MIL-PRF-49470/1 parts. These are
unencapsulated ceramic dielectric, switch mode power supply
capacitors. AVX is also qualified to supply MIL-PRF-49470/2 parts.
These are encapsulated ceramic dielectric, switch mode power
supply capacitors.
PLEASE CONTACT THE DLA WEBSITE
http://www.landandmaritime.dla.mil/programs/milspec/DocS
earch.aspx for details on testing, electrical, mechanical and part
number options.
PLEASE CONTACT THE DLA WEBSITE
http://www.landandmaritime.dla.mil/Programs/QmlQpl/ for the
latest QPL (Qualified Products List).
Not RoHS Compliant
M49470 01 474R K NC
Performance
fi
indicating
MIL-PRF-49470
Performance
fi
sheet number
01 – indicating
MIL-PRF-49470/1
02 – indicating
MIL-PRF-49470/2
CapacitanceCharacteristic
P = BP
Q = BQ
R = BR
X = BX
Capacitance
Tolerance
BP:
J = ±5%
K = ±10%
BX, BR & BQ:
K = ±10%
M = ±20%
fi
(Lead Style)
See chart for
Lead configurations
Rated Voltage
Z = 25V
A = 50V
B = 100V
C = 200V
E = 500V
HOW TO ORDER
For “T” level parts, replace the “M” in the pin with “T” (for example
M49470R01474KCN becomes T49470R01474KCN) MIL-
PRF-49470 contains additional capacitors that are not available
in 87106, such as additional lead configurations and lower profile
parts.
On the pages to follow is the general dimensional outline along with
a cross reference from 87106 parts to MIL-PRF-49470 parts.
LEAD CONFIGURATION millimeters (inches)
Symbol (Last digit of military PN,
12th digit of AVX PN) Lead Style fi
(Dimension A)
Formed lead length,
L
N N (straight) Standard N/A
L L (formed) Standard 1.78 ± 0.25 (0.070 ± 0.010)
ML (formed) Standard 1.14 ± 0.25 (0.045 ± 0.010)
J J (formed) Standard 1.78 ± 0.25 (0.070 ± 0.010)
KJ (formed) Standard 1.14 ± 0.25 (0.045 ± 0.010)
AN (straight) Low N/A
BL (formed) Low 1.78 ± 0.25 (0.070 ± 0.010)
D L (formed) Low 1.14 ± 0.25 (0.045 ± 0.010)
C J (formed) Low 1.78 ± 0.25 (0.070 ± 0.010)
F J (formed) Low 1.14 ± 0.25 (0.045 ± 0.010)
Note: Lead options available marked with a “-” as a place holder. See lead configuration column for available lead options to replace the “-”.
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program-
http://www.avx.com/download/software/SpiCalci-AVX.zip
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
011419
/A\V/)I(” A man smur- cow J mi AIM |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
14
DIMENSIONS: millimeters (inches)
MIL-PRF-49470/1
MIL-PRF-49470/1 - capacitor, fixed, ceramic dielectric, switch mode power supply (general purpose and temperature stable), standard reliability
and high reliability unencapsulated, Style PS01.
D
1.397 ±0.254
(0.055 ±0.010)
B
See
Note 4
A
See
Note 4
6.35 (0.250) MIN
2.54 (0.100) MAX
0.635 (0.025) MIN
(See Note 5)
2.54 (0.100) TYP
SEATING PLANE
See Note 3
See Note 6
0.508 ±0.050
(0.020 ±0.002) C
E
6.35 (0.250)
MIN
0.254 ±0.05
(0.010 ±0.002)
0.254 (0.010)
RAD (TYP)
C
E
L
1.27 (0.050) MIN
0.254 (0.010)
RAD (TYP)
C
E
L
1.27 (0.050) MIN
LEAD STYLE N AND A
LEAD STYLE J AND C CIRCUIT DIAGRAM LEAD STYLE L AND B
Case Code C ±0.635 (±0.025) DE (max.) Number of Leads
per side
Min. Max.
111.4 (0.450) 49.5 (1.950) 52.7 (2.075) 12.7 (0.500) 20
220.3 (0.800) 36.8 (1.450) 40.0 (1.535) 22.1 (0.870) 15
311.4 (0.450) 24.1 (0.950) 27.3 (1.075) 12.7 (0.500) 10
410.2 (0.400) 8.89 (0.350) 10.8 (0.425) 11.2 (0.440) 4
56.35 (0.250) 6.20 (0.224) 6.97 (0.275) 7.62 (0.300) 3
631.8 (1.250) 49.5 (1.950) 52.7 (2.075) 34.3 (1.350) 20
NOTES:
1. Dimensions are in millimeters (inches)
2. Unless otherwise specified, tolerances are 0.254 (±0.010).
3. Lead frame configuration is shown as typical above the seating plane.
4. See table I of MIL-PRF-49470/1 for specific maximum A dimension. For maximum B dimension, add 1.65 (0.065) to the
appropriate A dimension. For all lead styles, the number of chips is determined by the capacitance and voltage rating.
5. For case code 5, dimensions shall be 2.54 (0.100) maximum and 0.305 (0.012) minimum.
6. Lead alignment within pin rows shall be within ±0.10 (0.005).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470/1
090518
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 15
Case Code C ±0.635 (±0.025) D ±0.635 (±0.025) E (max) Number of Leads
per side
111.4 (0.450) 54.7 (2.155) 14.7 (0.580) 20
220.3 (0.800) 41.0 (1.615) 24.1 (0.950) 15
311.4 (0.450) 29.3 (1.155) 14.7 (0.580) 10
410.2 (0.400) 12.3 (0.485) 12.3 (0.485) 4
56.35 (0.250) 9.02 (0.355) 9.02 (0.355) 3
631.8 (1.250) 54.7 (2.155) 36.3 (1.430) 20
NOTES:
1. Dimensions are in millimeters (inches)
2. Unless otherwise specified, tolerances are 0.254 (±0.001).
3. See table I of MIL-PRF-49470/2 for specific maximum A dimension. For all lead
styles, the number of chips is determined by the capacitance and voltage rating.
4. Lead alignment within pin rows shall be within ±0.10 (0.004).
DIMENSIONS: millimeters (inches)
MIL-PRF-49470/2
MIL-PRF-49470/2 - capacitor, fixed, ceramic dielectric, switch mode power supply (general purpose and temperature stable), standard reliability
and high reliability encapsulated, Style PS02.
D
0.38 ±0.13
(0.015 ±0.005)
A MAX
See Note 3
4.45 (0.175) MAX
1.02 (0.040) MIN 2.54 (0.100) TYP
SEATING
PLANE
See Note 4
0.50 ±0.05
(0.020 ±0.002) C
E
6.35 (0.250)
MIN
0.254 ±0.05
(0.010 ±0.002)
0.254 (0.010)
RAD (TYP)
C
E
L
1.27 (0.050) MIN
0.254 (0.010)
RAD (TYP)
C
E
L
1.27 (0.050) MIN
LEAD STYLE J AND C CIRCUIT DIAGRAM LEAD STYLE L AND B
LEAD STYLE N AND A
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470/2
011419
, 8 AW) ( A AWN |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
16
MIL-PRF-49470
PIN 1/
AVX PART NUMBER
(for reference only)
2/
 Tolerance Characteristic Case Code Lead
fi
25V
-49470X0-155-Z- SM-53C155-H-120 1.5 K, M BX 5 N, L, M, J, K
-49470X0-185-Z- SM-53C185-H-120 1.8 K, M BX 5 N, L, M, J, K
-49470X0-225-Z- SM-53C225-H-120 2.2 K, M BX 5 N, L, M, J, K
-49470X0-275-Z- SM-53C275-H-240 2.7 K, M BX 5 N, L, M, J, K
-49470X0-335-Z- SM-53C335-H-240 3.3 K, M BX 5 N, L, M, J, K
-49470X0-395-Z- SM-53C395-H-240 3.9 K, M BX 5 N, L, M, J, K
-49470X0-475-Z- SM-53C475-H-240 4.7 K, M BX 5 N, L, M, J, K
-49470X0-565-Z- SM-53C565-H-360 5.6 K, M BX 5 N, L, M, J, K
-49470X0-685-Z- SM-53C685-H-360 6.8 K, M BX 5 N, L, M, J, K
-49470X0-685-Z- SM-43C685-H-120 6.8 K, M BX 4 A, B, D, C, F
-49470X0-825-Z- SM-53C825-H-480 8.2 K, M BX 5 N, L, M, J, K
-49470X0-825-Z- SM-43C825-H-240 8.2 K, M BX 4 A, B, D, C, F
-49470X0-106-Z- SM-53C106-H-650 10 K, M BX 5 N, L, M, J, K
-49470X0-106-Z- SM-43C106-H-240 10 K, M BX 4 A, B, D, C, F
-49470X0-126-Z- SM-43C126-H-240 12 K, M BX 4 N, L, M, J, K
-49470X0-156-Z- SM-43C156-H-360 15 K, M BX 4 N, L, M, J, K
-49470X0-156-Z- SM-33C156-H-120 15 K, M BX 3 A, B, D, C, F
-49470X0-186-Z- SM-43C186-H-360 18 K, M BX 4 N, L, M, J, K
-49470X0-186-Z- SM-33C186-H-120 18 K, M BX 3 A, B, D, C, F
-49470X0-226-Z- SM-43C226-H-480 22 K, M BX 4 N, L, M, J, K
-49470X0-226-Z- SM-33C226-H-240 22 K, M BX 3 A, B, D, C, F
-49470X0-276-Z- SM-43C276-H-480 27 K, M BX 4 N, L, M, J, K
-49470X0-276-Z- SM-33C276-H-240 27 K, M BX 3 A, B, D, C, F
-49470X0-336-Z- SM-43C336-H-650 33 K, M BX 4 N, L, M, J, K
-49470X0-336-Z- SM-33C336-H-240 33 K, M BX 3 A, B, D, C, F
-49470X0-396-Z- SM-33C396-H-360 39 K, M BX 3 N, L, M, J, K
-49470X0-396-Z- SM-13C396-H-240 39 K, M BX 1 A, B, D, C, F
-49470X0-476-Z- SM-33C476-H-480 47 K, M BX 3 N, L, M, J, K
-49470X0-476-Z- SM-13C476-H-360 47 K, M BX 1 A, B, D, C, F
-49470X0-566-Z- SM-33C566-H-480 56 K, M BX 3 N, L, M, J, K
-49470X0-566-Z- SM-13C566-H-360 56 K, M BX 1 A, B, D, C, F
-49470X0-686-Z- SM-33C686-H-480 68 K, M BX 3 N, L, M, J, K
-49470X0-686-Z- SM-13C686-H-360 68 K, M BX 1 A, B, D, C, F
-49470X0-826-Z- SM-33C826-H-650 82 K, M BX 3 N, L, M, J, K
-49470X0-826-Z- SM-13C826-H-360 82 K, M BX 1 A, B, D, C, F
-49470X0-107-Z- SM-13C107-H-480 100 K, M BX 1 N, L, M, J, K
-49470X0-107-Z- SM-23C107-H-360 100 K, M BX 2 A, B, D, C, F
-49470X0-127-Z- SM-13C127-H-650 120 K, M BX 1 N, L, M, J, K
-49470X0-127-Z- SM-23C127-H-360 120 K, M BX 2 A, B, D, C, F
-49470X0-157-Z- SM-23C157-H-480 150 K, M BX 2 N, L, M, J, K
-49470X0-157-Z- SM-63C157-H-240 150 K, M BX 6 A, B, D, C, F
-49470X0-187-Z- SM-23C187-H-650 180 K, M BX 2 N, L, M, J, K
-49470X0-187-Z- SM-63C187-H-360 180 K, M BX 6 A, B, D, C, F
-49470X0-227-Z- SM-63C227-H-360 220 K, M BX 6 N, L, M, J, K
-49470X0-277-Z- SM-63C277-H-480 270 K, M BX 6 N, L, M, J, K
-49470X0-337-Z- SM-63C337-H-650 330 K, M BX 6 N, L, M, J, K
-49470X0-397-Z- SM-63C397-H-650 390 K, M BX 6 N, L, M, J, K
50V
-49470P0-563-A- SM-55A563-H-120 0.056 J, K BP 5 N, L, M, J, K
-49470P0-683-A- SM-55A683-H-240 0.068 J, K BP 5 N, L, M, J, K
-49470P0-823-A- SM-55A823-H-240 0.082 J, K BP 5 N, L, M, J, K
-49470P0-104-A- SM-55A104-H-240 0.1 J, K BP 5 N, L, M, J, K
-49470P0-124-A- SM-55A124-H-360 0.12 J, K BP 5 N, L, M, J, K
-49470P0 -154-A- SM-55A154-H-360 0.15 J, K BP 5 N, L, M, J, K
-49470P0-184-A- SM-55A184-H-480 0.18 J, K BP 5 N, L, M, J, K
-49470P0-184-A- SM-45A184-H-240 0.18 J, K BP 4A, B, D, C, F
1/ Complete PIN shall include additional symbols replacing dashes (from left to right): product level (M for B level, or T for T level), part style (1 for unencapsulated, 2 for encapsulated),
capacitance tolerance, lead configuration
2/ Complete AVX Part Number (provided for reference only) shall include additional symbols replacing dashes (from left to right): part style (0 for unencapsulated and 9 for
encapsulated), capacitance tolerance, lead configuration
The last 3 digits of the AVX Part Number represent the chip height of the unencapsulated version. For the encapsulated version, replace the last 3 digits as follows:
(120 replace with 270, 240 replace with 390, 360 replace with 530, 480 replace with 660 and 650 replace with 800).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
090518
y @ /‘\'/) ( n A A mom ems comm AIM |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 17
MIL-PRF-49470
PIN 1/
AVX PART NUMBER
(for reference only)
2/
 Tolerance Characteristic Case Code Lead
fi
-49470P0-224-A- SM-55A224-H-480 0.22 J, K BP 5 N, L, M, J, K
-49470P0-224-A- SM-45A224-H-240 0.22 J, K BP 4 A, B, D, C, F
-49470P0-274-A- SM-55A274-H-650 0.27 J, K BP 5 N, L, M, J, K
-49470P0-274-A- SM-45A274-H-240 0.27 J, K BP 4 A, B, D, C, F
-49470P0-334-A- SM-45A334-H-360 0.33 J, K BP 4 N, L, M, J, K
-49470P0-394-A- SM-45A394-H-480 0.39 J, K BP 4 N, L, M, J, K
-49470P0-474-A- SM-45A474-H-480 0.47 J, K BP 4 N, L, M, J, K
-49470P0-564-A- SM-45A564-H-650 0.56 J, K BP 4 N, L, M, J, K
-49470P0-564-A- SM-35A564-H-240 0.56 J, K BP 3 A, B, D, C, F
-49470P0-684-A- SM-35A684-H-240 0.68 J, K BP 3 N, L, M, J, K
-49470P0-824-A- SM-35A824-H-240 0.82 J, K BP 3 N, L, M, J, K
-49470P0-105-A- SM-35A105-H-360 1 J, K BP 3 N, L, M, J, K
-49470X0-105-A- SM-55C105-H-120 1 K, M BX 5 N, L, M, J, K
-49470P0-125-A- SM-35A125-H-360 1.2 J, K BP 3 N, L, M, J, K
-49470X0-125-A- SM-55C125 -H-120 1.2 K, M BX 5 N, L, M, J, K
-49470P0-155-A- SM-35A155-H-480 1.5 J, K BP 3 N, L, M, J, K
-49470X0-155-A- SM-55C155-H-240 1.5 K, M BX 5 N, L, M, J, K
-49470P0-185-A- SM-35A185-H-480 1.8 J, K BP 3 N, L, M, J, K
-49470X0-185-A- SM-55C185-H-240 1.8 K, M BX 5 N, L, M, J, K
-49470P0-225-A- SM-35A225-H-650 2.2 J, K BP 3 N, L, M, J, K
-49470X0-225-A- SM-55C225-H-240 2.2 K, M BX 5 N, L, M, J, K
-49470X0-275-A- SM-55C275-H-360 2.7 K, M BX 5 N, L, M, J, K
-49470X0-335-A- SM-55C335-H-360 3.3 K, M BX 5 N, L, M, J, K
-49470X0-395-A- SM-55C395-H-480 3.9 K, M BX 5 N, L, M, J, K
-49470X0-475-A- SM-55C475-H-480 4.7 K, M BX 5 N, L, M, J, K
-49470X0-475-A- SM-45C475-H-240 4.7 K, M BX 4 A, B, D, C, F
-49470X0-565-A- SM-55C565-H-650 5.6 K, M BX 5 N, L, M, J, K
-49470X0-565-A- SM-45C565-H-240 5.6 K, M BX 4 A, B, D, C, F
-49470X0-685-A- SM-45C685-H-360 6.8 K, M BX 4 N, L, M, J, K
-49470X0-825-A- SM-45C825-H-360 8.2 K, M BX 4 N, L, M, J, K
-49470X0-106-A- SM-45C106-H-480 10 K, M BX 4 N, L, M, J, K
-49470X0-126-A- SM-45C126-H-480 12 K, M BX 4 N, L, M, J, K
-49470X0-156-A- SM-45C156-H-650 15 K, M BX 4 N, L, M, J, K
-49470X0-156-A- SM-35C156-H-240 15 K, M BX 3 A, B, D, C, F
-49470X0-186-A- SM-35C186-H-240 18 K, M BX 3 N, L, M, J, K
-49470X0-226-A- SM-35C226-H-360 22 K, M BX 3 N, L, M, J, K
-49470X0-276-A- SM-35C276-H-360 27 K, M BX 3 N, L, M, J, K
-49470X0-336-A- SM-35C336-H-360 33 K, M BX 3 N, L, M, J, K
-49470X0-396-A- SM-35C396-H-480 39 K, M BX 3 N, L, M, J, K
-49470X0-476-A- SM-35C476-H-650 47 K, M BX 3 N, L, M, J, K
-49470X0-476-A- SM-25C476-H-240 47 K, M BX 2 A, B, D, C, F
-49470X0-566-A- SM-15C566-H-360 56 K, M BX 1 N, L, M, J, K
-49470X0-566-A- SM-25C566-H-240 56 K, M BX 2 A, B, D, C, F
-49470X0-686-A- SM-15C686-H-480 68 K, M BX 1 N, L, M, J, K
-49470X0-686-A- SM-25C686-H-360 68 K, M BX 2 A, B, D, C, F
-49470X0-826-A- SM-15C826-H-480 82 K, M BX 1 N, L, M, J, K
-49470X0-826-A- SM-25C826-H-360 82 K, M BX 2 A, B, D, C, F
-49470X0-107-A- SM-15C107-H-650 100 K, M BX 1 N, L, M, J, K
-49470X0-107-A- SM-25C107-H-480 100 K, M BX 2 A, B, D, C, F
-49470X0-127-A- SM-25C127-H-480 120 K, M BX 2 N, L, M, J, K
-49470X0-157-A- SM-25C157-H-650 150 K, M BX 2 N, L, M, J, K
-49470X0-187-A- SM-65C187-H-480 180 K, M BX 6 N, L, M, J, K
-49470X0-227-A- SM-65C227-H-480 220 K, M BX 6 N, L, M, J, K
-49470X0-277-A- SM-65C277-H-650 270 K, M BX 6 N, L, M, J, K
100V
-49470P0-473-B- SM-51A473-H-240 0.047 J, K BP 5 N, L, M, J, K
-49470P0-563-B- SM-51A563-H-240 0.056 J, K BP 5 N, L, M, J, K
1/ Complete PIN shall include additional symbols replacing dashes (from left to right): product level (M for B level, or T for T level), part style (1 for unencapsulated, 2 for encapsulated),
capacitance tolerance, lead configuration
2/ Complete AVX Part Number (provided for reference only) shall include additional symbols replacing dashes (from left to right): part style (0 for unencapsulated and 9 for
encapsulated), capacitance tolerance, lead configuration
The last 3 digits of the AVX Part Number represent the chip height of the unencapsulated version. For the encapsulated version, replace the last 3 digits as follows:
(120 replace with 270, 240 replace with 390, 360 replace with 530, 480 replace with 660 and 650 replace with 800).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
011419
y a /‘\'/) ( n A A mam ems comm [AMI |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
18
MIL-PRF-49470
PIN 1/
AVX PART NUMBER
(for reference only)
2/
 Tolerance Characteristic Case Code Lead
fi
-49470P0-683-B- SM-51A683-H-240 0.068 J, K BP 5 N, L, M, J, K
-49470P0-823-B- SM-51A823-H-240 0.082 J, K BP 5 N, L, M, J, K
-49470P0-104-B- SM-51A104-H-360 0.1 J, K BP 5 N, L, M, J, K
-49470P0-124-B- SM-51A124-H-360 0.12 J, K BP 5 N, L, M, J, K
-49470P0 -154-B- SM-51A154-H-480 0.15 J, K BP 5 N, L, M, J, K
-49470P0 -154-B- SM-41A154-H-240 0.15 J, K BP 4 A, B, D, C, F
-49470P0-184-B- SM-51A184-H-650 0.18 J, K BP 5 N, L, M, J, K
-49470P0-184-B- SM-41A184-H-240 0.18 J, K BP 4 A, B, D, C, F
-49470P0-224-B- SM-51A224-H-650 0.22 J, K BP 5 N, L, M, J, K
-49470P0-224-B- SM-41A224-H-240 0.22 J, K BP 4 A, B, D, C, F
-49470P0-274-B- SM-41A274-H-360 0.27 J, K BP 4 N, L, M, J, K
-49470P0-334-B- SM-41A334-H-480 0.33 J, K BP 4 N, L, M, J, K
-49470P0-394-B- SM-41A394-H-480 0.39 J, K BP 4 N, L, M, J, K
-49470P0-474-B- SM-41A474-H-650 0.47 J, K BP 4 N, L, M, J, K
-49470P0-474-B- SM-31A474-H-240 0.47 J, K BP 3 A, B, D, C, F
-49470P0-564-B- SM-41A564-H-650 0.56 J, K BP 4 N, L, M, J, K
-49470P0-564-B- SM-31A564-H-240 0.56 J, K BP 3 A, B, D, C, F
-49470P0-684-B- SM-31A684-H-240 0.68 J, K BP 3 N, L, M, J, K
-49470X0-684-B- SM-51C684-H-120 0.68 K, M BX 5 N, L, M, J, K
-49470P0-824-B- SM-31A824-H-360 0.82 J, K BP 3 N, L, M, J, K
-49470X0-824-B- SM-51C824-H-240 0.82 K, M BX 5 N, L, M, J, K
-49470P0-105-B- SM-31A105-H-360 1 J, K BP 3 N, L, M, J, K
-49470X0-105-B- SM-51C105-H-240 1 K, M BX 5 N, L, M, J, K
-49470P0-125-B- SM-31A125-H-480 1.2 J, K BP 3 N, L, M, J, K
-49470X0-125-B- SM-51C125-H-240 1.2 K, M BX 5 N, L, M, J, K
-49470P0-155-B- SM-31A155-H-480 1.5 J, K BP 3 N, L, M, J, K
-49470X0-155-B- SM-51C155-H-360 1.5 K, M BX 5 N, L, M, J, K
-49470P0-185-B- SM-31A185-H-650 1.8 J, K BP 3 N, L, M, J, K
-49470X0-185-B- SM-51C185-H-360 1.8 K, M BX 5 N, L, M, J, K
-49470X0-225-B- SM-51C225-H-480 2.2 K, M BX 5 N, L, M, J, K
-49470X0-225-B- SM-41C225-H-240 2.2 K, M BX 4 A, B, D, C, F
-49470X0-275-B- SM-51C275-H-480 2.7 K, M BX 5 N, L, M, J, K
-49470X0-335-B- SM-51C335-H-650 3.3 K, M BX 5 N, L, M, J, K
-49470X0-335-B- SM-41C335-H-240 3.3 K, M BX 4 A, B, D, C, F
-49470X0-395-B- SM-41C395-H-360 3.9 K, M BX 4 N, L, M, J, K
-49470X0-475-B- SM-41C475-H-360 4.7 K, M BX 4 N, L, M, J, K
-49470X0-565-B- SM-41C565-H-480 5.6 K, M BX 4 N, L, M, J, K
-49470X0-685-B- SM-41C685-H-480 6.8 K, M BX 4 N, L, M, J, K
-49470X0-825-B- SM-41C825-H-650 8.2 K, M BX 4 N, L, M, J, K
-49470X0-825-B- SM-31C825-H-240 8.2 K, M BX 3 A, B, D, C, F
-49470X0-106-B- SM-31C106-H-240 10 K, M BX 3 N, L, M, J, K
-49470X0-126-B- SM-31C126-H-240 12 K, M BX 3 N, L, M, J, K
-49470X0-156-B- SM-31C156-H-360 15 K, M BX 3 N, L, M, J, K
-49470X0-186-B- SM-31C186-H-360 18 K, M BX 3 N, L, M, J, K
-49470X0-226-B- SM-31C226-H-480 22 K, M BX 3 N, L, M, J, K
-49470X0-276-B- SM-31C276-H-650 27 K, M BX 3 N, L, M, J, K
-49470X0-276-B- SM-21C276-H-240 27 K, M BX 2 A, B, D, C, F
-49470X0-336-B- SM-11C336-H-360 33 K, M BX 1 N, L, M, J, K
-49470X0-336-B- SM-21C336-H-240 33 K, M BX 2 A, B, D, C, F
-49470X0-396-B- SM-11C396-H-480 39 K, M BX 1 N, L, M, J, K
-49470X0-396-B- SM-21C396-H-360 39 K, M BX 2 A, B, D, C, F
-49470X0-476-B- SM-11C476-H-480 47 K, M BX 1 N, L, M, J, K
-49470X0-476-B- SM-21C476-H-360 47 K, M BX 2 A, B, D, C, F
-49470X0-566-B- SM-11C566-H-650 56 K, M BX 1 N, L, M, J, K
-49470X0-686-B- SM-21C686-H-480 68 K, M BX 2 N, L, M, J, K
-49470X0-826-B- SM-21C826-H-650 82 K, M BX 2 N, L, M, J, K
-49470X0-107-B- SM-61C107-H-360 100 K, M BX 6 N, L, M, J, K
1/ Complete PIN shall include additional symbols replacing dashes (from left to right): product level (M for B level, or T for T level), part style (1 for unencapsulated, 2 for encapsulated),
capacitance tolerance, lead configuration
2/ Complete AVX Part Number (provided for reference only) shall include additional symbols replacing dashes (from left to right): part style (0 for unencapsulated and 9 for
encapsulated), capacitance tolerance, lead configuration
The last 3 digits of the AVX Part Number represent the chip height of the unencapsulated version. For the encapsulated version, replace the last 3 digits as follows:
(120 replace with 270, 240 replace with 390, 360 replace with 530, 480 replace with 660 and 650 replace with 800).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
090518
, 8 AW) ( A AIM |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 19
MIL-PRF-49470
PIN 1/
AVX PART NUMBER
(for reference only)
2/
 Tolerance Characteristic Case Code Lead
fi
-49470X0-127-B- SM-61C127-H-360 120 K, M BX 6 N, L, M, J, K
-49470X0-157-B- SM-61C157-H-480 150 K, M BX 6 N, L, M, J, K
-49470X0-187-B- SM-61C187-H-540 180 K, M BX 6 N, L, M, J, K
200V
-49470P0-223-C- SM-52A223-H-120 0.022 J, K BP 5 N, L, M, J, K
-49470P0-273-C- SM-52A273-H-240 0.027 J, K BP 5 N, L, M, J, K
-49470P0-333-C- SM-52A333-H-240 0.033 J, K BP 5 N, L, M, J, K
-49470P0-393-C- SM-52A393-H-240 0.039 J, K BP 5 N, L, M, J, K
-49470P0-473-C- SM-52A473-H-360 0.047 J, K BP 5 N, L, M, J, K
-49470P0-563-C- SM-52A563-H-360 0.056 J, K BP 5 N, L, M, J, K
-49470P0-683-C- SM-52A683-H-480 0.068 J, K BP 5 N, L, M, J, K
-49470P0-683-C- SM-42A683-H-120 0.068 J, K BP 4 A, B, D, C, F
-49470P0-823-C- SM-52A823-H-480 0.082 J, K BP 5 N, L, M, J, K
-49470P0-823-C- SM-42A823-H-240 0.082 J, K BP 4 A, B, D, C, F
-49470P0-104-C- SM-52A104-H-650 0.1 J, K BP 5 N, L, M, J, K
-49470P0-104-C- SM-42A104-H-240 0.1 J, K BP 4 A, B, D, C, F
-49470P0-124-C- SM-42A124-H-360 0.12 J, K BP 4 N, L, M, J, K
-49470P0 -154-C- SM-42A154-H-360 0.15 J, K BP 4 N, L, M, J, K
-49470P0-184-C- SM-42A184-H-480 0.18 J, K BP 4 N, L, M, J, K
-49470P0-224-C- SM-42A224-H-480 0.22 J, K BP 4 N, L, M, J, K
-49470P0-274-C- SM-42A274-H-650 0.27 J, K BP 4 N, L, M, J, K
-49470P0-274-C- SM-32A274-H-240 0.27 J, K BP 3 A, B, D, C, F
-49470P0-334-C- SM-32A334-H-240 0.33 J, K BP 3 N, L, M, J, K
-49470P0-394-C- SM-32A394-H-240 0.39 J, K BP 3 N, L, M, J, K
-49470P0-474-C- SM-32A474-H-360 0.47 J, K BP 3 N, L, M, J, K
-49470R0-474-C- SM-52C474-H-240 0.47 K, M BR 5 N, L, M, J, K
-49470P0-564-C- SM-32A564-H-480 0.56 J, K BP 3 N, L, M, J, K
-49470P0-564-C- SM-32A564-H-360 0.56 J, K BP 3 N, L, M, J, K
-49470R0-564-C- SM-52C564-H-240 0.56 K, M BR 5 N, L, M, J, K
-49470P0-684-C- SM-32A684-H-480 0.68 J, K BP 3 N, L, M, J, K
-49470R0-684-C- SM-52C684-H-360 0.68 K, M BR 5 N, L, M, J, K
-49470P0-824-C- SM-32A824-H-650 0.82 J, K BP 3 N, L, M, J, K
-49470R0-824-C- SM-52C824-H-360 0.82 K, M BR 5 N, L, M, J, K
-49470P0-105-C- SM-32A105-H-650 1 J, K BP 3 N, L, M, J, K
-49470R0-105-C- SM-52C105-H-480 1 K, M BR 5 N, L, M, J, K
-49470R0-105-C- SM-42C105-H-120 1 K, M BR 4 A, B, D, C, F
-49470R0-125-C- SM-52C125-H-480 1.2 K, M BR 5 N, L, M, J, K
-49470R0-125-C- SM-42C125-H-240 1.2 K, M BR 4 A, B, D, C, F
-49470R0-155-C- SM-52C155-H-650 1.5 K, M BR 5 N, L, M, J, K
-49470R0-155-C- SM-42C155-H-240 1.5 K, M BR 4 A, B, D, C, F
-49470R0-185-C- SM-42C185-H-360 1.8 K, M BR 4 N, L, M, J, K
-49470R0-225-C- SM-42C225-H-360 2.2 K, M BR 4 N, L, M, J, K
-49470R0-275-C- SM-42C275-H-480 2.7 K, M BR 4 N, L, M, J, K
-49470R0-335-C- SM-42C335-H-480 3.3 K, M BR 4 N, L, M, J, K
-49470R0-395-C- SM-42C395-H-650 3.9 K, M BR 4 N, L, M, J, K
-49470R0-395-C- SM-32C395-H-240 3.9 K, M BR 3 A, B, D, C, F
-49470R0-475-C- SM-32C475-H-240 4.7 K, M BR 3 N, L, M, J, K
-49470R0-565-C- SM-32C565-H-240 5.6 K, M BR 3 N, L, M, J, K
-49470R0-685-C- SM-32C685-H-360 6.8 K, M BR 3 N, L, M, J, K
-49470R0-825-C- SM-32C825-H-360 8.2 K, M BR 3 N, L, M, J, K
-49470R0-106-C- SM-32C106-H-480 10 K, M BR 3 N, L, M, J, K
-49470R0-126 -C- SM-32C126-H-650 12 K, M BR 3 N, L, M, J, K
-49470R0-126 -C- SM-22C126-H-240 12 K, M BR 2 A, B, D, C, F
-49470R0-156-C- SM-12C156-H-360 15 K, M BR 1 N, L, M, J, K
-49470R0-156-C- SM-22C156-H-240 15 K, M BR 2 A, B, D, C, F
-49470R0-186-C- SM-12C186-H-480 18 K, M BR 1 N, L, M, J, K
-49470R0-186-C- SM-22C186-H-360 18 K, M BR 2 A, B, D, C, F
1/ Complete PIN shall include additional symbols replacing dashes (from left to right): product level (M for B level, or T for T level), part style (1 for unencapsulated, 2 for encapsulated),
capacitance tolerance, lead configuration
2/ Complete AVX Part Number (provided for reference only) shall include additional symbols replacing dashes (from left to right): part style (0 for unencapsulated and 9 for
encapsulated), capacitance tolerance, lead configuration
The last 3 digits of the AVX Part Number represent the chip height of the unencapsulated version. For the encapsulated version, replace the last 3 digits as follows:
(120 replace with 270, 240 replace with 390, 360 replace with 530, 480 replace with 660 and 650 replace with 800).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
011419
, 8 AW) ( A AIM |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
20
MIL-PRF-49470
PIN 1/
AVX PART NUMBER
(for reference only)
2/
 Tolerance Characteristic Case Code Lead
fi
-49470R0-226-C- SM-12C226-H-650 22 K, M BR 1 N, L, M, J, K
-49470R0-226-C- SM-22C226-H-360 22 K, M BR 2 A, B, D, C, F
-49470R0-276-C- SM-12C276-H-650 27 K, M BR 1 N, L, M, J, K
-49470R0-276-C- SM-22C276-H-480 27 K, M BR 2 A, B, D, C, F
-49470R0-336-C- SM-22C336-H-480 33 K, M BR 2 N, L, M, J, K
-49470R0-396-C- SM-22C396-H-650 39 K, M BR 2 N, L, M, J, K
-49470R0-476-C- SM-62C476-H-240 47 K, M BR 6 N, L, M, J, K
-49470R0-566-C- SM-62C566-H-360 56 K, M BR 6 N, L, M, J, K
-49470R0-686-C- SM-62C686-H-360 68 K, M BR 6 N, L, M, J, K
-49470R0-826-C- SM-62C826-H-480 82 K, M BR 6 N, L, M, J, K
-49470R0-107-C- SM-62C107-H-650 100 K, M BR 6 N, L, M, J, K
-49470R0-127-C- SM-62C127-H-650 120 K, M BR 6 N, L, M, J, K
500V
-49470P0-103-E- SM-57A103-H-120 0.01 J, K BP 5 N, L, M, J, K
-49470P0-123-E- SM-57A123-H-240 0.012 J, K BP 5 N, L, M, J, K
-49470P0 -153-E- SM-57A153-H-240 0.015 J, K BP 5 N, L, M, J, K
-49470P0-183-E- SM-57A183-H-240 0.018 J, K BP 5 N, L, M, J, K
-49470P0-223-E- SM-57A223-H-360 0.022 J, K BP 5 N, L, M, J, K
-49470P0-273-E- SM-57A273-H-360 0.027 J, K BP 5 N, L, M, J, K
-49470P0-333-E- SM-57A333-H-480 0.033 J, K BP 5 N, L, M, J, K
-49470P0-333-E- SM-47A333-H-240 0.033 J, K BP 4 A, B, C, D, F
-49470P0-393-E- SM-57A393-H-480 0.039 J, K BP 5 N, L, M, J, K
-49470P0-393-E- SM-47A393-H-240 0.039 J, K BP 4 A, B, C, D, F
-49470P0-473-E- SM-57A473-H-650 0.047 J, K BP 5 N, L, M, J, K
-49470P0-473-E- SM-47A473-H-360 0.047 J, K BP 4 A, B, C, D, F
-49470P0-563-E- SM-47A563-H-360 0.056 J, K BP 4 N, L, M, J, K
-49470P0-683-E- SM-47A683-H-360 0.068 J, K BP 4 N, L, M, J, K
-49470P0-823-E- SM-47A823-H-480 0.082 J, K BP 4 N, L, M, J, K
-49470P0-104-E- SM-47A104-H-480 0.1 J, K BP 4 N, L, M, J, K
-49470P0-124-E- SM-47A124-H-650 0.12 J, K BP 4 N, L, M, J, K
-49470P0-124-E- SM-37A124-H-240 0.12 J, K BP 3 A, B, C, D, F
-49470P0 -154-E- SM-37A154-H-240 0.15 J, K BP 3 N, L, M, J, K
-49470Q0-154-E- SM-57C154-H-120 0.15 K, M BQ 5 N, L, M, J, K
-49470P0-184-E- SM-37A184-H-240 0.18 J, K BP 3 N, L, M, J, K
-49470Q0-184-E- SM-57C184-H-240 0.18 K, M BQ 5 N, L, M, J, K
-49470P0-224-E- SM-37A224-H-360 0.22 J, K BP 3 N, L, M, J, K
-49470Q0-224-E- SM-57C224-H-240 0.22 K, M BQ 5 N, L, M, J, K
-49470P0-274-E- SM-37A274-H-360 0.27 J, K BP 3 N, L, M, J, K
-49470Q0-274-E- SM-57C274-H-240 0.27 K, M BQ 5 N, L, M, J, K
-49470P0-334-E- SM-37A334-H-480 0.33 J, K BP 3 N, L, M, J, K
-49470Q0-334-E- SM-57C334-H-360 0.33 K, M BQ 5 N, L, M, J, K
-49470P0-394-E- SM-37A394-H-650 0.39 J, K BP 3 N, L, M, J, K
-49470Q0-394-E- SM-57C394-H-360 0.39 K, M BQ 5 N, L, M, J, K
-49470Q0-474-E- SM-57C474-H-360 0.47 K, M BQ 5 N, L, M, J, K
-49470Q0-564-E- SM-57C564-H-480 0.56 K, M BQ 5 N, L, M, J, K
-49470Q0-564-E- SM-47C564-H-240 0.56 K, M BQ 4 A, B, D, C, F
-49470Q0-684-E- SM-57C684-H-650 0.68 K, M BQ 5 N, L, M, J, K
-49470Q0-684-E- SM-47C684-H-240 0.68 K, M BQ 4 A, B, D, C, F
-49470Q0-824-E- SM-47C824-H-360 0.82 K, M BQ 4 N, L, M, J, K
-49470Q0-105-E- SM-47C105-H-360 1 K, M BQ 4 N, L, M, J, K
-49470Q0-125-E- SM-47C125-H-360 1.2 K, M BQ 4 N, L, M, J, K
-49470Q0-155-E- SM-47C155-H-480 1.5 K, M BQ 4 N, L, M, J, K
-49470Q0-185-E- SM-47C185-H-650 1.8 K, M BQ 4 N, L, M, J, K
-49470Q0-185-E- SM-37C185-H-240 1.8 K, M BQ 3 A, B, D, C, F
-49470Q0-225-E- SM-37C225-H-240 2.2 K, M BQ 3 N, L, M, J, K
-49470Q0-275-E- SM-37C275-H-360 2.7 K, M BQ 3 N, L, M, J, K
-49470Q0-335-E- SM-37C335-H-360 3.3 K, M BQ 3 N, L, M, J, K
1/ Complete PIN shall include additional symbols replacing dashes (from left to right): product level (M for B level, or T for T level), part style (1 for unencapsulated, 2 for encapsulated),
capacitance tolerance, lead configuration
2/ Complete AVX Part Number (provided for reference only) shall include additional symbols replacing dashes (from left to right): part style (0 for unencapsulated and 9 for
encapsulated), capacitance tolerance, lead configuration
The last 3 digits of the AVX Part Number represent the chip height of the unencapsulated version. For the encapsulated version, replace the last 3 digits as follows:
(120 replace with 270, 240 replace with 390, 360 replace with 530, 480 replace with 660 and 650 replace with 800).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
090518
”M A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 21
MIL-PRF-49470
PIN 1/
AVX PART NUMBER
(for reference only)
2/
 Tolerance Characteristic Case Code Lead
fi
-49470Q0-395-E- SM-37C395-H-360 3.9 K, M BQ 3 N, L, M, J, K
-49470Q0-475-E- SM-37C475-H-480 4.7 K, M BQ 3 N, L, M, J, K
-49470Q0-565-E- SM-37C565-H-650 5.6 K, M BQ 3 N, L, M, J, K
-49470Q0-565-E- SM-27C565-H-240 5.6 K, M BQ 2 A, B, D, C, F
-49470Q0-685-E- SM-17C685-H-480 6.8 K, M BQ 1 N, L, M, J, K
-49470Q0-685-E- SM-27C685-H-240 6.8 K, M BQ 2 A, B, D, C, F
-49470Q0-825-E- SM-17C825-H-480 8.2 K, M BQ 1 N, L, M, J, K
-49470Q0-825-E- SM-27C825-H-360 8.2 K, M BQ 2 A, B, D, C, F
-49470Q0-106-E- SM-17C106-H-480 10 K, M BQ 1 N, L, M, J, K
-49470Q0-106-E- SM-27C106-H-360 10 K, M BQ 2 A, B, D, C, F
-49470Q0-126-E- SM-17C126-H-650 12 K, M BQ 1 N, L, M, J, K
-49470Q0-126-E- SM-27C126-H-480 12 K, M BQ 2 A, B, D, C, F
-49470Q0-156-E- SM-27C156-H-650 15 K, M BQ 2 N, L, M, J, K
-49470Q0-186-E- SM-27C186-H-650 18 K, M BQ 2 N, L, M, J, K
-49470Q0-226-E- SM-67C226-H-360 22 K, M BQ 6 N, L, M, J, K
-49470Q0-276-E- SM-67C276-H-360 27 K, M BQ 6 N, L, M, J, K
-49470Q0-336-E- SM-67C336-H-480 33 K, M BQ 6 N, L, M, J, K
-49470Q0-396-E- SM-67C396-H-650 39 K, M BQ 6 N, L, M, J, K
1/ Complete PIN shall include additional symbols replacing dashes (from left to right): product level (M for B level, or T for T level), part style (1 for unencapsulated, 2 for
encapsulated), capacitance tolerance, lead configuration
2/ Complete AVX Part Number (provided for reference only) shall include additional symbols replacing dashes (from left to right): part style (0 for unencapsulated and 9 for
encapsulated), capacitance tolerance, lead configuration
The last 3 digits of the AVX Part Number represent the chip height of the unencapsulated version. For the encapsulated version, replace the last 3 digits as follows:
(120 replace with 270, 240 replace with 390, 360 replace with 530, 480 replace with 660 and 650 replace with 800).
SMPS Stacked MLC Capacitors
SM Style SM Military Styles MIL-PRF-49470
011419
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
22
Case Code A (max.)
(See Note 2)
B (max.)
(See Note 2) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads
per side
116.5 (0.650) 18.2 (0.715) 11.4 (0.450) 52.1 (2.050) 12.7 (0.500) 20
216.5 (0.650) 18.2 (0.715) 20.3 (0.800) 38.4 (1.510) 22.1 (0.870) 15
316.5 (0.650) 18.2 (0.715) 11.4 (0.450) 26.7 (1.050) 12.7 (0.500) 10
416.5 (0.650) 18.2 (0.715) 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
516.5 (0.650) 18.2 (0.715) 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
616.5 (0.650) 18.2 (0.715) 31.8 (1.250) 52.1 (2.050) 34.3 (1.350) 20
NOTES:
1. Unless otherwise specified, tolerances 0.254 (±0.010).
2. A” dimensions are maximum (see tables on pages 26 thru 29 for specific part number dimensions).
3. “N” straight leads; “J” leads formed in.
4. For case code 5, dimensions shall be 2.54 (0.100) maximum, 0.305 (0.012) minimum.
DIMENSIONS: millimeters (inches)
0.254 (0.010) RAD. TYP.
1.778 (0.070)
±0.254 (0.010)
1.905 (0.075)
±0.635 (0.025)
TYP.
SCHEMATIC
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
“J” STYLE LEADS
“N” STYLE LEADS
(NOTE 4)
SMPS Stacked MLC Capacitors
SM Style SM Military Styles DSCC Dwg. #87106 & #88011
090518
”M A man emu? c AXXOLC |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 23
Ordering Information
Part Number: The complete part number shall be as follows:
X7R: 87106 XXX
Drawing number Dash number
(see list)
Vendor CAGE
number Vendor name
and address
Contact factory AVX Corporation
Ordering Data. The contract or purchase order should specify the
following:
a. Complete part number.
b. Requirements for delivery of one copy of the quality
conformance inspection data with each shipment of parts by
the manufacturer.
c. Whether the manufacturer performs the group B tests, or
provides certification of compliance with group B requirements.
d. Requirements for notification of change of products to
acquiring activity, if applicable.
e. Requirements for packaging and packing.
Source of Supply.
Performance Characteristics
Operating Temperature Range. The operating temperature range
shall be -55°C to +125°C.
Electrical Characteristics.
Rated Voltage. See tables on pages 26-29.
Capacitance. Measured in accordance with method 305 of MIL-
STD-202 (1KHz at 1.0Vrms, open circuit voltage, at +25°C).
Dissipation Factor (+25°C). X7R: Dissipation factor shall be
2.5 percent maximum (measured under the same conditions
as capacitance.) C0G: Dissipation factor shall be 0.15 percent
maximum.
fi
DSCC Dwg. Bias = 0 volt Bias = rated voltage
88011 All Voltages 0±30 ppm/°C 0±30 ppm/°C
87106 50 WVDC
and 100 WVDC
±15% +15, -25%
87106 200 WVDC ±15% +15, -40%
87106 500 WVDC ±15% +15, -50%
Insulation Resistance.
At +25°C, rated voltage: 100K or 1,000 MΩ-μF, whichever
is less.
At +125°C, rated voltage: 10K or 100 MΩ-μF, whichever is
less.
Dielectric Withstanding Voltage. Dielectric withstanding voltage
shall be 250 percent of rated voltage except 500V rated parts at
150 percent of rated voltage.
Capacitance Tolerance. J = ±5 percent, K = ±10 percent,
M = ±20 percent.
Solderability of Terminals. In accordance with MIL-PRF-
49470.
Resistance to Soldering Heat. In accordance with MIL-STD-
202, method 210, condition B, for 20 seconds.
Shock. In accordance with MIL-PRF-49470.
Immersion Cycling. In accordance with MIL-PRF-49470.
Moisture Resistance. In accordance with MIL-PRF-49470.
Life. Life shall be 200 percent of rated voltage except 500V rated
parts at 120 percent of rated voltage applied at +125°C for 1,000
hours.
Thermal Shock. MIL-STD-202, method 107, test condition A, except
high temperature is +125°C.
Voltage Conditioning. In accordance with MIL-PRF-49470, except
500V rated parts at 120 percent of rated voltage at +125°C.
Terminal Strength. MIL-STD-202, method 211, condition B, except
that each lead shall be bent away from the body 90 degrees from
the original position and back, two bends.
Marking. Marking shall be in accordance with MIL-STD-1285,
except the part number shall be as specified in paragraph 1.2 of
87106, or 88011 with the manufacturers name or code and date
code minimum, except case sizes 4 and 5 shall be marked with
coded cap and tolerance minimum. Full marking shall be included
on the package.
SMPS Stacked MLC Capacitors
SM Style SM Military Styles DSCC Dwg. #87106 & #88011
011419
WAX A mum (snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
24
Table II. Group A inspection.
Table III. Group B inspection. 1/
Inspection
Requirement
paragraph of
MIL-PRF-49470
Test method
paragraph of
MIL-PRF-49470
Sampling procedure
Subqroup 1
Thermal shock and voltage conditioning 1/ 3.9 4.8.5 100% inspection
Subqroup 2
Visual and mechanical examination:
Material 3.4 4.8.4
Physical dimensions 3.1 13 samples
Interface requirements 3.5 and 3.5.1 0 failures
(other than physical dimensions)
Marking 2/ 3.28
Workmanship 3.30
1/ Post checks are required (see paragraph 3.9 of MIL-PRF-49470).
2/ Marking defects are based on visual examination only. Any subsequent electrical defects shall not
be used as a basis for determining marking defects.
1/ 1/ Unless otherwise specified herein, when necessary, mounting of group B samples shall be at the
discretion of the manufacturer.
2/ A sample unit having one or more defects shall be charged as a single defective.
3/ Order of tests is at discretion of manufacturer.
4/ See 3.2.3 of DSCC 87106.
5/ Sample size shall be 3 pieces with zero defectives permitted.
6/ Total of one defect allowed for combination of subgroup 1, subgroup 2, and subgroup 3 inspections.
Inspection Requirement paragraph of
MIL-PRF-49470
Test method paragraph of
MIL-PRF-49470
Number of
sample units
to be inspected
Number of
defectives
permitted 2/

