NOTICE: Specifications are subject to change without notice. Contact your nearest AVX Sales Office for the latest specifications.
All statements, information and data given herein are believed to be accurate and reliable, but are presented without guarantee,
warranty, or responsibility of any kind, expressed or implied. Statements or suggestions concerning possible use of our products
are made without representation or warranty that any such use is free of patent infringement and are not recommendations to infringe
any patent. The user should not assume that all safety measures are indicated or that other measures may not be required.
Specifications are typical and may not apply to all applications.
The Capacitor. . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9
Dielectrics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-13
Radial Leads
SKYCAPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-19
CERALAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20-23
PACKAGING . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24-25
Two-Pin DIPs
DIPGUARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26-27
Axial Leads
SPINGUARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28-32
MINI-CERAMIC CAPACITOR . . . . . . . . . . . . . . . . . 33
CERALAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34-37
PACKAGING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Military
MIL-C-39014
Radial. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39-42
Axial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43-46
2-Pin DIPs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47-52
MIL-C-11015
Radial. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53-54
Axial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55-56
MIL-C-20
Radial. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57-58
Axial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59-62
MIL-C-123
Radial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63-64
Axial . . . . . . . . . . . . . . . . .65-66
2-Pin DIPs . . . . . . . . . .67
Marking . . . . . . . .68
Cross-Ref . . . .68
European CECC
Specifications . .69
Index
2
GENERAL INFORMATION
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 = .224 KA
t
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 propor-
tional to the separation between electrodes. Lower volt-
age 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 capaci-
tance within a material group.
Energy Stored – The energy which can be stored in a
capacitor is given by the formula:
E= 1⁄2CV2
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:
Iideal = C dV
dt
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.
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:
Z = R2
S+ (XC- XL)2
where
Z = Total Impedance
Rs= Series Resistance
XC= Capacitive Reactance = 1
2 πfC
XL= Inductive Reactance = 2 πfL
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°.
The Capacitor
R
LR
C
P
S
冑
3
In practice the current leads the voltage by some other
phase angle due to the series resistance RS. The comple-
ment of this angle is called the loss angle and:
Power Factor (P.F.) = Cos for Sine ␦
Dissipation Factor (D.F.) = tan ␦
for small values of ␦the tan and sine are essentially equal
which has led to the common interchangeability of the two
terms in the industry.
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.
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 πfC) (E.S.R.)
XC
The watts loss are:
Watts loss = (2 πfCV2) (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.
Insulation Resistance – Insulation Resistance is the resis-
tance measured across the terminals of a capacitor and
consists principally of the parallel resistance RPshown 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 dis-
charged. 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.
CERAMIC CAPACITORS
Multilayer ceramic capacitors are manufactured by mixing
the ceramic powder in an organic binder (slurry) and cast-
ing it by one technique or another into thin layers typically
ranging from about 3 mils in thickness down to 1 mil or
thinner.
Metal electrodes are deposited onto the green ceramic
layers which are then stacked to form a laminated
structure. The metal electrodes are arranged so that their
terminations alternate from one edge of the capacitor to
another. Upon sintering at high temperature the part
becomes a monolithic block which can provide extremely
high capacitance values in small mechanical volumes.
Figure 1 shows a pictorial view of a multilayer ceramic
capacitor.
Multilayer ceramic capacitors are available in a wide range of
characteristics, Electronic Industries Association (EIA) and
the military have established categories to help divide the
The Capacitor
E.S.R. C
␦
I (Ideal) I (Actual)
Phase
Angle
Loss
Angle
V
IRs
f
4
The Capacitor
CERAMIC
LAYER ELECTRODE
TERMINATE
EDGE
TERMINATE
EDGE
END
TERMINATIONS ELECTRODES
MARGIN
basic characteristics into more easily specified classes. The
basic industry specification for ceramic capacitors is EIA
specification RS-198 and as noted in the general section
it specifies temperature compensating capacitors as Class
1 capacitors. These are specified by the military under
specification MIL-C-20. General purpose capacitors with
non-linear temperature coefficients are called Class 2
capacitors by EIA and are specified by the military under
MIL-C-11015 and MIL-C-39014. The new high reliability
military specification, MIL-C-123 covers both Class 1 and
Class 2 dielectrics.
Class 1 – Class 1 capacitors or temperature compensating
capacitors are usually made from mixtures of titanates
where barium titanate is normally not a major part of the
mix. They have predictable temperature coefficients and
in general, do not have an aging characteristic. Thus they
are the most stable capacitor available. Normally the
T.C.s of Class 1 temperature compensating capacitors are
C0G (NP0) (negative-positive 0 ppm/°C). Class 1 extended
temperature compensating capacitors are also manufac-
tured in T.C.s from P100 through N2200.
Class 2 – General purpose ceramic capacitors are called
Class 2 capacitors and have become extremely popular
because of the high capacitance values available in very
small size. Class 2 capacitors are “ferro electric” and vary in
capacitance value under the influence of the environmental
and electrical operating conditions. Class 2 capacitors
are affected by temperature, voltage (both AC and DC),
frequency and time. Temperature effects for Class 2
ceramic capacitors are exhibited as non-linear capacitance
changes with temperature.
TC TOLERANCES (1)
Capacitance
in pF NP0 N030 N080 N150 N220 N330 N470 N750 N1500 N2200
-55°C to +25°C in PPM/°C
10 and Over +30 +30 +30 +30 +30 +60 +60 +120 +250 +500
-75 -80 -90 -105 -120 -180 -210 -340 -670 -1100
+25°C to +85°C in PPM/°C
10 and Over ±30 ±30 ±30 ±30 ±30 ±60 ±60 ±120 ±250 ±500
Closest
MIL-C-20D CG HG LG PG RG SH TH UJ NONE NONE
Equivalent
EIA Desig. C0G S1G U1G P2G R2G S2H T2H U2J P3K R3L
(1) Table 1 indicates the tolerance available on specific temperature characteristics. It may be noted that limits are established on the basis of measurements at
+25°C and +85°C and that T.C. becomes more negative at low temperature. Wider tolerances are required on low capacitance values because of the effects of
stray capacitance.
Table 1: EIA Temperature Compensating Ceramic Capacitor Codes
Figure 1
5
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 +85°C
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%
The Capacitor
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 Cap. Change
Zero Volts Rated Volts
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%
Table 2: MIL and EIA Temperature Stable and General Application Codes
50
40
30
20
10
0 12.5 25 37.5 50
Volts AC at 1.0 KHz
Capacitance Change Percent
Curve 3 - 25 VDC Rated Capacitor
Curve 2 - 50 VDC Rated Capacitor
Curve 1 - 100 VDC Rated Capacitor Curve 3
Curve 2
Curve 1
.5 1.0 1.5 2.0 2.5
AC Measurement Volts at 1.0 KHz
Dissipation Factor Percent
10.0
8.0
6.0
4.0
2.0
0
Figure 2 Figure 3
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.
EXAMPLE – A capacitor is desired with the capacitance value at 25°C
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.
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 2 provides a detailed
explanation of the EIA system.
Effects of Voltage – Variations in voltage affects only the
capacitance and dissipation factor. 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. Figure 3 gives
the voltage coefficient of dissipation factor for various AC
voltages at 1 kilohertz. Applications of different frequencies
will affect the percentage changes versus voltages.
Cap. Change vs. A.C. Volts
AVX X7R T.C.
D.F. vs. A.C. Measurement Volts
AVX X7R T.C.
6
The effect of the application of DC voltage is shown in
Figure 4. The voltage coefficient is more pronounced for
higher K dielectrics. These figures are shown for room tem-
perature conditions. The combination characteristic known
as voltage temperature limits which shows the effects of
rated voltage over the operating temperature range is
shown in Figure 5 for the military BX characteristic.
Cap. Change vs. D.C. Volts
AVX X7R T.C.
Typical Cap. Change vs. Temperature
AVX X7R T.C.
Cap. Change vs. Frequency
“Q” vs. Frequency
Effects of Frequency – Frequency affects capacitance
and dissipation factor as shown in Figures 6 and 7.
Variation of impedance with frequency is an important con-
sideration for decoupling capacitor applications. Lead
length, lead configuration and body size all affect the
impedance level over more than ceramic formulation varia-
tions. (Figure 8)
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-align-
ment 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 9 and a
table is given showing the aging rates of various dielectrics.
If a 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 1⁄2hour 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 some-
time 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.
The Capacitor
25% 50% 75% 100%
Percent Rated Volts
Capacitance Change Percent
2.5
0
-2.5
-5
-7.5
-10
0VDC
RVDC
-55 -35 -15 +5 +25 +45 +65 +85 +105 +125
Temperature Degrees Centigrade
Capacitance Change Percent
+20
+10
0
-10
-20
-30
AVX C0G (NP0) T.C.
AVX X7R T.C.
1 10 100 1 10 100 1
KHz KHz KHz MHz MHz MHz GHz
Frequency
Capacitance Change Percent
0
-10
-20
-30
AVX
C0G (NP0)
T.C.
AVX X7R T.C.
1 10 100 1 10 100 1
KHz KHz KHz MHz MHz MHz GHz
Frequency
2000
1600
1200
800
400
0
"Q" Factor
Figure 4
Figure 5
Figure 6
Figure 7
7
Impedance vs. Frequency
Effect of Capacitance – AVX SpinGuards
Impedance vs. Frequency
Effect of Dielectric – AVX DIPGuards
Impedance vs. Frequency
Effect of Lead Length – Military CKR05 .01mF
Typical Curve of Aging Rate
X7R Dielectric
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 con-
stant 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:
Lo=VtXTtY
LtVoTo
where
Lo= operating life Tt= test temperature and
Lt= test life To= operating temperature in °C
Vt= test voltage
Vo= operating voltage 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.
The Capacitor
.001mF
.01mF
.1mF
.33mF
1 10 100 1000
Log Frequency, MHz
Log Impedance, Ohms
10.00
1.00
0.10
0.01
1 10 100 200
Log Frequency, MHz
Log Impedance, Ohms
10.0
1.0
0.1
C0G (NP0)
.001 F
X7R .01 F
X7R .022 F
X7R .047 F
X7R 0.1 F
Z5U .22 F
1 10 100 1000
Log Frequency, MHz
Log Impedance, Ohms
10.0
1.0
0.1
100.0 .500"
.250"
.062"
0"
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)
X7R
Z5U
Y5V
None
2
3
5
Figure 9
共
共
共
共
Figure 8
8
The Capacitor
GENERAL ELECTRICAL AND
ENVIRONMENTAL SPECIFICATIONS
Many AVX ceramic capacitors are purchased in accordance
with Military Specifications, MIL-C-39014, MIL-C-11015,
MIL-C-20, MIL-C-55681, and MIL-C-123 or according to
individual customer specification. When ordered to these
specifications, the parts will meet the requirements set forth
in these documents. The General Electrical and
Environmental Specifications listed below detail test
conditions which are common to the foregoing and to most
ceramic capacitor specifications. If additional information is
needed, AVX Application Engineers are ready to assist you.
Capacitance – Capacitance shall be tested in accordance
with Method 305 of MIL-STD-202.
Class 1 dielectric to 1000 pF measured at 1 MHz, ± 100
KHz, > 1000 pF measured at 1 KHz ± 100 Hz both at 1.0
± 0.2 VAC.
Class 2 dielectrics (except High K) to 100 pF shall be mea-
sured at 1 MHz ± 100 KHz, > 100 pF measured at 1 KHz ±
100 Hz both at 1.0 ± 0.2 VAC.
High K dielectrics measured at 1 KHz ± 100 Hz with less
than 0.5 VAC or less applied.
Dissipation Factor – D.F. shall be measured at the same
frequency and voltage as specified for capacitance.
Dielectric Strength – The dielectric strength shall be mea-
sured in accordance with Method 301 of MIL-STD-202 with
a suitable resistor in series with the power supply to limit
the charging current to 50 ma. max.
Insulation Resistance – Insulation Resistance shall be
measured in accordance with Method 302 of MIL-STD-202
with rated voltage or 200 VDC whichever is less applied.
The current shall be limited to 50 ma. max. and the charg-
ing time shall be 2.0 minutes maximum.
Burn-In – (Where specified.) 100% of the parts shall be
subjected to 5 cycles of Thermal Shock per Method 107
Test Condition A of MIL-STD-202 followed by voltage con-
ditioning at twice rated voltage and maximum rated tem-
perature for 100 hours or as specified. After Burn-In, parts
shall meet all initial requirements.
Barometric Pressure – Capacitors shall be tested in
accordance with Method 105 of MIL-STD-202 Test
Condition D (100,000 ft.) with 100% rated voltage applied
for 5 seconds with current limited to 50 ma. No evidence of
flashover or damage is permitted.
Solderability – Capacitors shall be tested in accordance
with Method 208 of MIL-STD-202 with 95% coverage of
new solder.
Vibration – Capacitors shall be tested in accordance with
Method 208 Test Condition D of MIL-STD-202 with the
bodies rigidly clamped. The specimens shall be tested in 3
mutually perpendicular planes for a total of 8 hours with
125% rated DC voltage applied. No evidence of opens,
intermittents or shorts is permitted.
Shock – Capacitors shall be tested in accordance with
Method 213 Condition 1 (100 Gs) of MIL-STD-202 with the
bodies rigidly clamped. No evidence of opens, intermit-
tents or shorts is permitted.
Thermal Shock and Immersion – Capacitors shall be
tested in accordance with Method 107 Condition A of
MIL-STD-202 with high test temperature (maximum rated
operating temperature) followed by Method 104 of
MIL-STD-202 Test Condition B.
Moisture Resistance – Capacitors shall be tested in
accordance with Method 106 of MIL-STD-202 with rated
voltage or 100 VDC whichever is less applied for the first 10
cycles.
Resistance to Solder Heat – Capacitors shall be tested in
accordance with Method 210 of MIL-STD-202 with immer-
sion to .050 of body. AVX Ceralam capacitors are manu-
factured with solder which melts at a temperature greater
than 450°F.
General Considerations – The application of voltage or
temperature usually causes temporary changes in the
capacitance of Class 2 ceramic capacitors. These changes
are normally in the positive direction and may cause out-of-
tolerance capacitance readings. If a capacitance reading is
made immediately after a dielectric strength or insulation
resistance test and parts are high capacitance, they should
be re-read after a minimum wait of 12 hours.
9
BASIC CAPACITOR FORMULAS
I. Capacitance (farads)
English: C = .224 K A
TD
Metric: C = .0884 K A
TD
II. Energy stored in capacitors (Joules, watt - sec)
E = 1⁄2 CV
2
III. Linear charge of a capacitor (Amperes)
I = C dV
dt
IV. Total Impedance of a capacitor (ohms)
Z = R
2
S + (XC- XL)
2
V. Capacitive Reactance (ohms)
xc=1
2 πfC
VI. Inductive Reactance (ohms)
xL= 2 πfL
VII. Phase Angles:
Ideal Capacitors: Current leads voltage 90°
Ideal Inductors: Current lags voltage 90°
Ideal Resistors: Current in phase with voltage
VIII. Dissipation Factor (%)
D.F.= tan ␦(loss angle) = E.S.R. = (2 πfC) (E.S.R.)
Xc
IX. Power Factor (%)
P.F. = Sine ␦(loss angle) = Cos f(phase angle)
P.F. = (when less than 10%) = DF
X. Quality Factor (dimensionless)
Q = Cotan ␦(loss angle) = 1
D.F.
XI. Equivalent Series Resistance (ohms)
E.S.R. = (D.F.) (Xc) = (D.F.) / (2 πfC)
XII. Power Loss (watts)
Power Loss = (2 πfCV
2
) (D.F.)
XIII. KVA (Kilowatts)
KVA = 2 πfCV
2
x 10 -3
XIV. Temperature Characteristic (ppm/°C)
T.C. = Ct – C
25
x 10
6
C
25
(Tt– 25)
XV. Cap Drift (%)
C.D. = C
1
– C
2
x 100
C
1
XVI. Reliability of Ceramic Capacitors
L
0
=VtXT
tY
Lt(V
o
)(
T
o
)
XVII. Capacitors in Series (current the same)
Any Number: 1 = 1 + 1 --- 1
CTC1C2CN
C1C2
Two: CT=C1+ C2
XVIII. Capacitors in Parallel (voltage the same)
CT= C1+ C2--- + CN
XIX. Aging Rate
A.R. = %DC/decade of time
XX. Decibels
db = 20 log V1
V2
The Capacitor
冑
Pico X 10-12
Nano X 10-9
Micro X 10-6
Milli X 10-3
Deci X 10-1
Deca X 10+1
Kilo X 10+3
Mega X 10+6
Giga X 10+9
Tera X 10+12
K = Dielectric Constant f = frequency Lt= Test life
A = Area L = Inductance Vt= Test voltage
TD= Dielectric thickness ␦= Loss angle Vo= Operating voltage
V = Voltage f= Phase angle Tt= Test temperature
t = time X & Y = exponent effect of voltage and temp. To= Operating temperature
Rs= Series Resistance Lo= Operating life
METRIC PREFIXES SYMBOLS
10
TYPICAL CHARACTERISTICS
Temperature Coefficient
C0G (NP0) Dielectric “A”
GENERAL SPECIFICATIONS
Capacitance Range
See Individual Parts Specifications
Capacitance Test at 25°C
Measured at 1 VRMS max. at 1 KHz (1 MHz for 1,000 pF or less)
Capacitance Tolerances
C = ±.25 pF, D = ±.50 pF, E = ±0.5%, F = ±1.0%, G = ±2%,
H = ±3%, J = ±5%, K = ±10%, M = ±20%
For values less than 10 pF tightest tolerance available is ±.25 pF
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
0 ± 30 ppm/°C
Voltage Ratings
200,100 & 50 Vdc
Dissipation Factor
.15% max. (+25°C and +125°C) for values greater than 30 pF
or Q = 20 x C + 400 for values of 30 pF and below.
1.0 VRMS, 1 MHz for values ⬉ 1,000 pF, and
1 KHz for values > 1,000 pF
Insulation Resistance 25°C (MIL-STD-202-Method 302)
100 K megohms or 1000 megohms - µF minimum,
whichever is less
Dielectric Strength
250% of rated Vdc
Life Test (1,000 hours)
200% rated voltage at +125°C
Moisture Resistance (MIL-STD-202-Method 106)
Thermal Shock (MIL-STD-202-Method 107, condition A,
at rated elevated temperature)
-55°C to +125°C
Immersion Cycling (MIL-STD-202-Method 104, condition B)
For current reliability information, consult factory.
Typical Capacitance Change
Envelope: 0±30 ppm/°C
+0.5
0
-0.5
% ⌬ Capacitance
-55 -35 -15 +5 +25 +45 +65 +85 +105 +125
Temperature °C
+0.1
+0.2
0
-0.1
-0.2
% ⌬ Capacitance
1 10 100 1,000 10,000
Hours
+0.1
+0.2
0
-0.1
-0.2
% ⌬ Capacitance
25 50 75 100 125 150 175 200
D. C. Volts Applied
Insulation Resistance (Ohm-Farads)
0
100
1,000
10,000
+25+20 +40 +60 +80 +100 +150
Temperature °C
Aging Rate
Voltage Coefficient
Insulation Resistance vs. Temp.
11
X7R Dielectric “C”
GENERAL SPECIFICATIONS
Capacitance Range
See Individual Parts Specifications
Capacitance Test at 25°C
Measured at 1 VRMS max. at 1 KHz
Capacitance Tolerances
J = ±5%, K = ±10%, M = ±20%
Operating Temperature Range
-55°C to +125°C
Temperature Characteristic
± 15% (0 Vdc)
Voltage Ratings
200,100 & 50 Vdc
Dissipation Factor
2.5% max. at 1 KHz, 1 VRMS max.
Insulation Resistance 25°C (MIL-STD-202-Method 302)
100 K megohms or 1000 megohms - µF minimum,
whichever is less
Dielectric Strength
250% of rated Vdc
Life Test (1,000 hours)
200% rated voltage at +125°C
Moisture Resistance (MIL-STD-202-Method 106)
Thermal Shock (MIL-STD-202-Method 107, condition A,
at rated elevated temperature)
-55°C to +125°C
Immersion Cycling (MIL-STD-202-Method 104, condition B)
For current reliability information, consult factory.
TYPICAL CHARACTERISTICS
Temperature Coefficient
+6
% ⌬ Capacitance
-75 -50 -25 0 +25 +50 +75 +100 +125
Temperature °C
+12
0
-6
-12
-18
-24
+10
% ⌬ Capacitance
+20
0
-10
-20
1 kHz 10 kHz 100 kHz 1 MHz 10 MHz 100 MHz
Frequency
% ⌬ Capacitance
+10
0
-10
-20
-30
-40
20 40 60 80 100
D.C. Volts Applied
100 Vdc Rated Parts
50/63 Rated Parts
Insulation Resistance (Ohm-Farads)
10
100
1,000
10,000
+25+20 +40 +60 +80 +100 +150
Temperature °C
∆Capacitance vs. Frequency
Voltage Coefficient
Insulation Resistance vs. Temp.
12
TYPICAL CHARACTERISTICS
Temperature Coefficient
Z5U Dielectric “E”
GENERAL SPECIFICATIONS
Capacitance Range
See Individual Parts Specifications
Capacitance Test at 25°C
Measured at 0.5 VRMS max. at 1 KHz
Capacitance Tolerances
M = ±20%, Z = +80%, -20%, P = GMV*
Operating Temperature Range
+10°C to +85°C
Temperature Characteristic
+22%, -56%
Voltage Ratings
100 & 50 Vdc
Dissipation Factor
4.0% max. at 1 KHz, .5 VRMS max.
Insulation Resistance 25°C (MIL-STD-202-Method 302)
10 K megohms or 100 megohms - µF minimum,
whichever is less
Dielectric Strength
200% of rated Vdc
Life Test (1,000 hours)
150% rated voltage at +85°C
Moisture Resistance (MIL-STD-202-Method 106)
Immersion Cycling (MIL-STD-202-Method 104, condition B)
For current reliability information, consult factory.
*Guaranteed Minimum Value
+20
% ⌬ Capacitance
-40 -60 -20 0+20 +40 +60 +80 +100 +120 +140
Temperature °C
+30
0
-20
-40
-60
0
% ⌬ Capacitance
-10
-20
-30
-40
1 kHz 10 kHz 100 kHz 1 MHz 10 MHz 100 MHz
Frequency
10k
Insulation Resistance (Ohm-Farads)
-40 -60 -20 0+20 +40 +60 +80 +100 +120 +140
Temperature °C
100k
1000
100
10
0
% ⌬ Capacitance
-20
-40
+20
-60
-80
025 50 75 100 125
Volts D.C. Applied
Voltage coefficient for
individual capacitors
within this envelope must
be calculated based
upon WVDC / MIL.
∆Capacitance vs. Frequency
Insulation Resistance vs. Temp.
Voltage Coefficient
13
GENERAL SPECIFICATIONS
Capacitance Range
Contact AVX
Capacitance Test at 25°C
Measured at 1.0 VRMS max. at 1 KHz
Capacitance Tolerances
+80%, -20%
Operating Temperature Range
-30°C to +85°C
Temperature Characteristic
+22%, -82%
Voltage Ratings
100 & 50 Vdc
Dissipation Factor
7% max. (<25 volts)
5% max. (≥25 volts)
at 1 KHz, 1.0 VRMS max.
Insulation Resistance 25°C (MIL-STD-202-Method 302)
10 K megohms or 100 megohms - µF minimum,
whichever is less
Dielectric Strength
200% of rated Vdc
Life Test (1,000 hours)
150% rated voltage at +85°C
Moisture Resistance (MIL-STD-202-Method 106)
Immersion Cycling (MIL-STD-202-Method 104, condition B)
-50 -30 0 +25 +60 +85
120
100
80
60
40
20
Percent of Capacitance
Temperature, C
o
Special Dielectrics
Y5V (Dielectric “G”)
Typical Temperature Characteristic
Y5V
TYPICAL CHARACTERISTICS
14
Radial Leads/SkyCap®
See Note
See Note
Dimensions: Millimeters (Inches)
Note: Coating clean .784/.031 min.
above seating plane
Styles SR15, SR20,
SR30, SR40, SR50
Style SR21
Styles SR22, SR27
W
Max.
W
Max.
W
Max.
Max.
T
Max.
T
Max.
T
L.S.
±.762/.030
L.S.
±.762/.030
L.S.
±.762/.030
H Max.
H Max.
H Max.
1.0" Min.
1.0" Min.
1.0" Min.
LD
Nom.
LD
Nom.
LD
Nom.
1.52/.060
Max.
HOW TO ORDER
AVX Styles: SR15, SR20, SR21, SR22, SR27, SR30, SR40, SR50
Part Number Example
SR21 5 E 10 4 M A A
AVX Style
Voltage
Temperature Coefficient
Sig. Figures of Capacitance
Multiplier (Additional no. of zeros)
Capacitance Tolerance
Failure Rate Not Applicable
Leads
GENERAL INFORMATION
AVX SR Series
Conformally Coated Radial Leaded MLC
Temperature Coefficients: C0G (NP0), X7R, Z5U
200, 100, 50 Volts (300V, 400V & 500V also available)
Case Material: Epoxy
Lead Material: Solderable
Part Number Codes
Voltages: 50V = 5, 100V = 1, 200V = 2,
300V = 9, 400V = 8, 500V = 7
Temp. Coefficient: C0G (NP0) = A, X7R = C, Z5U = E
Sig. Figures of Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 100,000 pF as 104. (For values below
10pF, use “R” in place of decimal point, e.g., 1R4 = 1.4 pF).
Capacitance Tolerances:
C0G (NP0): C = ±.25pF, D = ±.5pF, F = ±1.0% (>50 pF only)
G = ±2.0% (>25 pF only), J = ±5%, K = ±10%
X7R: J = ±5%, K = ±10%, M = ±20%
Z5U: M = ±20%, Z = +80%,-20%
Failure Rate: A = Not Applicable
Leads: T = Trimmed Leads, .230" ± .030"
A = Long Leads, 1.0" minimum
(Other lead lengths are available, contact AVX)
MARKING
PACKAGING REQUIREMENTS
XXX
X X X
FRONT
XXX
A XX
BACK
Capacitance Code
Tolerance Code
Voltage Code
Temp. Char. Code
3 Digit Date Code
Lot Code
AVX Logo
Quantity per Bag
SR15, 20, 21, 22, 27, 30 1000 Pieces
SR40, 50 500 Pieces
Note: SR15, SR20, SR21, SR30, and SR40 available on tape and reel per EIA
specifications RS-468. See Pages 24 and 25.
15
Radial Leads/SkyCap®
C0G (NP0) Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
EIA Characteristic Dimensions: Millimeters (Inches)
For other styles, voltages, tolerances and lead lengths see Part No. Codes or contact factory.
*Other capacitance values available upon special request.
NOTE: Capacitance Ranges available for SR12 same as SR15
SR62 same as SR21
SR64 same as SR30
SR89 same as SR21
= Industry preferred values
= SR20 only
200 100 50 200 100 50 200 100 50 200 100 50 100 50 100 50 100 50
AVX Style SR15 SR20 SR21 SR22 SR27 SR30 SR40 SR50
AVX “Insertable” SR07 SR29 SR59 N/A N/A SR65 SR75 N/A
Width 3.81 5.08 5.08 5.08 6.604 7.62 10.16 12.70
(W) (.150) (.200) (.200) (.200) (.260) (.300) (.400) (.500)
Height 3.81 5.08 5.08 5.08 6.35 7.62 10.16 12.70
(H) (.150) (.200) (.200) (.200) (.250) (.300) (.400) (.500)
Thickness 2.54 3.175 3.175 3.175 4.06 3.81 3.81 5.08
(T) (.100) (.125) (.125) (.125) (.160) (.150) (.150) (.200)
Lead Spacing 2.54 2.54 5.08 6.35 7.62 5.08 5.08 10.16
(L.S.) (.100) (.100) (.200) (.250) (.300) (.200) (.200) (.400)
Lead Diameter .508 .508 .508 .508 .508 .508 .508 .635
(L.D.) (.020) (.020) (.020) (.020) (.020) (.020) (.020) (.025)
Cap. in.* Industry Preferred WVDC WVDC WVDC WVDC WVDC WVDC WVDC WVDC
pF Values in Blue 200 100 50
1.0-9.9 SR151A1R0DAA
10 SR151A100KAA
15 SR-----A150KAA
22 SR-----A220KAA
33 SR-----A330KAA
39 SR-----A390KAA
47 SR-----A470KAA
68 SR-----A680KAA
100 SR151A101KAA
150 SR-----A151KAA
220 SR-----A221KAA
330 SR-----A331KAA
390 SR-----A391KAA
470 SR-----A471KAA
680 SR-----A681KAA
1000 SR211A102KAA
1500 SR-----A152KAA
2200 SR-----A222KAA
3900 SR-----A392KAA
4700 SR-----A472KAA
6800 SR-----A682KAA
8200 SR-----A822KAA
10,000 SR305A103KAA
15,000 SR-----A153KAA
22,000 SR-----A223KAA
33,000 SR-----A333KAA
39,000 SR-----A393KAA
47,000 SR-----A473KAA
68,000 SR-----A683KAA
100,000 SR-----A104KAA
16
Radial Leads/SkyCap®
X7R Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
EIA Characteristic Dimensions: Millimeters (Inches)
For other styles, voltages, tolerances and lead lengths see Part No. Codes or contact factory.
