1
Glass Dielectric Caps
Index
Introduction
Capacitor Military Cross Reference and Alphabetical Parts Listing .................................................................2
Glass/Glass-K Selector Guide...........................................................................................................................3
Glass Capacitor Introduction...........................................................................................................4, 5
Performance Curves ......................................................................................................................................6, 7
Glass Capacitors
CY10, 15 ........................................................................................................................................................8, 9
CY06, 07, 08..............................................................................................................................................10, 11
CYFR10, 15 ...............................................................................................................................................12, 13
CYR10, 15..................................................................................................................................................14, 15
CYR51, 52, 53 ...........................................................................................................................................16, 17
Elevated Temperature (ET Series)
Introduction......................................................................................................................................................18
Performance Curves ........................................................................................................................................19
Axial Lead ..................................................................................................................................................20, 21
Radial Lead................................................................................................................................................22, 23
Glass-K Introduction.................................................................................................................................24
Performance Curves ........................................................................................................................................25
Glass-K Capacitors
CK31, 32 ....................................................................................................................................................26, 27
CKR31, 32 .................................................................................................................................................28, 29
Elevated Temperature (ET Series)
Introduction......................................................................................................................................................30
Performance Curves ........................................................................................................................................31
Miniature ET Glass-K.................................................................................................................................32, 33
Distributors........................................................................................................................................Back Cover
For the following: • Placement of Orders
• Price Quotations
• Delivery
• Specifications of Drawing Reviews
• Location of Franchised Distributors
• Technical Information
Product Capabilities
Applications Assistance
Contact:
AVX Corporation
A Kyocera Group Company
P.O. Box 867
Myrtle Beach, SC 29577
Tel: (843) 448-9411
FAX: (843) 448-1373
AVX Corporation
A Kyocera Group Company
3900 Electronics Drive
Raleigh, NC 27604
Tel: (919) 878-6200
FAX: (919) 878-6236
(919) 878-6218
AVX/Kyocera: your source for multilayer capacitors, glass capacitors, and tantalum capacitors.
See other MLC parts in AVX’s standard Leaded and Chip catalogs.
2
CAPACITORS – ALPHABETICAL LISTING OF MILITARY PART NUMBERS
Glass-K/Glass Caps
Military Cross Reference and Alphabetical Parts Listing
Military AVX Component Page
Part No. Part No. Type No.
CK31 CK31 Glass-K Capacitor 26
CK32 CK32 Glass-K Capacitor 26
CKR31 CKR31 Glass-K Capacitor 28
CKR32 CKR32 Glass-K Capacitor 28
CY06 CY06 Glass Capacitor 10
CY07 CY07 Glass Capacitor 10
CY08 CY08 Glass Capacitor 10
Military AVX Component Page
Part No. Part No. Type No.
CY10 CY10 Glass Capacitor 8
CY15 CY15 Glass Capacitor 8
CYR10 CYR10 Glass Capacitor 14
CYR15 CYR15 Glass Capacitor 14
CYR51 CYR51 Glass Capacitor 16
CYR52 CYR52 Glass Capacitor 16
CYR53 CYR53 Glass Capacitor 16
CAPACITORS – MILITARY SPECIFICATION CROSS-REFERENCE
Military Military AVX Page
Specification Part No. Part No. No.
MIL-C-11015 CK31 CK31 26
(Ceramic Capacitors) CK32 CK32 26
MIL-C-11272 CY06 CY06 10
(Glass Capacitors) CY07 CY07 10
CY08 CY08 10
CY10 CY10 8
CY15 CY15 8
Military Military AVX Page
Specification Part No. Part No. No.
MIL-C-39014 CKR31 CKR31 28
(Established Reliability) CKR32 CKR32 28
(Ceramic Capacitors)
MIL-C-23269 CYR10 CYR10 14
(Established Reliability) CYR15 CYR15 14
(Glass Capacitors) CYR51 CYR51 16
CYR52 CYR52 16
CYR53 CYR53 16
CAPACITORS – ALPHABETICAL LISTING OF AVX PART NUMBERS
AVX Military Component Page
Part No. Part No. Type No.
CK31 CK31 Glass-K Capacitor 26
CK32 CK32 Glass-K Capacitor 26
CKR31 CKR31 Glass-K Capacitor 28
CKR32 CKR32 Glass-K Capacitor 28
CY06 CY06 Glass Capacitor 10
CY07 CY07 Glass Capacitor 10
CY08 CY08 Glass Capacitor 10
CY10 CY10 Glass Capacitor 8
CY15 CY15 Glass Capacitor 8
CYFR10 None Glass Capacitor 12
CYFR15 None Glass Capacitor 12
CYR10 CYR10 Glass Capacitor 14
CYR15 CYR15 Glass Capacitor 14
Military AVX Component Page
Part No. Part No. Type No.
CYR51 CYR51 Glass Capacitor 16
CYR52 CYR52 Glass Capacitor 16
CYR53 CYR53 Glass Capacitor 16
ET10 None Glass Capacitor 20
ET15 None Glass Capacitor 20
ETR10 None Glass Capacitor 20
ETR15 None Glass Capacitor 20
ET31 None Glass-K Capacitor 32
ET32 None Glass-K Capacitor 32
ET06 None Glass Capacitor 22
ET07 None Glass Capacitor 22
ET08 None Glass Capacitor 22
3
DIELECTRIC TYPES
CAPACITOR ELEVATED ET
CHARACTERISTICS GLASS TEMPERATURE GLASS GLASS-K GLASS-K
AVX CY10-15 ET06
TYPES CYFR10-15 CY06-08 ET10 ET07 ET31 CK31, 32
CYR10-15 CYR51-53 ET15 ET08 ET32 CKR31, 32
Capacitance .5 - 1200 1 - 2400 0.5 to 1200 1.0 to 2400 270 - 270 -
Range pF pF pF pF 100,000pF 100,000pF
TY0
Standard ±1 to 20% ±1 to 20% ±.25 to ±.25 to ±10 or ±10 or
Tolerance CYR ±1 to 5% CYR ±20% ±20% 20% 20%
±1 to 5%
±5%
Minimum ±1% or ±1% or ±.25% ±.25% ±5% on “T”
Tolerance ±.25pF ±.25pF on “2” Char. Char.
others ±10%
DC 300 VDC
Operating and 300 VDC 50 VDC 50 VDC 25 VDC 50 VDC
Volts 500 VDC
Operating DC to DC to DC to DC to DC to DC to
Frequency UHF UHF VHF VHF VHF VHF
% @ 1kHz @ 25°C @ 25°C 1 - 3% @
>100pF .1% .1%>100pF 1kHz: .1% 1kHz: <.1% 25°C 1 to
1MHz @ 25°C .2%<100pF @ 200°C @ 200°C 1.5 - 4% @ 3%
<100pF 1kHz: 1% 1kHz: <1% 200°C
100,000
500,000 >100,000 >100,000 >1 x 1011 Meg
Meg 100,000 100,000 @ 25°C @ 25°C @ 25°C or
@25°C @25°C >1 x 108Ohms >1 x 108Ohms >1 x 108Ohms 1000 M- µF,
@ 200°C @ 200°C @ 200°C whichever
is less
-55°C -55°C -75°C -75°C -75°C -55°C
Operating to to to to to to
Range +125°C +125°C +200°C +200°C +200°C +125°C
+3, -25 or +2, -10 or
Temperature +140 ±25 +140 ±25 +140 PPM +140 PPM +3, -35 or +2, -15 or
Characteristics PPM/°C PPM/°C ±25 PPM/°C ±25 PPM/°C +21, -50 +20, -45%
Lead Axial Radial Axial Radial Axial Axial
Type
CK31, 32
MIL-SPECS 11272 11272 (11015/25)
MIL-C- and and — — — CKR31, 32
23269 23269 (39014/21)
CATALOG 8, 12, 14 10, 16 20 22 32 26, 28
PAGE NUMBERS
Glass-K/Glass Caps
Selector Guide
CapacitanceVolts
Fre-
quency
Dissi-
pation
Factor
Insulation
Resistance
Temperature
Form
Factor
4
Glass Capacitors
Introduction
INTRODUCTION
For the 1% of designs where you can’t stand failures:
In most types of electronic equipment, the occasional failure
of a capacitor is tolerable – though it is inconvenient and
often costly. For these applications, an acceptable level of
reliability is provided by many of the excellent types of capac-
itors available today.
But in a few designs you can’t stand failures – satellite
systems, undersea cable repeaters, mountaintop microwave
relay stations, to name just a few. For these designs AVX
glass capacitors may be the optimum choice.
Where reliability is critical and replacement of a failed part is
not possible or practical, consider glass capacitors.
Where stability is essential, even in severe environments,
consider glass capacitors.
Glass capacitors have experienced over four decades of
usage in some of America’s most demanding circuit applica-
tions. Among these are:
TDRSS Saturn IV Phalnyx
GOES Trident Standard Missile
Cassini Space Shuttle Minuteman Missile
Mercury Galileo AWACS
Gemini Matrix Delta II
Titan II Hubble Space Telescope MK-46 Torpedo
OVER 4 DECADES OF MAJOR
PROGRAM EXPERIENCE
RELIABILITY
AVX Glass capacitors are qualified to MIL-C-11272 and
MIL-C-23269, failure rate levels M and S.
For the maximum in reliability, AVX makes the CYFR series,
designed to Minuteman specifications. The CYFR series
glass capacitors meet or exceed all requirements of AVX
specifications J-950 and J-951, available on request.
The reasons for the high reliability of glass capacitors are
straightforward.
• Simple construction — few things to go wrong.
• Glass dielectric — one of the most stable, inert materials
available.
• Thorough inspection — every glass capacitor is individual-
ly inspected during production. This testing includes visual
inspection, capacitance check, rated voltage check, and
hermetic seal check (for glass case types).
AVX glass capacitors have been used in virtually all critical
military and space programs for the past twenty-five years.