6/ 1
Temperature coefficient 4/ 4/
Resistance to solvents 5/ 6/ 3.23 4.8.20
Immersion 3.18 4.8.15 12 1
Terminal strength 5/ 3.24 4.8.10
Subqroup 2
Resistance to soldering heat 3.20 4.8.17 12 1
Moisture resistance 3.21 4.8.18
Subqroup 3
Marking legibility
(laser marking only)
3.28.1 4.8.4.1 6 1
Subqroup 4
Solderability 3.15 4.8.12 3 0
Subqroup 5
Life 3.26 4.8.22 5 minimum
per case code 0
SMPS Stacked MLC Capacitors
SM Style DSCC #87106 and #88011
090518
/A\V/)I(” A man smur- cowmv Electrical characteristics
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 25
Electrical characteristics
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
50V
001
002
241
242
003
004
243
244
1.0
1.0
1.0
1.0
1.2
1.2
1.2
1.2
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
005
006
245
246
007
008
247
248
009
010
249
250
1.5
1.5
1.5
1.5
1.8
1.8
1.8
1.8
2.2
2.2
2.2
2.2
K
M
K
M
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
011
012
251
252
013
014
253
254
2.7
2.7
2.7
2.7
3.3
3.3
3.3
3.3
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
015
016
255
256
017
018
257
258
3.9
3.9
3.9
3.9
4.7
4.7
4.7
4.7
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
019
020
259
260
5.6
5.6
5.6
5.6
K
M
K
M
5
5
5
5
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
223
224
261
262
6.8
6.8
6.8
6.8
K
M
K
M
4
4
4
4
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
021
022
263
264
8.2
8.2
8.2
8.2
K
M
K
M
4
4
4
4
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
023
024
265
266
025
026
267
268
10
10
10
10
12
12
12
12
K
M
K
M
K
M
K
M
4
4
4
4
4
4
4
4
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
027
028
269
270
15
15
15
15
K
M
K
M
4
4
4
4
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
029
030
271
18
18
18
K
M
K
3
3
3
N
N
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
50V
272
272
18
18
M
M
3
3
J
J
6.10 (0.240)
6.10 (0.240)
031
032
273
274
033
034
275
276
035
036
277
278
22
22
22
22
27
27
27
27
33
33
33
33
K
M
K
M
K
M
K
M
K
M
K
M
3
3
3
3
3
3
3
3
3
3
3
3
N
N
J
J
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
037
038
279
280
39
39
39
39
K
M
K
M
3
3
3
3
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
039
040
281
282
47
47
47
47
K
M
K
M
3
3
3
3
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
225
226
283
284
56
56
56
56
K
M
K
M
1
1
1
1
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
041
042
285
286
043
044
287
288
68
68
68
68
82
82
82
82
K
M
K
M
K
M
K
M
1
1
1
1
1
1
1
1
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
045
046
289
290
100
100
100
100
K
M
K
M
1
1
1
1
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
227
228
291
292
120
120
120
120
K
M
K
M
2
2
2
2
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
047
048
293
294
150
150
150
150
K
M
K
M
2
2
2
2
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
049
050
295
296
051
052
297
298
180
180
180
180
220
220
220
220
K
M
K
M
K
M
K
M
6
6
6
6
6
6
6
6
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
053
054
299
300
270
270
270
270
K
M
K
M
6
6
6
6
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
100V
055
056
301
302
.68
.68
.68
.68
K
M
K
M
5
5
5
5
N
N
J
J
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
057
058
303
304
059
060
305
306
061
062
307
308
.82
.82
.82
.82
1.0
1.0
1.0
1.0
1.2
1.2
1.2
1.2
K
M
K
M
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
063
064
309
310
065
066
311
312
1.5
1.5
1.5
1.5
1.8
1.8
1.8
1.8
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
067
068
313
314
069
070
315
316
2.2
2.2
2.2
2.2
2.7
2.7
2.7
2.7
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
071
072
317
318
3.3
3.3
3.3
3.3
K
M
K
M
5
5
5
5
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
073
074
319
320
075
076
321
322
3.9
3.9
3.9
3.9
4.7
4.7
4.7
4.7
K
M
K
M
K
M
K
M
4
4
4
4
4
4
4
4
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
077
078
323
324
079
080
325
326
5.6
5.6
5.6
5.6
6.8
6.8
6.8
6.8
K
M
K
M
K
M
K
M
4
4
4
4
4
4
4
4
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
081
082
327
328
8.2
8.2
8.2
8.2
K
M
K
M
4
4
4
4
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
229
230
329
330
083
084
331
332
10
10
10
10
12
12
12
12
K
M
K
M
K
M
K
M
3
3
3
3
3
3
3
3
N
N
J
J
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
SMPS Stacked MLC Capacitors
SM Style SM Military Styles DSCC Dwg. #87106 (X7R)
011419
”M A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
26
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension
mm (inches)
200V
113
114
361
362
115
116
363
364
.47
.47
.47
.47
.56
.56
.56
.56
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
117
118
365
366
119
120
367
368
.68
.68
.68
.68
.82
.82
.82
.82
K
M
K
M
K
M
M
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
121
122
369
370
123
124
371
372
1.0
1.0
1.0
1.0
1.2
1.2
1.2
1.2
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
125
126
373
374
1.5
1.5
1.5
1.5
K
M
K
M
5
5
5
5
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
127
128
375
376
129
130
377
378
1.8
1.8
1.8
1.8
2.2
2.2
2.2
2.2
K
M
K
M
K
M
K
M
4
4
4
4
4
4
4
4
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
131
132
379
380
133
134
381
382
2.7
2.7
2.7
2.7
3.3
3.3
3.3
3.3
K
M
K
M
K
M
K
M
4
4
4
4
4
4
4
4
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
135
136
383
384
3.9
3.9
3.9
3.9
K
M
K
M
4
4
4
4
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
137
138
385
386
139
140
387
388
4.7
4.7
4.7
4.7
5.6
5.6
5.6
5.6
K
M
K
M
K
M
K
M
3
3
3
3
3
3
3
3
N
N
J
J
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
141
142
389
390
143
144
391
392
6.8
6.8
6.8
6.8
8.2
8.2
8.2
8.2
K
M
K
M
K
M
K
M
3
3
3
3
3
3
3
3
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
100V
085
086
333
334
087
088
335
336
15
15
15
15
18
18
18
18
K
M
K
M
K
M
K
M
3
3
3
3
3
3
3
3
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
089
090
337
338
22
22
22
22
K
M
M
M
3
3
3
3
N
N
K
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
091
092
339
340
27
27
27
27
K
M
K
M
3
3
3
3
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
093
094
341
342
33
33
33
33
K
M
K
M
1
1
1
1
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
095
096
343
344
097
098
345
346
39
39
39
39
47
47
47
47
K
M
K
M
K
M
K
M
1
1
1
1
1
1
1
1
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
099
100
347
348
56
56
56
56
K
M
K
M
1
1
1
1
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
101
102
349
350
68
68
68
68
K
M
K
M
2
2
2
2
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
103
104
351
352
82
82
82
82
K
M
K
M
2
2
2
2
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
105
106
353
354
107
108
355
356
100
100
100
100
120
120
120
120
K
M
K
M
K
M
K
M
6
6
6
6
6
6
6
6
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
109
110
357
358
150
150
150
150
K
M
K
M
6
6
6
6
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
111
112
359
360
299
300
180
180
180
180
270
270
K
M
K
M
K
M
6
6
6
6
6
6
N
N
J
J
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension
mm (inches)
200V
145
146
393
394
10
10
10
10
K
M
K
M
3
3
3
3
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
147
148
395
396
12
12
12
12
K
M
K
M
3
3
3
3
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
149
150
397
398
15
15
15
15
K
M
K
M
1
1
1
1
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
151
152
399
400
18
18
18
18
K
M
K
M
1
1
1
1
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
153
154
401
402
155
156
403
404
22
22
22
22
27
27
27
27
K
M
K
M
K
M
K
M
1
1
1
1
1
1
1
1
N
N
J
J
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
157
158
405
406
33
33
33
33
K
M
K
M
2
2
2
2
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
159
160
407
408
39
39
39
39
K
M
K
M
2
2
2
2
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
161
162
409
410
47
47
47
47
K
M
K
M
6
6
6
6
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
163
164
411
412
165
166
413
414
56
56
56
56
68
68
68
68
K
M
K
M
K
M
K
M
6
6
6
6
6
6
6
6
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
167
168
415
416
82
82
82
82
K
M
K
M
6
6
6
6
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
169
170
417
418
171
172
419
420
100
100
100
100
120
120
120
120
K
M
K
M
K
M
K
M
6
6
6
6
6
6
6
6
N
N
J
J
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
SMPS Stacked MLC Capacitors
SM Style SM Military Styles DSCC Dwg. #87106 (X7R)
090518
”M A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 27
Electrical characteristics
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension
mm (inches)
500V
173
174
421
422
.15
.15
.15
.15
K
M
K
M
5
5
5
5
N
N
J
J
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
3.05 (0.120)
175
176
423
424
177
178
425
426
179
180
427
428
.18
.18
.18
.18
.22
.22
.22
.22
.27
.27
.27
.27
K
M
K
M
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
181
182
429
430
183
184
431
432
185
186
433
434
.33
.33
.33
.33
.39
.39
.39
.39
.47
.47
.47
.47
K
M
K
M
K
M
K
M
K
M
K
M
5
5
5
5
5
5
5
5
5
5
5
5
N
N
J
J
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
187
188
435
436
.56
.56
.56
.56
K
M
K
M
5
5
5
5
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
189
190
437
438
.68
.68
.68
.68
K
M
K
M
5
5
5
5
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
231
232
439
440
191
192
441
442
193
194
443
444
.82
.82
.82
.82
1.0
1.0
1.0
1.0
1.2
1.2
1.2
1.2
K
M
K
M
K
M
K
M
K
M
K
M
4
4
4
4
4
4
4
4
4
4
4
4
N
N
J
J
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
195
196
445
446
1.5
1.5
1.5
1.5
K
M
K
M
4
4
4
4
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
197
198
447
448
1.8
1.8
1.8
1.8
K
M
K
M
4
4
4
4
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
233
234
449
450
2.2
2.2
2.2
2.2
K
M
K
M
3
3
3
3
N
N
J
J
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
199
200
451
452
2.7
2.7
2.7
2.7
K
M
K
M
3
3
3
3
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
DSCC
Dwg.
87106-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension
mm (inches)
500V
201
202
453
454
203
204
455
456
3.3
3.3
3.3
3.3
3.9
3.9
3.9
3.9
K
M
K
M
K
M
K
M
3
3
3
3
3
3
3
3
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
205
206
457
458
4.7
4.7
4.7
4.7
K
M
K
M
3
3
3
3
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
207
208
459
460
5.6
5.6
5.6
5.6
K
M
K
M
3
3
3
3
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
235
236
461
462
209
210
463
464
211
212
465
466
6.8
6.8
6.8
6.8
8.2
8.2
8.2
8.2
10
10
10
10
K
M
K
M
K
M
K
M
K
M
K
M
1
1
1
1
1
1
1
1
1
1
1
1
N
N
J
J
N
N
J
J
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
213
214
467
468
237
238
469
470
215
216
471
472
12
12
12
12
15
15
15
15
18
18
18
18
K
M
K
M
K
M
K
M
K
M
K
M
1
1
1
1
2
2
2
2
2
2
2
2
N
N
J
J
N
N
J
J
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
239
240
473
474
217
218
475
476
22
22
22
22
27
27
27
27
K
M
K
M
K
M
K
M
6
6
6
6
6
6
6
6
N
N
J
J
N
N
J
J
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
219
220
477
478
33
33
33
33
K
M
K
M
6
6
6
6
N
N
J
J
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
221
222
479
480
39
39
39
39
K
M
K
M
6
6
6
6
N
N
J
J
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
SMPS Stacked MLC Capacitors
SM Style SM Military Styles DSCC Dwg. #87106 (X7R)
011419
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
28
CG (C0G) Electrical characteristics per MIL-C-20
DSCC
Dwg.
88011-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
50V
001*
002*
003*
004*
005*
006*
007*
008*
009*
010*
011*
012*
013*
014*
015*
016*
017*
018*
019*
020*
021*
022*
023*
024*
025*
026*
027*
028*
029*
030*
031*
032*
033*
034*
035*
036*
037*
038*
039*
040*
041*
042*
043*
044*
045*
046*
047*
048*
049*
050*
051*
052*
053*
054*
055*
056*
057*
058*
059*
060*
.056
.056
.068
.068
.082
.082
.10
.10
.12
.12
.15
.15
.18
.18
.22
.22
.27
.27
.33
.33
.39
.39
.47
.47
.56
.56
.68
.68
.82
.82
1.0
1.0
1.2
1.2
1.5
1.5
1.8
1.8
2.2
2.2
2.7
2.7
3.3
3.3
3.9
3.9
4.7
4.7
5.6
5.6
6.8
6.8
8.2
8.2
10
10
12
12
15
15
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
4
4
4
4
4
4
4
4
3
3
3
3
3
3
3
3
3
3
3
3
3
3
1
1
1
1
1
1
1
1
2
2
6
6
6
6
6
6
6
6
6
6
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
3.05 (0.120)
3.05 (0.120)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
100V
061*
062*
063*
064*
065*
066*
067*
068*
069*
070*
071*
072*
073*
074*
075*
076*
077*
078*
079*
.047
.047
.056
.056
.068
.068
.082
.082
.10
.10
.12
.12
.15
.15
.18
.18
.22
.22
.27
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
4
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
DSCC
Dwg.
88011-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
100V (continued)
080*
081*
082*
083*
084*
085*
086*
087*
088*
089*
090*
091*
092*
093*
094*
095*
096*
097*
098*
099*
100*
101*
102*
103*
104*
105*
106*
107*
108*
109*
110*
111*
112*
113*
114*
115*
116*
117*
118*
119*
120*
.27
.33
.33
.39
.39
.47
.47
.56
.56
.68
.68
.82
.82
1.0
1.0
1.2
1.2
1.5
1.5
1.8
1.8
2.2
2.2
2.7
2.7
3.3
3.3
3.9
3.9
4.7
4.7
5.6
5.6
6.8
6.8
8.2
8.2
10
10
12
12
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
4
4
4
4
4
4
4
4
4
3
3
3
3
3
3
3
3
3
3
3
3
1
1
1
1
1
1
2
2
2
2
6
6
6
6
6
6
6
6
6
6
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
200V
121*
122*
123*
124*
125*
126*
127*
128*
129*
130*
131*
132*
133*
134*
135*
136*
137*
138*
139*
140*
141*
142*
143*
144*
145*
146*
147*
148*
149*
150*
151*
152*
153*
154*
155*
156*
157*
158*
.022
.022
.027
.027
.033
.033
.039
.039
.047
.047
.056
.056
.068
.068
.082
.082
.10
.10
.12
.12
.15
.15
.18
.18
.22
.22
.27
.27
.33
.33
.39
.39
.47
.47
.56
.56
.68
.68
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
4
4
4
4
4
4
4
4
4
4
3
3
3
3
3
3
3
3
3
3
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
3.05 (0.120)
3.05 (0.120)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
DSCC
Dwg.
88011-
Cap.
Value

Cap.
Tol.
Case
Code
Lead
Style
Max. A
Dimension mm
(inches)
200V (continued)
159*
160*
161*
162*
163*
164*
165*
166*
167*
168*
169*
170*
171*
172*
173*
174*
175*
176*
177*
178*
179*
180*
.82
.82
1.0
1.0
1.2
1.2
1.5
1.5
1.8
1.8
2.2
2.2
2.7
2.7
3.3
3.3
3.9
3.9
4.7
4.7
5.6
5.6
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
3
3
3
3
1
1
1
1
1
1
2
2
2
2
6
6
6
6
6
6
6
6
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
16.5 (0.650)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
500V
181*
182*
183*
184*
185*
186*
187*
188*
189*
190*
191*
192*
193*
194*
195*
196*
197*
198*
199*
200*
201*
202*
203*
204*
205*
206*
207*
208*
209*
210*
211*
212*
213*
214*
215*
216*
217*
218*
219*
220*
221*
222*
223*
224*
225*
226*
227*
228*
229*
230*
231*
232*
233*
234*
235*
236*
237*
238*
.010
.010
.012
.012
.015
.015
.018
.018
.022
.022
.027
.027
.033
.033
.039
.039
.047
.047
.056
.056
.068
.068
.082
.082
.10
.10
.12
.12
.15
.15
.18
.18
.22
.22
.27
.27
.33
.33
.39
.39
.47
.47
.56
.56
.68
.68
.82
.82
1.0
1.0
1.2
1.2
1.5
1.5
1.8
1.8
2.2
2.2
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
J
K
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
4
4
4
4
4
4
4
4
4
4
3
3
3
3
3
3
3
3
3
3
3
3
1
1
1
1
1
1
1
1
2
2
2
2
6
6
6
6
6
6
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
3.05 (0.120)
3.05 (0.120)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
6.10 (0.240)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
9.14 (0.360)
9.14 (0.360)
12.2 (0.480)
12.2 (0.480)
16.5 (0.650)
16.5 (0.650)
*Add J or L for applicable formed leads
SMPS Stacked MLC Capacitors
SM Style SM Military Styles DSCC Dwg. #88011 (C0G)
090518
y @ /‘\'/) ( n A A mew ems coww No! RoHS Compliant will! I
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 29
AVX is the original inventor of large capacitance value, stacked MLCC capacitors constructed
with DIP leads. Similar to SM-product, the SM9-sytle, encapsulated Switch Mode Power Supply
(SMPS) capacitors offer high CV product and extremely low ESR and ESL. SM9-style capacitors
offer additional mechanical and thermal protection and are recommended for applications
where they will undergo extreme high frequency vibration or mechanical shock. Encapsulated
version allows for “strapping” the parts or bonding to the board on the perimeter of the plastic
case and thus preventing oscillation and lead breakage.
In addition to traditionally offered COG (Class I) and X7R (Class II) type dielectrics, AVX
introduces another class I, temperature compensated N1500 dielectric characterized with
very low dissipation factor. Thanks to considerably higher relative dielectric constant of N1500
dielectric, the CV product is more than doubled in comparison to ultra-stable COG dielectric,
resulting in a significant reduction in the size of capacitor and a significant improvement of
volumetric efficiency.
The typical applications for different type dielectrics are:
COG: High frequency resonant capacitors, avionic AC line filters (400Hz to 800Hz),
snubbers, timing circuits, high current repetitive discharge
N1500: Avionic AC line filters (400Hz to 800Hz), snubbers, high current repetitive discharge,
capacitive temperature compensation
X7R: General filtering, input and output filters in DC/DC converters, bulk filters, DC link
capacitors, motor drive filters, high current non-repetitive discharge
Not RoHS Compliant
GENERAL SPECIFICATIONS FOR ALL DIELECTRIC TYPES
GENERAL SPECIFICATIONS FOR ALL DIELECTRIC TYPES
Operating Temperature Range
-55° to +125°C
Voltage Ratings
50VDC through 500VDC (+125ºC)
Dielectric Withstanding Voltage
250% rated voltage for 5 seconds with 30 to 50mA charging current (500
Volt units @ 750VDC)
Insulation Resistance (25ºC, rated DC voltage)
100KMΩ min. or 1000MΩ-μF min. whichever is less
Insulation Resistance (125ºC, rated DC voltage)
10KMΩ min. or 100MΩ-μF min. whichever is less
Thermal Shock Capabilities
5 cycles (-55°C to +125°C)
Life Test Capabilities (1000 hours)
200% rated voltage at +125ºC (500 Volt units @ 600VDC)
C0G Dielectric
Capacitance Range
0.01μF to 15μF
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Temperature Characteristic
0 ± 30 ppm/°C
Dissipation Factor
0.15% max.
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
N1500
Capacitance Range
0.018μF to 33μF
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Temperature Characteristic
-1500 ± 250 ppm/°C
Dissipation Factor
0.15% max.
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
X7R Dielectric
Capacitance Range
0.1μF to 390μF
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
Capacitance Tolerances
±10%, ±20%, +80%, -20%
Temperature Characteristic
±15%
Dissipation Factor
2.5% max.
(+25ºC, 1.0 ± 0.2Vrms at 1kHz)
SMPS Stacked MLC Capacitors
SM9 Style Technical Information on SMPS Capacitors
011419
/A\"/Z;§ A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
30
HOW TO ORDER AVX Styles: SM91, SM92, SM93, SM94, SM95, SM96
SM9 106 6601 7 C A NM
AVX Style
SM9 = Plastic Case

See
Dimensions
chart
Voltage
50V = 5
100V = 1
200V = 2
500V = 7
Temperature
fi
C0G = A
N1500 = 4
X7R = C
Test Level
A = Standard
B = Hi-Rel*
5 = Standard/MIL**
6 = Hi-Rel/MIL***
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
Capacitance Tolerance
C0G/N1500:
J = ±5%
K = ±10%
M = ±20%
X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
Height
Max Dimension
“A”
270 = 0.270”
390 = 0.390”
530 = 0.530”
660 = 0.660”
800 = 0.800”
Capacitance Code
(2 significant digits
+ number of zeros)
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1μF = 105
10 μF = 106
100 μF = 107
See tables for
capacitance available
in specific height and
dielectric
Note: Capacitors with X7R dielectric are not intended for applications across AC supply
mains or AC line filtering with polarity reversal. Contact plant for recommendations.
* Hi-Rel screening option. Screening consists of 100% Group A
(B Level), Subgroup 1 per MIL-PRF-49470.
** Form, fit & function equivalent to MIL-PRF-49470 part.
Applies to 50V rated parts only. No screening.
*** Form, fit & function equivalent to MIL-PRF-49470 part.
Applies to 50V rated parts only. Hi-Rel screening the same as option B.

Aluminum Electrolytic

Low ESR Solid Tantalum

Solid Aluminum Electrolytic

MLCC SMPS

MLCC SMPS

ESR @ 10KHz 300 72 29 366
ESR @ 50KHz 285 67 22 223
ESR @ 100KHz 280 62 20 2.5 15
ESR @ 500KHz 265 56 18 4 8
ESR @ 1MHz 265 56 17 77.5
ESR @ 5MHz 335 72 17 12.5 8
ESR @ 10MHz 560 91 22 20 14
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program- http://
www.avx.com/download/software/SpiCalci-AVX.zip
SMPS Stacked MLC Capacitors
SM9 Style Technical Information on SMPS Capacitors
090518
y m /‘\'/) ( n A moan calm-cow: [MK I
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 31
DIMENSIONS millimeters (inches)
*Leads styles N, J or L available
DE
Maximum Height
(see table)
0.381 (0.015)
±0.127 (0.005)
6.35 (0.250) (MIN.)
0.254 (0.010) TYP.
C
0.508 (0.020) TYP.
2.54 (0.100)
CENTERS TYP.
4.445 (0.175) MAX
1.016 (0.040) MIN
E
0.381 (0.015)
±0.127 (0.005)
Maximum Height
(see table)
4.445 (0.175) MAX
1.016 (0.040) MIN
2.54 (0.100)
CENTERS TYP.
0.508 (0.020)TYP.
C
1.905 (0.075)
±0.635 (0.025) TYP.
D
0.254 (0.010)
RAD. TYP.
1.778 (0.070)
±0.254 (0.010)
0.254 (0.010)
TYP.
“N” STYLE LEADS
“L” STYLE LEADS
E
0.381 (0.015)
±0.127 (0.005)
Maximum Height
(see table)
4.445 (0.175) MAX
1.016 (0.040) MIN 2.54 (0.100)
CENTERS TYP.
0.508 (0.020) TYP.
C
1.905 (0.075)
±0.635 (0.025) TYP.
D
0.254 (0.010)
RAD. TYP.
1.778 (0.070)
±0.254 (0.010)
0.254 (0.010)
TYP.
“J” STYLE LEADS
Case Code C
±0.635 (0.025)
D
±0.254 (0.010)
E
+0.000 (0.000) -0.254 (0.010)
No. of Leads
per side*
SM91 11.4 (0.450) 54.7 (2.155) 14.7 (0.580) 20
SM92 20.3 (0.800) 41.0 (1.615) 24.1 (0.950) 15
SM93 11.4 (0.450) 29.3 (1.155) 14.7 (0.580) 10
SM94 10.2 (0.400) 12.3 (0.485) 12.3 (0.485) 4
SM95 6.35 (0.250) 9.02 (0.355) 9.02 (0.355) 3
SM96 31.8 (1.250) 54.7 (2.155) 36.3 (1.430) 20
SMPS Stacked MLC Capacitors
Encapsulated in DAP (Diallyl Phthalate) Case (SM9 Style)
011419
A H A A (voczm mu; (20.4mm /A\vn:< |="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
32
SM91 SM92 SM93 SM94 SM95 SM96
 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.01 270
0.012 270 270 390
0.015 270 270 390
0.018 270 270 390
0.022 390 390 530
0.027 390 270 390 530
0.033 390 270 270 390 660
0.039 390 270 270 390 660
0.047 270 390 270 390 390 800
0.056 270 270 530 390 390 530
0.068 270 270 530 390 390 530
0.082 270 270 390 660 390 530 660
0.1 390 270 270 390 660 390 530 660
0.12 270 270 390 270 270 390 800 530 530 800
0.15 270 270 270 390 270 390 530 530 660
0.18 270 270 270 390 390 390 530 660 800
0.22 390 270 390 530 390 390 660 800
0.27 270 390 390 270 390 530 390 530 660
0.33 270 390 390 270 270 390 660 530 530 800 270
0.39 270 530 270 390 270 270 390 800 530 530 270
0.47 390 530 270 390 270 390 530 800 530 660 270
0.56 270 390 660 270 530 390 390 530 660 800 390
0.68 270 390 660 270 390 530 390 390 660 800 390
0.82 270 390 530 800 270 270 390 660 390 530 800 270 390
1270 390 530 270 270 390 660 390 530 800 270 390
1.2 390 390 530 270 390 390 800 530 530 270 270 530
1.5 390 530 660 390 390 530 530 660 270 390 530
1.8 390 530 800 390 390 530 660 800 270 270 390 660
2.2 530 660 390 530 660 800 270 270 390 800
2.7 530 660 530 530 800 270 390 530
3.3 660 800 530 660 390 390 530
3.9 660 660 660 390 390 530
4.7 800 660 800 390 390 660
5.6 800 390 530 800
6.8 530 530
8.2 530 660
10 660 800
12 660 800
15 800
COG CLASS I DIELECTRIC, ULTRA STABLE CERAMIC
The number represented in each cell corresponds to the maximum “A” dimension (in mils) and to the last 3 digits of the part number.
CUSTOM VALUES, RATING AND CONFIGURATIONS ARE ALSO AVAILABLE.
SMPS Stacked MLC Capacitors
Encapsulated in DAP (Diallyl Phthalate) Case (SM9 Style)
090518
A H A A 4mm mu; (20.4mm /A\vn:< |="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 33
SM91 SM92 SM93 SM94 SM95 SM96
 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.018 270
0.022 270
0.027 270 270 270
0.033 270 270 270
0.039 270 270 270
0.047 270 270 39/0
0.056 270 270 390
0.068 270 270 270 530
0.082 390 270 270 390 530
0.1 270 390 270 270 390 660
0.12 270 390 270 390 390 800
0.15 270 390 270 390 390
0.18 270 270 270 530 390 390 530
0.22 270 270 270 390 660 390 530 660
0.27 270 270 270 390 660 530 530 660
0.33 270 390 270 390 390 800 530 660 800
0.39 270 270 390 390 390 530 660 660
0.47 270 270 270 390 390 390 530 660 800
0.56 390 270 270 530 390 530 660 800
0.68 390 390 270 270 530 390 530 660
0.82 270 390 390 270 270 390 530 530 530 800
1270 530 390 270 270 390 660 530 660 270
1.2 270 270 530 270 5430 270 390 390 800 660 800 270
1.5 270 390 660 270 530 390 390 530 800 270
1.8 270 270 390 660 270 660 390 390 530 390
2.2 270 390 390 800 270 270 390 660 390 530 660 390
2.7 390 390 530 270 270 390 800 530 530 660 270 390
3.3 390 390 530 270 390 390 530 660 800 270 530
3.9 390 530 660 390 390 530 660 660 270 270 530
4.7 530 530 660 390 390 530 660 800 270 270 390 660
5.6 530 660 800 390 530 660 800 270 270 390 660
6.8 660 660 530 530 660 270 390 390 800
8.2 660 800 530 530 800 390 390 530
10 800 530 660 390 390 530
12 660 800 390 530 660
15 800 530 530 660
18 530 660 800
22 660 660
27 660 800
33 800
N1500 CLASS I DIELECTRIC, TEMPERATURE COMPENSATED CERAMIC
The number represented in each cell corresponds to the maximum “A” dimension (in mils) and to the last 3 digits of the part number.
CUSTOM VALUES, RATING AND CONFIGURATIONS ARE ALSO AVAILABLE.
SMPS Stacked MLC Capacitors
Encapsulated in DAP (Diallyl Phthalate) Case (SM9 Style)
011419
A H A A 4mm mu; (20.4mm mm |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
34
SM91 SM92 SM93 SM94 SM95 SM96
 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.1 270
0.12 270
0.15 270 270
0.18 270 270 39/0
0.22 270 270 390
0.27 270 270 390
0.33 270 270 530
0.39 270 270 270 530
0.47 390 270 390 530
0.56 270 390 270 390 660
0.68 270 270 390 270 390 800
0.82 270 270 530 390 530
1270 270 270 530 270 390 530
1.2 270 270 390 530 270 390 530
1.5 270 390 270 390 660 270 530 660
1.8 270 270 390 270 390 800 270 530 800
2.2 270 270 270 390 390 390 270 660
2.7 390 270 270 530 390 530 270 660
3.3 390 270 270 270 530 270 390 530 390 800
3.9 270 390 270 270 390 530 270 530 660 390
4.7 270 390 390 270 390 660 270 530 800 390 270
5.6 270 530 270 390 270 390 800 270 660 390 270
6.8 270 270 530 270 390 390 390 270 660 530 270
8.2 270 390 660 270 530 270 390 530 390 800 530 270
10 270 390 660 270 270 530 270 390 530 390 660 390
12 270 390 800 270 390 530 270 390 660 390 800 270 390
15 270 390 530 270 390 660 270 530 800 390 270 390
18 270 390 530 270 270 390 800 270 530 800 530 270 530
22 270 390 660 270 390 390 390 660 530 270 270 530
27 270 530 660 270 3.90 530 390 800 660 270 390 660
33 390 530 800 270 390 530 390 800 270 270 390 800
39 390 660 270 530 660 530 270 270 390 800
47 390 660 390 530 800 530 270 390 390
56 530 800 390 660 800 660 270 390 530
68 530 390 660 660 270 390 530
82 530 390 800 800 390 530 660
100 660 530 390 530 800
120 800 530 390 530 800
150 660 390 660
180 800 530 800
220 530
270 660
330 800
390 800
X7R CLASS II DIELECTRIC, STABLE CERAMIC
The number represented in each cell corresponds to the maximum “A” dimension (in mils) and to the last 3 digits of the part number.
CUSTOM VALUES, RATING AND CONFIGURATIONS ARE ALSO AVAILABLE.
SMPS Stacked MLC Capacitors
Encapsulated in DAP (Diallyl Phthalate) Case (SM9 Style)
090518
”A! A mm»: snow c RoHS
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 35
ELECTRICAL SPECIFICATIONS
fi
C0G: A Temperature Coefficient - 0 ±30 ppm/°C, -55° to +125°C
X7R: C Temperature Coefficient - ±15%, -55° to +125°C
Capacitance Test (MIL-STD-202 Method 305)
C0G: 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
X7R: 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
C0G: 0.15% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
X7R: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
C0G and X7R: 100K MΩ or 1000 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
C0G and X7R: 10K MΩ or 100 MΩ-μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
C0G and X7R: 250% rated voltage for 5 seconds with 50 mA max
charging current. (500 Volt units @ 750 VDC)
Life Test (1000 hrs)
C0G and X7R: 200% rated voltage at +125°C. (500 Volt units @ 600 VDC)
Moisture Resistance (MIL-STD-202 Method 106)
C0G, X7R: Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method 107, Condition A)
Immersion Cycling (MIL-STD-202 Method 104, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 210, Condition B, for
20 seconds)
HOW TO ORDER AVX Styles: RM-1, RM-2, RM-3, RM-4, RM-5, RM-6
RM0 106 6501 7 C A NM
AVX Style
RM0 = Uncoated
RM5 = Epoxy Coated

See
Dimensions
chart
Voltage
50V = 5
100V = 1
200V = 2
500V = 7
Temperature
fi
C0G = A
X7R = C
Test Level
A = Standard
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
P = P Style Leads
Z = Z Style Leads
Capacitance Tolerance
C0G:
J = ±5%
K = ±10%
M = ±20%
X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
Height
Max
Dimension “A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
650 = 0.650”
Capacitance Code
(2 significant digits
+ number of zeros)
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1μF = 105
10 μF = 106
100 μF = 107

Aluminum
Electrolytic

Low ESR Solid
Tantalum

Solid Aluminum
Electrolytic

MLCC
SMPS

MLCC
SMPS

ESR @ 10KHz 300 72 29 366
ESR @ 50KHz 285 67 22 223
ESR @ 100KHz 280 62 20 2.5 15
ESR @ 500KHz 265 56 18 4 8
ESR @ 1MHz 265 56 17 77.5
ESR @ 5MHz 335 72 17 12.5 8
ESR @ 10MHz 560 91 22 20 14
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
Note: Capacitors with X7R and Z5U dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
RoHS Compliant SMPS Stacked MLC Capacitors
RM Style Stacked MLC Capacitors
011419
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
36
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
“N” STYLE LEADS
E
C
RAD.
0.254
(0.010)
(TYP)
DETAIL B
0.254 (0.010) TYP.
CHIP SEPARATION
0.254 (0.010) TYP.
1.270 ± 0.254
(0.050 ± 0.010)
2.794 ± 0.254
(0.110 ± 0.010)
1.778 ±0.254
(0.070 ± 0.010)
3.048 ± 0.381
(0.120 ± 0.015)
DETAIL B
“Z” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
B
DETAIL A
4.191 ± 0.254
(0.165 ± 0.010)
1.651 ± 0.254
(0.065 ± 0.010)
2.540 ± 0.254
(0.100 ± 0.010)
6.350 (0.250) MIN
1.016 ± 0.254
(0.040 ± 0.010)
R 0.508
(0.020)
3 PLACES
CAPACITOR
DETAIL A
“P” STYLE LEADS
“J” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.905 (0.075)
±0.635 (0.025)
TYP.
1.778 (0.070)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.778 (0.070) 1.905 (0.075)
±0.635 (0.025)
TYP.
±0.254 (0.010)
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads per side
RM-1
See page 38 for
maximum “A
Dimension
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080)
For “P” Style Leads: “A” Dimension Plus 4.445 (0.175)
For “Z” Style Leads: “A” Dimension Plus 3.048 (0.120)
11.4 (0.450) 52.1 (2.050) 12.7 (0.500) 20
RM-2 20.3 (0.800) 38.4 (1.510) 22.1 (0.870) 15
RM-3 11.4 (0.450) 26.7 (1.050) 12.7 (0.500) 10
RM-4 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
RM-5 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
RM-6 31.8 (1.250) 52.1 (2.050) 34.3 (1.350) 20
Note: For RM5 add 0.127 (0.005) to max. and nominal dimensions A, B, D, & E
RoHS Compliant SMPS Stacked MLC Capacitors
(RM Style) Surface Mount and Thru-Hole Sytles (RM0, RM5)
090518
”A! A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 37





AVX
STYLE
RM01 _ _ _ _ _ _ AN120 RM02 _ _ _ _ _ _ AN120 RM03 _ _ _ _ _ _ AN120 RM04 _ _ _ _ _ _ AN120 RM05 _ _ _ _ _ _ AN120 RM06 _ _ _ _ _ _ AN120
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
C0G 1.0 .70 .40 .18 1.2 1.0 .60 .26 .47 .40 .20 .09 .16 .13 .07 .02 .05 .04 .02 .01 3.2 2.4 1.3 .50
X7R 27 12 7.0 2.6 41 18 11 4.0 18 6.0 3.6 1.3 7.5 1.8 1.1 .40 2.8 .68 .40 .16 80 40 24 9.4
AVX
STYLE
RM01 _ _ _ _ _ _ AN240 RM02 _ _ _ _ _ _ AN240 RM03 _ _ _ _ _ _ AN240 RM04 _ _ _ _ _ _ AN240 RM05 _ _ _ _ _ _ AN240 RM06 _ _ _ _ _ _ AN240
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
C0G 2.0 1.4 .80 .36 2.4 2.0 1.2 .52 1.0 .80 .40 .18 .32 .26 .14 .05 .10 .08 .05 .02 6.4 4.8 2.6 1.0
X7R 54 24 14 5.2 82 36 22 8.0 36 12 7.2 2.6 15 3.6 2.2 .80 5.6 1.3 .80 .32 160 80 48 18
AVX
STYLE
RM01 _ _ _ _ _ _ AN360 RM02 _ _ _ _ _ _ AN360 RM03 _ _ _ _ _ _ AN360 RM04 _ _ _ _ _ _ AN360 RM05 _ _ _ _ _ _ AN360 RM06 _ _ _ _ _ _ AN360
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
C0G 3.0 2.1 1.2 .54 3.6 3.0 1.8 .78 1.5 1.2 .60 .27 .48 .39 .21 .07 .15 .12 .07 .03 9.6 7.2 3.9 1.5
X7R 82 36 21 7.8 120 54 33 12 54 18 10 3.9 22 5.4 3.3 1.2 8.2 2.0 1.2 .48 240 120 72 28
AVX
STYLE
RM01 _ _ _ _ _ _ AN480 RM02 _ _ _ _ _ _ AN480 RM03 _ _ _ _ _ _ AN480 RM04 _ _ _ _ _ _ AN480 RM05 _ _ _ _ _ _ AN480 RM06 _ _ _ _ _ _ AN480
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
C0G 4.0 2.8 1.6 .72 4.8 4.0 2.2 1.0 2.0 1.6 .80 .36 .64 .52 .28 .10 .20 .16 .10 .04 12 9.6 5.2 2.0
X7R 110 48 28 10 160 72 44 16 72 24 14 5.2 30 7.2 4.4 1.6 10 2.7 1.6 .64 320 160 96 37
AVX
STYLE
RM01 _ _ _ _ _ _ AN650 RM02 _ _ _ _ _ _ AN650 RM03 _ _ _ _ _ _ AN650 RM04 _ _ _ _ _ _ AN650 RM05 _ _ _ _ _ _ AN650 RM06 _ _ _ _ _ _ AN650
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
C0G 5.0 3.5 2.0 .90 6.0 5.0 3.0 1.3 2.5 2.0 1.0 .47 .80 .65 .35 .12 .25 .20 .12 .05 16 12 6.5 2.5
X7R 130 60 35 13 200 90 55 20 90 30 18 6.5 36 9.0 5.5 2.0 12 3.4 2.0 .80 400 200 120 47
RoHS Compliant SMPS Stacked MLC Capacitors
(RM Style)
011419
/.‘.\V/)I(” A mum (snow coMva Nat RoHS Compliant
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
38
GENERAL DESCRIPTION
The SMM series SMPS capacitors incorporate the Super X7R dielectric material. AVX
SMM stacked capacitors offer high dielectric constant (K) characteristics allowing
for an extended capacitance range. The higher capacitance values in the smaller
case sizes reduce the amount of board space needed to mount these components.
The SMM series capacitors are designed for use in applications ranging from high
end DC/DC converters to general power supplies, telecom networks, snubbers,
aerospace instrumentation panels, hybrid power applications and more.
ELECTRICAL SPECIFICATIONS
fi
±15%, -55ºC to +125ºC
Capacitance Test (MIL-STD-202 Method 305)
25ºC, 1.0 ± 0.2 Vrms (open circuit voltage) at 1 kHz
Dissipation Factor 25°C
2.5% Max @ 25ºC, 1.0 ± 0.2 Vrms (open circuit voltage) at 1 kHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
1000 MΩ-μF, whichever is less
Insulation Resistance 125°C (MIL-STD-202 Method 302)
100 MΩ-μF, whichever is less
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA maximum charging current (500 Volt units @ 750 VDC)
Life Test (1000 hrs)
200% rated voltage for at 125°C (500 Volts units @ 600 VDC) Not RoHS Compliant
HOW TO ORDER
SMM4 186 1205 C A KM
AVX Style
SMM3
SMM4
SMM5
Voltage
50V = 5
100V = 1
200V = 2
500V = 7
Temperature
fi
X7R = C
Test Level
A = Standard
B = Hi-Rel*
Leads
N = Straight Lead
K = Leads formed in
M = Leads formed
out
Tolerance
K = ±10%
M = ±20%
Height
Max
Dimension “A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
600 = 0.600”
Capacitance Code
(pF - 2 significant
digits + number
of zeros)
1μF = 105
10 μF = 106
100 μF = 107
*Hi-Rel screening for consists of 100% Group A (B Level), Subgroup 1 per MIL-PRF-49470.
SMPS Stacked MLC Capacitors
SMM Style Stacked MLC Capacitors Extended Range
090518
/.‘.\V/)I(” A mm»: snow cowmv
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 39
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.143 (0.045) 1.397 (0.055)
±0.127 (0.005)
TYP.
±0.254 (0.010)
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.143 (0.045) 1.397 (0.055)
±0.127 (0.005)
TYP.
±0.254 (0.010)
“M” STYLE LEADS
“K” STYLE LEADS
“N” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads
per side
SMM3 See next table
below for
maximum “A
Dimension
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “K” & “M” Style Leads: “A” Dimension Plus 1.39 (0.055)
11.4 (0.450) 26.7 (1.050) 12.7 (0.500) 10
SMM4 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
SMM5 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
CAPACITANCE RANGE

AVX STYLE SMM3 SMM4 SMM5
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
0.120 " 27 15 8.2 3.9 10 4.7 3.3 1.2 3.9 1.8 1.2 0.56
0.240" 56 27 15 6.8 18 8.2 6.8 2.2 6.8 3.3 2.2 1.0
0.360" 82 47 22 12 27 12 10 3.3 12 5.6 3.3 1.6
0.480" 100 56 33 15 39 18 12 4.7 15 6.8 4.7 2.2
0.600" 120 68 39 18 49 22 15 5.6 18 8.2 5.6 2.7
SMPS Stacked MLC Capacitors
SMM Style Stacked MLC Capacitors Extended Range
011419
/A\V/l;§ mum (snow 0 RoHS
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
40
GENERAL DESCRIPTION
The RMM series SMPS capacitors incorporate the Super X7R dielectric material. AVX
RMM stacked capacitors offer high dielectric constant (K) characteristics allowing
for an extended capacitance range. The higher capacitance values in the smaller
case sizes reduce the amount of board space needed to mount these components.
The RMM series capacitors are designed for use in applications ranging from high
end DC/DC converters to general power supplies, telecom networks, snubbers,
aerospace instrumentation panels, hybrid power applications and more.
ELECTRICAL SPECIFICATIONS
fi
±15%, -55ºC to +125ºC
Capacitance Test (MIL-STD-202 Method 305)
25ºC, 1.0 ± 0.2 Vrms (open circuit voltage) at 1 kHz
Dissipation Factor 25°C
2.5% Max @ 25ºC, 1.0 ± 0.2 Vrms (open circuit voltage) at 1 kHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
1000 MΩ-μF, whichever is less
Insulation Resistance 125°C (MIL-STD-202 Method 302)
100 MΩ-μF, whichever is less
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA maximum charging current (500 Volt units @ 750 VDC)
Life Test (1000 hrs)
200% rated voltage for at 125°C (500 Volts units @ 600 VDC)
HOW TO ORDER
RMM4 186 120
5C A KM
AVX Style
RMM3
RMM4
RMM5
Voltage
50V = 5
100V = 1
200V = 2
500V = 7
Temperature
fi
X7R = C
Test Level
A = Standard
B = Hi-Rel*
Leads
N = Straight Lead
K = Leads formed in
M = Leads formed
out
Tolerance
K = ±10%
M = ±20%
Height
Max
Dimension “A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
600 = 0.600”
Capacitance Code
(pF - 2 significant
digits + number
of zeros)
1μF = 105
10 μF = 106
100 μF = 107
*Hi-Rel screening for consists of 100% Group A (B Level), Subgroup 1 per MIL-PRF-49470.
RoHS Compliant SMPS Stacked MLC Capacitors
RMM Style Stacked MLC Capacitors Extended Range
090518
/.‘.\V/)I(” A mm»: snow cowmv
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 41
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.143 (0.045) 1.397 (0.055)
±0.127 (0.005)
TYP.
±0.254 (0.010)
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.143 (0.045) 1.397 (0.055)
±0.127 (0.005)
TYP.
±0.254 (0.010)
“M” STYLE LEADS
“K” STYLE LEADS
“N” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads
per side
RMM3 See next table
below for
maximum “A
Dimension
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “K” & “M” Style Leads: “A” Dimension Plus 1.39 (0.055)
11.4 (0.450) 26.7 (1.050) 12.7 (0.500) 10
RMM4 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
RMM5 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
CAPACITANCE RANGE

AVX STYLE SMM3 SMM4 SMM5
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V 200V 500V
0.120 " 27 15 8.2 3.9 10 4.7 3.3 1.2 3.9 1.8 1.2 0.56
0.240" 56 27 15 6.8 18 8.2 6.8 2.2 6.8 3.3 2.2 1.0
0.360" 82 47 22 12 27 12 10 3.3 12 5.6 3.3 1.6
0.480" 100 56 33 15 39 18 12 4.7 15 6.8 4.7 2.2
0.600" 120 68 39 18 49 22 15 5.6 18 8.2 5.6 2.7
RoHS Compliant SMPS Stacked MLC Capacitors
RMM Style Stacked MLC Capacitors Extended Range
011419
/.‘.\V/)I(” A mm»: snow cowmv
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
42
SMX-style, stacked Switch Mode Power Supply Capacitors (SMPS) utilizing Multilayer
Ceramic (MLCC) construction are ideally suited for high temperature applications up to
200ºC. This product is intended for downhole oil exploration, including logging while drilling,
geophysical probes, as well as space and aerospace electronics. The high temperature
solder utilized in the construction of SMX-style parts assures reliable operation in harsh
environments. The wide product offering provides designers a solution for high capacitance
value and high voltage capacitors rated at 200ºC. The SMX-style capacitors are ideally suited
for applications as DC filters in high power, high frequency motor drives, high pulsed-current
circuitry, as well as low power electronics.
SMX-style, SMPS capacitors are characterized with excellent performance in comparison
to wet tantalum products. The main benefits of SMX-product over wet tantalum capacitors
include:
Much lower ESR and lower losses
Excellent capacitance retention with frequency
Excellent high frequency performance
Low DC leakage current
Much higher current handling capabilities
Typical Extended Temperature TCC
Characterization of C0G, SMPS Capacitors
Test conditions: 1 Vrms, 1 kHz, 0 VDC bias
-1.0
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
-75 -50 -25 0 25 50 75 100 125 150 175 200
Temperature (ºC)
Percentage Capacitance
Change
RC Product ( *F)
Typical Extended Temperature IR Characterization of
C0G, SMPS Capacitors
10
100
1000
10000
120 130 140 150 160 170 180 190 200
Temperature (ºC)
RC Product ( *F)
Typical Extended Temperature IR Characterization of
VHT/X7R, SMPS Capacitors
Temperature (ºC)
150 160 170 180 190 200
1000
100
10
Typical Extended Temperature TCC
Characterization of VHT/X7R, SMPS Capacitors
Test conditions: 1 Vrms, 1 kHz, 0 VDC bias
Temperature (ºC)
20
0
-20
-40
-60
-80
-100
-80 -40 -20 0 20 40 60 80 100 120 140 160 180 200
Percentage Capacitance
Change
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
090518
/.‘.\V/)I(” A mum (snow coMva Not RoHS Compliant
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 43
ELECTRICAL SPECIFICATIONS
fi
C0G: A Temperature Coefficient 0 ±30 ppm/°C, -55° to +200°C
VHT/X7R: C Temperature Coefficient ±15%, -55°C to +125°C
+15% - 56%, -55ºC to +200°C
Capacitance Test (MIL-STD-202 Method 305)
25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
C0G: 0.15% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
VHT/X7R: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
100K MΩ or 1000 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
10K MΩ or 100 MΩ-μF, whichever is less.
Insulation Resistance 200°C (MIL-STD-202 Method 302)
1K MΩ or 10 MΩ -μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max
charging current. (500 Volt units @ 750 VDC)
Moisture Resistance (MIL-STD-202 Method 106)
Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method 107, Condition A)
Immersion Cycling (MIL-STD-202 Method 104, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 210,
Condition B, for 20 seconds)
Not RoHS Compliant
HOW TO ORDER AVX Styles: SMX1, SMX2, SMX3, SMX4, SMX5, SMX6
SMX 106 6501 7 C A NM
AVX Style
SMX = Uncoated