*Other capacitance values available upon special request.
NOTE: Capacitance Ranges available for SR12 same as SR15
SR62 same as SR21
SR64 same as SR30
SR89 same as SR21
AVX Style SR15 SR20 SR21 SR22 SR27 SR30 SR40 SR50
AVX “Insertable” SR07 SR29 SR59 N/A N/A SR65 SR75 N/A
Width 3.81 5.08 5.08 5.08 6.604 7.62 10.16 12.70
(W) (.150) (.200) (.200) (.200) (.260) (.300) (.400) (.500)
Height 3.81 5.08 5.08 5.08 6.35 7.62 10.16 12.70
(H) (.150) (.200) (.200) (.200) (.250) (.300) (.400) (.500)
Thickness 2.54 3.175 3.175 3.175 4.06 3.81 3.81 5.08
(T) (.100) (.125) (.125) (.125) (.160) (.150) (.150) (.200)
Lead Spacing 2.54 2.54 5.08 6.35 7.62 5.08 5.08 10.16
(L.S.) (.100) (.100) (.200) (.250) (.300) (.200) (.200) (.400)
Lead Diameter .508 .508 .508 .508 .508 .508 .508 .635
(L.D.) (.020) (.020) (.020) (.020) (.020) (.020) (.020) (.025)
Cap. in.* Industry Preferred WVDC WVDC WVDC WVDC WVDC WVDC WVDC WVDC
pF Values in Blue 200 100 50 200 100 50 100 50 100 50 100 50 200 100 50 200 100 50 200 100 50
470 SR-----C471KAA
1000 SR155C102KAA
1500 SR-----C152KAA
2200 SR-----C222KAA
3300 SR-----C332KAA
4700 SR-----C472KAA
6800 SR-----C682KAA
10,000 SR215C103KAA
15,000 SR-----C153KAA
22,000 SR-----C223KAA
33,000 SR-----C333KAA
47,000 SR-----C473KAA
68,000 SR-----C683KAA
100,000 SR215C104KAA
150,000 SR-----C154KAA
220,000 SR215C224KAA
330,000 SR-----C334KAA
390,000 SR-----C394KAA
470,000 SR305C474KAA
1.0 µF SR305C105KAA
2.2 µF SR405C225KAA
2.7 µF SR505C275KAA
4.7 µF SR505C475KAA
= Industry preferred values
= SR20 only
17
Radial Leads/SkyCap®
Z5U Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
EIA Characteristic Dimensions: Millimeters (Inches)
For other styles, voltages, tolerances and lead lengths see Part No. Codes or contact factory.
*Other capacitance values available upon special request.
MAXIMUM CAPACITANCE VALUE
STYLE* C0G (NP0) X7R
SR29 900 pF .015 µF
SR20 1800 pF .033 µF
SR28
SR59 900 pF .015 µF
SR13
SR21 1800 pF .033 µF
SR30
SR61 7200 pF .12 µF
SR65
SR40
SR75 .015 µF .27 µF
SR22 1800 pF .033 µF
SR27 1800 pF .033 µF
SR76 .015 µF .27 µF
SR50 .036 µF .59 µF
AVX 500 VOLT SKYCAPS**
*Consult pages 18 and 19 for style sizes.
**Voltage rating based on DWV of 150% of rated voltage.
AVX Style SR15 SR20 SR21 SR22 SR27 SR30 SR40 SR50
AVX “Insertable” SR07 SR29 SR59 N/A N/A SR65 SR75 N/A
Width 3.81 5.08 5.08 5.08 6.604 7.62 10.16 12.70
(W) (.150) (.200) (.200) (.200) (.260) (.300) (.400) (.500)
Height 3.81 5.08 5.08 5.08 6.35 7.62 10.16 12.70
(H) (.150) (.200) (.200) (.200) (.250) (.300) (.400) (.500)
Thickness 2.54 3.175 3.175 3.175 4.06 3.81 3.81 5.08
(T) (.100) (.125) (.125) (.125) (.160) (.150) (.150) (.200)
Lead Spacing 2.54 2.54 5.08 6.35 7.62 5.08 5.08 10.16
(L.S.) (.100) (.100) (.200) (.250) (.300) (.200) (.200) (.400)
Lead Diameter .508 .508 .508 .508 .508 .508 .508 .635
(L.D.) (.020) (.020) (.020) (.020) (.020) (.020) (.020) (.025)
Cap. in.* Industry Preferred WVDC WVDC WVDC WVDC WVDC WVDC WVDC WVDC
pF Values in Blue 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50
10,000 SR155E103ZAA
47,000 SR-----E473ZAA
100,000 SR215E104ZAA
150,000 SR-----E154ZAA
220,000 SR215E224ZAA
330,000 SR215E334ZAA
470,000 SR215E474ZAA
680,000 SR-----E684ZAA
1.0 µF SR-----105ZAA
1.5 µF SR30E155ZAA
2.2 µF SR30E225ZAA
3.3 µF SR30E335ZAA
4.7 µF SR30E475ZAA
= Industry preferred values
= SR20 only
18
LEAD SPACING .100 ±.030
Dimensions: Inches (Millimeters)
SR07* SR14 SR15* SR20*
(T=.100) (T=.100) (T=.100) (T=.125)
SR29* SR62* SR62-LP*
(T=.125) (T=.100) (T=.100)
LEAD SPACING .200 ±.030
Dimensions: Inches (Millimeters)
SR12* SR13* SR21* SR21-85* SR28*
(T=.100) (T=.125) (T=.125) (T=.125) (T=.125)
SR30* SR30-LP* SR32* SR40* SR59*
(T=.150) (T=.150) (T=.150) (T=.150) (T=.125)
SR61 SR63* SR64* SR64-LP* SR65*
(T=.150) (T=.150) (T=.150) (T=.150) (T=.150)
.250 (6.35) Max.
Meniscus Free
.031 (.787) Above
Seating Plane
.200 (5.08) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
SkyCap®
Configurations by Lead Spacing
.200 (5.08) Max.
.300 (7.62)
Max.
.100 (2.54) ±.030
.230 (5.84) ±.030
Meniscus Free
.031 (.787) Above
Seating Plane
.150 (3.81) Max.
.150 (3.81) Max.
1.0 (25.4) Min.
.100 (2.54) ±.030
.060 (1.52)
Max.
.150 (3.81) Max.
.250 (6.35)
Max.
1.0 (25.4) Min.
.100 (2.54) ±.030
.050 (1.27)
Clean Above
Seating Plane
.200 (5.08) Max.
.200 (5.08) Max.
1.0 (25.4) Min.
.100 (2.54) ±.030
.060 (1.52)
Max.
.150 (3.81) Max.
.230 (5.84) Max.
.150 (3.81)
Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.200 (5.08) Max.
.350 (8.89) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
Meniscus Free
.031 (.787) Above
Seating Plane
.200 (5.08) Max.
.300 (7.62) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.031 (.787)
Clean
Above Seat
Meniscus Free
.031 (.787) Above
Seating Plane
.200 (5.08) Max.
.200 (5.08) Max. .300 (7.62) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.137/.196
(3.48/4.98)
1.0 (25.4) Min.
.300 (7.62) Max.
.500 (12.7) Max.
.200 (5.08) ±.030
.300 (7.62)
Max.
.500 (12.7)
Max.
1.25 (31.7) Min.
.200 (5.08) ±.030
a
0.04
(1.02)
a = .009 ±.002
.268 (6.81)
Max.
.330 (8.38)
Max.
1.25 (31.7) Min.
.200 (5.08) ±.030
a
0.04
(1.02)
a = .009 ±.002
.400 (10.16) Max.
1.0 (25.4) Min.
.300 (7.62)
Max.
.300 (7.62)
Max.
.200 (5.08) ±.030
.300 (7.62) Max.
.300 (7.62) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.060 (1.52)
Max.
.225
(5.71)
MAX.
.200 (5.08) ±.030
.059 (1.5)
Max.
.300
(7.62)
MAX.
1.0
(25.4)
Min.
.390 (9.91) Max.
Meniscus Free
.031 (.787) Above
Seating Plane
.300 (7.62) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.400 (10.16) Max.
.400 (10.16) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.060 (1.52)
Max.
.200 (5.08) Max.
.300 (7.62) Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
.031 (.787)
Clean
Above Seat
.300 (7.62) Max.
.500 (12.7) Max.
.200 (5.08) ±.030
.230 (5.84) ±.030
Meniscus Free
.031 (.787) Above
Seating Plane
.200 (5.08) Max.
.250 (6.35) Max.
1.0 (25.4) Min.
.100 (2.54) ±.030
Meniscus Free
.031 (.787) Above
Seating Plane
.210 (5.33)
Max.
.358 (9.09)
Max.
1.25 (31.7) Min.
.100 (2.54) ±.030
a
0.04
(1.02)
a = .009 ±.002
.170 (4.32)
Max.
.271 (6.88)
Max.
1.25 (31.7) Min.
.100 (2.54) ±.030
a
0.04
(1.02)
a = .009 ±.002
19
LEAD SPACING .200 ±.030 continued
Dimensions: Inches (Millimeters)
SR65-LP* SR67 SR75* SR89*
(T=.150) (T=.125) (T=.150) (T=.125)
Leads = #22 AWG
LEAD SPACING .400 ±.030
SR50 SR76
(T=.200) (T=.175)
LEAD SPACING .250 ±.030
Dimensions: Inches (Millimeters)
SR16 SR22 SR33
(T=.125) (T=.125) (T=.150)
SkyCap®
Configurations by Lead Spacing
.200 (5.08) Max.
.300 (7.62)
Max. Seated
Height
.200 (5.08) ±.030
.230 (5.84) ±.030
.031 (.787)
Seated
Plane
.031 (.787)
Min. Clean
Lead Above
Seat
.400 (10.16) Max.
.480 (12.2)
Max.
.400 (10.16)
Max.
1.0 (25.4) Min.
.200 (5.08) ±.030
Meniscus
Free .031
(7.87) Above
Seating Plane
.215 (5.46)
Max.
.260 (6.60)
Max.
1.25 (31.7) Min.
.200 (5.08) ±.030
a
0.04
(1.02)
a = .009 ±.002
.200 (5.08) Max.
.300 (7.62)
Max.
.250 (6.35)
±.030
.230 (5.84)
±.030
Meniscus Free
.031 (.787)
Above
Seating Plane
1.0 (25.4)
Min.
.200 (5.08) Max.
.300 (7.62)
Max.
.250 (6.35)
±.030
.390 (9.91) Max.
.400 (10.16)
Max.
.250 (6.35) ±.030
.230 (5.84)
±.030
LEAD SPACING .300 ±.030
SR27 SR34
(T=.150) (T=.150)
.260 (6.60) Max.
.250 (6.35)
Max.
1.0 (25.4)
Min.
.300 (7.62) ±.030
Meniscus
Free .031
(.787)
Above
Seating
Plane
.300 (7.62) Max.
.350 (8.89)
Max.
1.0 (25.4)
Min.
.300 (7.62) ±.030
Meniscus
Free .031
(.787)
Above
Seating
Plane
LEAD SPACING .375 ±.030
SR38
(T=.150)
.300 (7.62) Max.
.425 (10.8)
Max.
1.0 (25.4)
Min.
.375 (9.53) ±.030
Meniscus Free
.031 (.787)
Above
Seating Plane
.500 (12.7) Max.
.500 (12.7)
Max.
1.0 (25.4)
Min.
.400 (10.16) ±.030
.060 (1.52)
Max.
.500 (12.7)
Max.
.480 (12.2)
Max.
.440 (11.2)
Max.
1.0 (25.4)
Min.
.400 (10.16)
±.030
.025 (0.64)
±.004
.031 (.787)
Min.
Clean Lead
Above Seat
Seating Plane
NOTES: 1. All leads are #24 AWG unless otherwise noted.
2. Available in tape and reel packaging(*).
3. Other styles are also available, contact factory.
4. (T = XXX) under type designation is maximum thickness in inches.
Leads = #22 AWG
.300
(7.62)
MAX.
.350
(8.89)
MAX.
COATING
LIMIT
.200 (5.08) ±.030
1.0 (25.4)
Min.
20
1.14 (.045)
Max. W
W
L
L
T
T
L.D.
L.D.
L.S.
L.S.
31.7 (1.25)
Min.
31.7 (1.25)
Min.
Style MR05
Styles MR04, MR06,
MR07, MR08
Dimensions: Millimeters (Inches)
HOW TO ORDER
AVX Styles: MR04, MR05, MR06, MR07, MR08
Part Number Example:
MR05 1 A 56 1 J A A
AVX Style
Voltage
Dielectric
Sig. Figures of Capacitance
Multiplier (Additional no. of zeros)
Capacitance Tolerance
1
Failure Rate
Leads
GENERAL INFORMATION
AVX MR Series
Molded Radial Leaded MLC
Temperature Coefficients: C0G (NP0), X7R, Z5U
50, 100, 200 Volts
Case Material: Molded Epoxy
Lead Material: Solderable
Part Number Codes
Voltages: 50V = 5, 100V = 1, 200V = 2
Dielectric: C0G (NP0) = A, X7R = C, Z5U = E
Sig. Figures of Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros.
For example, order 560 pF as 561. (For values below 10pF,
use “R” in place of decimal point, e.g., 1R4 = 1.4 pF).
Capacitance Tolerances:
C0G (NP0): D = ±.5pF (<10 pF only), F = ±1.0% (>50 pF only),
G = ±2.0% (>25 pF only), J = ±5%, K = ±10%
X7R: J = ±5%, K = ±10%, M = ±20%
Z5U: M = ±20%, Z = +80%, -20%
Failure Rate: Not Applicable
Leads: A = Standard Solderable
T1= Trimmed Leads, .230" ± .030"
1Trimmed lead length for the MR05 style will be
measured from the bend in the lead (seating plane).
MARKING
Marking is as size permits.
(For code identification, see HOW TO ORDER section.)
— AVX
— Capacitance Tolerance
— Voltage Rating
— Temperature Coefficient
— Date Code
— Lot Code
PACKAGING REQUIREMENTS
Bulk Packaging: 1000 pcs. per sealed package except
MR07/MR08 (300 pcs.).
Tape and Reel: Available on MR04, MR05, and MR06
only (2500 pcs./reel).
Ammo Packaging: Available on special request.
Radial Leads/Ceralam®
21
Radial Leads/Ceralam®
C0G (NP0)
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
*Length, width and thickness dimensions are ±.254 mm (±.010"). Lead diameter is ±.05 mm (±.002"). Lead spacing is ±.381 mm (±.015").
= Industry preferred values
AVX Style MR04 MR05 MR06 MR07 MR08
Length* 4.83 (.190") 4.83 (.190") 7.36 (.290") 12.44 (.490") 12.44 (.490")
Width* 4.83 (.190") 4.83 (.190") 7.36 (.290") 12.44 (.490") 12.44 (.490")
Thickness* 2.28 (.090") 2.28 (.090") 2.28 (.090") 3.55 (.140") 6.09 (.240")
Lead Spacing* 2.54 (.100") 5.08 (.200") 5.08 (.200") 10.16 (.400") 10.16 (.400")
Lead Diameter* .635 (.025") .635 (.025") .635 (.025") .635 (.025") .635 (.025")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC
pF Part Nos.
1.0 MR-----5A1R0DAA
to
9.1 MR-----5A9R1DAA
10 MR-----5A100KAA
12 MR-----5A120KAA
15 MR-----5A150KAA
18 MR-----5A180KAA
22 MR-----5A220KAA
27 MR-----5A270KAA
33 MR-----5A330KAA
39 MR-----5A390KAA
47 MR-----5A470KAA
56 MR-----5A560KAA
68 MR-----5A680KAA
82 MR-----5A820KAA
100 MR-----5A101KAA
120 MR-----5A121KAA
150 MR-----5A151KAA
180 MR-----5A181KAA
220 MR-----5A221KAA
270 MR-----5A271KAA
330 MR-----5A331KAA
390 MR-----5A391KAA
470 MR-----5A471KAA
560 MR-----5A561KAA
680 MR-----5A681KAA
820 MR-----5A821KAA
1000 MR-----5A102KAA
1200 MR-----5A122KAA
1500 MR-----5A152KAA
1800 MR-----5A182KAA
2200 MR-----5A222KAA
2700 MR-----5A272KAA
3300 MR-----5A332KAA
3900 MR-----5A392KAA
4700 MR-----5A472KAA
5600 MR-----5A562KAA
6800 MR-----5A682KAA
8200 MR-----5A822KAA
10,000 MR-----5A103KAA
12,000 MR-----5A123KAA
15,000 MR-----5A153KAA
18,000 MR-----5A183KAA
22,000 MR-----5A223KAA
27,000 MR-----5A273KAA
33,000 MR-----5A333KAA
39,000 MR-----5A393KAA
47,000 MR-----5A473KAA
56,000 MR-----5A563KAA
68,000 MR-----5A683KAA
82,000 MR-----5A823KAA
100,000 MR-----5A104KAA
120,000 MR-----5A124KAA
150,000 MR-----5A154KAA
For trimmed leads see “How To Order”.
For other tolerances see “How To Order”.
For other voltages see “How To Order”.
200 100 50 200 100 50 200 100 50 200 100 50 200 100 50
22
Radial Leads/Ceralam®
X7R
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
*Length, width and thickness dimensions are ±.254 mm (±.010"). Lead diameter is ±.05 mm (±.002"). Lead spacing is ±.381 mm (±.015").
= Industry preferred values
For trimmed leads see “How To Order”.
For other tolerances see “How To Order”.
For other voltages see “How To Order”.
AVX Style MR04 MR05 MR06 MR07 MR08
Length* 4.83 (.190") 4.83 (.190") 7.36 (.290") 12.44 (.490") 12.44 (.490")
Width* 4.83 (.190") 4.83 (.190") 7.36 (.290") 12.44 (.490") 12.44 (.490")
Thickness* 2.28 (.090") 2.28 (.090") 2.28 (.090") 3.55 (.140") 6.09 (.240")
Lead Spacing* 2.54 (.100") 5.08 (.200") 5.08 (.200") 10.16 (.400") 10.16 (.400")
Lead Diameter* .635 (.025") .635 (.025") .635 (.025") .635 (.025") .635 (.025")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC
pF Part Nos.
100 MR-----5C101KAA
120 MR-----5C121KAA
150 MR-----5C151KAA
180 MR-----5C181KAA
220 MR-----5C221KAA
270 MR-----5C271KAA
330 MR-----5C331KAA
390 MR-----5C391KAA
470 MR-----5C471KAA
560 MR-----5C561KAA
680 MR-----5C681KAA
820 MR-----5C821KAA
1000 MR-----5C102KAA
1200 MR-----5C122KAA
1500 MR-----5C152KAA
1800 MR-----5C182KAA
2200 MR-----5C222KAA
2700 MR-----5C272KAA
3300 MR-----5C332KAA
3900 MR-----5C392KAA
4700 MR-----5C472KAA
5600 MR-----5C562KAA
6800 MR-----5C682KAA
8200 MR-----5C822KAA
10,000 MR-----5C103KAA
12,000 MR-----5C123KAA
15,000 MR-----5C153KAA
18,000 MR-----5C183KAA
22,000 MR-----5C223KAA
27,000 MR-----5C273KAA
33,000 MR-----5C333KAA
39,000 MR-----5C393KAA
47,000 MR-----5C473KAA
56,000 MR-----5C563KAA
68,000 MR-----5C683KAA
82,000 MR-----5C823KAA
100,000 MR-----5C104KAA
120,000 MR-----5C124KAA
150,000 MR-----5C154KAA
180,000 MR-----5C184KAA
220,000 MR-----5C224KAA
270,000 MR-----5C274KAA
330,000 MR-----5C334KAA
390,000 MR-----5C394KAA
470,000 MR-----5C474KAA
560,000 MR-----5C564KAA
680,000 MR-----5C684KAA
820,000 MR-----5C824KAA
1.0 µF MR-----5C105KAA
1.2 µF MR-----5C125KAA
1.5 µF MR-----5C155KAA
1.8 µF MR-----5C185KAA
2.0 µF MR-----5C205KAA
2.2 µF MR-----5C225KAA
2.7 µF MR-----5C275KAA
3.3 µF MR-----5C335KAA
3.9 µF MR-----5C395KAA
4.7 µF MR-----5C475KAA
200 100 50 200 100 50 200 100 50 200 100 50 200 100 50
23
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
Radial Leads/Ceralam®
Z5U Dielectric
*Length, width and thickness dimensions are ±.254 mm (±.010"). Lead diameter is ±.05 mm (±.002"). Lead spacing is ±.381 mm (±.015).
= Industry preferred values
For trimmed leads see “How To Order”.
For other tolerances see “How To Order”.
For other voltages see “How To Order”.
AVX Style MR04 MR05 MR06 MR07 MR08
Length* 4.83 4.83 7.36 12.44 12.44
(.190") (.190") (.290") (.490") (.490")
Width* 4.83 4.83 7.36 12.44 12.44
(.190") (.190") (.290") (.490") (.490")
Thickness* 2.28 2.28 2.28 3.55 6.09
(.090") (.090") (.090") (.140") (.240")
Lead* 2.54 5.08 5.08 10.16 10.16
Spacing (.100") (.200") (.200") (.400") (.400")
Lead* .635 .635 .635 .635 .635
Diameter (.025") (.025") (.025") (.025") (.025")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC
pF Part Nos. 100 50 100 50 100 50 100 50 100 50
10,000 MR-----5E103ZAA
12,000 MR-----5E123ZAA
15,000 MR-----5E153ZAA
18,000 MR-----5E183ZAA
22,000 MR-----5E223ZAA
27,000 MR-----5E273ZAA
33,000 MR-----5E333ZAA
39,000 MR-----5E393ZAA
47,000 MR-----5E473ZAA
56,000 MR-----5E563ZAA
68,000 MR-----5E683ZAA
82,000 MR-----5E823ZAA
100,000 MR-----5E104ZAA
120,000 MR-----5E124ZAA
150,000 MR-----5E154ZAA
180,000 MR-----5E184ZAA
220,000 MR-----5E224ZAA
270,000 MR-----5E274ZAA
330,000 MR-----5E334ZAA
390,000 MR-----5E394ZAA
470,000 MR-----5E474ZAA
560,000 MR-----5E564ZAA
680,000 MR-----5E684ZAA
820,000 MR-----5E824ZAA
1.0 µF MR-----5E105ZAA
1.2 µF MR-----5E125ZAA
1.5 µF MR-----5E155ZAA
1.8 µF MR-----5E185ZAA
2.2 µF MR-----5E225ZAA
2.7 µF MR-----5E275ZAA
3.3 µF MR-----5E335ZAA
3.9 µF MR-----5E395ZAA
4.7 µF MR-----5E475ZAA
5.6 µF MR-----5E565ZAA
6.8 µF MR-----5E685ZAA
8.2 µF MR-----5E825ZAA
10.0 µF MR-----5E106ZAA
24
STANDARD 2
STANDARD 1
Radial Leads/Packaging
Tape and Reel The Insertables
GENERAL INFORMATION
1. Standard reel diameter is 355 millimeters (14 inches) maximum.
2. Reeling standard (#1 or #2) should be specified when ordering.
HOW TO ORDER
To specify tape and reel packaging, add TR1, TR2 or TRX to the
end of the AVX 12 digit part number.
Examples:
SR215C104KAATR1
SR305E105MAATR2
SR215C103JAATRX
32 mm max.
16 ± 0.5 mm
SR07 SR29 SR59 SR65 SR75
32 mm max.
19 mm min.
SR07 SR29 SR59 SR65 SR75
STANDARD 1
32 max.
16 ± .5
SR29 SR28 SR12 SR21 SR13 SR32 MR05
32 max.
16 min.
SR15 MR06 SR30 SR40
20 +1.5
-1.0
SR21 SR32 SR63
(TRX) (TRX) (TRX) SR20
Dimensions in Millimeters
STANDARD 2
32 max.
19 min.
SR29 SR28 SR12 SR21 SR13 SR32 MR05
32 max.
19 min.
SR15 MR06 SR30 SR40
SR20
Dimensions in Millimeters
T
K
ED
B
A
L
Q
C
W
R
F
S
S
ONMX
DESCRIPTION
A. Feed Hole Pitch
B. Feed Hole Diameter
C. Feed Hole Location
D. Component Lead Spacing
E. Component Lead Location
F. Component Lead Protrusion
(edge of carrier to cut end of lead)
K. Component Body Location
L. Carrier Tape Width
M. Carrier Tape Assembly Thickness
N. Carrier Tape Spliced Thickness
O. Carrier Tape Spliced Length
Q. Adhesive Tape Border
R. Component Bent Leads (either direction)
S. Component Misalignment
T. Component Pitch
W. Adhesive Tape Width
X. Carrier Tape Thickness
Y. Cumulative Pitch over 20 Pitches
DIMENSIONS (MM)
12.70 ± .20
3.99 ± .20
9.02 ± .51
5.00+.79 or 2.54 +.79
-.20 -.20
3.81 ±.51 or 5.00 ±.51
for 2.54 lead spacing
2.00 maximum
6.35 ±.41
18.01 +1.02
-.51
.71 ± .20
1.42 maximum
50.80 - 88.90
3.00 maximum
.79 maximum
.99 maximum
12.70 ±.99
5.00 minimum
.51 ±.10
254 ±2.00
25
Radial Leads/Packaging
REEL DIRECTION
Leads on top of
carrier strip,
body away
Unreel from
LEFT to RIGHT
OVER TOP of reel
QUANTITY PER REEL
PART PCS
SR15, 07, 12 3500
SR20, 21, 23, 28
13, 29, 59, 62, 89 3000
SR30, 32, 40, 63, 64
65, 75 2000
MR05, 06 2500
G
A
D
F
E
CB
DESCRIPTION
A – Reel Diameter
B – Reel Outside Width
C – Reel Inside Width
D – Core Diameter (O.D.)
E – Hub Recess Diameter
F – Hub Recess Depth
G – Arbor Hole Diameter
DIMENSIONS (MM)
304.80 - 355
50.80 maximum
38.10 - 46.02
102.01 maximum
86.36 maximum
9.50 minimum
25.40 - 30.48
CONVERSION TABLE
MM IN MM IN MM IN MM IN MM IN
.10
.20
.38
.41
.51
.71
.79
.99
1.02
1.42
.004
.007
.015
.016
.020
.028
.031
.039
.040
.056
1.52
2.00
2.54
3.00
3.18
3.48
3.81
3.99
4.45
4.98
.060
.079
.100
.118
.125
.137
.150
.157
.175
.196
5.00
5.08
6.22
6.35
6.60
6.99
7.62
8.89
9.02
9.50
.197
.200
.245
.250
.260
.275
.300
.350
.355
.374
9.91
10.03
10.16
11.68
12.50
12.70
16.00
18.01
25.40
30.48
.390
.395
.400
.460
.492
.500
.630
.709
1.000
1.200
32.00
38.10
46.02
50.80
86.36
88.90
102.01
254.00
304.80
355.00
1.260
1.500
1.812
2.000
3.400
3.500
4.016
10.000
12.000
14.000
26
Two Pin DIP/DIPGuard®
L
SEE
NOTE 1
SEE
NOTE 2
.012
±.004
.325
±.035
.400 max.
T
MAX.
MAX.
H
MAX.
H
.015 .148
±.028
MIN.
.019 ± .004
.0575 ± .0125
12
Note 1 = Leads centered within ±.010"
Note 2 = Angle shall be 95°, +10°, -5°.019 ±.004
.010 MAX.
60° TYP.
±20°
±.005
.025 ±.002
.123 DIA. THRU 2 HOLES
L
WT
HOHC
HI
WC
WI
WO
See Table
MARKING
Part Number Example
MD015 E 104MAB Top of Unit:
A5 E 104 M
Voltage
Y, 1, or 5 3 Digit Code
For Capacitance
Dielectric
A = C0G (NP0)
C = X7R
E = Z5U
G = Y5V
PACKAGING REQUIREMENTS
Standard Packaging: 200 pieces per slide pack.
Slide Package Dimensions
MD01 MD02 MD03
(H
O
) Overall Height .400 ref. .430 ref. .545 ref.
(H
C
) Channel Height .141 ± .006 .171 ± .006 .295 ± .010
(H
I
) Inside Height .350 .380 .495
(W
O
) Overall Width .540 ref. .540 ref. .600 ref.
(W
I
) Inside Width .490 .490 .550
(W
C
) Channel Width .210 .210 .170
(W
T
) Top Width .350 .310 .300
(L) Length 20.073 ± .06 20.073 ± .06 20.073 ± .06
HOW TO ORDER
AVX Styles: MD01, CKR22*, CKS22**, MD02, CKR23*,
CKS23**, MD03, CKR24*, CKS24**
Part Number Example
MD01 5 E 10 4 M A B
AVX Style
Voltage
Temperature Coefficient
Sig. Figures of Capacitance
Multiplier (Additional no. of zeros)
Capacitance Tolerance
Failure Rate Not Applicable
Assembly Method
GENERAL INFORMATION
AVX MD Series
Temperature Coefficients: C0G (NP0), X7R, Z5U, Y5V
50, 100 Volts
For established reliability DIPGuards see MIL-C-39014 section
on pages 47 to 52.