Increasingly, they are also being used in non-military appli-
cations where failures can’t be tolerated and circuit perform-
ance is critical.
STABILITY
Capacitor stability, or lack of it, is an inherent characteristic
of the dielectric used. Few materials can match glass for sta-
bility, and few companies can match AVX Corporation for
glass technology.
Glass doesn’t corrode or degrade in any way. Glass is not
subject to microfractures, delaminations, and other prob-
lems associated with certain crystalline materials. In addition,
axial glass capacitors are hermetically encased in glass, with
a true glass-to-metal seal at the leads. This construction is
practically immune to severe environmental effects such as
shock, vibration, radiation resistance, moisture, salt spray,
and solder heat.
RADIATION RESISTANCE
The unique materials and construction techniques involved
with glass capacitors make them ideal for use in radiation
environments. After a total dose of nearly 108rads (H2O)
glass capacitors exhibit only a minor change in capacitance.
(≤.5%) and an 8% change in dissipation factor. Furthermore,
glass capacitors can operate in fast neutron flux environ-
ments of 1 x 1015cm-2sec-1 and experience little or no damage
in component parameters.
PREDICTABILITY
The dielectric is formed as a continuous ribbon of glass.
Physical and electrical properties and dimensions are pre-
cisely controlled.
This results in every AVX glass capacitor being just like every
other, part-to-part, and lot-to-lot. Couple this built-in pre-
dictability with complete performance specifications and you
know what performance to expect before the first prototype
is built.
CONSTRUCTION
Simplicity is the key to reliable construction. There are only
three materials in axial glass capacitors: glass dielectric and
case, aluminum foil electrodes, and wire leads. (Radial
capacitors have a molded case.)
The leads are welded to the electrodes so there are no pres-
sure connections to come loose and no solder connections
to melt.
PERFORMANCE
Quality control and simplicity of design mean that AVX glass
capacitors are close to being a “perfect circuit symbol
capacitance.” Here is what you get with AVX glass capaci-
tors:
• Nuclear Radiation Resistance
• Zero Aging Rate
• High Q Factor
• Large RF Current Capability
• No Piezoelectric Noise
• Low Dielectric Absorption
• ±5ppm Temperature Coefficient Retraceability
• High Breakdown Voltage
• Zero Voltage Coefficient
Specific electrical performance details are given in the AVX
Glass and Glass-K Designers’ Handbook.
The following glass capacitors are described in this
brochure:
Qualified to MIL-C-11272, standard military specification,
and used in industrial applications:
CY10, CY15 — Axial Leads
CY06, CY07, CY08 — Radial Leads
Qualified to MIL-C-23269, established reliability specifica-
5
Glass Capacitors
Introduction
tion, used primarily in military applications:
CYR10, CYR15 — Axial Leads
CYR51, CYR52, CYR53 — Radial Leads
AVX also makes the CYFR series, ultra-high reliability types
designed to Minuteman specifications.
Elevated temperature glass capacitors with a working tem-
perature of -75°C to +200°C:
ET10, ET15 — Axial Leads
ET06, ET07, ET08 — Radial Leads
High reliability elevated temperature glass capacitors:
ETR10, ETR15 — Axial Leads
ETR06, ETR07, ETR08 — Radial Leads
Although all AVX glass capacitors are of similar construction,
performance characteristics vary slightly between axial and
radial types due to differences in form factor and lead con-
figuration. The performance descriptions and curves that fol-
low are identified as applying to axial or radial types or both.
Temperature Coefficient: The actual temperature coeffi-
cient for glass capacitors is shown in Figure 1. It is a slightly
nonlinear curve varying from +115ppm/°C at -55°C to
+165ppm/°C at +125°C. Temperature coefficient can be
accurately represented by the linear approximation
140±25ppm/°C.
Temperature coefficient is not affected by DC bias voltage
nor by measurement frequency over the range of 1kHz to
1MHz. There is no hysteresis in the T.C. curve and part-to-
part and lot-to-lot variations are no greater than ±5ppm.
Capacitance drift over the temperature range -55°C to
125°C is no greater than 0.1% or 0.1pF, whichever is larger.
Capacitance Change vs. Temperature: Derived from the
T.C. curve, C vs. temperature is shown in Figure 2 for both
axials and radials.
Losses vs. Temperature: Maximum dissipation factor (DF)
is 0.1% at 0.1kHz and 25°C. The variation of DF vs. temper-
ature is shown in Figure 3 for radials and Figure 4 for axials.
There is no significant variation in DF or Q with different
capacitance values when measured at 1.0kHz. See losses
vs. capacitance, below, for variations with capacitance value
when measured at 1.0MHz.
Insulation Resistance vs.Temperature: Insulation resist-
ance is greater than 100,000 megohms at 25°C (500,000
megohms for the CYFR series). At 125°C, insulation resist-
ance is greater than 10,000 megohms.
Capacitance Change vs. Frequency: Capacitance
change vs. frequency is typically less than one percent up to
1MHz. See Figure 5.
Losses vs. Frequency: Dissipation factor at 1.0kHz and
25°C is 0.1% maximum for all axials and for radials greater
than 100pF. DF is 0.2% for radials 100pF and below. The
variation of DF and its reciprocal Q vs. frequency is shown in
Figure 6 for radials and Figure 7 for axials. There is no signif-
icant variation in DF or Q with capacitance value when meas-
ured at 1.0kHz. See below for losses vs. capacitance value
when measured at 1.0MHz.
Losses vs. Capacitance Value: The variation of Q with
capacitance value when measured at 1.0MHz is shown in
Figure 8 for radials and Figure 9 for axials.
Resonant Frequency vs. Capacitance Value: The fre-
quency at which the capacitor becomes self-resonant is a
function of both capacitance value and lead length. Typical
curves are given in Figure 10 and radials and Figure 11 for
axials.
Voltage Coefficient: Voltage coefficient is zero. There is no
measurable change in capacitance from 0 to full working
voltage. Voltage coefficient remains zero over the full tem-
perature range and at all useful frequencies.
Surge Voltage: CYR types are tested in accordance with
MIL-C-23269 and withstand a surge voltage of 1500±30
VDC.
Temperature Range: The operating temperature range for
all glass capacitors is -55°C to 125°C with no voltage derat-
ing required. Elevated Temperature (ET) capacitor operating
temperature range -75°C to +200°C (with overexposure to
+250°C ≤1 hour (axial) with no performance degradation).
Moisture Resistance: Meets or exceeds all requirements
of MIL-C-11272 or MIL-C-23269, as applicable.
Life: When tested under accelerated conditions of 125°C
with 150% of rated voltage applied for 2,000 hours, glass
capacitors meet the requirements listed below. Pre- and
post-test measurements are at 25°C.
Capacitance Change — Less than 0.5% or 0.5pF, whichev-
er is greater, for all glass capacitors.
Dissipation Factor —
CY10, 15 — 0.20% maximum
CY06, 07, 08 — 0.25% maximum for values above 100pF,
0.45% maximum for 100pF and below
CYR10, 15 — 0.15% maximum
CYR51, 52, 53 — 0.25% maximum for values above 100pF,
0.45% for 100pF and below
CYR10, 15 — 0.15% maximum
Insulation Resistance: Greater than 100,000 megohms
(500,000 megohms for CYFR series).
Noise: Glass dielectric capacitors have zero piezoelectric
noise due to their unique dielectric material construction.
GLASS CASE, HERMETICALLY SEALED
GLASS DIELECTRIC ALUMINUM ELECTRODES
WELDED
TERMINATION
Simplicity of construction, combined with the excellent
dielectric characteristics of glass, make AVX Glass
Capacitors outstanding performers.
6
Glass Capacitors
Performance Curves
300
200
100
-55 -35 -15 +5 +25 +45 +65 +85 +105 +125
PPM/°C
Temperature — °C
+6
+5
+4
+3
+2
+1
0
-1
-2
-3
-4
-5
-55 -35 -15 +5 +25 +45 +65 +85 +105 +125
% Capacitance Change
Temperature — °C
0.01
0.001
0.0001
0 +50 +100 +150
1 kHz Dissipation Factor
Temperature — °C
0.01
0.001
0.0001
0 +50 +100 +150
1 kHz Dissipation Factor
Temperature — °C
+4
+2
0
-2
-4
1kHz 10kHz 100kHz 1MHz
% Capacitance Change
Frequency
FIGURE 1
Temperature Coefficient vs. Temperature
Radial and Axial
FIGURE 2
% Capacitance Change vs. Temperature
Radial and Axial
FIGURE 3
Dissipation Factor vs. Temperature
Radial
FIGURE 5
% Capacitance Change vs. Frequency
Radial and Axial
FIGURE 4
Dissipation Factor vs. Temperature
Axial
7
Glass Capacitors
Performance Curves
Dissipation Factor
Frequency in Hz
10-1 4
10K 100K 1M 10M 100M
10-2
10
3
10
2
10
10-3
Quality Factor
Quality Factor
Dissipation Factor
Dissipation Factor
Frequency in Hz
10-1
10K 100K 1M 10M 100M
10-2
10-3
Quality Factor
Quality Factor
Dissipation Factor
4
10
3
10
2
10
Quality Factor at 1 mHz
Capacitance – pF
10,000
10 100 1,000 10,000
1,000
100
Quality Factor at 1 mHz
Capacitance – pF
10,000
10 100 1,000 10,000
1,000
100
FIGURE 6
Quality Factor and Dissipation Factor
vs. Frequency
Radial
FIGURE 7
Quality Factor and Dissipation Factor
vs. Frequency
Axial
FIGURE 8
Quality Factor vs. Capacitance
Radial
FIGURE 9
Quality Factor vs. Capacitance
Axial
Capacitance – pF
1,000
10 100 1,000 10,000
100
10
Self Resonance
0.5 Total
1.0 lead
1.5 length
2.0 (inches)
0.0
Frequency – mHz
Frequency – mHz
Capacitance – pF
1,000
10 100 1,000 10,000
100
10 1.0 Total
1.5 lead
2.0 length
2.5 (inches)
0.5
FIGURE 10
Resonant Frequency vs. Capacitance
Radial
FIGURE 11
Resonant Frequency vs. Capacitance
Axial
APPLICATIONS
These extremely stable glass capacitors, AVX style CY, meet or
exceed all requirements of MIL-C-11272. With glass dielectric,
fused monolithic construction, and true glass-to-metal seals at the
leads, they have very low losses and are virtually immune to severe
environmental stresses.
