Ceramic Molded Axial/Radial Leaded MIL-C-11015/ MIL-PRF-39014 X7R

MULTILAYER CERAMIC CAPACITORS/AXIAL
& RADIAL LEADED
Multilayer ceramic capacitors are available in a
variety of physical sizes and configurations, including
leaded devices and surface mounted chips. Leaded
styles include molded and conformally coated parts
with axial and radial leads. However, the basic
capacitor element is similar for all styles. It is called a
chip and consists of formulated dielectric materials
which have been cast into thin layers, interspersed
with metal electrodes alternately exposed on opposite
edges of the laminated structure. The entire structure is
fired at high temperature to produce a monolithic
block which provides high capacitance values in a
small physical volume. After firing, conductive
terminations are applied to opposite ends of the chip to
make contact with the exposed electrodes.
Termination materials and methods vary depending on
the intended use.
TEMPERATURE CHARACTERISTICS
Ceramic dielectric materials can be formulated with
Class III: General purpose capacitors, suitable
a wide range of characteristics. The EIA standard for
for by-pass coupling or other applications in which
ceramic dielectric capacitors (RS-198) divides ceramic
dielectric losses, high insulation resistance and
dielectrics into the following classes:
stability of capacitance characteristics are of little or
no importance. Class III capacitors are similar to Class
Class I: Temperature compensating capacitors,
II capacitors except for temperature characteristics,
suitable for resonant circuit application or other appliwhich are greater than ± 15%. Class III capacitors
cations where high Q and stability of capacitance charhave the highest volumetric efficiency and poorest
acteristics are required. Class I capacitors have
stability of any type.
predictable temperature coefficients and are not
affected by voltage, frequency or time. They are made
KEMET leaded ceramic capacitors are offered in
from materials which are not ferro-electric, yielding
the three most popular temperature characteristics:
superior stability but low volumetric efficiency. Class I
C0G: Class I, with a temperature coefficient of 0 ±
capacitors are the most stable type available, but have
30 ppm per degree C over an operating
the lowest volumetric efficiency.
temperature range of - 55°C to + 125°C (Also
known as “NP0”).
Class II: Stable capacitors, suitable for bypass
X7R: Class II, with a maximum capacitance
or coupling applications or frequency discriminating
change of ± 15% over an operating temperature
circuits where Q and stability of capacitance charrange of - 55°C to + 125°C.
acteristics are not of major importance. Class II
Z5U: Class III, with a maximum capacitance
capacitors have temperature characteristics of ± 15%
change of + 22% - 56% over an operating temor less. They are made from materials which are
perature range of + 10°C to + 85°C.
ferro-electric, yielding higher volumetric efficiency but
less stability. Class II capacitors are affected by
Specified electrical limits for these three temperature
temperature, voltage, frequency and time.
characteristics are shown in Table 1.
SPECIFIED ELECTRICAL LIMITS
Temperature Characteristics
Parameter
Dissipation Factor: Measured at following conditions.
C0G – 1 kHz and 1 vrms if capacitance >1000pF
1 MHz and 1 vrms if capacitance 1000 pF
X7R – 1 kHz and 1 vrms* or if extended cap range 0.5 vrms
Z5U – 1 kHz and 0.5 vrms
C0G
X7R
Z5U
0.10%
2.5%
(3.5% @ 25V)
4.0%
Dielectric Stength: 2.5 times rated DC voltage.
Pass Subsequent IR Test
Insulation Resistance (IR): At rated DC voltage,
whichever of the two is smaller
1,000 M
F
or 100 G
1,000 M
F
or 100 G
Temperature Characteristics: Range, °C
Capacitance Change without
DC voltage
-55 to +125
0 ± 30 ppm/°C
-55 to +125
± 15%
* MHz and 1 vrms if capacitance
1,000 M
or 10 G
100 pF on military product.
Table I
4
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
F
+ 10 to +85
+22%,-56%
APPLICATION NOTES FOR MULTILAYER
CERAMIC CAPACITORS
Polarity: Multilayer ceramic capacitors are not polar,
and may be used with DC voltage applied in either direction.
Rated Voltage: This term refers to the maximum continuous DC working voltage permissible across the entire
operating temperature range. Multilayer ceramic capacitors
are not extremely sensitive to voltage, and brief applications
of voltage above rated will not result in immediate failure.
However, reliability will be reduced by exposure to sustained
voltages above rated.
Capacitance: The standard unit of capacitance is the
farad. For practical capacitors, it is usually expressed in
microfarads (10-6 farad), nanofarads (10-9 farad), or picofarads
(10-12 farad). Standard measurement conditions are as
follows:
Class I (up to 1,000 pF):
1MHz and 1.2 VRMS
maximum.
Class I (over 1,000 pF):
1kHz and 1.2 VRMS
maximum.
Class II:
1 kHz and 1.0 ± 0.2 VRMS.
Class III:
1 kHz and 0.5 ± 0.1 VRMS.
Like all other practical capacitors, multilayer ceramic
capacitors also have resistance and inductance. A simplified
schematic for the equivalent circuit is shown in Figure 1.
Other significant electrical characteristics resulting from
these additional properties are as follows:
R
P
Figure 1
R
S
L
C
C = Capacitance
L = Inductance
R = Equivalent Series Resistance (ESR)
S
R = Insulation Resistance (IR)
P
Impedance: Since the parallel resistance (Rp) is normally very high, the total impedance of the capacitor is:
Z=
Where
2
RS + (XC - XL)
2
Z = Total Impedance
RS = Equivalent Series Resistance
XC = Capacitive Reactance =
1
2π
πfC
XL = Inductive Reactance = 2π
πfL
The variation of a capacitor’s impedance with frequency
determines its effectiveness in many applications.
Application Notes
ELECTRICAL CHARACTERISTICS
The fundamental electrical properties of multilayer
ceramic capacitors are as follows:
Dissipation Factor: Dissipation Factor (DF) is a measure of the losses in a capacitor under AC application. It is the
ratio of the equivalent series resistance to the capacitive reactance, and is usually expressed in percent. It is usually measured simultaneously with capacitance, and under the same
conditions. The vector diagram in Figure 2 illustrates the relationship between DF, ESR, and impedance. The reciprocal of
the dissipation factor is called the “Q”, or quality factor. For
convenience, the “Q” factor is often used for very low values
of dissipation factor. DF is sometimes called the “loss tangent”
or “tangent d”, as derived from this diagram.
ESR
Figure 2
O
DF = ESR
Xc
δ
X
c
Ζ
1
Xc =
2πfC
Insulation Resistance: Insulation Resistance (IR) is the
DC resistance measured across the terminals of a capacitor,
represented by the parallel resistance (Rp) shown in Figure 1.
For a given dielectric type, electrode area increases with
capacitance, resulting in a decrease in the insulation resistance. Consequently, insulation resistance is usually specified
as the “RC” (IR x C) product, in terms of ohm-farads or
megohm-microfarads. The insulation resistance for a specific
capacitance value is determined by dividing this product by
the capacitance. However, as the nominal capacitance values
become small, the insulation resistance calculated from the
RC product reaches values which are impractical.
Consequently, IR specifications usually include both a minimum RC product and a maximum limit on the IR calculated
from that value. For example, a typical IR specification might
read “1,000 megohm-microfarads or 100 gigohms, whichever
is less.”
Insulation Resistance is the measure of a capacitor to
resist the flow of DC leakage current. It is sometimes referred
to as “leakage resistance.” The DC leakage current may be
calculated by dividing the applied voltage by the insulation
resistance (Ohm’s Law).
Dielectric Withstanding Voltage: Dielectric withstanding voltage (DWV) is the peak voltage which a capacitor is
designed to withstand for short periods of time without damage. All KEMET multilayer ceramic capacitors will withstand a
test voltage of 2.5 x the rated voltage for 60 seconds.
KEMET specification limits for these characteristics at
standard measurement conditions are shown in Table 1 on
page 4. Variations in these properties caused by changing
conditions of temperature, voltage, frequency, and time are
covered in the following sections.
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
5
APPLICATION NOTES FOR MULTILAYER
CERAMIC CAPACITORS
TABLE 1
EIA TEMPERATURE CHARACTERISTIC CODES
FOR CLASS I DIELECTRICS
Significant Figure
of Temperature
Coefficient
Multiplier Applied
to Temperature
Coefficient
Tolerance of
Temperature
Coefficient *
PPM per
Degree C
Letter
Symbol
Multiplier
Number
Symbol
PPM per
Degree C
Letter
Symbol
0.0
0.3
0.9
1.0
1.5
2.2
3.3
4.7
7.5
C
B
A
M
P
R
S
T
U
-1
-10
-100
-1000
-100000
+1
+10
+100
+1000
+10000
0
1
2
3
4
5
6
7
8
9
±30
±60
±120
±250
±500
±1000
±2500
G
H
J
K
L
M
N
* These symetrical tolerances apply to a two-point measurement of
temperature coefficient: one at 25°C and one at 85°C. Some deviation
is permitted at lower temperatures. For example, the PPM tolerance
for C0G at -55°C is +30 / -72 PPM.
TABLE 2
EIA TEMPERATURE CHARACTERISTIC CODES
FOR CLASS II & III DIELECTRICS
6
Low Temperature
Rating
High Temperature Maximum Capacitance
Rating
Shift
Degree
Celcius
Letter
Symbol
Degree
Celcius
Number
Symbol
+10C
-30C
-55C
Z
Y
X
+45C
+65C
+85C
+105C
+125C
+150C
+200C
2
4
5
6
7
8
9
Percent
±1.0%
±1.5%
±2.2%
±3.3%
±4.7%
±7.5%
±10.0%
±15.0%
±22.0%
+22 / -33%
+22 / -56%
+22 / -82%
Letter
Symbol
A
B
C
D
E
F
P
R
S
T
U
V
+10
+20
+30
+40
+50
+60
+70
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
+80
APPLICATION NOTES FOR MULTILAYER
CERAMIC CAPACITORS
Application Notes
At higher AC voltages, both capacitance and dissipation factor
begin to decrease.
Typical curves showing the effect of applied AC and DC
voltage are shown in Figure 6 for KEMET X7R capacitors and
Figure 7 for KEMET Z5U capacitors.
Effect of Frequency: Frequency affects both capacitance and dissipation factor. Typical curves for KEMET multilayer ceramic capacitors are shown in Figures 8 and 9.