Part Number Codes
Voltages: 16V = Y, 50V = 5, 100V = 1
Temp. Coefficient: C0G (NP0) = A, X7R = C,
Z5U = E, Y5V = G
Sig. Figures Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 100,000 pF as 104.
Capacitance Tolerances:
C0G (NP0): F = ±1%, J = ±5%, K= ±10%
X7R: J = ±5%, K = ±10%, M = ±20%
Z5U: M = ±20%, Z = +80%, -20%
Y5V: M = ±20%, Z = +80%, -20%
Failure Rate: A = Not Applicable
Assembly Method: A = Hand Assembled,
B = Automated Assembly
* Reference pages 47 to 52.
** Reference page 67.
Tolerance
Code
AVX
27
Two Pin DIP/DIPGuard®
SIZE SPECIFICATIONS
MILITARY CROSS REFERENCE GUIDE
Note: For CKR22/23/24, see MIL-C-39014 section in the Military Section pages 47 thru 52.
CAPACITANCE SPECIFICATIONS
C0G (NP0) X7R Z5U
AVX Style MIL-C-39014 Length (L) Height (H
1
) Height (H
2
) Thickness
MD01 CKR22 6.60 3.43 4.19 2.54
(.260 ± .020) (.135 max.) (.165 max.) (.092 ± .006)
MD02 CKR23 6.60 4.19 5.08 2.54
(.260 ± .020) (.162 max.) (.195 max.) (.092 ± .006)
MD03 CKR24 6.60 7.37 8.13 2.54
(.260 ± .020) (.290 max.) (.320 max.) (.092 ± .006)
For other voltages and tolerances see Part No. Codes.
For other voltages and tolerances see Part No. Codes.
EIA
Characteristic X7R
AVX Style MD01
Cap. in WVDC
pF* 100 50
220 MD015C221KAB
330 MD015C331KAB
470 MD015C471KAB
680 MD015C681KAB
1000 MD015C102KAB
1500 MD015C152KAB
2200 MD015C222KAB
3300 MD015C332KAB
4700 MD015C472KAB
6800 MD015C682KAB
10,000 MD011C103KAB
15,000 MD015C153KAB
22,000 MD015C223KAB
33,000 MD015C333KAB
47,000 MD015C473KAB
68,000 MD015C683KAB
100,000 MD015C104KAB
AVX Style MD02
Cap. in WVDC
pF* 100 50
150,000 MD025C154KAB
220,000 MD025C224KAB
AVX Style MD03
Cap. in WVDC
pF* 100 50
330,000 MD035C334KAA
470,000 MD035C474KAA
680,000 MD035C684KAA
1,000,000 MD035C105KAA
For other voltages and tolerances see Part No. Codes.
*Other capacitance values available
upon special request.
= Industry preferred values
Dimensions: Millimeters (Inches)
Dimensions: Millimeters (Inches)
AVX Style Length (L) Height (H
1
) Height (H
2
) Thickness
MD01 6.60 3.43 4.19 2.54
(.260 ± .020) (.135 max.) (.165 max.) (.098 max.)
MD02 6.60 4.19 5.08 2.54
(.260 ± .020) (.162 max.) (.195 max.) (.098 max.)
MD03 6.60 7.37 8.13 2.54
(.260 ± .020) (.290 max.) (.320 max.) (.098 max.)
EIA
Characteristic C0G (NP0)
AVX Style MD01
Cap. in WVDC
pF* 100 50
10 MD015A100KAB
15 MD015A150KAB
22 MD015A220KAB
33 MD015A330KAB
47 MD015A470KAB
68 MD015A680KAB
100 MD015A101KAB
150 MD015A151KAB
220 MD015A221KAB
330 MD015A331KAB
470 MD015A471KAB
680 MD015A681KAB
1000 MD015A102KAB
1500 MD015A152KAB
2200 MD015A222KAB
3300 MD015A332KAB
AVX Style MD02
Cap. in WVDC
pF* 100 50
4700 MD025A472KAB
6800 MD025A682KAB
10000 MD025A103KAB
EIA
Characteristic Z5U
AVX Style MD01
Cap. in WVDC
pF* 100 50
10,000 MD015E103ZAB
15,000 MD015E153ZAB
22,000 MD015E223ZAB
33,000 MD015E333ZAB
47,000 MD015E473ZAB
68,000 MD015E683ZAB
100,000 MD015E104ZAB
150,000 MD015E154ZAB
220,000 MD015E224ZAB
330,000 MD015E334ZAB
AVX Style MD02
Cap. in WVDC
pF* 100 50
470,000 MD025E474ZAB
AVX Style MD03
Cap. in WVDC
pF* 100 50
680,000 MD035E684ZAA
1,000,000 MD035E105ZAA
EIA
Characteristic Y5V
AVX Style MD01
Cap. in WVDC
pF* 16
1,000,000 MD01YG105ZAB
2,200,000 MD01YG225ZAB
3,300,000 MD01YG335ZAB
AVX Style MD02
Cap. in WVDC
pF* 100 50
1,000,000 MD025G105ZAB
Y5V
28
Axial Leads/SpinGuard®
D
Max.
Max.
L
Lead Length
Min.
L.D.
A5E
104
ZAB
910
VOLTAGE
(5 = 50V) TC
(E = Z5U)
AVX
TOLERANCE
(Z = +80, -20%)
YEAR (1999) WEEK (10th)
CAP CODE
AND MULTIPLIER
ALPHA-ALPHA,
LOT CODE
AB=LOT #2 IN WEEK
SA105E104ZAA
LOT CODE/DATE CODE
=910AB
MARKING (Example)
SpinGuard marking includes full date code/lot code identifi-
cation. A first in the industry, this format provides complete
traceability to all manufacturing processes involving the
basic chip and final assembly. Total Shipment traceability is
also provided.
PACKAGING REQUIREMENTS
A = Standard Reels (see Page 38)
B = 1000 piece reels (distributors only, tight tolerance only)
C = Ammo Pack (see Page 38)
D thru J = See Special Lead Configurations (Page 32)
L = Twin Coat Leads (95/5 Flash Tin/Lead)
M = 26mm tape and reel
N = 26mm ammo pack
HOW TO ORDER
AVX Styles: SA05, SA10, SA11, SA20, SA30, SA40
Part Number Example
SA10 5 E 10 4 Z A A
Conformal Axial Size
Voltage
Dielectric
Sig. Figures of Capacitance
Multiplier (Additional no. of zeros)
Capacitance Tolerance
Failure Rate
Packaging/Leads
GENERAL DESCRIPTION
AVX SA Series
Conformally Coated Axial Leaded MLC
Temperature Coefficients: C0G (NP0), X7R , Z5U
50, 100, 200 Volts
Case Material: Epoxy (Flame Retardant to UL Bulletin
492, Par. 280)
Lead Material: Solderable
Part Number Codes
Voltages: 50V = 5, 100V = 1, 200V = 2
Dielectric: C0G (NP0) = A, X7R = C, Z5U = E
Sig. Figures of Capacitance and Multiplier: First two
digits are the significant figures of capacitance. Third
digit indicates the additional number of zeros. For exam-
ple, order 100,000 pF as 104. (For values below 10 pF,
use “R” in place of decimal point, e.g., 1R4 = 1.4 pF).
Capacitance Tolerances:
C0G (NP0): C = ±0.25 pF, D = ±.5 pF, F = ±1%,
G = ±2%, J = ±5%, K = ±10%
X7R: J = ±5%, K = ±10%, M = ±20%
Z5U: M = ±20%, Z = +80%, -20%
Failure Rate: Not Applicable
Leads: Standard (Solderable)
AZ
104
9AB
AVX TOLERANCE
(Z = +80%, -20%)
YEAR (1999)
CAP CODE
AND MULTIPLIER
LOT CODE
SA055E104ZAA
LOT CODE/DATE CODE
=9AB
SA10, 11, 20, 30, 40
SA05
29
Axial Leads/SpinGuard®
C0G (NP0) Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
= Industry preferred values
For other tolerances see Part No. Codes
For other voltages see Part No. Codes
AVX Style
*“C&D” Tolerance Only
AVX Style SA05 SA10 SA11 SA20 SA30 SA40
Length 3.00 4.32 4.32 6.60 7.37 10.16
(L) (.118") (.170") (.170") (.260") (.290") (.400")
Diameter 2.30 2.54 3.05 2.54 3.81 3.81
(D) (.090") (.100") (.120") (.100") (.150") (.150")
Lead .407 .483 .483 .483 .483 .483
Diameter (.016") (.019") (.019") (.019") (.019") (.019")
Lead 25.4 25.4 25.4 25.4 25.4 25.4
Length (1.00") (1.00") (1.00") (1.00") (1.00") (1.00")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC WVDC
pF Part Nos. 200 100 200 100 50 100 50 100 50 100 50 100 50
1.0* SA102A1R0DAA
++
9.1* SA102A9R1DAA
10 SA102A100JAA
12 SA102A120JAA
15 SA102A150JAA
18 SA102A180JAA
22 SA102A220JAA
27 SA102A270JAA
33 SA102A330JAA
39 SA102A390JAA
47 SA102A470JAA
56 SA102A560JAA
68 SA102A680JAA
82 SA102A820JAA
100 SA102A101JAA
120 SA102A121JAA
150 SA101A151JAA
180 SA101A181JAA
220 SA101A221JAA
270 SA101A271JAA
330 SA101A331JAA
390 SA101A391JAA
470 SA101A471JAA
560 SA101A561JAA
680 SA101A681JAA
820 SA101A821JAA
1000 SA105A102JAA
1200 SA201A122JAA
1500 SA201A152JAA
1800 SA205A182JAA
2200 SA301A222JAA
2700 SA301A272JAA
3300 SA301A332JAA
3900 SA301A392JAA
4700 SA305A472JAA
5600 SA401A562JAA
6800 SA401A682JAA
8200 SA405A822JAA
10,000 SA405A103JAA
12,000 SA405A123JAA
30
Axial Leads/SpinGuard®
X7R Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
= Industry preferred values
For other tolerances see Part No. Codes
For other voltages see Part No. Codes
AVX Style
AVX Style SA05 SA10 SA11 SA20 SA30 SA40
Length 3.00 4.32 4.32 6.60 7.37 10.16
(L) (.118") (.170") (.170") (.260") (.290") (.400")
Diameter 2.30 2.54 3.05 2.54 3.81 3.81
(D) (.090") (.100") (.120") (.100") (.150") (.150")
Lead .407 .483 .483 .483 .483 .483
Diameter (.016") (.019") (.019") (.019") (.019") (.019")
Lead 25.4 25.4 25.4 25.4 25.4 25.4
Length (1.00") (1.00") (1.00") (1.00") (1.00") (1.00")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC WVDC
pF Part Nos. 200 100 50 200 100 50 100 50 100 50 100 50 100 50
220 SA102C221KAA
270 SA102C271KAA
330 SA102C331KAA
390 SA102C391KAA
470 SA102C471KAA
560 SA101C561KAA
680 SA101C681KAA
820 SA101C821KAA
1000 SA101C102KAA
1200 SA101C122KAA
1500 SA101C152KAA
1800 SA101C182KAA
2200 SA101C222KAA
2700 SA101C272KAA
3300 SA101C332KAA
3900 SA101C392KAA
4700 SA101C472KAA
5600 SA101C562KAA
6800 SA101C682KAA
8200 SA105C822KAA
10,000 SA105C103KAA
12,000 SA105C123KAA
15,000 SA105C153KAA
18,000 SA105C183KAA
22,000 SA105C223KAA
27,000 SA105C273KAA
33,000 SA105C333KAA
39,000 SA105C393KAA
47,000 SA105C473KAA
56,000 SA115C563KAA
68,000 SA115C683KAA
82,000 SA115C823KAA
100,000 SA115C104KAA
120,000 SA305C124KAA
150,000 SA305C154KAA
180,000 SA305C184KAA
220,000 SA305C224KAA
270,000 SA305C274KAA
330,000 SA305C334KAA
470,000 SA405C474KAA
31
Axial Leads/SpinGuard®
Z5U Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
= Industry preferred values
For other tolerances see Part No. Codes
For other voltages see Part No. Codes
AVX Style
*Preferred Industry Decoupling Capacitor — Insertable on .300" centers.
SA105E104ZAA
AVX Style SA05 SA10 SA11 SA20 SA30 SA40
Length 3.00 4.32 4.32 6.60 7.37 10.16
(L) (.118") (.170") (.170") (.260") (.290") (.400")
Diameter 2.30 2.54 3.05 2.54 3.81 3.81
(D) (.090") (.100") (.120") (.100") (.150") (.150")
Lead .407 .483 .483 .483 .483 .483
Diameter (.016") (.019") (.019") (.019") (.019") (.019")
Lead 25.4 25.4 25.4 25.4 25.4 25.4
Length (1.00") (1.00") (1.00") (1.00") (1.00") (1.00")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC WVDC
pF Part Nos. 50 100 50 100 50 100 50 100 50 100 50
10,000 SA105E103ZAA
15,000 SA105E153ZAA
22,000 SA105E223ZAA
33,000 SA105E333ZAA
47,000 SA105E473ZAA
68,000 SA105E683ZAA
*
100,000 SA105E104ZAA
150,000 SA105E154ZAA
220,000 SA105E224ZAA
330,000 SA115E334ZAA
470,000 SA305E474ZAA
680,000 SA305E684ZAA
820,000 SA305E824ZAA
1,000,000 SA305E105ZAA
32
Axial Leads/SpinGuard®
Extended Range SpinGuards
GENERAL SPECIFICATIONS
Capacitance Range
220,000 pF, 330,000 pF, 1,000,000 pF
Capacitance Tolerances
±20%, [+80 -20]%
Operating Temperature Range
Z5U = +10°C to +85°C
Temperature Characteristics
E = Z5U
Voltage Ratings
50 Vdc
Dissipation Factor 25°C
Z5U = 4.0% max. at 1 KHz, .3 VRMS
Insulation Resistance 25°C (MIL-STD-202-Method 302)
Z5U = 10 K megohms or 100 megohms - µF minimum,
whichever is less
Dielectric Strength
Z5U = 200% of rated voltage
Moisture Resistance (MIL-STD-202-Method 106)
Immersion Cycling (MIL-STD-202-Method 104, condition B)
For current reliability information, consult factory.
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
*Automatically insertable on 0.300" centers (see page 38 for reel packing details)
** RAMGuard: the 0.33 µF value capacitance is recommended for decoupling
256K and 1 Meg Dynamic RAMs.
AVX Style SA11* SA30
Length 4.32 7.37
(L) (.170") (.290")
Diameter 3.05 3.81
(D) (.120") (.150")
0.22 µF SA115E224ZAA
0.33 µF **SA115E334ZAA
1.0 µF SA305E105ZAA
Dimensions: Millimeters
(Inches)
D
Max.
0.483 ±.05
(.019" ±.002")
L
Max.
25.4 (1.0")
Min. Lead Length
ELECTRICAL PERFORMANCE
CHARACTERISTICS AT TYPICAL 256K DRAM
OPERATING CONDITIONS
Parameter Test Conditions Mi. Typ. Max. Unit
VLdi/dt = 200 ma/10 ns — 80 90 mv
Inductance, L — 4.0 4.5 nh
dv/dt 20 ns after pulse
di/dt = 200 ma/10 ns — 0.53 — mv/ns
Capacitance, C .24 .33 — µF
ESR Resonance Freq., 4-5 MHz — .03 .08 Ω
Impedance (Total) 100 MHz (HP- 4192A) — 4.4 5.0 Ω
Recovery Time, tR—20 — ns
Special Lead Configurations
Dimensions — Body dimensions Per Standard SpinGuard Configurations.
Formed dimensions as shown for types D, E, F, G, H, I, & J configurations.
Radial Axial
D E F G = .300" L.S. I = .500" L.S.
Single Crimp Dual Crimp No Crimp H = .400" L.S. J = .600" L.S.
Formed Dimensions:
LEAD SPACING* SEATED HEIGHT (Max.)
Nom. D & E F G, H, I & J
SA10 .2" .525" .300" .100"
SA20 .2" .570" .375" .100"
SA30 .2" .580" .425" .150"
SA40 .2" .650" .460" .150"
*Lead spacing can be varied by user to cover .1"-.3" spacing requirements for F, D, and E styles.
33
HOW TO ORDER
AVX Style: MC02
Part Number Example MC02 Y C 222 K A A
Style
Voltage
Temperature Characteristic
Sig. Figures of Cap. & Mult.
Capacitance Tolerance Code
Failure Rate
Packaging Std.
Axial Leads/Mini-Ceramic Capacitor®
GENERAL DESCRIPTION
AVX’s new mini-ceramic capacitor
(MC02) is only 0.040" thick by 0.050"
wide by 0.100" long, the same size as
AVX’s MINITAN (TMH Series) “W”
case size. This allows the lower value
ceramic multilayer capacitors to fit
into the same designs as the AVX tan-
talum capacitor’s “W” size. It uses the
same solder coated pure nickel lead
wire suitable for either soldering
or welding.
Part Number Codes
Voltages: 6.3V = 6, 16V = Y, 10V = Z
Dielectric: X7R = C, Y5V = G
Sig. Figures of Capacitance and
Multiplier: First two digits are the
significant figures of capacitance.
Third digit indicates the additional
number of zeros. For example,
order 100,000 pF as 104. (For val-
ues below 10 pF, use “R” in place of
decimal point, e.g., 1R4 = 1.4 pF.)
Capacitance Tolerances:
X7R: J = ±5%, K = ±10%,
M = ±20%
Failure Rate: Not Applicable
Packaging Standard:
100 pieces per bag
1.1
(0.040)
Max.
1.3
(0.050)
Max.
.18 ±.035
(.007 ±.001)
1.3
(0.050)
Max.
0.825
(0.030)
1.1
(0.040)
Max.
1.3
(0.050)
Max.
2.5
(0.100)
Max.
2.5
(0.100)
Max.
2.9
(0.115)
Max.
1.9
(0.075)
Max.
.18 ±.035
(.007 ±.001)
Dimensions: mm (inch)
MC01 MC02 MC03
1.0
(0.040)
Max.
1.0
(0.040)
Max.
.18 ±.035
(.007 ±.001)
1.9
(0.075)
Max.
MC04
Cap. in Typical AVX
pF Part Nos.
MC02
1000 MC02YC102KAA
1500 MC02YC152KAA
2200 MC02YC222KAA
3300 MC02YC332KAA
4700 MC02YC472KAA
5600 MC02YC562KAA
6800 MC02YC682KAA
8200 MC02YC822KAA
10,000 MC02YC103KAA
15,000 MC02YC153KAA
22,000 MC02YC223KAA
33,000 MC02YC333KAA
47,000 MC02YC473KAA
68,000 MC02YC683KAA
100,000 MC02YC104KAA
150,000 MC026C154KAA
220,000 MC026C224KAA
470,000 MC026C474KAA
1,000,000 MC026C105KAA
Capacitance Specifications
Cap. in Typical AVX
pF Part Nos.
MC04
1000 MC04YC102KAA
1500 MC04YC152KAA
2200 MC04YC222KAA
3300 MC04YC332KAA
4700 MC04YC472KAA
5600 MC04YC562KAA
6800 MC04YC682KAA
8200 MC04YC822KAA
10,000 MC04YC103KAA
15,000 MC04YC153KAA
22,000 MC04YC223KAA
33,000 MC046C333KAA
47,000 MC046C473KAA
68,000 MC046C683KAA
100,000 MC046C104KAA
Cap. in Typical AVX
pF Part Nos.
MC01
1000 MC01YC102KAR
1500 MC01YC152KAR
2200 MC01YC222KAR
3300 MC01YC332KAR
4700 MC01YC472KAR
5600 MC01YC562KAR
6800 MC01YC682KAR
8200 MC01YC822KAR
10,000 MC01YC103KAR
15,000 MC01YC153KAR
22,000 MC01YC223KAR
33,000 MC016C333KAR
47,000 MC016C473KAR
68,000 MC016C683KAR
100,000 MC016C104KAR
Cap. in Typical AVX
pF Part Nos.
MC03
µF X7R µF Y5V
.33 MC03ZC334KAA 2.2 MC03ZG225ZAA
.47 MC03ZC474KAA
1.0 MC03ZC105KAA
1.0 MC03YC105KAA
MARKING
Three digit Capacitance Code
Color coded Capacitance Tolerance:
±5% = Gold Dot
±10% = Silver Dot
34
GENERAL DESCRIPTION
AVX MA Series
Molded Axial Leaded MLC
Temperature Coefficient: C0G (NP0), X7R, Z5U
50V, 100V and 200V
Case Material: Molded Epoxy
Lead Material: Solderable
Part Number Codes
Voltages: 50V = 5, 100V = 1, 200V = 2
Dielectric: C0G (NP0) = A, X7R = C, Z5U = E
Sig. Figures of Capacitance and Multiplier: First two digits are
the significant figures of capacitance. Third digit indicates the
additional number of zeros. For example, order 100,000 pF as
104. (For values below 10 pF, use “R” in place of decimal
point, e.g., 1R4 = 1.4 pF).
Capacitance Tolerances:
C0G (NP0): F = ±1.0%, J = ±5%, K = ±10%,
M = ±20%, D = ±.5pF <10 pF only
X7R: J = ±5%, K = ±10%, M = ±20%
Z5U: M = ±20%, Z = +80%, -20%
Failure Rate: Not Applicable
Leads: Standard
‡ C tolerance available C0G (NP0) from 1.0 to 9.1 pF only. Minimum
tolerance for values 10 pF - 100 pF is D or F whichever is greater.
Axial Leads/Ceralam®
L
LD
D
Lead Length
Min.
A5E
104
ZAA
910
HOW TO ORDER
AVX Styles: MA10, MA20, MA30, MA40, MA50, MA60
Part Number Example
MA10 5 E 10 4 Z A A
Molded Axial Size
Voltage
Dielectric
Sig. Figures of Capacitance
Multiplier (Additional no. of zeros)
Capacitance Tolerance
Failure Rate
Leads
MARKING (Example)
Line 1, A (for AVX), 5 = 50 Volts (V is optional), E = TC
Line 2, 104Z = Capacitance Code
Line 3, Tolerance, 2 digit Lot Code
Date Code: 9 = 1999
10 = Week
Four Digit Date Code Optional
Per MIL-Spec Case Size
AVX Lead
Style MIL-C-11015 MIL-C-39014 MIL-C-20 Length (L) Diameter (D) Diameter (LD)
MA10 CK12 CKR11 CCR75/CC75 4.07 ± .25 2.29 ± .25 .48 ± .05
(.160" ± .010") (.090" ± .010") (.019" ± .002")
MA20 CK13 CKR12 CCR76/CC76 6.35 ± .25 2.29 ± .25 .48 ± .05
(.250" ± .010") (.090" ± .010") (.019" ± .002")
MA40 CK14 CKR14 CCR77/CC77 9.91 ± .25 3.56 ± .25 .63 ± .05
(.390" ± .010") (.140" ± .010") (.025" ± .002")
MA50 CK15 CKR15 CCR78/CC78 12.7 ± .51 6.35 ± .38 .63 ± .05
(.500" ± .020") (.250" ± .015") (.025" ± .002")
MA60 CK16 CKR16 CCR79/CC79 17.53 ± .51 8.89 ± .51 .63 ± .05
(.690" ± .020") (.350" ± .015") (.025" ± .002")
For Military/Established Reliability Molded/Axial Lead see MIL-C-11015, MIL-C-39014, MIL-C-20 Section. Dimensions: Millimeters (Inches)
MILITARY CROSS REFERENCE AND DIMENSIONS GUIDE
35
Axial Leads/Ceralam®
C0G (NP0) Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
For other tolerances see Part No. Codes
For other voltages see Part No. Codes.
AVX Style
200 100 50 200 100 50 200 100 50 200 100 50 200 100 50 200 100 50
AVX Style MA10 MA20 MA30 MA40 MA50 MA60
Length 4.07 ± .25 6.35 ± .25 6.09 ± .25 9.91 ± .25 12.7 ± .51 17.53 ± .51
(.160" ± .010") (.250" ± .010") (.240" ± .010") (.390" ± .010") (.500" ± .020") (.690" ± .020")
Diameter 2.29 ± .25 2.29 ± .25 3.30 ± .25 3.56 ± .25 6.35 ± .38 8.89 ± .51
(.090" ± .010") (.090" ± .010") (.130" ± .010") (.140" ± .010") (.250" ± .015") (.350" ± .015")
Lead .48 ± .05 .48 ± .05 .48 ± .05 .63 ± .05 .63 ± .05 .63 ± .05
Diameter (.019" ± .002") (.019" ± .002") (.019" ± .002") (.025" ± .002") (.025" ± .002") (.025" ± .002")
Lead 25.4 25.4 25.4 25.4 25.4 25.4
Length (1.00") (1.00") (1.00") (1.00") (1.00") (1.00")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC WVDC
pF Part Nos.
1.0 MA-----5A1R0DAA
to
9.1 MA-----5A9R1DAA
10 MA-----5A100KAA
12 MA-----5A120KAA
15 MA-----5A150KAA
18 MA-----5A180KAA
22 MA-----5A220KAA
27 MA-----5A270KAA
33 MA-----5A330KAA
39 MA-----5A390KAA
47 MA-----5A470KAA
56 MA-----5A560KAA
68 MA-----5A680KAA
82 MA-----5A820KAA
100 MA-----5A101KAA
120 MA-----5A121KAA
150 MA-----5A151KAA
180 MA-----5A181KAA
220 MA-----5A221KAA
270 MA-----5A271KAA
330 MA-----5A331KAA
390 MA-----5A391KAA
470 MA-----5A471KAA
560 MA-----5A561KAA
680 MA-----5A681KAA
820 MA-----5A821KAA
1000 MA-----5A102KAA
1200 MA-----5A122KAA
1500 MA-----5A152KAA
1800 MA-----5A182KAA
2200 MA-----5A222KAA
2700 MA-----5A272KAA
3300 MA-----5A332KAA
3900 MA-----5A392KAA
4700 MA-----5A472KAA
5600 MA-----5A562KAA
6800 MA-----5A682KAA
8200 MA-----5A822KAA
10,000 MA-----5A103KAA
12,000 MA-----5A123KAA
15,000 MA-----5A153KAA
18,000 MA-----5A183KAA
22,000 MA-----5A223KAA
27,000 MA-----5A273KAA
33,000 MA-----5A333KAA
39,000 MA-----5A393KAA
47,000 MA-----5A473KAA
56,000 MA-----5A563KAA
68,000 MA-----5A683KAA
82,000 MA-----5A823KAA
100,000 MA-----5A104KAA
120,000 MA-----5A124KAA
150,000 MA-----5A154KAA
36
Axial Leads/Ceralam®
X7R Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
For other tolerances see Part No. Codes
For other voltages see Part No. Codes.
AVX Style
200 100 50 200 100 50 200 100 50 200 100 50 200 100 50 200 100 50
AVX Style MA10 MA20 MA30 MA40 MA50 MA60
Length 4.07 ± .25 6.35 ± .25 6.09 ± .25 9.91 ± .25 12.7 ± .51 17.53 ± .51
(.160" ± .010") (.250" ± .010") (.240" ± .010") (.390" ± .010") (.500" ± .020") (.690" ± .020")
Diameter 2.29 ± .25 2.29 ± .25 3.30 ± .25 3.56 ± .25 6.35 ± .38 8.89 ± .51
(.090" ± .010") (.090" ± .010") (.130" ± .010") (.140" ± .010") (.250" ± .015") (.350" ± .015")
Lead .48 ± .05 .48 ± .05 .48 ± .05 .63 ± .05 .63 ± .05 .63 ± .05
Diameter (.019" ± .002") (.019" ± .002") (.019" ± .002") (.025" ± .002") (.025" ± .002") (.025" ± .002")
Lead 25.4 25.4 25.4 25.4 25.4 25.4
Length (1.00") (1.00") (1.00") (1.00") (1.00") (1.00")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC WVDC
pF Part Nos.
220 MA-----5C221KAA
270 MA-----5C271KAA
330 MA-----5C331KAA
390 MA-----5C391KAA
470 MA-----5C471KAA
560 MA-----5C561KAA
680 MA-----5C681KAA
820 MA-----5C821KAA
1000 MA-----5C102KAA
1200 MA-----5C122KAA
1500 MA-----5C152KAA
1800 MA-----5C182KAA
2200 MA-----5C222KAA
2700 MA-----5C272KAA
3300 MA-----5C332KAA
3900 MA-----5C392KAA
4700 MA-----5C472KAA
5600 MA-----5C562KAA
6800 MA-----5C682KAA
8200 MA-----5C822KAA
10,000 MA-----5C103KAA
12,000 MA-----5C123KAA
15,000 MA-----5C153KAA
18,000 MA-----5C183KAA
22,000 MA-----5C223KAA
27,000 MA-----5C273KAA
33,000 MA-----5C333KAA
39,000 MA-----5C393KAA
47,000 MA-----5C473KAA
56,000 MA-----5C563KAA
68,000 MA-----5C683KAA
82,000 MA-----5C823KAA
100,000 MA-----5C104KAA
120,000 MA-----5C124KAA
150,000 MA-----5C154KAA
180,000 MA-----5C184KAA
220,000 MA-----5C224KAA
270,000 MA-----5C274KAA
330,000 MA-----5C334KAA
390,000 MA-----5C394KAA
470,000 MA-----5C474KAA
560,000 MA-----5C564KAA
680,000 MA-----5C684KAA
820,000 MA-----5C824KAA
1.0 µF MA-----5C105KAA
1.2 µF MA-----5C125KAA
1.5 µF MA-----5C155KAA
1.8 µF MA-----5C185KAA
2.2 µF MA-----5C225KAA
2.7 µF MA-----5C275KAA
3.3 µF MA-----5C335KAA
3.9 µF MA-----5C395KAA
37
Axial Leads/Ceralam®
Z5U Dielectric
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: Millimeters (Inches)
For other tolerances see Part No. Codes
For other voltages see Part No. Codes.