PERFORMANCE CHARACTERISTICS
Tolerance: Available tolerances for each value of capaci-
tance are shown in the ordering information table. For codes,
refer to the Part Numbers paragraph.
Temperature Coefficient: +140 ±25 ppm/°C at 100kHz.
TC will track and retrace to within ±5 ppm. Capacitance drift
is less than 0.1% or 0.1pF, whichever is greater.
Voltage Coefficient: Zero.
Losses: Extremely low, and remain relatively low at elevated
temperatures. Dissipation factor is not more than 0.001 at
1.0kHz and 25°C.
Life: After 2,000 hours at 125°C with 150% of rated voltage
applied, capacitance change is less than 0.5% or 0.5pF,
whichever is greater.
Insulation Resistance: Greater than 100,000 megohms at
25°C; greater than 10,000 megohms at 125°C.
Voltage/Temperature Rating: Voltage ratings are shown in
the ordering information table. The operating temperature
range is -55°C to +125°C with no derating required.
Moisture Resistance: Meets or exceeds all requirements of
MIL-C-11272 and MIL-STD-202, Method 106.
Radiation Resistance: The unique materials and construc-
tion techniques involved with glass capacitors make them
ideal for use in radiation environments. After a total dose
of nearly 108rads (H2O) glass capacitors exhibit only a
minor change in capacitance (≤.5%) and an 8% change in
dissipation factor. Furthermore, glass capacitors can operate
in fast neutron flux environments of 1015 N cm-2sec-1 and
experience little or no damage in component parameters.
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.X
8
Case Lead Dia. Weight
Size LW T
+0.1 (+0.004) (Grams)
-0.03 (-0.001)
CY10 8.74 ± 1.19 4.37 ± .79 1.98 ± .79 .51
(0.344 ± 0.047) (0.172 ± 0.031) (0.078 ± 0.031) (0.020) .25 – .50
CY15 11.91 ± 1.19 6.76 ± .79 2.77 ± 1.19 .51
(0.469 ± 0.047) (0.266 ± 0.031) (0.109 ± 0.047) (0.020) .75 – 1.25
CY10C
680K
AVX
CY10
CY15
CY15C
221K
AVX
Glass Capacitors
CY10, 15 (QPL to MIL-C-11272/01/02/03/04)
DIMENSIONS: millimeters (inches)
Note: Standard leads are solder-coated Dumet.
Leads on C
within 0.79
(0.031)
L
LT
W
28.58
(1.125)
Min.
9
Glass Capacitors
Part Numbers and Ordering Information
RATINGS & PART NUMBER REFERENCE (Standard Values)
MARKING
Add letter for tolerance code above lines.
CY
Style
Glass Capacitor
10
Case Size
10
15
C
Operating
Temperature Range
-55°C to +125°C
101
Capacitance Code
Capacitance Code is
expressed in picofarads (pF).
The first two digits represent
significant figures and the
third digit specifies the
number of zeros to follow;
i.e. 101 indicates 100 pF.
For values below 10 pF,
R = decimal point;
i.e. 1R5 indicates 1.5 pF.
J
Capacitance Tolerance
C = ±.25 pF
D = ±.50 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
HOW TO ORDER
CY10C
101J
AVX
CY = Glass Capacitor
10 = Case Size
C = Operating Temperature Range
101 = Capacitance, Coded in pF
J = Tolerance
AVX = AVX Corporation
Military Type Cap. Tolerances DC
Designation (pF) Available Working
Voltage
CY15
CY15C221_ 220 F, G, J, K, M 500
CY15C241_ 240 F, G, J, K, M 500
CY15C271_ 270 F, G, J, K, M 500
CY15C301_ 300 F, G, J, K, M 500
CY15C331_ 330 F, G, J, K, M 500
CY15C361_ 360 F, G, J, K, M 500
CY15C391_ 390 F, G, J, K, M 500
CY15C431_ 430 F, G, J, K, M 500
CY15C471_ 470 F, G, J, K, M 500
CY15C511_ 510 F, G, J, K, M 500
CY15C561_ 560 F, G, J, K, M 300
CY15C621_ 620 F, G, J, K, M 300
CY15C681_ 680 F, G, J, K, M 300
CY15C751_ 750 F, G, J, K, M 300
CY15C821_ 820 F, G, J, K, M 300
CY15C911_ 910 F, G, J, K, M 300
CY15C102_ 1,000 F, G, J, K, M 300
CY15C112_ 1,100 F, G, J, K, M 300
CY15C122_ 1,200 F, G, J, K, M 300
Military Type Cap. Tolerances DC
Designation (pF) Available Working
Voltage
CY10
CY10C0R5_ 0.5 C 500
CY10C1R0_ 1.0 C, D 500
CY10C1R5_ 1.5 C, D 500
CY10C2R2_ 2.2 C, D 500
CY10C2R7_ 2.7 C, D 500
CY10C3R0_ 3.0 C, D 500
CY10C3R3_ 3.3 C, D 500
CY10C3R6_ 3.6 C, D 500
CY10C3R9_ 3.9 C, D 500
CY10C4R3_ 4.3 C, D 500
CY10C4R7_ 4.7 C, K 500
CY10C5R1_ 5.1 C, J, K 500
CY10C5R6_ 5.6 C, J, K 500
CY10C6R2_ 6.2 C, J, K 500
CY10C6R8_ 6.8 C, J, K 500
CY10C7R5_ 7.5 C, J, K 500
CY10C8R2_ 8.2 C, J, K 500
CY10C9R1_ 9.1 C, J, K 500
CY10C100_ 10 C, J, K, M 500
CY10C110_ 11 C, J, K, M 500
CY10C120_ 12 C, J, K, M 500
CY10C130_ 13 C, G, J, K, M 500
CY10C150_ 15 C, G, J, K, M 500
CY10C160_ 16 C, G, J, K, M 500
CY10C180_ 18 C, G, J, K, M 500
CY10C200_ 20 C, G, J, K, M 500
CY10C220_ 22 C, G, J, K, M 500
CY10C240_ 24 C, G, J, K, M 500
CY10C270_ 27 F, G, J, K, M 500
CY10C300_ 30 F, G, J, K, M 500
CY10C330_ 33 F, G, J, K, M 500
CY10C360_ 36 F, G, J, K, M 500
CY10C390_ 39 F, G, J, K, M 500
CY10C430_ 43 F, G, J, K, M 500
CY10C470_ 47 F, G, J, K, M 500
CY10C510_ 51 F, G, J, K, M 500
CY10C560_ 56 F, G, J, K, M 500
CY10C620_ 62 F, G, J, K, M 500
CY10C680_ 68 F, G, J, K, M 500
CY10C750_ 75 F, G, J, K, M 500
CY10C820_ 82 F, G, J, K, M 500
CY10C910_ 91 F, G, J, K, M 500
CY10C101_ 100 F, G, J, K, M 500
CY10C111_ 110 F, G, J, K, M 500
CY10C121_ 120 F, G, J, K, M 500
CY10C131_ 130 F, G, J, K, M 500
CY10C151_ 150 F, G, J, K, M 500
CY10C161_ 160 F, G, J, K, M 500
CY10C181_ 180 F, G, J, K, M 500
CY10C201_ 200 F, G, J, K, M 500
CY10C221_ 220 F, G, J, K, M 300
CY10C241_ 240 F, G, J, K, M 300
CY10C271 270 F, G, J, K, M 300
CY10C301_ 300 F, G, J, K, M 300
Add letter for tolerance code above lines.
APPLICATIONS
These precision miniature glass capacitors, AVX style CY0,
meet or exceed all requirements of MIL-C-11272.
Constructed of a fused monolithic capacitive element in a
rectangular case with gold-plated radial Dumet leads, this
series permits high packaging efficiency for printed circuit
applications where extremely stable, low-loss capacitors
are required.
PERFORMANCE CHARACTERISTICS
Tolerance: Available tolerances for each value of capaci-
tance are shown in the ordering information table. For codes,
refer to the Part Numbers paragraph.
Temperature Coefficient: +140 ±25 ppm/°C at 100kHz.
TC will track and retrace to within ±5 ppm. Capacitance drift
is less than 0.1% or 0.1pF, whichever is greater.
Voltage Coefficient: Zero.
Losses: Extremely low, and remain relatively low at elevated
temperatures. Dissipation factor at 1kHz and 25°C is less
than 0.001 for values greater than 100pF and less than
0.002 for values of 100pF and below.
Life: After 2,000 hours at 125°C with 150% of rated voltage
applied, capacitance change is less than 0.5% or 0.5 pF;
dissipation factor is less than 0.0025 for values above 100
pF and less than 0.0045 for values of 100 pF and below.
Insulation Resistance: Greater than 100,000 megohms at
25°C; greater than 10,000 megohms at 125°C.
Voltage/Temperature Rating: 300 WVDC over the
temperature range of -55°C to +125°C with no derating
required.
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.