See
Dimensions
chart
Voltage
25 = 3
50V = 5
100V = 1
200V = 2
500V = 7
Temperature
fi
C0G = A
VHT/X7R = C
Test Level
A = Standard
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
P = P Style Leads
Z = Z Style Leads
Capacitance Tolerance
C0G:
J = ±5%
K = ±10%
M = ±20%
VHT/X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
Height
Max
Dimension “A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
650 = 0.650”
Capacitance Code
(2 significant digits
+ number of zeros)
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1μF = 105
10 μF = 106
100 μF = 107
Note: Capacitors with VHT/X7R dielectric is not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
011419
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
44
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
“N” STYLE LEADS
E
C
RAD.
0.254
(0.010)
(TYP)
DETAIL B
0.254 (0.010) TYP.
CHIP SEPARATION
0.254 (0.010) TYP.
1.270 ± 0.254
(0.050 ± 0.010)
2.794 ± 0.254
(0.110 ± 0.010)
1.778 ±0.254
(0.070 ± 0.010)
3.048 ± 0.381
(0.120 ± 0.015)
DETAIL B
“Z” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
B
DETAIL A
4.191 ± 0.254
(0.165 ± 0.010)
1.651 ± 0.254
(0.065 ± 0.010)
2.540 ± 0.254
(0.100 ± 0.010)
6.350 (0.250) MIN
1.016 ± 0.254
(0.040 ± 0.010)
R 0.508
(0.020)
3 PLACES
CAPACITOR
DETAIL A
“P” STYLE LEADS
“J” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.905 (0.075)
±0.635 (0.025)
TYP.
1.778 (0.070)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.778 (0.070) 1.905 (0.075)
±0.635 (0.025)
TYP.
±0.254 (0.010)
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads
per side
SMX1
See page 46 for
maximum “A
Dimension
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080)
For “P” Style Leads: “A” Dimension Plus 4.445 (0.175)
For “Z” Style Leads: “A” Dimension Plus 3.048 (0.120)
11.4 (0.450) 52.1 (2.050) 12.7 (0.500) 20
SMX2 20.3 (0.800) 38.4 (1.510) 22.1 (0.870) 15
SMX3 11.4 (0.450) 26.7 (1.050) 12.7 (0.500) 10
SMX4 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
SMX5 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
SMX6 31.8 (1.250) 52.1 (2.050) 34.3 (1.350) 20
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
090518
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 45





AVX
STYLE
SMX1 _ _ _ _ _ _ AN120 SMX2 _ _ _ _ _ _ AN120 SMX3 _ _ _ _ _ _ AN120 SMX4 _ _ _ _ _ _ AN120 SMX5 _ _ _ _ _ _ AN120 SMX6 _ _ _ _ _ _ AN120
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
C0G 1.0 .70 .40 .18 .068 1.2 1.0 .60 .26 .10 .50 .40 .20 .09 .033 .16 .13 .07 .02 .01 .05 .04 .02 .01 .0039 3.2 2.4 1.3 .50 .20
VHT/X7R 18 10 3.9 1.8 27 15 5.6 2.7 12 8.2 4.7 1.8 .82 3.9 2.7 1.5 .56 .27 1.5 1.0 .56 .22 .10 56 33 12 5.6
AVX
STYLE
SMX1 _ _ _ _ _ _ AN240 SMX2 _ _ _ _ _ _ AN240 SMX3 _ _ _ _ _ _ AN240 SMX4 _ _ _ _ _ _ AN240 SMX5 _ _ _ _ _ _ AN240 SMX6 _ _ _ _ _ _ AN240
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
C0G 2.0 1.4 .80 .36 .13 2.4 2.0 1.2 .52 .20 1.0 .80 .40 .18 .068 .33 .26 .14 .05 .02 .10 .08 .05 .02 .0078 6.4 4.8 2.6 1.0 .40
VHT/X7R 33 18 6.8 3.3 47 27 10 4.7 22 15 8.2 3.3 1.5 6.8 4.7 2.7 1.0 .47 2.7 1.8 1.0 .39 .18 100 56 22 10
AVX
STYLE
SMX1 _ _ _ _ _ _ AN360 SMX2 _ _ _ _ _ _ AN360 SMX3 _ _ _ _ _ _ AN360 SMX4 _ _ _ _ _ _ AN360 SMX5 _ _ _ _ _ _ AN360 SMX6 _ _ _ _ _ _ AN360
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
C0G 3.0 2.1 1.2 .54 .22 3.6 3.0 1.8 .78 .30 1.5 1.2 .60 .27 .10 .48 .39 .21 .07 .03 .15 .12 .07 .03 .011 10 7.2 3.9 1.5 .60
VHT/X7R 47 27 10 4.7 68 39 15 6.8 33 22 12 5.6 2.2 12 6.8 3.9 1.5 .68 3.9 2.7 1.5 .56 .27 150 82 33 15
AVX
STYLE
SMX1 _ _ _ _ _ _ AN480 SMX2 _ _ _ _ _ _ AN480 SMX3 _ _ _ _ _ _ AN480 SMX4 _ _ _ _ _ _ AN480 SMX5 _ _ _ _ _ _ AN480 SMX6 _ _ _ _ _ _ AN480
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
C0G 4.0 2.8 1.6 .72 .27 4.8 4.0 2.2 1.0 .40 2.0 1.6 .80 .36 .130 .64 .52 .28 .10 .04 .20 .16 .10 .04 .015 13 9.6 5.2 2.0 .80
VHT/X7R 68 39 15 6.8 100 56 22 10 47 33 18 6.8 3.3 15 10 5.6 2.2 1.0 5.6 3.9 2.2 .82 .39 220 120 47 22
AVX
STYLE
SMX1 _ _ _ _ _ _ AN650 SMX2 _ _ _ _ _ _ AN650 SMX3 _ _ _ _ _ _ AN650 SMX4 _ _ _ _ _ _ AN650 SMX5 _ _ _ _ _ _ AN650 SMX6 _ _ _ _ _ _ AN650
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
C0G 5.0 3.5 2.0 .90 .34 6.0 5.0 3.0 1.3 .50 2.5 2.0 1.0 .45 .160 .82 .65 .35 .12 .05 .25 .20 .12 .05 .019 16 12 6.5 2.5 1.0
VHT/X7R 82 47 18 8.2 120 68 27 12 56 39 22 8.2 3.9 18 12 6.8 2.7 1.2 6.8 4.7 2.7 1.0 .47 270 150 56 27
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
011419
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
46
The CH/CV range exhibits low ESR/ESL making them well suited for high frequency
applications. With its’ PME technology, the range exhibits high current handling capabilities
where as other technologies may not, making them the ideal choice for filtering, smoothing
and decoupling circuit applications.
The CH/CV range uses a number of different lead frames types which reduces the thermo-
mechanical stresses which makes them the designer’s choice for high reliability applications.
In combination with this the range uses a stacked capacitor design which saves on PCB
space.
FEATURES
BS9100 approved
Voltage range 50-500 V DC
Dielectrics 2C1/X7R
Customised ceramic capacitor packages and lead frames available.
Note: AVX does not recommend or advise the use of adhesives to secure the CH/CV
components to the PCB
ELECTRICAL SPECIFICATIONS
fiCECC 30 000, (4.24.1)
2C1/X7R: C Temperature Characteristic - ± 15%, -55º to +125ºC
Capacitance Test 25ºC
2C1/X7R: Measured at 1 VRMS max at 1KHz
Dissipation Factor 25°C
2C1/X7R: 2.5% max at 1KHz, 1 VRMS max
Insulation Resistance 25°C
2C1/X7R: 100K megohms or 1000 megohms-μF, whichever
is less
Dielectric Withstanding Voltage 25°C (Flash Test)
2C1/X7R: 250% rated voltage for 5 seconds with 50 mA max charging
current. (500 Volt units @ 150% rated voltage)
Life Test (1000 hrs) CECC 30 000 (4.23)
2C1/X7R: 200% rated voltage at +125ºC.
(500 Volt units @ 120% rated voltage)
Damp Heat IEC 68-2-3, 56 days.
Thermal Shock IEC 68-2-14
-55ºC to +125ºC, 5 cycles
Resistance to Solder Heat IEC 68-2-20
Vibration IEC 68-2-6
10Hz - 2000Hz, 0.75mm or 98m/sec2, 6 hrs.
Bump IEC 68-2-29
390m/sec2, 4000 bumps
MARKING
CH and CV 4x, 5x, 81-84
Other CH, CV Styles
A5C
225K
xxxxxx
AVX
5C
156M
xxxxxx
Top line A (AVX). Voltage code, dielectric code.
Middle line capacitance code, tolerance code.
Bottom line 6 digit batch code.
Top line AVX.
Second line voltage code, dielectric code.
Third line capacitance code, tolerance code.
Bottom line, 6 digit batch code.
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
SMPS Capacitors Chip Assemblies
CH/CV - Radial, Dual-in-Line, 4 Terminal/SMT ‘J’ & ‘L’ Ranges
090518
/.‘.\V/)I(” A man snow cowmv +‘ TMax re LMax »‘ f H Max $ T 25 (0.954) «m» — l Lead ma. Se: Tame L 4 (a 020} fTMaXfl M1:M205l0020) L j H Max L Max v vii 25 (09347 L d D' — 3 (ma) 4’ ‘7 ea Ia- M‘» k 4- «M2 See Tame +‘5‘05‘.7 +5‘05+ (0.02m (e um TTTTTT T TTTT Nol RoHS Compliant
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 47
VERTICALLY MOUNTED RADIAL PRODUCT
VERTICALLY MOUNTED 4 TERMINAL RADIAL PRODUCT
Part Number format (CVxxxxxxxxxxxA2)
Typical Part Number CV525C106MA30A2
Part Number format (CVxxxxxxxxx3xx4)
Typical Part Number CV435C106MA30A4
DIMENSIONS
DIMENSIONS
millimeters (inches)
millimeters (inches)
Style L
(max)
H
(max)
S
(nom)
Lead Dia
(nom)
CV41-44 10.6 (0.417) 8.7 (0.342) 8.2 (0.322) 0.7 (0.028)
CV51-54 11.9 (0.468) 10.7 (0.421) 10.2 (0.400) 0.9 (0.035)
CV61-64 16.5 (0.649) 13.6 (0.535) 15.2 (0.600) 0.9 (0.035)
CV71-74 17.8 (0.700) 21.6 (0.850) 15.2 (0.600) 0.9 (0.035)
CV76-79 22.7 (0.893) 16.6 (0.653) 21.2* (0.834) 0.9 (0.035)
Style L
(max)
H
(max)
S
(nom)
Lead Dia
(nom)
CV43-44 10.6 (0.417) 8.7 (0.342) 8.2 (0.322) 0.7 (0.028)
CV53-54 11.9 (0.468) 10.7 (0.421) 10.2 (0.400) 0.9 (0.035)
CV63-64 16.5 (0.649) 13.6 (0.535) 15.2 (0.600) 0.9 (0.035)
CV73-74 17.8 (0.700) 21.6 (0.850) 15.2 (0.600) 0.9 (0.035)
CV78-79 22.7 (0.893) 16.6 (0.653) 21.2* (0.834) 0.9 (0.035)
*Tolerance ± 0.8
*Tolerance ± 0.8 (0.031)
Note 1. This style is only available in 3 & 4 chip assemblies
millimeters (inches)
millimeters (inches)
Style T max
CV41/51/61/71/76 3.80 (0.150)
CV42/52/62/72/77 7.40 (0.291)
CV43/53/63/73/78 11.1 (0.437)
CV44/54/64/74/79 14.8 (0.583)
Style T max S1
CV43/53/63/73/78 11.1 (0.437) 5.08 (0.200)
CV44/54/64/74/79 14.8 (0.583) 7.62 (0.300)
CV 52 1065 C M A 3 0 A 2
Style
Code
(see product
section)

Code Voltage Code
5 = 50V
1 = 100V
2 = 200V
7 = 500V
Dielectric
Code
C = X7R
Capacitance
Code
(2 significant
digits + no.
of zeros)
eg. 105 = 1 uF
106 = 10 uF
107 = 100 uF
Finish
Code
3 = Uncoated
8 = Coated
(classified as
uninsulated)
Lead Dia.
Code
0 = Standard
Lead Space
Code
A = Standard
Lead Style
Code
2 = 2 Terminal
4 = 4 Terminal
See Note 1
above
fi
Code
A = Non-customized
Capacitance Tolerance
X7R: K = ±10%
M = ±20%
P = +100, -0%
HOW TO ORDER
Not RoHS Compliant
Note: See page 139 for How to Order BS9100 parts
SMPS Capacitors (CV Style)
Chip Assemblies
121219
/A\V/)I(” A man emu;- cowmv Wmax ‘ Lmax Lead dla 25 (0 934) 1seelab‘e) a (0.118) M2 ”‘5‘ 05"“ Ls 0%)»‘ (a 02m (0 02 M1 = M2 0 5 (0 020) w max L max T $30079) max * 'TT 13 (0.512) 1 (0.039) s 0.5 0 (0.020) L2 » (k »{ 47 L1 4. 2.54 (0 100) 0.0510 002) TTTTT Nol RoHS Compliant
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
48
HORIZONTALLY MOUNTED 4 TERMINAL RADIAL PRODUCT
HORIZONTALLY MOUNTED DUAL-IN-LINE PRODUCT
Part Number format (CHxxxxxxxxx3xx4)
Typical Part Number CH782C106MA30A4
Part Number format (CHxxxxxxxxxx0A0)
Typical Part Number CH615C106MA30A0
DIMENSIONS
DIMENSIONS
millimeters (inches)
millimeters (inches)
Style L
(max)
W
(max)
S
(nom)
S Lead Dia
(nom)
S1
(nom)
CH42-44 10.6 (0.417) 8.7 (0.342) 8.2 (0.322) 0.7 (0.028) 5.08 (0.200)
CH52-54 11.9 (0.468) 10.7 (0.421) 10.2 (0.400) 0.9 (0.035) 7.62 (0.300)
CH62-64 16.5 (0.649) 13.6 (0.535) 15.2 (0.600) 0.9 (0.035) 7.62 (0.300)
CH72-74 17.8 (0.700) 21.6 (0.850) 15.2 (0.600) 0.9 (0.035) 15.2 (0.600)
CH77-79 22.7 (0.893) 16.6 (0.653) 21.2* (0.834) 0.9 (0.035) 10.2 (0.400)
CH82-84 14.1 (0.555) 38.2 (1.503) 10.2 (0.400) 0.9 (0.035) 27.9 (1.100)
CH87-89 17.8 (0.700) 38.2 (1.503) 15.2 (0.600) 1.0 (0.039) 27.9 (1.100)
CH92-94 24.0 (0.944) 40.6 (1.598) 21.2* (0.834) 1.2 (0.047) 30.5 (1.200)
Style L
(max)
W
(max)
S
(nom)
No. of Leads
per side
CH41-44 9.2 (0.362) 8.7 (0.342) 8.2 (0.322) 3
CH51-54 10.7 (0.421) 10.7 (0.421) 10.2 (0.400) 4
CH61-64 14.9 (0.586) 13.6 (0.535) 14.0 (0.551) 5
CH71-74 16.8 (0.661) 21.6 (0.850) 15.2 (0.600) 7
CH76-79 21.6 (0.850) 16.6 (0.653) 20.3* (0.800) 6
CH81-84 12.0 (0.472) 38.2 (1.503) 10.2 (0.400) 14
CH86-89 18.9 (0.744) 38.2 (1.503) 15.2 (0.600) 14
CH91-94 24.0 (0.944) 40.6 (1.598) 20.3* (0.800) 14
*Tolerance ± 0.8
NOTE: This style is only available in 2, 3 & 4 chip assemblies only
*Tolerance ± 0.8 (0.031)
millimeters (inches)
millimeters (inches)
Style T max
CH42/52/62/72/77/87/92 7.4 (0.291)
CH43/53/63/73/78/88/93 11.1 (0.437)
CH44/54/64/74/79/89/94 14.8 (0.583)
Style T max
CH41/51/61/71/76/81/86/91 3.8 (0.150)
CH42/52/62/72/77/82/87/92 7.4 (0.291)
CH43/53/63/73/78/83/88/93 11.1 (0.437)
CH44/54/64/74/79/84/89/94 14.8 (0.583)
CH 52 1065 C M A 3 0 A 0
Style
Code
(see
product
section)

Code Voltage Code
5 = 50V
1 = 100V
2 = 200V
7 = 500V
Dielectric
Code
C = X7R
Capacitance
Code
(2 significant
digits + no.
of zeros)
eg. 105 = 1 uF
106 = 10 uF
107 = 100 uF
Finish
Code
3 = Uncoated
8 = Coated
(classified as
uninsulated)
Lead Dia.
Code
0 = Standard
Lead Space
Code
A = Standard
Lead Style Code
0 = Straight dual
in line
4 = 4 Terminal
fi
Code
A = Non-customized
Capacitance Tolerance
X7R: K = ±10%
M = ±20%
P = +100, -0%
HOW TO ORDER
Not RoHS Compliant
Note: See page 139 for How to Order BS9100 parts
Lead width 0.5 (0.020)
Lead thickness 0.254 (0.010)
L1 = L2 ± 0.5 (0.020)
SMPS Capacitors (CH Style)
Chip Assemblies
121219
/n\V/)I(” A man emu;- cowmv Wmax n n n n T... 355002) .54 (0.1) s o 5 (0.02) NOTE: A ‘L' \ead \ow promeverswon (CH 0A5) is avai‘able wim \ead height 7 I] I] I] I] mgggg'gwgggng‘evmmew — f a w M H L2 L1 4 r" u H F 2538328? max _ _ if 4 5 0510020) I] I] I] I] ¢ W max 2.54 (0.101» D 510.020) NOTE: A ‘J' ‘55:! km prome version (CH OM) is uvai‘ab‘e WM ‘98:! heigm 1 I 10 043) max forslng‘e amp assembhers eg CH5|50475MA30A3 _. a El TTTTTTTTTTT Na! RoHS Comp anl
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 49
HORIZONTALLY MOUNTEDL LEAD SMT PRODUCT
HORIZONTALLY MOUNTEDJ’ LEAD SMT PRODUCT
Part Number format (CHxxxxxxxxxx0A7)
Typical Part Number CH411C275KA30A7
Part Number format (CHxxxxxxxxxx0A8)
Typical Part Number CH411C275KA30A8
DIMENSIONS
DIMENSIONS
millimeters (inches)
millimeters (inches)
Style L
(max)
W
(max)
S
(nom)
No. of Leads
per side
CH41-44 9.2 (0.362) 8.7 (0.342) 8.2 (0.322) 3
CH51-54 10.7 (0.421) 10.7 (0.421) 10.2 (0.400) 4
CH61-64 14.9 (0.586) 13.6 (0.535) 14.0 (0.551) 5
CH71-74 16.8 (0.661) 21.6 (0.850) 15.2 (0.600) 7
CH76-79 21.6 (0.850) 16.6 (0.653) 20.3* (0.800) 6
CH81-84 12.0 (0.472) 38.2 (1.503) 10.2 (0.400) 14
CH86-89 18.9 (0.744) 38.2 (1.503) 15.2 (0.600) 14
CH91-94 24.0 (0.944) 40.6 (1.598) 20.3* (0.800) 14
Style L
(max)
W
(max)
S
(nom)
No. of
Leads per
side
CH41-44 9.2 (0.362) 8.7 (0.342) 8.2 (0.322) 3
CH51-54 10.7 (0.421) 10.7 (0.421) 10.2 (0.400) 4
CH61-64 14.9 (0.586) 13.6 (0.535) 14.0 (0.551) 5
CH71-74 16.8 (0.661) 21.6 (0.850) 15.2 (0.600) 7
CH76-79 21.6 (0.850) 16.6 (0.653) 20.3* (0.800) 6
CH81-84 12.0 (0.472) 38.2 (1.503) 10.2 (0.400) 14
CH86-89 18.9 (0.744) 38.2 (1.503) 15.2 (0.600) 14
CH91-94 24.0 (0.944) 40.6 (1.598) 20.3* (0.800) 14
*Tolerance ± 0.8 (0.031)
*Tolerance ± 0.8 (0.031)
millimeters (inches)
millimeters (inches)
Style T max
CH41/51/61/71/76/81/86/91 3.8 (0.150)
CH42/52/62/72/77/82/87/92 7.4 (0.291)
CH43/53/63/73/78/83/88/93 11.1 (0.437)
CH44/54/64/74/79/84/89/94 14.8 (0.583)
Style T max
CH41/51/61/71/76/81/86/91 3.8 (0.150)
CH42/52/62/72/77/82/87/92 7.4 (0.291)
CH43/53/63/73/78/83/88/93 11.1 (0.437)
CH44/54/64/74/79/84/89/94 14.8 (0.583)
CH 52 1065 C M A 3 0 A 7
Style
Code
(see
product
section)

Code Voltage Code
5 = 50V
1 = 100V
2 = 200V
7 = 500V
Dielectric
Code
C = X7R
Capacitance
Code
(2 significant
digits + no.
of zeros)
eg. 105 = 1 uF
106 = 10 uF
107 = 100 uF
Finish
Code
3 = Uncoated
8 = Coated
(classified as
uninsulated)
Lead Dia.
Code
0 = Standard
Lead Space
Code
A = Standard
Lead Style Code
3 = Low profile ‘J’
(single chip)
5 = Low profile ‘L
(single chip)
7 = ‘LDual in line
8 = ‘J’ Dual in line
fi
Code
A = Non-customized
Capacitance Tolerance
X7R: K = ±10%
M = ±20%
P = +100, -0%
HOW TO ORDER
Not RoHS Compliant
Note: See page 139 for How to Order BS9100 parts
Lead width 0.5 (0.020)
Lead thickness 0.254 (0.010)
L1 = L2 ± 0.5 (0.020)
Lead width 0.5 (0.020)
Lead thickness 0.254 (0.010)
L1 = L2 ± 0.5 (0.020)
SMPS Capacitors (CH Style)
Chip Assemblies
081120
y a /‘\'/) ( n A A mam ems comm [AYAK |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
50
X7R DIELECTRIC STABLE CERAMIC
CH/CV41-44
Styles
CH/CV51-54
Styles
CH/CV61-64
Styles
CH/CV71-74
Styles
CH/CV76-79
Styles
CH81-84
Styles
CH86-89
Styles
CH91-94
Styles
Voltage DC
Cap μF 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.12 41
0.15 41
0.18 41
0.22 41
0.27 42 51
0.33 41 42 51
0.39 41 42 51
0.47 41 42 51 61
0.56 41 43 52 61
0.68 42 43 51 52 61
0.82 42 44 51 52 61 71 76 81
141 42 44 51 53 61 62 71 76 81
1.2 41 42 52 53 61 62 71 76 81
1.5 41 43 52 54 61 62 71 76 81 86
1.8 41 41 43 52 61 62 72 77 82 86
2.2 41 41 44 51 52 61 63 71 72 76 77 81 82 86
2.7 41 41 51 53 62 63 71 72 76 77 81 82 87 91
3.3 41 42 51 53 62 64 71 72 76 77 81 82 87 91
3.9 42 42 51 51 54 62 72 73 77 78 81 83 86 87 91
4.7 42 42 51 52 61 62 72 73 77 78 82 83 86 87 91
5.6 42 42 51 52 61 63 72 74 77 79 82 84 86 88 92
6.8 42 43 52 52 61 61 63 72 77 82 86 88 92
8.2 43 43 52 52 61 61 64 71 73 76 78 82 87 89 91 92
10 43 44 52 53 61 62 64 71 73 76 78 83 87 91 92
12 44 53 53 62 62 71 71 74 76 76 79 81 83 87 92 93
15 53 54 62 62 71 71 76 76 81 81 84 86 87 92 93
18 54 62 63 71 72 76 77 81 81 86 88 92 94
22 54 62 63 72 72 77 77 81 82 86 86 88 92
27 63 64 72 72 77 77 82 82 86 86 89 93
33 63 64 72 73 77 78 82 82 86 87 91 93
39 64 72 73 77 78 82 82 87 87 91 91 94
47 73 74 78 79 82 83 87 87 91 92
56 73 78 83 83 87 87 92 92
68 74 79 83 84 87 88 92 92
82 84 88 88 92 92
100 88 89 92 93
120 89 93 93
150 93 94
180 94
NB Figures in cells refer to size within ordering information
SMPS Capacitors (CH/CV Style)
Chip Assemblies
090518
”M A man snow c T T T T T T T T
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 51
SXP-style, encapsulated radial leaded MLC capacitors are ideally suited for high
temperature applications up to 200ºC. This product is intended for downhole oil
exploration, including logging while drilling, geophysical probes, as well as space,
aerospace and hybrid automotive applications. This product supplements the SMX
family of capacitors and offers mechanical protection to the ceramic element in
extreme harsh environment. The high temperature solder utilized in the construction
of SXP-style parts assures reliable operation in high temperature and rugged
environments. The SXP-style capacitors are ideally suited for applications as DC
filters in high power, high frequency motor drives, high pulsed-current circuitry, as
well as standard electronic equipment designed for high temperature applications.
SXP-style, switch mode power supply capacitors are characterized with excellent
performance. The main benefits of SXP product include:
Low ESR, low ESL
Low DC leakage
Excellent high frequency performance
Not RoHS Compliant
HOW TO ORDER
SXP 1043 1 C A AM
AVX Style 
See
Dimensions
chart
Voltage
Code
50V = 5
100V = 1
200V = 2
500V = 7
1000V = A
1500V = S
2000V = G
3000V = H
Temperature
fi
C0G = A
VHT/X7R = C
Test Level
A = Standard
Leads
A = Standard
Sn/Pb (min. 5% Pb)
Capacitance
Tolerance
C0G:
J = ±5%
K = ±10%
M = ±20%
VHT/X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
Capacitance Code
(2 significant digits
+ number of zeros)
100 pF = 101
22,000 pF = 223
1μF = 105
Tighter tolerances
available upon
request
fi
C0G: A Temperature Coefficient 0 ±30 ppm/°C, -55° to +200°C
VHT/X7R: C Temperature Coefficient ±15%, -55°C to +125°C
+15% - 56%, -55ºC to +200°C
Capacitance Test (MIL-STD-202 Method 305)
25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
C0G: 0.15% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
VHT/X7R: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
100K MΩ or 1000 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
10K MΩ or 100 MΩ-μF, whichever is less.
ELECTRICAL SPECIFICATIONS
Insulation Resistance 200°C (MIL-STD-202 Method 302)
1K MΩ or 10 MΩ -μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max
charging current. (150% for 500 VDC and 120% for 1000 VDC
and higher voltage ratings)
SMPS Molded Radial MLC Capacitors
SXP Style for High Temperature Applications up to 200ºC
011419
”M A man snow c 7F «:4.
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
52
STYLE
DIMENSIONS
CAPACITANCE RANGE
C0G
LT
H
LD
LT
LD
LS
LL
millimeters (inches)
AVX Style Length (L)
±0.25 (±0.010)
Height (H)
±0.25 (±0.010)
Thickness (T)
±0.25 (±0.010)
Lead Spacing
±0.76 (±0.030)
LD
±0.05 (±0.002) LL
SXP1 8.9 (0.350) 8.9 (0.350) 5.08 (0.200) 5.08 (0.200) 0.51 (0.020)
25.4 (1.000)
SXP2 11.4 (0.450) 11.4 (0.450 5.08 (0.200) 5.08 (0.200) 0.51 (0.020)
SXP3 12.7 (0.500) 12.7 (0.500) 5.08 (0.200) 10.2 (0.400) 0.64 (0.025)
SXP4 22.4 (0.880) 16.3 (0.640) 5.84 (0.230) 19.8 (0.780) 0.81 (0.032)
Style 50V 100V 200V 500V 1000V 1500V 2000V 3000V
SXP1 (MIN) 1000pF 1000pF 1000pF 100pF 100pF 100pF 100pF 100pF
(MAX) .04F .02F 8200pF 4700pF 2200pF 1000pF 560pF 270pF
SXP2 (MIN) ,0F 1000pF 1000pF 100pF 100pF 100pF 100pF 100pF
(MAX) .10μF .056μF .018μF 8200pF 4700pF 1800pF 1200pF 560pF
SXP3 (MIN) .0F 1000pF 1000pF 1000pF 1000pF 100pF 100pF 100pF
(MAX) .15μF .068μF .022pF .012pF 6800pF 2700pF 1500pF 1000pF
SXP4 (MIN) .0F .0F 1000pF 1000pF 1000pF 1000pF 100pF 100pF
(MAX) .39μF .22μF .068pF .033pF .018μF 8200pF 4700pF 2700pF
Style 50V 100V 200V 500V 1000V 1500V 2000V 3000V
SXP1 (MIN) .1μF .0F .0F .0F .0F .0F 1000pF 1000pF
(MAX) 1.5μF 1.0μF .33μF .12μF .056μF .022μF .012μF 4700pF
SXP2 (MIN) .1μF .1μF .0F .0F .0F .0F .0F 1000pF
(MAX) 2.7μF 1.8μF .68μF .2F .10μF .056μF .022μF 8200pF
SXP3 (MIN) .0F .1μF .0F .0F .0F .0F .0F .0F
(MAX) 3.9μF 2.7μF 1.0μF .33μF .15μF .08F .033μF .015μF
SXP4 (MIN) F .1μF .1μF .0F .0F .0F .0F .0F
(MAX) 12μF 8.2μF 2.7μF 1.0μF .4F .22μF .10μF .039μF
VHT/X7R
SMPS Molded Radial MLC Capacitors
SXP Style for High Temperature Applications up to 200ºC
090518
y 0 /‘\V/) ( n A AKvotzMGRouPconw
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 53
The TurboCapTM, MLC capacitors from AVX Corporation are
characterized with very high capacitance in a small volume. By
vertical stacking of the ceramic elements, the footprint required
for mounting the capacitors is greatly reduced. TurboCapsTM are
ideally suited as filters in the input and output stages of switch
mode power supplies (SMPS). With their ultra-low ESR, these
capacitors are designed to handle high ripple current at high
frequencies and high power levels. The DIP leads in either thru-
hole or surface mount configurations offer superior stress relief
to the ceramic elements. The leads effectively decouple the parts
from the board and minimize thermally or mechanically induced
stresses encountered during assembly, temperature cycling or
other environmental conditions.
TYPICAL APPLICATION OF TURBOCAPTM SMPS CAPACITORS FOR INPUT AND OUTPUT
FILTERS IN DC/DC CONVERTERS
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
PWM
CONTROLLER
INPUT
FILTER
Vin
OUTPUT
FILTER
Vout
G
VCC
FB
GND
SNUBBER
High-CV SMPS Capacitors
TurboCap
011419
/.‘.\V/)I(” A mm»: snow cowmv Nat RoHS Compliant
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
54
fi
Temperature Coefficient ±15%, -55° to +125°C
Capacitance Test (MIL-STD-202 Method 305)
25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
500 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
50 MΩ-μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max charging current.
Life Test (1000 hrs)
X7R: 150% rated voltage at +125°C.
Moisture Resistance (MIL-STD-202 Method 106)
Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method 107, Condition A)
Immersion Cycling (MIL-STD-202 Method 104, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 210,
Condition B, for 20 seconds)

 
ESR @ 10KHz 0.007 0.004 0.003
ESR @ 50KHz 0.003 0.002 0.0015
ESR @ 100KHz 0.002 0.0015 0.001
ELECTRICAL SPECIFICATIONS
HOW TO ORDER

AVX Styles: ST12 and ST20
Not RoHS Compliant
ST12 1865 C A 03NM
AVX
Style
ST12
ST20
Voltage
25V = 3
50V = 5
100V = 1
Temperature
fi
X7R = C
Test Level
A = Standard
Number
of Leads
Per Side
03 = 3
05 = 5
10 = 10
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
Capacitance
Tolerance
M = ±20%
Capacitance Code
(2 significant digits
+ number of zeros)
1 μF = 105
10 μF = 106
100 μF = 107
ST12 ST20
Voltage
50V 100V 25V 50V 100V
.82
1.3
2.7
8.2 ...03
12 ...05
14 ...03
18 ...03
22 ...10 ...05
27 ...05 ...03
47 ...05 ...10
50 ...10
68 ...03
100 ...05 ...10
220 ...10
090518
High-CV SMPS Capacitors
TurboCap
(0 A A man smur- cow /A\V/) IAXM'
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 55
D
A
B
0.508 (0.020) TYP.
3, 5 or 10 leads per side
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
0.254 (0.010) TYP.
E
6.35 (0.25)
MIN.
“N” STYLE LEADS
“J” STYLE LEADS
D
A
B
0.508 (0.020) TYP.
3, 5 or 10 leads per side
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
1.397 (0.055)
± 0.127 (0.005)
E
1.778 (0.070)
± 0.254 (0.010)
0.254 (0.010) RAD. TYP.
B
D
A
B
0.508 (0.020) TYP.
3, 5 or 10 leads per side
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
1.397 (0.055)
± 0.127 (0.005)
E
1.778 (0.070)
± 0.254 (0.010)
0.254 (0.010) RAD. TYP.
B
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.)* C
± 0.635 (± 0.025) D (max.) E (max.) Lead
Style
No. of Leads
Per Side
ST125C***M*N03 3.56 (0.140) 5.21 (0.205) 5.08 (0.200) 10.8 (0.425) 6.35 (0.250) N03
ST125C***M*N05 3.56 (0.140) 5.21 (0.205) 5.08 (0.200) 15.9 (0.625) 6.35 (0.250) N05
ST125C***M*N10 3.56 (0.140) 5.21 (0.205) 5.08 (0.200) 27.9 (1.100) 6.35 (0.250) N10
ST205C***M*N03 5.59 (0.220) 7.24 (0.285) 6.35 (0.250) 9.5(0.375) 7.62 (0.300) N 03
ST205C***M*N05 5.59 (0.220) 7.24 (0.285) 6.35 (0.250) 14.6 (0.575) 7.62 (0.300) N 05
ST205C***M*N10 5.59 (0.220) 7.24 (0.285) 6.35 (0.250) 27.3 (1.075) 7.62 (0.300) N 10
*The “B” dimension is defined for the “N” Style leads. The “L” and “J” Style Leads are 0.381 (0.015) longer. The ST12 will be 5.89 (0.220), the ST20 will be 7.62 (0.300).
011419
High-CV SMPS Capacitors
TurboCap
y 0 /‘\V/) ( n A AKvotzMGRouPconw
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
56
The RoHS Compliant TurboCapTM, MLC capacitors from AVX
Corporation are characterized with very high capacitance in a
small volume. By vertical stacking of the ceramic elements, the
footprint required for mounting the capacitors is greatly reduced.
TurboCapsTM are ideally suited as filters in the input and output
stages of switch mode power supplies (SMPS). With their ultra-low
ESR, these capacitors are designed to handle high ripple current
at high frequencies and high power levels. The DIP leads in either
thru-hole or surface mount configurations offer superior stress relief
to the ceramic elements. The leads effectively decouple the parts
from the board and minimize thermally or mechanically induced
stresses encountered during assembly, temperature cycling or other
environmental conditions.
TYPICAL APPLICATION OF TURBOCAPTM SMPS CAPACITORS FOR INPUT AND OUTPUT
FILTERS IN DC/DC CONVERTERS
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
PWM
CONTROLLER
INPUT
FILTER
Vin
OUTPUT
FILTER
Vout
G
VCC
FB
GND
SNUBBER
High-CV SMPS Capacitors
RoHS Compliant TurboCap
090518
/A\"/Z;§ A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 57
fi
Temperature Coefficient ±15%, -55° to +125°C
Capacitance Test (MIL-STD-202 Method 305)
25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
500 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
50 MΩ-μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max charging current.
Life Test (1000 hrs)
X7R: 150% rated voltage at +125°C.
Moisture Resistance (MIL-STD-202 Method 106)
Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method 107, Condition A)
Immersion Cycling (MIL-STD-202 Method 104, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 210,
Condition B, for 20 seconds)

 
ESR @ 10KHz 0.007 0.004 0.003
ESR @ 50KHz 0.003 0.002 0.0015
ESR @ 100KHz 0.002 0.0015 0.001
ELECTRICAL SPECIFICATIONS
HOW TO ORDER

AVX Styles: RT12 and RT20
RT12 1865 C A 03NM
AVX
Style
RT12
RT20
Voltage
25V = 3
50V = 5
100V = 1
Temperature
fi
X7R = C
Test Level
A = Standard
Number
of Leads
Per Side
03 = 3
05 = 5
10 = 10
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
Capacitance
Tolerance
M = ±20%
Capacitance Code
(2 significant digits
+ number of zeros)
1 μF = 105
10 μF = 106
100 μF = 107
RT12 RT20
Voltage
50V 100V 25V 50V 100V
.82
1.3
2.7
8.2 ...03
12 ...05
14 ...03
18 ...03
22 ...10 ...05
27 ...05 ...03
47 ...05 ...10
50 ...10
68 ...03
100 ...05 ...10
220 ...10
011419
High-CV SMPS Capacitors
RoHS Compliant TurboCap
(0 A A man smur- cow /A\V/) IAXM'
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
58
D
A
B
0.508 (0.020) TYP.
3, 5 or 10 leads per side
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
0.254 (0.010) TYP.
E
6.35 (0.25)
MIN.
“N” STYLE LEADS
“J” STYLE LEADS
D
A
B
0.508 (0.020) TYP.
3, 5 or 10 leads per side
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
1.397 (0.055)
± 0.127 (0.005)
E
1.778 (0.070)
± 0.254 (0.010)
0.254 (0.010) RAD. TYP.
B
D
A
B
0.508 (0.020) TYP.
3, 5 or 10 leads per side
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
1.397 (0.055)
± 0.127 (0.005)
E
1.778 (0.070)
± 0.254 (0.010)
0.254 (0.010) RAD. TYP.
B
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.)* C
± 0.635 (± 0.025) D (max.) E (max.) Lead
Style
No. of Leads
Per Side
RT125C***M*N03 3.56 (0.140) 5.21 (0.205) 5.08 (0.200) 10.8 (0.425) 6.35 (0.250) N03
RT125C***M*N05 3.56 (0.140) 5.21 (0.205) 5.08 (0.200) 15.9 (0.625) 6.35 (0.250) N05
RT125C***M*N10 3.56 (0.140) 5.21 (0.205) 5.08 (0.200) 27.9 (1.100) 6.35 (0.250) N10
RT205C***M*N03 5.59 (0.220) 7.24 (0.285) 6.35 (0.250) 9.50 (0.375) 7.62 (0.300) N 03
RT205C***M*N05 5.59 (0.220) 7.24 (0.285) 6.35 (0.250) 14.6 (0.575) 7.62 (0.300) N 05
RT205C***M*N10 5.59 (0.220) 7.24 (0.285) 6.35 (0.250) 27.3 (1.075) 7.62 (0.300) N 10
*The “B” dimension is defined for the “N” Style leads. The “L” and “J” Style Leads are 0.381 (0.015) longer. The RT12 will be 5.89 (0.220), the RT20 will be 7.62 (0.300).
090518
High-CV SMPS Capacitors
RoHS Compliant TurboCap
y 0 /‘\V/) ( n A mmm Gaourcoww
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 59
The Mini-TurboCap is constructed from state-of-the-art BME (Base
Metal Electrode) MLC Capacitors achieving very high CV, as well
as, ultra low ESR and ESL. The resulting, very large capacitance
values allow for component and board space reduction. Stress
relieving lead frames provide effective mechanical decoupling of
the ceramic chips from the board, minimizing the stress created by
board flexing, vibration and temperature cycling. High temperature
solder is used to attach chips to the lead frame thus eliminating the
risk of solder reflow during assembly to the board.

Voltage
25V 50V 100V
8.2
18
39*
82*
Not RoHS Compliant
HOW TO ORDER
ST10 1865 C A 02KM
AVX
Style
Voltage
25V = 3
50V = 5
100V = 1
Temperature
fi
X7R = C
Test Level
A = Standard
Number
of Leads
Per Side
02 = 2
Termination
N = Straight Lead
K = Leads formed in
M = Leads formed out
Capacitance
Tolerance
M = ±20%
Capacitance Code
(2 significant digits
+ number of zeros)
1 μF = 105
10 μF = 106
Additional stacked/lead configurations available upon request. Consult with AVX factory personnel for details.
ELECTRICAL SPECIFICATIONS
fi
±15%, -55° to +125°C
Capacitance Test (MIL-STD-202, Method 305)
25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor
5% Max @ 25°C, for 50VDC and 100VDC voltage ratings
Insulation Resistance 25°C (MIL-STD-202, Method 302)
500 MΩ-μF (*100 MΩ-μF)
Insulation Resistance 125°C (MIL-STD-202, Method 302)
50 MΩ-μF (*10 MΩ-μF)
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max charging current.
Life Test Capabilities (1000 hrs)
150% rated voltage at +125°C.
fi
SMPS Capacitors
Mini-TurboCap
011419
g V A A mm»: snow cow /.‘.\V/) M? Vi [5331M
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
60
STYLE/DIMENSIONS
PART NUMBER AVAILABLE OPTIONS (2X2)
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
LEAD THICKNESS = 0.254 (0.010) TYP.
2 LEADS PER SIDE
1.27 (0.050) MAX.
0.635 (0.025) MIN.
6.35 (0.25) MIN.
1.397 (0.055)
±0.254 (0.010)
C
E
TOP VIEW
D
A
B
0.508 (0.020) TYP.
LEAD THICKNESS = 0.254 (0.010) TYP.
2 LEADS PER SIDE
1.27 (0.050) MAX.
0.635 (0.025) MIN.
2.54 (0.100) TYP. C
E
TOP VIEW
1.397 (0.055)
±0.127 (0.005)
1.14 (0.045)
±0.254 (0.010)
0.254 (0.010) RAD. TYP.
D
A
B
0.508 (0.020) TYP.
LEAD THICKNESS = 0.254 (0.010) TYP.
2 LEADS PER SIDE
1.27 (0.050) MAX.
0.635 (0.025) MIN.
2.54 (0.100) TYP. C
E
TOP VIEW
1.397 (0.055)
±0.127 (0.005)
1.14 (0.045)
±0.254 (0.010)
0.254 (0.010) RAD. TYP.
“K” STYLE LEADS
“M” STYLE LEADS
“N” STYLE LEADS
DIMENSIONS millimeters (inches)
Part Number Temperature
fi Voltage Capacitance Code Capacitance Capacitance
Tolerance
Number
Of Leads Lead Styles
ST103C826MA-02 X7R 25 826 82μF ±20% 2 N, K, M
ST105C186MA-02 X7R 50 186 18μF ±20% 2 N, K, M
ST105C396MA-02 X7R 50 396 39μF ±20% 2 N, K, M
ST101C825MA-02 X7R 100 825 8.2μF ±20% 2 N, K, M
Style A (max.) B (max.) C
± 0.635 (± 0.025)
D
± 0.635 (± 0.025) E (max.) No. of Leads
Per Side
ST10 5.59 (0.220) 7.00 (0.275) 3.81 (0.150) 5.33 (0.210) 4.83 (0.190) 02
090518
fi
SMPS Capacitors
Mini-TurboCap
y 0 /‘\V/) ( n A mmm Gaourcoww
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 61
The RoHS Compliant Mini-TurboCapTM is constructed from state-
of-the-art BME (Base Metal Electrode) MLC Capacitors achieving
very high CV, as well as, ultra low ESR and ESL. The resulting, very
large capacitance values allow for component and board space
reduction. Stress relieving lead frames provide effective mechanical
decoupling of the ceramic chips from the board, minimizing the
stress created by board flexing, vibration and temperature cycling.
High temperature solder is used to attach chips to the lead frame
thus eliminating the risk of solder reflow during assembly to the
board.
CAPACITANCE RANGE
Voltage
25V 50V 100V
8.2
18
39*
82*
HOW TO ORDER
RT10 1865 C A 02KM
AVX
Style
Voltage
25V = 3
50V = 5
100V = 1
Temperature
fi
X7R = C
Test Level
A = Standard
Number
of Leads
Per Side
02 = 2
Termination
N = Straight Lead
K = Leads formed in
M = Leads formed out
Capacitance
Tolerance
M = ±20%
Capacitance Code
(2 significant digits
+ number of zeros)
1 μF = 105
10 μF = 106
Additional stacked/lead configurations available upon request. Consult with AVX factory personnel for details.
ELECTRICAL SPECIFICATIONS
fi
±15%, -55° to +125°C
Capacitance Test (MIL-STD-202, Method 305)
25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor
5% Max @ 25°C, for 50VDC and 100VDC voltage ratings
Insulation Resistance 25°C (MIL-STD-202, Method 302)
500 MΩ-μF (*100 MΩ-μF)
Insulation Resistance 125°C (MIL-STD-202, Method 302)
50 MΩ-μF (*10 MΩ-μF)
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max charging current.
Life Test Capabilities (1000 hrs)
150% rated voltage at +125°C.
011419
fi
SMPS Capacitors
RoHS Compliant Mini-TurboCap
g V A A mm»: snow cow /.‘.\V/) [5331M
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
62
STYLE/DIMENSIONS
PART NUMBER AVAILABLE OPTIONS (2X2)
DIMENSIONS millimeters (inches)
Part Number Temperature
fi Voltage Capacitance Code Capacitance Capacitance
Tolerance
Number
Of Leads Lead Styles
RT103C826MA-02 X7R 25 826 82μF ±20% 2 N, K, M
RT105C186MA-02 X7R 50 186 18μF ±20% 2 N, K, M
RT105C396MA-02 X7R 50 396 39μF ±20% 2 N, K, M
RT101C825MA-02 X7R 100 825 8.2μF ±20% 2 N, K, M
Style A (max.) B (max.) C
± 0.635 (± 0.025)
D
± 0.635 (± 0.025) E (max.) No. of Leads Per
Side
RT10 5.59 (0.220) 7.00 (0.275) 3.81 (0.150) 5.33 (0.210) 4.83 (0.190) 02
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
LEAD THICKNESS = 0.254 (0.010) TYP.
2 LEADS PER SIDE
1.27 (0.050) MAX.
0.635 (0.025) MIN.
6.35 (0.25) MIN.
1.397 (0.055)
±0.254 (0.010)
C
E
TOP VIEW
D
A
B
0.508 (0.020) TYP.
LEAD THICKNESS = 0.254 (0.010) TYP.
2 LEADS PER SIDE
1.27 (0.050) MAX.
0.635 (0.025) MIN.
2.54 (0.100) TYP. C
E
TOP VIEW
1.397 (0.055)
±0.127 (0.005)
1.14 (0.045)
±0.254 (0.010)
0.254 (0.010) RAD. TYP.
D
A
B
0.508 (0.020) TYP.
LEAD THICKNESS = 0.254 (0.010) TYP.
2 LEADS PER SIDE
1.27 (0.050) MAX.
0.635 (0.025) MIN.
2.54 (0.100) TYP. C
E
TOP VIEW
1.397 (0.055)
±0.127 (0.005)
1.14 (0.045)
±0.254 (0.010)
0.254 (0.010) RAD. TYP.
“K” STYLE LEADS
“M” STYLE LEADS
“N” STYLE LEADS
090518
fi
SMPS Capacitors
RoHS Compliant Mini-TurboCap
(0 A A mew snow cow: /A\V/) [NM |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 63
The MH components use a X7R high capacitance value ceramic capacitor in a surface mount
precision made moulded case.
The MH capacitor combine the ceramic attributes of very low ESR, non-polar construction,
excellent high frequency behaviour and voltage stress capabilities and wide temperature range;
with the enhanced mechanical protection of a moulded case. The moulded case is UL94 V-0 flame
retardant and the MH is RoHs and also AEC-Q200 compliant.
The MH range provides a lead frame solution to customers who have previously been unable to
use large case ceramic capacitors because of mechanical stressing concerns.
For those applications where a tin termination is not acceptable, a Tin/Lead termination is available.
FEATURES
Capacitance: 2.2u F – 22 μF
MHs are AEC-Q200 compliant
Voltage Range DC: 25V – 100V
Enhanced thermo mechanical stress resistance.
HOW TO ORDER
MH
MH
Series
V
Case
Size
see table
below
1
Voltage
3 = 25V
5 = 50V
1 = 100V
C
Dielectric
C = X7R
1
MLCC
Count
A
Failure Rate
A = Not
Applicable
A
Special
Code
A = Std.
Product
T
Termination
T = Tin Plated
B = Tin/Lead Plated
2
Packaging
2 = 7” Reel
4 = 13” Reel
6 = Waffle
Pack
M
Capacitance
Tolerance
K = ±10%
M = ±20%
475
Capacitance
Code (In pF)
2 Sig. Digits
+ Number of
Zeros
MH X7R RANGE PACKAGING QUANTITY
 25V 50V 100V
225 2.2
335 3.3
475 4.7
685 6.8
106 10
156 15
226 22
MILLIMETERS (INCHES)
L7.0.2 0
(0.287 ±0.008)
W6.1 + 0.20 - 0.10
(0.24 + 0.008 - 0.004)
H3.45±0.30
(0.136±0.012)
W1
3.1±0.20
(0.120±0.008)
A1.4 + 0.30 - 0.20
(0.055 + 0.012 - 0.008)
S Min 4.40
(0.173)
LEAD-FREE COMPATIBLE
COMPONENT
7” Reels 400
13” Reels 1500
Waffle Pack 108
TS 16949, ISO 14001
Certified Manufacture
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Lead Free Ceramic Capacitor in Molded
SM Leadframe
MH Style Ceramic Capacitor
011419
/A\V/)I(” A man snow cowmv L mam w max 3 r n 7, r x‘ +' i: —» 5 E “o’- I M1=M2 +4: 5 2 : j g 0'25 WP‘ 254% 05 ‘ ‘ ,1-4typ 1 non accum ‘ ‘ h 7 1 as H) 15
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
64
DIMENSIONS: MILLIMETERS (INCHES)
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
The RH range uses high volumetric efficient X7R capacitors in a “J” style lead frame.
The range of components are uncoated and are suitable for input or output filter capacitors in high
frequency DC-DC convertor, automotive, telecom, industrial and military applications.
When large ceramic capacitors are used in applications they can easily be affected by stresses caused
by temperature variations, thermal shock, mechanical vibrations and PCB bend movement. The RH
range is designed with a “J” type lead frame which greatly reduces all of these thermo mechanical
stresses experienced by large capacitors. The RH range allows the capacitors to be doubled stacked
so a higher volumetric efficiency can be achieved by the customer and this saves PCB space.
FEATURES
RH 21/22 are AEC-Q200 compliant.
RH range has low ESR/ESL capability
PCB space saving using double stacked MLCCs
Enhanced thermo mechanical stress resistance
Note: AVX does not recommend or advise the use of adhesives to secure the RH components to the PCB.
ELECTRICAL SPECIFICATIONS
fiCECC 30 000, (4.24.1)
X7R: C Temperature Characteristic - ± 15%, -55ºC to +125ºC
Capacitance Test
Measured at 1 VRMS max at 1KHz
Dissipation Factor 25°C
2.5% max at 1KHz, 1 VRMS max
Insulation Resistance 25°C
100K megohms or 1000 megohms-μF, whichever is less
Dielectric Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50 mA max
charging current. (500 Volt units @ 150% rated voltage)
Life Test (1000 hrs) CECC 30 000 (4.23)
200% rated voltage at +125ºC.
(500 Volt units @ 120% rated voltage)
Thermal Shock IEC 68.2.14
-55ºC to +125ºC, 5 cycles
Resistance to Solder Heat IEC 68.2.20
DIMENSIONS millimeters (inches)