The variation of impedance with frequency is an important consideration in the application of multilayer ceramic
capacitors. Total impedance of the capacitor is the vector of the
capacitive reactance, the inductive reactance, and the ESR, as
illustrated in Figure 2. As frequency increases, the capacitive
reactance decreases. However, the series inductance (L)
shown in Figure 1 produces inductive reactance, which
increases with frequency. At some frequency, the impedance
ceases to be capacitive and becomes inductive. This point, at
the bottom of the V-shaped impedance versus frequency
curves, is the self-resonant frequency. At the self-resonant frequency, the reactance is zero, and the impedance consists of
the ESR only.
Typical impedance versus frequency curves for KEMET
multilayer ceramic capacitors are shown in Figures 10, 11, and
12. These curves apply to KEMET capacitors in chip form, without leads. Lead configuration and lead length have a significant
impact on the series inductance. The lead inductance is
approximately 10nH/inch, which is large compared to the
inductance of the chip. The effect of this additional inductance
is a decrease in the self-resonant frequency, and an increase
in impedance in the inductive region above the self-resonant
frequency.
Effect of Time: The capacitance of Class II and III
dielectrics change with time as well as with temperature, voltage and frequency. This change with time is known as “aging.”
It is caused by gradual realignment of the crystalline structure
of the ceramic dielectric material as it is cooled below its Curie
temperature, which produces a loss of capacitance with time.
The aging process is predictable and follows a logarithmic
decay. Typical aging rates for C0G, X7R, and Z5U dielectrics
are as follows:
C0G
X7R
Z5U
Effect of Temperature: Both capacitance and dissipation factor are affected by variations in temperature. The maximum capacitance change with temperature is defined by the
temperature characteristic. However, this only defines a “box”
bounded by the upper and lower operating temperatures and
the minimum and maximum capacitance values. Within this
“box”, the variation with temperature depends upon the specific dielectric formulation. Typical curves for KEMET capacitors are shown in Figures 3, 4, and 5. These figures also
include the typical change in dissipation factor for KEMET
capacitors.
Insulation resistance decreases with temperature.
Typically, the insulation resistance at maximum rated temperature is 10% of the 25°C value.
Effect of Voltage: Class I ceramic capacitors are not
affected by variations in applied AC or DC voltages. For Class
II and III ceramic capacitors, variations in voltage affect only
the capacitance and dissipation factor. The application of DC
voltage higher than 5 vdc reduces both the capacitance and
dissipation factor. The application of AC voltages up to 10-20
Vac tends to increase both capacitance and dissipation factor.
None
2.0% per decade of time
5.0% per decade of time
Typical aging curves for X7R and Z5U dielectrics are
shown in Figure 13.
The aging process is reversible. If the capacitor is heated to a temperature above its Curie point for some period of
time, de-aging will occur and the capacitor will regain the
capacitance lost during the aging process. The amount of deaging depends on both the elevated temperature and the
length of time at that temperature. Exposure to 150°C for onehalf hour or 125°C for two hours is usually sufficient to return
the capacitor to its initial value.
Because the capacitance changes rapidly immediately
after de-aging, capacitance measurements are usually delayed
for at least 10 hours after the de-aging process, which is often
referred to as the “last heat.” In addition, manufacturers utilize
the aging rates to set factory test limits which will bring the
capacitance within the specified tolerance at some future time,
to allow for customer receipt and use. Typically, the test limits
are adjusted so that the capacitance will be within the specified
tolerance after either 1,000 hours or 100 days, depending on
the manufacturer and the product type.
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
7
APPLICATION NOTES FOR MULTILAYER
CERAMIC CAPACITORS
POWER DISSIPATION
Power dissipation has been empirically determined for
two representative KEMET series: C052 and C062. Power dissipation capability for various mounting configurations is shown
in Table 3. This table was extracted from Engineering Bulletin
F-2013, which provides a more detailed treatment of this subject.
Note that no significant difference was detected between
the two sizes in spite of a 2 to 1 surface area ratio. Due to the
materials used in the construction of multilayer ceramic capacitors, the power dissipation capability does not depend greatly
on the surface area of the capacitor body, but rather on how
well heat is conducted out of the capacitor lead wires.
Consequently, this power dissipation capability is applicable to
other leaded multilayer styles and sizes.
TABLE 3
POWER DISSIPATION CAPABILITY
(Rise in Celsius degrees per Watt)
Mounting Configuration
Power
Dissipation
of C052 & C062
1.00" leadwires attached to binding post
of GR-1615 bridge (excellent heat sink)
90 Celsius degrees
rise per Watt ±10%
0.25" leadwires attached to binding post
of GR-1615 bridge
55 Celsius degrees
rise per Watt ±10%
Capacitor mounted flush to 0.062" glassepoxy circuit board with small copper traces
77 Celsius degrees
rise per Watt ±10%
Capacitor mounted flush to 0.062" glassepoxy circuit board with four square inches
of copper land area as a heat sink
53 Celsius degrees
rise per Watt ±10%
As shown in Table 3, the power dissipation capability of
the capacitor is very sensitive to the details of its use environment. The temperature rise due to power dissipation should not
exceed 20°C. Using that constraint, the maximum permissible
power dissipation may be calculated from the data provided in
Table 3.
It is often convenient to translate power dissipation capability into a permissible AC voltage rating. Assuming a sinusoidal wave form, the RMS “ripple voltage” may be calculated
from the following formula:
E=Zx
Where
PMAX
R
RELIABILITY
A well constructed multilayer ceramic capacitor is
extremely reliable and, for all practical purposes, has an infinite life span when used within the maximum voltage and
temperature ratings. Capacitor failure may be induced by sustained operation at voltages that exceed the rated DC voltage,
voltage spikes or transients that exceed the dielectric withstanding voltage, sustained operation at temperatures above
the maximum rated temperature, or the excessive temperature rise due to power dissipation.
Failure rate is usually expressed in terms of percent per
1,000 hours or in FITS (failure per billion hours). Some
KEMET series are qualified under U.S. military established
reliability specifications MIL-PRF-20, MIL-PRF-123, MILPRF-39014, and MIL-PRF-55681. Failure rates as low as
0.001% per 1,000 hours are available for all capacitance /
voltage ratings covered by these specifications. These specifications and accompanying Qualified Products List should
be consulted for details.
For series not covered by these military specifications,
an internal testing program is maintained by KEMET Quality
Assurance. Samples from each week’s production are subjected to a 2,000 hour accelerated life test at 2 x rated voltage
and maximum rated temperature. Based on the results of
these tests, the average failure rate for all non-military series
covered by this test program is currently 0.06% per 1,000
hours at maximum rated conditions. The failure rate would be
much lower at typical use conditions. For example, using MILHDBK-217D this failure rate translates to 0.9 FITS at 50%
rated voltage and 50°C.
Current failure rate details for specific KEMET multilayer ceramic capacitor series are available on request.
MISAPPLICATION
Ceramic capacitors, like any other capacitors, may fail
if they are misapplied. Typical misapplications include exposure to excessive voltage, current or temperature. If the
dielectric layer of the capacitor is damaged by misapplication
the electrical energy of the circuit can be released as heat,
which may damage the circuit board and other components
as well.
If potential for misapplication exists, it is recommended
that precautions be taken to protect personnel and equipment
during initial application of voltage. Commonly used precautions include shielding of personnel and sensing for excessive
power drain during board testing.
E = RMS Ripple Voltage (volts)
P = Power Dissipation (watts)
Z = Impedance
R = ESR
The data necessary to make this calculation is included in
Engineering Bulletin F-2013. However, the following criteria
must be observed:
1. The temperature rise due to power dissipation
should be limited to 20°C.
2. The peak AC voltage plus the DC voltage must not
exceed the maximum working voltage of the
capacitor.
Provided that these criteria are met, multilayer ceramic
8
capacitors may be operated with AC voltage applied without
need for DC bias.
STORAGE AND HANDLING
Ceramic chip capacitors should be stored in normal
working environments. While the chips themselves are quite
robust in other environments, solderability will be degraded
by exposure to high temperatures, high humidity, corrosive
atmospheres, and long term storage. In addition, packaging
materials will be degraded by high temperature – reels may
soften or warp, and tape peel force may increase. KEMET
recommends that maximum storage temperature not exceed
40˚ C, and maximum storage humidity not exceed 70% relative humidity. In addition, temperature fluctuations should be
minimized to avoid condensation on the parts, and atmospheres should be free of chlorine and sulfur bearing compounds. For optimized solderability, chip stock should be
used promptly, preferably within 1.5 years of receipt.
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
APPLICATION NOTES FOR MULTILAYER
CERAMIC CAPACITORS
IMPEDANCE VS FREQUENCY
0.20
100
Impedance vs. Frequency
Ceramic C0G
Leaded
.001μF
%ΔC
0.10
%DF
.01μF
100
%DF
-0.2
100
Figure 8.
1K
10K
100K
1M
0.0
10M
Frequency - Hertz
Capacitance & DF vs Frequency - C0G
Impedance (Ohms)
10
10.
Figure 10. Figure
-0.1
Impedance (Ohms)
%ΔC
+0.1
0
Application Notes
EFFECT OF FREQUENCY
+0.2
vs Frequency
ImpedanceImpedance
vs Frequency
for C0G Dielectric
for C0G Dielectric
10
1
0.001µF
1
0.1
10.
Figure 10. Figure
0.1
vs Frequency
vs 0.01µF
Frequency
ImpedanceImpedance
for C0G Dielectric
for C0G Dielectric
0.01
0.01 0.1
1
1 0
100
1000
Frequency - MHz
5.0
-10
2.5
-15
0.0
10M
100
1K
10K
100K
1M
Figure 9.
Frequency - Hertz
Capacitance & DF vs Frequency - X7R & Z5U
Figure 10.