10
Glass Capacitors
CY06, 07, 08 (QPL to MIL-C-11272/13/14/15)
DIMENSIONS: millimeters (inches)
Case LWTS
Weight
Size ±0.13 ±0.25 ±0.13 ±0.51 (Grams)
(±0.005) (±0.010) (±0.005) (±0.020)
CY06 7.62 5.08 2.92 5.08
(0.300) (0.200) (0.115) (0.200) .3 – .4
CY07 7.62 7.62 2.92 5.08
(0.300) (0.300) (0.115) (0.200) .4 – .5
CY08 12.70 7.62 2.92 10.16
(0.500) (0.300) (0.115) (0.400) .7 – .8
Note: All leads are 24 AWG, 0.51 ± .05 (0.020 ± 0.002) diameter. Leads are
solderable and weldable gold-plated Dumet, per MIL-STD-1276, Type D.
CY06C
786C
AVX
CY06 CY07 CY08
CY07C
821F
AVX
CY08C
202J
AVX
L
W
S
T
1.27 ±0.51
(.050 ±.020)
Leads on centerline
within ±0.51 (±.020)
31.75
(1.250)
Min.
11
Glass Capacitors
Part Numbers and Ordering Information
RATINGS & PART NUMBER REFERENCE (Standard Values)
MARKING
Military Type Capacitance Tolerances DC
Designation (pF) Available Working
Voltage
CY06
CY06C1R0_ 1.0 C, D 300
CY06C1R5_ 1.5 C, D 300
CY06C2R2_ 2.2 C, D 300
CY06C2R7_ 2.7 C, D 300
CY06C3R0_ 3.0 C, D 300
CY06C3R3_ 3.3 C, D 300
CY06C3R6_ 3.6 C, D 300
CY06C3R9_ 3.9 C, D 300
CY06C4R3_ 4.3 C, D 300
CY06C4R7_ 4.7 C, K 300
CY06C5R1_ 5.1 C, J, K 300
CY06C5R6_ 5.6 C, J, K 300
CY06C6R2_ 6.2 C, J, K 300
CY06C6R8_ 6.8 C, J, K 300
CY06C7R5_ 7.5 C, J, K 300
CY06C8R2_ 8.2 C, J, K 300
CY06C9R1_ 9.1 C, J, K 300
CY06C100_ 10 C, J, K, M 300
CY06C110_ 11 C, J, K, M 300
CY06C120_ 12 C, J, K, M 300
CY06C130_ 13 C, G, J, K, M 300
CY06C150_ 15 C, G, J, K, M 300
CY06C160_ 16 C, G, J, K, M 300
CY06C180_ 18 C, G, J, K, M 300
CY06C200_ 20 C, G, J, K, M 300
CY06C220_ 22 C, G, J, K, M 300
CY06C240_ 24 C, G, J, K, M 300
CY06C270_ 27 F, G, J, K, M 300
CY06C300_ 30 F, G, J, K, M 300
CY06C330_ 33 F, G, J, K, M 300
CY06C360_ 36 F, G, J, K, M 300
CY06C390_ 39 F, G, J, K, M 300
CY06C430_ 43 F, G, J, K, M 300
CY06C470_ 47 F, G, J, K, M 300
CY06C510_ 51 F, G, J, K, M 300
CY06C560_ 56 F, G, J, K, M 300
CY06C620_ 62 F, G, J, K, M 300
CY06C680_ 68 F, G, J, K, M 300
CY06C750_ 75 F, G, J, K, M 300
CY06C820_ 82 F, G, J, K, M 300
Add letter for tolerance code above lines.
Military Type Capacitance Tolerances DC
Designation (pF) Available Working
Voltage
CY06 (cont)
CY06C910_ 91 F, G, J, K, M 300
CY06C101_ 100 F, G, J, K, M 300
CY06C111_ 110 F, G, J, K, M 300
CY06C121_ 120 F, G, J, K, M 300
CY06C131_ 130 F, G, J, K, M 300
CY06C151_ 150 F, G, J, K, M 300
CY06C161_ 160 F, G, J, K, M 300
CY06C181_ 180 F, G, J, K, M 300
CY06C201_ 200 F, G, J, K, M 300
CY06C221_ 220 F, G, J, K, M 300
CY06C241_ 240 F, G, J, K, M 300
CY06C271_ 270 F, G, J, K, M 300
CY06C301_ 300 F, G, J, K, M 300
CY06C331_ 330 F, G, J, K, M 300
CY06C361_ 360 F, G, J, K, M 300
CY06C391_ 390 F, G, J, K, M 300
CY06C431_ 430 F, G, J, K, M 300
CY06C471_ 470 F, G, J, K, M 300
CY06C511_ 510 F, G, J, K, M 300
CY06C561_ 560 F, G, J, K, M 300
CY07
CY07C621_ 620 F, G, J, K, M 300
CY07C681_ 680 F, G, J, K, M 300
CY07C751_ 750 F, G, J, K, M 300
CY07C821_ 820 F, G, J, K, M 300
CY07C911_ 910 F, G, J, K, M 300
CY07C102_ 1,000 F, G, J, K, M 300
CY08
CY08C112_ 1,100 F, G, J, K, M 300
CY08C122_ 1,200 F, G, J, K, M 300
CY08C132_ 1,300 F, G, J, K, M 300
CY08C152_ 1,500 F, G, J, K, M 300
CY08C162_ 1,600 F, G, J, K, M 300
CY08C182_ 1,800 F, G, J, K, M 300
CY08C202_ 2,000 F, G, J, K, M 300
CY08C222_ 2,200 F, G, J, K, M 300
CY08C242_ 2,400 F, G, J, K, M 300
Add letter for tolerance code above lines.
CY
Style
Glass Capacitor
06
Case Size
06
07
08
C
Operating
Temperature Range
-55°C to +125°C
561
Capacitance Code
Capacitance Code is
expressed in picofarads (pF).
The first two digits represent
significant figures and the
third digit specifies the
number of zeros to follow;
i.e. 561 indicates 560 pF.
For values below 10 pF,
R = decimal point;
i.e. 1R5 indicates 1.5 pF.
J
Capacitance Tolerance
C = ±.25 pF
D = ±.50 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
HOW TO ORDER
AVX
CY06C
561J
AVX = AVX Corporation
CY = Glass Capacitor
06 = Case Size
C = Operating Temperature Range
561 = Capacitance, Coded in pF
J = Tolerance
12
APPLICATIONS
AVX Style CYFR high reliability glass capacitors have failure rates
among the lowest available Outstanding stability, reliability and elec-
trical performance are provided by the fused monolithic construc-
tion, which is virtually immune to environmental stresses. These
capacitors meet or exceed all requirements of AVX specifications
J-950 and J-951, which combine the most exciting features of
many military specifications and substantially exceed most.
PERFORMANCE CHARACTERISTICS
Tolerance: Available tolerances for each value of capaci-
tance are shown in the Ordering Information table. For
codes, refer to the Part Numbers paragraph.
Temperature Coefficient: +140 ±25 ppm/°C at 100kHz.
TC will track and retrace to within ±5 ppm. Capacitance drift
is less than 0.1% or 0.1 pF, whichever is greater.
Voltage Coefficient: Zero.
Losses: Extremely low, and remain relatively low at elevated
temperatures and high frequencies. Dissipation factor is less
than 0.001 at 1kHz and 25°C.
Life: At 2,000 hours at 125°C with 150% of rated voltage
applied, capacitance change is less than 0.5% or 0.5 pF, dis-
sipation factor is less than 0.0015, and insulation resistance
is greater than 500,000 megohms.
Insulation Resistance: Greater than 500,000 megohms at
25°C; greater than 10,000 megohms at 125°C.
Voltage/Temperature Rating: Voltage ratings are shown in
the ordering information table. The operating temperature
range is -55°C to +125°C with no derating required.
Moisture Resistance: Meets or exceeds all requirements of
J-951 and MIL-STD-202, Method 106 for 50 cycles.
Radiation Resistance: The unique materials and construc-
tion techniques involved with glass capacitors make them
ideal for use in radiation environments. After a total dose
of nearly 108rads (H2O) AVX glass capacitors exhibit only a
minor change in capacitance (≤.5%) and an 8% change in
dissipation factor. Furthermore, glass capacitors can operate
in fast neutron flux environments of 1015 N cm-2sec-1 and
experience little or no damage in component parameters.
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.
Case Lead Dia. Weight
Size L W T +0.1(+0.004) (grams)
-0.03(±0.001)
CYFR10 8.74 ± 1.19 4.37 ± .79 1.98 ± .79 .51 .25 - .50
(0.344 ± 0.047) (0.172 ± 0.031) (0.078 ± 0.031) (0.020)
CYFR15 11.91 ± 1.19 6.76 ± .79 2.77 ± 1.19 .51 .75 - 1.25
(0.469 ± 0.047) (0.266 ± 0.031) (0.109 ± 0.047) (0.020)
JCY6E
151JM
AVX
CYFR10
CYFR15
M23269J
02-3042
AVX
DIMENSIONS: millimeters (inches)
Note: Leads are solder-coated Dumet.
L T
W
28.58
(1.125)
Min.
Leads on C
within 0.79
(0.031)
L
Glass Capacitors
CYFR10, 15, 20, 30 (High Reliability)
13
MARKING
CYFR
Style
High Reliability
Glass Capacitor
10
Case Size
10
15
20
30
S
Lead Finish
3 = Solder Coated
Dumet
101
Capacitance Code
Capacitance Code is
expressed in picofarads
(pF). The first two digits
represent significant
figures and the third digit
specifies the number of
zeros to follow; i.e. 101
indicates 100 pF. For
values below 10 pF,
R = decimal point;
i.e. 1R5 indicates 1.5 pF.