AVX Style
200 100 50 200 100 50 200 100 50 200 100 50 200 100 50 200 100 50
AVX Style MA10 MA20 MA30 MA40 MA50 MA60
Length 4.07 ± .25 6.35 ± .25 6.09 ± .25 9.91 ± .25 12.7 ± .51 17.53 ± .51
(.160" ± .010") (.250" ± .010") (.240" ± .010") (.390" ± .010") (.500" ± .020") (.690" ± .020")
Diameter 2.29 ± .25 2.29 ± .25 3.30 ± .25 3.56 ± .25 6.35 ± .38 8.89 ± .51
(.090" ± .010") (.090" ± .010") (.130" ± .010") (.140" ± .010") (.250" ± .015") (.350" ± .015")
Lead .48 ± .05 .48 ± .05 .48 ± .05 .63 ± .05 .63 ± .05 .63 ± .05
Diameter (.019" ± .002") (.019" ± .002") (.019" ± .002") (.025" ± .002") (.025" ± .002") (.025" ± .002")
Lead 25.4 25.4 25.4 25.4 25.4 25.4
Length (1.00") (1.00") (1.00") (1.00") (1.00") (1.00")
Cap. in Typical AVX WVDC WVDC WVDC WVDC WVDC WVDC
pF Part Nos.
1000 MA----5E102ZAA
1200 MA----5E122ZAA
1500 MA----5E152ZAA
1800 MA----5E182ZAA
2200 MA----5E222ZAA
2700 MA----5E272ZAA
3300 MA----5E332ZAA
3900 MA----5E392ZAA
4700 MA----5E472ZAA
5600 MA----5E562ZAA
6800 MA----5E682ZAA
8200 MA----5E822ZAA
10,000 MA----5E103ZAA
12,000 MA----5E123ZAA
15,000 MA----5E153ZAA
18,000 MA----5E183ZAA
22,000 MA----5E223ZAA
27,000 MA----5E273ZAA
33,000 MA----5E333ZAA
39,000 MA----5E393ZAA
47,000 MA----5E473ZAA
56,000 MA----5E563ZAA
68,000 MA----5E683ZAA
82,000 MA----5E823ZAA
100,000 MA----5E104ZAA
120,000 MA----5E124ZAA
150,000 MA----5E154ZAA
180,000 MA----5E184ZAA
220,000 MA----5E224ZAA
270,000 MA----5E274ZAA
330,000 MA----5E334ZAA
390,000 MA----5E394ZAA
470,000 MA----5E474ZAA
560,000 MA----5E564ZAA
680,000 MA----5E684ZAA
820,000 MA----5E824ZAA
1.0 µF MA----5E105ZAA
1.2 µF MA----5E125ZAA
1.5 µF MA----5E155ZAA
1.8 µF MA----5E185ZAA
2.2 µF MA----5E225ZAA
2.7 µF MA----5E275ZAA
3.3 µF MA----5E335ZAA
3.9 µF MA----5E395ZAA
4.7 µF MA----5E475ZAA
5.6 µF MA----5E565ZAA
6.8 µF MA----5E685ZAA
8.2 µF MA----5E825ZAA
38
Axial Leads/Packaging
TAPE AND REEL
D1D2
F
C
E
A
B
CLASS I / RS-296
A. 5mm ± 0.5mm
(.200" ± 0.020")
B*. 52.4mm ± 1.5mm
(2.063" ± 0.059")
C. 6.35mm ± 0.4mm
(0.250" ± 0.016")
D1-D2.1.4mm
(0.055" MAX.)
E. 1.2mm
(0.047" MAX.)
F. 1.6mm
(0.063" MAX.)
G. 356mm
(14.00")
H. 76mm
(3.000")
I. 25.4mm
(1.000")
J. 84mm
(3.300")
K. 70mm
(2.750")
Leader Tape: 300mm min. (12")
Splicing: Tape Only
Missing Parts: 0.25% of component count max.-
No consecutive missing parts
K
J
H
I
G
Optional
Design
REEL QUANTITIES (Max.) ‡
SA05 7,500 pcs. MA10 5,000 pcs.
SA10 7,500 pcs. MA20 5,000 pcs.
SA11 5,000 pcs. MA30 3,000 pcs.
SA20 5,000 pcs. MA40 3,000 pcs.
SA30 5,000 pcs. MA50 950 pcs.
SA40 5,000 pcs. MA60 650 pcs.
‡ 1000 pc. reels available for distribution pack only in ±1% and ±2%
tolerance.
*Standard Tape Spacing Shown. Also available in 26.0mm + 1.5mm,
– 0mm, (1.023 in. + .059 in. -0 in. ) for SpinGuards only. EIA Class I,
II and III tape spacings are available for molded axials. Tape spacing
for Class II is 63.5mm ± 1.5mm (2.50 in ± .059 in), and for Class III
73mm ± 1.5mm (2.87 in ± .059 in)
ADDITIONAL PACKAGING AVAILABLE
AMMO PACK
Tape MA10, SA05, SA10 SA11 MA30 BOX SIZES (Nominal)
Spacing MA20, SA20 SA30 MA40, SA40 LW H
52.4mm ± 1.5mm 4,000 pcs. 2000 2,000 pcs. 255mm 73mm 93mm
(2.062" ± .059") (10.039") (2.874") (3.661")
26.0mm + 1.5mm - 0mm 4,000 pcs.*2000 2,000 pcs.*255mm 48mm 113mm
(1.023" + .059" - 0") (10.039") (1.889") (4.448")
*SpinGuard only
BULK PACK (Molded Axials Only)
MA10
MA20
MA30 100 pcs. (bag)
MA40
MA50
MA60 50 pcs. (bag)
39
MIL-C-39014/Radial Leads
L.D.
L.D.
L.S.
L.S.
W
WT
L
LFigure 1
Figure 2
L.D.
L.D.
L.S. L.S.
W
W
T
TL
L
1.250 Min. 1.250 Min.
Figure 4
Figure 3
HOW TO ORDER
Military Type Designation: Styles CKR04, CKR05, CKR06, CKR08
Dash Number Option: MIL-C-39014/01 (Appropriate Dash Number)
Part Number Example CKR05 BX 104 K S (V)
Style
Voltage-Temperature Limits
Capacitance Code
Capacitance Tolerance
Military Failure Rate
Standoff Option
MIL Part No. Codes
Style: CK = General purpose, ceramic dielectric, fixed
capacitors.
R = Established Reliability parts.
05 = Remaining two numbers identify shape and
dimension.
Voltage-Temperature Limits: First letter identifies temperature
range. B = -55°C to +125°C
Second letter identifies voltage-temperature coefficient.
Sig. Fig. Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 100,000 pF as 104. (For values below 10 pF,
use “R” in place of decimal point, e.g., 1R4 = 1.4 pF).
Capacitance Tolerances: K = ±10%, M = ±20%
Military Failure Rate: M = 1% per 1000 hours; P = 0.1% per
1000 hours; R = 0.01% per 1000 hours; S = 0.001% per
1000 hours
Note: AVX reserves the right to substitute a lower failure rate
part per MIL-C-39014. Substitutability for failure rate levels
shall be as follows:
Capacitance Change with Reference to 25°C
Second Letter No Voltage Rated Voltage
X +15, -15% +15, -25%
Failure Rate Level Will Replace Failure Rate Level
S (STD) (X-ray) R, P, M, L
R (STD) (No X-ray) P, M, L
P M,L
ML
To order standoff option, place “V” at the end of the part
number. For example: CKRO5BXIO4KSV.
PACKAGING REQUIREMENTS
Packaging: 100 Pcs/bag; Radial Tape and Reel Packaging
available upon request (2500 pcs./reel).
SIZE SPECIFICATIONS Dimensions: Millimeters (Inches)
Per Mil Spec Case Size
Length Width Thickness Lead Lead
MIL-C-39014 (L) (W) (T) Spacing Diameter
(L.S.) (L.D.)
CKR04 4.83±.25 4.83±.25 2.29±.25 2.54±.38 .64±.05
(Fig. 2) (.190±.010) (.190±.010) (.090±.010) (.100±.015) (.025±.002)
CKR05 4.83±.25 4.83±.25 2.29±.25 5.08±.38 .64±.05
(Fig. 1, 4) (.190±.010) (.190±.010) (.090±.010) (.200±.015) (.025±.002)
CKR06 7.37±.25 7.37±.25 2.29±.25 5.08±.38 .64±.05
(Fig. 2, 3) (.290±.010) (.290±.010) (.090±.010) (.200±.015) (.025±.002)
CKR08 7.37±.25 7.37±.25 3.68±.38 5.08±.38 .64±.05
(Fig. 2) (.290±.010) (.290±.010) (.145±.015) (.200±.015) (.025±.002)
MARKING Radial Lead
Front
M390
14/01
1595
J AVX
9910
A
M39014
2-1350
AVX
9910A
J 50V
105K
Abb. Military Part Number
Military Slash/Dash Number
Mfg. I.D. Symbol
Mfg. I.D. Symbol
Date Code
Lot Code
Abb. Military Part Number
Military Slash Number
Military Dash Number
Date Code
Lot Code
J for JAN
Voltage Rating
Capacitance Value
(3 digit Code)
& Cap. Tol.
J for JAN
Back
CKR04/CKR05
CKR06/CKR08
40
MIL-C-39014/Radial Leads
MILITARY DASH NUMBER IDENTIFICATION CKR04 to MIL-C-39014/23
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) ±Percent WVDC
CKR04 (BX)
CKR04BX100K_ 0001 0101 0201 0301 10 10 200
CKR04BX100M_ 0002 0102 0202 0302 10 20 200
CKR04BX120K_ 0003 0103 0203 0303 12 10 200
CKR04BX150K_ 0004 0104 0204 0304 15 10 200
CKR04BX150M_ 0005 0105 0205 0305 15 20 200
CKR04BX180K_ 0006 0106 0206 0306 18 10 200
CKR04BX220K_ 0007 0107 0207 0307 22 10 200
CKR04BX220M_ 0008 0108 0208 0308 22 20 200
CKR04BX270K_ 0009 0109 0209 0309 27 10 200
CKR04BX330K_ 0010 0110 0210 0310 33 10 200
CKR04BX330M_ 0011 0111 0211 0311 33 20 200
CKR04BX390K_ 0012 0112 0212 0312 39 10 200
CKR04BX470K_ 0013 0113 0213 0313 47 10 200
CKR04BX470M_ 0014 0114 0214 0314 47 20 200
CKR04BX560K_ 0015 0115 0215 0315 56 10 200
CKR04BX680K_ 0016 0116 0216 0316 68 10 200
CKR04BX680M_ 0017 0117 0217 0317 68 20 200
CKR04BX820K_ 0018 0118 0218 0318 82 10 200
CKR04BX101K_ 0019 0119 0219 0319 100 10 200
CKR04BX101M_ 0020 0120 0220 0320 100 20 200
CKR04BX121K_ 0021 0121 0221 0321 120 10 200
CKR04BX151K_ 0022 0122 0222 0322 150 10 200
CKR04BX151M_ 0023 0123 0223 0323 150 20 200
CKR04BX181K_ 0024 0124 0224 0324 180 10 200
CKR04BX221K_ 0025 0125 0225 0325 220 10 200
CKR04BX221M_ 0026 0126 0226 0326 220 20 200
CKR04BX271K_ 0027 0127 0227 0327 270 10 200
CKR04BX331K_ 0028 0128 0228 0328 330 10 200
CKR04BX331M_ 0029 0129 0229 0329 330 20 200
CKR04BX391K_ 0030 0130 0230 0330 390 10 200
CKR04BX471K_ 0031 0131 0231 0331 470 10 200
CKR04BX471M_ 0032 0132 0232 0332 470 20 200
CKR04BX561K_ 0033 0133 0233 0333 560 10 200
CKR04BX681K_ 0034 0134 0234 0334 680 10 200
CKR04BX681M_ 0035 0135 0235 0335 680 20 200
CKR04BX821K_ 0036 0136 0236 0336 820 10 200
CKR04BX102K_ 0037 0137 0237 0337 1,000 10 200
CKR04BX102M_ 0038 0138 0238 0338 1,000 20 200
CKR04BX122K_ 0039 0139 0239 0339 1,200 10 100
CKR04BX152K_ 0040 0140 0240 0340 1,500 10 100
CKR04BX152M_ 0041 0141 0241 0341 1,500 20 100
CKR04BX182K_ 0042 0142 0242 0342 1,800 10 100
CKR04BX222K_ 0043 0143 0243 0343 2,200 10 100
CKR04BX222M_ 0044 0144 0244 0344 2,200 20 100
CKR04BX272K_ 0045 0145 0245 0345 2,700 10 100
CKR04BX332K_ 0046 0146 0246 0346 3,300 10 100
CKR04BX332M_ 0047 0147 0247 0347 3,300 20 100
CKR04BX392K_ 0048 0148 0248 0348 3,900 10 100
CKR04BX472K_ 0049 0149 0249 0349 4,700 10 100
CKR04BX472M_ 0050 0150 0250 0350 4,700 20 100
CKR04BX562K_ 0051 0151 0251 0351 5,600 10 100
CKR04BX682K_ 0052 0152 0252 0352 6,800 10 100
CKR04BX682M_ 0053 0153 0253 0353 6,800 20 100
CKR04BX822K_ 0054 0154 0254 0354 8,200 10 100
CKR04BX103K_ 0055 0155 0255 0355 10,000 10 100
CKR04BX103M_ 0056 0156 0256 0356 10,000 20 100
CKR04BX123K_ 0057 0157 0257 0357 12,000 10 50
CKR04BX153K_ 0058 0158 0258 0358 15,000 10 50
CKR04BX153M_ 0059 0159 0259 0359 15,000 20 50
CKR04BX183K_ 0060 0160 0260 0360 18,000 10 50
CKR04BX223K_ 0061 0161 0261 0361 22,000 10 50
CKR04BX223M_ 0062 0162 0262 0362 22,000 20 50
CKR04BX273K_ 0063 0163 0263 0363 27,000 10 50
CKR04BX333K_ 0064 0164 0264 0364 33,000 10 50
CKR04BX333M_ 0065 0165 0265 0365 33,000 20 50
CKR04BX393K_ 0066 0166 0266 0366 39,000 10 50
CKR04BX473K_ 0067 0167 0267 0367 47,000 10 50
CKR04BX473M_ 0068 0168 0268 0368 47,000 20 50
CKR04BX563K_ 0069 0169 0269 0369 56,000 10 50
CKR04BX683K_ 0070 0170 0270 0370 68,000 10 50
CKR04BX683M_ 0071 0171 0271 0371 68,000 20 50
CKR04BX823K_ 0072 0172 0272 0372 82,000 10 50
CKR04BX104K_ 0073 0173 0273 0373 100,000 10 50
CKR04BX104M_ 0074 0174 0274 0374 100,000 20 50
Add appropriate failure rate level letter (M, P, R or S)
41
MIL-C-39014/Radial Leads
MILITARY DASH NUMBER IDENTIFICATION CKR05 to MIL-C-39014/01
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) ±Percent WVDC
CKR05 (BX)
CKR05BX100K_ 1201 1241 1281 1321 10 10 200
CKR05BX100M_ 1202 1242 1282 1322 10 20 200
CKR05BX120K_ 1203 1243 1283 1323 12 10 200
CKR05BX150K_ 1204 1244 1284 1324 15 10 200
CKR05BX150M_ 1205 1245 1285 1325 15 20 200
CKR05BX180K_ 1206 1246 1286 1326 18 10 200
CKR05BX220K_ 1207 1247 1287 1327 22 10 200
CKR05BX220M_ 1208 1248 1288 1328 22 20 200
CKR05BX270K_ 1209 1249 1289 1329 27 10 200
CKR05BX330K_ 1210 1250 1290 1330 33 10 200
CKR05BX330M_ 1211 1251 1291 1331 33 20 200
CKR05BX390K_ 1212 1252 1292 1332 39 10 200
CKR05BX470K_ 1213 1253 1293 1333 47 10 200
CKR05BX470M_ 1214 1254 1294 1334 47 20 200
CKR05BX560K_ 1215 1255 1295 1335 56 10 200
CKR05BX680K_ 1216 1256 1296 1336 68 10 200
CKR05BX680M_ 1217 1257 1297 1337 68 20 200
CKR05BX820K_ 1218 1258 1298 1338 82 10 200
CKR05BX101K_ 1219 1259 1299 1339 100 10 200
CKR05BX101M_ 1220 1260 1300 1340 100 20 200
CKR05BX121K_ 1221 1261 1301 1341 120 10 200
CKR05BX151K_ 1222 1262 1302 1342 150 10 200
CKR05BX151M_ 1223 1263 1303 1343 150 20 200
CKR05BX181K_ 1224 1264 1304 1344 180 10 200
CKR05BX221K_ 1225 1265 1305 1345 220 10 200
CKR05BX221M_ 1226 1266 1306 1346 220 20 200
CKR05BX271K_ 1227 1267 1307 1347 270 10 200
CKR05BX331K_ 1228 1268 1308 1348 330 10 200
CKR05BX331M_ 1229 1269 1309 1349 330 20 200
CKR05BX391K_ 1230 1270 1310 1350 390 10 200
CKR05BX471K_ 1231 1271 1311 1351 470 10 200
CKR05BX471M_ 1232 1272 1312 1352 470 20 200
CKR05BX561K_ 1233 1273 1313 1353 560 10 200
CKR05BX681K_ 1234 1274 1314 1354 680 10 200
CKR05BX681M_ 1235 1275 1315 1355 680 20 200
CKR05BX821K_ 1236 1276 1316 1356 820 10 200
CKR05BX102K_ 1237 1277 1317 1357 1,000 10 200
CKR05BX102M_ 1238 1278 1318 1358 1,000 20 200
CKR05BX122K_ 1239 1279 1319 1359 1,200 10 100
CKR05BX152K_ 1240 1280 1320 1360 1,500 10 100
CKR05BX152M_ 1441 1481 1521 1561 1,500 20 100
CKR05BX182K_ 1442 1482 1522 1562 1,800 10 100
CKR05BX222K_ 1443 1483 1523 1563 2,200 10 100
CKR05BX222M_ 1444 1484 1524 1564 2,200 20 100
CKR05BX272K_ 1445 1485 1525 1565 2,700 10 100
CKR05BX332K_ 1446 1486 1526 1566 3,300 10 100
CKR05BX332M_ 1447 1487 1527 1567 3,300 20 100
CKR05BX392K_ 1448 1488 1528 1568 3,900 10 100
CKR05BX472K_ 1449 1489 1529 1569 4,700 10 100
CKR05BX472M_ 1450 1490 1530 1570 4,700 20 100
CKR05BX562K_ 1451 1491 1531 1571 5,600 10 100
CKR05BX682K_ 1452 1492 1532 1572 6,800 10 100
CKR05BX682M_ 1453 1493 1533 1573 6,800 20 100
CKR05BX822K_ 1454 1494 1534 1574 8,200 10 100
CKR05BX103K_ 1455 1495 1535 1575 10,000 10 100
CKR05BX103M_ 1456 1496 1536 1576 10,000 20 100
CKR05BX123K_ 1457 1497 1537 1577 12,000 10 50
CKR05BX153K_ 1458 1498 1538 1578 15,000 10 50
CKR05BX153M_ 1459 1499 1539 1579 15,000 20 50
CKR05BX183K_ 1460 1500 1540 1580 18,000 10 50
CKR05BX223K_ 1461 1501 1541 1581 22,000 10 50
CKR05BX223M_ 1462 1502 1542 1582 22,000 20 50
CKR05BX273K_ 1463 1503 1543 1583 27,000 10 50
CKR05BX333K_ 1464 1504 1544 1584 33,000 10 50
CKR05BX333M_ 1465 1505 1545 1585 33,000 20 50
CKR05BX393K_ 1466 1506 1546 1586 39,000 10 50
CKR05BX473K_ 1467 1507 1547 1587 47,000 10 50
CKR05BX473M_ 1468 1508 1548 1588 47,000 20 50
CKR05BX563K_ 1469 1509 1549 1589 56,000 10 50
CKR05BX683K_ 1470 1510 1550 1590 68,000 10 50
CKR05BX683M_ 1471 1511 1551 1591 68,000 20 50
CKR05BX823K_ 1472 1512 1552 1592 82,000 10 50
CKR05BX104K_ 1473 1513 1553 1593 100,000 10 50
CKR05BX104M_ 1474 1514 1554 1594 100,000 20 50
Add appropriate failure rate level letter (M, P, R or S)
42
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) ±Percent WVDC
CKR06 (BX)
CKR06BX122K_ 1201 1241 1281 1321 1200 10 200
CKR06BX152K_ 1202 1242 1282 1322 1500 10 200
CKR06BX152M_ 1203 1243 1283 1323 1500 20 200
CKR06BX182K_ 1204 1244 1284 1324 1800 10 200
CKR06BX222K_ 1206 1246 1286 1326 2200 10 200
CKR06BX222M_ 1207 1247 1287 1327 2200 20 200
CKR06BX272K_ 1208 1248 1288 1328 2700 10 200
CKR06BX332K_ 1209 1249 1289 1329 3300 10 200
CKR06BX332M_ 1210 1250 1290 1330 3300 20 200
CKR06BX392K_ 1211 1251 1291 1331 3900 10 200
CKR06BX472K_ 1212 1252 1292 1332 4700 10 200
CKR06BX472M_ 1213 1253 1293 1333 4700 20 200
CKR06BX562K_ 1214 1254 1294 1334 5600 10 200
CKR06BX682K_ 1215 1255 1295 1335 6800 10 200
CKR06BX682M_ 1216 1256 1296 1336 6800 20 200
CKR06BX822K_ 1217 1257 1297 1337 8200 10 200
CKR06BX103K_ 1218 1258 1298 1338 10,000 10 200
CKR06BX103M_ 1219 1259 1299 1339 10,000 20 200
CKR06BX123K_ 1231 1271 1311 1351 12,000 10 100
CKR06BX153K_ 1220 1260 1300 1340 15,000 10 100
CKR06BX183K_ 1221 1261 1301 1341 18,000 10 100
CKR06BX223K_ 1222 1262 1302 1342 22,000 10 100
CKR06BX273K_ 1232 1272 1312 1352 27,000 10 100
CKR06BX333K_ 1223 1263 1303 1343 33,000 10 100
CKR06BX393K_ 1224 1264 1304 1344 39,000 10 100
CKR06BX473K_ 1225 1265 1305 1345 47,000 10 100
CKR06BX563K_ 1226 1266 1306 1346 56,000 10 100
CKR06BX683K_ 1227 1267 1307 1347 68,000 10 100
CKR06BX823K_ 1229 1269 1309 1349 82,000 10 100
CKR06BX104K_ 1230 1270 1310 1350 100,000 10 100
CKR06BX124K_ 1233 1273 1313 1353 120,000 10 50
CKR06BX154K_ 1234 1274 1314 1354 150,000 10 50
CKR06BX184K_ 1235 1275 1315 1355 180,000 10 50
CKR06BX224K_ 1236 1276 1316 1356 220,000 10 50
CKR06BX274K_ 1237 1277 1317 1357 270,000 10 50
CKR06BX334K_ 1238 1278 1318 1358 330,000 10 50
CKR06BX394K_ 1239 1279 1319 1359 390,000 10 50
CKR06BX474K_ 1240 1280 1320 1360 470,000 10 50
CKR06BX564K_ 1404 1408 1412 1416 560,000 10 50
CKR06BX684K_ 1405 1409 1413 1417 680,000 10 50
CKR06BX824K_ 1406 1410 1414 1418 820,000 10 50
CKR06BX105K_ 1407 1411 1415 1419 1,000,000 10 50
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) (pF) ±Percent WVDC
CKR08 (BX)
CKR08BX125K_ 0104 1,200,000 10 50
CKR08BX155K_ 0105 1,500,000 10 50
CKR08BX205K_ 0106 2,000,000 10 50
Add appropriate failure rate level letter (M, P, R or S)
Add appropriate failure rate level letter (M)
CKR08 to MIL-C-39014/20 (Dash Number From Table)
CROSS REFERENCE CHART - AVX MILITARY FOR MOLDED RADIAL LEAD
Per Mil-Spec Case Size
AVX Lead Lead
Figure Style MIL-C-11015 MIL-C-39014 MIL-C-20 Length(L) Width (W) Thickness (T) Spacing (LS) Diameter (LD)
1 MR05 CK05 CKR05 CCR05/CC05 4.83±.25 (.190±.010) 4.83±.25 (.190±.010) 2.29±.25 (.090±.010) 5.08±.38 (.200±.015) .64±.05 (.025±.002)
2 MR04 — CKR04 CCR09/CC09 4.83±.25 (.190±.010) 4.83±.25 (.190±.010) 2.29±.25 (.090±.010) 2.54±.38 (.100±.015) .64±.05 (.025±.002)
2 MR06 CK06 CKR06 CCR06/CC06 7.37±.25 (.290±.010) 7.37±.25 (.290±.010) 2.29±.25 (.090±.010) 5.08±.38 (.200±.015) .64±.05 (.025±.002)
2 MR68 — CKR08 — 7.37±.25 (.290±.010) 7.37±.25 (.290±.010) 3.68±.38 (.145±.015) 5.08±.38 (.200±.015) .64±.05 (.025±.002)
2 MR07 — — CCR07/CC07 12.19±.51 (.480±.020) 12.19±.51 (.480±.020) 3.56±.25 (.140±.010) 10.16±.51 (.400±.020) .64±.05 (.025±.002)
2 MR08 — — CCR08/CC08 12.19±.51 (.480±.020) 12.19±.51 (.480±.020) 6.1±.25 (.240±.010) 10.16±.51 (.400±.020) .64±.05 (.025±.002)
MIL-C-39014/Radial Leads
MILITARY DASH NUMBER IDENTIFICATION CKR06 to MIL-C-39014/02
(Dash Number From Table)
Dimensions: Millimeters (Inches)
43
Note: AVX reserves the right to substitute a lower failure
rate part per MIL-C-39014/5E. Substitutability for failure
rate levels shall be as follows:
PACKAGING REQUIREMENTS
Packaging: Bulk
CKR11, 12, & 14 100 pcs per bag
CKR15 & 16 50 pcs per bag
Tape & Reel
CKR11, 12 5000 pcs per reel
CKR14 3000 pcs per reel
CKR15 950 pcs per reel
CKR16 650 pcs per reel
SIZE SPECIFICATIONS Dimensions: Millimeters (Inches)
Per Mil
Spec Case Size
Length Diameter Lead Diameter
MIL-C-39014 (L) (D) (L.D.)
CKR11 4.07±.25 2.29±.25 .48±.05
(.160±.010) (.090±.010) (.019±.002)
CKR12 6.35±.25 2.29±.25 .48±.05
(.250±.010) (.090±.010) (.019±.002)
CKR14 9.91±.25 3.56±.25 .63±.025
(.390±.010) (.140±.010) (.025±.002)
CKR15 12.7±.51 6.35±.38 .63±.05
(.500±.020) (.250±.015) (.025±.002)
CKR16 17.53±.51 8.89±.51 .63±.05
(.690±.020) (.350±.020) (.025±.002)
HOW TO ORDER
Military Type Designation: Styles CKR11, CKR12, CKR14, CKR15, CKR16
Dash Number Option: MIL-C-39014/05 (Add Appropriate Dash Number)
Part Number Example CKR11 BX 103 K S
Style
Voltage-Temperature Limits
Capacitance Code
Capacitance Tolerance
Military Failure Rate
MIL-C-39014/Axial Leads
MIL Part No. Codes
Style: CK = General purpose, ceramic dielectric, fixed
capacitors.
R = Established Reliability parts.
11 = Remaining two numbers identify shape and
dimension.
Voltage-Temperature Limits:
First letter identifies temperature range.
B = -55°C to +125°C
Second letter identifies voltage-temperature coefficient.
Sig. Fig. Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 10,000 pF as 103.
Capacitance Tolerances: K = ±10%, M = ±20%
Military Failure Rate: M = 1% per 1000 hours
P = 0.1% per 1000 hours
R = 0.01% per 1000 hours
S = 0.001% per 1000 hours
Capacitance Change with Reference to 25°C
Second Letter No Voltage Rated Voltage
R +15, -15% +15, -40%
X +15, -15% +15, -25%
Failure Rate Level Will Replace Failure Rate Level
S (STD) (X-ray) R, P, M, L
R (STD) (No X-ray) P, M, L
P M,L
ML
L1.25
MIN.