Frequency - MHz
Impedance Impedance
vs Frequency
for C0G Dielectric
vs. Frequency
Leaded X7R
100
100
Impedance (Ohms)
%ΔC
%ΔC
-5
1,000
7.5
Impedance (Ohms)
%DF
0
Impedance
vs Frequency
Figure 10. Figure 10. Impedance vs
Frequency
10.0
0.001
for
C0G Dielectric
for
0.1
1 C0G Dielectric
10
100
%DF
+5
0.1μF
10
10
0.01µF
.01μF
0.1µF
1.0 μF
1
1.0µF Impedance
11. Impedance
vs Frequency
Figure 11. Figure
vs Frequency
1
0.1
for X7R Dielectric
for X7R Dielectric
EFFECT OF TIME (hours)
0.1
1
10
100
1000
Frequency - MHz
vs Frequency
Figure 11. Figure 11. ImpedanceImpedance
vs Frequency
0.01
for X7R Dielectric
for X7R Dielectric
X7R
X7R
Capacitance
Capacitance
0.001
0.1
1 Impedance vs.
10 Frequency
100
1,000
Z5U
Z5U
Impedance (Ohms)
Leaded Z5U
Figure
Impedance
vs Frequency
Figure 11.Figure
vs
Frequency
11.11.ImpedanceFrequency
- MHz
for X7Rfor
Dielectric
for
X7R
Dielectric
100
Impedance vs Frequency
X7R Dielectric
10
100
10
10
100
100
1000
1000
10K
10K
Figure 13. Typical Aging Rates for X7R & Z5U
100K
100K
Impedance (Ohms)
100%
100%
98%
98%
96%
96%
94%
94%
92%
92%
90%
90%
88%
88%
86%
86%
84%
84%
82%
82%
80%
80%
78%
78%
76%
76%
74%
74%
11
0.01
0.1
0.1µF
1
0.1μF
1.0µF
10
0.1
1.0 μF
0.01
1
0.1
1
1 0
100
1000
Frequency - MHz
vs Frequency
Figure 12. Figure 12. ImpedanceImpedance
vs Frequency
for Z5U Dielectric
for Z5U Dielectric
0.1
0.01
vs Frequency
Figure 12. Figure 12. ImpedanceImpedance
vs Frequency
for Z5U Dielectric
for Z5U Dielectric
0.001
0.1
1
10
100
1,000
Figure 12.
Frequency - MHz
Impedance vs Frequency for Z5U Dielectric
Impedance
vs Frequency
Figure 12. Figure 12.Impedance vs
Frequency
for Z5U Dielectric
for Z5U Dielectric
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
9
MIL-STD-202, Method 208, Sn62 solder, 245 C for
5 ±1/2 seconds.
CERAMIC MOLDED AXIAL & RADIAL
Terminal Strength:
PERFORMANCE CHARACTERISTICS
EIA-198 Method 303, Condition A (2.2 kg)
GENERAL SPECIFICATIONS
Working Voltage:
C0G – 50, 100, 200
X7R – 50, 100, 200
Temperature Characteristics:
C0G 0 ±30 PPM / °C from -55°C to +125°C
X7R ± 15% from -55°C to +125°C
Capacitance Tolerance:
C0G ±0.5pF, ±1%, ±2%, ±5%, ±10%, ±20%
(±0.5pF is tightest tolerance available)
X7R ±10%, ±20%, -0 +100%, +80% / -20%
Construction:
Monolithic block of ceramic dielectric with
Interdigitated internal electrodes, encapsulated
in a molded case, and having axial or radial leads.
Meets flame test requirements of UL Standard 94V-0.
ELECTRICAL
Capacitance:
Within specified tolerance and when measured with
1 volt rms at 1kHz (1000 pF or less at 1 MHz for C0G).
Dissipation Factor @25°C:
25°C at 1kHz (1000 pF or less at 1 MHz for C0G).
C0G – 0.15% maximum
X7R – 2.5% maximum
Insulation Resistance:
After 2 minutes electrification at 25°C and rated voltage
C0G – 100K M or 1000 M – F, whichever is less.
X7R – 100K M or 1000 M – F, whichever is less.
Dielectric Withstanding Voltage:
250% of rated voltage for 5 seconds with current limited
to 50 mA at 25°C.
Lead Material:
Axial: Solder coated copper clad steel
Radial: Solder-coated copper standard (100% tin
plated optional)
Solderability:
MIL-STD-202, Method 208, Sn62 solder, 245°C for
5 ±1/2 seconds.
Terminal Strength:
EIA-198 Method 303, Condition A (2.2 kg)
ELECTRICAL
Capacitance:
Within specified tolerance and when measured with
1 volt rms at 1kHz (1000 pF or less at 1 MHz for C0G).
Dissipation Factor @25°C:
25°C at 1kHz (1000 pF or less at 1 MHz for C0G).
C0G – 0.15% maximum
X7R – 2.5% maximum
Ceramic Molded
Axial/Radial - Standard
Insulation Resistance:
After 2 minutes electrification at 25°C and rated voltage
C0G – 100K M or 1000 M – F, whichever is less.
X7R – 100K M or 1000 M – F, whichever is less.
Dielectric Withstanding Voltage:
250% of rated voltage for 5 seconds with current limited
to 50 mA at 25°C.
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
27
CERAMIC MOLDED/MIL-C-11015
& MIL-PRF-39014 (CKR)
CAPACITOROUTLINE
OUTLINEDRAWINGS
DRAWINGS- (AXIAL
CAPACITOR
(AXIALLEADS)
LEADS)
L
1.50 Min.
(38.10)
D
1.50 Min.
(38.10)
C
DIMENSIONS — INCHES (MILLIMETERS)
Case
Size
Military
Equivalent Styles
L
Length
D
Body Diameter
C
Lead Diameter
C114
CK12, CKR11
.160 ± .010 (4.06 ± .25)
.090 ± .010 (2.29 ± .25)
.020, +.000, -.003 (.51, +.00, -.08)
C124
CK13, CCR12
.250 ± .010 (6.35 ± .25)
.090 ± .010 (2.29 ± .25)
.020, +.000, -.003 (.51, +.00, -.08)
C192
CK14, CKR14
.390 ± .010 (9.91 ± .25)
.140 ± .010 (3.56 ± .25)
.025, +.002, -.002 (.64, +.05, -.05)
C202
CK15, CKR15
.500 ± .020 (12.70 ± .51)
.250 ± .015 (6.35 ± .38)
.025, +.002, -.002 (.64, +.05, -.05)
C222
CK16, CKR16
.690 ± .030 (17.53 ± .76)
.350 ± .020 (8.89 ± .51)
.025, +.002, -.002 (.64, +.05, -.05)
CAPACITOR OUTLINE DRAWINGS (RADIAL LEADS)
C052 (CK05, CKR05)
L
L
H
*1.25
MIN.
C062 (CK06, CKR06)
C056 (CKR05)
W
Lead Dia.
.025
(+.004
-.002)
*1.25
MIN.
.026
MIN.
Lead Dia.
.025
(+.004
-.002)
S
S
C066 (CKR06)
W
L
H
H
.045
MAX.
L
W
*1.25
MIN.
W
.026
MIN.
H
Lead Dia.
.025
(+.004
-.002)
*1.25
MIN.
S
Center Line of leads within .030" of Center Line of case.
Lead Dia.
.025
(+.004
-.002)
S
* Leads are .625 minimum when tape and reel packaged.
DIMENSIONS — INCHES (MILLIMETERS)
40
Case
Size
Military
Equivalent Styles
H
Height
L
Length
W
Width
S
Lead
Spacing
C052/
C056
CK05, CKR05
.190 ± .010 (4.83 ± .25)
.190 ± .010 (4.83 ± .25)
.090 ± .010 (2.29 ± .25)
.200 ± .015 (5.08 ± .38)
C062/
C066
CK06, CKR06
.290 ± .010 (7.37 ± .25)
.290 ± .010 (7.37 ± .25)
.090 ± .010 (2.29 ± .25)
.200 ± .015 (5.08 ± .38)
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
CERAMIC MOLDED/MIL-C-11015
& MIL-PRF-39014 (CKR)
ORDERING INFORMATION
102
CERAMIC
CASE SIZE
See Table Below
K
2
X
5
C
SPECIFICATION
Military
T – MIL-PRF-39014
K – MIL-C-11015
CAPACITANCE PICOFARAD CODE
TEMPERATURE CHARACTERISTIC
CAPACITANCE TOLERANCE
M – ±20%
K – ±10%
KEMET
Military
EIA
Designator Equivalent Equivalent
X
(Stable)
Standard tolerances for each Series
are shown in the repetitive parts lists.
Radial
C052
C056
C062
C066
Axial
C114
C124
C192
C202
C222
FAILURE RATE
A – Not Applicable
M – 1.0%
P – 0.1%
R – 0.01%
S – 0.001%
LEAD MATERIAL
C – 60/40 Tin/Lead (SnPb)
INTERNAL CONSTRUCTION
5 – Multilayer
Expressed in picofarads (pF). First two digits represent
significant figures. Third digit specifies number of zeros
following except 9 indicates division by 10). Examples:
0.1 µF = 100,000 pF = 104 and 9.1 pF = 919. See
tables for standard values.
Case Sizes
A
R
(Stable)
BX
X7R
BR
X7R
Cap. Change with Temp.
Measured
Measured
Temp
with Bias
without DC
Range, °C
(Rated
Bias Voltage
Voltage)
-55 to
+15%
±15%
+125°
-25%
-55° to
+125
±15%
MIL-C-11015
MIL-PRF-39014
C 052 K
+15%
-40%
WORKING VOLTAGE DC
2 – 200V; 1 – 100V; 5 – 50V
Part Number Example: C052K102K2X5CA (14 digits – no spaces)
MARKING INFORMATION
C114T (CKR11) THROUGH C222T (CKR16) PER MIL-PRF-39014
C124T (CKR12)
C114T (CKR11)
JK
103
KP8
37A
CKR12
2657J
0837A
31433
J for JAN
K for KEMET
Capacitance
Capacitance Tolerance, FR Level
& Date Code (Year)
Week and Lot Code
C192T (CKR14) C202T (CKR15) C222T (CKR16)
Style
Dash No., J for JAN
Date & Lot Code
Source Code
(Federal Supply Code
for Manufacturers,
FSCM)
M39014
5-2125
KEMET
0837A
J50V
105K
Complete Part Number
Manufacturer’s Name
Date & Lot Code
JAN & Voltage
Capacitance, pF Code, Capacitance
Tolerance
C052/56T (CKR05) PER MIL-PRF-39014/01
FRONT
Specification
Sheet No.
Four Digit Part No.
M390
14/01
1579*
BACK
JK
0837
A
JAN-KEMET
Date Code
Lot Code
*Add “V” as the last
digit for stand-off leads.
C062/66T (CKR06) PER MIL-PRF-39014/02
Complete MIL Part No.
Manufacturer’s Name
FRONT
BACK
M39014
2-1338
*KEMET
0837A
J200V
103K
Date & Lot Code
JAN & Voltage
Capacitance, pF Code, Capacitance Tolerance
*Add “V” as the last digit
for stand-off leads.