J
Capacitance
Tolerance
C = ±.25 pF
D = ±.50 pF
F = ±1%
G = ±2%
J = ±5%
A
Test Level
A = J-950 Specification
No designator = J-951
Specification
HOW TO ORDER
Glass Capacitors
Part Numbers and Ordering Information
0544
101J
AVX
05 = Year
44 = Lot Code
101 = Capacitance,
Coded in pF
J = Tolerance
AVX = AVX Corporation
RATINGS & PART NUMBER REFERENCE (Standard Values)
AVX Capacitance Tolerances DC
Part (pF) Available Working
Number Voltage
CYFR10
CYFR10S0R5_ 0.5 C 500
CYFR10S1R0_ 1.0 C 500
CYFR10S1R5_ 1.5 C 500
CYFR10S2R2_ 2.2 C, D 500
CYFR10S2R7_ 2.7 C 500
CYFR10S3R0_ 3.0 C, D 500
CYFR10S3R3_ 3.3 C 500
CYFR10S3R6_ 3.6 C, D 500
CYFR1053R9_ 3.9 C 500
CYFR10S4R3_ 4.3 C 500
CYFR10S4R7_ 4.7 C 500
CYFR10S5R1_ 5.1 C 500
CYFR10S5R6_ 5.6 C 500
CYFR10S6R2_ 6.2 C, J 500
CYFR10S6R8_ 6.8 C, J 500
CYFR10S7R5_ 7.5 C, J 500
CYFR10S8R2_ 8.2 C, J 500
CYFR10S9R1_ 9.1 C, J 500
CYFR10S100_ 10 C, J 500
CYFR10S110_ 11 C, J 500
CYFR10S120_ 12 C, J 500
CYFR10S130_ 13 G, J 500
CYFR10S150_ 15 G, J 500
CYFR10S160_ 16 G, J 500
CYFR10S180_ 18 G, J 500
CYFR10S200_ 20 G, J 500
CYFR10S220_ 22 G, J 500
CYFR10S240_ 24 G, J 500
CYFR10S270_ 27 F, G, J 500
CYFR10S300_ 30 F, G, J 500
CYFR10S330_ 33 F, G, J 500
CYFR10S360_ 36 F, G, J 500
CYFR10S390_ 39 F, G, J 500
CYFR10S430_ 43 F, G, J 500
CYFR10S470_ 47 F, G, J 500
CYFR10S510_ 51 F, G, J 500
CYFR10S560_ 56 F, G, J 500
CYFR10S620_ 62 F, G, J 500
CYFR10S680_ 68 F, G, J 500
CYFR10S750_ 75 F, G, J 500
CYFR10S820_ 82 F, G, J 500
CYFR10S910_ 91 F, G, J 500
CYFR10S101_ 100 F, G, J 500
CYFR10S111_ 110 F, G, J 500
CYFR10S121_ 120 F, G, J 500
CYFR10S131_ 130 F, G, J 500
CYFR10S151_ 150 F, G, J 500
CYFR10S161_ 160 F, G, J 300
CYFR10S181_ 180 F, G, J 300
CYFR10S201_ 200 F, G, J 300
CYFR10S221_ 220 F, G, J 300
CYFR10S241_ 240 F, G, J 300
Add letter for tolerance code above lines.
Add letter for tolerance code above lines.
AVX Capacitance Tolerances DC
Part (pF) Available Working
Number Voltage
CYFR15
CYFR15S161_ 160 F, G, J 500
CYFR15S181_ 180 F, G, J 500
CYFR15S201_ 200 F, G, J 500
CYFR15S221_ 220 F, G, J 500
CYFR15S241_ 240 F, G, J 500
CYFR15S271_ 270 F, G, J 500
CYFR15S301_ 300 F, G, J 500
CYFR15S331_ 330 F, G, J 500
CYFR15S361_ 360 F, G, J 500
CYFR15S391_ 390 F, G, J 500
CYFR15S431_ 430 F, G, J 500
CYFR15S471_ 470 F, G, J 500
CYFR15S511_ 510 F, G, J 500
CYFR15S561_ 560 F, G, J 300
CYFR15S621 620 F, G, J 300
CYFR15S681_ 680 F, G, J 300
CYFR15S751_ 750 F, G, J 300
CYFR15S821_ 820 F, G, J 300
CYFR15S911_ 910 F, G, J 300
CYFR15S102_ 1000 F, G, J 300
CYFR15S112_ 1100 F, G, J 300
CYFR15S122_ 1200 F, G, J 300
FAILURE RATE LEVELS M AND S
APPLICATIONS
These precision glass dielectric capacitors are QPL to Established
Reliability specification MIL-C-23269. Fused monolithic construc-
tion provides excellent electrical performance, environmental immu-
nity, stability and retraceability. These capacitors have axial leads.
PERFORMANCE CHARACTERISTICS
Temperature Coefficient: +140 ±25 ppm/°C from
-55°C to +125°C. TC of all units will track and retrace to with-
in ±5 ppm.
Life: At rated conditions (100% rated voltage, 125°C),
capacitance change is less than:
±0.5% after 2,000 hours
±2.0% after 30,000 hours
At accelerated conditions (150% rated voltage, 125°C),
capacitance change is less than:
±0.5% after 2,000 hours
±2.0% after 6,000 hours
Insulation Resistance: A minimum of 100,000 megohms at
25°C and 10,000 megohms at 125°C.
Voltage/Temperature Rating: Voltage ratings are shown in
the part number tables. The operating temperature range is
-55°C to +125°C.
Radiation Resistance: The unique materials and construc-
tion techniques involved with glass capacitors make them
ideal for use in radiation environments. After a total dose
of nearly 108rads (H2O) glass capacitors exhibit only a
minor change in capacitance (≤.5%) and an 8% change in
dissipation factor. Furthermore, glass capacitors can operate
in fast neutron flux environments of 1015 N cm-2sec-1 and
experience little or no damage in component parameters.
Voltage Coefficient: Zero.
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.
14
Case Lead Dia.
Size L W T +0.1(+0.004)
-0.03(±0.001)
CYR10 8.74 ± 1.19 4.37 ± .79 1.98 ± .79 .51
(0.344 ± 0.047) (0.172 ± 0.031) (0.078 ± 0.031) (0.020)
CYR15 11.91 ± 1.19 6.76 ± .79 2.77 ± 1.19 .51
(0.469 ± 0.047) (0.266 ± 0.031) (0.109 ± 0.047) (0.020)
JCY6E
151JM
AVX
CYR10
CYR15
M23269J
02-3042
AVX
DIMENSIONS: millimeters (inches)
Note: Standard leads are solder-coated Dumet.
L T
W
28.58
(1.125)
Min.
Glass Capacitors
CYR10, 15 (Established Reliability)
M23269/01, 02, 03, 04 (QPL to MIL-C-23269)
15
Cap. Value Part Number*
(pF) Capacitance Tolerance
CYR10 M23269/01- (cont’d.)
500 Volts** ±1% ±2% ±5%
68 *079 *080 *081
75 082 083 084
82 085 086 087
91 088 089 090
100 091 092 093
110 094 095 096
120 097 098 099
130 100 101 102
150 103 104 105
160 106 107 108
180 109 110 111
200 112 113 114
300 Volts** ±1% ±2% ±5%
220 115 116 117
240 118 119 120
270 121 122 123
300 124 125 126
CYR15 M23269/02-
500 Volts** ±1% ±2% ±5%
220 *001 *002 *003
240 004 005 006
270 007 008 009
300 010 011 012
330 013 014 015
360 016 017 018
390 019 020 021
430 022 023 024
470 025 026 027
510 028 029 030
300 Volts** ±1% ±2% ±5%
560 031 032 033
620 034 035 036
680 037 038 039
750 040 041 042
820 043 044 045
910 046 047 048
1,000 049 050 051
1,100 052 053 054
1,200 055 056 057
RATINGS & PART NUMBER REFERENCE
MARKING
M23269
Style
Military Specification
Established Reliability
Glass Capacitor
01
Case Size
01 = CYR10
02 = CYR15
3
Failure Rate
3 = M level 1%/1000 hrs.
7 = S level .001%/1000 hrs.
(100 volt rating only)
001
Capacitance Code
Capacitance value
coded in accordance
with MIL-C-23269 –
(see Part Number section)
HOW TO ORDER
M23269J
02-3057
AVX 05 B
M23269 = Military specification
established reliability
glass capacitor
J = JAN Trademark
02 = Case size (CYR15)
3 = Failure rate (M level)
057 = Dash Number –
(capacitance in pF and
capacitance tolerance)
AVX = AVX Corporation
05 = Year
B = Lot Code
Cap. Value Part Number*
(pF) Capacitance Tolerance
CYR10 M23269/01-
500 Volts** ±.25pF ±.5pF ±5%
.5 *001
––
1.0 002
––
1.5 003
––
2.2 004 *005
–
2.7 006
––
3.0 007 008
–
3.3 009
––
3.6 010 011
–
3.9 012
––
4.3 013 014
–
4.7 015
––
5.1 016
––
5.6 017
–
*018
6.2 019
–
020
6.8 021
–
022
7.5 023
–
024
8.2 025
–
026
9.1 027
–
028
10 029
–
030
11 031
–
032
12 033
–
034
±1% ±2% ±5%
13
–
*035 *036
15
–
037 038
16
–
039 040
18
–
041 042
20
–
043 044
22
–
045 046
24
–
047 048
27 *049 050 051
30 052 053 054
33 055 056 057
36 058 059 060
39 061 062 063
43 064 065 066
47 067 068 069
51 070 071 072
56 073 074 075
62 076 077 078
CYR15
CYR10
Glass Capacitors
Part Numbers and Ordering Information
JCY5A
0R5JM
AVX
0R5 = Capacitance code –
0R5 = 0.5pF
J = Capacitance tolerance –
J = ±5%, G = ±2%, F = ±1%
M = Failure level
AVX = AVX Corporation
J = JAN Trademark
C = Capacitor
Y = Glass Dielectric
5 = Last digit of year
A = 4 week lot code
* Add first digit to indicate failure rate.
** S LEVEL = 100V rating for all values.
* Add first digit to indicate failure rate.
** S LEVEL = 100V rating for all values.
/—
16
Glass Capacitors
CYR51, 52, 53 (Established Reliability)
M23269/10 (QPL to MIL-C-23269)
FAILURE RATE LEVEL M
APPLICATIONS
These precision glass dielectric capacitors are QPL to
Established Reliability specification MIL-C-23269. Fused
monolithic construction provides excellent electrical perform-
ance, environmental immunity, stability and retraceability.