ESR @ 100KHz 17
ESR @ 500KHz 12
ESR @ 1MHz 14
Style L max W max H max S ± 0.1
0.004) hNo. of leads
per side
RH21 7.20 (0.283) 5.40 (0.213) 4.60 (0.181) 2.50 (0.098) 1.50 ±0.30
(0.059 ±0.012) 2
RH22 7.20 (0.283) 5.40 (0.213) 7.50 (0.295) 2.50 (0.098) 1.50 ±0.30
(0.059 ±0.012) 2
RH31 7.62 (0.300) 7.00 (0.270) 5.08 (0.200) 5.08 (0.200) 1.78 ±0.25
(0.070 ±0.010) 3
RH32 7.62 (0.300) 7.00 (0.270) 8.13 (0.320) 5.08 (0.200) 1.78 ±0.25
(0.070 ±0.010) 3
RH41 9.20 (0.362) 8.70 (0.342) 4.90 (0.192) 5.08 (0.200) 1.60 ±0.10
(0.062 ±0.004) 3
RH42 9.20 (0.362) 8.70 (0.342) 8.20 (0.323) 5.08 (0.200) 1.60 ±0.10
(0.062 ±0.004) 3
RH51 10.7 (0.421) 10.7 (0.421) 4.90 (0.192) 7.62 (0.300) 1.60 ±0.10
(0.062 ±0.004) 4
RH52 10.7 (0.421) 10.7 (0.421) 8.20 (0.323) 7.62 (0.300) 1.60 ±0.10
(0.062 ±0.004) 4
RH61 14.9 (0.586) 13.6 (0.535) 4.90 (0.192) 10.2 (0.400) 1.60 ±0.10
(0.062 ±0.004) 5
RH62 14.9 (0.586) 13.6 (0.535) 8.20 (0.323) 10.2 (0.400) 1.60 ±0.10
(0.062 ±0.004) 5
SMPS Capacitors
RH Style - Surface Mount ‘J’ Lead Range
090518
”M A mum emu; c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 65
X7R STABLE DIELECTRIC
RH21/RH22
Style
RH31/RH32
Style
RH41/RH42
Style
RH51/RH52
Style
RH61/RH62
Style
Voltage DC
Cap μF 25 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500 50 100 200 500
0.047
0.056
0.068 RH31
0.082
0.1
0.12
0.15 RH32 RH41
0.18
0.22
0.27 RH31
0.33 RH42 RH51
0.39 RH41
0.47
0.56 RH32 RH52
0.68 RH61
0.78 RH51
0.82 RH31 RH42
1
1.2 RH62
1.5 RH31 RH41 RH52 RH61
1.8
2.2 RH32 RH41
3
3.3 RH21 RH32 RH42 RH62
3.9 RH51
4.7 RH42
6.8 RH51 RH61
8.2 RH21 RH61
10 RH51
12 RH22 RH62
15 RH21 RH22 RH51 RH62
18 RH52
22 RH52
33 RH22 DEV DEV DEV
47 DEV
68 DEV
BME BME PME PME BME Development
For availability of further parts in the RH21/RH22 Series, contact manufacturing.
PACKAGING
Style  fl
RH21 800 270
RH22 500 270
RH31 800 108
RH32 500 108
RH41 see note 108
RH42 500 100
RH51 750 88
RH52 see note 88
RH61 500 42
RH62 see note 42
Note: T&R is not yet available. Contact manufacturing for further information as this will be available in the future.
BME Available in RoHS and Non-RoHS PME
Available Only in Non-RoHS
Please contact
plant for details
HOW TO ORDER
RH 31 2255 C M A 3 0 A 3
Style
Code
(see table
above)

Code Voltage
Code
3 = 25V
5 = 50V
1 = 100V
2 = 200V
7 = 500V
Dielectric
Code
C = X7R
Capacitance
Code
(2 significant
digits + no. of
zeros)
eg. 105 = 1 uF
104 = 0.1 uF
Package
Code
3 = Waffle Pack
A = Tape & Reel
Lead Dia.
Code
0 = Standard
R = RoHS Compliant
Lead Space
Code
A = Standard
Lead Style
Code
3 = ‘J’ Lead
fi
Code
A = Non-
customized
Capacitance
Tolerance
K = ±10%
M = ±20%
SMPS Capacitors
RH Style - Surface Mount ‘J’ Lead Range
121219
”A! A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
66
For the requirements that cannot be satisfied by standard SMPS
style products (SM0-style or SM9-style), AVX offers leading edge
solutions in custom configuration and packaging. Ranging from
unique geometries, lead configurations, packaging and stress
relief mounting options, AVX has optimized solutions for a wide
range of customer specific designs. The solutions provided
by AVX maintain high reliability of stacked capacitor product
originally developed by AVX and historically recognized as the
highest reliability product in the market. Custom packaging
options provide solutions that eliminate reliability concerns
in the next level assembly. These custom options provide the
following benefits:
eliminate soldering requirements altogether by providing means
of electrical/mechanical connection to the circuit
provide options for remote soldering away from large ceramic
capacitor body and eliminating the risk of thermal shock (refer
to photograph with soft, insulated leads soldered to the stacked
capacitor using high melting point SN10 solder)
Many other innovations are available from AVX Corporation. Let
them apply these ideas to your application specific requirements.
Please contact AVX for a solution that will meet demands of your
program requirements.
CUSTOM LEAD
CONFIGURATIONS…
CUSTOM PACKAGING…
SMPS Capacitors
fi
090518
y a /‘\'/) ( n A A mam ems comm [AX/.2! |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 67
Reliability
AVX has been involved in numerous military and customer High
Reliability programs for over 40 years.
Reliability [% Failure Rate (FR%) or Mean Time Between Failure (MTBF)]
is based on the number of failures and the cumulative test hours
expanded by test versus use acceleration factors. The acceleration
factors are calculated according to the following relationships:
Military Reliability levels are usually expressed in terms of rated
conditions versus test conditions (generally 125°C and 2X WVDC). If
actual conditions are less than rated, the reliability levels will improve
significantly over rated and can be calculated by use of the above
relationship for determining accelerated test hours. For example, if
the actual use conditions were 75°C and 1/2 WVDC rating for a 125°C
rated part, the acceleration factors are 64X for voltage and 100X for
temperature. Reliabilities based on current testing can be obtained by
contacting AVX.
General Processing Guidelines
Soldering
The SM styles capacitors are generally quite large relative to other
types of MLC capacitors. As a result of the size, precau tions must be
taken before subjecting the parts to any soldering operation in order
to prevent thermal shock. Preheat prior to sol dering is essential.
The heating rate of the SupraCap® ceramic bodies during preheat
must not exceed 4°C/second. The preheat temperature must be
within 50°C of the peak temperature reached by the ceramic bodies,
adjacent to lead material, through the soldering process. The leads
are attached to the chip stack with 10 / 88 / 2 (Sn / Pb / Ag, Solidus
268°C, Liquidus 290°C).
Vibration Specifications*
Due to the weight of the SupraCap® and the size and strength of the
lead frame used, when the SupraCap® is to be used in an application
where it will undergo high frequency vibration, we strongly
recommend using our potted SM9 styles SupraCap®.
If other DIP styles SupraCap® are to be used in a high frequency
vibration environment, the SupraCap® should be supported in some
way to prevent oscillation of the capacitor assembly which will result
in lead breakage. If “strapping” the SupraCap® to the board is the
chosen method of support, care should be taken not to chip the
ceramic or apply undue pressure so that cracking of the ceramic
results.
If bonding the SupraCap® to the board with adhesive, consideration of
the CTE (coefficient of thermal expansion) is necessary. A mismatch
between the CTE of the ceramic and adhesive can cause the ceramic to
crack during temperature cycles.
Processing Guidelines*
There are practical size limitations for MLCs which prohibit reliable
direct mounting of chip capacitors larger than 2225 (.22” x .25”) to a
substrate. These large chips are subject to thermal shock racking and
thermal cycling solder joint fatigue. Even 1812 (.18” x .12”) and 2225
chip capacitors will have solder joint failures due to mechanical fatigue
after 1500 thermal cycles from 0 to 85°C on FR4 and ≈ 3000 cycles on
alumina from -55 to 125°C. This is due to differences in the Coefficient
of Thermal Expansion (CTE) between MLCs and substrate materials
used in hybrids and surface mount assemblies. Materials used in the
manufacture of all electronic components and substrates have wide
ranges of CTEs as shown in Table 1.
Table I
CTEs of Typical Components and Substrates
Material CTE (ppm/°C)
Alloy 42 5.3
Alumina ~7
Barium Titanate Capacitor Body 10-12
Copper 17.6
Copper Clad Invar 6-7
Filled Epoxy Resin (<TR) 18-25
FR4/G-10 PC Board (X, Y) ~18
Nickel or Steel 15
Polyimide/Glass PCB (X, Y) ~12
Polyimide/Kevlar PCB (X, Y) ~7
Tantalum 6.5
Tin Lead Alloys ~27
Linear Displacement
This CTE difference translates into mechanical stress that is due
to the linear displacement of substrate and component. Linear
displacement is a function of ∆CTE (CTEsub CTEcomp) and the overall
length of the component. Long components/ substrates have large
linear displacements even with a small ∆CTE which will cause
high stress in the solder joints and fatigue after a few temperature
cycles. Figure 1 shows linear displacement for conditions where
∆CTE is positive and negative.
* Reference AVX Technical Information paper, “Processing Guidelines for SMPS
Capacitors.
SMPS Capacitors
Assembly Guidelines
011419
Temperature
Acceleration
Voltage
Acceleration
Where:
TT = test temp. (°C)
TU = use temp. (°C)
Where:
VT = test voltage
VU = use voltage
= 10
T
T
T
U
25
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
68
Figure 1. Linear Displacement Between
Component and Substrate
Figure 2
Figure 3. “J” and “L” Leadframes Mounted on
Capacitors to Relieve Stress
Figure 4. Number of Leads on One Side of Capacitor vs. Total
Leadframe Inductance vs. Substrate Standoff Height
General Processing Guidelines
Figure 2 shows the location of maximum stress in the solder joint
due to positive and negative DCTE and linear displacement.
Stress Relief
Leadframes on larger capacitor sizes (greater than 2225) must
be used to minimize mechanical stress on the solder joints during
temperature cycling which is normal operation for power supplies
(Figure 3). Failing solder joints increase both ESR and ESL causing
an increase in ripple, noise and heat, accelerating failure.
Layout
Effective solder dams must be used to keep all molten solder on
the solder lands during reflow or solder will migrate away from the
land, causing opens or weak solder joints. High frequency output
filters cannot use low power layout techniques such as necked down
conductors because of the stringent inductance requirements.
Inductance
Adding leadframes has a small impact on component inductance
but this is the price that must be paid for reliable operation over
temperature. Figure 4 shows typical leadframe inductance that is
added for two lead standoff distances (0.020” and 0.050”) versus the
number of leads along one side of SupraCap® which are specifically
designed output filter capacitors for 1 MHz and above switchers. The
actual inductance will be somewhat less because the leadframes flare
out from the lead where the lead-frame is attached to the capacitor
body.
Very high frequency switch mode power supplies place tremendous
restrictions on output filter capacitors. In addition to handling high
ripple current (low ESR), ESL must approach zero nano henrys,
part must be truly surface mountable and be available in new
configurations to be integrated into transmission lines to further
reduce inductance with load currents greater than 40A at 1 MHz and
as frequencies move above 1-2 MHz.
The total inductance is the sum of each side of the part where
the inductance of one side is the parallel combination of each
lead in the leadframe. That inductance is given by:
L (nH) = 5xℓ [In (2xℓ) / (B+C) + 1/2]
Where ℓ = lead length in inches
In = natural log
B+C = lead cross section in inches
so L1 (nH) = 2xL (nH) where L1 is the total inductance of the leadframe.
SMPS Capacitors
Assembly Guidelines
090518
Not RoHS Compliant A RoHS m
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 69
PRODUCT OFFERING – C0G, N1500 AND X7R
AVX SK styles are conformally coated MLC capacitors for input or
output filtering in switch mode power supplies. They are specially
processed to handle high currents and are low enough in cost for
commercial SMPS application.
ELECTRICAL SPECIFICATIONS
fi
C0G: A Temperature Coefficient 0 ±30 ppm/°C, -55° to +125°C
N1500: 4 Temperature Coefficient -1500 ±250 ppm/°C
X7R: C Temperature Coefficient ±15%, -55° to +125°C
Capacitance Test (MIL-STD-202 Method 305)
C0G, N1500: 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
X7R: 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
C0G, N1500: 0.15% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
X7R: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
C0G, N1500, X7R: 100K MΩ or 1000 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
C0G, N1500, X7R: 10K MΩ or 100 MΩ-μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
C0G, N1500, X7R: 250% rated voltage for 5 seconds with 50 mA max
charging current. (500 Volt units @ 750 VDC)
Life Test (1000 hrs)
C0G, N1500, X7R: 200% rated voltage at +125°C. (500 Volt units @ 600 VDC)
Moisture Resistance (MIL-STD-202 Method 106)
C0G, N1500, X7R, Z5U: Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method 107, Condition A)
Immersion Cycling (MIL-STD-202 Method 104, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 210, Condition B, for
20 seconds)
HOW TO ORDER
SK
Style
01
Size
See chart
below
3
Voltage
25V = 3
50V = 5
100V = 1
200V = 2
500V = 7
C
Temperature
Coefficient
C0G = A
N1500 = 4
X7R = C
A
Test Level
A = Standard
B = Hi-Rel*
A
Leads
A = Tin/Lead
R = RoHS
Compliant*
*
Packaging
(See Note 1)
394
Capacitance
Code
(2 significant
digits + no.
of zeros)
22 nF = 223
220 nF = 224
1 μF = 105
100 μF = 107
Z
Capacitance
Tolerance
C0G, N1500: J = ±5%
K = ±10%
M = ±20%
X7R: K = ±10%
M = ±20%
Z = +80, -20%
Note 1: No suffix signifies bulk packaging, which is AVX standard packaging. SK01, SK*3, SK*4, SK*5, SK*6, SK*9 & SK*0 are available taped and reel per EIA-468.
Use suffix “TR1” if tape & reel is required.
Note 2: Capacitors with X7R dielectric are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
*Hi-Rel screening consists of 100% Group A (B Level), Subgroup 1 per MIL-PRF-49470.
TAPE & REEL QUANTITY
Part Pieces
SK01 2000
SK03/SK53 1000
SK04/SK54 1000
SK05/SK55 500
SK06/SK56 500
SK07 N/A
SK08 N/A
SK09/SK59 500
SK10/SK60 400
RoHS
Part Available
SK01 Yes
SK03/SK53 Yes
SK04/SK54 Yes
SK05/SK55 Yes
SK06/SK56 Yes
SK07 Yes
SK08 Yes
SK09/SK59 Yes
SK10/SK60 Yes
For RoHS compliant products, please select
correct termination style.
Not RoHS Compliant
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
SMPS Capacitors
SK Style – Commercial Radial Range
011419
/A\V/)I(” A man smur- cowmv \“Lfii \Hfi WW fir j T j H H 3 633 H J (3145’ Li T a L *3 LL LL L L J LL54 LBJ LLSJ SK53 SK55
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
70
SK01 SK03 SK10 SK53 - SK56 and SK59 SK60
C0G Capacitance Range (μF) X7R Capacitance Range (μF)
N1500 Capacitance Range (μF)
Style
25
WVDC
min./max.
50
WVDC
min./max.
100
WVDC
min./max.
200
WVDC
min./max.
500
WVDC
min./max.
SK01 .001/0.015 .001/0.012 .001/0.010 .0010/0.0056 .0010/0.0018
SK03/SK53 .01/0.056 .01/0.047 .01/0.039 .001/0.022 .001/0.0068
SK04/SK54 .01/0.12 .01/0.10 .01/0.082 .01/0.047 .001/0.015
SK05/SK55 .01/0.18 .01/0.15 .01/0.12 .01/0.068 .001/0.022
SK06/SK56 .10/0.56 .01/0.47 .01/0.39 .01/0.22 .01/0.068
SK07 .10/0.68 .01/0.56 .01/0.47 .01/0.27 .01/0.082
SK08 .82/1.20 .68/1.10 .56/0.82 .33/0.47 .10/0.15
SK09/SK59 .10/0.27 .01/0.22 .01/0.18 .01/0.10 .001/0.039
SK10/SK60 .10/0.68 .01/0.56 .01/0.47 .01/0.27 .01/0.082
Style
25
WVDC
min./max.
50
WVDC
min./max.
100
WVDC
min./max.
200
WVDC
min./max.
500
WVDC
min./max.
SK01 .01/0.39 .01/0.33 .01/0.27 .01/0.12 .001/0.047
SK03/SK53 .10/2.2 .10/1.8 .01/1.5 .01/0.68 .01/0.27
SK04/SK54 .10/4.7 .10/3.3 .10/2.7 .01/1.0 .01/0.47
SK05/SK55 .10/6.8 .10/6.8 .10/3.9 .10/1.8 .01/0.68
SK06/SK56 1.0/15 1.0/10 .10/5.6 .10/3.9 .10/1.5
SK07 1.0/18 1.0/14 1.0/8.2 .10/4.7 .10/2.2
SK08 22/33 15/22 10/15 5.6/8.2 2.2/3.9
SK09/SK59 .10/8.2 .10/5.6 .10/3.3 .10/2.2 .10/1.2
SK10/SK60 1.0/18 1.0/12 .10/6.8 .10/4.7 .10/2.2
Style 50 WVDC
min./max.
100 WVDC
min./max.
200 WVDC
min./max.
500 WVDC
min./max.
SK01 .001/0.022 .001/0.018 .001/0.012 .001/0.0027
SK03/SK53 .01/0.10 .01/0.082 .01/0.056 .001/0.012
SK04/SK54 .01/0.22 .01/0.15 .01/0.12 .001/0.027
SK05/SK55 .01/0.27 .01/0.22 .01/0.18 .001/0.039
SK06/SK56 .01/0.82 .01/0.68 .01/0.47 .01/0.12
SK07 .01/1.00 .01/0.82 .01/0.56 .01/0.15
SK08 .68/2.00 .88/1.60 .62/1.20 .21/0.30
SK09/SK59 .01/0.56 .01/0.39 .01/0.27 .01/0.068
SK10/SK60 .01/1.00 .01/0.82 .01/0.68 .01/0.15
DIMENSIONS millimeters (inches)
Style L (max.) H (max.) T (max.) LS (nom.) LD (nom.)
SK01 5.08 (0.200) 5.08 (0.200) 5.08 (0.200) 5.08 (0.200) 0.508 (0.020)
SK03/SK53 7.62 (0.300) 7.62 (0.300) 5.08 (0.200) 5.08 (0.200) 0.508 (0.020)
SK04/SK54 10.2 (0.400) 10.2 (0.400) 5.08 (0.200) 5.08 (0.200) 0.508 (0.020)
SK05/SK55 12.7 (0.500) 12.7 (0.500) 5.08 (0.200) 10.2 (0.400) 0.635 (0.025)
SK06/SK56 22.1 (0.870) 15.2 (0.600) 5.08 (0.200) 20.1 (0.790) 0.813 (0.032)
SK07 27.9 (1.100) 15.2 (0.600) 5.08 (0.200) 24.9 (0.980) 0.813 (0.032)
SK08 27.9 (1.100) 15.2 (0.600) 8.89 (0.350) 24.9 (0.980) 0.813 (0.032)
SK09/SK59 17.0 (0.670) 13.7 (0.540) 5.08 (0.200) 14.6 (0.575) 0.635 (0.025)
SK10/SK60 23.6 (0.930) 18.3 (0.720) 6.35 (0.250) 20.3 (0.800) 0.813 (0.032)
L = Length
H = Height
T = Thickness
M = Meniscus 1.52 (0.060) max.
LS = Lead Spacing Nominal ±.787 (0.031)
LL = Lead Length 50.8 (2.000) max./25.4 (1.000) min.
LD = Lead Diameter Nominal ±.050 (0.002)
SMPS Capacitors
SK Style – Product Offering – COG, N1500, X7R
090518
‘o 'o' om Ian A RoHS mm
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 71
PRODUCT OFFERING – X7R
AVX SE styles offer capacitance extension to popular SK ranges.
The CV product for SE-series, X7R capacitors (TCC: ±15% over -55
to +125°C) compares favorably to high CV ranges offered by other
suppliers in much less stable Y5U dielectric (TCC: +22/-56% over
-30 to +85°C). SE style capacitors are conformally coated and are
designed for input and output filtering applications in switch mode
power supplies.
ELECTRICAL SPECIFICATIONS
fi
X7R: Temperature Coefficient ±15%, -55° to +125°C
Capacitance Test (MIL-STD-202 Method 305)
X7R: 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Dissipation Factor 25°C
X7R: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz
Insulation Resistance 25°C (MIL-STD-202 Method 302)
X7R: 100K MΩ or 1000 MΩ-μF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method 302)
X7R: 10K MΩ or 100 MΩ-μF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
X7R: 250% rated voltage for 5 seconds with 50 mA max charging current.
Life Test (1000 hrs)
X7R: 200% rated voltage at +125°C
Moisture Resistance (MIL-STD-202 Method 106)
X7R: Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method 107, Condition A)
Immersion Cycling (MIL-STD-202 Method 104, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 210, Condition B, for
20 seconds)
HOW TO ORDER
SE
Style
01
Size
See chart
below
3
Voltage
25V = 3
50V = 5
100V = 1
C
Temperature
Coefficient
X7R = C
A
Test Level
A = Standard
A
Leads
A = Tin/Lead
R = RoHS Compliant*
*
Packaging
(See Note 1)
125
Capacitance
Code
(2 significant
digits + no.
of zeros)
22 nF = 223
220 nF = 224
1 μF = 105
100 μF = 107
M
Capacitance
Tolerance
X7R: K = ±10%
M = ±20%
Z = +80, -20%
Note 1: No suffix signifies bulk packaging,
which is AVX standard packaging.
Parts available tape and reel per EIA-
468. Use suffix “TR1” if tape & reel is
required.
Note: Capacitors with X7R dielectrics are not intended for applications across
AC supply mains or AC line filtering with polarity reversal. Contact plant for
recommendations.
*Hi-Rel screening consists of 100% Group A, Subgroup 1 per MIL-PRF-39014.
TAPE & REEL QUANTITY
Part Pieces
SE01 2000
SE03/SE53 1000
SE04/SE54 1000
SE05/SE55 500
SE06/SE56 500
RoHS
Part Available
SE01 Yes
SE03/SE53 Yes
SE04/SE54 Yes
SE05/SE55 Yes
SE06/SE56 Yes
For RoHS compliant products, please select
correct termination style.
Not RoHS Compliant
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
SMPS Capacitors
SE Style – Extended Commercial Radial Range
011419
N45: A man snow c FW FW \Hfl wt 7 T T 7 4M 4 “(63:55?“ L; j I 7 L m LL LD i 4» LD LD + LLS 4,‘ ‘+ L5 4 LLSJ SK53 SK55
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
72
SE01 SE03 – SE06 SE53 – SE56
X7R Capacitance Range (μF)
Style
25
WVDC
min./max.
50
WVDC
min./max.
100
WVDC
min./max.
SE01 0.47/1.5 0.39/1.0 0.33/0.68
SE03/SE53 2.7/6.8 2.2/4.7 1.8/3.3
SE04/SE54 5.6/12 3.9/10 3.3/6.8
SE05/SE55 8.2/18 6.8/12 4.7/10.0
SE06/SE56 18/39 12/27 6.8/15
DIMENSIONS millimeters (inches)
Style L (max.) H (max.) T (max.) LS (nom.) LD (nom.)
SE01 5.08 (0.200) 5.08 (0.200) 5.08 (0.200) 5.08 (0.200) 0.508 (0.020)
SE03/SE53 7.62 (0.300) 7.62 (0.300) 5.08 (0.200) 5.08 (0.200) 0.508 (0.020)
SE04/SE54 10.2 (0.400) 10.2 (0.400) 5.08 (0.200) 5.08 (0.200) 0.508 (0.020)
SE05/SE55 12.7 (0.500) 12.7 (0.500) 5.08 (0.200) 10.2 (0.400) 0.635 (0.025)
SE06/SE56 22.1 (0.870) 15.2 (0.600) 5.08 (0.200) 20.1 (0.790) 0.813 (0.032)
L = Length
H = Height
T = Thickness
M = Meniscus 1.52 (0.060) max.
LS = Lead Spacing Nominal ±.787 (0.031)
LL = Lead Length 50.8 (2.000) max./25.4 (1.000) min.
LD = Lead Diameter Nominal ±.050 (0.002)
SMPS Capacitors
SE Style – Product Offering – X7R
090518
/A\"/ZT§ mm»: snow c ; a Nol RoHS campliant T T T T T T
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 73
Range only available in 2C1/X7R
LT
H
t
S
31.7
(1.248)
MIN.
1.50
(0.059)
MAX.
 Length (L)
(max.)
Height (H)
(max.)
Thickness (T)
(max.) Nom (t) S ±0.4
BR40 10.16 (0.400) 11.7 (0.460) 3.81 (0.150) 0.51 (0.020) 5.08 (0.200)
BR50 12.7 (0.500) 12.7 (0.500) 5.1 (0.200) 0.64 (0.025) 10.16 (0.400)
BR84 23.6 (0.930) 17.78 (0.700) 6.35 (0.250) 0.76 (0.030) 20.32 (0.800)
2C1/X7R
CECC 30 701 801 Issue 1
50V 100V 200V 500V
BR40 185-275 125-185 334-474 473-154
BR50 395-475 225-275 684-105 104-394
BR84 475-186 475-156 105-335 474-155
DIMENSIONS
HOW TO ORDER
CECC APPROVED RANGE
millimeters (inches)
Not RoHS Compliant
BR
Style
Code
84

See
table
below
1
Voltage
Code
5 = 50V
1 = 100V
2 = 200V
7 = 500V
C
Dielectric
Code
C = X7R
T
fi
Code
T = CECC
A
Lead Length
Code
A = 31.7mm min.
156
Capacitance
Code
(2 significant
digits + no.
of zeros)
K
Capacitance
Tolerance
X7R ony
K = ±10%
M = ±20%
P = -0 +100%
Note: If tape and reel is required, add TR to the end of the part number
SMPS Capacitors
011419
CECC Offering
”M A man emu;- c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
74
High Voltage MLC Capacitors
fi
081120
Capacitors, Fixed, Chip, Ceramic Dielectric, Type II, High Voltage, Based on Styles 1812 and 1825 for use in ESCC
space programs, according to ESCC Generic Specification 3009 and associated Detail Specification 3009/034 as
recommended by the Space Components Coordination Group. (ranges in table below)
Note: Variants 01 to 12: metallized pads suitable for Hybird circuits, glue or wire bonding Variants 13 to 24: finished with Sn
coating suitable for soldering Variants 13 - 24 are tested “in accordance with”
 Variant
Rated
Voltage
(kV)
Tolerance
(%)
Capacitance
Code (E12)
1812
01 / 13 1.0 ±10 392 - 223
02 / 14 ±20
03 / 15 2.0 ±10 152 - 182
04 / 16 ±20
05 / 17 3.0 ±10 821 - 102
06 / 18 ±20
1825
07 / 19 1.0 ±10 273 - 563
08 / 20 ±20
09 / 21 2.0 ±10 222 - 682
10 / 22 ±20
11 / 23 3.0 ±10 821 - 392
12 / 24 ±20
HOW TO ORDER
Parts should be ordered using the ESCC variant number as follows:
3009034
3001034
XX
XX K X
XXX
XXX
Detail Spec
Number
Detail Spec
Number
Capacitance
Code
Capacitance
Code
Type Variant
(per table)
Type Variant
(per table above)
Capacitance
Tolerance
K = 10%
M = 20%
Voltage
M = 1kV
P = 2kV
R = 3kV
S = 4kV
Z = 5kV
The first two digits represent
significant figures and the third digit
specifies the number of zeros to follow;
i.e.
102 = 1000pF
103 = 10000pF
The first two digits represent
significant figures and the third digit
specifies the number of zeros to follow;
i.e.
102 = 1000pF
103 = 10000pF
Eg 300903401223
For LVT testing, please refer to 3009 LVT Spec
Eg 300103412274M
LAT and Serialization testing can still be preformed. Contact plant for further details
For LVT testing, please refer to 3001 LVT spec
HIGH VOLTAGE LEADED CAPACITORS
Capacitors, Fixed, Ceramic Dielectric, Type II, High Voltage, 1.0 to 5.0 kV, Based
on Case Styles VR, CV and CH for use in ESCC space programs, according
to ESCC Generic Specification 3001 and associated Detail Specification
3001/034 as recommended by the Space Components Coordination Group.
(ranges in table)
Note 1: Lead Types
a - Leaded Radial (epoxy coated)
b - Leaded Radial (Polyurethane Varnish)
c - Straight Dual in Line
d - L Dual in Line
Note 2: Tolerances of ±10% and ±20% are available
Note 3: AVX does not recommend or advise the use of adhesives to secure these
components to the PCB or any other component / device
HOW TO ORDER

Case
 Variant Lead
Type
Capacitance Code (E12)
1.0kV 2.0kV 3.0kV 4.0kV 5.0kV
VR30S 01 a 392 - 203 152 - 182 821 - 102
VR30 02 a 273 - 563 222 - 682 821 - 392
VR40 03 a 473 - 124 822 - 153 472 - 103 182 - 222
VR50 04 a 154 - 274 183 - 333 123 - 183 562 - 822 332 - 392
VR66 05 a 224 - 564 393 - 823 223 - 393 103 - 153 682 - 103
VR84 06 a 684 - 105 473 - 154 473 - 683 183 - 393 123 - 183
VR90 07 a 125 - 275 184 - 334 823 - 184 473 - 124 223 - 563
CV41 08 b 473 - 124 822 - 153 472 - 103 182 - 222
CH41 09 c473 - 124 822 - 153 472 - 103 182 - 222
CH41 10 d473 - 124 822 - 153 472 - 103 182 - 222
CV51 11 b 154 - 274 183 - 333 123 - 183 562 - 822 332 - 392
CH51 12 c154 - 274 183 - 333 123 - 183 562 - 822 332 - 392
CH51 13 d154 - 274 183 - 333 123 - 183 562 - 822 332 - 392
CV61 14 b 224 - 564 393 - 823 223 - 393 103 - 153 682 - 103
CH61 15 c224 - 564 393 - 823 223 - 393 103 - 153 682 - 103
CH61 16 d224 - 564 393 - 823 223 - 393 103 - 153 682 - 103
CV76 17 b 684 - 105 473 - 154 473 - 683 183 - 393 123 - 183
CH76 18 c684 - 105 473 - 154 473 - 683 183 - 393 123 - 183
CH76 19 d684 - 105 473 - 154 473 - 683 183 - 393 123 - 183
CV91 20 b 125 - 275 184 - 334 823 - 184 473 - 124 223 - 563
CH91 21 c125 - 275 184 - 334 823 - 184 473 - 124 223 - 563
CH91 22 d125 - 275 184 - 334 823 - 184 473 - 124 223 - 563
HIGH VOLTAGE CHIP CAPACITORS
y a /‘\'/) ( n A A mam ems comm [AMI |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 75
High Capacitance
fi
081120
HOW TO ORDER
Parts should be ordered using the ESCC variant number as follows:
3001030 XX K XXXX
Detail Spec
Number
Capacitance
Code
Type Variant
(per table above)
Capacitance
Tolerance
K = 10%
M = 20%
Voltage
C = 50V
E = 100V
G = 200V
L = 500V
The first two digits represent
significant figures and the third digit
specifies the number of zeros to follow;
i.e.
102 = 1000pF
103 = 10000pF
Case
 Variant Figure Capacitance Code (E12)
50V 100V 200V 500V
BR40 01 a 185 - 335 125 - 395 334 - 564 124 - 224
BR50 02 a 395 - 565 225 - 395 684 - 105 274 - 394
BR66 03 a 685 - 106 475 - 825 105 - 225 474 - 105
BR72 04 a 126 - 186 825 - 156 225 - 335 824 - 155
BR84 05 a 126 - 186 825 - 156 225 - 335 824 - 155
CV41 06 b 185 - 335 125 - 275 334 - 564 124 - 224
CH41 07 c185 - 335 125 - 275 334 - 564 124 - 224
CH41 08 d185 - 335 125 - 275 334 - 564 124 - 224
CH42 09 c395 - 685 335 - 565 684 - 125 274 - 474
CH42 10 d395 - 685 335 - 565 684 - 125 274 - 474
CH43 11 c825 - 106 685 - 825 155 - 185 564 - 684
CH43 12 d825 - 106 685 - 825 155 - 185 564 - 684
CH44 13 c126 106 225 824 - 105
CH44 14 d126 106 225 824 - 105
CV51 15 b 395 - 565 225 - 395 684 - 105 274 - 394
CH51 16 c395 - 565 225 - 395 684 - 105 274 - 394
CH51 17 d395 - 565 225 - 395 684 - 105 274 - 394
CH52 18 c685 - 106 475 - 825 125 - 225 474 - 824
CH52 19 d685 - 106 475 - 825 125 - 225 474 - 824
CH53 20 c126 - 156 106 - 126 275 - 335 105 - 125
CH53 21 d126 - 156 106 - 126 275 - 335 105 - 125
CH54 22 c186 - 226 156 395 155
CH54 23 d186 - 226 156 395 155
CV61 24 b 685 - 106 475 - 825 105 - 225 474 - 105
CH61 25 c685 - 106 475 - 825 105 - 225 474 - 105
CH61 26 d685 - 106 475 - 825 105 - 225 474 - 105
CH62 27 c126 - 226 106 - 156 275 - 475 105 - 185
CH62 28 d126 - 226 106 - 156 275 - 475 105 - 185
CH63 29 c276 - 336 186 - 226 565 - 685 225 - 275
CH63 30 d276 - 336 186 - 226 565 - 685 225 - 275
CH64 ˜31 c396 276 - 336 825 - 106 335
CH64 32 d396 276 - 336 825 - 106 335
CV71 33 b 126 - 186 825 - 156 225 - 335 824 - 155
CH71 34 c126 - 186 825 - 156 225 - 335 824 - 155
CH71 35 d126 - 186 825 - 156 225 - 335 824 - 155
CH72 36 c226 - 396 186 - 276 395 - 685 185 - 335
CH72 37 d226 - 396 186 - 276 395 - 685 185 - 335
Case
 Variant Figure Capacitance Code (E12)
50V 100V 200V 500V
CH73 38 c476 - 566 336 - 396 825 - 106 395 - 475
CH73 39 d476 - 566 336 - 396 825 - 106 395 - 475
CH74 40 c686 476 126 565
CH74 41 d686 476 126 565
CV76 42 b 126 - 186 825 - 156 225 - 335 824 - 155
CH76 43 c126 - 186 825 - 156 225 - 335 824 - 155
CH76 44 d126 - 186 825 - 156 225 - 335 824 - 155
CH77 45 c226 - 396 186 - 276 395 - 685 185 - 335
CH77 46 d226 - 396 186 - 276 395 - 685 185 - 335
CH78 47 c476 - 566 336 - 396 825 - 106 395 - 475
CH78 48 d476 - 566 336 - 396 825 - 106 395 - 475
CH79 49 c686 476 126 565
CH79 50 d686 476 126 565
CH81 51 c156 - 226 126 - 186 225 - 395 824 - 155
CH81 52 d156 - 226 126 - 186 225 - 395 824 - 155
CH82 53 c276 - 476 226 - 396 475 - 825
CH82 54 d276 - 476 226 - 396 475 - 825
CH83 55 c566 - 686 476 - 566 106 - 126
CH83 56 d566 - 686 476 - 566 106 - 126
CH84 57 c826 686 156
CH84 58 d826 686 156
CH86 59 c226 - 336 156 - 276 395 - 685 155 - 225
CH86 60 d226 - 336 156 - 276 395 - 685 155 - 225
CH87 61 c396 - 686 336 - 566 825 - 156
CH87 62 d396 - 686 336 - 566 825 - 156
CH88 63 c826 - 107 686 - 826 186 - 226
CH88 64 d826 - 107 686 - 826 186 - 226
CH89 65 c127 107 276
CH89 66 d127 107 276
CH91 67 c396 - 476 336 - 396 825 - 106
CH91 68 d396 - 476 336 - 396 825 - 106
CH92 69 c566 - 107 476 - 826 126 - 226
CH92 70 d566 - 107 476 - 826 126 - 226
CH93 71 c127 - 157 107 - 127 276 - 336
CH93 72 d127 - 157 107 - 127 276 - 336
CH94 73 c187 157 396
CH94 74 d187 157 396
HIGH CAPACITANCE LEADED CAPACITORS
Capacitors, Fixed, Ceramic Dielectric, Type II, High Capacitance,
Based on Case Styles BR, CV and CH for use in ESCC space programs,
according to ESCC Generic Specification 3001 and associated Detail
Specification 3001/030 as recommended by the Space Components
Coordination Group. (see ranges in table below)
Note 1: Lead Types
a - Leaded Radial (epoxy coated)
b - Leaded Radial (Polyurethane Varnish)
c - Straight Dual in Line
d - L Dual in Line
Note 2: Tolerances of ±10% and ±20% are available
EG 300103018106KC
LAT and Serialization testing can still be preformed.
Contact plant for further details
Note 3: AVX does not recommend or advise the use of adhesives to secure these
components to the PCB or any other component / device
g V A A man snow cow /.‘.\V/) 4p E 41 E T LT L
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
76
ESCC DETAIL SPECIFICATION NO. 3009/034
PHYSICAL DIMENSIONS
ESCC DETAIL SPECIFICATION NO. 3001/034
PHYSICAL DIMENSIONS VR STYLE
ESCC DETAIL SPECIFICATION NO. 3001/034
PHYSICAL DIMENSIONS CV STYLE
L
I
e
M = = M
B
H
L
E
J
Ød
F
F
B Ød
H
L L
E
Millimeters (Inches)
Millimeters (Inches)
Millimeters (Inches)
Symbol Variants 01 to 06 Variants 07 to 12
Min. Max. Min. Max.
L4.20
(0.165)
5.00
(0.197)
4.20
(0.165)
5.00
(0.197)
l2.80
(0.110)
3.60
(0.142)
5.67
(0.223)
6.67
(0.263)
e3.00
(0.118) 3.30
(0.130)
M0.25
(0.010)
0.75
(0.030)
0.25
(0.010)
0.75
(0.030)
Variant Case

BØd E F H J L
Max. Min. Max. Min. Max. Max. Max. Max. Min.
01 VR30S 7.62
(0.300)
0.46
(0.018)
0.56
(0.022)
4.58
(0.180)
5.58
(0.220)
5.00
(0.197)
4.60
(0.181)
1.50
(0.059)
31.7
(1.248)
02 VR30 7.62
(0.300)
0.46
(0.018)
0.56
(0.022)
4.58
(0.180)
5.58
(0.220)
5.00
(0.197)
9.62
(0.379)
1.50
(0.059)
31.7
(1.248)
03 VR40 10.16
(0.400)
0.46
(0.018)
0.56
(0.022)
4.58
(0.180)
5.58
(0.220)
5.00
(0.197)
11.7
(0.461)
1.50
(0.059)
31.7
(1.248)
04 VR50 12.7
(0.500)
0.59
(0.023)
0.69
(0.027)
9.66
(0.380)
10.66
(0.420)
5.10
(0.201)
14.2
(0.559)
1.50
(0.059)
31.7
(1.248)
05 VR66 17.5
(0.689)
0.86
(0.034)
0.96
(0.038)
14.2
(0.559)
15.2
(0.598)
6.40
(0.252)
16.5
(0.650)
1.50
(0.059)
31.7
(1.248)
06 VR84 23.62
(0.930)
0.86
(0.034)
0.96
(0.038)
20.4
(0.803)
22.0
(0.866)
6.40
(0.252)
19.78
(0.779)
1.50
(0.059)
31.7
(1.248)
07 VR90 23.5
(0.925)
0.86
(0.034)
0.96
(0.038)
20.4
(0.803)
22.0
(0.866)
6.40
(0.252)
42.0
(1.654)
1.50
(0.059)
31.7
(1.248)
Variant Case

BØd E F H L
Max. Min. Max. Min. Max. Max. Max. Max. Min.
08 CV41 10.6
(0.417)
0.65
(0.026)
0.75
(0.030)
7.70
(0.303)
8.70
(0.343)
3.80
(0.150)
8.70
(0.343)
22.0
(0.866)
28.0
(1.102)
11 CV51 11.9
(0.469)
0.85
(0.033)
0.95
(0.037)
9.66
(0.380)
10.66
(0.420)
3.80
(0.150)
10.7
(0.421)
22.0
(0.866)
28.0
(1.102)
14 CV61 16.5
(0.650)
0.85
(0.033)
0.95
(0.037)
14.74
(0.580)
15.74
(0.620)
3.80
(0.150)
13.6
(0.535)
22.0
(0.866)
28.0
(1.102)
17 CV76 22.7
(0.894)
0.85
(0.033)
0.95
(0.037)
20.4
(0.803)
22.0
(0.866)
3.80
(0.150)
16.6
(0.654)
22.0
(0.866)
28.0
(1.102)
20 CV91 22.7
(0.894)
1.15
(0.045)
1.25
(0.049)
20.4
(0.803)
22.0
(0.866)
3.80
(0.150)
40.6
(1.598)
22.0
(0.866)
28.0
(1.102)
SMPS Capacitors
090518
/A\V/)I(” A mom snow coww a1 $ *: ” PH ‘ m; aHkb alefl FE44 ‘ riflj F \X ,1 ¢ H \ ‘ 1H4? ”Hf” 49D a‘LFEalLF \‘794fl ifi \RWJ
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 77
ESCC DETAIL SPECIFICATION NO. 3001/034
PHYSICAL DIMENSIONS CH STYLE, D.I.L.
ESCC DETAIL SPECIFICATION NO. 3001/034
PHYSICAL DIMENSIONS CH STYLE, L
Millimeters (Inches)
Millimeters (Inches)
Variant Case

A D E F
Max. Max. Min. Max. Max.
07 CH41 3.80 (0.150) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
09 CH42 7.40 (0.291) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
11 CH43 11.1 (0.437) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
13 CH44 14.8 (0.583) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
16 CH51 3.80 (0.150) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
18 CH52 7.40 (0.291) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
20 CH53 11.1 (0.437) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
22 CH54 14.8 (0.583) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
25 CH61 3.80 (0.150) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
27 CH62 7.40 (0.291) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
29 CH63 11.1 (0.437) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
31 CH64 14.8 (0.583) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
34 CH71 3.80 (0.150) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
36 CH72 7.40 (0.291) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
38 CH73 11.1 (0.437) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
40 CH74 14.8 (0.583) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
43 CH76 3.80 (0.150) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
45 CH77 7.40 (0.291) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
47 CH78 11.1 (0.437) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
49 CH79 14.8 (0.583) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
51 CH81 3.80 (0.150) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
53 CH82 7.40 (0.291) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
55 CH83 11.1 (0.437) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
57 CH84 14.8 (0.583) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
59 CH86 3.80 (0.150) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
61 CH87 7.40 (0.291) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
63 CH88 11.1 (0.437) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
65 CH89 14.8 (0.583) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
67 CH91 3.80 (0.150) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
69 CH92 7.40 (0.291) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
71 CH93 11.1 (0.437) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
73 CH94 14.8 (0.583) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
Variant Case

A D E F
Max. Max. Min. Max. Max.
10 CH41 3.80 (0.150) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
13 CH51 3.80 (0.150) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
16 CH61 3.80 (0.150) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
19 CH76 3.80 (0.150) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
22 CH91 3.80 (0.150) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
Symbol Min. Max. Notes
b0.45
(0.018)
0.55
(0.022) 1
e2.49
(0.098)
2.59
(0.102) 2
L2.04
(0.080)
3.01
(0.120) 1
Symbol Min. Max. Notes
a1 -2.00
(0.079) 1
b0.45
(0.018)
0.55
(0.022) 1
b1 0.204
(0.008)
0.304
(0.012) 1
e2.49
(0.098)
2.59
(0.102) 2
L12.0
(0.472)
14.0
(0.551) 1
Notes: 1 All leads
2 – Each space
Notes: 1 All leads
2 – Each space
011419
SMPS Capacitors
”M A man snow c we Ba\ .1 i 7 WWW“ L E,‘ 4.‘ F‘47 % WA L
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
78
ESCC DETAIL SPECIFICATION NO. 3001/030
PHYSICAL DIMENSIONS BR STYLE
ESCC DETAIL SPECIFICATION NO. 3001/030
PHYSICAL DIMENSIONS CV STYLE
Millimeters (Inches)
Millimeters (Inches)
Variant Case

BØd E F H J L
Max. Min. Max. Min. Max. Max. Max. Max. Min.
01 BR40 10.16
(0.400)
0.46
(0.018)
0.56
(0.022)
4.58
(0.180)
5.58
(0.220)
5.00
(0.197)
11.7
(0.461)
1.50
(0.059)
31.7
(1.248)
02 BR50 12.7
(0.500)
0.59
(0.023)
0.69
(0.027)
9.66
(0.380)
10.66
(0.420)
5.10
(0.201)
14.2
(0.559)
1.50
(0.059)
31.7
(1.248)
03 BR66 17.5
(0.689)
0.86
(0.034)
0.96
(0.038)
14.2
(0.559)
15.2
(0.598)
6.40
(0.252)
16.5
(0.650)
1.50
(0.059)
31.7
(1.248)
04 BR72 19.3
(0.760)
0.86
(0.034)
0.96
(0.038)
14.74
(0.580)
15.74
(0.620)
6.40
(0.252)
24.0
(0.945)
1.50
(0.059)
31.7
(1.248)
05 BR84 23.62
(0.930)
0.71
(0.028)
0.81
(0.032)
18.93
(0.745)
20.83
(0.820)
6.40
(0.252)
19.78
(0.779)
1.50
(0.059)
31.7
(1.248)
Variant Case