C114K (CK12) THROUGH C222K (CK16) PER MIL-C-11015
C114K (CK12) C124K (CK13)
KCK
12BX
102K
0837
C192K (CK14) C202K (CK15) C222K (CK16)
KEMET, CK
Style (12 or 13), Temp. Char. (BX or BR)
Capacitance, pF Code, Capacitance Tolerance
Date Code
K100V
CK14BX
123K
0837
KEMET, Voltage
Style (14, 15 or 16), Temp. Char. (BX or BR)
Capacitance, pF Code, Capacitance Tolerance
Date Code
C052K (CK05) PER MIL-C-11015/18 & C062K (CK06) PER MIL-C-11015/19
FRONT
Style
Temperature Characteristic
Capacitance, pF Code, Capacitance Tolerance
CK05
BX
102K
BACK
200V
K
0801
Voltage
KEMET
Date Code
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
41
CERAMIC MOLDED/AXIAL — MIL-C-11015
& MIL-PRF-39014
STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R)
RATINGS & PART NUMBER REFERENCE
CAP.
pF
TOL.
%
KEMET
PART NUMBER
MIL-C-11015/02
MIL-PRF-39014/05
MIL-PRF-39014/05 For Failure
Rate Levels (2)
M
P
R
S
2601
2602
2603
2604
2605
2606
2607
2608
2609
2610
2611
2612
2613
2614
2615
2616
2617
2618
2619
2620
2621
2622
2623
2624
2625
2626
2627
2628
2629
2630
2631
2632
2633
2634
2635
2636
2637
2638
2639
2640
2641
2642
2643
2644
2645
2646
2647
2648
2649
2650
2801
2802
2803
2804
2805
2806
2807
2808
2809
2810
2811
2812
2813
2814
2815
2816
2817
2818
2819
2820
2821
2822
2823
2824
2825
2826
2827
2828
2829
2830
2831
2832
2833
2834
2835
2836
2837
2838
2839
2840
2841
2842
2843
2844
2845
2846
2847
2848
2849
2850
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
2031
2032
2033
2034
2035
2036
2037
2038
2039
2040
2041
2042
2043
2044
2045
2046
2047
2048
2049
2050
2201
2202
2203
2204
2205
2206
2207
2208
2209
2210
2211
2212
2213
2214
2215
2216
2217
2218
2219
2220
2221
2222
2223
2224
2225
2226
2227
2228
2229
2230
2231
2232
2233
2234
2235
2236
2237
2238
2239
2240
2241
2242
2243
2244
2245
2246
2247
2248
2249
2250
10
10
12
15
15
18
22
22
27
33
33
39
47
47
56
68
68
82
100
100
120
150
150
180
220
220
270
330
330
390
470
470
560
680
680
820
1,000
1,000
1,200
1,500
1,500
1,800
2,200
2,200
2,700
3,300
3,300
3,900
4,700
4,700
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
100 VOLT – C114 SIZE (MILITARY-CK12 or CKR11)
CK12BX100K
C114(1)100K1X5C(2)
CKR11BX100K(2)
CK12BX100M
C114(1)100M1X5C(2)
CKR11BX100M(2)
CK12BX120K
C114(1)120K1X5C(2)
CKR11BX120K(2)
CK12BX120K
C114(1)150K1X5C(2)
CKR11BX150K(2)
CK12BX150M
C114(1)150M1X5C(2)
CKR11BX150M(2)
CK12BX180K
C114(1)180K1X5C(2)
CKR11BX180K(2)
CK12BX220K
C114(1)220K1X5C(2)
CKR11BX220K(2)
CK12BX220M
C114(1)220M1X5C(2)
CKR11BX220M(2)
CK12BX270K
C114(1)270K1X5C(2)
CKR11BX270K(2)
CK12BX330K
C114(1)330K1X5C(2)
CKR11BX330K(2)
CK12BX330M
C114(1)330M1X5C(2)
CKR11BX330M(2)
CK12BX390K
C114(1)390K1X5C(2)
CKR11BX390K(2)
CK12BX470K
C114(1)470K1X5C(2)
CKR11BX470K(2)
CK12BX470M
C114(1)470M1X5C(2)
CKR11BX470M(2)
CK12BX560K
C114(1)560K1X5C(2)
CKR11BX560K(2)
CK12BX680K
C114(1)680K1X5C(2)
CKR11BX560K(2)
CK12BX680M
C114(1)680M1X5C(2)
CKR11BX680M(2)
CK12BX820K
C114(1)820K1X5C(2)
CKR11BX820K(2)
CK12BX102K
C114(1)101K1X5C(2)
CKR11BX102K(2)
CK12BX102M
C114(1)101M1X5C(2)
CKR11BX102M(2)
CK12BX121K
C114(1)121K1X5C(2)
CKR11BX121K(2)
CK12BX151K
C114(1)151K1X5C(2)
CKR11BX151K(2)
CK12BX151M
C114(1)151M1X5C(2)
CKR11BX151M(2)
CK12BX181K
C114(1)181K1X5C(2)
CKR11BX181K(2)
CK12BX221K
C114(1)221K1X5C(2)
CKR11BX221K(2)
CK12BX221M
C114(1)221M1X5C(2)
CKR11BX221K(2)
CK12BX271K
C114(1)271K1X5C(2)
CKR11BX271K(2)
CK12BX331K
C114(1)331K1X5C(2)
CKR11BX331K(2)
CK12BX331M
C114(1)331M1X5C(2)
CKR11BX331M(2)
CK12BX391K
C114(1)391K1X5C(2)
CKR11BX391K(2)
CK12BX471K
C114(1)471K1X5C(2)
CKR11BX471K(2)
CK12BX471M
C114(1)471M1X5C(2)
CKR11BX471M(2)
CK12BX561K
C114(1)561K1X5C(2)
CKR11BX561K(2)
CK12BX681K
C114(1)681K1X5C(2)
CKR11BX561K(2)
CK12BX681M
C114(1)681M1X5C(2)
CKR11BX681M(2)
CK12BX821K
C114(1)821K1X5C(2)
CKR11BX821K(2)
CK12BX102K
C114(1)102K1X5C(2)
CKR11BX102K(2)
CK12BX102M
C114(1)102M1X5C(2)
CKR11BX102M(2)
CK12BX122K
C114(1)122K1X5C(2)
CKR11BX122K(2)
CK12BX152K
C114(1)152K1X5C(2)
CKR11BX152K(2)
CK12BX152M
C114(1)152M1X5C(2)
CKR11BX152M(2)
CK12BX182K
C114(1)182K1X5C(2)
CKR11BX182K(2)
CK12BX222K
C114(1)222K1X5C(2)
CKR11BX222K(2)
CK12BX222M
C114(1)222M1X5C(2)
CKR11BX222M(2)
CK12BX272K
C114(1)272K1X5C(2)
CKR11BX272K(2)
CK12BX332K
C114(1)332K1X5C(2)
CKR11BX332K(2)
CK12BX332M
C114(1)332M1X5C(2)
CKR11BX332M(2)
CK12BX392K
C114(1)392K1X5C(2)
CKR11BX392K(2)
CK12BX472K
C114(1)472K1X5C(2)
CKR11BX472K(2)
CK12BX472M
C114(1)472M1X5C(2)
CKR11BX472M(2)
5,600
6,800
6,800
8,200
10,000
10,000
10
10
20
10
10
20
50 VOLT – C114 SIZE (MILITARY-CK12 or CKR11)
CK12BX562K
C114(1)562K5X5C(2)
CKR11BX562K(2)
CK12BX682K
C114(1)682K5X5C(2)
CKR11BX682K(2)
CK12BX682M
C114(1)682M5X5C(2)
CKR11BX682M(2)
CK12BX822K
C114(1)822K5X5C(2)
CKR11BX822K(2)
CK12BX103K
C114(1)103K5X5C(2)
CKR11BX103K(2)
CK12BX103M
C114(1)103M5X5C(2)
CKR11BX103M(2)
2651
2652
2653
2654
2655
2656
2851
2852
2853
2854
2855
2856
2051
2052
2053
2054
2055
2056
2251
2252
2253
2254
2255
2256
5,600
6,800
6,800
8,200
10,000
10,000
10
10
20
10
10
20
100 VOLT – C124 SIZE (MILITARY-CK13 or CKR12)
CK13BX562K
C124(1)562K1X5C(2)
CKR12BX562K(2)
CK13BX682K
C124(1)682K1X5C(2)
CKR12BX682K(2)
CK13BX682M
C124(1)682M1X5C(2)
CKR12BX682M(2)
CK13BX822K
C124(1)822K1X5C(2)
CKR12BX822K(2)
CK13BX103K
C124(1)103K1X5C(2)
CKR12BX103K(2)
CK13BX103M
C124(1)103M1X5C(2)
CKR12BX103M(2)
2657
2658
2659
2660
2661
2662
2857
2858
2859
2860
2861
2862
2057
2058
2059
2060
2061
2062
2257
2258
2259
2260
2261
2262
12,000
15,000
15,000
18,000
22,000
22,000
27,000
33,000
33,000
39,000
47,000
47,000
10
10
20
10
10
20
10
10
20
10
10
20
50 VOLT – C124 SIZE (MILITARY-CK13 or CKR12)
CK13BX123K
C124(1)123K5X5C(2)
CKR12BX123K(2)
CK13BX153K
C124(1)153K5X5C(2)
CKR12BX153K(2)
CK13BX153M
C124(1)153M5X5C(2)
CKR12BX153M(2)
CK13BX183K
C124(1)183K5X5C(2)
CKR12BX183K(2)
CK13BX223K
C124(1)183K5X5C(2)
CKR12BX223K(2)
CK13BX223M
C124(1)223M5X5C(2)
CKR12BX223M(2)
CK13BX273K
C124(1)273K5X5C(2)
CK13BX333K
C124(1)333K5X5C(2)
CK13BX333M
C124(1)333M5X5C(2)
CK13BX393K
C124(1)393K5X5C(2)
CK13BX473K
C124(1)473K5X5C(2)
CK13BX473M
C124(1)473M5X5C(2)
2663
2664
2665
2666
2667
2668
2863
2864
2865
2866
2861
2868
2063
2064
2065
2066
2061
2068
2263
2264
2265
2266
2261
2268
(1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014 (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours,
P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014)
42
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
CERAMIC MOLDED/AXIAL — MIL-C-11015
& MIL-PRF-39014
STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R)
RATINGS & PART NUMBER REFERENCE
TOL.