L.D.
D
44
MIL-C-39014/Axial Leads
MILITARY DASH NUMBER IDENTIFICATION CKR11 to MIL-C-39014/05
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) ±Percent WVDC
CKR11 (BX)
CKR11BX100K_ 2601 2801 2001 2201 10 10 100
CKR11BX100M_ 2602 2802 2002 2202 10 20 100
CKR11BX120K_ 2603 2803 2003 2203 12 10 100
CKR11BX150K_ 2604 2804 2004 2204 15 10 100
CKR11BX150M_ 2605 2805 2005 2205 15 20 100
CKR11BX180K_ 2606 2806 2006 2206 18 10 100
CKR11BX220K_ 2607 2807 2007 2207 22 10 100
CKR11BX220M_ 2608 2808 2008 2208 22 20 100
CKR11BX270K_ 2609 2809 2009 2209 27 10 100
CKR11BX330K_ 2610 2810 2010 2210 33 10 100
CKR11BX330M_ 2611 2811 2011 2211 33 20 100
CKR11BX390K_ 2612 2812 2012 2212 39 10 100
CKR11BX470K_ 2613 2813 2013 2213 47 10 100
CKR11BX470M_ 2614 2814 2014 2214 47 20 100
CKR11BX560K_ 2615 2815 2015 2215 56 10 100
CKR11BX680K_ 2616 2816 2016 2216 68 10 100
CKR11BX680M_ 2617 2817 2017 2217 68 20 100
CKR11BX820K_ 2618 2818 2018 2218 82 10 100
CKR11BX101K_ 2619 2819 2019 2219 100 10 100
CKR11BX101M_ 2620 2820 2020 2220 100 20 100
CKR11BX121K_ 2621 2821 2021 2221 120 10 100
CKR11BX151K_ 2622 2822 2022 2222 150 10 100
CKR11BX151M_ 2623 2823 2023 2223 150 20 100
CKR11BX181K_ 2624 2824 2024 2224 180 10 100
CKR11BX221K_ 2625 2825 2025 2225 220 10 100
CKR11BX221M_ 2626 2826 2026 2226 220 20 100
CKR11BX271K_ 2627 2827 2027 2227 270 10 100
CKR11BX331K_ 2628 2828 2028 2228 330 10 100
CKR11BX331M_ 2629 2829 2029 2229 330 20 100
CKR11BX391K_ 2630 2830 2030 2230 390 10 100
CKR11BX471K_ 2631 2831 2031 2231 470 10 100
CKR11BX471M_ 2632 2832 2032 2232 470 20 100
CKR11BX561K_ 2633 2833 2033 2233 560 10 100
CKR11BX681K_ 2634 2834 2034 2234 680 10 100
CKR11BX681M_ 2635 2835 2035 2235 680 20 100
CKR11BX821K_ 2636 2836 2036 2236 820 10 100
CKR11BX102K_ 2637 2837 2037 2237 1000 10 100
CKR11BX102M_ 2638 2838 2038 2238 1000 20 100
CKR11BX122K_ 2639 2839 2039 2239 1200 10 100
CKR11BX152K_ 2640 2840 2040 2240 1500 10 100
CKR11BX152M_ 2641 2841 2041 2241 1500 20 100
CKR11BX182K_ 2642 2842 2042 2242 1800 10 100
CKR11BX222K_ 2643 2843 2043 2243 2200 10 100
CKR11BX222M_ 2644 2844 2044 2244 2200 20 100
CKR11BX272K_ 2645 2845 2045 2245 2700 10 100
CKR11BX332K_ 2646 2846 2046 2246 3300 10 100
CKR11BX332M_ 2647 2847 2047 2247 3300 20 100
CKR11BX392K_ 2648 2848 2048 2248 3900 10 100
CKR11BX472K_ 2649 2849 2049 2249 4700 10 100
CKR11BX472M_ 2650 2850 2050 2250 4700 20 100
CKR11BX562K_ 2651 2851 2051 2251 5600 10 50
CKR11BX682K_ 2652 2852 2052 2252 6800 10 50
CKR11BX682M_ 2653 2853 2053 2253 6800 20 50
CKR11BX822K_ 2654 2854 2054 2254 8200 10 50
CKR11BX103K_ 2655 2855 2055 2255 10,000 10 50
CKR11BX103M_ 2656 2856 2056 2256 10,000 20 50
Add appropriate failure rate level letter (M, P, R or S)
45
MIL-C-39014/Axial Leads
MILITARY DASH NUMBER IDENTIFICATION CKR12/14/15 to MIL-C-39014/05
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) ±Percent WVDC
CKR12 (BX)
CKR12BX562K_ 2657 2857 2057 2257 5600 10 100
CKR12BX682K_ 2658 2858 2058 2258 6800 10 100
CKR12BX682M_ 2659 2859 2059 2259 6800 20 100
CKR12BX822K_ 2660 2860 2060 2260 8200 10 100
CKR12BX103K_ 2661 2861 2061 2261 10,000 10 100
CKR12BX103M_ 2662 2862 2062 2262 10,000 20 100
CKR12BX123K_ 2663 2863 2063 2263 12,000 10 50
CKR12BX153K_ 2664 2864 2064 2264 15,000 10 50
CKR12BX153M_ 2665 2865 2065 2265 15,000 20 50
CKR12BX183K_ 2666 2866 2066 2266 18,000 10 50
CKR12BX223K_ 2667 2867 2067 2267 22,000 10 50
CKR12BX223M_ 2668 2868 2068 2268 22,000 20 50
CKR12BX273K_ 2669 2869 2069 2269 27,000 10 50
CKR12BX333K_ 2670 2870 2070 2270 33,000 10 50
CKR12BX333M_ 2671 2871 2071 2271 33,000 20 50
CKR12BX393K_ 2672 2872 2072 2272 39,000 10 50
CKR12BX473K_ 2673 2873 2073 2273 47,000 10 50
CKR12BX473M_ 2674 2874 2074 2274 47,000 20 50
CKR14 (BX)
CKR14BX123K_ 2675 2875 2075 2275 12,000 10 100
CKR14BX153K_ 2676 2876 2076 2276 15,000 10 100
CKR14BX153M_ 2677 2877 2077 2277 15,000 20 100
CKR14BX183K_ 2678 2878 2078 2278 18,000 10 100
CKR14BX223K_ 2679 2879 2079 2279 22,000 10 100
CKR14BX223M_ 2680 2880 2080 2280 22,000 20 100
CKR14BX273K_ 2681 2881 2081 2281 27,000 10 100
CKR14BX333K_ 2682 2882 2082 2282 33,000 10 100
CKR14BX333M_ 2683 2883 2083 2283 33,000 20 100
CKR14BX393K_ 2684 2884 2084 2284 39,000 10 100
CKR14BX473K_ 2685 2885 2085 2285 47,000 10 100
CKR14BX473M_ 2686 2886 2086 2286 47,000 20 100
CKR14BX563K_ 2687 2887 2087 2287 56,000 10 50
CKR14BX683K_ 2688 2888 2088 2288 68,000 10 50
CKR14BX683M_ 2689 2889 2089 2289 68,000 20 50
CKR14BX823K_ 2690 2890 2090 2290 82,000 10 50
CKR14BX104K_ 2691 2891 2091 2291 100,000 10 50
CKR14BX104M_ 2692 2892 2092 2292 100,000 20 50
CKR14 (BR)
CKR14BR563K_ 2693 2893 2093 2293 56,000 10 100
CKR14BR683K_ 2694 2894 2094 2294 68,000 10 100
CKR14BR683M_ 2695 2895 2095 2295 68,000 20 100
CKR14BR823K_ 2696 2896 2096 2296 82,000 10 100
CKR14BR104K_ 2697 2897 2097 2297 100,000 10 100
CKR14BR104M_ 2698 2898 2098 2298 100,000 20 100
CKR14BR124K_ 2699 2899 2099 2299 120,000 10 50
CKR14BR154K_ 2700 2900 2100 2300 150,000 10 50
CKR14BR154M_ 2701 2901 2101 2301 150,000 20 50
CKR14BR184K_ 2702 2902 2102 2302 180,000 10 50
CKR14BR224K_ 2703 2903 2103 2303 220,000 10 50
CKR14BR224M_ 2704 2904 2104 2304 220,000 20 50
CKR14BR274K_ 2705 2905 2105 2305 270,000 10 50
CKR15 (BX)
CKR15BX563K_ 2706 2906 2106 2306 56,000 10 100
CKR15BX683K_ 2707 2907 2107 2307 68,000 10 100
CKR15BX683M_ 2708 2908 2108 2308 68,000 20 100
CKR15BX823K_ 2709 2909 2109 2309 82,000 10 100
CKR15BX104K_ 2710 2910 2110 2310 100,000 10 100
CKR15BX104M_ 2711 2911 2111 2311 100,000 20 100
Add appropriate failure rate level letter (M, P, R or S)
46
MIL-C-39014/Axial Leads
MILITARY DASH NUMBER IDENTIFICATION CKR15/16 to MIL-C-39014/05
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours) Capacitance
Type Capacitance Tolerance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) ±Percent WVDC
CKR15 (BR)
CKR15BR124K_ 2712 2912 2112 2312 120,000 10 100
CKR15BR154K_ 2713 2913 2113 2313 150,000 10 100
CKR15BR154M_ 2714 2914 2114 2314 150,000 20 100
CKR15BR184K_ 2715 2915 2115 2315 180,000 10 100
CKR15BR224K_ 2716 2916 2116 2316 220,000 10 100
CKR15BR224M_ 2717 2917 2117 2317 220,000 20 100
CKR15BR274K_ 2718 2918 2118 2318 270,000 10 100
CKR15BR334K_ 2719 2919 2119 2319 330,000 10 100
CKR15BR334M_ 2720 2920 2120 2320 330,000 20 100
CKR15BR474K_ 2721 2921 2121 2321 470,000 10 50
CKR15BR474M_ 2722 2922 2122 2322 470,000 20 50
CKR15BR684K_ 2723 2923 2123 2323 680,000 10 50
CKR15BR684M_ 2724 2924 2124 2324 680,000 20 50
CKR15BR105K_ 2725 2925 2125 2325 1,000,000 10 50
CKR15BR105M_ 2726 2926 2126 2326 1,000,000 20 50
CKR16 (BR)
CKR16BR474K_ 2727 2927 2127 2327 470,000 10 100
CKR16BR474M_ 2728 2928 2128 2328 470,000 20 100
CKR16BR684K_ 2729 2929 2129 2329 680,000 10 100
CKR16BR684M_ 2730 2930 2130 2330 680,000 20 100
CKR16BR105K_ 2731 2931 2131 2331 1,000,000 10 100
CKR16BR105M_ 2732 2932 2132 2332 1,000,000 20 100
CKR16BR225K_ 2733 2933 2133 2333 2,200,000 10 50
CKR16BR225M_ 2734 2934 2134 2334 2,200,000 20 50
CKR16BR335K_ 2735 2935 2135 2335 3,300,000 10 50
CKR16BR335M_ 2736 2936 2136 2336 3,300,000 20 50
Add appropriate failure rate level letter (M, P, R or S)
MARKING
J for JAN, A for AVX
Capacitance Value (3 digit code)
K for Cap. Tol. code (K±10%, M±20
%
S for failure rate, 2 digit year
2 digit week, 2 digit Lot Code
J A
100
KS99
10AA
CKR11
CKR12
2257J
9910AA
04222
Style
Military Slash/Dash Number "J" or "JA"
4 digit Date Code, 2 digit Lot Code
AVX FSCM
CKR12
M39014
5-2291
AVX
9910AA
J50V
104K
Abb. Military Part Number
Military Slash/Dash Number
Mfg. I.D. Symbol
4 digit Date Code, 2 digit Lot Code
"J" Brand Symbol, Voltage
Capacitance Value (3 digit code)
and Cap. Tolerance
CKR14, 15, 16
CROSS REFERENCE CHART - AVX MILITARY FOR MOLDED AXIAL LEAD
Per Mil-Spec Case Size
AVX Lead
Style MIL-C-11015 MIL-C-39014 MIL-C-20 Length (L) Diameter (D) Diameter (L.D.)
MA10 CK12 CKR11 CCR75/CC75 4.07 ±.25 2.29±.25 .48±.05
(.160±.010) (.090±.010) (.019±.002)
MA20 CK13 CKR12 CCR76/CC76 6.35 ±.25 2.29±.25 .48±.05
(.250 ±.010) (.090±.010) (.019±.002)
MA30 — — — 6.10 ±.25 3.30±.25 .48±.05
(.240±.010) (.130±.010) (.019±.002)
MA40 CK14 CKR14 CCR77/CC77 9.91±.25 3.56±.25) .63±.05
(.390±.010) (.140±.010) (.025±.002)
MA50 CK15 CKR15 CCR78/CC78 12.7±.51 6.35±.38 .63±.05
(.500±.020) (.250±.015) (.025±.002)
MA60 CK16 CKR16 CCR79/CC79 17.53±.51 8.89±.51 .63±.05
(.690±.020) (.350±.015) (.025±.002)
Dimensions: Millimeters (Inches)
47
Length Height Height
MIL-C-39014 (L) (H1)(H
2) Thickness
CKR22 6.60 3.25 4.45 max. 2.34
(.260 ±.020) (.128 ±.007) (.175) (.092 ±.006)
CKR23 6.60 3.94 4.45 max. 2.34
(.260 ±.020) (.155 ±.007) (.175) (.092 ±.006)
CKR24 6.60 7.19 8.13 max. 2.34
(.260 ±.020) (.283 ±.007) (.320) (.092 ±.006)
HOW TO ORDER
Military Type Designation: Styles CKR22, CKR23, CKR24
Dash Number Option: MIL-C-39014/22 (Add Appropriate Dash Number)
Part Number Example CKR22 BX 104 K R
Style
Voltage-Temperature Limits
Capacitance Code
Capacitance Tolerance
Military Failure Rate
MIL-C-39014/2Pin DIP
MIL Part No. Codes
Style: CK = General purpose, ceramic dielectric, fixed
capacitors.
R = Established Reliability parts.
22 = Remaining two numbers identify shape and
dimension.
Voltage-Temperature Limits:
First letter identifies temperature range.
B = -55°C to +125°C
C = -55°C to +150°C
Second letter identifies voltage-temperature coefficient.
Sig. Fig. Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 100,000 pF as 104. (For values below 10
pF, use “R” in place of decimal point, e.g., 1R5 = 1.5 pF).
Capacitance Tolerances: D = ±.5pF, F = ±1%, J = ±5%,
K = ±10%, M = ±20%
Military Failure Rate: M = 1% per 1000 hours
P = 0.1% per 1000 hours
R = 0.01% per 1000 hours
S = 0.001% per 1000 hours
Note: AVX reserves the right to substitute a lower failure rate
part per MIL-C-39014. Substitutability for failure rate levels
shall be as follows:
Capacitance Change with Reference to 25°C
Second Letter No Voltage Rated Voltage
G +30, -30ppm +30, -30ppm
H +60, -60ppm +60, -60ppm
R +15, -15% +15, -40%
X +15, -15% +15, -25%
Failure Rate Level Will Replace Failure Rate Level
S (STD) (X-ray) R, P, M, L
R (STD) (No X-ray) P, M, L
P M,L
ML
PACKAGING REQUIREMENTS
Packaging: 200 pcs/slide pack. See page 26.
SIZE SPECIFICATIONS
Dimensions: Millimeters (Inches)
L
SEE
NOTE 1
SEE
NOTE 2
.012
±.004
.325
±.035
.400 max.
T
MAX.
MAX.
H2
MAX.
H1
.015
MIN
.019 ±.004
.058 ±.012
Note 1 = Leads centered within ±.005"
Note 2 = Angle shall be 95°, +10°, -5°.019 ±.004
.010 MAX.
60° TYP.
±20°
See
Note 3
Note 3 = .140 ±.020 inch (3.56 ±0.51mm) for
standard lead length; .170 ±.010 inch
(4.32 ±0.25mm) for optional longer
lead length.
48
MIL-C-39014/2Pin DIP
MILITARY DASH NUMBER IDENTIFICATION CKR22 to MIL-C-39014/22
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours)
Type Standard Lead Length Optional Longer Lead Length Capacitance Capacitance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) Tolerance WVDC
Style CKR22, Voltage-temperature limits of 0 ± 60 ppm/°C.
CKR22CH1R0D_ 0001 0301 0601 0901 3001 3301 3601 3901 1.0 D 200
CKR22CH1R2D_ 0004 0304 0604 0904 3004 3304 3604 3904 1.2 D
CKR22CH1R5D_ 0007 0307 0607 0907 3007 3307 3607 3907 1.5 D
CKR22CH1R8D_ 0010 0310 0610 0910 3010 3310 3610 3910 1.8 D
CKR22CH2R2D_ 0013 0313 0613 0913 3013 3313 3613 3913 2.2 D
CKR22CH2R7D_ 0016 0316 0616 0916 3016 3316 3616 3916 2.7 D
CKR22CH3R3D_ 0019 0319 0619 0919 3019 3319 3619 3919 3.3 D
CKR22CH3R9D_ 0022 0322 0622 0922 3022 3322 3622 3922 3.9 D
CKR22CH4R7D_ 0025 0325 0625 0925 3025 3325 3625 3925 4.7 D
CKR22CH5R6D_ 0028 0328 0628 0928 3028 3328 3628 3928 5.6 D
CKR22CH6R8D_ 0031 0331 0631 0931 3031 3331 3631 3931 6.8 D
CKR22CH8R2D_ 0034 0334 0634 0934 3034 3334 3634 3934 8.2 D
CKR22CH100D_ 0037 0337 0637 0937 3037 3337 3637 3937 10 D
CKR22CH100J_ 0038 0338 0638 0938 3038 3338 3638 3938 10 J
CKR22CH100K_ 0039 0339 0639 0939 3039 3339 3639 3939 10 K
CKR22CH120D_ 0040 0340 0640 0940 3040 3340 3640 3940 12 D
CKR22CH120J_ 0041 0341 0641 0941 3041 3341 3641 3941 12 J
CKR22CH120K_ 0042 0342 0642 0942 3042 3342 3642 3942 12 K
CKR22CH150D_ 0043 0343 0643 0943 3043 3343 3643 3943 15 D
CKR22CH150J_ 0044 0344 0644 0944 3044 3344 3644 3944 15 J
CKR22CH150K_ 0045 0345 0645 0945 3045 3345 3645 3945 15 K
CKR22CH180D_ 0046 0346 0646 0946 3046 3346 3646 3946 18 D
CKR22CH180J_ 0047 0347 0647 0947 3047 3347 3647 3947 18 J
CKR22CH180K_ 0048 0348 0648 0948 3048 3348 3648 3948 18 K 200
Style CKR22, Voltage-temperature limits of ±30 ppm/°C,
CKR22CG220D_ 0049 0349 0649 0949 3049 3349 3649 3949 22 D 200
CKR22CG220J_ 0050 0350 0650 0950 3050 3350 3650 3950 22 J
CKR22CG220K_ 0051 0351 0651 0951 3051 3351 3651 3951 22 K
CKR22CG270D_ 0052 0352 0652 0952 3052 3352 3652 3952 27 D
CKR22CG270J_ 0053 0353 0653 0953 3053 3353 3653 3953 27 J
CKR22CG270K_ 0054 0354 0654 0954 3054 3354 3654 3954 27 K
CKR22CG330D_ 0055 0355 0655 0955 3055 3355 3655 3955 33 D
CKR22CG330J_ 0056 0356 0656 0956 3056 3356 3656 3956 33 J
CKR22CG330K_ 0057 0357 0657 0957 3057 3357 3657 3957 33 K
CKR22CG390D_ 0058 0358 0658 0958 3058 3358 3658 3958 39 D
CKR22CG390J_ 0059 0359 0659 0959 3059 3359 3659 3959 39 J
CKR22CG390K_ 0060 0360 0660 0960 3060 3360 3660 3960 39 K
CKR22CG470D_ 0061 0361 0661 0961 3061 3361 3661 3961 47 D
CKR22CG470J_ 0062 0362 0662 0962 3062 3362 3662 3962 47 J
CKR22CG470K_ 0063 0363 0663 0963 3063 3363 3663 3963 47 K
CKR22CG560D_ 0064 0364 0664 0964 3064 3364 3664 3964 56 D
CKR22CG560J_ 0065 0365 0665 0965 3065 3365 3665 3965 56 J
CKR22CG560K_ 0066 0366 0666 0966 3066 3366 3666 3966 56 K
CKR22CG680F_ 0067 0367 0667 0967 3067 3367 3667 3967 68 F
CKR22CG680J_ 0068 0368 0668 0968 3068 3368 3668 3968 68 J
CKR22CG680K_ 0069 0369 0669 0969 3069 3369 3669 3969 68 K
CKR22CG820F_ 0070 0370 0670 0970 3070 3370 3670 3970 82 F
CKR22CG820J_ 0071 0371 0671 0971 3071 3371 3671 3971 82 J
CKR22CG820K_ 0072 0372 0672 0972 3072 3372 3672 3972 82 K
CKR22CG101F_ 0073 0373 0673 0973 3073 3373 3673 3973 100 F
CKR22CG101J_ 0074 0374 0674 0974 3074 3374 3674 3974 100 J
CKR22CG101K_ 0075 0375 0675 0975 3075 3375 3675 3975 100 K
CKR22CG121F_ 0076 0376 0676 0976 3076 3376 3676 3976 120 F
CKR22CG121J_ 0077 0377 0677 0977 3077 3377 3677 3977 120 J
CKR22CG121K_ 0078 0378 0678 0978 3078 3378 3678 3978 120 K
CKR22CG151F_ 0079 0379 0679 0979 3079 3379 3679 3979 150 F
CKR22CG151J_ 0080 0380 0680 0980 3080 3380 3680 3980 150 J
CKR22CG151K_ 0081 0381 0681 0981 3081 3381 3681 3981 150 K
CKR22CG181F_ 0082 0382 0682 0982 3082 3382 3682 3982 180 F
CKR22CG181J_ 0083 0383 0683 0983 3083 3383 3683 3983 180 J
CKR22CG181K_ 0084 0384 0684 0984 3084 3384 3684 3984 180 K
CKR22CG221F_ 0085 0385 0685 0985 3085 3385 3685 3985 220 F
CKR22CG221J_ 0086 0386 0686 0986 3086 3386 3686 3986 220 J
CKR22CG221K_ 0087 0387 0687 0987 3087 3387 3687 3987 220 K
CKR22CG271F_ 0088 0388 0688 0988 3088 3388 3688 3988 270 F
CKR22CG271J_ 0089 0389 0689 0989 3089 3389 3689 3989 270 J 200
Add appropriate failure rate level letter (M, P, R or S)
49
MIL-C-39014/2Pin DIP
MILITARY DASH NUMBER IDENTIFICATION CKR22 to MIL-C-39014/22
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours)
Type Standard Lead Length Optional Longer Lead Length Capacitance Capacitance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) Tolerance WVDC
Style CKR22, Voltage-temperature limits of ±30 ppm/°C, (continued)
CKR22CG271K_ 0090 0390 0690 0990 3090 3390 3690 3990 270 K 200
CKR22CG331F_ 0091 0391 0691 0991 3091 3391 3691 3991 330 F
CKR22CG331J_ 0092 0392 0692 0992 3092 3392 3692 3992 330 J
CKR22CG331K_ 0093 0393 0693 0993 3093 3393 3693 3993 330 K
CKR22CG391F_ 0094 0394 0694 0994 3094 3394 3694 3994 390 F
CKR22CG391J_ 0095 0395 0695 0995 3095 3395 3695 3995 390 J
CKR22CG391K_ 0096 0396 0696 0996 3096 3396 3696 3996 390 K
CKR22CG471F_ 0097 0397 0697 0997 3097 3397 3697 3997 470 F
CKR22CG471J_ 0098 0398 0698 0998 3098 3398 3698 3998 470 J
CKR22CG471K_ 0099 0399 0699 0999 3099 3399 3699 3999 470 K 200
CKR22CG561F_ 0100 0400 0700 1000 3100 3400 3700 4000 560 F 100
CKR22CG561J_ 0101 0401 0701 1001 3101 3401 3701 4001 560 J
CKR22CG561K_ 0102 0402 0702 1002 3102 3402 3702 4002 560 K
CKR22CG681F_ 0103 0403 0703 1003 3103 3403 3703 4003 680 F
CKR22CG681J_ 0104 0404 0704 1004 3104 3404 3704 4004 680 J
CKR22CG681K_ 0105 0405 0705 1005 3105 3405 3705 4005 680 K
CKR22CG821F_ 0106 0406 0706 1006 3106 3406 3706 4006 820 F
CKR22CG821J_ 0107 0407 0707 1007 3107 3407 3707 4007 820 J
CKR22CG821K_ 0108 0408 0708 1008 3108 3408 3708 4008 820 K
CKR22CG102F_ 0109 0409 0709 1009 3109 3409 3709 4009 1000 F
CKR22CG102J_ 0110 0410 0710 1010 3110 3410 3710 4010 1000 J
CKR22CG102K_ 0111 0411 0711 1011 3111 3411 3711 4011 1000 K
CKR22CG122F_ 0112 0412 0712 1012 3112 3412 3712 4012 1200 F
CKR22CG122J_ 0113 0413 0713 1013 3113 3413 3713 4013 1200 J
CKR22CG122K_ 0114 0414 0714 1014 3114 3414 3714 4014 1200 K
CKR22CG152F_ 0115 0415 0715 1015 3115 3415 3715 4015 1500 F
CKR22CG152J_ 0116 0416 0716 1016 3116 3416 3716 4016 1500 J
CKR22CG152K_ 0117 0417 0717 1017 3117 3417 3717 4017 1500 K
CKR22CG182F_ 0118 0418 0718 1018 3118 3418 3718 4018 1800 F
CKR22CG182J_ 0119 0419 0719 1019 3119 3419 3719 4019 1800 J
CKR22CG182K_ 0120 0420 0720 1020 3120 3420 3720 4020 1800 K
CKR22CG222F_ 0121 0421 0721 1021 3121 3421 3721 4021 2200 F
CKR22CG222J_ 0122 0422 0722 1022 3122 3422 3722 4022 2200 J
CKR22CG222K_ 0123 0423 0723 1023 3123 3423 3723 4023 2200 K 100
CKR22CG272F_ 0124 0424 0724 1024 3124 3424 3724 4024 2700 F 50
CKR22CG272J_ 0125 0425 0725 1025 3125 3425 3725 4025 2700 J
CKR22CG272K_ 0126 0426 0726 1026 3126 3426 3726 4026 2700 K
CKR22CG332F_ 0127 0427 0727 1027 3127 3427 3727 4027 3300 F
CKR22CG332J_ 0128 0428 0728 1028 3128 3428 3728 4028 3300 J
CKR22CG332K_ 0129 0429 0729 1029 3129 3429 3729 4029 3300 K
CKR22CG392F_ 0130 0430 0730 1030 3130 3430 3730 4030 3900 F
CKR22CG392J_ 0131 0431 0731 1031 3131 3431 3731 4031 3900 J
CKR22CG392K_ 0132 0432 0732 1032 3132 3432 3732 4032 3900 K
CKR22CG472F_ 0133 0433 0733 1033 3133 3433 3733 4033 4700 F
CKR22CG472J_ 0134 0434 0734 1034 3134 3434 3734 4034 4700 J
CKR22CG472K_ 0135 0435 0735 1035 3135 3435 3735 4035 4700 K
CKR22CG562F_ 0136 0436 0736 1036 3136 3436 3736 4036 5600 F
CKR22CG562J_ 0137 0437 0737 1037 3137 3437 3737 4037 5600 J
CKR22CG562K_ 0138 0438 0738 1038 3138 3438 3738 4038 5600 K
CKR22CG682F_ 0139 0439 0739 1039 3139 3439 3739 4039 6800 F
CKR22CG682J_ 0140 0440 0740 1040 3140 3440 3740 4040 6800 J
CKR22CG682K_ 0141 0441 0741 1041 3141 3441 3741 4041 6800 K
CKR22CG822F_ 0142 0442 0742 1042 3142 3442 3742 4042 8200 F
CKR22CG822J_ 0143 0443 0743 1043 3143 3443 3743 4043 8200 J
CKR22CG822K_ 0144 0444 0744 1044 3144 3444 3744 4044 8200 K
CKR22CG103F_ 0145 0445 0745 1045 3145 3445 3745 4045 10,000 F
CKR22CG103J_ 0146 0446 0746 1046 3146 3446 3746 4046 10,000 J
CKR22CG103K_ 0147 0447 0747 1047 3147 3447 3747 4047 10,000 K 50
Add appropriate failure rate level letter (M, P, R or S)
50
MIL-C-39014/2Pin DIP
MILITARY DASH NUMBER IDENTIFICATION CKR22 to MIL-C-39014/22
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours)
Type Standard Lead Length Optional Longer Lead Length Capacitance Capacitance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) Tolerance WVDC
Style CKR22, Voltage-temperature limits of ±15% (+15%, -25% for Rated Voltage)
CKR22BX271K_ 0148 0448 0748 1048 3148 3448 3748 4048 270 K 200