BØd E F H L
Max. Min. Max. Min. Max. Max. Max. Max. Min.
06 CV41 10.6
(0.417)
0.65
(0.026)
0.75
(0.030)
7.70
(0.303)
8.70
(0.343)
3.80
(0.150)
8.70
(0.343)
22.0
(0.866)
28.0
(1.102)
15 CV51 11.9
(0.469)
0.85
(0.033)
0.95
(0.037)
9.66
(0.380)
10.66
(0.420)
3.80
(0.150)
10.7
(0.421)
22.0
(0.866)
28.0
(1.102)
24 CV61 16.5
(0.650)
0.85
(0.033)
0.95
(0.037)
14.74
(0.580)
15.74
(0.620)
3.80
(0.150)
13.6
(0.535)
22.0
(0.866)
28.0
(1.102)
33 CV71 17.8
(0.701)
0.85
(0.033)
0.95
(0.037)
14.74
(0.580)
15.74
(0.620)
3.80
(0.150)
21.6
(0.850)
22.0
(0.866)
28.0
(1.102)
42 CV76 22.7
(0.894)
0.85
(0.033)
0.95
(0.037)
20.4
(0.803)
22.0
(0.866)
3.80
(0.150)
16.6
(0.654)
22.0
(0.866)
28.0
(1.102)
090518
SMPS Capacitors
/A\V/X(® A mom snow cowwv a1 $ L 22 A T ‘ HAT? 4H AM #7041 ff J) % Lima} $ H A \ \ NJ aflkb aekT ah‘kEA-{LF f [AX/.2! | f \HWJ
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 79
ESCC DETAIL SPECIFICATION NO. 3001/030
PHYSICAL DIMENSIONS CH STYLE, D.I.L.
ESCC DETAIL SPECIFICATION NO. 3001/030
PHYSICAL DIMENSIONS CH STYLE, L
Millimeters (Inches)
Millimeters (Inches)
Variant  A D E F
Max. Max. Min. Max. Max.
07 CH41 3.80 (0.150) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
09 CH42 7.40 (0.291) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
11 CH43 11.1 (0.437) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
13 CH44 14.8 (0.583) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343) 9.20 (0.362)
16 CH51 3.80 (0.150) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
18 CH52 7.40 (0.291) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
20 CH53 11.1 (0.437) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
22 CH54 14.8 (0.583) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
25 CH61 3.80 (0.150) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
27 CH62 7.40 (0.291) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
29 CH63 11.1 (0.437) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
31 CH64 14.8 (0.583) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
34 CH71 3.80 (0.150) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
36 CH72 7.40 (0.291) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
38 CH73 11.1 (0.437) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
40 CH74 14.8 (0.583) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
43 CH76 3.80 (0.150) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
45 CH77 7.40 (0.291) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
47 CH78 11.1 (0.437) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
49 CH79 14.8 (0.583) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
51 CH81 3.80 (0.150) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
53 CH82 7.40 (0.291) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
55 CH83 11.1 (0.437) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
57 CH84 14.8 (0.583) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
59 CH86 3.80 (0.150) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
61 CH87 7.40 (0.291) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
63 CH88 11.1 (0.437) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
65 CH89 14.8 (0.583) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
67 CH91 3.80 (0.150) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
69 CH92 7.40 (0.291) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
71 CH93 11.1 (0.437) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
73 CH94 14.8 (0.583) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
Variant  A D E F
Max. Max. Min. Max. Max.
08 CH41 3.80 (0.150) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343 9.20 (0.362)
10 CH42 7.40 (0.291) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343 9.20 (0.362)
12 CH43 11.1 (0.437) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343 9.20 (0.362)
14 CH44 14.8 (0.583) 8.70 (0.343) 7.70 (0.303) 8.70 (0.343 9.20 (0.362)
17 CH51 3.80 (0.150) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
19 CH52 7.40 (0.291) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
21 CH53 11.1 (0.437) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
23 CH54 14.8 (0.583) 10.7 (0.421) 9.66 (0.380) 10.66 (0.420) 10.7 (0.421)
26 CH61 3.80 (0.150) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
28 CH62 7.40 (0.291) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
30 CH63 11.1 (0.437) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
32 CH64 14.8 (0.583) 13.6 (0.535) 13.5 (0.531) 14.5 (0.571) 14.9 (0.587)
35 CH71 3.80 (0.150) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
37 CH72 7.40 (0.291) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
39 CH73 11.1 (0.437) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
41 CH74 14.8 (0.583) 21.6 (0.850) 14.74 (0.580) 15.74 (0.620) 16.8 (0.661)
44 CH76 3.80 (0.150) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
46 CH77 7.40 (0.291) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
48 CH78 11.1 (0.437) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
50 CH79 14.8 (0.583) 16.6 (0.654) 19.52 (0.769) 21.12 (0.831) 21.6 (0.850)
52 CH81 3.80 (0.150) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
54 CH82 7.40 (0.291) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
56 CH83 11.1 (0.437) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
58 CH84 14.8 (0.583) 38.2 (1.504) 9.66 (0.380) 10.66 (0.420) 12.0 (0.472)
60 CH86 3.80 (0.150) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
62 CH87 7.40 (0.291) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
64 CH88 11.1 (0.437) 38.2 (1.504) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
66 CH89 14.8 (0.583) 38.2 (1.504)) 14.74 (0.580) 15.74 (0.620) 18.9 (0.744)
68 CH91 3.80 (0.150) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
70 CH92 7.40 (0.291) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
72 CH93 11.1 (0.437) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
74 CH94 14.8 (0.583) 40.6 (1.598) 19.52 (0.769) 21.12 (0.831) 24.0 (0.945)
Symbol Min. Max. Notes
b0.45
(0.018)
0.55
(0.022) 1
e2.49
(0.098)
2.59
(0.102) 2
L2.04
(0.080)
3.04
(0.120) 1
Symbol Min. Max. Notes
a1 -2.00
(0.079) 1
b0.45
(0.018)
0.55
(0.022) 1
b1 0.204
(0.008)
0.304
(0.012) 1
e2.49
(0.098)
2.59
(0.102) 2
L2.04
(0.080)
3.04
(0.120) 1
Notes: 1 All leads
2 – Each space
Notes: 1 All leads
2 – Each space
011419
SMPS Capacitors
y 8 n A A mam emu comm Not RoHS Compliant [MIX |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
80

C0G Dielectric
General
fi
Capacitance Range
100 pF to 1.2 μF
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz, for ≤100 pF use 1 MHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
0 ± 30 ppm/°C
Voltage Ratings
1000 VDC thru 5000 VDC (+125°C)
Dissipation Factor
0.15% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz, for ≤100 pF use 1 MHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
N1500
General
fi
Capacitance Range
100 pF to 1.9 μF
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
-1500 ±250 ppm/°C
Voltage Ratings
1000 VDC thru 5000 VDC (+125°C)
Dissipation Factor
0.15% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
X7R Dielectric
General
fi
Capacitance Range
100 pF to 15 μF
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Capacitance Tolerances
±10%, ±20%, +80%, -20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
±15% (0 VDC)
Voltage Ratings
1000 VDC thru 5000 VDC (+125°C)
Dissipation Factor
2.5% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage) at
1 KHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
HOW TO ORDER AVX Styles: HV01 THRU HV06
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
HV 105 65001 A C A NM
AVX Style 
See
Dimensions
chart
Voltage
1K = A
2K = G
3K = H
4K = J
5K = K
Temperature
fi
C0G = A
X7R = C
N1500 = 4
Test Level
A = Does not apply
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
P = P Style Leads
Z = Z Style Leads
Capacitance Tolerance
C0G:
J = ±5%
K = ±10%
M = ±20%
X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
N1500:
J = ±5%
K = ±10%
M = ±20%
Height
Max
Dimension “A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
650 = 0.650”
Capacitance Code
(2 significant digits
+ number of zeros)
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1μF = 105
10 μF = 106
100 μF = 107
Not RoHS Compliant
Note: Capacitors with X7R dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
090518
High Voltage MLC Leaded
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 81
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
“N” STYLE LEADS
E
C
RAD.
0.254
(0.010)
(TYP)
DETAIL B
0.254 (0.010) TYP.
CHIP SEPARATION
0.254 (0.010) TYP.
1.270 ± 0.254
(0.050 ± 0.010)
2.794 ± 0.254
(0.110 ± 0.010)
1.778 ±0.254
(0.070 ± 0.010)
3.048 ± 0.381
(0.120 ± 0.015)
DETAIL B
“Z” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
B
DETAIL A
4.191 ± 0.254
(0.165 ± 0.010)
1.651 ± 0.254
(0.065 ± 0.010)
2.540 ± 0.254
(0.100 ± 0.010)
6.350 (0.250) MIN
1.016 ± 0.254
(0.040 ± 0.010)
R 0.508
(0.020)
3 PLACES
CAPACITOR
DETAIL A
“P” STYLE LEADS
“J” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.905 (0.075)
±0.635 (0.025)
TYP.
1.778 (0.070)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.778 (0.070) 1.905 (0.075)
±0.635 (0.025)
TYP.
±0.254 (0.010)
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads
per side
HV01
See page 83 for
maximum “A”
Dimension
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080)
For “P” Style Leads: “A” Dimension Plus 4.445 (0.175)
For “Z” Style Leads: “A” Dimension Plus 3.048 (0.120)
53.3 (2.100) 10.5 (0.415) 54.9 (2.160) 4
HV02 39.1 (1.540) 20.3 (0.800) 40.7 (1.600) 8
HV03 27.2 (1.070) 10.5 (0.415) 28.2 (1.130) 4
HV04 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
HV05 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
HV06 53.3 (2.100) 29.0 (1.140) 54.9 (2.160) 11

011419
High Voltage MLC Leaded
”M A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
82





AVX
STYLE
HV01 _ _ _ _ _ _ AN120 HV02 _ _ _ _ _ _ AN120 HV03 _ _ _ _ _ _ AN120 HV04 _ _ _ _ _ _ AN120 HV05 _ _ _ _ _ _ AN120 HV06 _ _ _ _ _ _ AN120
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .086 .024 .011 .0062 .0052 .120 .034 .015 .0088 .0074 .042 .013 .0058 .0030 .0024 .012 .0040 .0018 .0009 .0007 .0048 .0013 .240 .066 .028 .018 .015
N1500 .14 0 .042 .018 .010 .0084 .200 .058 .024 .014 .012 .068 .020 .0090 .0050 .0040 .020 .0066 .0028 .0014 .0012 .0078 .0022 .380 .100 .046 .030 .026
X7R 1.10 .260 .150 .066 .052 1.50 .360 .200 .094 .078 .520 .130 .072 .032 .024 .160 .042 --- --- --- .060 --- 3.00 .700 .440 .200 .170
AVX
STYLE
HV01 _ _ _ _ _ _ AN240 HV02 _ _ _ _ _ _ AN240 HV03 _ _ _ _ _ _ AN240 HV04 _ _ _ _ _ _ AN240 HV05 _ _ _ _ _ _ AN240 HV06 _ _ _ _ _ _ AN240
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .170 .048 .022 .012 .010 .240 .068 .031 .017 .015 .084 .026 .011 .0060 .0048 .025 .0082 .0036 .0018 .0014 .0096 .0027 .480 .130 .056 .036 .031
N1500 .280 .084 .036 .020 .016 .400 .110 .048 .028 .024 .130 .040 .018 .010 .0080 .040 .013 .0056 .0028 .0025 .015 .0044 .760 .210 .092 .060 .052
X7R 2.20 .520 .300 .130 .100 3.10 .720 .400 .180 .150 1.00 .270 .140 .064 .048 .330 .084 --- --- --- .120 --- 6.00 1.40 .880 .400 .340
AVX
STYLE
HV01 _ _ _ _ _ _ AN360 HV02 _ _ _ _ _ _ AN360 HV03 _ _ _ _ _ _ AN360 HV04 _ _ _ _ _ _ AN360 HV05 _ _ _ _ _ _ AN360 HV06 _ _ _ _ _ _ AN360
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .250 .072 .033 .018 .015 .360 .100 .047 .026 .022 .120 .039 .017 .0090 .0072 .038 .012 .0054 .0027 .0022 .014 .0040 .720 .200 .084 .055 .047
N1500 .420 .120 .055 .030 .025 .600 .170 .072 .043 .036 .200 .060 .027 .015 .012 .060 .020 .0084 .0043 .0037 .023 .0066 1.10 .310 .130 .090 .078
X7R 3.30 .780 .450 .200 .150 4.70 1.00 .600 .280 .230 1.50 .410 .210 .096 .072 .490 .120 --- --- --- .180 --- 9.00 2.10 1.30 .600 .510
AVX
STYLE
HV01 _ _ _ _ _ _ AN480 HV02 _ _ _ _ _ _ AN480 HV03 _ _ _ _ _ _ AN480 HV04 _ _ _ _ _ _ AN480 HV05 _ _ _ _ _ _ AN480 HV06 _ _ _ _ _ _ AN480
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .340 .096 .044 .024 .020 .480 .130 .063 .035 .030 .16 0 .052 .023 .012 .0096 .051 .016 .0072 .0036 .0029 .019 .0054 .960 .260 .110 .073 .062
N1500 .560 .160 .073 .040 .033 .800 .230 .096 .057 .048 .270 .080 .036 .020 .016 .080 .026 .011 .0057 .0050 .031 .0088 1.50 .420 .180 .120 .100
X7R 4.40 1.00 .600 .260 .200 6.30 1.40 .800 .370 .310 2.00 .550 .280 .120 .096 .650 .160 --- --- --- .240 --- 12.0 2.80 1.70 .800 .68
AVX
STYLE
HV01 _ _ _ _ _ _ AN650 HV02 _ _ _ _ _ _ AN650 HV03 _ _ _ _ _ _ AN650 HV04 _ _ _ _ _ _ AN650 HV05 _ _ _ _ _ _ AN650 HV06 _ _ _ _ _ _ AN650
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .430 .120 .056 .031 .026 .610 .170 .079 .044 .037 .210 .065 .029 .015 .012 .064 .020 .009 .0045 .0037 .024 .0068 1.20 .330 .14 0 .092 .078
N1500 .700 .210 .092 .050 .042 1.00 .290 .120 .072 .060 .340 .100 .045 .025 .020 .100 .033 .014 .0072 .0063 .039 .011 1.90 .530 .230 .150 .130
X7R 5.50 1.30 .750 .330 .260 7.90 1.80 1.00 .470 .390 2.60 .690 .360 .160 .120 .820 .210 --- --- --- .300 --- 15.0 3.50 2.20 1.00 .850
090518

High Voltage MLC Leaded
”M A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 83
C0G Dielectric
General
fi
Capacitance Range
100 pF to 1.2 μF
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz, for ≤100 pF use 1 MHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
0 ± 30 ppm/°C
Voltage Ratings
1000 VDC thru 5000 VDC (+125°C)
Dissipation Factor
0.15% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz, for ≤100 pF use 1 MHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
N1500
General
fi
Capacitance Range
100 pF to 1.9 μF
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
-1500 ±250 ppm/°C
Voltage Ratings
1000 VDC thru 5000 VDC (+125°C)
Dissipation Factor
0.15% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
X7R Dielectric
General
fi
Capacitance Range
100 pF to 15 μF
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Capacitance Tolerances
±10%, ±20%, +80%, -20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
±15% (0 VDC)
Voltage Ratings
1000 VDC thru 5000 VDC (+125°C)
Dissipation Factor
2.5% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage) at
1 KHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
HOW TO ORDER AVX Styles: HV01 THRU HV06
RV 105 65001 A C A NM
AVX Style 
See
Dimensions
chart
Voltage
1K = A
2K = G
3K = H
4K = J
5K = K
Temperature
fi
C0G = A
X7R = C
N1500 = 4
Test Level
A = Does not apply
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
P = P Style Leads
Z = Z Style Leads
Capacitance Tolerance
C0G:
J = ±5%
K = ±10%
M = ±20%
X7R:
K = ±10%
M = ±20%
Z = +80%, -20%
N1500:
J = ±5%
K = ±10%
M = ±20%
Height
Max
Dimension “A”
120 = 0.120”
240 = 0.240”
360 = 0.360”
480 = 0.480”
650 = 0.650”
Capacitance Code
(2 significant digits
+ number of zeros)
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1μF = 105
10 μF = 106
100 μF = 107
Note: Capacitors with X7R dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
011419
RV Style – RoHS Compliant High Voltage DIP Leaded
High Voltage MLC Leaded
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
84
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
6.35
(0.250)
MIN.
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
“N” STYLE LEADS
E
C
RAD.
0.254
(0.010)
(TYP)
DETAIL B
0.254 (0.010) TYP.
CHIP SEPARATION
0.254 (0.010) TYP.
1.270 ± 0.254
(0.050 ± 0.010)
2.794 ± 0.254
(0.110 ± 0.010)
1.778 ±0.254
(0.070 ± 0.010)
3.048 ± 0.381
(0.120 ± 0.015)
DETAIL B
“Z” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254
(0.010)
TYP.
B
DETAIL A
4.191 ± 0.254
(0.165 ± 0.010)
1.651 ± 0.254
(0.065 ± 0.010)
2.540 ± 0.254
(0.100 ± 0.010)
6.350 (0.250) MIN
1.016 ± 0.254
(0.040 ± 0.010)
R 0.508
(0.020)
3 PLACES
CAPACITOR
DETAIL A
“P” STYLE LEADS
“J” STYLE LEADS
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.905 (0.075)
±0.635 (0.025)
TYP.
1.778 (0.070)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
E
C
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010)
TYP.
0.254 (0.010)
RAD. (TYP.)
1.778 (0.070) 1.905 (0.075)
±0.635 (0.025)
TYP.
±0.254 (0.010)
“L” STYLE LEADS
DIMENSIONS millimeters (inches)
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads
per side
RV01
See page 86 for
maximum “A
Dimension
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080)
For “P” Style Leads: “A” Dimension Plus 4.445 (0.175)
For “Z” Style Leads: “A” Dimension Plus 3.048 (0.120)
53.3 (2.100) 10.5 (0.415) 54.9 (2.160) 4
RV02 39.1 (1.540) 20.3 (0.800) 40.7 (1.600) 8
RV03 27.2 (1.070) 10.5 (0.415) 28.2 (1.130) 4
RV04 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
RV05 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
RV06 53.3 (2.100) 29.0 (1.140) 54.9 (2.160) 11
090518
RV Style – RoHS Compliant High Voltage DIP Leaded
High Voltage MLC Leaded
”M A man snow c ,— ,—I F—
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 85