%
KEMET
PART NUMBER
MIL-C-11015/02
MIL-PRF-39014/05
MIL-PRF-39014/05 For Failure
Rate Levels (2)
M
P
R
S
2669
2670
2671
2672
2673
2674
2869
2870
2871
2872
2873
2874
2069
2070
2071
2072
2073
2074
2269
2270
2271
2272
2273
2274
27,000
33,000
33,000
39,000
47,000
47,000
10
10
20
10
10
20
50 VOLT – C124 SIZE (MILITARY-CK13 or CKR12)(continued)
C124T273K5X5C(2)
CKR12BX273K(2)
C124T333K5X5C(2)
CKR12BX333K(2)
C124T333M5X5C(2)
CKR12BX333M(2)
C124T393K5X5C(2)
CKR12BX393K(2)
C124T473K5X5C(2)
CKR12BX473K(2)
C124T473M5X5C(2)
CKR12BX473M(2)
12,000
15,000
15,000
18,000
22,000
22,000
27,000
33,000
33,000
39,000
47,000
47,000
56,000
68,000
68,000
82,000
100,000
100,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
100 VOLT – C192 SIZE (MILITARY-CK14 or CKR14)
CK14BX123K
C192(1)123K1X5C(2)
CKR14BX123K(2)
CK14BX153K
C192(1)153K1X5C(2)
CKR14BX153K(2)
CK14BX153M
C192(1)153M1X5C(2)
CKR14BX153M(2)
CK14BX183K
C192(1)183K1X5C(2)
CKR14BX183K(2)
CK14BX223K
C192(1)223K1X5C(2)
CKR14BX223K(2)
CK14BX223M
C192(1)223M1X5C(2)
CKR14BX223M(2)
CK14BX273K
C192(1)273K1X5C(2)
CKR14BX273K(2)
CK14BX333K
C192(1)333K1X5C(2)
CKR14BX333K(2)
CK14BX333M
C192(1)333M1X5C(2)
CKR14BX333M(2)
CK14BX393K
C192(1)393K1X5C(2)
CKR14BX393K(2)
CK14BX473K
C192(1)473K1X5C(2)
CKR14BX473K(2)
CK14BX473M
C192(1)473M1X5C(2)
CKR14BX473M(2)
CK14BR563K
C192(1)563K1X5C(2)
CKR14BR563K(2)
CK14BR683K
C192(1)683K1X5C(2)
CKR14BR683K(2)
CK14BR683M
C192(1)683M1X5C(2)
CKR14BR683M(2)
CK14BR823K
C192(1)823K1X5C(2)
CKR14BR823K(2)
CK14BR104K
C192(1)104K1X5C(2)
CKR14BR104K(2)
CK14BR104M
C192(1)104M1X5C(2)
CKR14BR104M(2)
2675
2676
2677
2678
2679
2680
2681
2682
2683
2684
2685
2686
2693
2694
2695
2696
2697
2698
2875
2876
2877
2878
2879
2880
2881
2882
2883
2884
2885
2886
2893
2894
2895
2896
2897
2898
2075
2076
2077
2078
2079
2080
2081
2082
2083
2084
2085
2086
2093
2094
2095
2096
2097
2098
2275
2276
2277
2278
2279
2280
2281
2282
2283
2284
2285
2286
2293
2294
2295
2296
2297
2298
56,000
68,000
68,000
82,000
100,000
100,000
120,000
150,000
150,000
180,000
220,000
220,000
270,000
10
10
20
10
10
20
10
10
20
10
10
20
10
50 VOLT – C192 SIZE (MILITARY-CK14 or CKR14)
C192T563K5X5C(2)
CKR14BX563K(2)
C192T683K5X5C(2)
CKR14BX683K(2)
C192T683M5X5C(2)
CKR14BX683M(2)
C192T823K5X5C(2)
CKR14BX823K(2)
C192T104K5X5C(2)
CKR14BX104K(2)
C192T104M5X5C(2)
CKR14BX104M(2)
CK14BR124K
C192(1)124K5X5C(2)
CKR14BX124K(2)
CK14BR154K
C192(1)154K5X5C(2)
CKR14BX154K(2)
CK14BR154M
C192(1)154M5X5C(2)
CKR14BX154M(2)
CK14BR184K
C192(1)184K5X5C(2)
CKR14BX184K(2)
CK14BR224K
C192(1)224K5X5C(2)
CKR14BX224K(2)
CK14BR224M
C192(1)224M5X5C(2)
CKR14BX224M(2)
CK14BR274K
C192(1)274K5X5C(2)
CKR14BX274K(2)
2687
2688
2689
2690
2691
2692
2699
2700
2701
2702
2703
2704
2705
2887
2888
2889
2890
2891
2892
2899
2900
2901
2902
2903
2904
2905
2087
2088
2089
2090
2091
2092
2099
2100
2101
2102
2103
2104
2105
2287
2288
2289
2290
2291
2292
2299
2300
2301
2302
2303
2304
2305
56,000
68,000
68,000
82,000
100,000
100,000
120,000
150,000
150,000
180,000
220,000
220,000
270,000
330,000
330,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
100 VOLT – C202 SIZE (MILITARY-CK15 or CKR15)
C202T563K1X5C(2)
CKR15BX563K(2)
C202T683K1X5C(2)
CKR15BX683K(2)
C202T683M1X5C(2)
CKR15BX683K(2)
C202T823K1X5C(2)
CKR15BX823K(2)
CK15BX104K
C202(1)104K1X5C(2)
CKR15BX104K(2)
CK15BX104M
C202(1)104M1X5C(2)
CKR15BX104M(2)
CK15BR124K
C202(1)124K1R5C(2)
CKR15BR124K(2)
CK15BR154K
C202(1)154K1R5C(2)
CKR15BR154K(2)
CK15BR154M
C202(1)154M1R5C(2)
CKR15BR154M(2)
CK15BR184K
C202(1)184K1R5C(2)
CKR15BR184K(2)
CK15BR224K
C202(1)224K1R5C(2)
CKR15BR224K(2)
CK15BR224M
C202(1)224M1R5C(2)
CKR15BR224M(2)
CK15BR274K
C202(1)274K1R5C(2)
CKR15BR274K(2)
CK15BR334K
C202(1)334K1R5C(2)
CKR15BR334K(2)
CK15BR334M
C202(1)334M1R5C(2)
CKR15BR334M(2)
2706
2707
2708
2709
2710
2711
2712
2713
2714
2715
2716
2717
2718
2719
2720
2906
2907
2908
2909
2910
2911
2912
2913
2914
2915
2916
2917
2918
2919
2920
2106
2107
2108
2109
2110
2111
2112
2113
2114
2115
2116
2117
2118
2119
2120
2306
2307
2308
2309
2310
2311
2312
2313
2314
2315
2316
2317
2318
2319
2320
470,000
470,000
680,000
680,000
1,000,000
1,000,000
10
20
10
20
10
20
50 VOLT – C202 SIZE (MILITARY-CK15 or CKR15)
CK15BR474K
C202(1)474K5R5C(2)
CKR15BR474K(2)
CK15BR474M
C202(1)474M5R5C(2)
CKR15BR474M(2)
C202T684K5R5C(2)
CKR15BR684K(2)
C202T684M5R5C(2)
CKR15BR684M(2)
CK15BR105K
C202(1)105K5R5C(2)
CKR15BR105K(2)
CK15BR105M
C202(1)105M5R5C(2)
CKR15BR105M(2)
2721
2722
2723
2724
2725
2726
2921
2922
2923
2924
2925
2926
2121
2122
2123
2124
2125
2126
2321
2322
2323
2324
2325
2326
470,000
470,000
680,000
680,000
1,000,000
1,000,000
10
20
10
20
10
20
100 VOLT – C222 SIZE (MILITARY-CK16 or CKR16)
CK16BR474K
C222(1)474K1R5C(2)
CKR16BR474K(2)
CK16BR474M
C222(1)474M1R5C(2)
CKR16BR474M(2)
C222(1)684K1R5C(2)
CKR16BR684K(2)
C222(1)684M1R5C(2)
CKR16BR684M(2)
CK16BR105K
C222(1)105K1R5C(2)
CKR16BR105K(2)
CK16BR105M
C222(1)105M1R5C(2)
CKR16BR105M(2)
2727
2728
2729
2730
2731
2732
2927
2928
2929
2930
2931
2932
2127
2128
2129
2130
2131
2132
2327
2328
2329
2330
2331
2332
2,200,000
2,200,000
3,300,000
3,300,000
10
20
10
20
50 VOLT – C222 SIZE (MILITARY-CK16 or CKR16)
CK16BR225K
C222(1)225K5R5C(2)
CKR16BR225K(2)
CK16BR225M
C222(1)225M5R5C(2)
CKR16BR225M(2)
CK16BR335K
C222(1)335K5R5C(2)
CKR16BR335K(2)
CK16BR335M
C222(1)335M5R5C(2)
CKR16BR335M(2)
2733
2734
2735
2736
2933
2934
2935
2936
2133
2134
2135
2136
2333
2334
2335
2336
MIL-C-11015
MIL-PRF-39014
CAP.
pF
(1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014 (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours,
P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014)
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
43
CERAMIC MOLDED/RADIAL — MIL-C-11015
& MIL-PRF-39014
STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R)
RATINGS & PART NUMBER REFERENCE
CAP.
pF
TOL.