These capacitors have radial leads.
PERFORMANCE CHARACTERISTICS
Temperature Coefficient: +140 ±25 ppm/°C from -55°C to
+125°C. TC of all units will track and retrace to within ±5 ppm.
Life: At rated conditions (100% rated voltage, 125°C),
capacitance change is less than:
±0.5% after 2,000 hours
±2.0% after 30,000 hours
At accelerated conditions (150% rated voltage, 125°C),
capacitance change is less than:
±0.5% after 2,000 hours
±2.0% after 6,000 hours
Insulation Resistance: A minimum of 100,000 megohms
at 25°C and 10,000 megohms at 125°C.
Voltage/Temperature Rating: Voltage ratings are shown
in the part number tables. The operating temperature range
is -55°C to +125°C.
Voltage Coefficient: Zero
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.
DIMENSIONS: millimeters (inches)
Case LWTS
Lead Dia.
Size ±0.13 ±0.25 ±0.13 ±0.51 ±0.051
(±0.005) (±0.010) (±0.005) (±0.020) (±0.002)
CYR51 7.62 5.08 2.92 5.08 .51
(0.300) (0.200) (0.115) (0.200) (0.020)
CYR52 7.62 7.62 2.92 5.08 .51
(0.300) (0.300) (0.115) (0.200) (0.020)
CYR53 12.70 7.62 2.92 10.16 .51
(0.500) (0.300) (0.115) (0.400) (0.020)
Note: Leads are solderable and weldable gold-plated Dumet,
per MIL-STD-1276, Type D.
M23269J
10-3126
AVX
CYR51 CYR52 CYR53
M23269J
10-3214
AVX
M23269J
10-3327
AVX
L
S
T
W
31.75
(1.250)
Min.
17
Cap. Value Part Number
(pF) Capacitance Tolerance
CYR51 M23269/10- (cont’d)
300 Volts ±1% ±2% ±5%
27 3052 3053 3054
30 3055 3056 3057
33 3058 3059 3060
36 3061 3062 3063
39 3064 3065 3066
43 3067 3068 3069
47 3070 3071 3072
51 3073 3074 3075
56 3076 3077 3078
62 3079 3080 3081
68 3082 3083 3084
75 3085 3086 3087
82 3088 3089 3090
91 3091 3092 3093
100 3094 3095 3096
110 3097 3098 3099
120 3100 3101 3102
130 3103 3104 3105
150 3106 3107 3108
160 3109 3110 3111
180 3112 3113 3114
200 3115 3116 3117
220 3118 3119 3120
240 3121 3122 3123
270 3124 3125 3126
300 3127 3128 3129
330 3130 3131 3132
360 3133 3134 3135
390 3136 3137 3138
430 3139 3140 3141
470 3142 3143 3144
510 3145 3146 3147
560 3148 3149 3150
RATINGS & PART NUMBER REFERENCE
MARKING CROSS REFERENCE
M23269
Style
Military Specification
Established Reliability
Glass Capacitor
10
Case Size
Slash sheet
CYR51
CYR52
CYR53
3
Failure Rate
3 = M level, 1%/1000 hrs.
001
Capacitance Code
Capacitance value
coded in accordance
with MIL-C-23269 –
(see Part Number section)
HOW TO ORDER
M23269J
10-3001
AVX 05 B
M23269 = Military specification established
reliability glass capacitor
J = JAN Trademark
10 = Slash sheet for case sizes –
CYR51, CYR52, CYR53
3 = Failure rate (M level)
001 = Capacitance value coded in
accordance with MIL-C-23269
AVX = AVX Corporation
05 = Year
B = Lot Code
Cap. Value Part Number
(pF) Capacitance Tolerance
CYR51 M23269/10-
300 Volts ±.25pF ±2% ±5%
1 3001 — —
1.5 3002 — —
2.2 3003 — —
2.7 3004 — —
3.0 3005 — —
3.3 3006 — —
3.6 3007 — —
3.9 3008 — —
4.3 3009 — —
4.7 3010 — —
5.1 3011 — 3012
5.6 3013 — 3014
6.2 3015 — 3016
6.8 3017 — 3018
7.5 3019 — 3020
8.2 3021 — 3022
9.1 3023 — 3024
10 3025 — 3026
11 3027 — 3028
12 3029 — 3030
13 3031 3032 3033
15 3034 3035 3036
16 3037 3038 3039
18 3040 3041 3042
20 3043 3044 3045
22 3046 3047 3048
24 3049 3050 3051
*Add first digit to indicate failure rate.
Glass Capacitors
Part Numbers and Ordering Information
Cap. Value Part Number
(pF) Capacitance Tolerance
CYR52 M23269/10-
300 Volts ±1% ±2% ±5%
620 3201 3202 3203
680 3204 3205 3206
750 3207 3208 3209
820 3210 3211 3212
910 3213 3214 3215
1,000 3216 3217 3218
CYR53 M23269/10-
1,100 3301 3302 3303
1,200 3304 3305 3306
1,300 3307 3308 3309
1,500 3310 3311 3312
1,600 3313 3314 3315
1,800 3316 3317 3318
2,000 3319 3320 3321
2,200 3322 3323 3324
2,400 3325 3326 3327
*Add first digit to indicate failure rate.
*Add first digit to indicate failure rate.
CYR51, 52, 53 MIL-C-23269 MIL-C-11272
Style Style
CYR10 CY10
CYR15 CY15
CYR20 CY20
CYR30 CY30
CYR51 CY06
CYR52 CY07
CYR53 CY08
/—
18
Glass/ET Series Caps
Elevated Temperature
HEAT
It’s the enemy of reliable, long-term cir-
cuit performance. In many applica-
tions, very high temperatures are not a
consideration in circuit design. But in a
few specialized areas, elevated tem-
peratures create very real design prob-
lems.
That’s why AVX ET-Series capacitors
keep working at temperatures where
more ordinary capacitors usually
fail...up to 200°C.
And, of course, AVX ET-Series capac-
itors provide all the high performance,
STANDARD OPERATING CHARACTERISTICS OF AVX ET-SERIES
AXIAL AND RADIAL LEADED GLASS CAPACITORS
Working Temperature Range
high reliability characteristics you’ve
come to expect from all AVX glass
capacitors...excellent stability, out-
standing capacitance retraceability,
rugged, simple construction to elimi-
nate mechanical problems, and electri-
cal performance specifications among
the best available at any price.
So when the heat’s on your next
design and you can’t alter the environ-
ment, choose AVX ET-Series glass
capacitors. That’ll be one less problem
you’ll have to solve.
FEATURES
• Available in both axial and radial
leaded configurations
• Values from 0.5 pF to 2400 pF
• Working temperature range -75°C
to 200°C
• “Burned In” versions available – 50
hours @ 1500 VDC, 25°C
• Simple, rugged design and con-
struction
• Short lead times for most values
Working Temperature Range -75°C to 200°C
Voltage Rating 50 VDC
Capacitance Range 0.5 pF to 2400 pF
Insulation Resistance @ 25°C > 100,000 Megohms
@ 200°C > 100 Megohms
Dissipation Factor @ 25°C < .1% at 1kHz
@ 200°C < 1% at 1kHz
Life (1000 hours at rated voltage at 200°C)
Post Test Delta C @ 25°C < 2%
DF @ 25°C < 2.5%
IR > 100 Megohms (axials)
IR > 10 Megohms (radials)
Short Time (1 Hour) Exposure to
Overtemperature (250°C) No degradation
Voltage Coefficient 0
TYPICAL APPLICATIONS
In general, AVX ET-Series glass
capacitors are ideally suited for any
environment where high temperature
could alter or destroy circuit perform-
ance. And since they are rated down
to -75°C, ET-Series capacitors are
also useful where cycling to colder
temperatures may be a problem.
Some applications where AVX
ET-Series capacitors have already
proven themselves include:
• Oil, well logging and downhole
instrumentation, where frictional or
geothermal heat is a problem.
• Geophysical pressure probes.
• Missile or aerospace applications
where engine or environmental heat
needs to be monitored or may
cause circuit failure.
• Radar or other microwave applica-
tions.
• RF output circuitry where conduc-
tion or fan cooling cannot be entire-
ly relied upon to remove all of the
heat.
• Space and satellite applications
where temperature changes are
extreme and “zero failures” are a
must.
• Industrial chemical process instru-
mentation where heat is a part of the
process.
• Instrumentation for monitoring at-
the-tool performance in metal
cutting machinery.
• Fire-safe alarm or control circuitry.
19
Glass/ET Series Caps
Performance Curves
% Capacitance Change
+4
+2
0
-2
-4
1kHz 10kHz 100kHz 1MHz
Frequency
% Capacitance Change vs. Frequency
Radial and Axial
Dissipation Factor
Frequency in Hz
10-1
10K 100K 1M 10M 100M
10-2
10-3
Quality Factor
Quality Factor
Dissipation Factor
10'
10'
10'
Quality Factor and Dissipation Factor vs. Frequency
Radial
Dissipation Factor
Frequency in Hz
10K 100K 1M 10M 100M
10-2
10-1
10-3
Quality Factor
Dissipation Factor
10'
10'
10'
Quality Factor
Quality Factor and Dissipation Factor vs. Frequency
Axial
Frequency – mHz
Capacitance – pF
1,000
100
10
10 100 1,000 10,000
Self Resonance
0.5 Total
1.0 lead
1.5 length
2.0 (inches)
0.0
Resonant Frequency vs. Capacitance
Radial
Frequency – mHz
Capacitance – pF
1,000
100
10
10 100 1,000 10,000
1.0 Total
1.5 lead
2.0 length
2.5 (inches)
0.5
Resonant Frequency vs. Capacitance
Axial
20
Glass/ET Series Caps
Axial Lead Elevated Temperature
INTRODUCTION
AVX ET-Series axial leaded glass capacitors* are available in
two standard case sizes and in a wide range of values and
tolerances. All feature extremely stable glass dielectric, fused
monolithic construction and true glass-to-metal hermetic
seals at the leads for moisture resistance. All case sizes con-
form to industry dimensional standards.