CKR22BX331K_ 0149 0449 0749 1049 3149 3449 3749 4049 330 K
CKR22BX331M_ 0150 0450 0750 1050 3150 3450 3750 4050 330 M
CKR22BX391K_ 0151 0451 0751 1051 3151 3451 3751 4051 390 K
CKR22BX471K_ 0152 0452 0752 1052 3152 3452 3752 4052 470 K
CKR22BX471M_ 0153 0453 0753 1053 3153 3453 3753 4053 470 M
CKR22BX561K_ 0154 0454 0754 1054 3154 3454 3754 4054 560 K
CKR22BX681K_ 0155 0455 0755 1055 3155 3455 3755 4055 680 K
CKR22BX681M_ 0156 0456 0756 1056 3156 3456 3756 4056 680 M
CKR22BX821K_ 0157 0457 0757 1057 3157 3457 3757 4057 820 K 200
CKR22BX102K_ 0158 0458 0758 1058 3158 3458 3758 4058 1,000 K 100
CKR22BX102M_ 0159 0459 0759 1059 3159 3459 3759 4059 1,000 M
CKR22BX122K_ 0160 0460 0760 1060 3160 3460 3760 4060 1,200 K
CKR22BX152K_ 0161 0461 0761 1061 3161 3461 3761 4061 1,500 K
CKR22BX152M_ 0162 0462 0762 1062 3162 3462 3762 4062 1,500 M
CKR22BX182K_ 0163 0463 0763 1063 3163 3463 3763 4063 1,800 K
CKR22BX222K_ 0164 0464 0764 1064 3164 3464 3764 4064 2,200 K
CKR22BX222M_ 0165 0465 0765 1065 3165 3465 3765 4065 2,200 M
CKR22BX272K_ 0166 0466 0766 1066 3166 3466 3766 4066 2,700 K
CKR22BX332K_ 0167 0467 0767 1067 3167 3467 3767 4067 3,300 K
CKR22BX332M_ 0168 0468 0768 1068 3168 3468 3768 4068 3,300 M
CKR22BX392K_ 0169 0469 0769 1069 3169 3469 3769 4069 3,900 K
CKR22BX472K_ 0170 0470 0770 1070 3170 3470 3770 4070 4,700 K
CKR22BX472M_ 0171 0471 0771 1071 3171 3471 3771 4071 4,700 M
CKR22BX562K_ 0172 0472 0772 1072 3172 3472 3772 4072 5,600 K
CKR22BX682K_ 0173 0473 0773 1073 3173 3473 3773 4073 6,800 K
CKR22BX682M_ 0174 0474 0774 1074 3174 3474 3774 4074 6,800 M
CKR22BX822K_ 0175 0475 0775 1075 3175 3475 3775 4075 8,200 K
CKR22BX103K_ 0176 0476 0776 1076 3176 3476 3776 4076 10,000 K
CKR22BX103M_ 0177 0477 0777 1077 3177 3477 3777 4077 10,000 M 100
CKR22BX123K_ 0178 0478 0778 1078 3178 3478 3778 4078 12,000 K 50
CKR22BX153K_ 0179 0479 0779 1079 3179 3479 3779 4079 15,000 K
CKR22BX153M_ 0180 0480 0780 1080 3180 3480 3780 4080 15,000 M
CKR22BX183K_ 0181 0481 0781 1081 3181 3481 3781 4081 18,000 K
CKR22BX223K_ 0182 0482 0782 1082 3182 3482 3782 4082 22,000 K
CKR22BX223M_ 0183 0483 0783 1083 3183 3483 3783 4083 22,000 M
CKR22BX273K_ 0184 0484 0784 1084 3184 3484 3784 4084 27,000 K
CKR22BX333K_ 0185 0485 0785 1085 3185 3485 3785 4085 33,000 K
CKR22BX333M_ 0186 0486 0786 1086 3186 3486 3786 4086 33,000 M
CKR22BX393K_ 0187 0487 0787 1087 3187 3487 3787 4087 39,000 K
CKR22BX473K_ 0188 0488 0788 1088 3188 3488 3788 4088 47,000 K
CKR22BX473M_ 0189 0489 0789 1089 3189 3489 3789 4089 47,000 M
CKR22BX563K_ 0190 0490 0790 1090 3190 3490 3790 4090 56,000 K
CKR22BX683K_ 0191 0491 0791 1091 3191 3491 3791 4091 68,000 K
CKR22BX683M_ 0192 0492 0792 1092 3192 3492 3792 4092 68,000 M
CKR22BX823K_ 0193 0493 0793 1093 3193 3493 3793 4093 82,000 K
CKR22BX104K_ 0194 0494 0794 1094 3194 3494 3794 4094 100,000 K
CKR22BX104M_ 0195 0495 0795 1095 3195 3495 3795 4095 100,000 M 50
Add appropriate failure rate level letter (M, P, R or S)
51
MIL-C-39014/2Pin DIP
MILITARY DASH NUMBER IDENTIFICATION CKR23 to MIL-C-39014/22
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours)
Type Standard Lead Length Optional Longer Lead Length Capacitance Capacitance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) Tolerance WVDC
Style CKR23, Voltage-temperature limits of 0 ± 60 ppm/°C
CKR23CG561F_ 0258 0558 0858 1158 3258 3558 3858 4158 560 F 200
CKR23CG561J_ 0259 0559 0859 1159 3259 3559 3859 4159 560 J
CKR23CG561K_ 0260 0560 0860 1160 3260 3560 3860 4160 560 K
CKR23CG681F_ 0261 0561 0861 1161 3261 3561 3861 4161 680 F
CKR23CG681J_ 0262 0562 0862 1162 3262 3562 3862 4162 680 J
CKR23CG681K_ 0263 0563 0863 1163 3263 3563 3863 4163 680 K
CKR23CG821F_ 0264 0564 0864 1164 3264 3564 3864 4164 820 F
CKR23CG821J_ 0265 0565 0865 1165 3265 3565 3865 4165 820 J
CKR23CG821K_ 0266 0566 0866 1166 3266 3566 3866 4166 820 K
CKR23CG102F_ 0267 0567 0867 1167 3267 3567 3867 4167 1,000 F
CKR23CG102J_ 0268 0568 0868 1168 3268 3568 3868 4168 1,000 J
CKR23CG102K_ 0269 0569 0869 1169 3269 3569 3869 4169 1,000 K
CKR23CG122F_ 0270 0570 0870 1170 3270 3570 3870 4170 1,200 F
CKR23CG122J_ 0271 0571 0871 1171 3271 3571 3871 4171 1,200 J
CKR23CG122K_ 0272 0572 0872 1172 3272 3572 3872 4172 1,200 K 200
CKR23CG272F_ 0273 0573 0873 1173 3273 3573 3873 4173 2,700 F 100
CKR23CG272J_ 0274 0574 0874 1174 3274 3574 3874 4174 2,700 J
CKR23CG272K_ 0275 0575 0875 1175 3275 3575 3875 4175 2,700 K
CKR23CG332F_ 0276 0576 0876 1176 3276 3576 3876 4176 3,300 F
CKR23CG332J_ 0277 0577 0877 1177 3277 3577 3877 4177 3,300 J
CKR23CG332K_ 0278 0578 0878 1178 3278 3578 3878 4178 3,300 K 100
CKR23CG472F_ 0279 0579 0879 1179 3279 3579 3879 4179 4,700 F 50
CKR23CG472J_ 0280 0580 0880 1180 3280 3580 3880 4180 4,700 J
CKR23CG472K_ 0281 0581 0881 1181 3281 3581 3881 4181 4,700 K
CKR23CG562F_ 0282 0582 0882 1182 3282 3582 3882 4182 5,600 F
CKR23CG562J_ 0283 0583 0883 1183 3283 3583 3883 4183 5,600 J
CKR23CG562K_ 0284 0584 0884 1184 3284 3584 3884 4184 5,600 K
CKR23CG682F_ 0285 0585 0885 1185 3285 3585 3885 4185 6,800 F
CKR23CG682J_ 0286 0586 0886 1186 3286 3586 3886 4186 6,800 J
CKR23CG682K_ 0287 0587 0887 1187 3287 3587 3887 4187 6,800 K
CKR23CG822F_ 0288 0588 0888 1188 3288 3588 3888 4188 8,200 F
CKR23CG822J 0289 0589 0889 1189 3289 3589 3889 4189 8,200 J
CKR23CG822K_ 0290 0590 0890 1190 3290 3590 3890 4190 8,200 K
CKR23CG103F_ 0291 0591 0891 1191 3291 3591 3891 4191 10,000 F
CKR23CG103J_ 0292 0592 0892 1192 3292 3592 3892 4192 10,000 J
CKR23CG103K_ 0293 0593 0893 1193 3293 3593 3893 4193 10,000 K 50
Style CKR23, voltage-temperature limits of ±15% (+15%, -25% for Rated Voltage)
CKR23BX102K_ 0196 0496 0796 1096 3196 3496 3796 4096 1,000 K 200
CKR23BX102M_ 0197 0497 0797 1097 3197 3497 3797 4097 1,000 M
CKR23BX122K_ 0198 0498 0798 1098 3198 3498 3798 4098 1,200 K
CKR23BX152K_ 0199 0499 0799 1099 3199 3499 3799 4099 1,500 K
CKR23BX152M_ 0200 0500 0800 1100 3200 3500 3800 4100 1,500 M
CKR23BX182K_ 0201 0501 0801 1101 3201 3501 3801 4101 1,800 K
CKR23BX222K_ 0202 0502 0802 1102 3202 3502 3802 4102 2,200 K
CKR23BX222M_ 0203 0503 0803 1103 3203 3503 3803 4103 2,200 M
CKR23BX272K_ 0204 0504 0804 1104 3204 3504 3804 4104 2,700 K
CKR23BX332K_ 0205 0505 0805 1105 3205 3505 3805 4105 3,300 K
CKR23BX332M_ 0206 0506 0806 1106 3206 3506 3806 4106 3,300 M
CKR23BX392K_ 0207 0507 0807 1107 3207 3507 3807 4107 3,900 K
CKR23BX472K_ 0208 0508 0808 1108 3208 3508 3808 4108 4,700 K
CKR23BX472M_ 0209 0509 0809 1109 3209 3509 3809 4109 4,700 M
CKR23BX562K_ 0210 0510 0810 1110 3210 3510 3810 4110 5,600 K
CKR23BX682K_ 0211 0511 0811 1111 3211 3511 3811 4111 6,800 K
CKR23BX682M_ 0212 0512 0812 1112 3212 3512 3812 4112 6,800 M
CKR23BX822K_ 0213 0513 0813 1113 3213 3513 3813 4113 8,200 K
CKR23BX103K_ 0214 0514 0814 1114 3214 3514 3814 4114 10,000 K
CKR23BX103M_ 0215 0515 0815 1115 3215 3515 3815 4115 10,000 M 200
CKR23BX123K_ 0216 0516 0816 1116 3216 3516 3816 4116 12,000 K 100
CKR23BX153K_ 0217 0517 0817 1117 3217 3517 3817 4117 15,000 K
CKR23BX153M_ 0218 0518 0818 1118 3218 3518 3818 4118 15,000 M
CKR23BX183K_ 0219 0519 0819 1119 3219 3519 3819 4119 18,000 K
CKR23BX223K_ 0220 0520 0820 1120 3220 3520 3820 4120 22,000 K
CKR23BX223M_ 0221 0521 0821 1121 3221 3521 3821 4121 22,000 M
CKR23BX273K_ 0222 0522 0822 1122 3222 3522 3822 4122 27,000 K
CKR23BX333K_ 0223 0523 0823 1123 3223 3523 3823 4123 33,000 K
CKR23BX333M_ 0224 0524 0824 1124 3224 3524 3824 4124 33,000 M
CKR23BX393K_ 0225 0525 0825 1125 3225 3525 3825 4125 39,000 K
CKR23BX473K_ 0226 0526 0826 1126 3226 3526 3826 4126 47,000 K
CKR23BX473M_ 0227 0527 0827 1127 3227 3527 3827 4127 47,000 M
CKR23BX563K_ 0228 0528 0828 1128 3228 3528 3828 4128 56,000 K
CKR23BX683K_ 0229 0529 0829 1129 3229 3529 3829 4129 68,000 K
CKR23BX683M_ 0230 0530 0830 1130 3230 3530 3830 4130 68,000 M
CKR23BX823K_ 0231 0531 0831 1131 3231 3531 3831 4131 82,000 K
CKR23BX104K_ 0232 0532 0832 1132 3232 3532 3832 4132 100,000 K
CKR23BX104M_ 0233 0533 0833 1133 3233 3533 3833 4133 100,000 M 100
CKR23BX124K_ 0234 0534 0834 1134 3234 3534 3834 4134 120,000 K 50
CKR23BX154K_ 0235 0535 0835 1135 3235 3535 3835 4135 150,000 K
CKR23BX154M_ 0236 0536 0836 1136 3236 3536 3836 4136 150,000 M
CKR23BX184K_ 0237 0537 0837 1137 3237 3537 3837 4137 180,000 K
CKR23BX224K_ 0238 0538 0838 1138 3238 3538 3838 4138 220,000 K
CKR23BX224M_ 0239 0539 0839 1139 3239 3539 3839 4139 220,000 M 50
Add appropriate failure rate level letter (M, P, R or S)
52
MIL-C-39014/2Pin DIP
MILITARY DASH NUMBER IDENTIFICATION CKR24 to MIL-C-39014/22
(Dash Number From Table)
Military Failure Rate Level (%/1,000 Hours)
Type Standard Lead Length Optional Longer Lead Length Capacitance Capacitance
Designation 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) 1.0 (M) 0.1 (P) 0.01 (R) 0.001 (S) (pF) Tolerance WVDC
Style CKR24, Voltage-temperature limits of ±15% (+15%, -40% for Rated Voltage)
CKR24BR124K_ 0240 0540 0840 1140 3240 3540 3840 4140 120,000 K 100
CKR24BR154K_ 0241 0541 0841 1141 3241 3541 3841 4141 150,000 K 100
CKR24BR154M_ 0242 0542 0842 1142 3242 3542 3842 4142 150,000 M 100
CKR24BR184K_ 0243 0543 0843 1143 3243 3543 3843 4143 180,000 K 50
CKR24BR224K_ 0244 0544 0844 1144 3244 3544 3844 4144 220,000 K
CKR24BR224M_ 0245 0545 0845 1145 3245 3545 3845 4145 220,000 M
CKR24BR274K_ 0246 0546 0846 1146 3246 3546 3846 4146 270,000 K
CKR24BR334K_ 0247 0547 0847 1147 3247 3547 3847 4147 330,000 K
CKR24BR334M_ 0248 0548 0848 1148 3248 3548 3848 4148 330,000 M
CKR24BR394K_ 0249 0549 0849 1149 3249 3549 3849 4149 390,000 K
CKR24BR474K_ 0250 0550 0850 1150 3250 3550 3850 4150 470,000 K
CKR24BR474M_ 0251 0551 0851 1151 3251 3551 3851 4151 470,000 M
CKR24BR564K_ 0252 0552 0852 1152 3252 3552 3852 4152 560,000 K
CKR24BR684K_ 0253 0553 0853 1153 3253 3553 3853 4153 680,000 K
CKR24BR684M_ 0254 0554 0854 1154 3254 3554 3854 4154 680,000 M
CKR24BR824K_ 0255 0555 0855 1155 3255 3555 3855 4155 820,000 K
CKR24BR105K_ 0256 0556 0856 1156 3256 3556 3856 4156 1,000,000 K
CKR24BR105M_ 0257 0557 0857 1157 3257 3557 3857 4157 1,000,000 M 50
Add appropriate failure rate level letter (M, P, R or S)
MARKING
0001 A 910
Date Code (year and week)
Trademark
4-Digit Dash Number
53
HOW TO ORDER
Military Type Designation: Styles CK05, CK06
For values, tolerances, voltages, sizes, configurations and
dielectrics not shown, contact AVX facilities directly
for information.
Part Number Example CK05 BX 104 K
Style
Voltage-Temperature Limits
Capacitance Code
Capacitance Tolerance
MIL-C-11015/Radial Leads
MIL Part No. Codes
Style: CK = General purpose, ceramic dielectric, fixed
capacitors.
05 = Remaining two numbers identify shape and
dimension.
Voltage-Temperature Limits:
First letter identifies temperature range.
B = -55°C to +125°C
Second letter identifies voltage-temperature coefficient.
Sig. Fig. Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros.
For example, order 100,000 pF as 104.
Capacitance Tolerances: K = ±10%, M = ±20%
Packaging: CK05 1000 per bag
CK06 1000 per bag
Radial tape and reel packaging available upon
request (2500 pcs./reel).
Capacitance Change with Reference to 25°C
Second Letter No Voltage Rated Voltage
X +15, -15% +15, -25% SIZE SPECIFICATIONS
Dimensions: Millimeters (Inches)
L.D.
L.D.
L.S.
L.S.
W
WT
L
LFigure 1
Figure 2
1.250 Min.
1.250 Min.
Case
Size Per MIL Spec
MIL-C-11015 CK05 (Fig. 1) CK06 (Fig. 2)
Length (L) 4.83±.25 7.37±.25
(.190±.010) (.290±.010)
Width (W) 4.83±.25 7.37±.25
(.190±.010) (.290±.010)
Thickness (T) 2.29±.25 2.29±.25
(.090±.010) (.090±.010)
Lead 5.08±.38 5.08±.38
Spacing (L.S.) (.200±.015) (.200±.015)
Lead .64±.05 .64±.05
Diameter (L.D.) (.025±.002) (.025±.002)
54
MIL-C-11015/Radial Leads
Military Part Number Identification CK05 and CK06
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CK05 (BX)
CK05BX100_ 10 K, M 200
CK05BX120K_ 12 K 200
CK05BX150_ 15 K, M 200
CK05BX180K_ 18 K 200
CK05BX220_ 22 K, M 200
CK05BX270K_ 27 K 200
CK05BX330_ 33 K, M 200
CK05BX390K_ 39 K 200
CK05BX470_ 47 K, M 200
CK05BX560K_ 56 K 200
CK05BX680_ 68 K, M 200
CK05BX820K_ 82 K 200
CK05BX101_ 100 K, M 200
CK05BX121K_ 120 K 200
CK05BX151_ 150 K, M 200
CK05BX181K_ 180 K 200
CK05BX221_ 220 K, M 200
CK05BX271K_ 270 K 200
CK05BX331_ 330 K, M 200
CK05BX391K_ 390 K 200
CK05BX471_ 470 K, M 200
CK05BX561K_ 560 K 200
CK05BX681_ 680 K, M 200
CK05BX821K_ 820 K 200
CK05BX102_ 1,000 K, M 200
CK05BX122_ 1,200 K 100
CK05BX152_ 1,500 K, M 100
CK05BX182K_ 1,800 K 100
CK05BX222_ 2,200 K, M 100
CK05BX272K_ 2,700 K 100
CK05BX332_ 3,300 K, M 100
CK05BX392K_ 3,900 K 100
CK05BX472_ 4,700 K, M 100
CK05BX562K_ 5,600 K 100
CK05BX682_ 6,800 K, M 100
CK05BX822K_ 8,200 K 100
CK05BX103_ 10,000 K, M 100
CK05BX123K_ 12,000 K 50
CK05BX153_ 15,000 K, M 50
CK05BX183K_ 18,000 K 50
CK05BX223_ 22,000 K, M 50
CK05BX273K_ 27,000 K 50
CK05BX333_ 33,000 K, M 50
CK05BX393K_ 39,000 K 50
CK05BX473_ 47,000 K, M 50
CK05BX563K_ 56,000 K 50
CK05BX683_ 68,000 K, M 50
CK05BX823K_ 82,000 K 50
CK05BX104_ 100,000 K, M 50
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CK06 (BX)
CK06BX122K_ 1,200 K 200
CK06BX152_ 1,500 K, M 200
CK06BX182K_ 1,800 K 200
CK06BX222_ 2,200 K, M 200
CK06BX272K_ 2,700 K 200
CK06BX332_ 3,300 K, M 200
CK06BX392K_ 3,900 K 200
CK06BX472_ 4,700 K, M 200
CK06BX562K_ 5,600 K 200
CK06BX682_ 6,800 K, M 200
CK06BX822K_ 8,200 K 200
CK06BX103_ 10,000 K, M 200
CK06BX123K_ 12,000 K 100
CK06BX153_ 15,000 K, M 100
CK06BX183K_ 18,000 K 100
CK06BX223_ 22,000 K, M 100
CK06BX273K_ 27,000 K 100
CK06BX333_ 33,000 K, M 100
CK06BX393K_ 39,000 K 100
CK06BX473_ 47,000 K, M 100
CK06BX563K_ 56,000 K 100
CK06BX683_ 68,000 K, M 100
CK06BX823K_ 82,000 K 100
CK06BX104_ 100,000 K, M 100
CK06BX124K_ 120,000 K 50
CK06BX154_ 150,000 K, M 50
CK06BX184K_ 180,000 K 50
CK06BX224_ 220,000 K, M 50
CK06BX274K_ 270,000 K 50
CK06BX334_ 330,000 K, M 50
CK06BX394K_ 390,000 K 50
CK06BX474_ 470,000 K, M 50
CK06BX564K_ 560,000 K 50
CK06BX684_ 680,000 K, M 50
CK06BX824K_ 820,000 K 50
CK06BX105_ 1.0 mfd K, M 50
Add Capacitance Tolerance Letter K = ±10% or M = ±20%
Add Capacitance Tolerance Letter K = ±10% or M = ±20%
MARKING
CK05
BX
103K
100V
AAAY
9910
Style
Temperature Characteristic
Capacitance Value
(3 digit code) and Capacitance Tolerance
Voltage Rating
A for AVX; Plant I.D. (X); Lot Code (XX)
Date Code
Front Back
CK05/CK06
55
HOW TO ORDER
Military Type Designation: Styles CK12, CK13, CK14, CK15, CK16
Part Number Example CK12 BX 103 K
Style
Voltage-Temperature Limits
Capacitance Code
Capacitance Tolerance
MIL-C-11015/Axial Leads
MIL Part No. Codes
Style: CK = general purpose, ceramic dielectric, fixed
capacitors.
12 = Remaining two numbers identify shape and
dimension.
Voltage-Temperature Limits:
First letter identifies temperature range.
B = -55°C to +125°C
Second letter identifies voltage-temperature coefficient.
Sig. Fig. Capacitance and Multiplier:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 10,000 pF as 103.
Capacitance Tolerances: K = ±10%, M = ±20%
PACKAGING REQUIREMENTS
Packaging: Bulk
CK12, 13 & 14 100 pcs per bag
CK15 & 16 50 pcs per bag
Tape & Reel
CK12, 13 5000 pcs per reel
CK14 3000 pcs per reel
CK15 950 pcs per reel
CK16 650 pcs per reel
Capacitance Change with Reference to 25°C
Second Letter No Voltage Rated Voltage
R +15, -15% +15, -40%
X +15, -15% +15, -25%
SIZE SPECIFICATIONS
Dimensions: Millimeters (Inches)
L1.25
MIN.
L.D.
D
Case
Size Per MIL Spec
MIL-C-11015 CK12 CK13 CK14 CK15 CK16
Length (L) 4.07±.25 6.35±.25 9.91±.25 12.7±.51 17.53±.51
(.160±.010) (.250±.010) (.390±.010) (.500±.020) (.690±.020)
Diameter (D) 2.29±.25 2.29±.25 3.56±.25 6.35±.38 8.89±.51
(.090±.010) (.090±.010) (.140±.010) (.250±.015) (.350±.020)
Lead .48±.05 .48±.05 .63±.05 .63±.05 .63±.05
Diameter (L.D.) (.019±.002) (.019±.002) (.025±.002) (.025±.002) (.025±.002)
56
MIL-C-11015/Axial Leads
Military Part Number Identification CK12 thru CK16
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CK12 (BX)
CK12BX100_ 10 K, M 100
CK12BX120K 12 K 100
CK12BX150_ 15 K, M 100
CK12BX180K 18 K 100
CK12BX220_ 22 K, M 100
CK12BX270K 27 K 100
CK12BX330_ 33 K, M 100
CK12BX390K 39 K 100
CK12BX470_ 47 K, M 100
CK12BX560K 56 K 100
CK12BX680_ 68 K, M 100
CK12BX820K 82 K 100
CK12BX101_ 100 K, M 100
CK12BX121K 120 K 100
CK12BX151_ 150 K, M 100
CK12BX181K 180 K 100
CK12BX221_ 220 K, M 100
CK12BX271K 270 K 100
CK12BX331_ 330 K, M 100
CK12BX391K 390 K 100
CK12BX471_ 470 K, M 100
CK12BX561K 560 K 100
CK12BX681_ 680 K, M 100
CK12BX821K 820 K 100
CK12BX102_ 1,000 K, M 100
CK12BX122K 1,200 K 100
CK12BX152_ 1,500 K, M 100
CK12BX182K 1,800 K 100
CK12BX222_ 2,200 K, M 100
CK12BX272K 2,700 K 100
CK12BX332_ 3,300 K, M 100
CK12BX392K 3,900 K 100
CK12BX472_ 4,700 K, M 100
CK12BX562K 5,600 K 50
CK12BX682_ 6,800 K, M 50
CK12BX822K 8,200 K 50
CK12BX103_ 10,000 K, M 50
CK13 (BX)
CK13BX562K 5,600 K 100
CK13BX682_ 6,800 K, M 100
CK13BX822K 8,200 K 100
CK13BX103_ 10,000 K, M 100
CK13BX123K 12,000 K 50
CK13BX153_ 15,000 K, M 50
CK13BX183K 18,000 K 50
CK13BX223_ 22,000 K, M 50
CK13 (BR)
CK13BR273K 27,000 K 50
CK13BR333_ 33,000 K, M 50
CK13BR393K 39,000 K 50
CK13BR473_ 47,000 K, M 50
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CK14 (BX)
CK14BX123K 12,000 K 100
CK14BX153_ 15,000 K, M 100
CK14BX183K 18,000 K 100
CK14BX223_ 22,000 K, M 100
CK14BX273K 27,000 K 100
CK14BX333_ 33,000 K, M 100
CK14BX393K 39,000 K 100
CK14BX473_ 47,000 K, M 100
CK14 (BR)
CK14BR563K 56,000 K 100
CK14BR683_ 68,000 K, M 100
CK14BR823K 82,000 K 100
CK14BR104_ 100,000 K, M 100
CK14BR124K 120,000 K 50
CK14BR154_ 150,000 K, M 50
CK14BR184K 180,000 K 50
CK14BR224_ 220,000 K, M 50
CK14BR274K 270,000 K 50
CK15 (BX)
CK15BX104K 100,000 K, M 100
CK15 (BR)
CK15BR124K 120,000 K 100
CK15BR154_ 150,000 K, M 100
CK15BR184K 180,000 K 100
CK15BR224_ 220,000 K, M 100
CK15BR274K 270,000 K 100
CK15BR334_ 330,000 K, M 100
CK15BR474K 470,000 K, M 50
CK15BR105_ 1,000,000 K, M 50
CK16 (BR)
CK16BR474K 470,000 K, M 100
CK16BR105_ 1,000,000 K, M 100
CK16BR225_ 2,200,000 K, M 50
CK16BR335_ 3,300,000 K, M 50
Add Capacitance Tolerance Letter K = ±10% or M = ±20%
Add Capacitance Tolerance Letter K = ±10% or M = ±20%
MARKING
Style
Temperature Characteristic
Capacitance Value
(3 digit code) and Cap. Tolerance
Date Code
Mfg. I.D. Code
CK12
BX
103K
9910
AVX
CK14BR
104K
9910
AVX
Style and Temp. Characteristic
Capacitance Value and Cap. Tolerance
Date Code
Mfg. I.D. Code
CK12/CK13 CK14, CK15, CK16
57
HOW TO ORDER
Military Type Designation:
Established Reliability = CCR05, CCR06, CCR07, CCR08, CCR09
Non-Established Reliability = CC05, CC06, CC07, CC08, CC09
MIL-C-20/Radial Leads
MIL Part No. Codes
Style: CC = Identifies temperature compensating,
ceramic dielectric, fixed capacitors.
R = Identifies Established Reliability parts.
06 = Numbers identify shape and dimension.
Temperature Characteristic:
1/ Not practically measurable.
2/ The ppm/°C values for -55°C were calculated by dividing ppm by
negative 80°C.
Capacitance Code:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 18,000 pF as 183. (For values below 10
pF, use “R” in place of decimal point, e.g., 1R4 = 1.4pF).
Capacitance Tolerance:
C = ±0.25 pF, D = ±0.5 pF, F = ±1%, G = ±2%,
J = ±5%, K = ±10%
Military Failure Rate:
M = 1% per 1000 hours, P = 0.1% per 1000 hours,
R = 0.01% per 1000 hours, S = 0.001% per 1000 hours.