%
KEMET
PART NUMBER
MIL-C-11015/18
MIL-PRF-39014/01 For Failure
Rate Levels (2)
MIL-PRF-39014/01
M
P
R
S
1201(3)
1202(3)
1203(3)
1204(3)
1205(3)
1206(3)
1207(3)
1208(3)
1209(3)
1210(3)
1211(3)
1212(3)
1213(3)
1214(3)
1215(3)
1216(3)
1217(3)
1218(3)
1219(3)
1220(3)
1221(3)
1222(3)
1223(3)
1224(3)
1225(3)
1226(3)
1227(3)
1228(3)
1229(3)
1230(3)
1231(3)
1232(3)
1233(3)
1234(3)
1235(3)
1236(3)
1237(3)
1238(3)
1241(3)
1242(3)
1243(3)
1244(3)
1245(3)
1246(3)
1247(3)
1248(3)
1249(3)
1250(3)
1251(3)
1252(3)
1253(3)
1254(3)
1255(3)
1256(3)
1257(3)
1258(3)
1259(3)
1260(3)
1261(3)
1262(3)
1263(3)
1264(3)
1265(3)
1266(3)
1267(3)
1268(3)
1269(3)
1270(3)
1271(3)
1272(3)
1273(3)
1274(3)
1275(3)
1276(3)
1277(3)
1278(3)
1281(3)
1282(3)
1283(3)
1284(3)
1285(3)
1286(3)
1287(3)
1288(3)
1289(3)
1290(3)
1291(3)
1292(3)
1293(3)
1294(3)
1295(3)
1296(3)
1297(3)
1298(3)
1299(3)
1300(3)
1301(3)
1302(3)
1303(3)
1304(3)
1305(3)
1306(3)
1307(3)
1308(3)
1309(3)
1310(3)
1311(3)
1312(3)
1313(3)
1314(3)
1315(3)
1316(3)
1317(3)
1318(3)
1321(3)
1322(3)
1323(3)
1324(3)
1325(3)
1326(3)
1327(3)
1328(3)
1329(3)
1330(3)
1331(3)
1332(3)
1333(3)
1334(3)
1335(3)
1336(3)
1337(3)
1338(3)
1339(3)
1340(3)
1341(3)
1342(3)
1343(3)
1344(3)
1345(3)
1346(3)
1347(3)
1348(3)
1349(3)
1350(3)
1351(3)
1352(3)
1353(3)
1354(3)
1355(3)
1356(3)
1357(3)
1358(3)
10
10
12
15
15
18
22
22
27
33
33
39
47
47
56
68
68
82
100
100
120
150
150
180
220
220
270
330
330
390
470
470
560
680
680
820
1,000
1,000
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
C05(4)(1)100K2X5C(2)
C05(4)(1)100M2X5C(2)
C05(4)(1)120K2X5C(2)
C05(4)(1)150K2X5C(2)
C05(4)(1)150M2X5C(2)
C05(4)(1)180K2X5C(2)
C05(4)(1)220K2X5C(2)
C05(4)(1)220M2X5C(2)
C05(4)(1)270K2X5C(2)
C05(4)(1)330K2X5C(2)
C05(4)(1)330M2X5C(2)
C05(4)(1)390K2X5C(2)
C05(4)(1)470K2X5C(2)
C05(4)(1)470M2X5C(2)
C05(4)(1)560K2X5C(2)
C05(4)(1)680K2X5C(2)
C05(4)(1)680M2X5C(2)
C05(4)(1)820K2X5C(2)
C05(4)(1)101K2X5C(2)
C05(4)(1)101M2X5C(2)
C05(4)(1)121K2X5C(2)
C05(4)(1)151K2X5C(2)
C05(4)(1)151M2X5C(2)
C05(4)(1)181K2X5C(2)
C05(4)(1)221K2X5C(2)
C05(4)(1)221M2X5C(2)
C05(4)(1)271K2X5C(2)
C05(4)(1)331K2X5C(2)
C05(4)(1)331M2X5C(2)
C05(4)(1)391K2X5C(2)
C05(4)(1)471K2X5C(2)
C05(4)(1)471M2X5C(2)
C05(4)(1)561K2X5C(2)
C05(4)(1)681K2X5C(2)
C05(4)(1)681M2X5C(2)
C05(4)(1)821K2X5C(2)
C05(4)(1)102K2X5C(2)
C05(4)(1)102M2X5C(2)
200 VOLT – C052/C056 SIZE (MILITARY-CK05 or CKR05)
CK05BX100K
CKR05BX100K(2)(3)
CK05BX100M
CKR05BX100M(2)(3)
CK05BX120K
CKR05BX120K(2)(3)
CK05BX150K
CKR05BX150K(2)(3)
CK05BX150M
CKR05BX150M(2)(3)
CK05BX180K
CKR05BX180K(2)(3)
CK05BX220K
CKR05BX220K(2)(3)
CK05BX220M
CKR05BX220M(2)(3)
CK05BX270K
CKR05BX270K(2)(3)
CK05BX330K
CKR05BX330K(2)(3)
CK05BX330M
CKR05BX330M(2)(3)
CK05BX390K
CKR05BX390K(2)(3)
CK05BX470K
CKR05BX470K(2)(3)
CK05BX470M
CKR05BX470M(2)(3)
CK05BX560K
CKR05BX560K(2)(3)
CK05BX680K
CKR05BX680K(2)(3)
CK05BX680M
CKR05BX680M(2)(3)
CK05BX820K
CKR05BX820K(2)(3)
CK05BX101K
CKR05BX101K(2)(3)
CK05BX101M
CKR05BX101M(2)(3)
CK05BX121K
CKR05BX121K(2)(3)
CK05BX151K
CKR05BX151K(2)(3)
CK05BX151M
CKR05BX151M(2)(3)
CK05BX181K
CKR05BX181K(2)(3)
CK05BX221K
CKR05BX221K(2)(3)
CK05BX221M
CKR05BX221M(2)(3)
CK05BX271K
CKR05BX271K(2)(3)
CK05BX331K
CKR05BX331K(2)(3)
CK05BX331M
CKR05BX331M(2)(3)
CK05BX391K
CKR05BX391K(2)(3)
CK05BX471K
CKR05BX471K(2)(3)
CK05BX471M
CKR05BX471M(2)(3)
CK05BX561K
CKR05BX561K(2)(3)
CK05BX681K
CKR05BX681K(2)(3)
CK05BX681M
CKR05BX681M(2)(3)
CK05BX821K
CKR05BX821K(2)(3)
CK05BX102K
CKR05BX102K(2)(3)
CK05BX102M
CKR05BX102M(2)(3)
1,200
1,500
1,500
1,800
2,200
2,200
2,700
3,300
3,300
3,900
4,700
4,700
5,600
6,800
6,800
8,200
10,000
10,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
C05(4)(1)122K1X5C(2)
C05(4)(1)152K1X5C(2)
C05(4)(1)152M1X5C(2)
C05(4)(1)182K1X5C(2)
C05(4)(1)222K1X5C(2)
C05(4)(1)222M1X5C(2)
C05(4)(1)272K1X5C(2)
C05(4)(1)332K1X5C(2)
C05(4)(1)332M1X5C(2)
C05(4)(1)392K1X5C(2)
C05(4)(1)472K1X5C(2)
C05(4)(1)472M1X5C(2)
C05(4)(1)562K1X5C(2)
C05(4)(1)682K1X5C(2)
C05(4)(1)682M1X5C(2)
C05(4)(1)822K1X5C(2)
C05(4)(1)103K1X5C(2)
C05(4)(1)103M1X5C(2)
100 VOLT – C052/C056 SIZE (MILITARY-CK05 or CKR05)
CK05BX122K
CKR05BX122K(2)(3)
CK05BX152K
CKR05BX152K(2)(3)
CK05BX152M
CKR05BX152M(2)(3)
CK05BX182K
CKR05BX182K(2)(3)
CK05BX222K
CKR05BX222K(2)(3)
CK05BX222M
CKR05BX222M(2)(3)
CK05BX272K
CKR05BX272K(2)(3)
CK05BX332K
CKR05BX332K(2)(3)
CK05BX332M
CKR05BX332M(2)(3)
CK05BX392K
CKR05BX392K(2)(3)
CK05BX472K
CKR05BX472K(2)(3)
CK05BX472M
CKR05BX472M(2)(3)
CK05BX562K
CKR05BX562K(2)(3)
CK05BX682K
CKR05BX682K(2)(3)
CK05BX682M
CKR05BX682M(2)(3)
CK05BX822K
CKR05BX822K(2)(3)
CK05BX103K
CKR05BX103K(2)(3)
CK05BX103M
CKR05BX103M(2)(3)
1239(3)
1240(3)
1441(3)
1442(3)
1443(3)
1444(3)
1445(3)
1446(3)
1447(3)
1448(3)
1449(3)
1450(3)
1451(3)
1452(3)
1453(3)
1454(3)
1455(3)
1456(3)
1279(3)
1280(3)
1481(3)
1482(3)
1483(3)
1484(3)
1485(3)
1486(3)
1487(3)
1488(3)
1489(3)
1490(3)
1491(3)
1492(3)
1493(3)
1494(3)
1495(3)
1496(3)
1319(3)
1320(3)
1521(3)
1522(3)
1523(3)
1524(3)
1525(3)
1526(3)
1527(3)
1528(3)
1529(3)
1530(3)
1531(3)
1532(3)
1533(3)
1534(3)
1535(3)
1536(3)
1359(3)
1360(3)
1561(3)
1562(3)
1563(3)
1564(3)
1565(3)
1566(3)
1567(3)
1568(3)
1569(3)
1570(3)
1571(3)
1572(3)
1573(3)
1574(3)
1575(3)
1576(3)
12,000
15,000
15,000
18,000
22,000
22,000
27,000
33,000
33,000
39,000
47,000
47,000
56,000
68,000
68,000
82,000
100,000
100,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
C05(4)(1)123K5X5C(2)
C05(4)(1)153K5X5C(2)
C05(4)(1)153M5X5C(2)
C05(4)(1)183K5X5C(2)
C05(4)(1)223K5X5C(2)
C05(4)(1)223M5X5C(2)
C05(4)(1)273K5X5C(2)
C05(4)(1)333K5X5C(2)
C05(4)(1)333M5X5C(2)
C05(4)(1)393K5X5C(2)
C05(4)(1)473K5X5C(2)
C05(4)(1)473M5X5C(2)
C05(4)(1)563K5X5C(2)
C05(4)(1)683K5X5C(2)
C05(4)(1)683M5X5C(2)
C05(4)(1)823K5X5C(2)
C05(4)(1)104K5X5C(2)
C05(4)(1)104M5X5C(2)
50 VOLT – C052/C056 SIZE (MILITARY-CK05 or CKR05)
CK05BX123K
CKR05BX123K(2)(3)
CK05BX153K
CKR05BX153K(2)(3)
CK05BX153M
CKR05BX153M(2)(3)
CK05BX183K
CKR05BX183K(2)(3)
CK05BX223K
CKR05BX223K(2)(3)
CK05BX223M
CKR05BX223M(2)(3)
CK05BX273K
CKR05BX273K(2)(3)
CK05BX333K
CKR05BX333K(2)(3)
CK05BX333M
CKR05BX333M(2)(3)
CK05BX393K
CKR05BX393K(2)(3)
CK05BX473K
CKR05BX473K(2)(3)
CK05BX473M
CKR05BX473M(2)(3)
CK05BX563K
CKR05BX563K(2)(3)
CK05BX683K
CKR05BX683K(2)(3)
CK05BX683M
CKR05BX683M(2)(3)
CK05BX823K
CKR05BX823K(2)(3)
CK05BX104K
CKR05BX104K(2)(3)
CK05BX104M
CKR05BX104M(2)(3)
1457(3)
1458(3)
1459(3)
1460(3)
1461(3)
1462(3)
1463(3)
1464(3)
1465(3)
1466(3)
1467(3)
1468(3)
1469(3)
1470(3)
1471(3)
1472(3)
1473(3)
1474(3)
1497(3)
1498(3)
1499(3)
1500(3)
1501(3)
1502(3)
1503(3)
1504(3)
1505(3)
1506(3)
1507(3)
1508(3)
1509(3)
1510(3)
1511(3)
1512(3)
1513(3)
1514(3)
1537(3)
1538(3)
1539(3)
1540(3)
1541(3)
1542(3)
1543(3)
1544(3)
1545(3)
1546(3)
1547(3)
1548(3)
1549(3)
1550(3)
1551(3)
1552(3)
1553(3)
1554(3)
1577(3)
1578(3)
1579(3)
1580(3)
1581(3)
1582(3)
1583(3)
1584(3)
1585(3)
1586(3)
1587(3)
1588(3)
1589(3)
1590(3)
1591(3)
1592(3)
1593(3)
1594(3)
(1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014 (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours,
P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014)
(3) Insert “V” for standard design (C056). Leave blank for the flat bottom design (C052).