AVX
STYLE
RV01 _ _ _ _ _ _ AN120 RV02 _ _ _ _ _ _ AN120 RV03 _ _ _ _ _ _ AN120 RV04 _ _ _ _ _ _ AN120 RV05 _ _ _ _ _ _ AN120 RV06 _ _ _ _ _ _ AN120
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .086 .024 .011 .0062 .0052 .120 .034 .015 .0088 .0074 .042 .013 .0058 .0030 .0024 .012 .0040 .0018 .0009 .0007 .0048 .0013 .240 .066 .028 .018 .015
N1500 .14 0 .042 .018 .010 .0084 .200 .058 .024 .014 .012 .068 .020 .0090 .0050 .0040 .020 .0066 .0028 .0014 .0012 .0078 .0022 .380 .100 .046 .030 .026
X7R 1.10 .260 .150 .066 .052 1.50 .360 .200 .094 .078 .520 .130 .072 .032 .024 .160 .042 --- --- --- .060 --- 3.00 .700 .440 .200 .170
AVX
STYLE
RV01 _ _ _ _ _ _ AN240 RV02 _ _ _ _ _ _ AN240 RV03 _ _ _ _ _ _ AN240 RV04 _ _ _ _ _ _ AN240 RV05 _ _ _ _ _ _ AN240 RV06 _ _ _ _ _ _ AN240
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .170 .048 .022 .012 .010 .240 .068 .031 .017 .015 .084 .026 .011 .0060 .0048 .025 .0082 .0036 .0018 .0014 .0096 .0027 .480 .130 .056 .036 .031
N1500 .280 .084 .036 .020 .016 .400 .110 .048 .028 .024 .130 .040 .018 .010 .0080 .040 .013 .0056 .0028 .0025 .015 .0044 .760 .210 .092 .060 .052
X7R 2.20 .520 .300 .130 .100 3.10 .720 .400 .180 .150 1.00 .270 .140 .064 .048 .330 .084 --- --- --- .120 --- 6.00 1.40 .880 .400 .340
AVX
STYLE
RV01 _ _ _ _ _ _ AN360 RV02 _ _ _ _ _ _ AN360 RV03 _ _ _ _ _ _ AN360 RV04 _ _ _ _ _ _ AN360 RV05 _ _ _ _ _ _ AN360 RV06 _ _ _ _ _ _ AN360
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .250 .072 .033 .018 .015 .360 .100 .047 .026 .022 .120 .039 .017 .0090 .0072 .038 .012 .0054 .0027 .0022 .014 .0040 .720 .200 .084 .055 .047
N1500 .420 .120 .055 .030 .025 .600 .170 .072 .043 .036 .200 .060 .027 .015 .012 .060 .020 .0084 .0043 .0037 .023 .0066 1.10 .310 .130 .090 .078
X7R 3.30 .780 .450 .200 .150 4.70 1.00 .600 .280 .230 1.50 .410 .210 .096 .072 .490 .120 --- --- --- .180 --- 9.00 2.10 1.30 .600 .510
AVX
STYLE
RV01 _ _ _ _ _ _ AN480 RV02 _ _ _ _ _ _ AN480 RV03 _ _ _ _ _ _ AN480 RV04 _ _ _ _ _ _ AN480 RV05 _ _ _ _ _ _ AN480 RV06 _ _ _ _ _ _ AN480
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .340 .096 .044 .024 .020 .480 .130 .063 .035 .030 .160 .052 .023 .012 .0096 .051 .016 .0072 .0036 .0029 .019 .0054 .960 .260 .110 .073 .062
N1500 .560 .160 .073 .040 .033 .800 .230 .096 .057 .048 .270 .080 .036 .020 .016 .080 .026 .011 .0057 .0050 .031 .0088 1.50 .420 .180 .120 .100
X7R 4.40 1.00 .600 .260 .200 6.30 1.40 .800 .370 .310 2.00 .550 .280 .120 .096 .650 .160 --- --- --- .240 --- 12.0 2.80 1.70 .800 .68
AVX
STYLE
RV01 _ _ _ _ _ _ AN650 RV02 _ _ _ _ _ _ AN650 RV03 _ _ _ _ _ _ AN650 RV04 _ _ _ _ _ _ AN650 RV05 _ _ _ _ _ _ AN650 RV06 _ _ _ _ _ _ AN650
1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 3KV 4KV 5KV 1KV 2KV 1KV 2KV 3KV 4KV 5KV
C0G .430 .120 .056 .031 .026 .610 .170 .079 .044 .037 .210 .065 .029 .015 .012 .064 .020 .009 .0045 .0037 .024 .0068 1.20 .330 .14 0 .092 .078
N1500 .700 .210 .092 .050 .042 1.00 .290 .120 .072 .060 .340 .10 0 .045 .025 .020 .100 .033 .014 .0072 .0063 .039 .011 1.90 .530 .230 .150 .130
X7R 5.50 1.30 .750 .330 .260 7.90 1.80 1.00 .470 .390 2.60 .690 .360 .160 .120 .820 .210 --- --- --- .300 --- 15.0 3.50 2.20 1.00 .850
011419
RV Style – RoHS Compliant High Voltage DIP Leaded
High Voltage MLC Leaded
/A\V/)I(” A man smur- cowmv 3.8 (0.149) max rthaxfi 2.0 «Wmax» 0.079 rm) f n n n n L f $ L ; 254(u.1oo) rt max'fi J H H LL13: (0.512% "‘3’“ ”(0.149) $530200) +1 0(0 03 ) l max. L2,] Lu 254(o.100)+o.5(o.200)" " u u \m‘ j s+os 2.54(n1oo)+n..5(0200) + ‘+L2 +‘+L1+(0'020)+ TTTTTTTTTTT Not RoHS Compliant
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
86
Capacitance range: 1.2 nF to 2.7 μF
Voltage range: 1kV to 5kV
Temperature range: -55ºC to +125ºC
ELECTRICAL SPECIFICATIONS
fiCECC 30 000, (4.24.1)
2C1/X7R: C Temperature Characteristic - ± 15% (0v dc)
Capacitance Test 25ºC
2C1/X7R: Measured at 1 VRMS max at 1KHz
Dissipation Factor 25°C
2C1/X7R: 2.5% max at 1KHz, 1 VRMS
This range of radial, dual-in-line for both through hole and surface
mount products is intended for use in high voltage power supplies
and voltage multiplier circuits. The multilayer ceramic construction
offers excellent volumetric efficiency compared with other high
voltage dielectrics. They are suitable for both high reliability and
industrial applications.
Insulation Resistance
2C1/X7R: 100K megohms or 1000 megohms-μF,
whichever is less
Dielectric Withstanding Voltage 25°C
130% rated voltage for 5 seconds
Life Test (1000 hrs) CECC 30000 (4.23)
12C1/X7R: 120% rated voltage at +125ºC.
Aging
2C1/X7R: 2.5%/decade hour
DUAL-IN-LINE
DIMENSIONS millimeters (inches)
Style L
(max)
W
(max)
S
(nom)
No. of Leads
per side
CH41 9.2 (0.362) 8.7 (0.342) 8.2 (0.323) 3
CH51 10.7 (0.421) 10.7 (0.421) 10.2 (0.400) 4
CH61 14.9 (0.587) 13.6 (0.535) 14.0 (0.551) 5
CH76 21.6 (0.850) 16.6 (0.654) 20.3* (0.800) 6
CH91 24.0 (0.944) 40.6 (1.598) 20.3* (0.800) 14
*Tolerance ± 0.8
Lead width 0.5 (0.020)
Lead thickness 0.254 (0.010)
L1 = L2 ± 0.5 (0.020)
HOW TO ORDER
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
Not RoHS Compliant
CH 41 104A C K A 8 0 A 7
Style
Code 
Code Voltage
Code
A = 1kV
G = 2kV
H = 3kV
J = 4kV
K = 5kV
Dielectric
Code
C = X7R
Capacitance
Code
(2 significant
digits + no.
of zeros)
eg. 105 = 1 uF
106 = 10 uF
107 = 100 uF
Finish
Code
8 = Varnish
Lead Dia.
Code
0 = Standard
Lead Space
Code
A = Standard
Lead Style
Code
0 = Dual in line
straight
7 = Dual in line
‘Lstyle
fi
Code
A = Non-customized
Capacitance
Tolerance
X7R: K = ±10%
M = ±20%
P = +100, -0%
High Voltage MLC Leaded
CH Style – Radial, Dual-in-line & ‘L’ Lead SMT
121219
/.‘.\V/)I(” A man snow cowmv a‘ r4 Max ‘« mm a‘ T H Max. T 25 (0 an) a (0 m9 ma Dm 4. «7 See Tame 4 Not RoHS campliant TTTTTTTTTT
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 87
Part Number format (CVxxxxxxxxxxxA2)
Typical Part Number CV51AC154MA80A2
DIMENSIONS millimeters (inches)
Style L
(max)
H
(max)
T
(max)
S
(nom)
Lead Dia
(nom)
CV41 10.6 (0.417) 8.70 (0.343) 3.80 (0.150) 8.20 (0.323) 0.70 (0.028)
CV51 11.9 (0.469) 10.7 (0.421) 3.80 (0.150) 10.2 (0.402) 0.90 (0.035)
CV61 16.5 (0.650) 13.6 (0.536) 3.80 (0.150) 15.2 (0.599) 0.90 (0.035)
CV76 22.7 (0.893) 16.6 (0.654) 3.80 (0.150) 21.2* (0.835) 0.90 (0.035)
CV91 24.0 (0.944) 40.6 (1.598) 3.80 (0.150) 21.2* (0.835) 1.20 (0.047)
VERTICALLY MOUNTED RADIAL PRODUCT
HOW TO ORDER
*Tolerance ± 0.8mm (0.031)
Not RoHS Compliant
CV 51 154A C M A 8 0 A 2
Style
Code 
Code Voltage
Code
A = 1kV
G = 2kV
H = 3kV
J = 4kV
K = 5kV
Dielectric
Code
C = X7R
Capacitance
Code
(2 significant
digits + no.
of zeros)
eg. 105 = 1 uF
106 = 10 uF
107 = 100 uF
Finish
Code
8 = Varnish
Lead Dia.
Code
0 = Standard
Lead Space
Code
A = Standard
Lead Style
Code
fi
Code
A = Non-customized
Capacitance
Tolerance
X7R: K = ±10%
M = ±20%
P = +100, -0%
High Voltage MLC Leaded
CV Style – Chip Assemblies
121219
/A\V/)I(a A wocm emu; comm /A\vn:< |="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
88
2C1/X7R STABLE CERAMIC
NB Figures in cells refer to size within ordering information
CV41-CH41
Styles
CV51-CH51
Styles
CV61-CH61
Styles
CV76-CH76
Styles
CV91-CH91
Styles
1 Kv 2 Kv 3 Kv 4 Kv 5 Kv 1 Kv 2 Kv 3 Kv 4 Kv 5 Kv 1 Kv 2 Kv 3 Kv 4 Kv 5 Kv 1 Kv 2 Kv 3 Kv 4 Kv 5 Kv 1 Kv 2 Kv 3 Kv 4 Kv 5 Kv
Cap nF
1.2 K
1.3 K
1.5 JK
2.2 JK
2.7 JK
3.3 JK
3.9 JK
4.7 H J J K
5.6 H J K
6.8 H J K
8.2 G H J K
10 G H J K
12 G H J K
15 G H J K
18 AG H H J K
22 AG H J K
27 AG H J K
33 AG H J K
39 A A G H J K
47 A A G H J K
56 A A G H J K
68 A A G H J
82 A A G G H J
100 AAA G H J
120 AAA G H J
150 A A G H
180 AAA G H
220 AAA G
270 AAA G
330 A A G
390 AAA
470 AAA
560 AAA
680 A A
820 A A
1000 A A
1200 A
1500 A
1800 A
2200 A
2700 A
090518
High Voltage MLC Leaded
CH/CV Style – Chip Assemblies
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 89
High value, low leakage and small size are difficult parameters to obtain in capacitors for high voltage
systems. AVX special high voltage MLC radial leaded capacitors meet these performance characteristics.
The added advantage of these capacitors lies in special internal design minimizing the electric field
stresses within the MLC. These special design criteria result in significant reduction of partial discharge
activity within the dielectric and having, therefore, a major impact on long-term reliability of the product.
The SV high voltage radial capacitors are conformally coated with high insulation resistance, high
dielectric strength epoxy eliminating the possibility of arc flashover.
The SV high voltage radial MLC designs exhibit low ESRs at high frequency. The same criteria governing
the high voltage design carries the added benefits of extremely low ESR in relatively low capacitance and
small packages. These capacitors are designed and are ideally suited for applications such as snubbers
in high frequency power converters, resonators in SMPS, and high voltage coupling/DC blocking.
C0G Dielectric
fi
Capacitance Range
10 pF to 0.15 μF
(+25°C, 1.0 ±0.2 Vrms at 1kHz,
for ≤100 pF use 1 MHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
0 ± 30 ppm/°C
Voltage Ratings
600 VDC thru 5000 VDC (+125°C)
Dissipation Factor
0.15% max.
(+25°C, 1.0 ±0.2 Vrms at 1kHz,
for ≤100 pF use 1 MHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min. or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
N1500
fi
Capacitance Range
100 pF to 0.47 μF
(+25°C, 1.0 ±0.2 Vrms (open circuit voltage)
at 1kHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
-1500 ±250 ppm/°C
Voltage Ratings
600 VDC thru 5000 VDC (+125°C)
Dissipation Factor
0.15% max.
(25°C, 1.0±0.2 Vrms (open circuit voltage)
at 1 KHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
X7R Dielectric
fi
Capacitance Range
100 pF to 2.2 μF
(+25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances
±10%, ±20%, +80%, -20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
±15% (0 VDC)
Voltage Ratings
600 VDC thru 5000 VDC (+125°C)
Dissipation Factor
2.5% max.
(+25°C, 1.0 ±0.2 Vrms at 1kHz)
Insulation Resistance (+25°C, at 500V)
100K MΩ min., or 1000 MΩ-μF min.,
whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min.,
whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
High Voltage MLC Leaded
SV Style Radial Lead – Application Information
011419
y m /‘\'/) ( n A macaw smuwcoww T f + No! RoHS Compliant \ T L 9 A RoHS + W
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
90
L T
H
S
25.4
(1.000)
min.
LD
LD
S
H
H + 3.683
(0.145)
25.4
(1.000)
min.
L
SV52 thru SV59 and SV63 thru SV67
SV01 thru SV17
HIGH VOLTAGE RADIAL LEAD
HOW TO ORDER
DIMENSIONS
SV01 102A A A A *
K
AVX
Style
Voltage
600V/630V = C
1000V = A
1500V = S
2000V = G
2500V = W
3000V = H
4000V = J
5000V = K
Temperature
fi
C0G = A
X7R = C
N1500 = 4
Test
Level
A = Standard
B = Hi-Rel*
Leads
A = Tin/Lead
R = R o H S
Compliant*
Packaging
(See Note 1)
Capacitance
Tolerance
Capacitance Code
(2 significant digits +
no. of zeros)
Examples:
10 pF = 100
100 pF = 101
1.000 pF = 102
22.000 pF = 223
220.000 pF = 224
1 μF=105
C0G: J = ±5%
K = ±10%
M = ±20%
X7R: K = ±10%
M = ±20%
Z = +80 -20%
Note 1: No suffix signifies bulk packaging
which is AVX standard packaging.
Use suffix “TR1” if tape and reel is
required. Parts are reel packaged per
EIA-468.
Note: Capacitors with X7R dielectrics are not intended for applications across
AC supply mains or AC line filtering with polarity reversal. Contact plant for
recommendations.
*Hi-Rel screening consists of 100% Group A, Subgroup 1 per MIL-PRF-49467. (Except partial
discharge testing is not performed and DWV is at 120% rated voltage).
For RoHS compliant products,
please select correct termination style.
AVX Styles: SV01 THRU SV67
Not RoHS Compliant
TAPE & REEL QUANTITY
Part Pieces
SV01 1000
SV02/SV52 1000
SV03/SV53 1000
SV04/SV54 1000
SV05/SV55 1000
SV06/SV56 500
SV07/SV57 500
SV08/SV58 500
SV09/SV59 500
SV10 N/A
SV11 N/A
SV12 N/A
SV13/SV63 1000
SV14/SV64 1000
SV15/SV65 500
SV16/SV66 500
SV17/SV67 400
RoHS
Part Available
SV01 Yes
SV02/SV52 Yes
SV03/SV53 Yes
SV04/SV54 Yes
SV05/SV55 Yes
SV06/SV56 Yes
SV07/SV57 Yes
SV08/SV58 Yes
SV09/SV59 Yes
SV10 Yes
SV11 Yes
SV12 Yes
SV13/SV63 Yes
SV14/SV64 Yes
SV15/SV65 Yes
SV16/SV66 Yes
SV17/SV67 Yes
millimeters (inches)
AVX Style Length (L)
max
Height (H)
max
Thickness (T)
max
Lead Spacing
±.762 (.030) (S) LD (Nom)
SV01 6.35 (0.250) 5.59 (0.220) 5.08 (0.200) 4.32 (0.170) 0.64 (0.025)
SV02/SV52 8.13 (0.320) 7.11 (0.280) 5.08 (0.200) 5.59 (0.220) 0.64 (0.025)
SV03/SV53 9.40 (0.370) 7.62 (0.300) 5.08 (0.200) 6.99 (0.275) 0.64 (0.025)
SV04/SV54 11.4 (0.450) 5.59 (0.220) 5.08 (0.200) 7.62 (0.300) 0.64 (0.025)
SV05/SV55 11.9 (0.470) 10.2 (0.400) 5.08 (0.200) 9.52 (0.375) 0.64 (0.025)
SV06/SV56 14.0 (0.550) 7.11 (0.280) 5.08 (0.200) 10.16 (0.400) 0.64 (0.025)
SV07/SV57 14.5 (0.570) 12.7 (0.500) 5.08 (0.200) 12.1 (0.475) 0.64 (0.025)
SV08/SV58 17.0 (0.670) 15.2 (0.600) 5.08 (0.200) 14.6 (0.575) 0.64 (0.025)
SV09/SV59 19.6 (0.770) 18.3 (0.720) 5.08 (0.200) 17.1 (0.675) 0.64 (0.025)
SV10 26.7 (1.050) 12.7 (0.500) 5.08 (0.200) 22.9 (0.900) 0.64 (0.025)
SV11 31.8 (1.250) 15.2 (0.600) 5.08 (0.200) 27.9 (1.100) 0.64 (0.025)
SV12 36.8 (1.450) 18.3 (0.720) 5.08 (0.200) 33.0 (1.300) 0.64 (0.025)
SV13/SV63 7.62 (0.300) 9.14 (0.360) 5.08 (0.200) 5.08 (0.200) 0.51 (0.020)
SV14/SV64 10.2 (0.400) 11.7 (0.460) 5.08 (0.200) 5.08 (0.200) 0.51 (0.020)
SV15/SV65 12.7 (0.500) 14.2 (0.560) 5.08 (0.200) 10.2 (0.400) 0.64 (0.025)
SV16/SV66 22.1 (0.870) 16.8 (0.660) 5.08 (0.200) 20.1 (0.790) 0.81 (0.032)
SV17/SV67 23.6 (0.930) 19.8 (0.780) 6.35 (0.250) 20.3 (0.800) 0.81 (0.032)
090518
High Voltage MLC Leaded
SV Style Radial Lead – Application Information
y m /‘\'/) ( n A macaw smuwcoww
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 91
CAPACITANCE VALUE
C0G
Style 600/630V
min./max.
1000V
min./max.
1500V
min./max.
2000V
min./max.
2500V
min./max.
3000V
min./max.
4000V
min./max.
5000V
min./max.
SV01 100 pF / 1500 pF 100 pF / 1000 pF 10 pF / 330 pF 10 pF / 220 pF 10 pF / 120 pF 10 pF / 82 pF — —
SV02/SV52 100 pF / 6800 pF 100 pF / 4700 pF 100 pF / 1500 pF 10 pF / 1000 pF 10 pF / 680 pF 10 pF / 560 pF 10 pF / 150 pF 10 pF / 100 pF
SV03/SV53 100 pF / 0.012 μF 100 pF / 8200 pF 100 pF / 2700 pF 100 pF / 1800 pF 10 pF / 1000 pF 10 pF / 680 pF 10 pF / 390 pF 10 pF / 220 pF
SV04/SV54 100 pF / 3900 pF 100 pF / 2700 pF 10 pF / 820 pF 10 pF / 560 pF 10 pF / 270 pF 10 pF / 180 pF 10 pF / 100 pF 10 pF / 68 pF
SV05/SV55 1000 pF / 0.027 μF 1000 pF / 0.018 μF 100 pF / 6800 pF 100 pF / 4700 pF 100 pF / 2700 pF 100 pF / 1500 pF 10 pF /1000 pF 10 pF / 560 pF
SV06/SV56 100 pF / 0.012 μF 100 pF / 0.010 μF 100 pF / 3300 pF 100 pF / 2200 pF 10 pF / 1200 pF 10 pF / 820 pF 10 pF / 470 pF 10 pF / 390 pF
SV07/SV57 1000 pF / 0.056 μF 1000 pF / 0.033 μF 1000 pF / 0.015 μF 100 pF / 0.010 μF 100 pF / 5600 pF 100 pF / 3900 pF 100 pF /2200 pF 10 pF /1200 pF
SV08/SV58 1000 pF / 0.082 μF 1000 pF / 0.047 μF 1000 pF / 0.022 μF 1000 pF / 0.015 μF 100 pF /0.010 μF 100 pF / 6800 pF 100 pF /3300 pF 100 pF /2200 pF
SV09/SV59 1000 pF / 0.150 μF 1000 pF / 0.082 μF 1000 pF / 0.039 μF 1000 pF / 0.022 μF 1000 pF /0.015 μF 100 pF / 8200 pF 100 pF /4700 pF 100 pF /3300 pF
SV10 1000 pF / 0.100 μF 1000 pF / 0.056 μF 1000 pF / 0.022 μF 1000 pF / 0.012 μF 100 pF / 8200 pF 100 pF / 5600 pF 100 pF /3300 pF 100 pF /2200 pF
SV11 1000 pF / 0.150 μF 1000 pF / 0.082 μF 1000 pF / 0.039 μF 1000 pF / 0.022 μF 1000 pF /0.015 μF 100 pF / 8200 pF 100 pF /4700 pF 100 pF /3300 pF
SV12 0.01 μF / 0.220 μF 0.01 μF / 0.15 μF 1000 pF / 0.056 μF 1000 pF / 0.033 μF 1000 pF /0.022 μF 1000 pF / 0.015 μF 100 pF /8200 pF 100 pF /5600 pF
SV13/SV63 100 pF / 0.018 μF 100 pF / 0.012 μF 100 pF / 4700 pF 100 pF / 2700 pF 100 pF / 1800 pF 100 pF / 1000 pF 10 pF / 470 pF 10 pF / 390 pF
SV14/SV64 1000 pF / 0.039 μF 1000 pF / 0.022 μF 100 pF / 8200 pF 100 pF / 5600 pF 100 pF / 3300 pF 100 pF / 1800 pF 10 pF / 820 pF 10 pF / 680 pF
SV15/SV65 1000 pF / 0.056 μF 1000 pF / 0.033 μF 1000 pF /0.015 μF 100 pF / 0.01 μF 100 pF / 5600 pF 100 pF / 2700 pF 100 pF /1800 pF 100 pF /1200 pF
SV16/SV66 1000 pF / 0.120 μF 1000 pF / 0.082 μF 1000 pF /0.039 μF 1000 pF / 0.027 μF 1000 pF /0.015 μF 100 pF / 8200 pF 100 pF /4700 pF 100 pF /3300 pF
SV17/SV67 1000 pF / 0.150 μF 1000 pF / 0.10 μF 1000 pF /0.056 μF 1000 pF / 0.039 μF 1000 pF /0.022 μF 1000 pF / 0.012 μF 100 pF /6800 pF 100 pF /4700 pF
N1500
SV01 1000 pF / 2700 pF 1000 pF / 1800 pF 100 pF / 680 pF 100 pF / 470 pF 100 pF / 220 pF 100 pF / 150 pF — —
SV02/SV52 1000 pF / 0.012 μF 1000 pF / 8200 pF 1000 pF / 2700 pF 1000 pF / 1800 pF 100 pF / 1000 pF 100 pF / 680 pF 100 pF / 270 pF 100 pF / 150 pF
SV03/SV53 0.010 pF / 0.027 μF 0.010 pF / 0.018 μF 1000 pF / 5600 pF 1000 pF / 3900 pF 1000 pF / 2200 pF 1000 pF / 1500 pF 100 pF / 680 pF 100 pF / 470 pF
SV04/SV54 1000 pF / 8200 pF 1000 pF / 5600 pF 1000 pF / 1800 pF 100 pF / 1200 pF 100 pF / 560 pF 100 pF / 330 pF 100 pF / 220 pF 100 pF / 120 pF
SV05/SV55 0.010 μF / 0.068 μF 0.010 μF / 0.047 μF 0.010 μF / 0.015 μF 1000 pF / 0.010 μF 1000 pF / 5600 pF 1000 pF / 3300 pF 1000 pF /2200 pF 1000 pF /1200 pF
SV06/SV56 0.010 μF / 0.027 μF 0.010 μF / 0.018 μF 1000 pF / 5600 pF 1000 pF / 3900 pF 1000 pF / 2200 pF 1000 pF / 1500 pF 100 pF / 680 pF 100 pF / 470 pF
SV07/SV57 0.010 μF / 0.12 μF 0.010 μF / 0.10 μF 0.010 μF / 0.027 μF 0.010 μF / 0.018 μF 1000 pF /0.012 μF 1000 pF / 5600 pF 1000 pF /3900 pF 1000 pF /2200 pF
SV08/SV58 0.010 μF / 0.15 μF 0.010 μF / 0.12 μF 0.010 μF / 0.047 μF 0.010 pF / 0.033 μF 0.010 μF /0.018 μF 1000 pF / 0.010 μF 1000 pF /6800 pF 1000 pF /3900 pF
SV09/SV59 0.10 μF / 0.220 μF 0.10 μF / 0.18 μF 0.010 μF / 0.082 μF 0.010 μF / 0.047 μF 0.010 pF /0.033 μF 0.010 μF / 0.015 μF 1000 pF /8200 pF 1000 pF /6800 pF
SV10 0.10 μF / 0.18 μF 0.10 μF / 0.15 μF 0.010 μF / 0.047 μF 0.010 μF / 0.027 μF 0.010 μF /0.018 μF 1000 pF / 0.010 μF 1000 pF /5600 pF 1000 pF /3900 pF
SV11 0.10 μF / 0.33 μF 0.10 μF / 0.22 μF 0.010 μF / 0.082 μF 0.010 μF / 0.039 μF 0.010 μF /0.027 μF 0.010 μF / 0.018 μF 1000 pF /0.010 μF 1000 pF /6800 pF
SV12 0.10 μF / 0.47 μF 0.10 μF / 0.33 μF 0.10 μF / 0.12 μF 0.010 μF / 0.068 μF 0.010 pF /0.047 μF 0.010 μF / 0.027 μF 0.010 pF /0.015 μF 1000 pF /0.010 μF
SV13/SV63 0.010 μF / 0.039 μF 0.010 μF / 0.027 μF 1000 pF / 8200 pF 1000 pF / 5600 pF 1000 pF / 3300 pF 1000 pF / 1800 pF 100 pF / 820 pF 100 pF / 680 pF
SV14/SV64 0.010 μF / 0.082 μF 0.010 μF / 0.056 μF 0.010 pF / 0.018 μF 1000 pF / 0.012 μF 1000 pF / 6800 pF 1000 pF / 3900 pF 1000 pF /1800 pF 1000 pF /1500 pF
SV15/SV65 0.010 μF / 0.10 μF 0.010 μF / 0.082 μF 0.010 μF / 0.027 μF 0.010 pF / 0.018 μF 1000 pF /0.012 μF 1000 pF / 5600 pF 1000 pF /3300 pF 1000 pF /2700 pF
SV16/SV66 0.10 μF / 0.22 μF 0.10 μF / 0.18 μF 0.010 μF / 0.082 μF 0.010 μF / 0.039 μF 0.010 μF /0.027 μF 0.010 μF / 0.015 μF 1000 pF /8200 pF 1000 pF /6800 pF
SV17/SV67 0.10 μF / 0.33 μF 0.10 μF / 0.22 μF 0.010 μF / 0.10 μF 0.010 μF / 0.056 μF 0.010 μF /0.033 μF 0.010 μF / 0.022 μF 1000 pF /0.012 μF 1000 pF /0.010 μF
X7R
SV01 1000 pF / 0.018 μF 1000 pF / 0.012 μF 100 pF / 5600 pF 100 pF / 3900 pF — — —
SV02/SV52 1000 pF / 0.082 μF 1000 pF / 0.047 μF 1000 pF / 0.015 μF 100 pF / 6800 pF 100 pF / 3900 pF 100 pF / 2700 pF — —
SV03/SV53 1000 pF / 0.180 μF 1000 pF / 0.082 μF 1000 pF / 0.018 μF 1000 pF / 0.01 μF 100 pF / 6800 pF 100 pF / 4700 pF 100 pF /1800 pF
SV04/SV54 1000 pF / 0.056 μF 1000 pF / 0.033 μF 100 pF / 6800 pF 100 pF / 3900 pF 100 pF / 2200 pF 100 pF / 1800 pF 100 pF / 820 pF
SV05/SV55 0.01 μF / 0.470 μF 0.01 μF / 0.22 μF 1000 pF / 0.056 μF 1000 pF / 0.027 μF 1000 pF /0.018 μF 1000 pF / 0.012 μF 100 pF /4700 pF
SV06/SV56 0.01 μF / 0.180 μF 0.01 μF / 0.10 μF 1000 pF / 0.033 μF 1000 pF / 0.012 μF 100 pF / 8200 pF 100 pF / 6800 pF 100 pF /2700 pF 100 pF /1200 pF
SV07/SV57 0.01 μF / 0.820 μF 0.01 μF / 0.39 μF 0.01 μF / 0.10 μF 1000 pF / 0.047 μF 1000 pF /0.033 μF 1000 pF / 0.027 μF 1000 pF / 0.01 μF 100 pF /6800 pF
SV08/SV58 0.01 μF / 1.20 μF 0.01 μF / 0.68 μF 0.01 μF / 0.18 μF 1000 pF / 0.082 μF 1000 pF /0.068 μF 1000 pF / 0.047 μF 1000 pF /0.018 μF 1000 pF /0.012 μF
SV09/SV59 0.10 μF / 1.80 μF 0.10 μF / 1.00 μF 0.01 μF / 0.27 μF 0.01 μF / 0.12 μF 0.01 μF / 0.10 μF 1000 pF / 0.068 μF 1000 pF /0.027 μF 1000 pF /0.018 μF
SV10 0.01 μF / 1.50 μF 0.01 μF / 0.82 μF 0.01 μF / 0.22 μF 0.01 μF / 0.10 μF 1000 pF /0.082 μF 1000 pF / 0.056 μF 1000 pF /0.022 μF 1000 pF /0.022 μF
SV11 0.10 μF / 2.20 μF 0.10 μF / 1.2 μF 0.01 μF / 0.39 μF 0.01 μF / 0.18 μF 0.01 μF / 0.15 μF 0.01 μF / 0.10 μF 1000 pF /0.039 μF 1000 pF /0.027 μF
SV12 0.10 μF / 3.90 μF 0.10 μF / 2.20 μF 0.01 μF / 0.56 μF 0.01 μF / 0.27 μF 0.01 μF / 0.22 μF 0.01 μF / 0.15 μF 1000 pF /0.056 μF 1000 pF /0.033 μF
SV13/SV63 0.01 μF / 0.270 μF 0.01 μF / 0.10 μF 1000 pF / 0.033 μF 1000 pF / 0.012 μF 1000 pF / 0.01 μF 100 pF / 6800 pF 100 pF /2700 pF
SV14/SV64 0.01 μF / 0.470 μF 0.01 μF / 0.18 μF 1000 pF / 0.068 μF 1000 pF / 0.022 μF 1000 pF /0.018 μF 1000 pF / 0.015 μF 100 pF /5600 pF
SV15/SV65 0.01 μF / 0.680 μF 0.01 μF / 0.33 μF 0.01 μF / 0.10 μF 1000 pF / 0.033 μF 1000 pF /0.027 μF 1000 pF / 0.022 μF 1000 pF /8200 pF 100 pF /4700 pF
SV16/SV66 0.01 μF / 1.80 μF 0.01 μF / 1.0 μF 0.01 μF / 0.27 μF 0.01 μF / 0.12 μF 0.01 μF / 0.10 μF 1000 pF / 0.068 μF 1000 pF /0.027 μF 1000 pF /0.018 μF
SV17/SV67 0.01 μF / 2.20 μF 0.01 μF / 1.2 μF 0.01 μF / 0.39 μF 0.01 μF / 0.15 μF 0.01 μF / 0.12 μF 1000 pF / 0.082 μF 1000 pF /0.039 μF 1000 pF /0.027 μF
Note: Contact factory for other voltage ratings or values.
011419
High Voltage MLC Leaded
SV Style Radial Lead – Application Information
”M A mm»: anon? c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
92
AVX IS QUALIFIED TO THE FOLLOWING DSCC DRAWINGS
fi Description Capacitance Range
87046 C0G-1000 VDC 10 pF - 0.025 μF
87043 X7R-1000 VDC 100 pF - 0.47 μF
87040 X7R-2000 VDC 100 pF - 0.22 μF
87114 C0G-3000 VDC 10 pF - 8200 pF
87047 X7R-3000 VDC 100 pF - 0.1 μF
87076 C0G-4000 VDC 10 pF - 6800 pF
89044 X7R-4000 VDC 100 pF - 0.056 μF
87077 C0G-5000 VDC 10 pF - 5600 pF
87070 X7R-5000 VDC 100 pF - 0.033 μF
Group B inspection*
Group A inspection
Inspection
Requirement
paragraph of
MIL-PRF-49467
Test method
paragraph of
MIL-PRF-49467
Sampling procedure
Subqroup 1
Thermal Shock
Voltage Conditioning
3.6
3.6
4.8.2.1
4.8.2.2 100% inspection
Subqroup 3
Visual and mechanical examination:
Material 3.4 and 3.4.1 4.8.4
Physical dimensions 3.1 13 samples
Interface requirements 0 failures
(other than physical dimensions) 3.5
Marking 3.25
Workmanship 3.27
Subqroup 4 5 samples
Solderability 3.13 4.8.9 0 failures
Inspection Requirement paragraph of
MIL-PRF-49467
Test method paragraph of
MIL-PRF-49467
Number of
sample units
to be inspected
Number of
defectives
permitted
Subqroup 1
12 1
1
Terminal strength 3.18 4.8.14
Resistance to soldering heat 3.11 4.8.7
Moisture resistance 3.19 4.8.15
Subqroup 2
6 1
Voltage-temperature limits** 3.14 4.8.10
Low temperature storage 3.23 4.8.19
Marking legibility 3.25.1 4.8.1.1
Subqroup 3
Resistance to solvents 3.21 4.8.17 4 1
Subqroup 4 1
Life (at elevated ambient temperature) 3.22 4.8.18 10
*Customers may accept at their discretion, a certificate of compliance with group B requirements in lieu of performing group B tests.
**For Steps E, F & G in Table VII of MIL-PRF-49467, 500 Vdc shall be applied.
090518
High Voltage MLC Leaded
DSCC Radials
y @ /‘\'/) ( n A A mam ems comm /e‘s\Y/ll( |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 93
Automotive grade, AEC-Q200 qualified SV-style capacitors are designed with COG (NPO), class I dielectric
that is characterized with very low dielectric losses. This product is designed for AC applications requiring
capacitors capable of handling high AC currents at high frequencies.
With emergence of strongly coupled magnetic resonance technology that allows for highly efficient
wireless transmission of power to recharge batteries, the need for low loss capacitors is apparent.
Thanks to their extremely low dissipation factor, automotive grade SV-style parts can reliably handle high
rms currents with minimal power losses in medium to high power resonant converters. Multiple parts in
parallel may be required depending on the power transmission levels.
The automotive grade SV-style capacitors are conformally coated eliminating possibility of arc flashover.
The leaded construction provides mechanical decoupling of MLCC chip from the board and thus provides
effective stress relief required for automotive applications.
C0G Dielectric
fi
Capacitance Range
1000pF to 0.015 μF
(+25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances
±5%, ±10%, ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
0 ± 30 ppm/°C
Voltage Ratings
1000 VDC (+125°C)
Dissipation Factor
0.1% max.
(+25°C, 1.0 ±0.2 Vrms at 1kHz,
Insulation Resistance (+25°C, at 500V)
100K MΩ min. or 1000 MΩ-μF min., whichever is less
Insulation Resistance (+125°C, at 500V)
10K MΩ min., or 100 MΩ-μF min., whichever is less
Dielectric Strength
120% rated voltage, 5 seconds
Life Test
100% rated and +125°C
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
Typical Impedance and ESR
Characterization
AVX P/N: SV05AA103K4R
1.E-02
1.E-01
1.E+00
1.E+01
1.E+02
1.E+03
1.E+05 1.E+06 1.E+07 1.E+08
Impedance and ESR (Ω)
Frequency (Hz)
Impedance
ESR
011419
High Voltage MLC Leaded
SV Style Automotive Grade Radial Lead – Application Information
/.‘.\V/)I(” A mm»: snow cowmv ha a e r w ‘ “ r j ROI-IS RR L 7 ""‘“ LA T T T T T T
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
94
AUTOMOTIVE GRADE HIGH VOLTAGE MLC RADIALS
HOW TO ORDER
DIMENSIONS
CAPACITANCE VALUE
SV01 153
A A 4 A *
K
AVX Style Voltage
1000V = A
Temperature
fi
C0G = A
Test Level
4 = AEC-Q200
Leads
A = Tin/Lead
R = R o H S
Compliant*
Packaging
(See Note 1)
Capacitance
Tolerance
Capacitance
Code
(2 significant digits
+ no. of zeros)
Examples:
1.000 pF = 102
22.000 pF = 223
J = ±5%
K = ±10%
M = ±20%
Note 1: No suffix signifies bulk packaging
which is AVX standard packaging.
Use suffix “TR1” if tape and reel is
required. Parts are reel packaged per
EIA-468.
Note: Capacitors with X7R dielectrics are not intended for applications across
AC supply mains or AC line filtering with polarity reversal. Contact plant for
recommendations.
*Hi-Rel screening consists of 100% Group A, Subgroup 1 per MIL-PRF-49467.
(Except partial discharge testing is not performed and DWV is at 120% rated voltage).
For RoHS compliant products,
please select correct termination style.
AVX Styles: SV05, SV13 & SV14
Not RoHS Compliant
millimeters (inches)
L T
H
S
25.4
(1.000)
min.
LD
LD
S
H
H + 3.683
(0.145)
25.4
(1.000)
min.
L
SSV05, SV13 & SV14SV55, SV63 & SV64
TAPE & REEL QUANTITY
Part Pieces
SV05/SV55 1000
SV13/SV63 1000
SV14/SV64 1000
C0G
Style 1000V
min./max.
SV05/SV55 1000 pF / 0.015 μF
SV13/SV63 1000 pF / 8200 pF
SV14/SV64 1000 pF / 0.015 μF
AVX Style Length (L)
max
Height (H)
max
Thickness (T)
max
Lead Spacing
±.762 (.030) (S) LD (Nom)
SV05/SV55 11.9 (0.470) 10.2 (0.400) 5.08 (0.200) 9.52 (0.375) 0.64 (0.025)
SV13/SV63 7.62 (0.300) 9.14 (0.360) 5.08 (0.200) 5.08 (0.200) 0.51 (0.020)
SV14/SV64 10.2 (0.400) 11.7 (0.460) 5.08 (0.200) 5.08 (0.200) 0.51 (0.020)
090518
High Voltage MLC Leaded
SV Style Automotive Grade Radial Lead – Application Information
/A\V/)IC A mmmow comm max |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 95
Ceramic Layer Electrode
Terminated
Edge
Terminated
Edge
End Terminations
Margin Electrodes
A multilayer ceramic (MLC) capacitor is a monolithic block of
ceramic containing two sets of offset, interleaved planar electrodes
that extend to two opposite surfaces of the ceramic dielectric. This
simple structure requires a considerable amount of sophistication,
both in material and in manufacture, to produce it in the quality and
quantities needed in today’s electronic equipment.
Terminations
Standard Nickel Barrier
Lead Free Tin Plate (RoHS Compliant)
5% minimum Lead Plated
Leach resistance to 90 seconds at 260°C
Solderable plated for dimensional control
Special materials as required
QUALITY STATEMENT
AVX focus is customer satisfaction Customer satisfaction in the
broadest sense: Products, service, price, delivery, technical support,
and all the aspects of a business that impact you, the customer.
Our long term strategy is for continuous improvement which
is defined by our Quality Vision 2000. This is a total quality
management system developed by and supported by AVX corporate
management. The foundation of QV2000 is built upon military and
commercial standards and systems including ISO9001. QV2000 is a
natural extension of past quality efforts with world class techniques
for ensuring a total quality environment to satisfy our customers
during this decade and into the 21st century.
As your components supplier, we invite you to experience the
quality, service, and commitment of AVX.
MLC Chip Capacitors
Basic Construction
011419
/n\V/)I(” A man snow cowmv Capacitance Change Percent 12 5 25 37 5 50 V0115 AC at 1.0 KHZ +20 +10 Capacnance Change Percent +55 735 ,15 +5 +25 +45 +65 +35 +105 +125 Tempevamve Degrees Centigvade
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
96
Table 1: EIA and MIL Temperature Stable and
General Application Codes
EIA CODE
Percent Capacity Change Over Temperature Range
RS198 Temperature Range
X7 -55°C to +125°C
X5 -55°C to +85°C
Y5 -30°C to +85°C
Z5 +10°C to +8C
Code Percent Capacity Change
D±3.3%
E±4.7%
F±7.5%
P±10%
R±15%
S±22%
T +22%, -33%
U+22%, - 56%
V +22%, -82%
EXAMPLE - A capacitor is desired with the capacitance value at 2C to increase
no more than 7.5% or decrease no more than 7.5% from
-30°C to +85°C. EIA Code will be Y5F.
MIL CODE
Symbol Temperature Range
A-55°C to +85°C
B-55°C to +125°C
C -55°C to +150°C
Symbol Cap. Change Zero Volts Cap. Change Rated Volts
Q+15%, -15% +15%, -50%
R+15%, -15% +15%, -40%
W +22%, -56% +22%, -66%
X+15%, -15% +15%, -25%
Y+30%, -70% +30%, -80%
Z+20%, -20% +20%, -30%
Temperature characteristic is specified by combining range and change symbols,
for example BR or AW. Specification slash sheets indicate the characteristic
applicable to a given style of capacitor.
In specifying capacitance change with temperature for Class
2 materials, EIA expresses the capacitance change over an
operating temperature range by a 3 symbol code.
The
first symbol represents the cold temperature end of the temperature
range, the second represents the upper limit of the operating
temperature range and the third symbol represents the capacitance
change allowed over the operating temperature range. Table 1
provides a detailed explanation of the EIA system.
Effects of Voltage – Variations in voltage have little effect on Class
1 dielectric but does affect the capacitance and dissipation factor
of Class 2 dielectrics. The application of DC voltage reduces both
the capacitance and dissipation factor while the application of
an AC voltage within a reasonable range tends to increase both
capacitance and dissipation factor readings. If a high enough AC
voltage is applied, eventually it will reduce capacitance just as a DC
voltage will. Figure 2 shows the effects of AC voltage.
Capacitor specifications specify the AC voltage at which to measure
(normally 0.5 or 1 VAC) and application of the wrong voltage can
cause spurious readings.
Cap. Change vs. A.C. Volts
X7R
Typical Cap. Change vs. Temperature
X7R
Figure 2
Figure 3
090518
MLC Chip Capacitors
General Description
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available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 97
Effects of Time Class 2 ceramic capacitors change capacitance
and dissipation factor with time as well as temperature, voltage
and frequency. This change with time is known as aging. Aging
is caused by a gradual re-alignment of the crystalline structure of
the ceramic and produces an exponential loss in capacitance and
decrease in dissipation factor versus time. A typical curve of aging
rate for semistable ceramics is shown in Figure 4.
If a Class 2 ceramic capacitor that has been sitting on the shelf for
a period of time, is heated above its curie point, (125°C for 4 hours
or 150°C for 1⁄2 hour will suffice) the part will de-age and return
to its initial capacitance and dissipation factor readings. Because
the capacitance changes rapidly, immediately after de-aging, the
basic capacitance measurements are normally referred to a time
period sometime after the de-aging process. Various manufacturers
use different time bases but the most popular one is one day or
twenty-four hours after “last heat.Change in the aging curve can
be caused by the application of voltage and other stresses. The
possible changes in capacitance due to de-aging by heating the
unit explain why capacitance changes are allowed after test, such
as temperature cycling, moisture resistance, etc., in MIL specs.
The application of high voltages such as dielectric withstanding
voltages also tends to de-age capacitors and is why re-reading of
capacitance after 12 or 24 hours is allowed in military specifications
after dielectric strength tests have been performed.
Typical Curve of Aging Rate
X7R
Figure 4
Effects of Frequency Frequency affects capacitance and
impedance characteristics of capacitors. This effect is much more
pronounced in high dielectric constant ceramic formulation than in
low K formulations. AVX’s SpiCalci software generates impedance,
ESR, series inductance, series resonant frequency and capacitance all
as functions of frequency, temperature and DC bias for standard chip
sizes and styles. It is available free from AVX and can be downloaded
for free from AVX website: http://www.avx.com/download/software/
SpiCalci-AVX.zip.
1 10 100 1000 10,000 100,000
Hours
Capacitance Change Percent
+1.5
0
-1.5
-3.0
-4.5
-6.0
-7.5
Characteristic Max. Aging Rate %/Decade
C0G (NP0) None
X7R, X5R 2
Effects of Mechanical Stress High “K” dielectric ceramic
capacitors exhibit some low level piezoelectric reactions under
mechanical stress. As a general statement, the piezoelectric output
is higher, the higher the dielectric constant of the ceramic. It is
desirable to investigate this effect before using high “K” dielectrics
as coupling capacitors in extremely low level applications.
Reliability – Historically ceramic capacitors have been one of the
most reliable types of capacitors in use today. The approximate
formula for the reliability of a ceramic capacitor is:
o
= V
t
X
T
t
Y
t
V
o
T
o
where
Lo = operating life
Lt = test life
Vt = test voltage
Vo = operating voltage
Tt = test temperature and
To = operating temperature in °C
X,Y = see text
Historically for ceramic capacitors exponent X has been considered
as 3. The exponent Y for temperature effects typically tends to run
about 8.
011419
MLC Chip Capacitors
General Description
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available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
98
A capacitor is a component which is capable of storing electrical
energy. It consists of two conductive plates (electrodes) separated
by insulating material which is called the dielectric. A typical formula
for determining capacitance is:
C = capacitance (picofarads)
K = dielectric constant (Vacuum = 1)
A = area in square inches
t = separation between the plates in inches
(thickness of dielectric)
.224 = conversion constant
(.0884 for metric system in cm)
Capacitance The standard unit of capacitance is the farad. A
capacitor has a capacitance of 1 farad when 1 coulomb charges
it to 1 volt. One farad is a very large unit and most capacitors have
values in the micro (10-6), nano (10-9) or pico (10-12) farad level.
Dielectric Constant In the formula for capacitance given above the
dielectric constant of a vacuum is arbitrarily chosen as the number
1. Dielectric constants of other materials are then compared to the
dielectric constant of a vacuum.
Dielectric Thickness – Capacitance is indirectly proportional to the
separation between electrodes. Lower voltage requirements mean
thinner dielectrics and greater capacitance per volume.
Area Capacitance is directly proportional to the area of the
electrodes. Since the other variables in the equation are usually set
by the performance desired, area is the easiest parameter to modify
to obtain a specific capacitance within a material group.
Energy Stored – The energy which can be stored in a capacitor is
given by the formula:
E = energy in joules (watts-sec)
V = applied voltage
C = capacitance in farads
Potential Change A capacitor is a reactive component which
reacts against a change in potential across it. This is shown by the
equation for the linear charge of a capacitor:
where
I = Current
C = Capacitance
dV/dt = Slope of voltage transition across capacitor
Thus an infinite current would be required to instantly change the
potential across a capacitor. The amount of current a capacitor
can “sink” is determined by the above equation.
LR
P
S
I (Ideal)
I (Actual)
Phase
Angle
Loss
Angle
V
IRs
φ
Equivalent Circuit A capacitor, as a practical device, exhibits not
only capacitance but also resistance and inductance. A simplified
schematic for the equivalent circuit is:
C = Capacitance L = Inductance
Rs = Series Resistance Rp = Parallel Resistance
Reactance Since the insulation resistance (Rp) is normally very
high, the total impedance of a capacitor is:
where
Z = Total Impedance
Rs = Series Resistance
XC = Capacitive Reactance = 1
2 π fC
XL = Inductive Reactance = 2 π fL
The variation of a capacitor’s impedance with frequency determines
its effectiveness in many applications.
Phase Angle – Power Factor and Dissipation Factor are often
confused since they are both measures of the loss in a capacitor
under AC application and are often almost identical in value. In a
“perfect” capacitor the current in the capacitor will lead the voltage
by 90°.
In practice the current leads the voltage by some other phase angle
due to the series resistance RS. The complement of this angle is
called the loss angle and:
Power Factor (P.F.) = Cos
φ
or Sine δ
Dissipation Factor (D.F.) = tan δ
for small values of δ the tan and sine are essentially equal which
has led to the common interchangeability of the two terms in the
industry.
090518
MLC Chip Capacitors
General Description
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available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 99
Equivalent Series Resistance The term E.S.R. or Equivalent
Series Resistance combines all losses both series and parallel in
a capacitor at a given frequency so that the equivalent circuit is
reduced to a simple R-C series connection.
E.S.R.
C
Dissipation Factor – The DF/PF of a capacitor tells what percent of
the apparent power input will turn to heat in the capacitor.
Dissipation Factor=
E.S.R.
= (2 π fC) (E.S.R.)
X
C
The watts loss are:
2 ) (D.F.)
Very low values of dissipation factor are expressed as their
reciprocal for convenience. These are called the “Q” or Quality factor
of capacitors.
Parasitic Inductance The parasitic inductance of capacitors is
becoming more and more important in the decoupling of today’s
high speed digital systems. The relationship between the inductance
and the ripple voltage induced on the DC voltage line can be seen
from the simple inductance equation:
The seen in current microprocessors can be as high as 0.3 A/
ns, and up to 10A/ns. At 0.3 A/ns, 100pH of parasitic inductance
can cause a voltage spike of 30mV. While this does not sound very
drastic, with the Vcc for microprocessors decreasing at the current
rate, this can be a fairly large percentage.
Another important, often overlooked, reason for knowing the
parasitic inductance is the calculation of the resonant frequency.
This can be important for high frequency, by-pass capacitors, as the
resonant point will give the most signal attenuation. The resonant
frequency is calculated from the simple equation:
Insulation Resistance – Insulation Resistance is the resistance
measured across the terminals of a capacitor and consists
principally of the parallel resistance RP shown in the equivalent
circuit. As capacitance values and hence the area of dielectric
increases, the I.R. decreases and hence the product (C x IR or
RC) is often specified in ohm farads or more commonly megohm-
microfarads. Leakage current is determined by dividing the rated
voltage by IR (Ohm’s Law).
Dielectric Strength Dielectric Strength is an expression of the
ability of a material to withstand an electrical stress. Although
dielectric strength is ordinarily expressed in volts, it is actually
dependent on the thickness of the dielectric and thus is also more
generically a function of volts/mil.
Dielectric Absorption A capacitor does not discharge
instantaneously upon application of a short circuit, but drains
gradually after the capacitance proper has been discharged.
It is common practice to measure the dielectric absorption by
determining the “reappearing voltage” which appears across a
capacitor at some point in time after it has been fully discharged
under short circuit conditions.
Corona Corona is the ionization of air or other vapors which causes
them to conduct current. It is especially prevalent in high voltage
units but can occur with low voltages as well where high voltage
gradients occur. The energy discharged degrades the performance
of the capacitor and can in time cause catastrophic failures.
011419
MLC Chip Capacitors
General Description
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available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
100
REFLOW SOLDERING
WAVE SOLDERING
 D1 D2 D3 D4 D5
0805 (LD05) 3.00 (0.120) 1.00 (0.040) 1.00 (0.040) 1.00 (0.040) 1.25 (0.050)
1206 (LD06) 4.00 (0.160) 1.00 (0.040) 2.00 (0.090) 1.00 (0.040) 1.60 (0.060)
*1210 (LD10) 4.00 (0.160) 1.00 (0.040) 2.00 (0.090) 1.00 (0.040) 2.50 (0.100)
*1808 (LD08) 5.60 (0.220) 1.00 (0.040) 3.60 (0.140) 1.00 (0.040) 2.00 (0.080)
*1812 (LD12) 5.60 (0.220) 1.00 (0.040) 3.60 (0.140) 1.00 (0.040) 3.00 (0.120)
*1825 (LD13) 5.60 (0.220) 1.00 (0.040) 3.60 (0.140) 1.00 (0.040) 6.35 (0.250)
*2220 (LD20) 6.60 (0.260) 1.00 (0.040) 4.60 (0.180) 1.00 (0.040) 5.00 (0.200)
*2225 (LD14) 6.60 (0.260) 1.00 (0.040) 4.60 (0.180) 1.00 (0.040) 6.35 (0.250)
*HQCC 6.60 (0.260) 1.00 (0.040) 4.60 (0.180) 1.00 (0.040) 6.35 (0.250)
*3640 (LD40) 10.67 (0.427) 1.52 (0.060) 7.62 (0.300) 1.52 (0.060) 10.16 (0.400)
*HQCE 10.67 (0.427) 1.52 (0.060) 7.62 (0.300) 1.52 (0.060) 10.16 (0.400)
 D1 D2 D3 D4 D5
0805 4.00 (0.15) 1.50 (0.06) 1.00 (0.04) 1.50 (0.06) 1.25 (0.05)
1206 5.00 (0.19) 1.50 (0.06) 2.00 (0.09) 1.50 (0.06) 1.60 (0.06)
Dimensions in
millimeters (inches)
Dimensions in millimeters (inches)
*AVX recommends reflow soldering only.
Component Pad Design
Component pads should be designed to achieve good solder filets
and minimize component movement during reflow soldering. Pad
designs are given below for the most common sizes of multilayer
ceramic capacitors for both wave and reflow soldering. The basis
of these designs is:
Pad width equal to component width. It is permissible to decrease
this to as low as 85% of component width but it is not advisable
to go below this.
Pad overlap 0.5mm beneath component.
Pad extension 0.5mm beyond components for reflow and 1.0mm
for wave soldering.
Component Spacing
For wave soldering
components, must be
spaced sufficiently far
apart to avoid bridging or
shadowing (inability of
solder to penetrate properly
into small spaces). This is
less important for reflow
soldering but sufficient space must be allowed to enable rework
should it be required.
Preheat & Soldering
The rate of preheat should not exceed 4°C/second to prevent
thermal shock. A better maximum figure is about 2°C/second.
For capacitors size 1206 and below, with a maximum thickness
of 1.25mm, it is generally permissible to allow a temperature
differential from preheat to soldering of 150°C. In all other cases
this differential should not exceed 100°C.
For further specific application or process advice, please consult
AVX.
Cleaning
Care should be taken to ensure that the capacitors are thoroughly
cleaned of flux residues especially the space beneath the capacitor.
Such residues may otherwise become conductive and effectively
offer a low resistance bypass to the capacitor.
Ultrasonic cleaning is permissible, the recommended conditions
being 8 Watts/litre at 20-45 kHz, with a process cycle of 2 minutes
vapor rinse, 2 minutes immersion in the ultrasonic solvent bath and
finally 2 minutes vapor rinse.
millimeters (inches)
Surface Mounting Guide
090518
MLC Chip Capacitors
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 101
REFLOW SOLDER PROFILES
AVX RoHS compliant products utilize termination
finishes (e.g.Sn or SnAg) that are compatible with all Pb-
Free soldering systems and are fully reverse compatible
with SnPb soldering systems. A recommended SnPb
profile is shown for comparison; for Pb-Free soldering,
IPC/JEDECJ-STD-020C may be referenced. The upper
line in the chart shows the maximum envelope to which
products are qualified (typically 3x reflow cycles at
260ºC max). The center line gives the recommended
profile for optimum wettability and soldering in Pb-Free
Systems.
Preheat:
The pre-heat stabilizes the part and reduces the
temperature differential prior to reflow. The initial ramp to 125ºC
may be rapid, but from that point (2-3)ºC/sec is recommended to
allow ceramic parts to heat uniformly and plastic encapsulated
parts to stabilize through the glass transition temperature of the
body (~ 180ºC).
fl
In the reflow phase, the maximum recommended time > 230ºC
is 40secs. Time at peak reflow is 10secs max.; optimum reflow
is achieved at 250ºC, (see wetting balance chart opposite) but
products are qualified to 260ºC max. Please reference individual
product datasheets for maximum limits
Cool Down:
Cool down should not be forced and 6ºC/sec is recommended. A
slow cool down will result in a finer grain structure of the reflow
solder in the solder fillet.
WAVE SOLDER PROFILES
For wave solder, there is no change in the recommended wave
profile; all standard Pb-Free (SnCu/SnCuAg) systems operate at the
same 260ºC max recommended for SnPb systems.
Preheat:
This is more important for wave solder; a higher temperature preheat
will reduce the thermal shock to SMD parts that are immersed
(please consult individual product data sheets for SMD parts that
are suited to wave solder). SMD parts should ideally be heated from
the bottom-Side prior to wave. PTH (Pin through hole) parts on the
topside should not be separately heated.
Wave:
250ºC – 260ºC recommended for optimum solderability.
Cool Down:
As with reflow solder, cool down should not be forced and 6ºC/sec
is recommended. Any air knives at the end of the 2nd wave should
be heated.
Recommended Reflow Profiles
25
50
75
100
125
150
175
200
225
250
275
0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380 400 420
Time / secs
Component Temperature / ºC
Maximum Reflow Profile With Care
Recommended Pb-Free Reflow Profile
Recommended SnPb Reflow Profile
Preheat Reflow Cool Down
-0.40
-0.30
-0.20
-0.10
0.00
0.10
0.20
0.30
0.40
200 210 220 230 240 250 260 270
Temperature of Solder [C]
F [mN]
SnPb - Sn60Pb40
Sn - Sn60Pb40
Sn-Sn3.5Ag0.7Cu
Sn-Sn2.5Ag1Bi0.5Cu
Sn-Sn0.7Cu
Wetting Force at 2nd Sec. (higher is better)
25
75
125
175
225
275
0 50 100 150 200 250 300 350 400
Preheat
Wave
Cool Down
Component Temperature / ºC
Time / seconds
Recommended Soldering Profiles
IMPORTANT NOTE: Typical Pb-Free reflow solders have a more
dull and grainy appearance compared to traditional SnPb. Elevating
the reflow temperature will not change this, but extending the cool
down can help improve the visual appearance of the joint.
Surface Mounting Guide
011419
MLC Chip Capacitors
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
102
APPLICATION NOTES
Storage
Good solderability is maintained for at least twelve months, provided
the components are stored in their “as received” packaging at less
than 40°C and 70% RH.
Solderability
Terminations to be well soldered after immersion in a 60/40 tin/lead
solder bath at 235 ± 5°C for 2 ± 1 seconds.
Leaching
Terminations will resist leaching for at least the immersion times
and conditions shown below.
Termination Type Solder
Tin/Lead/Silver
Solder
Temp. °C
Immersion Time
Seconds
Nickel Barrier 60/40/0 260 ± 5 30 ± 1
fi
flfi
Pre-heating: 150°C ±15°C / 60-90s
Max. Peak Gradient 2.5°C/s
Peak Temperature: 245°C ±5°C
Time at >230°C: 40s Max.
Reflow
300
250
200
150
100
50
0
Solder Temp.
10 sec. max
1min
1min
(Minimize soldering time)
Natural
Cooling
220°C
to
250°C
Preheat
300
250
200
150
100
50
00 50 100 150 200 250 300
Temperature °C
Time (s)
Wave
300
250
200
150
100
50
0
Solder Temp.
(Preheat chips before soldering)
T/maximum 150°C
3 sec. max
1 to 2 min
Preheat
Natural
Cooling
230°C
to
250°C
T
Lead-Free Wave Soldering
The recommended peak temperature for lead-free wave soldering is
250°C-260°C for 3-5 seconds. The other para meters of the profile
remains the same as above.
The following should be noted by customers changing from lead
based systems to the new lead free pastes.
a) The visual standards used for evaluation of solder joints will need
to be modified as lead free joints are not as bright as with tin-lead
pastes and the fillet may not be as large.
b) Resin color may darken slightly due to the increase in temperature
required for the new pastes.
c) Lead-free solder pastes do not allow the same self alignment as
lead containing systems. Standard mounting pads are acceptable,
but machine set up may need to be modified.
General
Surface mounting chip multilayer ceramic capacitors are designed
for soldering to printed circuit boards or other substrates. The
construction of the components is such that they will withstand the
time/temperature profiles used in both wave and reflow soldering
methods.
Handling
Chip multilayer ceramic capacitors should be handled with care to
avoid damage or contamination from perspiration and skin oils. The
use of tweezers or vacuum pick ups is strongly recommended for
individual components. Bulk handling should ensure that abrasion
and mechanical shock are minimized. Taped and reeled components
provides the ideal medium for direct presentation to the placement
machine. Any mechanical shock should be minimized during
handling chip multilayer ceramic capacitors.
Preheat
It is important to avoid the possibility of thermal shock during
soldering and carefully controlled preheat is therefore required.
The rate of preheat should not exceed 4°C/second and a target
figure 2°C/second is recommended. Although an 80°C to 120°C
temperature differential is preferred, recent developments allow a
temperature differential between the component surface and the
090518
Surface Mounting Guide
MLC Chip Capacitors
V m n A AerxznAGRouPcoanv {MK I
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 103
soldering temperature of 150°C (Maximum) for capacitors of 1210
size and below with a maximum thickness of 1.25mm. The user is
cautioned that the risk of thermal shock increases as chip size or
temperature differential increases.
Soldering
Mildly activated rosin fluxes are preferred. The minimum amount
of solder to give a good joint should be used. Excessive solder
can lead to damage from the stresses caused by the difference in
coefficients of expansion between solder, chip and substrate. AVX
terminations are suitable for all wave and reflow soldering systems.
If hand soldering cannot be avoided, the preferred technique is the
utilization of hot air soldering tools.
Cooling
Natural cooling in air is preferred, as this minimizes stresses within
the soldered joint. When forced air cooling is used, cooling rate
should not exceed 4°C/second. Quenching is not recommended
but if used, maximum temperature differentials should be observed
according to the preheat conditions above.
Cleaning
Flux residues may be hygroscopic or acidic and must be removed.
AVX MLC capacitors are acceptable for use with all of the solvents
described in the specifications MIL-STD-202 and EIA-RS-198.
Alcohol based solvents are acceptable and properly controlled water
cleaning systems are also acceptable. Many other solvents have
been proven successful, and most solvents that are acceptable to
other components on circuit assemblies are equally acceptable for
use with ceramic capacitors.
POST SOLDER HANDLING
Once SMP components are soldered to the board, any bending
or flexure of the PCB applies stresses to the soldered joints of
the components. For leaded devices, the stresses are absorbed
by the compliancy of the metal leads and generally don’t result in
problems unless the stress is large enough to fracture the soldered
connection.
Ceramic capacitors are more susceptible to such stress because
they don’t have compliant leads and are brittle in nature. The
most frequent failure mode is low DC resistance or short circuit.
The second failure mode is significant loss of capacitance due to
severing of contact between sets of the internal electrodes.
Cracks caused by mechanical flexure are very easily identified and
generally take one of the following two general forms:
Type A:
Angled crack between bottom of device to top of solder joint.
Type B:
Fracture from top of device to bottom of device.
Mechanical cracks are often hidden underneath the termination
and are difficult to see externally. However, if one end termination
falls off during the removal process from PCB, this is one indication
that the cause of failure was excessive mechanical stress due to
board warping.
011419
Surface Mounting Guide
MLC Chip Capacitors
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
104
COMMON CAUSES OF
MECHANICAL CRACKING
The most common source for mechanical stress is board
depanelization equipment, such as manual breakapart, v-cutters
and shear presses. Improperly aligned or dull cutters may cause
torqueing of the PCB resulting in flex stresses being transmitted
to components near the board edge. Another common source of
flexural stress is contact during parametric testing when test points
are probed. If the PCB is allowed to flex during the test cycle, nearby
ceramic capacitors may be broken.
A third common source is board to board connections at vertical
connectors where cables or other PCBs are connected to the PCB. If
the board is not supported during the plug/unplug cycle, it may flex
and cause damage to nearby components.
Special care should also be taken when handling large (>6” on a
side) PCBs since they more easily flex or warp than smaller boards.
REWORKING OF MLCS
Thermal shock is common in MLCs that are manually attached or
reworked with a soldering iron. AVX strongly recommends that any
reworking of MLCs be done with hot air reflow rather than soldering
irons. It is practically impossible to cause any thermal shock in
ceramic capacitors when using hot air reflow.
However direct contact by the soldering iron tip often causes
thermal cracks that may fail at a later date. If rework by soldering
iron is absolutely necessary, it is recommended that the wattage of
the iron be less than 30 watts and the tip temperature be <300ºC.
Rework should be performed by applying the solder iron tip to the
pad and not directly contacting any part of the ceramic capacitor.
Preferred Method - No Direct Part Contact
No Stress Relief for MLCs Routed Cut Line Relieves Stress on MLC
Poor Method - Direct Contact with Part
PCB BOARD DESIGN
To avoid many of the handling problems, AVX recommends that MLCs be located at least .2” away from nearest edge of board. However
when this is not possible, AVX recommends that the panel be routed along the cut line, adjacent to where the MLC is located.
090518
Surface Mounting Guide
MLC Chip Capacitors
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 105
AVX’s M123 series MIL-qualified ceramic capacitors are designed for high performance
application in BX voltage temperature characteristics for general purpose dielectric and
in BP voltage temperature characteristics for temperature stable dielectric.
M123 series capacitors offer design and component engineers a proven technology for
SMD processing and applications requiring space-level reliability. They are designed
for use in timing circuits and critical frequency applications where absolute stability
of capacitance is required (BP), as well as in applications where a wider capacitance
variation with temperature and voltage can be tolerated (BX)
HOW TO ORDER
Military Type Designation: Capacitors, Fixed, Ceramic Dielectric, (Temperature
Stable and General Purpose), High Reliability
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
M123 BXA 10 103 K S
B
Mil-Spec
Number
fi
Spec.
Slash
Sheet
Number
Capacitance
Code Capacitance
Tolerance
C = ±0.25pF
D = ±0.5pF
F = ±1%
J = ±5%
K = ±10%
M = ±20%
Termination
G = Silver – Nickel - Gold
M = Palladium/Silver
S = Silver – Nickel – Solder Coated
Z = Silver – Nickel – Solder Plated (tin/
lead alloy with a minimum of 4
percent lead)
VoltageTemperature
Characteristic B = 50V
C = 100V
Not RoHS Compliant
Capacitance change with reference to
25ºC over temperature range -55ºC
to +125ºC
Symbol Without
Voltage
With Rated DC
Voltage
BP 0 ± 30 ppmC 0 ±30 ppm/ºC
BX +15, -15% +15, -25%
DIMENSIONS
L
W
S
T
mm (inches)
(L) Length (W) Width (T) Thickness (S) Termination Band

2.03 (0.080) 1.27 (0.050) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 1.40 (0.055) Max. ± 0.254 (0.010)

3.05 (0.120) 2.54 (0.100) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 1.65 (0.065) Max. ± 0.254 (0.010)

4.57 (0.180) 2.03 (0.080) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 1.65 (0.065) Max. ± 0.254 (0.010)

5.59 (0.220) 6.35 (0.250) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 1.78 (0.070) Max. ± 0.254 (0.010)

3.05 (0.120) 1.52 (0.060) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 1.65 (0.065) Max. ± 0.254 (0.010)

4.57 (0.180) 3.18 (0.125) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 2.03 (0.080) Max. ± 0.254 (0.010)

4.57 (0.180) 6.35 (0.250) 0.508 (0.020) Min. 0.508 (0.020)
± 0.381 (0.015) ± 0.381 (0.015) 2.03 (0.080) Max. ± 0.254 (0.010)
Slash Sheet  Dielectric Cap Range (pF)
10 0805 BP 1.0-680
BX 330-18,000
11 1210 BP 300-3,300
BX 5,600-100,000
12 1808 BP 300-1,000
BX 5,600-100,000
13 2225 BP 1,100-10,000
BX 120,000-1,000,000
21 1206 BP 1.0-2,200
BX 4,700-39,000
22 1812 BP 1,200-10,000
BX 27,000-180,000
23 1825 BP 3,900-22,000
BX 56,000-470,000
011419
MIL-PRF-123/Chips
MLC Chip Capacitors
”M A man smur- c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
106
MIL-PRF-123/STYLE CKS51, -/10

Chip)
Capacitance
pF
Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A10BP_1R0 1.0 C,D BP 50,100
M123A10BP_1R1 1.1
M123A10BP_1R2 1.2
M123A10BP_1R3 1.3
M123A10BP_1R5 1.5
M123A10BP_1R6 1.6
M123A10BP_1R8 1.8
M123A10BP_ 2R0 2.0
M123A10BP_ 2R2 2.2
M123A10BP_ 2R4 2.4
M123A10BP_2R7 2.7
M123A10BP_ 3R0 3.0
M123A10BP_ 3R3 3.3
M123A10BP_ 3R6 3.6
M123A10BP_ 3R9 3.9
M123A10BP_4R3 4.3
M123A10BP_4R7 4.7
M123A10BP_5R1 5.1
M123A10BP_5R6 5.6
M123A10BP_6R2 6.2
M123A10BP_6R8 6.8
M123A10BP_7R5 7.5
M123A10BP_8R2 8.2
M123A10BP_9R1 9.1
M123A10BP_100 10 C, J, K
M123A10BP_110 11
M123A10BP_120 12
M123A10BP_130 13
M123A10BP_150 15
M123A10BP_160 16
M123A10BP_180 18
M123A10BP_ 200 20
M123A10BP_ 220 22
M123A10BP_ 240 24
M123A10BP_ 270 27 F, J, K
M123A10BP_ 300 30
M123A10BP_ 330 33
M123A10BP_ 360 36
M123A10BP_390 39
M123A10BP_430 43
M123A10BP_470 47
M123A10BP_510 51
M123A10BP_560 56
M123A10BP_620 62
M123A10BP_680 68
M123A10BP_750 75 F, J, K BP 50,100
Part Number 1/

Capacitance
pF
Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A10BP_ 820_ 82 F, J, K BP 50,100
M123A10BP_910_ 91
M123A10BP_101_ 100
M123A10BP_111_ 110
M123A10BP_121_ 120
M123A10BP_131_ 130
M123A10BP_151_ 150
M123A10BP_161_ 160
M123A10BP_181_ 180
M123A10BP_ 201_ 200
M123A10BP_ 221_ 220
M123A10BP_ 241_ 240
M123A10BP_ 271_ 270
M123A10BP_ 301_ 300
M123A10BP_ 331_ 330
M123A10BP_ 361_ 360
M123A10BP_ 391_ 390
M123A10BP_431_ 430
M123A10BP_471_ 470 F,J,K BP 50,100
M123A10BPB511_ 510 F,J,K BP 50
M123A10BPB561_ 560
M123A10BPB621_ 620
M123A10BPB681_ 680 F, J,K BP 50
M123A10BX_331K_ 330 KBX 50,100
M123A10BX_391K_ 390
M123A10BX_471K_ 470
M123A10BX 561K_ 560
M123A10BX 681K_ 680
M123A10BX_ 821K_ 820
M123A10BX_102K _ 1,000
M123A10BX _122K _ 1,200
M123A10BX_152K_ 1,500
M123A10BX_182K _ 1,800
M123A10BX_222K_ 2,200
M123A10BX_ 272K _ 2,700
M123A10BX_ 332K _ 3,300
M123A10BX_ 392K _ 3,900
M123A10BX_472K_ 4,700 KBX 50,100
M123A10BXB562K_ 5,600 KBX 50
M123A10BXB682K_ 6,800
M123A10BXB822K 8,200
M123A10BXB103K_ 10,000
M123A10BXB123K_ 12,000
M123A10BXB153K_ 15,000
M123A10BXB183K_ 18,000 KBX 50
090518
MIL-PRF-123/Chips
MLC Chip Capacitors
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 107
MIL-PRF-123/STYLE CKS52, -/11
MIL-PRF-123/STYLE CKS53, -/12
MIL-PRF-123/STYLE CKS54, -/13
Part Number 1/

Capacitance
pF
Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A11BP_ 301_ 300 F, J, K BP 50,100
M123A11BP_ 331_ 330
M123A11BP_ 361_ 360
M123A11BP_ 391_ 390
M123A11BP_431_ 430
M123A11BP_471_ 470
M123A11BP_511_ 510
M123A11BP_561_ 560
M123A11BP_621_ 620
M123A11BP_681_ 680
M123A11BP_751_ 750
M123A11BP_ 821_ 820
M123A11BP_911_ 910
M123A11BP_102_ 1,000
M123A11BP_112 _ 1,100
M123A11BP_122_ 1,200
M123A11BP_132 _ 1,300
M123A11BP_152_ 1,500
M123A11BP_162 _ 1,600
M123A11BP_182_ 1,800
M123A11BP_ 202_ 2,000
M123A11BP_222_ 2,200 F, J, K BP 50,100
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A12BP_301_ 300 F, J, K BP 50,100
M123A12BP_331_ 330
M123A12BP_361_ 360
M123A12BP_391_ 390
M123A12BP_431_ 430
M123A12BP_471_ 470
M123A12BP_511_ 510
M123A12BP_561_ 560
M123A12BP_621_ 620
M123A12BP_681_ 680
M123A12BP_751_ 750
M123A12BP_821_ 820
M123A12BP_911_ 910
M123A12BP_102_ 1,000 F, J, K BP 50,100
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A13BPB112_ 1,100 F, J, K BP 50
M123A13BPB122_ 1,200
M123A13BPB132_ 1,300
M123A13BPB152 _ 1,500
M123A13BPB162_ 1,600
M123A13BPB182_ 1,800
M123A13BPB202_ 2,000
M123A13BPB222_ 2,200
M123A13BPB242_ 2,400
M123A13BPB272_ 2,700
M123A13BPB302_ 3,000
M123A13BPB332_ 3,300
M123A13BPB362 _ 3,600
M123A13BPB392_ 3,900
M123A13BPB432_ 4,300
M123A13BPB472_ 4,700
M123A13BPB512_ 5,100 F, J, K BP 50
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A13BPB562 _ 5,600 F, J, K BP 50
M123A13BPB622_ 6,200
M123A13BPB682_ 6,800
M123A13BPB752_ 7,500
M123A13BPB822_ 8,200
M123A13BPB912 9,100
M123A13BPB103_ 10,000 F, J, K BP 50
M123A13BXB124K _ 120,000 KBX 50
M123A13BXB154K_ 150,000
M123A13BXB184K_ 180,000
M123A13BXB224K_ 220,000
M123A13BXB274K_ 270,000
M123A13BXB334K_ 330,000
M123A13BXB394K_ 394,000
M123A13BXB474K_ 474,000
M123A13BXB105K_ 1,000,000 KBX 50
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A12BX_562K _ 5,600 KBX 50,100
M123A12BX_682K_ 6,800
M123A12BX_822K _ 8,200
M123A12BX_103K_ 10,000
M123A12BX_123K_ 12,000
M123A12BX_153K_ 15,000
M123A12BX_183K_ 18,000
M123A12BX_223K _ 22,000
M123A12BX_273K 27,000
M123A12BX_333K _ 33,000 KBX 50,100
M123A12BXB393K _ 39,000 KBX 50
M123A12BXB473K _ 47,000
M123A12BXB563K_ 56,000
M123A12BXB683K_ 68,000
M123A12BXB823K_ 82,000
M123A12BXB104K _ 100,000 KBX 50
Part Number 1/