PACKAGING REQUIREMENTS
Packaging: CCR0X: 100 pcs/bag; CC0X: 1000 pcs/bag
Permissible capacitance change from capacitance at +25°C in ppm/°C
Temp. Characteristic
CX CK CJ CH CG
+125°C 1/ ±250 ppm/°C ±120 ppm/°C ±60 ppm/°C ±30 ppm/°C
-55°C 2/ 1/ +246.25 +116.25 +55.00 +27.50
-326.25 -166.25 -91.25 -53.75
SIZE SPECIFICATIONS Dimensions: Millimeters (Inches)
Per MIL
Spec Case Size
Lead Lead
MIL-C-20 Length Width Thickness Spacing Diameter
(L) (W) (T) (L.S.) (L.D.)
CCR05/CC05 4.83±.25 4.83±.25 2.29±.25 5.08±.38 .64±.05
Figures 1, 4 (.190±.010) (.190±.010) (.090±.010) (.200±.015) (.025±.002)
CCR06/CC06 7.37±.25 7.37±.25 2.29±.25 5.08±.38 .64±.05
Figures 2, 3 (.290±.010) (.290±.010) (.090±.010) (.200±.015) (.025±.002)
CCR07/CC07 12.19±.51 12.19±.51 3.56±.25 10.16±.51 .64±.05
Figure 2 (.480±.020) (.480±.020) (.140±.010) (.400±.020) (.025±.002)
CCR08/CC08 12.19±.51 12.19±.51 6.1±.25 10.16±.51 .64±.05
Figure 2 (.480±.020) (.480±.020) (.240±.010) (.400±.020) (.025±.002)
CCR09/CC09 4.83±.25 4.83±.25 2.29±.25 2.54±.38 .64±.05
Figure 2 (.190±.010) (.190±.010) (.090±.010) (.100±.015) (.025±.002)
L.D.
L.D.
L.D.
L.D.
L.S. L.S.
L.S.
L.S.
W
W
W
W
T
T
T
L
L
L
L
1.250 Min. 1.250 Min.
Figure 1 Figure 2
Figure 4
Figure 3
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC05-CCR05, CC09-CCR09
CCR05CX1R0_ 1.0 C 200
CCR05CX1R1_ 1.1 C 200
CCR05CX1R2_ 1.2 C 200
CCR05CX1R3_ 1.3 C 200
CCR05CX1R5_ 1.5 C 200
CCR05CX1R6_ 1.6 C 200
CCR05CX1R8_ 1.8 C 200
CCR05CX2R0_ 2.0 C 200
CCR05CK2R2_ 2.2 C 200
CCR05CK2R4_ 2.4 C 200
CCR05CK2R7_ 2.7 C, D 200
CCR05CK3R0_ 3.0 C, D 200
CCR05CK3R3_ 3.3 C, D 200
CCR05CK3R6_ 3.6 C, D 200
CCR05CK3R9_ 3.9 C, D 200
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC05-CCR05, CC09-CCR09
CCR05CJ4R3_ 4.3 C, D 200
CCR05CJ4R7_ 4.7 C, D 200
CCR05CJ5R1_ 5.1 C, D 200
CCR05CJ5R6_ 5.6 C, D 200
CCR05CJ6R2_ 6.2 C, D 200
CCR05CJ6R8_ 6.8 C, D 200
CCR05CJ7R5_ 7.5 C, D 200
CCR05CH8R2_ 8.2 C, D 200
CCR05CH9R1_ 9.1 C, D 200
CCR05CH100_ 10 G, J 200
CCR05CH110_ 11 G, J 200
CCR05CH120_ 12 G, J 200
CCR05CH130_ 13 G, J 200
CCR05CH150_ 15 G, J 200
CCR05CH160_ 16 G, J 200
Add appropriate failure rate level (M, P, R, or S), add V for Stand-off
Add appropriate cap. tolerance letter
Add appropriate failure rate level (M, P, R, or S), add V for Stand-off
Add appropriate cap. tolerance letter
Part Number Example CCR06 CG 183 J R (V)
Style
Temperature Characteristic
Capacitance Code
Capacitance Tolerance
Military Failure Rate
Stand-off Option
To order stand-off option, place “V” at the end of the part number.
For example: CCR05CG332FSV.
MILITARY PART NUMBER IDENTIFICATION
58
MIL-C-20/Radial Leads
Military Part Number Identification
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC05-CCR05, CC09-CCR09
CCR05CH180_ 18 G, J 200
CCR05CG200_ 20 G, J 200
CCR05CG220_ 22 G, J 200
CCR05CG240_ 24 G, J 200
CCR05CG270_ 27 F, G, J 200
CCR05CG300_ 30 F, G, J 200
CCR05CG330_ 33 F, G, J 200
CCR05CG360_ 36 F, G, J 200
CCR05CG390_ 39 F, G, J 200
CCR05CG430_ 43 F, G, J 200
CCR05CG470_ 47 F, G, J 200
CCR05CG510_ 51 F, G, J 200
CCR05CG560_ 56 F, G, J 200
CCR05CG620_ 62 F, G, J 200
CCR05CG680_ 68 F, G, J 200
CCR05CG750_ 75 F, G, J 200
CCR05CG820_ 82 F, G, J 200
CCR05CG910_ 91 F, G, J 200
CCR05CG101_ 100 F, G, J 200
CCR05CG111_ 110 F, G, J 200
CCR05CG121_ 120 F, G, J 200
CCR05CG131_ 130 F, G, J 200
CCR05CG151_ 150 F, G, J 200
CCR05CG161_ 160 F, G, J 200
CCR05CG181_ 180 F, G, J 200
CCR05CG201_ 200 F, G, J 200
CCR05CG221_ 220 F, G, J 200
CCR05CG241_ 240 F, G, J 200
CCR05CG271_ 270 F, G, J 200
CCR05CG301_ 300 F, G, J 200
CCR05CG331_ 330 F, G, J 200
CCR05CG361_ 360 F, G, J 100
CCR05CG391_ 390 F, G, J 100
CCR05CG431_ 430 F, G, J 100
CCR05CG471_ 470 F, G, J 100
CCR05CG511_ 510 F, G, J 100
CCR05CG561_ 560 F, G, J 100
CCR05CG621_ 620 F, G, J 100
CCR05CG681_ 680 F, G, J 100
CCR05CG751_ 750 F, G, J 100
CCR05CG821_ 820 F, G, J 100
CCR05CG911_ 910 F, G, J 100
CCR05CG102_ 1,000 F, G, J 100
CCR05CG112_ 1,100 F, G, J 100
CCR05CG122_ 1,200 F, G, J 100
CCR05CG132_ 1,300 F, G, J 100
CCR05CG152_ 1,500 F, G, J 100
CCR05CG162_ 1,600 F, G, J 100
CCR05CG182_ 1,800 F, G, J 100
CCR05CG202_ 2,000 F, G, J 50
CCR05CG222_ 2,200 F, G, J 50
CCR05CG242_ 2,400 F, G, J 50
CCR05CG272_ 2,700 F, G, J 50
CCR05CG302_ 3,000 F, G, J 50
CCR05CG332_ 3,300 F, G, J 50
CC06, CCR06
CCR06CG361_ 360 F, G, J 200
CCR06CG391 390 F, G, J 200
CCR06CG431_ 430 F, G, J 200
CCR06CG471_ 470 F, G, J 200
CCR06CG511_ 510 F, G, J 200
CCR06CG561_ 560 F, G, J 200
CCR06CG621_ 620 F, G, J 200
CCR06CG681_ 680 F, G, J 200
CCR06CG751_ 750 F, G, J 200
CCR06CG821_ 820 F, G, J 200
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC06, CCR06 (cont)
CCR06CG911_ 910 F, G, J 200
CCR06CG102_ 1,000 F, G, J 200
CCR06CG112_ 1,100 F, G, J 200
CCR06CG122_ 1,200 F, G, J 200
CCR06CG132_ 1,300 F, G, J 200
CCR06CG152_ 1,500 F, G, J 200
CCR06CG162_ 1,600 F, G, J 200
CCR06CG182_ 1,800 F, G, J 200
CCR06CG202_ 2,000 F, G, J 100
CCR06CG222_ 2,200 F, G, J 100
CCR06CG242_ 2,400 F, G, J 100
CCR06CG272_ 2,700 F, G, J 100
CCR06CG302_ 3,000 F, G, J 100
CCR06CG332_ 3,300 F, G, J 100
CCR06CG362_ 3,600 F, G, J 100
CCR06CG392_ 3,900 F, G, J 100
CCR06CG432_ 4,300 F, G, J 100
CCR06CG472_ 4,700 F, G, J 100
CCR06CG512_ 5,100 F, G, J, K 50
CCR06CG562_ 5,600 F, G, J, K 50
CCR06CG622_ 6,200 F, G, J, K 50
CCR06CG682_ 6,800 F, G, J, K 50
CCR06CG752_ 7,500 F, G, J, K 50
CCR06CG822_ 8,200 F, G, J, K 50
CCR06CG912_ 9,100 F, G, J, K 50
CCR06CG103_ 10,000 F, G, J, K 50
CCR06CG123_ 12,000 F, G, J, K 50
CCR06CG153_ 15,000 F, G, J, K 50
CCR06CG183_ 18,000 F, G, J, K 50
CC07, CCR07
CCR07CG222_ 2,200 F, G, J, K 200
CCR07CG272_ 2,700 F, G, J, K 200
CCR07CG332_ 3,300 F, G, J, K 200
CCR07CG392_ 3,900 F, G, J, K 200
CCR07CG472_ 4,700 F, G, J, K 200
CCR07CG562_ 5,600 F, G, J, K 100
CCR07CG682_ 6,800 F, G, J, K 100
CCR07CG822_ 8,200 F, G, J, K 100
CCR07CG103_ 10,000 F, G, J, K 100
CCR07CG123_ 12,000 F, G, J, K 100
CCR07CG153_ 15,000 F, G, J, K 50
CCR07CG183_ 18,000 F, G, J, K 50
CCR07CG223_ 22,000 F, G, J, K 50
CCR07CG273_ 27,000 F, G, J, K 50
CCR07CG333_ 33,000 F, G, J, K 50
CCR07CG393_ 39,000 F, G, J, K 50
CCR07CG473_ 47,000 F, G, J, K 50
CCR07CG563_ 56,000 F, G, J, K 50
CCR07CG683_ 68,000 F, G, J, K 50
CCR07CG823_ 82,000 F, G, J, K 50
CCR07CG104_ 100,000 F, G, J, K 50
CC08, CCR08
CCR08CG392_ 3,900 G, J, K 200
CCR08CG472_ 4,700 G, J, K 200
CCR08CG153_ 15,000 G, J, K 100
CCR08CG183_ 18,000 G, J, K 100
CCR08CG563_ 56,000 G, J, K 50
CCR08CG683_ 68,000 G, J, K 50
Add appropriate failure rate level (M, P, R or S)
Add appropriate cap. tolerance letter
Add appropriate failure rate level (M, P, R or S)
Add appropriate cap. tolerance letter
Note: For marking information, see page 63.
59
HOW TO ORDER
Military Type Designation:
Established Reliability = CCR75, CCR76, CCR77, CCR78, CCR79
Non-Established Reliability = CC75, CC76, CC77, CC78, CC79
MIL-C-20/Axial Leads
MIL Part No. Codes
Style: CC = Identifies temperature compensating,
ceramic dielectric, fixed capacitors.
R = Identifies Established Reliability parts.
76 = Numbers identify shape and dimension.
Temperature Characteristic:
1/ Not practically measurable.
Capacitance Code:
First two digits are the significant figures of capacitance.
Third digit indicates the additional number of zeros. For
example, order 1,000 pF as 102. (For values below 10 pF,
use “R” in place of decimal point, e.g., 1R8 - 1.8pF).
Capacitance Tolerance:
C = ±0.25 pF, D = ±0.5 pF, F = ±1%,
G = ±2%, J = ±5%, K = ±10%
Military Failure Rate:
M = 1% per 1000 hours, P = 0.1% per 1000 hours,
R = 0.01% per 1000 hours, S = 0.001% per 1000 hours.
Permissible capacitance change from capacitance at +25°C in ppm/°C
Temp. Characteristic
CX CK CJ CH CG
+125°C 1/ ±250 ppm/°C ±120 ppm/°C ±60 ppm/°C ±30 ppm/°C
-55°C 2/ 1/ +246.25 +116.25 +55.00 +27.50
-326.25 -166.25 -91.25 -53.75
SIZE SPECIFICATIONS
Dimensions: Millimeters (Inches)
L1.25
MIN.
L.D.
D
Part Number Example CCR76 CG 102 J R
Style
Temperature Characteristic
Capacitance Code
Capacitance Tolerance
Military Failure Rate
Per MIL
Spec Case Size
Length Diameter Lead Diameter
MIL-C-20 (L) (D) (L.D.)
CCR75 4.07±.25 2.29±.25 .48±.05
CC75 (.160±.010) (.090±.010) (.019±.002)
CCR76 6.35±.25 2.29±.25 .48±.05
CC76 (.250±.010) (.090±.010) (.019±.002)
CCR77 9.91±.25 3.56±.25 .63±.05
CC77 (.390±.010) (.140±.010) (.025±.002)
CCR78 12.7±.51 6.35±.38 .63±.05
CC78 (.500±.020) (.250±.015) (.025±.002)
CCR79 17.53±.51 8.89±.51 .63±.05
CC79 (.690±.020) (.350±.020) (.025±.002)
PACKAGING REQUIREMENTS
Packaging:
Bulk
CCR75/CC75, CCR76/CC76, CCR77/CC77, 100 pcs/bag
CCR78/CC78, CCR79/CC79 50 pcs/bag
Tape & Reel
CCR75/CC75, CCR76/CC76 5000 pcs/reel
CCR77/CC77 3000 pcs/reel
CCR78/CC78 950 pcs/reel
CCR79/CC79 650 pcs/reel
60
MIL-C-20/Axial Leads
Military Part Number Identification CC75 thru CC79 and CCR75 thru CCR79
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC75-CCR75
CCR75CX1R0_ 1.0 C 200
CCR75CX1R1_ 1.1 C 200
CCR75CX1R2_ 1.2 C 200
CCR75CX1R3_ 1.3 C 200
CCR75CX1R5_ 1.5 C 200
CCR75CX1R6_ 1.6 C 200
CCR75CX1R8_ 1.8 C 200
CCR75CX2R0_ 2.0 C 200
CCR75CK2R2_ 2.2 C 200
CCR75CK2R4_ 2.4 C 200
CCR75CK2R7_ 2.7 C, D 200
CCR75CK3R0_ 3.0 C, D 200
CCR75CK3R3_ 3.3 C, D 200
CCR75CK3R6_ 3.6 C, D 200
CCR75CK3R9_ 3.9 C, D 200
CCR75CJ4R3_ 4.3 C, D 200
CCR75CJ4R7_ 4.7 C, D 200
CCR75CJ5R1_ 5.1 C, D 200
CCR75CJ5R6_ 5.6 C, D 200
CCR75CJ6R2_ 6.2 C, D 200
CCR75CJ6R8_ 6.8 C, D 200
CCR75CJ7R5_ 7.5 C, D 200
CCR75CH8R2_ 8.2 C, D 200
CCR75CH9R1_ 9.1 C, D 200
CCR75CH100_ 10 G, J 200
CCR75CH110_ 11 G, J 200
CCR75CH120_ 12 G, J 200
CCR75CH130_ 13 G, J 200
CCR75CH150_ 15 G, J 200
CCR75CH160_ 16 G, J 200
CCR75CH180_ 18 G, J 200
CCR75CG200_ 20 F, G, J 200
CCR75CG220_ 22 F, G, J 200
CCR75CG240_ 24 F, G, J 200
CCR75CG270_ 27 F, G, J 200
CCR75CG300_ 30 F, G, J 200
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC75-CCR75
CCR75CG330_ 33 F, G, J 200
CCR75CG360_ 36 F, G, J 200
CCR75CG390_ 39 F, G, J 200
CCR75CG430_ 43 F, G, J 200
CCR75CG470_ 47 F, G, J 200
CCR75CG510_ 51 F, G, J 200
CCR75CG560_ 56 F, G, J 200
CCR75CG620_ 62 F, G, J 200
CCR75CG680_ 68 F, G, J 200
CCR75CG750_ 75 F, G, J 200
CCR75CG820_ 82 F, G, J 100
CCR75CG910_ 91 F, G, J 100
CCR75CG101_ 100 F, G, J 100
CCR75CG111_ 110 F, G, J 100
CCR75CG121_ 120 F, G, J 100
CCR75CG131_ 130 F, G, J 100
CCR75CG151 150 F, G, J 100
CCR75CG161_ 160 F, G, J 100
CCR75CG181_ 180 F, G, J 100
CCR75CG201_ 200 F, G, J 100
CCR75CG221_ 220 F, G, J 100
CCR75CG241_ 240 F, G, J 100
CCR75CG271_ 270 F, G, J 50
CCR75CG301_ 300 F, G, J 50
CCR75CG331_ 330 F, G, J 50
CCR75CG361_ 360 F, G, J 50
CCR75CG391_ 390 F, G, J 50
CCR75CG431_ 430 F, G, J 50
CCR75CG471_ 470 F, G, J 50
CCR75CG511_ 510 F, G, J 50
CCR75CG561_ 560 F, G, J 50
CCR75CG621_ 620 F, G, J 50
CCR75CG681_ 680 F, G, J 50
Add appropriate failure rate level (M, P, R or S)
Add appropriate cap. tolerance letter
Add appropriate failure rate level (M, P, R or S)
Add appropriate cap. tolerance letter
Note: For marking information, see page 63.
61
MIL-C-20/Axial Leads
Military Part Number Identification CC75 thru CC79 and CCR75 thru CCR79
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC76, CCR76
CCR76CG820_ 82 F, G, J 200
CCR76CG910_ 91 F, G, J 200
CCR76CG101_ 100 F, G, J 200
CCR76CG111_ 110 F, G, J 200
CCR76CG121_ 120 F, G, J 200
CCR76CG131_ 130 F, G, J 200
CCR76CG271_ 270 F, G, J 100
CCR76CG301_ 300 F, G, J 100
CCR76CG331_ 330 F, G, J 100
CCR76CG361_ 360 F, G, J 100
CCR76CG391_ 390 F, G, J 100
CCR76CG431_ 430 F, G, J 100
CCR76CG471_ 470 F, G, J 100
CCR76CG511_ 510 F, G, J 100
CCR76CG561_ 560 F, G, J 100
CCR76CG621_ 620 F, G, J 100
CCR76CG681_ 680 F, G, J 100
CCR76CG751_ 750 F, G, J 50
CCR76CG821_ 820 F, G, J 50
CCR76CG911_ 910 F, G, J 50
CCR76CG102_ 1,000 F, G, J 50
CC77, CCR77
CCR77CG151_ 150 F, G, J 200
CCR77CG161_ 160 F, G, J 200
CCR77CG181_ 180 F, G, J 200
CCR77CG201_ 200 F, G, J 200
CCR77CG221_ 220 F, G, J 200
CCR77CG241_ 240 F, G, J 200
CCR77CG271_ 270 F, G, J 200
CCR77CG301_ 300 F, G, J 200
CCR77CG331_ 330 F, G, J 200
CCR77CG361_ 360 F, G, J 200
CCR77CG391_ 390 F, G, J 200
CCR77CG431_ 430 F, G, J 200
CCR77CG471_ 470 F, G, J 200
CCR77CG511_ 510 F, G, J 200
CCR77CG561_ 560 F, G, J 200
CCR77CG621_ 620 F, G, J 200
CCR77CG681_ 680 F, G, J 200
CCR77CG751_ 750 F, G, J 100
CCR77CG821_ 820 F, G, J 100
CCR77CG911_ 910 F, G, J 100
CCR77CG102_ 1,000 F, G, J 100
CCR77CG112_ 1,100 F, G, J 100
CCR77CG122_ 1,200 F, G, J 100
CCR77CG132_ 1,300 F, G, J 100
CCR77CG152_ 1,500 F, G, J 100
CCR77CG162_ 1,600 F, G, J 100
CCR77CG182_ 1,800 F, G, J 100
CCR77CG202_ 2,000 F, G, J 100
CCR77CG222_ 2,200 F, G, J 100
CCR77CG242_ 2,400 F, G, J 50
CCR77CG272_ 2,700 F, G, J 50
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CC77, CCR77 (cont)
CCR77CG302_ 3,000 F, G, J 50
CCR77CG332_ 3,300 F, G, J 50
CCR77CG362_ 3,600 F, G, J 50
CCR77CG392_ 3,900 F, G, J 50
CCR77CG432_ 4,300 F, G, J 50
CCR77CG472_ 4,700 F, G, J 50
CCR77CG512_ 5,100 F, G, J, K 50
CCR77CG562_ 5,600 F, G, J, K 50
CC78, CCR78
CCR78CG821_ 820 F, G, J, K 200
CCR78CG102_ 1,000 F, G, J, K 200
CCR78CG122_ 1,200 F, G, J, K 200
CCR78CG152_ 1,500 F, G, J, K 200
CCR78CG182_ 1,800 F, G, J, K 200
CCR78CG222_ 2,200 F, G, J, K 200
CCR78CG272_ 2,700 F, G, J, K 200
CCR78CG332_ 3,300 F, G, J, K 200
CCR78CG392_ 3,900 F, G, J, K 100
CCR78CG472_ 4,700 F, G, J, K 100
CCR78CG562_ 5,600 F, G, J, K 100
CCR78CG682_ 6,800 F, G, J, K 100
CCR78CG822_ 8,200 F, G, J, K 100
CCR78CG103_ 10,000 F, G, J, K 100
CCR78CG123_ 12,000 F, G, J, K 100
CCR78CG153_ 15,000 F, G, J, K 50
CCR78CG183_ 18,000 F, G, J, K 50
CCR78CG223_ 22,000 F, G, J, K 50
CCR78CG273_ 27,000 F, G, J, K 50
CC79, CCR79
CCR79CG392_ 3,900 F, G, J, K 200
CCR79CG472_ 4,700 F, G, J, K 200
CCR79CG562_ 5,600 F, G, J, K 200
CCR79CG682_ 6,800 F, G, J, K 200
CCR79CG822_ 8,200 F, G, J, K 200
CCR79CG103_ 10,000 F, G, J, K 200
CCR79CG153_ 15,000 F, G, J, K 100
CCR79CG183_ 18,000 F, G, J, K 100
CCR79CG223_ 22,000 F, G, J, K 100
CCR79CG273_ 27,000 F, G, J, K 100
CCR79CG333_ 33,000 F, G, J, K 100
CCR79CG393_ 39,000 F, G, J, K 100
CCR79CG473_ 47,000 F, G, J, K 50
CCR79CG563_ 56,000 F, G, J, K 50
CCR79CG683_ 68,000 F, G, J, K 50
CCR79CG823_ 82,000 F, G, J, K 50
Add appropriate failure rate level (M, P, R or S)
Add appropriate cap. tolerance letter
Add appropriate failure rate level (M, P, R or S)
Add appropriate cap. tolerance letter
Note: For marking information, see page 62.
Note: Complete type designation will include the appropriate capacitance tolerance in the 11th digit. For CC styles, delete 3rd and 12th digits.
62
MIL-C-20
CC05
CH
100G
FRONT
9910
A0
4222
BACK
CC05 & CC09 CC75, CC76
Date Code
A=Lot Letter
0=1st Digit of AVX FSCM #
4222=Last four digits of
AVX FSCM #
CCR0
5CH1
00GM
FRONT
9910
AJ0
4222
BACK
CCR05 & CCR09
Date Code
A=Lot Letter
J=“J” or “JAN” Brand
0=1st Digit of AVX FSCM #
4222=Last four digits of
AVX FSCM #
CC06
CG
102F
FRONT
9910A
200V
04222
BACK
CC06
Date Code & Lot Letter
200V=Rated Voltage
04222=AVX FSCM #
CCR06
CG102
FM
CG
103
G9
AAVX
Characteristic
Capacitance Value
Cap. Tolerance & Year Code (9 for 1999)
Lot Code & Trademark
CG
101
G99
10AAA
Characteristic
Capacitance Value
Cap. Tolerance & 2 digit Year Code
2 digit Week, 2 digit Lot Code, A for AVX
FRONT
9910A
J200V
04222
BACK
CCR06
CC07
JCG
103
GM9
AAVX
“J” Brand (J) and Characteristic (CG)
Capacitance Value
Cap. Tolerance (G) FR Level (M), & Year Code (9 for 1999)
Lot Code (A); and Trademark (AVX)
“J” Brand (J) and Characteristic (CG)
Capacitance Value
Cap. Tolerance (G) FR Level (M), & 2 digit Year Code
2 digit Week, A for AVX
CCR07
CC08CG
392K
AVX
96095
200V 9910A
Trademark or Manufacturer’s Name
Source Code (FSCM)
Voltage, Date Code and Lot Symbol
CC08
CCR08CG
392KM
JAN AVX
96095
200V 9910A
“JAN” Brand & Trademark or Manufacturer’s Name
Source Code (FSCM)
Voltage, Date Code and Lot Symbol
CCR08
Date Code & Lot Letter
J=“J” or “JAN” Brand
200V=Rated Voltage
04222=AVX FSCM #
CCR75, CCR76
JCG
101
GM99
10AAA
CC77
CC77C
G151F
04222
9910AA
Type Designation
FSCM
4 digit Date Code, 2 digit Lot Code
Type Designation
“J” Brand and FSCM
4 digit Date Code, 2 digit Lot Code
CCR77
CCR77C
G151FM
JO4222
9910AA
Type Designation
Trademark or Manufacturer’s Name
Source Code (FSCM)
Voltage
4 digit Date Code
CC78, CC79
CC78CG
821K
AVX
04222
200V
9910AA
Type Designation
TC
Capacitance Tolerance, Failure Rate
“JAN” Brand, A for AVX
FSCM
Voltage
4 digit Date Code, 2 digit Lot Code
CCR78, CCR79
CCR78
CG
821KM
JAN A
04222
200V
9910AA
Radials
Axials
MARKING
63
Part Number Codes
Voltage-Temperature Limits:
Termination:
HOW TO ORDER
Military Type Designation: Capacitors, Fixed, Ceramic
Dielectric, (Temperature Stable and General Purpose),
High Reliability
MIL-C-123
Lead Capacitors
Symbol Termination Style
C
Copper, solder coated (type C-4 or C-5 of MIL-STD-1276)
WCopper clad steel, solder coated, 60 micro inches minimum.
Rated Voltage
Symbol Volts, DC
B
50
C 100
Cap. Tolerance
Symbol ±
C
0.25pF
D 0.5 pF
E1%
J5%
K 10%
Part Number Example
M123 A 01 BX B 103 K C
Mil-Spec Number
Modification Spec.