(4) Insert “2” for standard design (Style C052)
Note: Stand-offs are available only
Insert “6” for stand-off design (Style C056)
with the CKR, not the CK.
}
44
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
CERAMIC MOLDED/AXIAL — MIL-C-11015
& MIL-PRF-39014
STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R)
RATINGS & PART NUMBER REFERENCE
TOL.
%
KEMET
PART NUMBER
MIL-C-11015/19
MIL-PRF-39014/02 For Failure
Rate Levels (2)
MIL-PRF-39014/02
1,200
1,500
1,500
1,800
2,200
2,200
2,700
3,300
3,300
3,900
4,700
4,700
5,600
6,800
6,800
8,200
10,000
10,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
C06(4)(1)122K2X5C(2)
C06(4)(1)152K2X5C(2)
C06(4)(1)152M2X5C(2)
C06(4)(1)182K2X5C(2)
C06(4)(1)222K2X5C(2)
C06(4)(1)222M2X5C(2)
C06(4)(1)272K2X5C(2)
C06(4)(1)332K2X5C(2)
C06(4)(1)332M2X5C(2)
C06(4)(1)392K2X5C(2)
C06(4)(1)472K2X5C(2)
C06(4)(1)472M2X5C(2)
C06(4)(1)562K2X5C(2)
C06(4)(1)682K2X5C(2)
C06(4)(1)682M2X5C(2)
C06(4)(1)822K2X5C(2)
C06(4)(1)103K2X5C(2)
C06(4)(1)103M2X5C(2)
200 VOLT – C062/C066 SIZE (MILITARY-CK06 or CKR06)
CK06BX122K
CKR06BX122K(2)(3)
CK06BX152K
CKR06BX152K(2)(3)
CK06BX152M
CKR06BX152M(2)(3)
CK06BX182K
CKR06BX182K(2)(3)
CK06BX222K
CKR06BX222K(2)(3)
CK06BX222M
CKR06BX222M(2)(3)
CK06BX272K
CKR06BX272K(2)(3)
CK06BX332K
CKR06BX332K(2)(3)
CK06BX332M
CKR06BX332M(2)(3)
CK06BX392K
CKR06BX392K(2)(3)
CK06BX472K
CKR06BX472K(2)(3)
CK06BX472M
CKR06BX472M(2)(3)
CK06BX562K
CKR06BX562K(2)(3)
CK06BX682K
CKR06BX682K(2)(3)
CK06BX682M
CKR06BX682M(2)(3)
CK06BX822K
CKR06BX822K(2)(3)
CK06BX103K
CKR06BX103K(2)(3)
CK06BX103M
CKR06BX103M(2)(3)
12,000
15,000
15,000
18,000
22,000
22,000
27,000
33,000
33,000
39,000
47,000
47,000
56,000
68,000
68,000
82,000
100,000
100,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
C06(4)(1)123K1X5C(2)
C06(4)(1)153K1X5C(2)
C062K153M1X5CA
C06(4)(1)183K1X5C(2)
C06(4)(1)223K1X5C(2)
C062K223M1X5CA
C06(4)(1)273K1X5C(2)
C06(4)(1)333K1X5C(2)
C062K333M1X5CA
C06(4)(1)393K1X5C(2)
C06(4)(1)473K1X5C(2)
C062K473M1X5CA
C06(4)(1)563K1X5C(2)
C06(4)(1)683K1X5C(2)
C062K683M1X5CA
C06(4)(1)823K1X5C(2)
C06(4)(1)104K1X5C(2)
C062K104M1X5CA
100 VOLT – C062/C066 SIZE (MILITARY-CK06 or CKR06)
CK06BX123K
CKR06BX123K(2)(3)
CK06BX153K
CKR06BX153K(2)(3)
CK06BX153M
CK06BX183K
CKR06BX183K(2)(3)
CK06BX223K
CKR06BX223K(2)(3)
CK06BX223M
CK06BX273K
CKR06BX273K(2)(3)
CK06BX333K
CKR06BX333K(2)(3)
CK06BX333M
CK06BX393K
CKR06BX393K(2)(3)
CK06BX473K
CKR06BX473K(2)(3)
CK06BX473M
CK06BX563K
CKR06BX563K(2)(3)
CK06BX683K
CKR06BX683K(2)(3)
CK06BX683M
CK06BX823K
CKR06BX823K(2)(3)
CK06BX104K
CKR06BX104K(2)(3)
CK06BX104M
120,000
150,000
150,000
180,000
220,000
220,000
270,000
330,000
330,000
390,000
470,000
470,000
560,000
680,000
680,000
820,000
1,000,000
1,000,000
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
10
10
20
C06(4)(1)124K5X5C(2)
C06(4)(1)154K5X5C(2)
C062K154M5X5CA
C06(4)(1)184K5X5C(2)
C06(4)(1)224K5X5C(2)
C062K224M5X5CA
C06(4)(1)274K5X5C(2)
C06(4)(1)334K5X5C(2)
C062K334M5X5CA
C06(4)(1)394K5X5C(2)
C06(4)(1)474K5X5C(2)
C062K474M5X5CA
C06(4)(1)564K5X5C(2)
C06(4)(1)684K5X5C(2)
C062K684M5X5CA
C06(4)(1)824K5X5C(2)
C06(4)(1)105K5X5C(2)
C062K105M5X5CA
50 VOLT – C062/C066 SIZE (MILITARY-CK06 or CKR06)
CK06BX124K
CKR06BX124K(2)(3)
CK06BX154K
CKR06BX154K(2)(3)
CK06BX154M
CK06BX184K
CKR06BX184K(2)(3)
CK06BX224K
CKR06BX224K(2)(3)
CK06BX224M
CK06BX274K
CKR06BX274K(2)(3)
CK06BX334K
CKR06BX334K(2)(3)
CK06BX334M
CK06BX394K
CKR06BX394K(2)(3)
CK06BX474K
CKR06BX474K(2)(3)
CK06BX474M
CK06BX564K
CKR06BX564K(2)(3)
CK06BX684K
CKR06BX684K(2)(3)
CK06BX684M
CK06BX824K
CKR06BX824K(2)(3)
CK06BX105K
CKR06BX105K(2)(3)
CK06BX105M
M
P
R
S
1201(3)
1202(3)
1203(3)
1204(3)
1206(3)
1207(3)
1208(3)
1209(3)
1210(3)
1211(3)
1212(3)
1213(3)
1214(3)
1215(3)
1216(3)
1217(3)
1218(3)
1219(3)
1241(3)
1242(3)
1243(3)
1244(3)
1246(3)
1247(3)
1248(3)
1249(3)
1250(3)
1251(3)
1252(3)
1253(3)
1254(3)
1255(3)
1256(3)
1257(3)
1258(3)
1259(3)
1281(3)
1282(3)
1283(3)
1284(3)
1286(3)
1287(3)
1288(3)
1289(3)
1290(3)
1291(3)
1292(3)
1293(3)
1294(3)
1295(3)
1296(3)
1297(3)
1298(3)
1299(3)
1321(3)
1322(3)
1323(3)
1324(3)
1326(3)
1327(3)
1328(3)
1329(3)
1330(3)
1331(3)
1332(3)
1333(3)
1334(3)
1335(3)
1336(3)
1337(3)
1338(3)
1339(3)
1231(3)
1220(3)
1271(3)
1260(3)
1311(3)
1300(3)
1351(3)
1340(3)
1221(3)
1222(3)
1261(3)
1262(3)
1301(3)
1302(3)
1341(3)
1342(3)
1232(3)
1223(3)
1272(3)
1263(3)
1312(3)
1303(3)
1352(3)
1343(3)
1224(3)
1225(3)
1264(3)
1265(3)
1304(3)
1305(3)
1344(3)
1345(3)
1226(3)
1227(3)
1266(3)
1267(3)
1306(3)
1307(3)
1346(3)
1347(3)
1229(3)
1230(3)
1269(3)
1270(3)
1309(3)
1310(3)
1349(3)
1350(3)
1233(3)
1234(3)
1273(3)
1274(3)
1313(3)
1314(3)
1353(3)
1354(3)
1235(3)
1236(3)
1275(3)
1276(3)
1315(3)
1316(3)
1355(3)
1356(3)
1237(3)
1238(3)
12773)
1278(3)
1317(3)
1318(3)
1357(3)
1358(3)
1239(3)
1240(3)
1279(3)
1280(3)
1319(3)
1320(3)
1359(3)
1360(3)
1404(3)
1405(3)
1408(3)
1409(3)
1412(3)
1413(3)
1416(3)
1417(3)
1406(3)
1407(3)
1410(3)
1411(3)
1414(3)
1415(3)
1418(3)
1419(3)
(1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014.
(2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours, P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014)
(3) Add “V” for stand-off design (C066). Leave blank for the flat bottom design (C062).