Capacitance
pF
Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A11BPB242 _ 2,400 F, J, K BP 50
M123A11BPB272 _ 2,700
M123A11BPB302 _ 3,000
M123A11BPB332_ 3,300 F, J, K BP 50
M123A11BX _562_ 5,600 K, M BX 50,100
M123A11BX _682 _ 6,800
M123A11BX _822_ 8,200
M123A11BX _103_ 10,000
M123A11BX_123_ 12,000
M123A11BX _153_ 15,000
M123A11BX_183_ 18,000
M123A11BX_223_ 22,000
M123A11BX _273_ 27,000 K, M BX 50,100
M123A11BXB333_ 33,000 K, M BX 50
M123A11BXB393_ 39,000
M123A11BXB473_ 47,000
M123A11BXB563_ 56,000
M123A11BXB683_ 68,000
M123A11BXB823_ 82,000
M123A11BXB104_ 100,000 K, M BX 50
011419
MIL-PRF-123/Chips
MLC Chip Capacitors
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
108
MIL-PRF-123/STYLE CKS55, -/21
MIL-PRF-123/STYLE CKS55, -/21
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A21BPC1R0_ 1.0 B, C BP 100
M123A21BPC1R1_ 1.1
M123A21BPC1R2_ 1.2
M123A21BPC1R3_ 1.3
M123A21BPC1R5_1.5
M123A21BPC1R6_ 1.6
M123A21BPC1R8_ 1.8
M123A21BPC2R0_ 2.0
M123A21BPC2R2_ 2.2
M123A21BPC2R4_2.4 B, C
M123A21BPC2R7_ 2.7 B, C, D
M123A21BPC3R0_ 3.0
M123A21BPC3R3_ 3.3
M123A21BPC3R6_ 3.6
M123A21BPC3R9_3.9
M123A21BPC4R3_ 4.3
M123A21BPC4R7_ 4.7
M123A21BPC5R1_ 5.1
M123A21BPC5R6_ 5.6
M123A21BPC6R2_6.2
M123A21BPC6R8_ 6.8
M123A21BPC7R5_ 7.5
M123A21BPC8R2_ 8.2
M123A21BPC9R1_9.1 B, C, D BP 100
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A21BPC111_ 110 F, J, K BP 100
M123A21BPC121_ 120
M123A21BPC131_ 130
M123A21BPC151_ 150
M123A21BPC161_ 160
M123A21BPC181_ 180
M123A21BPC201_ 200
M123A21BPC221_ 220
M123A21BPC241_ 240
M123A21BPC271_ 270
M123A21BPC301_ 300
M123A21BPC331_ 330
M123A21BPC361_ 360
M123A21BPC391_ 390
M123A21BPC431_ 430
M123A21BPC471_ 470
M123A21BPC511_ 510
M123A21BPC561_ 560
M123A21BPC621_ 620
M123A21BPC681_ 680
M123A21BPC751_ 750
M123A21BPC821_ 820
M123A21BPC911_ 910
M123A21BPC102_ 1,000 F, J, K BP 100
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A21BPB112_ 1,100 F, J, K BP 50
M123A21BPB122_ 1,200
M123A21BPB132_ 1,300
M123A21BPB152_ 1,500
M123A21BPB162_ 1,600
M123A21BPB182_ 1,800
M123A21BPB202_ 2,000
M123A21BPB222_ 2,200 F, J, K BP 50
M123A21BXC472_ 4,700 K, M BX 100
M123A21BXC562_ 5,600
M123A21BXC682 _ 6,800
M123A21BXC822_ 8,200
M123A21BXC103_ 10,000
M123A21BXC123_ 12,000
M123A21BXC153_ 15,000 K, M BX 100
M123A21BXB183_ 18,000 K, M BX 50
M123A21BXB223_ 22,000
M123A21BXB273_ 27,000
M123A21BXB333_ 33,000
M123A21BXB393_ 39,000 K, M BX 50
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A21BPC100_ 10 F, J, K BP 100
M123A21BPC110_ 11
M123A21BPC120_ 12
M123A21BPC130_ 13
M123A21BPC150_ 15
M123A21BPC160_ 16
M123A21BPC180_ 18
M123A21BPC200_ 20
M123A21BPC240_ 24
M123A21BPC270_ 27
M123A21BPC330_ 33
M123A21BPC360_ 36
M123A21BPC390_ 39
M123A21BPC430_ 43
M123A21BPC470_ 47
M123A21BPC510_ 51
M123A21BPC560_ 56
M123A21BPC620_ 62
M123A21BPC680_ 68
M123A21BPC750_ 75
M123A21BPC820_ 82
M123A21BPC910_ 91
M123A21BPC101_ 100 F, J, K BP 100
090518
MIL-PRF-123/Chips
MLC Chip Capacitors
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 109
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A22BPC122_ 1,200 F, J, K BP 100
M123A22BPC152_ 1,500
M123A22BPC182_ 1,800
M123A22BPC222_ 2,200
M123A22BPC242_ 2,400
M123A22BPC272_ 2,700
M123A22BPC302_ 3,000
M123A22BPC332_ 3,300
M123A22BPC362_ 3,600
M123A22BPC392_ 3,900
M123A22BPC432 _ 4,300
M123A22BPC472 _ 4,700 F, J, K BP 100
M123A22BPB512_ 5,100 F, J, K BP 50
M123A22BPB562_ 5,600
M123A22BPB622_ 6,200
M123A22BPB682_ 6,800
M123A22BPB752_ 7,50 0
M123A22BPB822_ 8,200
M123A22BPB912_ 9,100
M123A22BPB103_ 10,000 F, J, K BP 50
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A23BPC392_ 3,900 F, J, K BP 100
M123A23BPC472_ 4,700
M123A23BPC512 _ 5,100
M123A23BPC562_ 5,600
M123A23BPC622_ 6,200
M123A23BPC682_ 6,800
M123A23BPC752_ 7,50 0
M123A23BPC822_ 8,200
M123A23BPC912_ 9,100
M123A23BPC103_ 10,000 F, J, K BP 100
M123A23BPB113_ 11,000 F, J, K BP 50
M123A23BPB123_ 12,000
M123A23BPB133_ 13,000
M123A23BPB153_ 15,000
M123A23BPB163_ 16,000
M123A23BPB183_ 18,000
M123A23BPB203_ 20,000
M123A23BPB223_ 22,000 F, J, K BP 50
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A23BXC563_ 56,000 K, M BX 100
M123A23BXC683_ 68,000
M123A23BXC823_ 82,000
M123A23BXC104_ 100,000
M123A23BXC124_ 120,000
M123A23BXC154_ 150,000 K, M BX 100
M123A23BXB184_ 180,000 K, M BX 50
M123A23BXB224_ 220,000
M123A23BXB274_ 270,000
M123A23BXB334_ 330,000
M123A23BXB394_ 390,000
M123A23BXB474_ 470,000 K, M BX 50
Part Number 1/
 Capacitance pF Capacitance
Tolerance
Voltage-
Temperature
Limits
Rated
Voltage
M123A22BXC273_ 27,000 K, M BX 100
M123A22BXC333_ 33,000
M123A22BXC393_ 39,000
M123A22BXC473_ 47,000
M123A22BXC563_ 56,000 K, M BX 100
M123A22BXB823_ 82,000 K, M BX 50
M123A22BXB104_ 100,000
M123A22BXB124_ 120,000
M123A22BXB154_ 150,000
M123A22BXB184_ 180,000 K, M BX 50
MIL-PRF-123/STYLE CKS56, -/22
MIL-PRF-123/STYLE CKS57, -/23
011419
MIL-PRF-123/Chips
MLC Chip Capacitors
y m n A .mmmmw tfi " {MK I
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
110
Present military specifications, as well as a majority of commercial applications,
require a maximum operating temperature of 125°C. However, the emerging
market for high temperature electronics demands capacitors operating reliably
at temperatures beyond 125°C. AVX’s high temperature chip capacitor product
line, has been extended with the BME C0G chip. All AT chips have verified
capabilities of long term operation up to 250°C for applications in both military
and commercial businesses. These capacitors demonstrate high volumetric
efficiency, high insulation resistance and low ESR/ESL for the most demanding
applications, such as “down-hole” oil exploration and aerospace programs.
HOW TO ORDER
AT10 1043 T A T 2 A
K
AVX
Style
AT03 = 0603
AT05 = 0805
AT06 = 1206
AT10 = 1210
AT12 = 1812
AT14 = 2225
Voltage
Code
16V = Y
25V = 3
50V = 5
Temperature
fi
PME
C0G 250°C = A
C0G 200°C = 2
VHT 250°C = T
VHT 200°C = 4
BME
C0G 250°C = 5
C0G 200°C = 3
Test Level
A = Standard
Termination
1 = Pd/Ag
T = 100% Sn Plated
(RoHS Compliant)
7 = Ni/Au Plated
(For 250°C BME
C0G Only)
Packaging
2 = 7” Reel
4 = 13” Reel
9 = Bulk
Special
Code
A = Standard
Capacitance
Tolerance
Capacitance Code
(2 significant digits
+ no. of zeros)
101 = 100pF
102 = 1nF
103 = 10nF
104 = 100nF
105 = 1μF
J = ±5%
K = ±10%
M = ±20%
ELECTRICAL SPECIFICATIONS
fi
PME C0G 0±30ppm/°C, -55C to 250°C
BME C0G 0±30ppm/°C, -55C to 200°C
See TCC Plot for +250°C
VHT: T ±15%, -55°C to +150°C
See TCC Plot for +250°C
Capacitance Test (MIL-STD-202, Method 305)
25°C, 1.0 ± 0.2 Vrms (open circuit voltage) @ 1kHz
Dissipation factor 25°C
C0G: 0.15% Max at 1.0 ± 0.2 Vrms (open circuit voltage) @ 1kHz
VHT: 2.5% Max at 1.0 ± 0.2 Vrms (open circuit voltage) @ 1kHz
Insulation Resistance 25°C (MIL-STD-202, Method 302)
100GΩ or 1000MΩ-μF (whichever is less)
Insulation Resistance 125°C (MIL-STD-202, Method 302)
10GΩ or 100MΩ-μF (whichever is less)
Insulation Resistance 200°C (MIL-STD-202, Method 302)
1GΩ or 10MΩ-μF (whichever is less)
Insulation Resistance 250°C (MIL-STD-202, Method 302)
100MΩ or 1MΩ-μF (whichever is less)
Direct Withstanding Voltage 25°C (Flash Test)
250% rated voltage for 5 seconds with 50mA max charging current
DIMENSIONS millimeters (inches)
 AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
(L) Length 1.60 ± 0.15
(0.063 ± 0.006)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
4.50 ± 0.30
(0.177 ± 0.012)
5.72 ± 0.25
(0.225 ± 0.010)
(W) Width 0.81 ± 0.15
(0.032 ± 0.006)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
6.35 ± 0.25
(0.250 ± 0.010)
(T)Thickness Max. 1.02
(0.040)
1.30
(0.051)
1.52
(0.060)
1.70
(0.067)
2.54
(0.100)
2.54
(0.100)
(t) terminal min.
max.
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
1.02 (0.040)
0.25 (0.010)
1.02 (0.040)
090518
AT Series – High Temperature MLCC – 200ºC & 250°C Rated
MLC Chip Capacitors
/A\V/X(® A mom snow cowmw
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 111
PERFORMANCE CHARACTERISTICS
-100
-71.25
-42.5
-13.75
15
-50 -25 0 25 50 75 100 125 150 175 200 225 250
C (%)
Temperature (°C)
-20
-15
-10
-5
0
5
0 10 20 30 40 50 60 70 80 90 100
C (%)
Percentage of Rated Voltage
16VDC
25VDC
50VDC
100VDC
200VDC
Legend:
Capacitor’s Rated
Voltage
-1
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1
0 10 20 30 40 50 60 70 80 90 100
C (%)
Percentage of Rated Voltage
1
10
100
1000
10000
25 50 75 100 125 150 175 200 225 250
RC (Ω*F)
Temperature (°C)
1
10
100
1000
1000000
10000
100000
25 50 75 100 125 150 175 200 225 250
RC (Ω*F)
Temperature (°C)
Typical Temperature Coefficient of Capacitance (VHT Dielectric) Typical Temperature Coefficient of Capacitance (C0G Dielectric)
Typical Voltage Coefficient of Capacitance (VHT Dielectric) Typical Voltage Coefficient of Capacitance (C0G Dielectric)
Typical RC vs Temperature (VHT Dielectric) Typical RC vs Temperature (C0G Dielectric)
-1
-0.5
0
0.5
1
1.5
-50 -25 0 25 50 75 100 125 150 175 200 225 250
-30 ppm/°C
+30ppm/°C
PME
BME
C (%)
Temperature (°C)
011419
AT Series – High Temperature MLCC – 200ºC & 250°C Rated
MLC Chip Capacitors
”M A man emu? c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
112
RELIABILITY
FREQUENCY RESPONSE
0
12000
24000
36000
48000
0 250 500 750 1000
250°C Life Test @ 2x Rated Voltage (C0G Dielectric)
Capacitance (pF)
Time (hrs)
AT143A473
AT123A123
0
0.275
0.55
0.825
1.1
0 250 500 750 1000
250°C Life Test @ 2x Rated Voltage (VHT Dielectric)
Capacitance ( F)
Time (hrs)
AT05YT104
AT103T104
AT123T334
AT143T105
1E-02
1E-01
1E+00
1E+01
1E+02
1E+03
1E+01 1E+02 1E+03 1E+04 1E+05 1E+06 1E+07 1E+08
ESR Frequency Response (VHT Dielectric)
ESR ( )
Frequency (Hz)
AT05YT104
AT123T334
AT143T105
1E-03
1E-02
1E-01
1E+00
1E+01
1E+02
1E+03
1E+01 1E+02 1E+03 1E+04 1E+05 1E+06 1E+07 1E+08
ESR Frequency Response (C0G Dielectric)
ESR ( )
Frequency (Hz)
AT143A473
AT123A123
1E-02
1E-01
1E+00
1E+01
1E+02
1E+03
1E+04
1E+05
1E+01 1E+02 1E+03 1E+04 1E+05 1E+06 1E+07 1E+08
Impedance Frequency Response (VHT Dielectric)
Impedance ( )
Frequency (Hz)
AT05YT104
AT123T334
AT143T105
1E-02
1E-01
1E+00
1E+01
1E+02
1E+03
1E+04
1E+05
1E+06
1E+01 1E+02 1E+03 1E+04 1E+05 1E+06 1E+07 1E+08
Impedance Frequency Response (C0G Dielectric)
Impedance ( )
Frequency (Hz)
AT143A473
AT123A123
*Typical 1210, 1812, 2225 Failure Rate Analysis based on 250°C testing and voltage
ratings specified on the following page.
*Typical 1812 and 2225 Failure Rate Analysis based on 250°C testing and
voltage ratings specified on the following page.
fi
TemperatureC) 50% Rated Voltage 100% Rated Voltage
200 0.002 0.017
250 0.026 0.210
fi
TemperatureC) 50% Rated Voltage 100% Rated Voltage
200 0.006 0.047
250 0.074 0.590
090518
AT Series – High Temperature MLCC – 200ºC & 250°C Rated
MLC Chip Capacitors
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 113
CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
VHTfi  VHTfi 
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Soldering Reflow/Wave Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm
(in.)
1.60 ± 0.15
(0.063 ± 0.006)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
4.50 ± 0.30
(0.177 ± 0.012)
5.72 ± 0.25
(0.225 ± 0.010)
(W) Width mm
(in.)
0.81 ± 0.15
(0.032 ± 0.006)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness mm
(in.)
1.02
(0.040)
1.30
(0.051)
1.52
(0.060)
1.70
(0.067)
2.54
(0.100)
2.54
(0.100)
(t) Terminal mm
(in.)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
1.02 (0.040)
0.25 (0.010)
1.02 (0.040)
Rated Temp. (ºC) 200 200 200 200 200 200
Temp. Coefficeint 444444
Voltage (V) 25 25 50 25 50 25 50 50 50
Cap
(pF)
1000 102
1200 122
1500 152
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
Cap
(μF)
0.010 103
0.012 123
0.015 153
0.018 183
0.022 223
0.027 273
0.033 333
0.039 393
0.047 473
0.056 563
0.068 683
0.082 823
0.100 104
0.120 124
0.150 154
0.180 184
0.220 224
0.270 274
0.330 334
0.390 394
0.470 474
0.560 564
0.680 684
0.820 824
1.000 105
Voltage (V) 25 25 50 25 50 25 50 50 50
Rated Temp. (ºC) 200 200 200 200 200 200
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Soldering Reflow/Wave Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm
(in.)
1.60 ± 0.15
(0.063 ± 0.006)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
4.50 ± 0.30
(0.177 ± 0.012)
5.72 ± 0.25
(0.225 ± 0.010)
(W) Width mm
(in.)
0.81 ± 0.15
(0.032 ± 0.006)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness mm
(in.)
1.02
(0.040)
1.30
(0.051)
1.52
(0.060)
1.70
(0.067)
2.54
(0.100)
2.54
(0.100)
(t) Terminal mm
(in.)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
1.02 (0.040)
0.25 (0.010)
1.02 (0.040)
Rated Temp. (ºC) 250 250 250 250 250 250
Temp. Coefficeint TTTTTT
Voltage (V) 16 16 25 16 25 16 25 25 25
Cap
(pF)
1000 102
1200 122
1500 152
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
Cap
(μF)
0.010 103
0.012 123
0.015 153
0.018 183
0.022 223
0.027 273
0.033 333
0.039 393
0.047 473
0.056 563
0.068 683
0.082 823
0.100 104
0.120 124
0.150 154
0.180 184
0.220 224
0.270 274
0.330 334
0.390 394
0.470 474
0.560 564
0.680 684
0.820 824
1.000 105
Voltage (V) 16 16 25 16 25 16 25 25 25
Rated Temp. (ºC) 250 250 250 250 250 250
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Voltage rating per table. Capacitance values specified at 25ºC, derate capacitance value based on TCC and VCC Plots on page 112.
NOTE: Contact factory for non-specified capacitance values.
011419
AT Series – High Temperature MLCC – 200ºC & 250°C Rated
MLC Chip Capacitors
”M A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
114
CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
BME C0Gfi  BME C0G (Ni/Au)fi 
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206
Soldering
Reflow/Wave Reflow/Wave Reflow/Wave
(L) Length mm
(in.)
1.60 ± 0.15
(0.063 ± 0.006)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
(W) Width mm
(in.)
0.81 ± 0.15
(0.032 ± 0.006)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
(T) Thickness mm
(in.)
1.02
(0.040)
1.30
(0.051)
1.52
(0.060)
(t) Terminal mm
(in.)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
Rated Temp. (ºC) 250 250 250
Temp. Coefficeint 3 3 3
Voltage (V) 25 50 25 50 25 50
Cap
(pF)
39 390
47 470
56 560
68 680
82 820
100 101
120 121
150 151
180 181
220 221
270 271
330 331
Cap
(μF)
390 391
470 471
560 561
680 681
820 821
1000 102
120 0 122
1500 15 2
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
Cap
(μF)
0.010 103
0.012 123
0.015 15 3
0.018 183
0.022 223
0.027 273
0.033 333
0.039 393
0.047 473
0.056 563
0.068 683
0.082 823
0.100 104
Voltage (V) 25 50 25 50 25 50
Rated Temp. (ºC) 200 200 200 200 200 200
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206
Soldering
Reflow/Wave Reflow/Wave Reflow/Wave
(L) Length mm
(in.)
1.60 ± 0.15
(0.063 ± 0.006)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
(W) Width mm
(in.)
0.81 ± 0.15
(0.032 ± 0.006)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
(T) Thickness mm
(in.)
1.02
(0.040)
1.30
(0.051)
1.52
(0.060)
(t) Terminal mm
(in.)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
Rated Temp. (ºC) 250 250 250
Temp. Coefficeint 555
Voltage (V) 25 25 25
Cap
(pF)
39 390
47 470
56 560
68 680
82 820
100 101
120 121
150 151
180 181
220 221
270 271
330 331
390 391
470 471
560 561
680 681
820 821
1000 102
120 0 122
1500 15 2
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
Cap
(μF)
0.010 103
0.012 123
0.015 15 3
0.018 183
0.022 223
0.027 273
0.033 333
0.039 393
0.047 473
0.056 563
0.068 683
0.082 823
0.100 104
Voltage (V) 25 25 25
Rated Temp. (ºC) 250 250 250
Case Size AT03 = 0603 AT05 = 0805 AT06 = 1206
Voltage rating per table. Capacitance values specified at 25ºC, derate capacitance value based on TCC and VCC Plots on page 112.
NOTE: Contact factory for non-specified capacitance values.
090518
AT Series – High Temperature MLCC – 200ºC & 250°C Rated
MLC Chip Capacitors
WAS A man snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 115
CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
PME C0Gfi PME C0Gfi
Case Size AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm
(in.)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
4.50 ± 0.30
(0.177 ± 0.012)
2.75 ± 0.25
(0.225 ± 0.010)
(W) Width mm
(in.)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness mm
(in.)
1.30
(0.051)
1.52
(0.060)
1.70
(0.067)
2.54
(0.100)
2.54
(0.100)
(t) Terminal mm
(in.)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
1.02 (0.040)
0.25 (0.010)
1.02 (0.040)
Rated Temp. (ºC) 200 200 200 200 200
Temp. Coefficeint 22222
Voltage (V) 50 50 50 50 50
Cap
(pF)
100 101
120 121
150 151
180 181
220 221
270 271
330 331
390 391
470 471
560 561
680 681
820 821
1000 102
1200 122
1500 152
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
Cap
(μF)
0.010 103
0.012 123
0.015 153
0.018 183
0.022 223
0.027 273
0.033 333
0.039 393
0.047 473
0.056 563
0.068 683
0.082 823
0.100 104
Voltage (V) 50 50 50 50 50
Rated Temp. (ºC) 200 200 200 200 200
Case Size AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Case Size AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm
(in.)
2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
4.50 ± 0.30
(0.177 ± 0.012)
2.75 ± 0.25
(0.225 ± 0.010)
(W) Width mm
(in.)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness mm
(in.)
1.30
(0.051)
1.52
(0.060)
1.70
(0.067)
2.54
(0.100)
2.54
(0.100)
(t) Terminal mm
(in.)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
0.75 (0.030)
0.25 (0.010)
1.02 (0.040)
0.25 (0.010)
1.02 (0.040)
Rated Temp. (ºC) 250 250 250 250 250
Temp. Coefficeint AAAAA
Voltage (V) 25 25 25 25 25
Cap
(pF)
100 101
120 121
150 151
180 181
220 221
270 271
330 331
390 391
470 471
560 561
680 681
820 821
1000 102
1200 122
1500 152
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
Cap
(μF)
0.010 103
0.012 123
0.015 153
0.018 183
0.022 223
0.027 273
0.033 333
0.039 393
0.047 473
0.056 563
0.068 683
0.082 823
0.100 104
Voltage (V) 25 25 25 25 25
Rated Temp. (ºC) 250 250 250 250 250
Case Size AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225
Voltage rating per table. Capacitance values specified at 25ºC, derate capacitance value based on TCC and VCC Plots on page 112.
NOTE: Contact factory for non-specified capacitance values.
011419
AT Series – High Temperature MLCC – 200ºC & 250°C Rated
MLC Chip Capacitors
”AK A mm»: snow c L) AWV <@ a="" l="" rohs="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
116
High Voltage MLC Chips – For 600V to 5000V Applications
MLC Chip Capacitors
010 419
NEW 630V RANGE
High value, low leakage and small size are difficult parameters to obtain in capacitors for high voltage systems. AVX
special high voltage MLC chip capacitors meet these performance characteristics and are designed for applications
such as snubbers in high frequency power converters, resonators in SMPS, and high voltage coupling/dc blocking.
These high voltage chip designs exhibit low ESRs at high frequencies.
Larger physical sizes than normally encountered chips are used to make high voltage MLC chip products. Special
precautions must be taken in applying these chips in surface mount assemblies. The temperature gradient during
heating or cooling cycles should not exceed 4ºC per second. The preheat temperature must be within 50ºC of the peak
temperature reached by the ceramic bodies through the soldering process. Chip sizes 1210 and larger should be reflow
soldered only. Capacitors may require protective surface coating to prevent external arcing.
For 1825, 2225 and 3640 sizes, AVX offers leaded version in either thru-hole or SMT configurations (for details see
section on high voltage leaded MLC chips)
A
Voltage
600V/630V = C
1000V = A
1500V = S
2000V = G
2500V = W
3000V = H
4000V = J
5000V = K
A
Temperature
Coefficient
NPO (C0G) = A
X7R = C
271
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1 μF =105
A
Test Level
A = Standard
M
Capacitance
Tolerance
C0G: J = ±5%
K = ±10%
M = ±20%
X7R: K = ±10%
M = ±20%
Z = +80%,
-20%
1
Termination*
1 = Pd/Ag
T = Plated
Ni and Sn
(RoHS Compliant)
A
Special
Code
A = Standard
2
Packaging
1 or 2 = 7” Reel**
3 or 4 = 13” Reel
1808
AVX
Style
0805
1206
1210
1808
1812
1825
2220
2225
3640
***
HOW TO ORDER
Notes:
1. Capacitors with X7R dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations. Contact
factory for availability of Termination and Tolerance options for Specific Part Numbers.
2. *Terminations with 5% minimum lead (Pb) is available, see pages 100 and 101 for LD style.
Leaded terminations are available, see pages 102-106.
**The 3640 Style is not available on 7” Reels.
*** AVX offers nonstandard chip sizes. Contact factory for details.
DIMENSIONS millimeters (inches)
SIZE 0805 1206 1210* 1808* 1812* 1825* 2220* 2225* 3640*
(L) Length 2.10 ± 0.20
(0.083 ± 0.008)
3.30 ± 0.30
(0.130 ± 0.012)
3.30 ± 0.40
(0.130 ± 0.016)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
5.72 ± 0.25
(0.225 ± 0.010)
9.14 ± 0.25
(0.360 ± 0.010)
(W) Width 1.25 ± 0.20
(0.049 ±0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.30
(0.098 ± 0.012)
2.00 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.30
(0.126 ± 0.012)
6.30 ± 0.40
(0.248 ± 0.016)
5.00 ± 0.40
(0.197 ± 0.016)
6.35 ± 0.25
(0.250 ± 0.010)
10.2 ± 0.25
(0.400 ± 0.010)
(T) Thickness
Max.
1.35
(0.053)
1.80
(0.071)
2.80
(0.110)
2.20
(0.087)
2.80
(0.110)
3.40
(0.134)
3.40
(0.134)
2.54
(0.100)
2.54
(0.100)
(t) terminal min.
max.
0.50 ± 0.20
(0.020 ± 0.008)
0.60 ± 0.20
(0.024 ± 0.008)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014)
0.76 (0.030)
1.52 (0.060)
*Reflow Soldering Only
Q A H A worm emu; chPAM /..
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 117
High Voltage MLC Chips – For 600V to 5000V Applications
MLC Chip Capacitors
 0805 1206 1210 1808 1812
Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm 2.10 ± 0.20 3.30 + 0.30 3.30 + 0.40 4.60 + 0.50 4.60 + 0.50
(in.) (0.085 ± 0.008) (0.130 + 0.012) (0.130 + 0.016) (0.181 + 0.020) (0.177 + 0.012)
W) Width mm 1.25 ± 0.2 0 1.60 +0.30/-0.10 2.50 + 0.30 2.00 + 0.20 3.20 + 0.30
(in.) (0.049 ± 0.008) (0.063 +0.012/-0.004) (0.098 + 0.012) (0.079 + 0.008) (0.126 + 0.008)
(T) Thickness mm 1.35 1.80 2.80 2.20 2.80
(in.) (0.053) (0.071) (0.110) (0.087) (0.100)
(t) Terminal mm 0.50 + 0.20 0.60 + 0.20 0.75 + 0.35 0.75 + 0.35 0.75 + 0.35
(in.) (0.020 + 0.008) (0.0 4 + 0.008) (.030 0.014) (.030 0.014) (.030 0.014)
Voltage (V) 600 630 1000 600 630 1000 1500 2000 600 630 1000 1500 2000 3000 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000
Cap (pF) .5 0R5 AC
1.0 1R0 AC
1.2 1R2 AC
1.5 1R5 A A C X X X X X
1.8 1R8 A A C X X X X X
2.2 2R2 A A C X X X X X C C C C C
2.7 2R7 A A C X X X X X C C C C C C C
3.3 3R3 A A C X X X X X C C C C C C C
3.9 3R9 A A C X X X X X C C C C C C C
4.7 4R7 A A C X X X X X C C C C C C C
5.6 5R6 A A C X X X X X C C C C C C C
6.8 6R8 A A C X X X X X C C C C C C C
8.2 8R2 A A C X X X X X C C C C C C C
10 100 A A C X X X X X C M M DMF C C C C C C C C C C C C C C C E
12 120 A A C X X X X X C M M DMF C C C C C C C C C C C C C C C E
15 150 A A C X X X X X C M M DMF C C C C C C C C C C C C C C C E
18 180 A A C X X X X X C M M DMF C C C C C C C C C C C C C C C E
22 220 A A C X X X X X CM M DMF C C C C C C C E C C C C C C C E
27 270 A A C X X X X X C M M DMF C C C C C C C E C C C C F C C E
33 330 A A C X X X D MCM M DMF C C C C C C C F C C C C F C C E
39 390 A A C X X X D MCM M DMF C C C C C C C F C C C C F C C E
47 470 A A C X X C D MCM M DMF C C C C C C C C C C C C F C C E
56 560 A A C X X C C C C M M C C F C C C C C C C C C C C F C C F
68 680 A A C X X C C C C M M C C F C C C C C C C C C C C F C C F
82 820 X X X X X C C C C M M C C F C C C C C C C C C C C F C C F
100 101 X X X X X C C C C MC C C F C C C C C F F C C C C F C C F
120 121 C C C X X C E E C MC C C F C C C C C F F C C C C F C C G
150 151 C C C X X C E E C MC E E F C C C F F F F C C C C F C C G
180 181 C C C X X E E E C ME E E F C C C F F F F C C C C F F F
220 221 C C C X X E E E C ME E E F C C C F F F F C C C C F F F
270 271 C C C C ME E E C ME E E G C F C F F F F C C C C F F F
330 331 C C C C ME E E C ME E E C F F F F F F C C C F F F F
390 391 C C C C ME E E C ME E E C F F F F F F C C C F F F F
470 471 C C C ME E E C ME E E C F F F F F F C C F F F F F
560 561 C C C C E C ME E E C F F F F F C C F F F F F
680 681 C C C C E C ME F E C F F F F C C F F F G G
750 751 C C E E E C ME G E C F F F F C C F F F G G
820 821 C C E E E C ME G E C F F E F C C F F F G G
1000 102 C E E E C C E F F C F F E F C C F F F G G
1200 122 C E E E C C E F C F F E F C C F E E
1500 152 C E E C C F G E F F F C C F F F
1800 182 C E E C C G G E F F F C C F G F
2200 222 C E E E C G E F F C C E G G
2700 272 E E E C G E F F C C E G G
3300 332 E E E C G E F F C C F G
3900 392 E E C G E F C C F
4700 472 E E C E F C C G
5600 562 E E E E F C C G
6800 682 E F F C C
8200 822 F F E C
Cap (µF) 0.010 103 F F E C
0.012 123 G F F
0.015 153 G G
0.018 183 G G
0.022 223 F
0.027 273 G
0.033 333 G
0.047 473
0.056 563
0.068 683
0.100 104
Voltage (V) 600 630 1000 600 630 1000 1500 2000 600 630 1000 1500 2000 3000 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000
 0805 1206 1210 1808 1812
Letter AC E F G X 7
Max.
Thickness
0.813
(0.032)
1.448
(0.057)
1.8034
(0.071)
2.2098
(0.087)
2.794
(0.110)
0.940
(0.037)
3.30
(0.130)
NOTE: Contact factory for non-specified capacitance values
NP0 (C0G) DIELECTRIC PERFORMANCE CHARACTERISTICS
Capacitance Range 10 pF to 0.100 μF (25°C, 1.0 ±0.2 Vrms at 1kHz, for ≤ 1000 pF use 1 MHz)
Capacitance Tolerances ±5%, ±10%, ±20%
Dissipation Factor 0.1% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz, for ≤ 1000 pF use 1 MHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic 0 ±30 ppm/°C (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
NPO (C0G) CAPACITANCE RANGE PREFERRED SIZES ARE SHADED
120919
Q A H A worm emu; chPAM
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
118
High Voltage MLC Chips – For 600V to 5000V Applications
MLC Chip Capacitors
 1825 2220 2225 3640
Soldering Reflow Only Reflow Only Reflow Only Reflow Only
(L) Length mm 4.60 ± 0.50 5.70 0.50 5.70 ± 0.50 9.14 ± 0.25
(in.) (0.181 ± 0.020) (0.224 0.020) (0.225 ± 0.010) (0.360 ± 0.010)
W) Width mm 6.30 ± 0.40 5.00 0.40 6.30 0.40 10.2 ± 0.25
(in.) (0.248 ± 0.016) (0.197 0.016) (0.250 ± 0.010) (0.400 ± 0.010)
(T)
Thickness
mm 3.40 3.40 3.40 2.54
(in.) (0.134) (0.134) (0.100) (0.100)
(t) Terminal mm 0.75 ± 0.35 0.85 0.35 0.85 ± 0.35 0.76 (0.030)
max (0.030 ± 0.014) (0.033 ± 0.014) (0.033 ± 0.014) 1.52 (0.060)
Voltage (V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
Cap (pF) 1.5 1R5
1.8 1R8
2.2 2R2
2.7 2R7
3.3 3R3
3.9 3R9
4.7 4R7
5.6 5R6
6.8 6R8
8.2 8R2
10 100 E E G E F E F F E E E E E E E E E E E E E E E E F F
12 120 E E G E F E F F E E E E E E E E E E E E E E E E F F
15 150 E E G E F E F F E E E E E E E E E E E E E E E E F F
18 180 E E G E F E F F E E E E E E E E E E E E E E E E F F
22 220 E E G E F E F F E E E E E E E E E E E E E E E E F F
27 270 E E G E F E F F E E E E E E E E E E E E E E E E F F
33 330 E E G E F E F F E E E E E E E E E E E E E E E E F F
39 390 E E G E F E F F E E E E E E E E E E E E E E E E F F
47 470 E E G E F E F F E E E E E E E E E E E E E E E E F G G
56 560 E E G E F E F F E E E E E E E E E E E E E E E E F G G
68 680 E E G E F E F F E E E E E E E E E E E E E E E E F G G
82 820 E E G E F E F F E E E E E E E E E E E E E E E E F G G
100 101 E E G E F E F F E E E E E E E E E E E E E E E E G G G G G G G G
120 121 E E G E F E F F E E E E E E E E E E E E E E E E G G G G G G G G
150 151 E E G E F E F F E E E E E E E E E E E E E E E E G G G G G G G G
180 181 E E G E F E F F E E E E E E E F F E E E E E E E G G G G G G G G
220 221 E E G E F E F F E E E E E E E F F E E E E E E E G G G G G G G G
270 271 E E G E F E F F E E E E E E E E E E E E E E G G G G G G G G
330 331 E E G E F E F F E E E E E E E E E E E E E E G G G G G G G
390 391 E E G E F E F E E E E E E E E E E E E E E G G G G G G G
470 471 E E G E F E F E E E E E E E E E E E E E E G G G G G G G
560 561 E E G E F E F E E E E E E E E E E E E E E G G G G G G G
680 681 E E G E F F G E E E E E F F E E E E E E E G G G G G G
750 751 E E G E F F G E E E E E F F E E E E E E E G G G G G G
820 821 E E G E F F G E E E E E F F E E E E E F E G G G G G G
1000 102 E E G E F F G E E E E E F F E E E E E E E G G G G G G G G
1200 122 E E G E F G G E E E E E G G E E E E E F F G G G G G G G G
1500 152 E E G F G G G E E E F F G G E E E E E F F G G G G G G G
1800 182 E E G F G G G E E E F F G G E E E E E G G G G G G G G G
2200 222 E E G G G G E E E G G E E E E E G G G G G G G
2700 272 E E G G G G E E E G G E E E F F G G G G G G G
3300 332 E E G G G E E E G G E E E F F G G G G G G
3900 392 E E G G G E E E G G E E E G G G G G G G G
4700 472 E E G G G E E E G G F F F G G G G G G G
5600 562 F F G G G F F F G G F F F G G G G G G G
6800 682 F F G G F F F F F F G G G G G G G
8200 822 G G G G G G G G G G G G G G
Cap (μF) 0.010 103 F E G 7 7 7 G G G G G G G
0.012 123 E G G G G G G
0.015 153 E G G G G G
0.018 183 E G G G G G
0.022 223 E G G G G G
0.027 273 F
0.033 333 F G G G G
0.039 393 G
0.047 473 G G G G G
0.056 563 G G G
0.068 683 G G G
0.100 104
Voltage (V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
 1825 2220 2225 3640
NP0 (C0G) CAPACITANCE RANGE – PREFERRED SIZES ARE SHADED
Letter AC E F G X 7
Max.
Thickness
0.813
(0.032)
1.448
(0.057)
1.8034
(0.071)
2.2098
(0.087)
2.794
(0.110)
0.940
(0.037)
3.30
(0.130)
NOTE: Contact factory for non-specified capacitance values
120919
WAS A mum (snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 119
High Voltage MLC Chips – For 600V to 5000V Applications
MLC Chip Capacitors
 0805 1206 1210 1808 1812
Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm 2.10 0.20 3.30 ± 0.30 3.30 0.40 4.60 ± 0.50 4.60 ± 0.50
(in.) (0.085 ± 0.008) (0.130 ± 0.012) (0.130 0.016) (0.181 ± 0.020) (0.177 ± 0.012)
W) Width mm 1.25 ± 0.20 1.60 +0.30/-0.10 2.50 0.30 2.00 0.20 3.20 ± 0.30
(in.) (0.049 ± 0.008) (0.063 +0.012/-0.004) (0.098 0.012) (0.079 ± 0.008) (0.126 ± 0.008)
(T) Thickness mm 1.35 1.80 2.80 2.20 2.80
(in.) (0.053) (0.071) (0.110) (0.087) (0.100)
(t) Terminal mm 0.50 ± 0.20 0.60 ± 0.20 0.75 0.35 0.75 ± 0.35 0.75 ± 0.35
max (0.020 ± 0.008) (0.024 ± 0.008) (0.030 ± 0.014) (0.030 ± 0.014) (0.030 ± 0.014)
Voltage (V) 600 630 1000 600 630 1000 1500 2000 600 630 1000 1500 2000 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000
Cap (pF) 100 101 X X C C C E E E E E E E E
120 121 X X C C C E E E E E E E E
150 151 X X C C C E E E E E E E E
180 181 X X C C C E E E E E E E E
220 221 X X C C C E E E E E E E E
270 271 X X C C C E E E E E E E E E E E E E
330 331 X X C C C E E E E E E E E E E E E E E F E E E E E
390 391 X X C C C E E E E E E E E E E E E E E F E E E E E
470 471 X X C C C E E E E E E E E E E E E E E F E E E E E E E
560 561 X X C C C E E E E E E E E E E E E E F F E E E E E E E
680 681 X X C C C E E E E E E E E E E E E E F F E E E E E F F
750 751 X X C C C E E E E E E E E E E E E E F F E E E E E F F
820 821 X X C C C E E E E E E E E E E E E E F F E E E E E F F
1000 102 X X X C C E E E E E E E E E E E E E F F E E E E E F F
1200 122 X X X C C E E E E E E E E E E E E E F F F F F F F F F
1500 152 X X X C C E E E E E E E E E E E E E F F F F F F F G G
1800 182 X X X C C E E E E E E E E E E E E E F F F F F F F G G
2200 222 X X X C C E E E E E E F E E E E F F F F F F F F G G
2700 272 C C C C E E E E E F E E E E F F F F F F F G G
3300 332 C C C C E E E E F E E E E F F F F F F F G G
3900 392 C C C C E E E E F E E E F F F F F F G G
4700 472 C C C C E E E E F E E E F F F F F F G G
5600 562 C C C C E E E E F E E E F F F F G G G
6800 682 C C C C E E E E E E E F F F F G G
8200 822 C C C C E E E E E E E F F F G G
Cap (μF) 0.010 103 C C C C E E E E E E E F F F G G
0.015 153 C C E E E E E E F F F F F F G
0.018 183 C C E E E E E F F F F F G
0.022 223 C C E E E E F F F F F G
0.027 273 E E E E F F F F G
0.033 333 E E E E F F F F G
0.039 393 E E F F F F G
0.047 473 E E F F F F G
0.056 563 F F F F F F
0.068 683 F F F F F F
0.082 823 F F F F
0.100 104 F F F F
0.150 154 G G
0.220 224 G G
0.270 274
0.330 334
0.390 394
0.470 474
0.560 564
0.680 684
0.820 824
1.000 105
Voltage (V) 600 630 1000 600 630 1000 1500 2000 600 630 1000 1500 2000 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000
 0805 1206 1210 1808 1812
Letter AC E F G X 7
Max.
Thickness
0.813
(0.032)
1.448
(0.057)
1.8034
(0.071)
2.2098
(0.087)
2.794
(0.110)
0.940
(0.037)
3.30
(0.130)
NOTE: Contact factory for non-specified capacitance values
X7R Dielectric
Performance Characteristics
Capacitance Range 10 pF to 0.82 µF (25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances ±10%; ±20%; +80%, -20%
Dissipation Factor 2.5% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic ±15% (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - µF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - µF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
X7R CAPACITANCE RANGE PREFERRED SIZES ARE SHADED
091620
”M A man (snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
120
High Voltage MLC Chips – For 600V to 5000V Applications
MLC Chip Capacitors
 1825 2220 2225 3640
Soldering Reflow Only Reflow Only Reflow Only Reflow Only
(L) Length mm 4.60 ± 0.50 5.70 ± 0.50 5.70 ± 0.50 9.14 ± 0.25
(in.) (0.181 ± 0.020) (0.224 ± 0.020) (0.225 ± 0.010) (0.360 ± 0.010)
W) Width mm 6.30 ± 0.40 5.00 ± 0.40 6.30 ± 0.40 10.2 ± 0.25
(in.) (0.248 ± 0.016) (0.197 ± 0.016) (0.250 ± 0.010) (0.400 ± 0.010)
(T)
Thickness
mm 3.40 3.40 3.40 2.54
(in.) (0.134) (0.134) (0.100) (0.100)
(t) Terminal mm 0.75 ± 0.35 0.85 ± 0.35 0.85 ± 0.35 0.76 (0.030)
max (0.030 ± 0.014) (0.033 ± 0.014) (0.033 ± 0.014) 1.52 (0.060)
Voltage (V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
Cap (pF) 100 101
120 121
150 151
180 181
220 221
270 271
330 331
390 391
470 471
560 561
680 681
750 751
820 821
1000 102 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
1200 122 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
1500 152 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
1800 182 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
2200 222 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
2700 272 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
3300 332 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G G
3900 392 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G
4700 472 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G
5600 562 F F F F F F F F F F F F F G F F F F F F F G G G G G G G G
6800 682 F F F G G G G F F F F F G G F F F F F G G G G G G G G G G
8200 822 F F F G G G G F F F G G G G F F F F F G G G G G G G G G
Cap (μF) 0.010 103 F F F G G G G F F F G G G G F F F F F G G G G G G G G G
0.015 153 F F F G G G F F F G G G F F F G G G G G G G G G G G
0.018 183 F F F G G F F F G G G F F F G G G G G G G G G G
0.022 223 F F F G G F F F G G F F F G G G G G G G G G
0.027 273 F F F G F F F G G F F F G G G G G G G
0.033 333 F F F G F F F G F F F G G G G G G
0.039 393 F F F G F F F G F F F G G G G G
0.047 473 F F F P F F F G F F F G G G G G
0.056 563 F F F G F F F G F F F G G G G G
0.068 683 F F G F F G F F F G G G G G
0.082 823 F F G F F G F F G G G
0.100 104 F F G F F G F F G G G
0.150 154 F F F F G F F G G G
0.220 224 F F F F G F F G G
0.270 274 F F F F F F G G
0.330 334 F F F F F F G G
0.390 394 F F F F F F G G
0.470 474 F F F F F F G G
0.560 564 G G G G F F G G
0.680 684 G G G G
0.820 824 G G
1.000 105
Voltage (V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
 1825 2220 2225 3640
X7R CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
Letter AC E F G X 7
Max.
Thickness
0.813
(0.032)
1.448
(0.057)
1.8034
(0.071)
2.2098
(0.087)
2.794
(0.110)
0.940
(0.037)
3.30
(0.130)
NOTE: Contact factory for non-specified capacitance values
101317
/.‘.\V/)I(” A Kvmsm cam» 00W Not RoHS Compliant lm-‘MLC |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 121
AVX Corporation will support those customers for commercial and military Multilayer
Ceramic Capacitors with a termination consisting of 5% minimum lead. This termination
is indicated by the use of a “B” in the 12th position of the AVX Catalog Part Number. This
fulfills AVX’s commitment to providing a full range of products to our customers. AVX
has provided in the following pages, a full range of values that we are offering in this “B”
termination.
Larger physical sizes than normally encountered chips are used to make high voltage
MLC chip product. Special precautions must be taken in applying these chips in surface
mount assemblies. The temperature gradient during heating or cooling cycles should
not exceed 4ºC per second. The preheat temperature must be within 50ºC of the peak
temperature reached by the ceramic bodies through the soldering process. Chip sizes
1210 and larger should be reflow soldered only. Capacitors may require protective surface
coating to prevent external arcing.
For 1825, 2225 and 3640 sizes, AVX offers leaded version in either thru-hole or SMT
configurations (for details see section on high voltage leaded MLC chips).
NEW 630V RANGE
HOW TO ORDER
1808 A A A 1 AB271 K
AVX
Style
LD05 - 0805
LD06 - 1206
LD10 - 1210
LD08 - 1808
LD12 - 1812
LD13 - 1825
LD20 - 2220
LD14 - 2225
LD40 - 3640
***
Voltage
600V/630V = C
1000V = A
1500V = S
2000V = G
2500V = W
3000V = H
4000V = J
5000V = K
Temperature
Coefficient
C0G = A
X7R = C
Test
Level
A = Standard
Packaging
2 = 7” Reel**
4 = 13” Reel
Special Code
A = Standard
Termination*
B = 5% Min Pb
X = FLEXITERM®
with 5% min.
Pb*
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1 μF =105
Capacitance
Tolerance
C0G:J = ±5%
K = ±10%
M = ±20%
X7R:K = ±10%
M = ±20%
Z = +80%, -20%
Notes: Capacitors with X7R dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
Contact factory for availability of Termination and Tolerance options for Specific Part Numbers.
* FLEXITERM is not available in the LD40 Style
** The LD40 Style is not available on 7” Reels.
*** AVX offers nonstandard chip sizes. Contact factory for details.
DIMENSIONS millimeters (inches)
SIZE LD05 (0805) LD06 (1206) LD10* (1210) LD08* (1808) LD12* (1812) LD13* (1825) LD20* (2220) LD14* (2225) LD40* (3640)
(L) Length 2.10 ± 0.20
(0.083 ± 0.008)
3.30 ± 0.30
(0.130 ± 0.012)
3.30 ± 0.40
(0.130 ± 0.016)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
9.14 ± 0.25
(0.360 ± 0.010)
(W) Width 1.25 ± 0.20
(0.049 ±0.008)
1.60+0.30
-0.10
(0.063+0.012
-0.004 )
2.50 ± 0.30
(0.098 ± 0.012)
2.00 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.30
(0.126 ± 0.012)
6.30 ± 0.40
(0.248 ± 0.016)
5.00 ± 0.40
(0.197 ± 0.016)
6.30 ± 0.40
(0.248 ± 0.016)
10.2 ± 0.25
(0.400 ± 0.010)
(T) Thickness
Max.
1.35
(0.053)
1.80
(0.071)
2.80
(0.110)
2.20
(0.087)
2.80
(0.110)
3.40
(0.134)
3.40
(0.134)
3.40
(0.134)
2.54
(0.100)
(t) terminal min.
max.
0.50 ± 0.20
(0.020 ± 0.008)
0.60 ± 0.20
(0.024 ± 0.008)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014)
0.76 (0.030)
1.52 (0.060)
*Reflow Soldering Only
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
Not RoHS Compliant
011419

MLC Chip Capacitors
y a /‘\'/) ( n A A mam ems comm [AMI |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
122
C0G Dielectric
Performance Characteristics
X7R Dielectric
Performance Characteristics
Capacitance Range 10 pF to 0.047 μF
(25°C, 1.0 ±0.2 Vrms at 1kHz, for ≤ 1000 pF use 1 MHz)
Capacitance Tolerances ±5%, ±10%, ±20%
Dissipation Factor 0.1% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz, for ≤ 1000 pF use 1 MHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic 0 ±30 ppmC (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
Capacitance Range 10 pF to 0.56 μF (25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances ±10%; ±20%; +80%, -20%
Dissipation Factor 2.5% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic ±15% (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
HIGH VOLTAGE C0G CAPACITANCE VALUES
HIGH VOLTAGE X7R MAXIMUM CAPACITANCE VALUES
VOLTAGE LD05 (0805) LD06 (1206) LD10 (1210) LD08 (1808) LD12 (1812) LD13 (1825) LD20 (2220) LD14 (2225) LD40 (3640)
600/630 min.
max.
10pF
330pF
10 pF
1200 pF
100 pF
2700 pF
100 pF
3300 pF
100 pF
5600 pF
1000 pF
0.012 μF
1000 pF
0.012 μF
1000 pF
0.018 μF
1000 pF
0.047 μF
1000 min.
max.
10pF
180pF
10 pF
560 pF
10 pF
1500 pF
100 pF
2200 pF
100 pF
3300 pF
100 pF
8200 pF
1000 pF
0.010 μF
1000 pF
0.010 μF
1000 pF
0.022 μF
1500 min.
max.
10 pF
270 pF
10 pF
680 pF
10 pF
820 pF
10 pF
1800 pF
100 pF
4700 pF
100 pF
4700 pF
100 pF
5600 pF
100 pF
0.010 μF
2000 min.
max.
10 pF
120 pF
10 pF
270 pF
10 pF
330 pF
10 pF
1000 pF
100 pF
1800 pF
100 pF
2200 pF
100 pF
2700 pF
100 pF
6800 pF
2500 min.
max.
10 pF
180 pF
10 pF
470 pF
10 pF
1200 pF
100 pF
1500 pF
100 pF
1800 pF
100 pF
3900 pF
3000 min.
max.
10 pF
120 pF
10 pF
330 pF
10 pF
820 pF
10 pF
1000 pF
10 pF
1200 pF
100 pF
2700 pF
4000 min.
max.
10 pF
47 pF
10 pF
150 pF
10 pF
330 pF
10 pF
470 pF
10 pF
560 pF
100 pF
1200 pF
5000 min.
max.
10 pF
220 pF
10 pF
270 pF
10 pF
820 pF
VOLTAGE 0805 1206 1210 1808 1812 1825 2220 2225 3640
600/630 min.
max.
100pF
6800pF
1000 pF
0.022 μF
1000 pF
0.056 μF
1000 pF
0.068 μF
1000 pF
0.120 μF
0.010 μF
0.270 μF
0.010 μF
0.270 μF
0.010 μF
0.330 μF
0.010 μF
0.560 μF
1000 min.
max.
100pF
1500pF
100 pF
6800 pF
1000 pF
0.015 μF
1000 pF
0.018 μF
1000 pF
0.039 μF
1000 pF
0.100 μF
1000 pF
0.120 μF
1000 pF
0.150 μF
0.010 μF
0.220 μF
1500 min.
max.
100 pF
2700 pF
100 pF
5600 pF
100 pF
6800 pF
100 pF
0.015 μF
1000 pF
0.056 μF
1000 pF
0.056 μF
1000 pF
0.068 μF
1000 pF
0.100 μF
2000 min.
max.
10 pF
1500 pF
100 pF
3300 pF
100 pF
3300 pF
100 pF
8200 pF
100 pF
0.022 μF
1000 pF
0.027 μF
1000 pF
0.033 μF
1000 pF
0.027 μF
2500 min.
max.
10 pF
2200 pF
10 pF
5600 pF
100 pF
0.015 μF
100 pF
0.018 μF
100 pF
0.022 μF
1000 pF
0.022 μF
3000 min.
max.
10 pF
1800 pF
10 pF
3900 pF
100 pF
0.010 μF
100 pF
0.012 μF
100 pF
0.015 μF
1000 pF
0.018 μF
4000 min.
max.
100 pF
6800 pF
5000 min.
max.
100 pF
3300 pF
090518