PERFORMANCE CHARACTERISTICS
Tolerance: Available tolerances for each capacitance value
are shown in the ordering information table on following page.
Part marking codes are also provided.
Temperature Coefficient: Capacitance exhibits retraceabili-
ty to within 10 ppm/°C over the temperature range -75°C to
+200°C. See graph on following page.
Voltage Coefficient: Zero
Losses: Extremely low over the entire specified operating
temperature range. Dissipation factor is 1% or less at 200°C
at 1kHz.
Life: Delta C is less than 2% after 1000 hours at rated volt-
age, 200°C.
Insulation Resistance: Greater than 100,000 megohms at
25°C; greater than 100 megohms at 200°C. More than 100
megohms after life-testing.
Voltage/Temperature Rating: All ET-Series capacitors are
rated at 50 VDC over their operating temperature range of
-75°C to 200°C. No derating is required.
High Voltage Stabilization Screening: A special version
of ET-Series axial leaded capacitors – designated ETR – is
available. These capacitors have been “burned in” at room
temperature for 50 hours at 1500 VDC.
Short Time Overtemperature Exposure: After exposure
to 250°C for one hour, ET-Series capacitors have continued
to perform to specification.
Moisture Resistance: Axial glass capacitors are hermeti-
cally sealed in glass, with a true metal-to-glass seal at the
leads. This construction provides practical immunity to envi-
ronmental effects such as shock, moisture, salt spray and
solder heat.
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.
DIMENSIONS: millimeters (inches)
Case Lead Dia.
Size LWT
+0.1 (+0.004) Weight
-0.03 (-0.001) (grams)
ET10 8.74 ± 1.19 4.37 ± 0.79 1.98 ± 0.79 5.08 .25 - .50
(0.344 ± 0.047) (0.172 ± 0.031) (0.078 ± 0.031) (0.200)
ET15 11.91 ± 1.19 6.76 ± 0.79 2.77 ± 1.19 5.08 .75 - 1.25
(0.469 ± 0.047) (0.266 ± 0.031) (0.109 ± 0.047) (0.200)
Note: Standard leads are solder-coated Dumet.
*Radiation Resistance to the same level as the
CY, CYR axial series.
ET10E
100
AVX
L T
W
28.58
(1.125)
Min.
Leads on C
within 0.79
(0.031)
L
MARKING
Back
Front
ET 10E
101J
AVX
0505
101 = Capacitance, Coded in pF
J = Tolerance
AVX = AVX Corporation
0505 = Date Code
ET = Glass Capacitor
ETR = Glass Capacitor with “burn in”
10 = Case Size
E = Operating Temperature Range
ET15E
511J
AVX
ET10
ET15
Temperature – ºC
50
.001
.0001
.01
100 150 200 250
1 kHz Dissipation Factor
Temperature – ºC
C in %
5025 75 100 125 150 175 2000
+4
+2
-2
-4
0
21
Glass/ET Series Caps
Part Numbers and Ordering Information
RATINGS & PART NUMBER REFERENCE (Standard Values)
ET ETR Cap Tolerances DC
Part No. Part No. (pF) Available Working
Voltage
ET10, ETR10
ET10E0R5 * ETR10E0R5 ** 0.5 C 50
ET10E1R0 ETR10E1R0 1.0 C, D 50
ET10E1R5 ETR10E1R5 1.5 C, D 50
ET10E2R2 ETR10E2R2 2.2 C, D 50
ET10E2R7 ETR10E2R7 2.7 C, D 50
ET10E3R0 ETR10E3R0 3.0 C, D 50
ET10E3R3 ETR10E3R3 3.3 C, D 50
ET10E3R6 ETR10E3R6 3.6 C, D 50
ET10E3R9 ETR10E3R9 3.9 C, D 50
ET10E4R3 ETR10E4R3 4.3 C, D 50
ET10E4R7 ETR10E4R7 4.7 C, K 50
ET10E5R1 ETR10E5R1 5.1 C, J, K 50
ET10E5R6 ETR10E5R6 5.6 C, J, K 50
ET10E6R2 ETR10E6R2 6.2 C, J, K 50
ET10E6R8 ETR10E6R8 6.8 C, J, K 50
ET10E7R5 ETR10E7R5 7.5 C, J, K 50
ET10E8R2 ETR10E8R2 8.2 C, J, K 50
ET10E9R1 ETR10E9R1 9.1 C, J, K 50
ET10E100 ETR10E100 10 C, J, K, M 50
ET10E110 ETR10E110 11 C, J, K, M 50
ET10E120 ETR10E120 12 C, J, K, M 50
ET10E130 ETR10E130 13 C, G, J, K, M 50
ET10E150 ETR10E150 15 C, G, J, K, M 50
ET10E160 ETR10E160 16 C, G, J, K, M 50
ET10E180 ETR10E180 18 C, G, J, K, M 50
ET10E200 ETR10E200 20 C, G, J, K, M 50
ET10E220 ETR10E220 22 C, G, J, K, M 50
ET10E240 ETR10E240 24 C, G, J, K, M 50
ET10E270 ETR10E270 27 F, G, J, K, M 50
ET10E300 ETR10E300 30 F, G, J, K, M 50
ET10E330 ETR10E330 33 F, G, J, K, M 50
ET10E360 ETR10E360 36 F, G, J, K, M 50
ET10E390 ETR10E390 39 F, G, J, K, M 50
ET10E430 ETR10E430 43 F, G, J, K, M 50
ET10E470 ETR10E470 47 F, G, J, K, M 50
ET10E510 ETR10E510 51 F, G, J, K, M 50
ET10E560 ETR10E560 56 F, G, J, K, M 50
ET10E620 ETR10E620 62 F, G, J, K, M 50
ET10E680 ETR10E680 68 F, G, J, K, M 50
ET10E750 ETR10E750 75 F, G, J, K, M 50
Add letter for
tolerance code
above lines.
These capacitors include a “burn in”, see page 20
High Voltage Stablization Screening.
Add letter for
tolerance code
above lines.
These capacitors include a “burn in”, see page 20
High Voltage Stablization Screening.
ET ETR Cap Tolerances DC
Part No. Part No. (pF) Available Working
Voltage
ET10, ETR10 (cont’d)
ET10E820 ETR10E820 82 F, G, J, K, M 50
ET10E910 ETR10E910 91 F, G, J, K, M 50
ET10E101 ETR10E101 100 F, G, J, K, M 50
ET10E111 ETR10E111 110 F, G, J, K, M 50
ET10E121 ETR10E121 120 F, G, J, K, M 50
ET10E131 ETR10E131 130 F, G, J, K, M 50
ET10E151 ETR10E151 150 F, G, J, K, M 50
ET10E161 ETR10E161 160 F, G, J, K, M 50
ET10E181 ETR10E181 180 F, G, J, K, M 50
ET10E201 ETR10E201 200 F, G, J, K, M 50
ET10E221 ETR10E221 220 F, G, J, K, M 50
ET10E241 ETR10E241 240 F, G, J, K, M 50
ET10E271 ETR10E271 270 F, G, J, K, M 50
ET10E301 ETR10E301 300 F, G, J, K, M 50
ET15, ETR15
ET15E221 ETR15E221 220 F, G, J, K, M 50
ET15E241 ETR15E241 240 F, G, J, K, M 50
ET15E271 ETR15E271 270 F, G, J, K, M 50
ET15E301 ETR15E301 300 F, G, J, K, M 50
ET15E331 ETR15E331 330 F, G, J, K, M 50
ET15E361 ETR15E361 360 F, G, J, K, M 50
ET15E391 ETR15E391 390 F, G, J, K, M 50
ET15E431 ETR15E431 430 F, G, J, K, M 50
ET15E471 ETR15E471 470 F, G, J, K, M 50
ET15E511 ETR15E511 510 F, G, J, K, M 50
ET15E561 ETR15E561 560 F, G, J, K, M 50
ET15E621 ETR15E621 620 F, G, J, K, M 50
ET15E681 ETR15E681 680 F, G, J, K, M 50
ET15E751 ETR15E751 750 F, G, J, K, M 50
ET15E821 ETR15E821 820 F, G, J, K, M 50
ET15E911 ETR15E911 910 F, G, J, K, M 50
ET15E102 ETR15E102 1000 F, G, J, K, M 50
ET15E112 ETR15E112 1100 F, G, J, K, M 50
ET15E122 ETR15E122 1200 F, G, J, K, M 50
ET
Style
Glass Capacitor
10
Case Size
10
15
E
Operating
Temperature Range
-75°C to +200°C
101
Capacitance Code
Capacitance Code is expressed in
picofarads (pF). The first two digits
represent significant figures and the
third digit specifies the number of
zeros to follow; i.e. 101 indicates 100
pF. For values below 10 pF, R = dec-
imal point; i.e. 1R5 indicates 1.5 pF.
J
Capacitance Tolerance
C = ±.25 pF
D = ±.50 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
HOW TO ORDER
Dissipation
Factor vs.
Temperature
Axial
% Capacitance
Change vs.
Temperature
Axial
22
Glass/ET Series Caps
Radial Lead Elevated Temperature
INTRODUCTION
AVX ET-Series radial leaded glass capacitors are available in
a broad range of tolerances and values in three case sizes.
The fused monolithic capacitive element is housed in a
miniature rectangular molded case for high packaging effi-
ciency in circuit board applications. The gold-plated Dumet
leads can be soldered or welded.
PERFORMANCE CHARACTERISTICS
Tolerance: The ordering information table on the opposite
page gives the available tolerances and values. An explanation
of the part marking code is also provided.