(4) Insert “2” for standard design (Style C062). Insert “6” for stand-off design (Style C066). Note: Stand-offs are available only with the CKR, not the CK.
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
45
MIL-C-11015
MIL-PRF-39014
CAP.
pF
CERAMIC LEADED
PACKAGING INFORMATION
CERAMIC PACKAGING
KEMET
Series
C114C-K-G
C124C-K-G
C192C-K-G
C202C-K
C222C-K
C052C-K-G
C062C-K-G
C114G
C124G
C192G
C202G
C222G
C052/56G
C062/66G
C512G
C522G
C114T
C124T
C192T
C202T
C222T
C052/56T
C062/66T
C31X
C32X
C33X
C340
C350
C410
C412
C420
C430
C440
C512
C522
C617
C622/C623
C627/C628
C630/C631
C637/C638
C640/C641
C642/C643
C647/C648
C657/C658
C667/C668
Military
Style
CK12, CC75
CK13, CC76
CK14, CC77
CK15
CK16
CK05, CC05
CK06, CC06
CCR75
CCR76
CCR77
CC78-CCR78
CC79-CCR79
CCR05
CCR06
CC07-CCR07
CC08-CCR08
CKR11
CKR12
CKR14
CKR15
CKR16
CKR05
CKR06
N/A
N/A
Military
Specification
MIL-C-11015/
MIL-PRF-20
MIL-PRF-20
MIL-PRF-39014
N/A
N/A
Standard (1)
Bulk
Quantity
200/Box
200/Box
100/Box
25/Box
10/Tray
100/Bag
100/Bag
200/Box
200/Box
100/Box
25/Box
10/Tray
100/Bag
100/Bag
Footnote (2)
Footnote (2)
200/Box
200/Box
100/Box
25/Box
10/Tray
100/Bag
100/Bag
500/Bag
500/Bag
250/Bag
100/Bag
50/Bag
300/Box
200/Box
300/Box
200/Box
200/Box
Footnote (2)
Footnote (2)
250/Bag
100/Bag
100/Bag
100/Bag
50/Bag
50/Bag
50/Bag
50/Bag
50/Bag
50/Bag
Ammo Pack
Quantity
Maximum
2000
1500
2500
2500
1500
1000
N/A
4000
4000
4000
2000
2000
Maximum
Reel
Quantity
5000
5000
3000
500
300
2000
1500
5000
5000
3000
500
300
1700
1500
N/A
N/A
5000
5000
3000
500
300
1700
1500
2500
2500
1500
1000
500
5000
5000
5000
2500
2500
N/A
N/A
1000
500
500
500
500
500
500
500
500
500
NOTE: (1) Standard packaging refers to number of pieces per bag, tray or vial.
(2) Quantity varies. For further details, please consult the factory.
48
© KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Reel
Size
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
N/A
N/A
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
N/A
N/A
12"
12"
12"
12"
12"
12"
12"
12"
12"
12"
Tape & Reel Packaging Information
KEMET offers standard reeling of Molded and Conformally
Coated Radial Leaded Capacitors in accordance with EIA
standard 468. Parts are taped to a tagboard carrier strip, and
wound on a reel as shown in Figure 1. Kraft paper interleaving is
inserted between the layers of capacitors on the reel. Ammopack
is also available, with the same lead tape configuration and
package quantities.
t
Ceramic Radial Tape and Reel Dimensions
Metric will govern
Constant Dimensions — Millimeters (Inches)
D0
±0.2 (0.008)
P0
±0.3 (0.012)
ΔH
±0.2 (0.008)
L1
Maximum
t
±0.2 (0.008)
T
Maximum
W
+ 1.0/- 0.5
(+0.039/-0.020)
W0
Minimum
W2
Maximum
4.00 (0.157)
12.7 (0.500)
4.0 (0.157)
1.0 (0.039)
0.7 (0.051)
1.5 (0.059)
18.0 (0.709)
5.0 (0.197)
3.0 (0.118)
Ceramic Radial Tape and Reel Dimensions cont'd
Metric will govern
Variable Dimensions — Millimeters (Inches)
F
±0.030 (0.78)
Note 1
P1
±0.030 (0.012)
Note 1
P
±0.3 (0.012)
P2
±1.3 (0.51)
2.54 (0.100)
5.08 (0.200)
12.7 (0.500)
6.35 (0.250)
4.32 (0.170)
3.89 (0.153)
12.7 (0.500)
6.35 (0.250)
5.08 (0.200)
3.81 (0.150)
12.7 (0.500)
6.35 (0.250)
5.59 (0.220)
3.25 (0.128)
12.7 (0.500)
6.35 (0.250)
6.98 (0.275)
2.54 (0.100)
12.7 (0.500)
6.35 (0.250)
7.62 (0.300)
2.24 (0.088)
12.7 (0.500)
6.35 (0.250)
9.52 (0.375)
7.62 (0.300)
12.7 (0.500)
6.35 (0.250)
10.16 (0.400)
7.34 (0.290)
25.4 (1.000)
N/A
12.06 (0.475)
6.35 (0.250)
25.4 (1.000)
N/A
14.60 (0.575)
5.08 (0.200)
25.4 (1.000)
N/A
17.14 (0.675)
3.81 (0.15)
25.4 (1.000)
N/A
1.Measuredattheegressfromthecarriertape,onthecomponentside.
2.StraightLeadconfigurationparttypesonly.
3.Formed(bent)leadconfigurationparttypesonly.
Symbol Reference Table
D0
P0
P
F
P1
P2
H
H0
H1
ΔH
L1
t
W
W0
W2
Sprocket Hole Diameter
Sprocket Hole Pitch
Component Pitch
Lead Spacing
Sprocket Hole Center to Lead Center
Sprocket Hole Center To Component Center
Height to Seating Plane (Straight Leads Only)
Height to Seating Plane (Formed Leads Only)
Component Height Above Tape Center
Component Alignment
Lead Protrusion
Composite Tape Thickness
Carrier Tape Width
Hold-Down Tape Width
Hold-Down Tape Location
H
Minimum
Note 2
H0
±0.5 (0.630)
Note 3
18.0 (0.709)
16.0 (0.024)
Tape & Reel Packaging Information
KEMET offers standard reeling of molded and conformally
coated axial leaded ceramic capacitors for automatic insertion
or lead forming machines in accordance with EIA standard 296.
KEMET’sinternalspecificationfour-digitsuffix,7200,isplacedat
the end of the part number to designate tape and reel packaging,
e.g.,C410C104Z5U5CA7200.
Paper (50 lb.) test minimum is inserted between the layers
ofcapacitorswoundonreelsforcomponentpitch≤0.400".
Capacitor lead length may extend only a maximum of .0625"
(1.59 mm) beyond the tapes’ edges. Capacitors are centered in
a row between the two tapes and will deviate only ± 0.031" (0.79
mm) from the row center. A minimum of 36" (91.5 cm) leader
tapeisprovidedateachfinishedlengthoftapedcomponents.
Universalsplicingclipsareusedtoconnectthetape.
Table 3 – Ceramic Axial Tape and Reel Dimensions
Metric will govern
Dimensions — Millimeters (Inches)
Axial Capacitor
Body Diameter
0.0 to 5.0
(0.0 to 0.197)
A
±0.5 (0.020)
B
±1.5 (0.059)*
5.0 (0.197)
52.4 (2.062)
Symbol Reference Table
A
B
* Inside tape spacing dimension (B) is determined by the body diameter of the capacitor.
© KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 (864) 963-6300 • www.kemet.com
Component Pitch
Inside Tape Spacing
KEMET Corporation
World Headquarters
Europe
Asia
Southern Europe
Sasso Marconi, Italy
Tel:39-051-939111
Northeast Asia
Hong Kong
Tel:852-2305-1168
MailingAddress:
P.O. Box 5928
Greenville, SC 29606
Skopje, Macedonia
Tel:389-2-55-14-623
Shenzhen, China
Tel:86-755-2518-1306
www.kemet.com
Tel:864-963-6300
Fax:864-963-6521
Central Europe
Landsberg, Germany
Tel:49-8191-3350800
Corporate Offices
Fort Lauderdale, FL
Tel:954-766-2800
Kamen, Germany
Tel:49-2307-438110
North America
Northern Europe
Wyboston,UnitedKingdom
Tel:44-1480-273082
Taipei, Taiwan
Tel:886-2-27528585
Espoo, Finland
Tel:358-9-5406-5000
Southeast Asia
Singapore
Tel:65-6701-8033
2835 KEMET Way
Simpsonville, SC 29681
Southeast
Lake Mary, FL
Tel:407-855-8886
Northeast
Wilmington, MA
Tel:978-658-1663
Central
Novi, MI
Tel:248-994-1030
Beijing, China
Tel:86-10-5877-1075
Shanghai, China
Tel:86-21-6447-0707
Seoul, South Korea
Tel:82-2-6294-0550
Penang, Malaysia
Tel:60-4-6430200
Bangalore, India
Tel:91-806-53-76817
West
Milpitas, CA
Tel:408-433-9950
Mexico
Guadalajara, Jalisco
Tel:52-33-3123-2141
Note: KEMET reserves the right to modify minor details of internal and external construction at any time in the interest of product improvement. KEMET does not
assume any responsibility for infringement that might result from the use of KEMET Capacitors in potential circuit designs. KEMET is a registered trademark of
KEMET Electronics Corporation.
© KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 (864) 963-6300 • www.kemet.com
Disclaimer
Allproductspecifications,statements,informationanddata(collectively,the“Information”)inthisdatasheetaresubjecttochange.Thecustomerisresponsibleforcheckingand
verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed.
All Information given herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied.
Statements of suitability for certain applications are based on KEMET Electronics Corporation’s (“KEMET”) knowledge of typical operating conditions for such applications, but are
notintendedtoconstitute–andKEMETspecificallydisclaims–anywarrantyconcerningsuitabilityforaspecificcustomerapplicationoruse.TheInformationisintendedforuseonly
by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise
provided by KEMET with reference to the use of KEMET’s products is given gratis, and KEMET assumes no obligation or liability for the advice given or results obtained.
Although KEMET designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component failures may still
occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as installation of protective
circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or property damage.
Althoughallproduct–relatedwarnings,cautionsandnotesmustbeobserved,thecustomershouldnotassumethatallsafetymeasuresareindictedorthatothermeasuresmaynot
be required.
© KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 (864) 963-6300 • www.kemet.com