MLC Chip Capacitors
/.‘.\V/)I(” A Kvmsm cam» 00W DIMENSIONS f 1M)!" |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 123
High value, low leakage and small size are difficult parameters to obtain in capacitors for high
voltage systems. AVX special high voltage MLC chips capacitors meet these performance
characteristics and are designed for applications such as snubbers in high frequency power
converters, resonators in SMPS, and high voltage coupling/DC blocking. These high voltage
chip designs exhibit low ESRs at high frequencies.
To make high voltage chips, larger physical sizes than are normally encountered are
necessary. These larger sizes require that special precautions be taken in applying these
chips in surface mount assemblies. In response to this, and to follow from the success of
the FLEXITERM® range of low voltage parts, AVX is delighted to offer a FLEXITERM® high
voltage range of capacitors, FLEXITERM®.
The FLEXITERM® layer is designed to enhance the mechanical flexure and temperature
cycling performance of a standard ceramic capacitor, giving customers a solution where
board flexure or temperature cycle damage are concerns.
HOW TO ORDER
1808 A C A 1 AZ272 K
AVX
Style
0805
1206
1210
1808
1812
1825
2220
2225
***
Voltage
600V/630V = C
1000V = A
1500V = S
2000V = G
2500V = W
3000V = H
4000V = J
5000V = K
Temperature
Coefficient
C0G = A
X7R = C
Test Level Packaging
2 = 7” Reel**
4 = 13” Reel
Special
Code
A = Standard
Termination*
Z = FLEXITERM®
100% Tin
(RoHS Compliant)
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1 μF =105
Capacitance
Tolerance
C0G:J = ±5%
K = ±10%
M = ±20%
X7R:K = ±10%
M = ±20%
Z = +80%,
-20%
Notes: Capacitors with X7R dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations. Contact
factory for availability of Termination and Tolerance options for Specific Part Numbers.
*** AVX offers nonstandard chip sizes. Contact factory for details.
DIMENSIONS millimeters (inches)
SIZE 0805 1206 1210* 1808* 1812* 1825* 2220* 2225*
(L) Length 2.10 ± 0.20
(0.083 ± 0.008)
3.30 ± 0.30
(0.130 ± 0.012)
3.30 ± 0.40
(0.130 ± 0.016)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
(W) Width 1.25 ± 0.20
(0.049 ±0.008)
1.60 +0.30
-0.10
(0.063 +0.012
-0.004 )
2.50 ± 0.30
(0.098 ± 0.012)
2.00 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.30
(0.126 ± 0.012)
6.30 ± 0.40
(0.248 ± 0.016)
5.00 ± 0.40
(0.197 ± 0.016)
6.30 ± 0.40
(0.248 ± 0.016)
(T) Thickness Max. 1.35
(0.053)
1.80
(0.071)
2.80
(0.110)
2.20
(0.087)
2.80
(0.110)
3.40
(0.13 4)
3.40
(0.13 4)
3.40
(0.13 4)
(t) terminal min.
max.
0.50 ± 0.20
(0.020 ± 0.008)
0.60 ± 0.20
(0.024 ± 0.008)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014)
*Reflow Soldering Only
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
011419
High Voltage MLC Chips FLEXITERM®
MLC Chip Capacitors
Q A H A worm emu; chPAM
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
124
NP0 (C0G) Dielectric
Performance Characteristics
Capacitance Range 10 pF to 0.100 μF (+25°C, 1.0 ±0.2 Vrms, 1kHz)
Capacitance Tolerances ±5%, ±10%, ±20%
Dissipation Factor 0.1% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz)
Operating Temperature Range -5C to +12C
Temperature Characteristic 0 ±30 ppm/°C (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
NP0 (C0G) CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
Case Size 0805 1206 1210 1808 1812
Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length
mm
(in.)
2.10 ± 0.20
(0.083 ± 0.008)
3.30 ± 0.30
(0.130 ± 0.012)
3.30 ± 0.40
(0.130 ± 0.016)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
(W) Width
mm
(in.)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 +0.30/-0.10
(0.063 +0.012/-0.004)
2.50 ± 0.30
(0.098 ± 0.012)
2.00 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.30
(0.126 ± 0.012)
(T) Thickness
mm
(in.)
1.35
(0.053)
1.80
(0.071)
2.80
(0.110)
2.20
(0.087)
2.80
(0.110)
(t) Terminal
mm
(in.)
0.50 ± 0.20
(0.020 ± 0.008)
0.60 ± 0.20
(0.024 ± 0.008)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
Voltage(V) 600 630 1000 600 630 1000 150 0 2000 600 630 1000 150 0 2000 600 630 1000 150 0 2000 2500 3000 4000 600 630 1000 150 0 2000 2500 3000 4000
Cap (pF) 1.5 1R5 A A X X X X X
1.8 1R8 A A X X X X X
2.2 2R2 A A X X X X X
2.7 2R7 A A X X X X X C C C C C
3.3 3R3 A A X X X X X C C C C C
3.9 3R9 A A X X X X X C C C C C
4.7 4R7 A A X X X X X C C C C C
5.6 5R6 A A X X X X X C C C C C
6.8 6R8 A A X X X X X C C C C C
8.2 8R2 A A X X X X X C C C C C
10 100 A A A X X X X X C C D D D C C C C C C C C C C C C C C C E
12 120 A A A X X X X X C C D D D C C C C C C C C C C C C C C C E
15 15 0 A A A X X X X X C C D D D C C C C C C C C C C C C C C C E
18 18 0 A A A X X X X X C C D D D C C C C C C C C C C C C C C C E
22 220 A A A X X X X X C C D D D C C C C C C C C C C C C C C C E
27 270 A A A X X X X X C C D D D C C C C C C C C C C C C C C C E
33 330 A A A X X X D D C C D D D C C C C C C C C C C C C C C C E
39 390 A A A X X X D D C C D D D C C C C C C C C C C C C C C C E
47 470 A A A X X M D D C C D D D C C C C C C C C C C C C C C C E
56 560 A A A X X M C C C C D C C C C C C C C C C C C C C C C F
68 680 A A A X X M C C C C D C C C C C C C C C C C C C C C C F
82 820 X X X X X C C C C C D C C C C C C C C C C C C C C C C F
100 101 X X X X X C C C C C C C C C C C C C F F C C C C C C C F
120 121 C C C X X C E E C C C C C C C C C C F F C C C C C C C G
150 151 C C C X X C E E C C C E E C C C F F F F C C C C C C C G
180 181 C C C X X E E E C C E E E C C C F F F F C C C C C F F
220 221 C C X X E E E C C E E E C C C F F F F C C C C C F F
270 271 C C C C E E E C C E E E C C C F F F F C C C C C F F
330 331 C C C C E E E C C E E E C C F F F F F C C C F F F F
390 391 C C C C E E E C C E E E C C F F F F F C C C F F F F
470 471 C C C C E E E C C E E E C C F F F F F C C FFFFF
560 561 C C C C E C C E E E C C FFF C C FFFFF
680 681 C C C C E C C E F F C C FFF C C FFFG G
750 751 C C E E E C C E G G C C FFF C C FFFG G
820 821 C C E E E C C E G G C C FE E C C FFFG G
1000 102 E E E C C E C C FE E C C FFFG G
120 0 122 E E C C E E E FE E C C FE E
1500 15 2 E E C C G E E FC C FFF
1800 182 E E C C G E E FC C FFF
2200 222 E E E E E E C C E G G
2700 272 E E E E E E C C E G G
3300 332 E E E E E E C C F
3900 392 E E E E C C F
4700 472 E E E E C C G
5600 562 E E E E C C
6800 682 F F C C
8200 822 E E
Cap (μF)
0.010 103 E E
0.012 123 F F
0.015 15 3 G G
0.018 183 G G
0.022 223
0.033 333
0.047 473
0.056 563
0.068 683
0.100 104
Voltage(V) 600 630 1000 600 630 1000 150 0 2000 600 630 1000 150 0 2000 600 630 1000 150 0 2000 2500 3000 4000 600 630 1000 150 0 2000 2500 3000 4000
CaseSize 0805 1206 1210 1808 1812
090518
High Voltage MLC Chips FLEXITERM®
MLC Chip Capacitors
”A! A mum (snow 0
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 125
Letter AC E F G X
Max.
Thickness
0.813 1.448 1.8034 2.2098 2.794 0.940
(0.032) (0.057) (0.071) (0.087) (0.110) (0.037)
NOTE: Contact factory for non-specified capacitance values
NP0 (C0G) CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
Case Size 1825 2220 2225
Soldering Reflow Only Reflow Only Reflow Only
(L) Length
mm
(in.)
4.60 ± 0.50
(0.181 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
5.72 ± 0.25
(0.225 ± 0.010)
(W) Width
mm
(in.)
6.30 ± 0.40
(0.248 ± 0.016)
5.00 ± 0.40
(0.197 ± 0.016)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness
mm
(in.)
3.40
(0.134)
3.40
(0.134)
2.54
(0.100)
(t) Terminal
mm
(in.)
0.75 ± 0.35
(0.030 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014) 0.85 ± 0.35
Voltage(V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
C
ap (pF)
1.5 1R5
1.8 1R8
2.2 2R2
2.7 2R7
3.3 3R3
3.9 3R9
4.7 4R7
5.6 5R6
6.8 6R8
8.2 8R2
10 100 E E E E E E E E E E E E E E E E E E E E E E E E F F
12 120 E E E E E E E E E E E E E E E E E E E E E E E E F F
15 150 E E E E E E E E E E E E E E E E E E E E E E E E F F
18 180 E E E E E E E E E E E E E E E E E E E E E E E E F F
22 220 E E E E E E E E E E E E E E E E E E E E E E E E F F
27 270 E E E E E E E E E E E E E E E E E E E E E E E E F F
33 330 E E E E E E E E E E E E E E E E E E E E E E E E F F
39 390 E E E E E E E E E E E E E E E E E E E E E E E E F F
47 470 EEEEEEEFE E E E E E E E E E E E E E E E FG
56 560 EEEEEEEFE E E E E E E E E E E E E E E E FG
68 680 EEEEEEEFE E E E E E E E E E E E E E E E FG
82 820 EEEEEEEFE E E E E E E E E E E E E E E E FG
100 101 EEEEEEEFE E E E E E E E E E E E E E E E G G
120 121 EEEEEEEFE E E E E E E E E E E E E E E E G G
150 151 EEEEEEEFE E E E E E E E E E E E E E E E G G
180 181 EEEEEEEFEEEEEEEF F EEEEEEEGG
220 221 EEEEEEEFEEEEEEEF F EEEEEEEGG
270 271 EEEEEEEFE E E E E E E E E E E E E E G G
330 331 EEEEEEEFE E E E E E E E E E E E E E G
390 391 E E E E E E E E E E E E E E E E E E E E E G
470 471 E E E E E E E E E E E E E E E E E E E E E G
560 561 E E E E E E E E E E E E E E E E E E E E E G
680 681 EEEEEF F EEEEEF F EEEEEEE
750 751 EEEEEF F EEEEEF F EEEEEEE
820 821 EEEEEF F EEEEEF F EEEEEFE
1000 102 EEEEEF F EEEEEF F EEEEEEE
1200 122 E E E E E G G E E E E E G G E EEEEF F
1500 152 EEEF F G G E E E F F G G E E E E E F F
1800 182 EEEF F G G E E E F F G G E E E E E G G
2200 222 E E E G G E E E G G E E E E E
2700 272 E E E G G E E E G G E E E F F
3300 332 E E E G G E E E G G E E E F F
3900 392 E E E G G E E E G G E E E G G
4700 472 E E E G G E E E G G F F F G G
5600 562 FFFG G F F F G G F F F G G
6800 682 F F F F F F F F F G G
8200 822 G G G G G G G G G
Cap (μF) 0.010 103 G G G
0.012 123 G G G
0.015 153 G G G
0.018 183 G G G
0.022 223 G G G
0.033 333 G G G
0.047 473 G G G
0.056 563 G G G
0.068 683 G G G
0.100 104 G G G
Voltage(V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
CaseSize 1825 2220 2225
011419
High Voltage MLC Chips FLEXITERM®
MLC Chip Capacitors
”M A man (snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
126
X7R Dielectric
Performance Characteristics
Capacitance Range 10 pF to 0.82 μF (25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances ±10%; ±20%; +80%, -20%
Dissipation Factor 2.5% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic ±15% (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
X7R CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
Case Size 0805 1206 1210 1808 1812
Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only
(L) Length mm
(in.)
2.10 ± 0.20
(0.083 ± 0.008)
3.30 ± 0.30
(0.130 ± 0.012)
3.30 ± 0.40
(0.130 ± 0.016)
4.60 ± 0.50
(0.181 ± 0.020)
4.60 ± 0.50
(0.181 ± 0.020)
(W) Width mm
(in.)
1.25 ± 0.20
(0.049 ± 0.008)
1.60 +0.30/-0.10
(0.063 +0.012/-0.004)
2.50 ± 0.30
(0.098 ± 0.012)
2.00 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.30
(0.126 ± 0.012)
(T) Thickness mm
(in.)
1.35
(0.053)
1.80
(0.071)
2.80
(0.110)
2.20
(0.087)
2.80
(0.110)
(t) Terminal min
max
0.50 ± 0.20
(0.020 ± 0.008)
0.60 ± 0.20
(0.024 ± 0.008)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
0.75 ± 0.35
(0.030 ± 0.014)
Voltage(V) 600 630 1000 600 630 1000 1500 2000 600 630 1000 1500 2000 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000
Cap (pF) 100 101 X X C C C E E E E E E E E
120 121 X X C C C E E E E E E E E
150 151 X X C C C E E E E E E E E
180 181 X X C C C E E E E E E E E
220 221 X X C C C E E E E E E E E
270 271 X X C C C E E E E E E E E E E E E E
330 331 X X C C C E E E E E E E E E E E E E E FE E E E E
390 391 X X C C C E E E E E E E E E E E E E E FE E E E E
470 471 X X C C C E E E E E E E E E E E E E E FE E E E E E E
560 561 X X C C C E E E E E E E E E E E E E F F E E E E E E E
680 681 X X C C C E E E E E E E E E E E E E F F E E E E E F F
750 751 X X C C C E E E E E E E E E E E E E F F E E E E E F F
820 821 X X C C C E E E E E E E E E E E E E F F E E E E E F F
1000 102 X X C C C E E E E E E E E E E E E E F F E E E E E F F
1200 122 X X C C C E E E E E E E E E E E E E F F E E E E E F F
1500 152 X X C C C E E E E E E E E E E E E E F F E E E E E G G
1800 182 X X C C E E E E E E E E E E E E E F F E E E E E G G
2200 222 X X C C E E E E E E FE E E E F F F E E E E E G G
2700 272 X X C C E E E E E FE E E E F F E E E E E G G
3300 332 X X C C E E E E FE E E E F F E E E F F G G
3900 392 X X C C E E E E G E E E FE E E F F G G
4700 472 X X C C E E E E G E E E FE E E F F G G
5600 562 X X C C E E E E G E E E FE E E G G
6800 682 X X C C E E E E E E E FE E E G G
8200 822 X X C C E E E E E E E E E E G G
Cap (μF) 0.010 103 C C C C E E E E E E E E E FG G
0.015 153 C C E E E E E E F F F E E FG
0.018 183 C C E E E E E F F F E E G
0.022 223 C C E E E E E F F E E G
0.027 273 E E E E F F E E G
0.033 333 E E E E F F E E G
0.039 393 E E F F E E G
0.047 473 E E F F E E G
0.056 563 F F F F F F
0.068 683 F F F F F F
0.082 823 F F F F
0.100 104 F F F F
0.150 154 G G
0.220 224 G G
0.270 274
0.330 334
0.390 394
0.470 474
0.560 564
0.680 684
0.820 824
1.000 105
Voltage(V) 600 630 1000 600 630 1000 1500 2000 600 630 1000 1500 2000 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000
CaseSize 0805 1206 1210 1808 1812
090518
High Voltage MLC Chips FLEXITERM®
MLC Chip Capacitors
”/25: A mm»: (snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 127
Letter AC E F G P X
Max.
Thickness
0.813 1.448 1.8034 2.2098 2.794 3.048 0.940
(0.032) (0.057) (0.071) (0.087) (0.110) (0.120) (0.037)
NOTE: Contact factory for non-specified capacitance values
X7R CAPACITANCE RANGE
PREFERRED SIZES ARE SHADED
Case Size 1825 2220 2225
Soldering Reflow Only Reflow Only Reflow Only
(L) Length mm
(in.)
4.60 ± 0.50
(0.181 ± 0.020)
5.70 ± 0.50
(0.224 ± 0.020)
5.72 ± 0.25
(0.225 ± 0.010)
(W) Width mm
(in.)
6.30 ± 0.40
(0.248 ± 0.016)
5.00 ± 0.40
(0.197 ± 0.016)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness mm
(in.)
3.40
(0.134)
3.40
(0.134)
2.54
(0.100)
(t) Terminal min
max
0.75 ± 0.35
(0.030 ± 0.014)
0.85 ± 0.35
(0.033 ± 0.014) 0.85 ± 0.35
Voltage(V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
C
ap (pF)
100 101
120 121
150 151
180 181
220 221
270 271
330 331
390 391
470 471
560 561
680 681
750 751
820 821
1000 102 F F F F F F F F F F F F F GFFFFFFF
1200 122 F F F F F F F F F F F F F GFFFFFFF
1500 152 F F F F F F F F F F F F F GFFFFFFF
1800 182 F F F F F F F F F F F F F GFFFFFFF
2200 222 F F F F F F F F F F F F F GFFFFFFF
2700 272 F F F F F F F F F F F F F GFFFFFFF
3300 332 F F F F F F F F F F F F F GFFFFFFF
3900 392 F F F F F F F F F F F F F GFFFFFFF
4700 472 F F F F F F F F F F F F F GFFFFFFF
5600 562 F F F F F F F F F F F F F GFFFFFFF
6800 682 F F F GGGG FFFFFG G FFFFFG G
8200 822 F F F GGGG F F F GGGG FFFFFG G
Cap (μF)
0.010 103 F F F GGGG F F F GGGG FFFFFG G
0.015 153 F F F GG G F F F GGG F F F GGGG
0.018 183 F F F G G F F F GGG F F F GGG
0.022 223 F F F G G F F F G G F F F GGG
0.027 273 F F F GF F F G G F F F G G
0.033 333 F F F GF F F GF F F G G
0.039 393 F F F GF F F GF F F G
0.047 473 F F F PF F F GF F F G
0.056 563 F F F GF F F GF F F G
0.068 683 F F GF F GF F F G
0.082 823 F F GF F GF F G
0.100 104 F F GF F GF F G
0.150 154 F F F F GF F G
0.220 224 F F F F GF F
0.270 274 F F F F F F
0.330 334 F F F F F F
0.390 394 F F F F F F
0.470 474 F F F F F F
0.560 564 G G G G F F
0.680 684 G G G G
0.820 824 G G
1.000 105
Voltage(V) 600 630 1000 1500 2000 2500 3000 4000 600 630 1000 1500 2000 2500 3000 4000 5000 600 630 1000 1500 2000 2500 3000 4000 5000
CaseSize 1825 2220 2225
011419
High Voltage MLC Chips FLEXITERM®
MLC Chip Capacitors
(8 PAW V A /‘\'/) fl Nol RoHS campliant DIMENSIONS /e‘s,\Y/.21( |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
128
HOW TO ORDER
1825
AVX
Style
1825
2225
3640
A
Voltage
600V/630V = C
1000V = A
1500V = S
2000V = G
2500V = W
3000V = H
4000V = J
5000V = K
A
Temperature
fi
C0G = A
X7R = C
A
Test Level
A = Standard
00N
Lead Style
00N = Straight Lead
00J = Leads Formed In
00L = Leads Formed Out
V
Finish
V = Uncoated
W = Epoxy Coated
271
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
10 pF = 100
100 pF = 101
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
K
Capacitance
Tolerance
C0G:J = ±5%
K = ±10%
M = ±20%
X7R:K = ±10%
M = ±20%
Z = +80%,
-20%
Notes: Capacitors with X7R dielectrics are not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
Capacitors may require protective surface coating to prevent external arcing.
DIMENSIONS millimeters (inches)
Performance of SMPS capacitors can be simulated by downloading SpiCalci software program -
http://www.avx.com/download/software/SpiCalci-AVX.zip
Custom values, ratings and configurations are also available.
Not RoHS Compliant
D
A
B
6.35
(0.250) MIN.
0.508 (0.020) TYP.
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010) E
C
0.254 (0.010) TYP.
D
A
B
0.508 (0.020) TYP.
2.54 (0.100) TYP.
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010) E
C
0.254 (0.010) TYP.
0.254 (0.010) RAD. (TYP.)
1.778 (0.070)
1.905 (0.075)
±0.635 (0.025)
TYP.
±0.254 (0.010)
D
A
B
0.508 (0.020) TY P .
2.54 (0.100) TY P .
2.54 (0.100) MAX.
0.635 (0.025) MIN.
1.397 (0.055)
±0.254 (0.010)
C
0.254 (0.010) TY P .
0.254 (0.010) RAD. (TY P . )
1.905 (0.075)
±0.635 (0.025)
TY P .
1.778 (0.070)
±0.254 (0.010)
E
“N” STYLE
LEADS
“J” STYLE
LEADS
“L” STYLE
LEADS
Style A (max.) B (max.) C ±.635 (±0.025) D ±.635 (±0.025) E (max.) No. of Leads per side
1825
2.54 (0.100) For “N” Style Leads, “B” Dimension = 4.19 (0.165)
For “J” & “L” Leads, “B” Dimension = 4.58 (0.180)
5.08 (0.200) 6.35 (0.250) 6.86 (0.270) 3
2225 6.35 (0.250) 6.35 (0.250) 7.62 (0.300) 3
3640 10.2 (0.400) 10.2 (0.400) 11.2 (0.440) 4
Note: For W (Epoxy Coated) part add 0.127 (0.005) to max. and nominal dimensions A, B, D, & E
090518
High Voltage MLC Leaded Chips
For 600V to 5000V Applications
MLC Chip Capacitors
/A\V/)I(a A wocm emu; commw /A\V/>:<_ |="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 129
C0G Dielectric
Performance Characteristics
X7R Dielectric
Performance Characteristics
Capacitance Range 10 pF to 0.047 μF
(25°C, 1.0 ±0.2 Vrms at 1kHz, for ≤ 1000 pF use 1 MHz)
Capacitance Tolerances ±5%, ±10%, ±20%
Dissipation Factor 0.15% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz, for ≤ 1000 pF use 1 MHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic 0 ±30 ppm/°C (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
Capacitance Range 100 pF to 0.56 μF (25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances ±10%; ±20%; +80%, -20%
Dissipation Factor 2.5% max. (+25°C, 1.0 ±0.2 Vrms, 1kHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic ±15% (0 VDC)
Voltage Ratings 600, 630, 1000, 1500, 2000, 2500, 3000, 4000 & 5000 VDC (+125°C)
Insulation Resistance (+25°C, at 500 VDC) 100K MΩ min. or 1000 MΩ - μF min., whichever is less
Insulation Resistance (+125°C, at 500 VDC) 10K MΩ min. or 100 MΩ - μF min., whichever is less
Dielectric Strength Minimum 120% rated voltage for 5 seconds at 50 mA max. current
HIGH VOLTAGE C0G CAPACITANCE VALUES
HIGH VOLTAGE X7R MAXIMUM CAPACITANCE VALUES
VOLTAGE 1825 2225 3640
600/630 min.
max. 1000 pF
0.012 μF 1000 pF
0.018 μF 1000 pF
0.047 μF
1000 min.
max. 100 pF
8200 pF 1000 pF
0.010 μF 1000 pF
0.022 μF
1500 min.
max. 100 pF
4700 pF 100 pF
5600 pF 100 pF
0.010 μF
2000 min.
max. 100 pF
1800 pF 100 pF
2700 pF 100 pF
6800 pF
2500 min.
max. 10 pF
1200 pF 100 pF
1800 pF 100 pF
3900 pF
3000 min.
max. 10 pF
8200 pF 10 pF
1200 pF 100 pF
2700 pF
4000 min.
max. 10 pF
330 pF 10 pF
560 pF 100 pF
1200 pF
5000 min.
max.
10 pF
270 pF 10 pF
820 pF
VOLTAGE 1825 2225 3640
600/630 min.
max.
0.010 μF
0.270 μF
0.010 μF
0.330 μF
0.010 μF
0.560 μF
1000 min.
max.
1000 pF
0.100 μF
1000 pF
0.150 μF
0.010 μF
0.220 μF
1500 min.
max.
1000 pF
0.056 μF
1000 pF
0.068 μF
1000 pF
0.100 μF
2000 min.
max.
100 pF
0.022 μF
1000 pF
0.033 μF
1000 pF
0.027 μF
2500 min.
max.
100 pF
0.015 μF
100 pF
0.022 μF
1000 pF
0.022 μF
3000 min.
max.
100 pF
0.010 μF
100 pF
0.015 μF
1000 pF
0.018 μF
4000 min.
max.
100 pF
6800 pF
5000 min.
max.
100 pF
3300 pF
011419
High Voltage MLC Leaded Chips
For 600V to 5000V Applications
MLC Chip Capacitors
/.‘.\V/)I(” A Kvoosm mm» mm fé/é‘wy RoHS L IAXILC |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
130
AVX “Tip & Ring” or “ring detector” Multilayer Ceramic Chip
Capacitors are designed as a standard telecom filter to block -48
Volts DC telephone line voltage and pass subscriber’s AC signal
pulse (16 to 25Hz, 70 to 90Vrms). The typical ringing signal is seen
on figure on page 132. The ringer capacitors replace large leaded
film capacitors and are ideal for telecom/modem applications.
Using AVX “Tip & Ring” capacitors not only saves valuable real
estate on the board and reduces the weight of overall product, but
also features standard surface mounting capabilities, so critical to
new and compact designs.
The AVX “Tip & Ring” capacitors are offered in standard EIA
sizes and standard values. They offer excellent high frequency
performance, low ESR and improved temperature performance
over film capacitors.
HOW TO ORDER
1812 P C A 1 A
T
104 K
AVX
Style
0805
1206
1210
1808
1812
1825
2220
2225
Voltage
250 VDC
Telco
Rating
Temperature
fi
X7R
Test
Level
A = Standard
Packaging
1 or 2 = 7” Reel
3 or 4 = 13” Reel
9 = Bulk
Special Code
A = Standard
Termination
T = Plated
Ni and Sn
(RoHS Compliant)
Z = FLEXITERM®
100% Tin
(RoHS Compliant)
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1 μF =105
Capacitance
Tolerance
K = ±10%
M = ±20%
Contact factory for availability of Termination and Tolerance options for Specific Part Numbers.
DIMENSIONS millimeters (inches)
Style 0805 1206 1210* 1808* 1812* 1825* 2220* 2225*
(L) Length 2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.2 ± 0.20
(0.126 ± 0.008)
4.57 ± 0.25
(0.180 ± 0.010)
4.50 ± 0.30
(0.177 ± 0.012)
4.50 ± 0.30
(0.177 ± 0.012)
5.60 ± 0.30
(0.220 ± 0.012)
5.60 ± 0.25
(0.220 ± 0.010)
(W) Width 1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
2.03 ± 0.25
(0.080 ± 0.010)
3.2 ± 0.20
(0.126 ± 0.008)
6.34 ± 0.30
(0.252 ± 0.012)
5.10 ± 0.40
(0.200 ± 0.016)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness . 1.30 max.
(0.051 max.)
1.50 max.
(0.059 max.)
1.78 max.
(0.070 max.)
1.78 max.
(0.070 max.)
2.00 max.
(0.080 max.)
2.00max.
(0.080 max.)
2.00 max.
(0.080 max.)
2.00 max.
(0.080 max.)
(t) terminal 0.50 ± 0.25
(0.020 ± 0.010)
0.50 ± 0.25
(0.020 ± 0.010)
0.50 ± 0.25
(0.020 ± 0.010)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
*Reflow Soldering Only
090518
Tip & Ring Chips
MLC Chip Capacitors
/.‘.\V/)I(” A man (snow comm 250V 0 n-) -4sv -250V -400ms ZOOms/div 1 .65
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 131
 0805 1206 1210 1808 1812 1825 2220 2225
min. 0.0010 0.0010 0.0010 0.010 0.10 0.33 0.47 0.47
max. 0.027 0.082 0.22 0.27 0.47 1.0 1.0 1.2


PERFORMANCE CHARACTERISTICS
Capacitance Range 1000 pF to 1.2 μF (25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances ±10%, ±20%
Dissipation Factor 2.5% max. (25°C, 1.0 ±0.2 Vrms at 1kHz)
Operating Temperature Range -5C to +125°C
Temperature Characteristic X7R ±15% (0 VDC)
Voltage Rating 250 VDC Telco rating
Insulation Resistance 1000 megohm-microfarad min.
Dielectric Strength Minimum 200% rated voltage for 5 seconds at 50 mA max. current
011419
Tip & Ring Chips
MLC Chip Capacitors
y a n A AerszAeRnuPcoMva LIME |
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
132
AVX Corporation will support customers for commercial and military Multilayer Ceramic
Capacitors with a termination consisting of 5% minimum lead. This termination is indicated
by the use of a “B” in the 12th position of the AVX Catalog Part Number. This fulfills AVX’s
commitment to providing a full range of products to our customers. AVX has provided in
the following pages, a full range of values that we are offering in this “B” termination.
AVX “Tip & Ring” or “ring detector” Multilayer Ceramic Chip Capacitors are designed as a
standard telecom filter to block -48 Volts DC telephone line voltage and pass subscriber’s
AC signal pulse (16 to 25Hz, 70 to 90 VRMS). The typical ringing signal is seen on figure
on page 134. The ringer capacitors replace large leaded film capacitors and are ideal
for telecom/modem applications. Using AVX “Tip and Ring” capacitors not only saves
valuable real estate on the board and reduces the weight of the overall product, but also
features standard surface mounting capabilities, so critical to new and compact designs.
The AVX “Tip & Ring” capacitors are offered in standard EIA sizes and standard values.
They offer excellent high frequency performance, low ESR and improved temperature
performance over film capacitors.
HOW TO ORDER
1812 P C A 1 A
B
104 K
AVX
Style
LD05 - 0805
LD06 - 1206
LD10 - 1210
LD08 - 1808
LD12 - 1812
LD13 - 1825
LD20 - 2220
LD14 - 2225
Voltage
250 VDC
Telco
Rating
Temperature
fi
X7R
Test
Level
A = Standard
Packaging
1 = 7” Reel
3 = 13” Reel
9 = Bulk
Special Code
A = Standard
Termination
B = 5% Min Pb
X = FLEXITERM®
5% min. Pb
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
1,000 pF = 102
22,000 pF = 223
220,000 pF = 224
1 μF =105
Capacitance
Tolerance
K = ±10%
M = ±20%
Contact factory for availability of Termination and Tolerance options for Specific Part Numbers.
DIMENSIONS millimeters (inches)
STYLE (SIZE) LD05 (0805) LD06 (1206) LD10* (1210) LD08* (1808) LD12* (1812) LD13* (1825) LD20* (2220) LD14* (2225)
(L) Length 2.01 ± 0.20
(0.079 ± 0.008)
3.20 ± 0.20
(0.126 ± 0.008)
3.2 ± 0.20
(0.126 ± 0.008)
4.57 ± 0.25
(0.180 ± 0.010)
4.50 ± 0.30
(0.177 ± 0.012)
4.50 ± 0.30
(0.177 ± 0.012)
5.60 ± 0.30
(0.220 ± 0.012)
5.60 ± 0.25
(0.220 ± 0.010)
(W) Width 1.25 ± 0.20
(0.049 ± 0.008)
1.60 ± 0.20
(0.063 ± 0.008)
2.50 ± 0.20
(0.098 ± 0.008)
2.03 ± 0.25
(0.080 ± 0.010)
3.2 ± 0.20
(0.126 ± 0.008)
6.34 ± 0.30
(0.252 ± 0.012)
5.10 ± 0.40
(0.200 ± 0.016)
6.35 ± 0.25
(0.250 ± 0.010)
(T) Thickness . 1.30 max.
(0.051 max.)
1.50 max.
(0.059 max.)
1.78 max.
(0.070 max.)
1.78 max.
(0.070 max.)
2.00 max.
(0.080 max.)
2.00max
. (0.080 max.)
2.00 max.
(0.080 max.)
2.00 max.
(0.080 max.)
(t) terminal 0.50 ± 0.25
(0.020 ± 0.010)
0.50 ± 0.25
(0.020 ± 0.010)
0.50 ± 0.25
(0.020 ± 0.010)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
0.63 ± 0.38
(0.025 ± 0.015)
*Reflow Soldering Only
Not RoHS Compliant
090518

MLC Chip Capacitors
/.‘.\V/)I(” A mm»: snow cowmv 250V 0 F) 748V *250V r400ms 200ms/div 1.65
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 133
STYLE (SIZE) LD05 (0805) LD06 (1206) LD10 (1210) LD08 (1808) LD12 (1812) LD13 (1825) LD20 (2220) LD14 (2225)
min. 0.0010 0.0010 0.0010 0.010 0.10 0.33 0.47 0.47
max. 0.027 0.082 0.22 0.27 0.47 1.0 1.0 1.2


PERFORMANCE CHARACTERISTICS
Capacitance Range 1000 pF to 1.2 μF (25°C, 1.0 ±0.2 Vrms at 1kHz)
Capacitance Tolerances ±10%, ±20%
Dissipation Factor 2.5% max. (25°C, 1.0 ±0.2 Vrms at 1kHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic X7R ±15% (0 VDC)
Voltage Rating 250 VDC Telco rating
Insulation Resistance 1000 megohm-microfarad min.
Dielectric Strength Minimum 200% rated voltage for 5 seconds at 50 mA max. current
011419

MLC Chip Capacitors
/.‘.\V/)I(” A man snow cowmv 40 (1.575) Mini Access Hole At Slot Location —. (Atbor Hole Dia.) —-H~— We (includes flange distortion at outer edge) ‘— W2 (Measured at Hub) _r N (Hub Dia) A \ ' _ .‘ Nole: Tape with or without components shali pass around radius "R“ _ without damage. Full Radius' W. (Measured at Hub) Tape Slot in Core For Tape Start. ' Drive spokes optional. if used 2.50 (0.098) min. Width, asterisked dimensions apply. 10-0 (0-394) min. DeDth
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
134
TAPE & REEL QUANTITIES
All tape and reel specifications are in compliance with RS481.
4mm 8mm 12mm
Paper or Embossed Carrier 0612, 0508, 0805, 1206, 1210
Embossed Only 0101 1808 1812, 1825, 2220, 2225
Paper Only 0101, 0201, 0306, 0402, 0603
 4,000 1,000, 2,000, 3,000 or 4,000, 10,000, 15,000, 20,000
Contact factory for exact quantity 3,000 500, 1,000
Contact factory for exact quantity
5,000, 10,000, 50,000
Contact factory for exact quantity 10,000 4,000
REEL DIMENSIONS
A Max. B* Min. C D* Min. N Min. W1 W2 Max. W3
4mm 1.80
(7.087)
1.5
(0.059)
13.0±0.5
(0.522±0.020)
20.2
(0.795)
60.0
(2.362)
4.35±0.3
(0.171±0.011)
7.95
(0.312)
8mm
330
(12.992)
1.5
(0.059)
13.0 +0.50
-0.20
(0.512 +0.020
-0.008 )
20.2
(0.795)
50.0
(1.969)
8.40 +1.5
-0.0
(0.331 +0.059
-0.0 )
14.4
(0.567)
7.90 Min.
(0.311)
10.9 Max.
(0.429)
12mm 12.4 +2.0
-0.0
(0.488 +0.079
-0.0 )
18.4
(0.724)
11.9 Min.
(0.469)
15.4 Max.
(0.607)
Metric dimensions will govern.
English measurements rounded and for reference only.
(1) For tape sizes 16mm and 24mm (used with chip size 3640) consult EIA RS-481 latest revision.
090518
Packaging – Automatic Insertion Packaging
MLC Chip Capacitors
/..\V/)I(” A mm»: snow cowmv DEFORMAWON BETWEEN EMsossMENTs , J. l J ”:23? , J _. «K0 7 If 1 , I w 7 3‘ 44?“ CENTER L‘NES V P‘ _" 1 D‘ or cAvwv MAX, CAVITY 2 4 $sz - SEE NOTE 1 U By IS FOR TAPE READER REFERENCE ONLY mcwnwe DRAFT DONOENTRIC AROUND En User Dlncflon or F.“ Tap mew, Skmch "F" Component Lateral Movements —-‘ <—u.50mm (0.020)="" 1="" maxwmum="" 203%="" maximum="" compmsnl="" walton="" 0.50mm="" 10.020)="" maximum="" side="" or="" from="" secnonal="" view="" skemn="" “d“="" .\v/)i(‘="" |="" hhi="" 20'="" maximum="" cnmponanl="" mum="" ‘="" typmloampmem="" ‘="" cavnycemenine="" “="" typcull'tmponenl="" i—="" an="" 4="" ""="" ’3'="" top="" vwew="" sketch="" “e'="">
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 135
Chip Orientation
4, 8 & 12mm Embossed Tape
Metric Dimensions Will Govern
CONSTANT DIMENSIONS
VARIABLE DIMENSIONS
 D0E1P0P2S1 Min. T Max. T1 Max.
4mm 0.80±0.04
(0.030.001)
0.90±0.05
(0.035±0.001)
2.0±0.04
(0.078±0.001)
1.00.02
(0.039±0.0007)
1.075
(0.042)
0.26
(0.010)
0.06
(0.002)
8mm
& 12mm
1.25 ± 0.20
(0.049 ± 0.008)
1.75 ± 0.10
(0.069 ± 0.004)
4.0 ± 0.10
(0.157 ± 0.004)
2.0 ± 0.05
(0.079 ± 0.002)
0.60
(0.024)
0.60
(0.024)
0.10
(0.004)
 B1
Max.
D1
Min.
E2
Min. FP1
See Note 5
R
Min.
See Note 2
T2
W
Max. A0 B0 K0
8mm 4.35
(0.171)
1.00
(0.039)
6.25
(0.246)
3.50 ± 0.05
(0.138 ± 0.002)
4.00 ± 0.10
(0.157 ± 0.004)
25.0
(0.984)
2.50 Max.
(0.098)
8.30
(0.327) See Note 1
12mm 8.20
(0.323)
1.50
(0.059)
10.25
(0.404)
5.50 ± 0.05
(0.217 ± 0.002)
4.00 ± 0.10
(0.157 ± 0.004)
30.0
(1.181)
6.50 Max.
(0.256)
12.3
(0.484) See Note 1
8mm 1/2 Pitch 4.35
(0.171)
1.00
(0.039)
6.25
(0.246)
3.50 ± 0.05
(0.138 ± 0.002)
2.00 ± 0.10
(0.079 ± 0.004)
25.0
(0.984)
2.50 Max.
(0.098)
8.30
(0.327) See Note 1
12mm Double
Pitch
8.20
(0.323)
1.50
(0.059)
10.25
(0.404)
5.50 ± 0.05
(0.217 ± 0.002)
8.00 ± 0.10
(0.315 ± 0.004)
30.0
(1.181)
6.50 Max.
(0.256)
12.3
(0.484) See Note 1
NOTES:
1. The cavity defined by A0, B0, and K0 shall be configured to provide the following: Surround the
component with sufficient clearance such that:
a) the component does not protrude beyond the sealing plane of the cover tape.
b) the component can be removed from the cavity in a vertical direction without mechanical
restriction, after the cover tape has been removed.
c) rotation of the component is limited to 20º maximum (see Sketches D & E).
d) lateral movement of the component is restricted to 0.5mm maximum (see Sketch F).
2. Tape with or without components shall pass around radius “R” without damage.
3. Bar code labeling (if required) shall be on the side of the reel opposite the round sprocket holes. Refer
to EIA-556.
4. B1 dimension is a reference dimension for tape feeder clearance only.
5. If P1 = 2.0mm, the tape may not properly index in all tape feeders.
011419
fi
MLC Chip Capacitors
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
136
FEATURES
High Capacitance / EMI Filtering
Bi-Directional Protection
Fast Turn-On Time
Multiple Strike Capability
HMP Solder Termination
1210 EIA Case Size
TARGET APPLICATIONS
Avionics
Military
I/O port protection
EMI filtering with surge protection
GENERAL CHARACTERISTICS
Storage Temperature: -55ºC to +125ºC
Operating Temperature: -55ºC to +125ºC
AVX’s surface mount CapGuard® products are designed to provide both transient voltage protection
and EMI/RFI suppression for electronic circuits. CapGuards® are ideally suited to filter out EMI/RFI
noise generated by switch mode power supplies or motors on DC lines or I/O lines in electronic circuits.
With multilayer varistor (MLV) utilized in CapGuard® product, effective transient voltage protection is
achieved to protect sensitive electronics from high voltage transients. The capacitor, on the other hand,
absorbs high frequency noise on the line. The MLCC capacitors are designed with temperature stable
X7R dielectric, allowing for wide temperature use with good capacitance stability. The surface mount
CapGuards® are characterized with a very small form factor to minimize board space. The parts are
assembled using high melting point solder (268ºC solidus / 290ºC liquidus) allowing for standard reflow
processing during board level assembly without a risk of reflowing HMP solder.
HOW TO ORDER
MV 10 18 J A 1
A
104 M
Product
Designation
MLCC/Varistor
(MLV)
Component
Style
1210
Working
Voltage
18 = 18V
26 = 26V
48 = 48V
60 = 60V
Transient
Energy
Rating
J = 1.5 - 1.6J
H = 1.2
fi
Code
A = Standard
Packaging
T&R
Termination
HMP
Capacitance
Code
(2 significant digits
+ no. of zeros)
Examples:
0.012μF = 123
0.047μF = 473
0.1μF = 104
Tolerance
M = ±20%
PRODUCT OFFERING
Part Number Operating
Voltage (V)
Nominal
Breakdown
Voltage
(V)
Breakdown
Voltage Range
(V)
Clamping
Voltage (V)
Current for
Clamping
Voltage (Amp)
Transient
Energy (J)
Peak Current
(Amp)
Typical
Capacitance
(uF)
MV1018J123MAA1 18 25 23 - 28 42 51.6 500 0.012
MV1018J473MAA1 18 25 23 - 28 42 51.6 500 0.047
MV1018J104MAA1 18 25 23 - 28 42 51.6 500 0.1
MV1026H123MAA1 26 34.5 31 - 38 60 51.2 300 0.012
MV1026H473MAA1 26 34.5 31 - 38 60 51.2 300 0.047
MV1026H104MAA1 26 34.5 31 - 38 60 51.2 300 0.1
MV1048H123MAA1 48 62 55 - 69 100 51.2 250 0.012
MV1048H473MAA1 48 62 55 - 69 100 51.2 250 0.047
MV1048H104MAA1 48 62 55 - 69 100 51.2 250 0.1
MV1060J123MAA1 60 76 68 - 84 120 51.5 250 0.012
MV1060J473MAA1 60 76 68 - 84 120 51.5 250 0.047
MV1060J104MAA1 60 76 68 - 84 120 51.5 250 0.1
Surface Mount CapGuard®
Varistor/Capacitor Combination for EMI/Surge Suppression
101320
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 137
TYPICAL VOLTAGE CURRENT RESPONSE
TYPICAL HIGH FREQUENCY
CHARACTERISTICS
DIMENSIONS
TYPICAL PULSE POWER DURATION
Lenght (L) Width (W) Thickness (T) 
3.302 ± 0.381
(0.130) ± (0.015)
2.540 ± 0.381
(0.100) ± (0.015)
2.794 (0.110)
Max.
0.5 ± 0.25
(0.02) ± (0.01)
millimeters (inches)
Surface Mount CapGuard®
Varistor/Capacitor Combination for EMI/Surge Suppression
101320
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
138
FEATURES
To be used beneath a connector
Provide an EMI filtered signal line between electronic modules
Effective insertion loss from 1MHz up to ~ 1GHz
Surface mount compatible
HOW TO ORDER Not RoHS Compliant
XD F F06 Z K0153
AVX Style
XD
Voltage
F = 200
J = 500
Packaging
SUFFIX
Burn-in 100% 168H = T5
Burn-in 100% 48H = T3 No
burn-in = --

03
06
01
Class
C = NP0
Z = X7R
Tolerance
NP0 F = ±1%
G = ±2%
J = ±5%
K = ±10%
X7R J = ±5%
K = ±10%
M = ±20%
Capacitance
EIA code
on 3 or 4
digits
STYLE & DIMENSIONS
CAPACITANCE VS VOLTAGE TABLE
ELECTRICAL CHARACTERISTICS
millimeters (inches)
TYPES L P D d bm maxi Thickness maxi
XD07
(4 capacitors)
7.00 ± 0.15
(0.275 ± 0.006)
2.54
(0.100)
1.70 ± 0.15
(0.067 ± 0.006)
1.00 ± 0.10
(0.039 ± 0.0039) 0.3 2mm
XD06
(4 capacitors)
6.00 ± 0.15
(0.236± 0.006)
2.54
(0.100)
1.70 ± 0.15
(0.067 ± 0.006)
1.00 ± 0.10
(0.039 ± 0.0039) 0.3 2mm
XD03
(2 capacitors)
6.00 x 3.00 ± 0.15
(0.236 x 0.118 ± 0.006)
2.54
(0.100)
1.70 ± 0.15
(0.067 ± 0.006)
1.0 ± 0.10
(0.039 ± 0.0039) 0.3 1.5mm
Terminations: Silver – Palladium Platinum, on 4 or only 2 sides of the array
Cap. Range
(each cap.)
X7R NP0
200VDC 500VDC 200VDC 500VDC
XD07... 33nF 120nF 4.7nF 18nF 470pF 1500pF 220pF 620pF
XD06... 15nF 68nF 2.2nF 10nF 220pF 750pF 120pF 330pF
XD03... 8.2nF 39nF 1nF 4.7nF 180pF 390pF 82pF 180pF
Dielectric Class
fi
X7R
∆C/C ≤ ± 15% (-55 +125°C)
NP0
0 ± 30ppm/°C
Climatic Category 55 / 125 / 56 55 / 125 / 56
Rated Voltage (UR)
Test Voltage (Ue)
200 VDC 500VDC
2 x UR 1.5 x UR
200VDC 500VDC
2 x UR 1.5 x UR
Tangent of Loss Angle - DF
Insulation Resistance
tg δ ≤ 250(10-4)
C ≤ 10nF = Ri ≥ 100 GΩ
C > 10nF = Ri x C ≥ 1000s
tg δ≤ 15(10-4)
Ri ≥ 100 GΩ
Filtered Arrays XD Type
090518
”M A mm»: snow c
The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 139
Baseline Products —
A Selection of Options
As a matter of course, AVX maintains a
level of quality control that is sufficient to
guarantee whatever reliability specifications
are needed. However, AVX goes further. There
are over 65 quality control and inspection
operations that are available as options to
a customer. Any number may be requested
and written into a baseline process. The
abbreviated list that follows indicates the
breadth and thoroughness of available Q.C.
services at AVX:
Ultrasonic Scanning
Destructive Physical Analysis (DPA)
X-Ray
Bondability Testing
Sorting and Matching to
Specification Limits
Temperature and Immersion
Cycling
Load/Humidity Life Testing
Dye Penetration Evaluation
100% Ceramic Sheet Inspection
Voltage Conditioning
Termination Pull Testing
Pre-encapsulation Inspection
Within the “specials” area, AVX
accommodates a broad variety of customer
needs. The AVX facilities are capable of
developing and producing the most reliable
and advanced MLCs available anywhere in the
world today. Yet it is equally adept at making
volume custom” components that may differ
only in markings or lead placement from the
standard catalog part.
Stretching the Limits
AVX Advanced Products are developed to
meet the extraordinary needs of specific
applications. Requirements may include:
low ESR, low ESL, voltages up to 10’s of
thousands, advanced decoupling designs
for frequencies up to 10’s of megahertz,
temperatures up to 200°C, extremely high
current discharge, ability to perform in high
radiation or toxic atmospheres, or minimizing
piezoelectric effect in high vibration
environments.
In addition, solving customer packaging
problems, aside from addressing circuit
problems, is available. Special lead frames
for high current or special mounting
requirements are examples. Multiple
ceramic chip package designs per customer
requirements are also available.
AVX Advanced Products always begin with a
joint development program involving AVX and
the customer. In undersea cable components,
for example, capacitance and impedance
ratings had to be maintained within 1% over
the multi-year life of the system. In this case,
AVX Advanced Products not only met the
parametric requirements of the customer,
but accelerated life testing of 3,500 units
indicated an average life expectancy of over
100,000 years.
Baseline Program Management
Baseline Program Management has been
AVX’s forte over the years. This is both a
product and a service function designed to
provide the customer the full capabilities of
AVX in meeting their program requirements.
AVX has had Baseline and Program
Management in the following major systems:
—AT&T Undersea Cable
—Minuteman
—Peacekeeper
—STC Undersea Cable
—CIT Undersea Cable
—Raytheon-Hawk Missile
—Trident
—Small Missile Program
—Northrop - Peacekeeper
—Sparrow Program
—Space Station
—European Space Agency (ESA)
—Commercial Satellite Program
—Arianne 4 & 5
—EuroFighter (Typhoon)
—EH101 (Merlin)
AVX technical personnel stand ready to
answer any questions and provide any
information required on your programs from
the most exotic Hi-Rel part to the simplest
variation on a standard. Put the experience,
technology and facilities of the leading
company in multilayer ceramics to work
for you. No other source offers the unique
combination of capability and commitment to
advanced application specific components.
PROCUREMENT OF COMPONENTS OF
BS9100 (CH/CV RANGE 50-500V)
The manufacturing facilities have IS09001
approval. Customers requiring BS9100
approved components are requested to
follow these steps:
1. The customer shall submit a specification
for the required components to AVX
for approval. Once agreed a Customer
Detail Specification (CDS) number will be
allocated by AVX to this specification. This
number with its current revision must be
quoted at the time of order placement.
2. If the customer has no specification, then
AVX will supply a copy of the standard CDS
for the customer’s approval and signature.
As in 1 above, when agreed this CDS
number must be quoted at order entry. In the
event of agreement not being reached the
component cannot be supplied to BS9100.
For assistance contact: EMAP
Specification Engineering Dept. AVX
Ltd. Coleraine, Northern Ireland
Telephone ++44 (0)28703 44188, Fax ++44
(0)28703 55527
PACKAGING
Unless otherwise stated in the appropriate
data sheet parts are supplied in a waffle
pack.
Baseline Management
A Dedicated Facility / BS9100 Requirements
011419
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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or
available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.
140
Examples of Special Packaging and Custom
Lead Configurations from AVX Advanced Products
Custom Lead
Configurations. . .
optimum 3D packaging, high current
applications and high reliability stress
relief mounting.
Custom
Packaging. . .
eliminate reliability concerns with multiple
component assembly.
Many other innovations are available from AVX Advanced Products. Let them apply these ideas
to your application specific programs.
fi
090518
A n A KYOCERA GROUP COMPANY
North America
Tel: +1 864-967-2150
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Tel: +55 11-46881960
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