Slash Sheet Number
Characteristic Temperature
Voltage
Capacitance Code
Capacitance Tolerance
Termination
Capacitance change with reference to 25°C
over temperature range -55°C to +125°C
Symbol Without Voltage With Rated DC Voltage
BP 0 ± 30 ppm/°C 0 ± 30 ppm/°C
BX +15, -15 percent +15, -25 percent
Rated Voltage: Capacitance Tolerance:
TEST DESCRIPTION MIL-C-123 MIL-C-39014 MIL-C-20 MIL-C-55681
NDT 100% Ultrasonic Scan or No No No
(Non-Destructive Test) Neutron-Radiography
Pre-Cap Visual 100% No No No(Pre-Encapsulation
Visual Examination)
D.P.A. Lot by Lot—Pre-Termination No No No
(Destructive Physical Analysis) Lot by Lot—Finished Product
Pre-Cap
Terminal Strength Lot by Lot No No No
(Pre-Encapsulation Pull Test)
Life Test Lot by Lot—1000 Hours No No No
(Lot by Lot)
Low Voltage Lot by Lot No No No
Humidity
Thermal Shock Lot by Lot No No No
100 Cycles
CROSS REFERENCE MIL-SPEC TEST REQUIREMENTS
64
MIL-C-123/Radial Leads
MIL-C-123/STYLE CKS05, -/01
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A01BPC4R7_C 4.7 C, D BP 100
M123A01BPC5R1_C 5.1
M123A01BPC5R6_C 5.6
M123A01BPC6R2_C 6.2
M123A01BPC6R8_C 6.8
M123A01BPC7R5_C 7.5
M123A01BPC8R2_C 8.2
M123A01BPC9R1_C 9.1
M123A01BPC100_C 10 C, J, K
M123A01BPC110_C 11
M123A01BPC120_C 12
M123A01BPC130_C 13
M123A01BPC150_C 15
M123A01BPC160_C 16
M123A01BPC180_C 18
M123A01BPC200_C 20
M123A01BPC220_C 22
M123A01BPC240_C 24
M123A01BPC270_C 27 F, J, K
M123A01BPC300_C 30
M123A01BPC330_C 33
M123A01BPC360_C 36
M123A01BPC390_C 39
M123A01BPC430_C 43
M123A01BPC470_C 47
M123A01BPC510_C 51
M123A01BPC560_C 56
M123A01BPC620_C 62
M123A01BPC680_C 68
M123A01BPC750_C 75
M123A01BPC820_C 82
M123A01BPC910_C 91
M123A01BPC101_C 100
M123A01BPC111_C 110
M123A01BPC121_C 120
M123A01BPC131_C 130
M123A01BPC151_C 150
M123A01BPC161_C 160
M123A01BPC181_C 180
M123A01BPC201_C 200
M123A01BPC221_C 220
M123A01BPC241_C 240 F, J, K BP 100
M123A01BPB271_C 270 F, J, K BP 50
M123A01BPB301_C 300
M123A01BPB331_C 330
M123A01BPB361_C 360
M123A01BPB391_C 390
M123A01BPB431_C 430
M123A01BPB471_C 470
M123A01BPB511_C 510
M123A01BPB561_C 560
M123A01BPB621_C 620
M123A01BPB681_C 680
M123A01BPB751_C 750
M123A01BPB821_C 820
M123A01BPB911_C 910
M123A01BPB102_C 1,000
M123A01BPB112_C 1,100
M123A01BPB122_C 1,200
M123A01BPB132_C 1,300
M123A01BPB152_C 1,500
M123A01BPB162_C 1,600
M123A01BPB182_C 1,800
M123A01BPB202_C 2,000
M123A01BPB222_C 2,200
M123A01BPB242_C 2,400
M123A01BPB272_C 2,700 F, J, K BP 50
M123A01BXC271KC 270 K BX 100
M123A01BXC331KC 330
M123A01BXC391KC 390
M123A01BXC471KC 470
M123A01BXC561KC 560
M123A01BXC681KC 680
M123A01BXC821KC 820
M123A01BXC102KC 1,000
M123A01BXC122KC 1,200
M123A01BXC152KC 1,500
M123A01BXC182KC 1,800
M123A01BXC222KC 2,200
M123A01BXC272KC 2,700
M123A01BXC332KC 3,300
M123A01BXC392KC 3,900
M123A01BXC472KC 4,700 K BX 100
M123A01BXB562KC 5,600 K BX 50
M123A01BXB682KC 6,800
M123A01BXB822KC 8,200
M123A01BXB103KC 10,000 K BX 50
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A02BPC271_C 270 F, J, K BP 100
M123A02BPC301_C 300
M123A02BPC331_C 330
M123A02BPC361_C 360
M123A02BPC391_C 390
M123A02BPC431_C 430
M123A02BPC471_C 470
M123A02BPC511_C 510
M123A02BPC561_C 560
M123A02BPC621_C 620
M123A02BPC681_C 680
M123A02BPC751_C 750
M123A02BPC821_C 820
M123A02BPC911_C 910
M123A02BPC102_C 1,000
M123A02BPC112_C 1,100
M123A02BPC122_C 1,200
M123A02BPC132_C 1,300
M123A02BPC152_C 1,500
M123A02BPC162_C 1,600
M123A02BPC182_C 1,800
M123A02BPC202_C 2,000
M123A02BPC222_C 2,200
M123A02BPC242_C 2,400 F, J, K BP 100
M123A02BPB272_C 2,700 F, J, K BP 50
M123A02BPB302_C 3,000
M123A02BPB332_C 3,300
M123A02BPB362_C 3,600
M123A02BPB392_C 3,900
M123A02BPB432_C 4,300
M123A02BPB472_C 4,700 F, J, K BP 50
M123A02BXC562KC 5,600 K BX 100
M123A02BXC682KC 6,800
M123A02BXC822KC 8,200
M123A02BXC103KC 10,000
M123A02BXC123KC 12,000
M123A02BXC153KC 15,000
M123A02BXC183KC 18,000
M123A02BXC223KC 22,000
M123A02BXC273KC 27,000
M123A02BXC333KC 33,000
M123A02BXC393KC 39,000
M123A02BXC473KC 47,000
M123A02BXC563KC 56,000
M123A02BXC683KC 68,000
M123A02BXC823KC 82,000
M123A02BXC104KC 100,000 K BX 100
M123A02BXB563KC 56,000 K BX 50
M123A02BXB683KC 68,000
M123A02BXB823KC 82,000
M123A02BXB104KC 100,000
M123A02BXB124KC 120,000
M123A02BXB154KC 150,000
M123A02BXB184KC 180,000
M123A02BXB224KC 220,000
M123A02BXB274KC 270,000
M123A02BXB334KC 330,000
M123A02BXB394KC 390,000
M123A02BXB474KC 470,000 K BX 50
C
L
C
L
C
L
1.14 (.045) MAX.
SEE NOTE 4
4.83 ± 0.254
(.190 ±0.010)
4.83 ± 0.254
(.190 ±.010)
2.54 ± .381
(.100 ±.015)
7.37 ± 0.254
(.290 ±0.010)
.635 ± .051
(.025 ±.002)
.635 ± .051
(.025 ±.002)
5.08 ± .381
(.200 ±.015)
5.08 ± .381
(.200 ±.015)
2.29 ± 0.254
(.090 ±0.010)
2.29 ± 0.254
(.090 ±0.010)
31.75 (1.25) MIN.
31.75 (1.25) MIN.
OF LEADS
WITHIN .381 (.015)
OF CASE
C
L
C
L
OF LEADS
WITHIN .762 (.030)
OF CASE
7.37 (.290)
Dimensions: Millimeters (Inches)
MIL-C-123/STYLE CKS06, -/02
CKS05
CKS06
65
MIL-C-123/Axial Leads
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A04BPC4R7_W 4.7 C, D BP 100
M123A04BPC5R1_W 5.1
M123A04BPC6R2_W 6.2
M123A04BPC6R8_W 6.8
M123A04BPC7R5_W 7.5
M123A04BPC8R2_W 8.2
M123A04BPC9R1_W 9.1
M123A04BPC100_W 10 C, J, K
M123A04BPC110_W 11
M123A04BPC120_W 12
M123A04BPC130_W 13
M123A04BPC150_W 15
M123A04BPC160_W 16
M123A04BPC180_W 18
M123A04BPC200_W 20
M123A04BPC220_W 22
M123A04BPC240_W 24
M123A04BPC270_W 27
M123A04BPC300_W 30
M123A04BPC330_W 33
M123A04BPC360_W 36
M123A04BPC390_W 39
M123A04BPC430_W 43
M123A04BPC470_W 47
M123A04BPC510_W 51
M123A04BPC560_W 56
M123A04BPC620_W 62
M123A04BPC680_W 68
M123A04BPC750_W 75
M123A04BPC820_W 82
M123A04BPC910_W 91
M123A04BPC101_W 100 C, J, K BP 100
M123A04BPB111_W 110 F, J, K BP 50
M123A04BPB121_W 120
M123A04BPB131_W 130
M123A04BPB151_W 150
M123A04BPB161_W 160
M123A04BPB181_W 180
M123A04BPB201_W 200
M123A04BPB221_W 220
M123A04BPB241_W 240
M123A04BPB271_W 270
M123A04BPB301_W 300
M123A04BPB331_W 330
M123A04BPB361_W 360
M123A04BPB391_W 390
M123A04BPB431_W 430
M123A04BPB471_W 470
M123A04BPB511_W 510
M123A04BPB561_W 560 F, J, K BP 50
M123A04BXC101KW 100 K BX 100
M123A04BXC121KW 120
M123A04BXC151KW 150
M123A04BXC181KW 180
M123A04BXC221KW 220
M123A04BXC271KW 270
M123A04BXC331KW 330
M123A04BXC391KW 390
M123A04BXC471KW 470
M123A04BXC561KW 560
M123A04BXC681KW 680
M123A04BXC821KW 820
M123A04BXC102KW 1,000 K BX 100
M123A04BXB122KW 1,200 K BX 50
M123A04BXB152KW 1,500
M123A04BXB182KW 1,800
M123A04BXB222KW 2,200
M123A04BXB272KW 2,700
M123A04BXB332KW 3,300
M123A04BXB392KW 3,900
M123A04BXB472KW 4,700 K BX 50
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A05BPC111_W 110 F, J, K BP 100
M123A05BPC121_W 120
M123A05BPC131_W 130
M123A05BPC151_W 150
M123A05BPC161_W 160
M123A05BPC181_W 180
M123A05BPC201_W 200
M123A05BPC221_W 220 F, J, K BP 100
M123A05BPB241_W 240 F, J, K BP 50
M123A05BPB271_W 270
M123A05BPB301_W 300
M123A05BPB331_W 330
M123A05BPB361_W 360
M123A05BPB391_W 390
M123A05BPB431_W 430
M123A05BPB471_W 470 F, J, K BP 50
M123A05BXC122KW 1,200 K BX 100
M123A05BXC152KW 1,500
M123A05BXC182KW 1,800
M123A05BXC222KW 2,200
M123A05BXC272KW 2,700
M123A05BXC332KW 3,300
M123A05BXC392KW 3,900
M123A05BXC472KW 4,700 K BX 100
M123A05BXB562KW 5,600 K BX 50
M123A05BXB682KW 6,800
M123A05BXB822KW 8,200
M123A05BXB103KW 10,000 K BX 50
MIL-C-123/STYLE CKS12, -/05
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A06BPC241_W 240 F, J, K BP 100
M123A06BPC271_W 270
M123A06BPC301_W 300
M123A06BPC331_W 330
M123A06BPC361_W 360
M123A06BPC391_W 390
M123A06BPC431_W 430
M123A06BPC471_W 470
M123A06BPC511_W 510
M123A06BPC561_W 560
M123A06BPC621_W 620
M123A06BPC681_W 680
M123A06BPC751_W 750
M123A06BPC821_W 820
M123A06BPC911_W 910
M123A06BPC102_W 1,000 F, J, K BP 100
M123A06BPB112_W 1,100 F, J, K BP 50
M123A06BPB122_W 1,200
M123A06BPB132_W 1,300
M123A06BPB152_W 1,500
M123A06BPB162_W 1,600
M123A06BPB182_W 1,800
M123A06BPB202_W 2,000
M123A06BPB222_W 2,200
M123A06BPB242_W 2,400 F, J, K BP 50
MIL-C-123/STYLE CKS14, -/06
4.06
(.160)
31.75
(1.25) MIN. 2.29 (.090)
.508 ± .051
(.020 ± .002)
6.35
(.250)
31.75
(1.25) MIN. 2.29 (.090)
.508 ± .051
(.020 ± .002)
MIL-C-123/STYLE CKS11, -/04
390
1.250 MIN. 140
.020 ± .002
Dimensions: Millimeters (Inches)
66
MIL-C-123/Axial Leads
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A07BPC112_W 1,100 F, J, K BP 100
M123A07BPC122_W 1,200
M123A07BPC132_W 1,300
M123A07BPC152_W 1,500
M123A07BPC162_W 1,600
M123A07BPC182_W 1,800
M123A07BPC202_W 2,000
M123A07BPC222_W 2,200 F, J, K BP 100
M123A07BPB242_W 2,400 F, J, K BP 50
M123A07BPB272_W 2,700
M123A07BPB302_W 3,000
M123A07BPB332_W 3,300
M123A07BPB362_W 3,600
M123A07BPB392_W 3,900
M123A07BPB432_W 4,300
M123A07BPB472_W 4,700
M123A07BPB512_W 5,100
M123A07BPB562_W 5,600
M123A07BPB622_W 6,200
M123A07BPB682_W 6,800
M123A07BPB752_W 7,500
M123A07BPB822_W 8,200
M123A07BPB912_W 9,100
M123A07BPB103_W 10,000
M123A07BPB113_W 11,000
M123A07BPB123_W 12,000
M123A07BPB133_W 13,000
M123A07BPB153_W 15,000
M123A07BPB163_W 16,000
M123A07BPB183_W 18,000
M123A07BPB203_W 20,000
M123A07BPB223_W 22,000 F, J, K BP 50
M123A07BXC123KW 12,000 K BX 100
M123A07BXC153KW 15,000
M123A07BXC183KW 18,000
M123A07BXC223KW 22,000
M123A07BXC273KW 27,000
M123A07BXC333KW 33,000
M123A07BXC393KW 39,000
M123A07BXC473KW 47,000
M123A07BXC563KW 56,000
M123A07BXC683KW 68,000
M123A07BXC823KW 82,000
M123A07BXC104KW 100,000 K BX 100
M123A07BXB124KW 120,000 K BX 50
M123A07BXB154KW 150,000
M123A07BXB184KW 180,000 K BX 50
MIL-C-123/STYLE CKS15, -/07
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A08BPC242_W 2,400 F, J, K BP 100
M123A08BPC272_W 2,700
M123A08BPC302_W 3,000
M123A08BPC332_W 3,300
M123A08BPC362_W 3,600
M123A08BPC392_W 3,900
M123A08BPC432_W 4,300
M123A08BPC472_W 4,700
M123A08BPC512_W 5,100
M123A08BPC562_W 5,600
M123A08BPC622_W 6,200
M123A08BPC682_W 6,800
M123A08BPC822_W 8,200
M123A08BPC912_W 9,100
M123A08BPC103_W 10,000 F, J, K BP 100
M123A08BPB113_W 11,000 F, J, K BP 50
M123A08BPB123_W 12,000
M123A08BPB133_W 13,000
M123A08BPB153_W 15,000
M123A08BPB163_W 16,000
M123A08BPB183_W 18,000
M123A08BPB203_W 20,000
M123A08BPB223_W 22,000 F, J, K BP 50
M123A08BXC124KW 120,000 K BX 100
M123A08BXC154KW 150,000
M123A08BXC184KW 180,000
M123A08BXC224KW 220,000
M123A08BXC274KW 270,000
M123A08BXC334KW 330,000
M123A08BXC394KW 390,000
M123A08BXC474KW 470,000 K BX 100
M123A08BXB564KW 560,000 K BX 50
M123A08BXB684KW 680,000
M123A08BXB824KW 820,000
M123A08BXB105KW 1,000,000 K BX 50
MIL-C-123/STYLE CKS16, -/08
500
1.250 MIN. 250
.025 ± .002
MIL-C-123/STYLE CKS14, -/06 (continued)
690
1.250 MIN. 350
.025 ± .002
Capacitance Capacitance Voltage- Rated
Part Number 1/ pF Tolerance Temperature Voltage
Limits
M123A06BPB272_W 2,700 F, J, K BP 50
M123A06BPB302_W 3,000
M123A06BPB332_W 3,300
M123A06BPB362_W 3,600
M123A06BPB392_W 3,900
M123A06BPB432_W 4,300
M123A06BPB472_W 4,700
M123A06BPB512_W 5,100
M123A06BPB562_W 5,600
M123A06BPB622_W 6,200
M123A06BPB682_W 6,800 F, J, K BP 50
M123A06BXC562KW 5,600 K BX 100
M123A06BXC682KW 6,800
M123A06BXC822KW 8,200
M123A06BXC103KW 10,000 K BX 100
M123A06BXB123KW 12,000 K BX 50
M123A06BXB153KW 15,000
M123A06BXB183KW 18,000
M123A06BXB223KW 22,000
M123A06BXB273KW 27,000
M123A06BXB333KW 33,000
M123A06BXB393KW 39,000
M123A06BXB473KW 47,000 K BX 50
67
MIL-C-123/2 Pin DIP
.325 ±.035
(SEE NOTE 4)
.012 ±.004
(SEE NOTE 3)
60° ± 20° TYP. .010 MAX.
.019 ± .004
.260 ± .020
.092
±.006 SEE
NOTE 2
.128 ± .007
.148 ± .028
.175 MAX.
.015
MIN.
.058
± .012
.090
± .004
.325 ±.035
(SEE NOTE 5)
.012 ±.004
(SEE NOTE 4)
60° ± 20° TYP. .010 MAX.
.019 ± .004
.260 ± .020
.092
±.006 SEE
NOTE 3
.155 ± .007
.148 ± .028
.195 MAX.
.015
MIN.
.058
± .012
.090
± .004
.325 ±.035
(SEE NOTE 4)
.012 ±.004
(SEE NOTE 3)
60° ± 20° TYP. .010 MAX.
.019 ± .004
.260 ± .020
.092
±.006 SEE
NOTE 2
.283 ± .007
.148 ± .028
.320 MAX.
.015
MIN.
.058
± .012
.090
± .004
STYLE CKS24, -/18STYLE CKS23, -/17STYLE CKS22, -/16
NOTES:
1. Dimensions are in inches.
2. Leads shall be centered within ±.005
(0.13mm).
3. The angle shall be 95° +10°, -5°.
4. The distance between the centers of the
mounting holes will be .300 ±.010 inch
(7.62 ±0.25mm).
5. Nonconductive material shall not extend
beyond .030 inch (0.76mm) from the edge
of the capacitor body.
NOTES:
1. Dimensions are in inches.
2. Metric equivalents are given for general
information only.
3. Leads shall be centered within +.005
(0.13mm).
4. The angle shall be 95° +10°, -5°.
5. The distance between the centers of the
mounting holes will be .300 ±.010 inch
(7.62 ±0.25mm).
6. Nonconductive materials shall not extend
beyond .030 inch (0.76mm) from the edge
of the capacitor body.
NOTES:
1. Dimensions are in inches.
2. Leads shall be centered within ±.005
(0.13mm).
3. The angle shall be 95°+10°,-5° .
4. The distance between the centers
of the mounting holes will be .300 ±.010
inch (7.62 ±0.25mm).
5. Nonconductive material shall not extend
beyond .030 inch (0.76mm) from the edge
of the capacitor body.
Capacitance Capacitance Voltage- Rated
Part Number 1/ pf Tolerance Temperature Voltage
Limits
M123A16BPD1R0DC 1.0 D BP 200
M123A16BPD1R2DC 1.2
M123A16BPD1R5DC 1.5
M123A16BPD1R8DC 1.8
M123A16BPD2R2DC 2.2
M123A16BPD2R7DC 2.7
M123A16BPD3R3DC 3.3
M123A16BPD3R9DC 3.9
M123A16BPD4R7DC 4.7
M123A16BPD5R6DC 5.6
M123A16BPD6R8DC 6.8
M123A16BPD8R2DC 8.2
M123A16BPD100_C 10 D, J, K
M123A16BPD120_C 12
M123A16BPD150_C 15
M123A16BPD180_C 18
M123A16BPD220_C 22
M123A16BPD270_C 27
M123A16BPD330_C 33
M123A16BPD390_C 39
M123A16BPD470_C 47
M123A16BPD560_C 56
M123A16BPD680_C 68 F, J, K
M123A16BPD820_C 82
M123A16BPD101_C 100
M123A16BPD121_C 120
M123A16BPD151_C 150
M123A16BPD181_C 180
M123A16BPD221_C 220
M123A16BPD271_C 270
M123A16BPD331_C 330
M123A16BPD391_C 390
M123A16BPD471_C 470 F, J, K BP 200
M123A16BPC561_C 560 F, J, K BP 100
M123A16BPC681_C 680
M123A16BPC821_C 820
M123A16BPC102_C 1000
M123A16BPC122_C 1200
M123A16BPC152_C 1500
M123A16BPC182_C 1800
M123A16BPC222_C 2200 F, J, K BP 100
M123A16BPB272_C 2700 F, J, K BP 50
M123A16BPB332_C 3300
M123A16BPB392_C 3900
M123A16BPB472_C 4700 F, J, K BP 50
M123A16BXD271KC 270 K BX 200
M123A16BXD331_C 330 K, M
M123A16BXD391KC 390 K
M123A16BXD471_C 470 K, M
M123A16BXD561KC 560 K
M123A16BXD681_C 680 K, M
M123A16BXD821KC 820 K BX 200
M123A16BXC102_C 1000 K, M BX 100
M123A16BXC122KC 1200 K
M123A16BXC152_C 1500 K, M
M123A16BXC182KC 1800 K
M123A16BXC222_C 2200 K, M BX 100
MIL-C-123/STYLE CKS22, -/16
Capacitance Capacitance Voltage- Rated
Part Number 1/ pf Tolerance Temperature Voltage
Limits
M123A16BXC272KC 2700 K BX 100
M123A16BXC332_C 3300 K, M
M123A16BXC392KC 3900 K
M123A16BXC472_C 4700 K, M
M123A16BXC562KC 5600 K
M123A16BXC682_C 6800 K, M
M123A16BXC822KC 8200 K
M123A16BXC103_C 10000 K, M BX 100
M123A16BXB123KC 12000 K BX 50
M123A16BXB153_C 15000 K, M
M123A16BXB183KC 18000 K
M123A16BXB223_C 22000 K, M
M123A16BXB273KC 27000 K
M123A16BXB333_C 33000 K, M
M123A16BXB393KC 39000 K
M123A16BXB473_C 47000 K, M
M123A16BXB563KC 56000 K
M123A16BXB683_C 68000 K, M
M123A16BXB823KC 82000 K
M123A16BXB104_C 100000 K, M BX 50
Capacitance Capacitance Voltage- Rated
Part Number 1/ pf Tolerance Temperature Voltage
Limits
M123A17BPD561_C 560 F, J, K BP 200
M123A17BPD681_C 680
M123A17BPD821_C 820
M123A17BPD102_C 1000
M123A17BPD122_C 1200 F, J, K BP 200
M123A17BPC272_C 2700 F, J, K BP 100
M123A17BPC332_C 3300 F, J, K BP 100
M123A17BPB472_C 4700 F, J, K BP 50
M123A17BPB562_C 5600
M123A17BPB682_C 6800
M123A17BPB822_C 8200
M123A17BPB103_C 10000 F, J, K BP 50
M123A17BXD102_C 1000 K, M BX 200
M123A17BXD122KC 1200 K
M123A17BXD152_C 1500 K, M
M123A17BXD182KC 1800 K
M123A17BXD222_C 2200 K, M
M123A17BXD272KC 2700 K
M123A17BXD332_C 3300 K, M
M123A17BXD392KC 3900 K
M123A17BXD472_C 4700 K, M
M123A17BXD562KC 5600 K
M123A17BXD682_C 6800 K, M
M123A17BXD822KC 8200 K
M123A17BXD103_C 10000 K, M BX 200
M123A17BXC123KC 12000 K BX 100
M123A17BXC153_C 15000 K, M
M123A17BXC183KC 18000 K
M123A17BXC223_C 22000 K, M
M123A17BXC273KC 27000 K BX 100
1/The complete part number shall include a symbol to indicate
capacitance tolerance, as applicable.
MIL-C-123/STYLE CKS23, -/17
Capacitance Capacitance Voltage- Rated
Part Number 1/ pf Tolerance Temperature Voltage
Limits
M123A17BXC333_C 33000 K, M BX 100
M123A17BXC393KC 39000 K
M123A17BXC473_C 47000 K, M
M123A17BXC563KC 56000 K
M123A17BXC683_C 68000 K, M
M123A17BXC823KC 82000 K
M123A17BXC104_C 100000 K, M BX 100
M123A17BXB124KC 120000 K BX 50
M123A17BXB154_C 150000 K, M
M123A17BXB184KC 180000 K
M123A17BXB224_C 220000 K, M BX 50
Capacitance Capacitance Rated
Part Number 1/ pf Tolerance Voltage
Limits
M123A18BRC124KC 120000 K 100
M123A18BRC154_C 150000 K, M 100
M123A18BRB184KC 180000 K 50
M123A18BRB224_C 220000 K, M
M123A18BRB274KC 270000 K
M123A18BRB334_C 330000 K, M
M123A18BRB394KC 390000 K
M123A18BRB474_C 470000 K, M 50
1/The complete part number shall include a symbol to indicate
capacitance tolerance, as applicable.
MIL-C-123/STYLE CKS24, -/18
1/The complete part number shall include a symbol to indicate
capacitance tolerance, as applicable.
68
MIL-C-123
M123A
02BPC
271FC
JAN
271 F
100 V
9910AA
12345
Cap. Value
Cap. Tolerance and Voltage
Date and 2 Digit Lot Code
FSCM
Part Number
CKS06, -/02
M123A
01BPC
4R7CC
JAN
9910AA
12345 Date and 2 Digit Lot Code
FSCM
Part Number
CKS05, -/01
Radials
123A
270F
9910
BUJAP
Spec. Number and Modification Code
Cap. Value and Tolerance
Date Code
Manufacturer’s Trademark and TC Code
Lot Code and “J”
CKS11, -/04
Axials
Mfg. ID
Cap. Value and Tol.
Top
CKS22, -/16; CKS23 -/17; & CKS24 -/18
2 Pin DIP
A123271K
Date and Lot Code
Bottom JP9910BU
J123A
05BPC
111CW
9910BU
12345
Part Number
Date and Lot Code
FSCM
“J”
CKS12, -/05
M123A06
BPC241FW
241 F
100 V
J 9910BU
12345
Part Number
Cap. Tolerance
Voltage
Date and Lot Code
FSCM
“J”
CKS14, -/06
Cap. Value
M123A07
BPC241FW
241 F
100 V
J 9910BU
12345
Part Number
Cap. Tolerance
Voltage
Date and Lot Code
FSCM
“J”
CKS15, -/07
Cap. Value
M123A08
BPC241FW
241 F
100 V
J 9910BU
12345
Part Number
Cap. Tolerance
Voltage
Date and Lot Code
FSCM
“J”
CKS16, -/08
Cap. Value
MARKING
MIL-C-123 MIL-C-39014 MIL-C-20 MIL-C-55681 AVX CATALOG
CKS # M123/ - CKR # M39014/ - CCR # M20/ - CDR # M55681/ -
CKS05 /1 CKR05 /01 CCR05 /35 N/A N/A MR05
CKS06 /2 CKR06 /02 CCR06 /36 N/A N/A MR06
CKS11 /4 CKR11 /05 CCR75 /27 N/A N/A MA10
CKS12 /5 CKR12 /05 CCR76 /28 N/A N/A MA20
CKS14 /6 CKR14 /05 CCR77 /29 N/A N/A MA40
CKS15 /7 CKR15 /05 CCR78 /30 N/A N/A MA50
CKS16 /8 CKR16 /05 CCR79 /31 N/A N/A MA60
CKS51 /10 N/A N/A N/A N/A CDR01 /1 0805
CKS52 /11 N/A N/A N/A N/A N/A N/A 1210
CKS53 /12 N/A N/A N/A N/A CDR03 /1 1808
CKS54 /13 N/A N/A N/A N/A CDR06 /3 2225
CKS22 /16 CKR22 /22 N/A N/A N/A N/A MD01
CKS23 /17 CKR23 /22 N/A N/A N/A N/A MD02
CKS24 /18 CKR24 /22 N/A N/A N/A N/A MD03
MILITARY PART NUMBER CROSS REFERENCE MIL-C-123/
69
SkyCap – CECC
SR15 = D2 SR20 = D6 SR21 = D7 SR30 = D11 SR40 = D15 SR50 = D14 SR65 = D16
European Detail Specifications
CECC 30-601 & 30-701
SkyCap, SpinGuards and Ceralam capacitors are available
to European CECC specifications covering three standard
dielectric materials: 1B/C0G, 2C1/X7R and 2F4/Y5V.
To order use AVX part number with the Failure Rate code of
“T” for CECC.
SpinGuard – CECC
1B/A 2C1/C 2F4/E
BSCECC 30 601 010 Issue 1 BSCECC 30 701 014 Issue 1 BSCECC 30 701 015 Issue 1
50V 100V 200V 50V 100V 200V 50V 100V
A/SA10 1R0-102 1R0-102 1R0-681 221-393 221-273 221-682 102-224 102-154
B/SA20 1R0-222 1R0-222 1R0-152 271-823 271-563 271-153 472-474 472-334
C/SA30 3R3-562 3R3-472 3R3-392 561-184 561-154 561-333 103-105 103-824
Molded Radial – CECC
1B/A 2C1/C 2F4/E
CECC 30 601 009 Issue 1 CECC 30 701 007 Issue 1 CECC 30 701 008 Issue 1
50V 100V 200V 50V 100V 200V 50V 100V
B/MR05 1R0-682 1R0-472 1R0-332 221-224 221-154 221-393 103-125 103-224
C/MR06 1R0-223 1R0-153 1R0-123 122-105 122-474 122-124 223-335 223-684
1B/A 2C1/C 2F4/E
CECC 30 601 801 Issue 2 CECC 30 701 801 Issue 2 CECC 30 701 802 Issue 1
50V 100V 200V 500V 50V 100V 200V 500V 50V 100V
SR15 1R0-122 1R0-681 1R0-471 — 221-333 221-273 221-562 — 103-154 103-393
SR20 1R0-682 1R0-392 1R0-392 1R0-152 102-184 102-124 102-333 102-103 103-824 103-224
SR21 1R0-682 1R0-392 1R0-392 1R0-152 102-184 102-124 102-333 102-153 103-824 103-224
SR30 102-273 102-223 102-223 101-472 333-105 333-334 333-124 103-473 104-225 104-684
SR40 103-563 103-393 103-393 — 334-155 334-105 124-274 — 105-156 105-335
SR50 103-104 103-823 103-563 — 104-155 104-185 104-564 — 225-276 225-685
SR65 102-273 102-223 102-103 101-472 333-105 333-334 333-124 103-473 104-225 104-684
S-MCLC20M199-C
Contact:
USA
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Corporate Offices
Tel: 843-448-9411
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Tel: (65) 258-2833
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Tel: (852) 2-363-3303
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Tel: (82) 2-785-6504
FAX: (82) 2-784-5411
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FAX: (886) 2-2506-9774
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FAX: (86) 21-6249-0313
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Tel: (60) 4-228-1190
FAX: (60) 4-228-1196
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Tel: 045-943-2906/7
FAX: 045-943-2910
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Tel: (81) 75-593-4518
FAX: (81) 75-502-2705
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