Temperature Coefficient: Capacitance exhibits retraceabili-
ty to within 10 ppm/°C over the temperature range -75°C to
200°C. See graph on following page.
Voltage Coefficient: Zero
Losses: Over the specified temperature range, losses are
very low. At 200°C, 1kHz, the dissipation factor is 1% or less.
Life: Delta C is less than 2% after 1000 hours at rated volt-
age, 200°C.
Insulation Resistance: 100,000 megohms or greater at
25°C; 100 megohms or greater at 200°C. More than 10
megohms after 1000 hour life-test.
Voltage/Temperature Rating: All ET-Series capacitors are
rated at 50 VDC over the operating temperature range of
-75°C to 200°C. Derating is not required.
High Voltage Stabilization Screening: A special version
of ET-Series radial leaded capacitors – designated ETR – is
available. These capacitors have been “burned in” at room
temperature for 50 hours at 1500 VDC.
Short Time Overtemperature Exposure: After exposure
to 250°C for one hour, ET-Series capacitors have continued
to perform to specification.
Additional performance details are given in the AVX
“Performance Characteristics of Multilayer Glass Dielectric
Capacitors” technical paper.
DIMENSIONS: millimeters (inches)
Case LWTS
Size ±0.13 ±0.25 ±0.13 +0.51 Weight
(±0.005) (±0.010) (±0.005) (±0.020) (grams)
ET06 7.62 (0.300) 5.08 (0.200) 2.92 (0.115) 5.08 (0.200) .3 - .4
ET07 7.62 (0.300) 7.62 (0.300) 2.92 (0.115) 5.08 (0.200) .4 - .5
ET08 12.7 (0.500) 7.62 (0.300) 2.92 (0.115) 10.16 (0.400) .7 - .8
Note: All leads are 24 AWG, 0.51± 0.05 (0.020±0.002) diameter.
Leads are solderable and welded gold-plated Dumet.
ET06E
101J
AVX
ET07E
621J
AVX
ET08E
202J
AVX
L
W
S
T
1.27 ±0.51
(.050 ±.020)
Leads on centerline
within ±0.51 (±.020)
31.75
(1.250)
Min.
MARKING
ET 06E
561J
9725
AVX
AVX = AVX Corporation
ET = Glass Capacitor
ETR = Glass Capacitor with “burn in”
06 = Case Size
E = Operating Temperature Range
561 = Capacitance, Coded in pF
J = Tolerance
0525 = Date Code
ET06 ET07 ET08
Glass/ET Series Caps
Part Numbers and Ordering Information
RATINGS & PART NUMBER REFERENCE (Standard Values)
ET ETR Cap Tolerances DC
Part No. Part No. (pF) Available Working
Voltage
ET06, ETR06
ET06E1R0 * ETR06E1R0 ** 1.0 C, D 50
ET06E1R5 ETR06E1R5 1.5 C, D 50
ET06E2R2 ETR06E2R2 2.2 C, D 50
ET06E2R7 ETR06E2R7 2.7 C, D 50
ET06E3R0 ETR06E3R0 3.0 C, D 50
ET06E3R3 ETR06E3R3 3.3 C, D 50
ET06E3R6 ETR06E3R6 3.6 C, D 50
ET06E3R9 ETR06E3R9 3.9 C, D 50
ET06E4R3 ETR06E4R3 4.3 C, D 50
ET06E4R7 ETR06E4R7 4.7 C, K 50
ET06E5R1 ETR06E5R1 5.1 C, J, K 50
ET06E5R6 ETR06E5R6 5.6 C, J, K 50
ET06E6R2 ETR06E6R2 6.2 C, J, K 50
ET06E6R8 ETR06E6R8 6.8 C, J, K 50
ET06E7R5 ETR06E7R5 7.5 C, J, K 50
ET06E8R2 ETR06E8R2 8.2 C, J, K 50
ET06E9R1 ETR06E9R1 9.1 C, J, K 50
ET06E100 ETR06E100 10 C, J, K, M 50
ET06E110 ETR06E110 11 C, J, K, M 50
ET06E120 ETR06E120 12 C, J, K, M 50
ET06E130 ETR06E130 13 C, G, J, K, M 50
ET06E150 ETR06E150 15 C, G, J, K, M 50
ET06E160 ETR06E160 16 C, G, J, K, M 50
ET06E180 ETR06E180 18 C, G, J, K, M 50
ET06E200 ETR06E200 20 C, G, J, K, M 50
ET06E220 ETR06E220 22 C, G, J, K, M 50
ET06E240 ETR06E240 24 C, G, J, K, M 50
ET06E270 ETR06E270 27 F, G, J, K, M 50
ET06E300 ETR06E300 30 F, G, J, K, M 50
ET06E330 ETR06E330 33 F, G, J, K, M 50
ET06E360 ETR06E360 36 F, G, J, K, M 50
ET06E390 ETR06E390 39 F, G, J, K, M 50
ET06E430 ETR06E430 43 F, G, J, K, M 50
ET06E470 ETR06E470 47 F, G, J, K, M 50
ET06E510 ETR06E510 51 F, G, J, K, M 50
ET06E560 ETR06E560 56 F, G, J, K, M 50
ET06E620 ETR06E620 62 F, G, J, K, M 50
ET06E680 ETR06E680 68 F, G, J, K, M 50
ET06E750 ETR06E750 75 F, G, J, K, M 50
ET06E820 ETR06E820 82 F, G, J, K, M 50
Add letter for
tolerance code
above lines.
These capacitors include a “burn in”, see page 22
High Voltage Stablization Screening.
Add letter for
tolerance code
above lines.
These capacitors include a “burn in”, see page 22
High Voltage Stablization Screening.
ET ETR Cap Tolerances DC
Part No. Part No. (pF) Available Working
Voltage
ET06, ETR06 (cont’d)
ET06E910 ETR06E910 91 F, G, J, K, M 50
ET06E101 ETR06E101 100 F, G, J, K, M 50
ET06E111 ETR06E111 110 F, G, J, K, M 50
ET06E121 ETR06E121 120 F, G, J, K, M 50
ET06E131 ETR06E131 130 F, G, J, K, M 50
ET06E151 ETR06E151 150 F, G, J, K, M 50
ET06E161 ETR06E161 160 F, G, J, K, M 50
ET06E181 ETR06E181 180 F, G, J, K, M 50
ET06E201 ETR06E201 200 F, G, J, K, M 50
ET06E221 ETR06E221 220 F, G, J, K, M 50
ET06E241 ETR06E241 240 F, G, J, K, M 50
ET06E271 ETR06E271 270 F, G, J, K, M 50
ET06E301 ETR06E301 300 F, G, J, K, M 50
ET06E331 ETR06E331 330 F, G, J, K, M 50
ET06E361 ETR06E361 360 F, G, J, K, M 50
ET06E391 ETR06E391 390 F, G, J, K, M 50
ET06E431 ETR06E431 430 F, G, J, K, M 50
ET06E471 ETR06E471 470 F, G, J, K, M 50
ET06E511 ETR06E511 510 F, G, J, K, M 50
ET06E561 ETR06E561 560 F, G, J, K, M 50
ET07, ETR07
ET07E621 * ETR07E621 ** 620 F, G, J, K, M 50
ET07E681 ETR07E681 680 F, G, J, K, M 50
ET07E751 ETR07E751 750 F, G, J, K, M 50
ET07E821 ETR07E821 820 F, G, J, K, M 50
ET07E911 ETR07E911 910 F, G, J, K, M 50
ET07E102 ETR07E102 1000 F, G, J, K, M 50
ET08, ETR08
ET08E112 * ETR08E112 ** 1100 F, G, J, K, M 50
ET08E122 ETR08E122 1200 F, G, J, K, M 50
ET08E132 ETR08E132 1300 F, G, J, K, M 50
ET08E152 ETR08E152 1500 F, G, J, K, M 50
ET08E162 ETR08E162 1600 F, G, J, K, M 50
ET08E182 ETR08E182 1800 F, G, J, K, M 50
ET08E202 ETR08E202 2000 F, G, J, K, M 50
ET08E222 ETR08E222 2200 F, G, J, K, M 50
ET08E242 ETR08E242 2400 F, G, J, K, M 50
ET
Style
Glass Capacitor
06
Case Size
06
07
08
E
Operating
Temperature Range
-75°C to +200°C
561
Capacitance Code
Capacitance Code is expressed
in picofarads (pF). The first two
digits represent significant figures
and the third digit specifies the
number of zeros to follow; i.e.
561 indicates 560 pF. For values
below 10 pF, R = decimal point;
i.e. 1R5 indicates 1.5 pF.
J
Capacitance Tolerance
C = ±.25 pF
D = ±.50 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
HOW TO ORDER
23
Temperature – ºC
50
.001
.0001
.01
100 150 200 250
1 kHz Dissipation Factor
Temperature – ºC
C in %
5025 75 100 125 150 175 2000
+4
+2
-2
-4
0
Dissipation
Factor vs.
Temperature
Radial
% Capacitance
Change vs.
Temperature
Radial
24
Glass-K Capacitors
Introduction
INTRODUCTION
The Glass-K capacitor is a miniature stable device that
exibits a high capacitance-to-volume ratio. It offers the size
advantages of ceramic capacitors and the consistent per-
formance associated with glass dielectrics made possible by
development of a proprietary dielectric material.
Glass-K capacitors’ physical size and value range meet the
requirements of both military and commercial applications.
The larger capacitance values are ideally suited for point-of-
use filtering in military combat hardened computers, while
the smaller capacitors are typically utilized in low loss, high
speed circuitry. Applications such as jet engine monitoring
circuitry, military instrumentation, and elevated temperature
burn-in ovens are typical Glass-K applications.
RELIABILITY
AVX Glass-K capacitors are qualified to MIL-C-11015/25 and
MIL-C-39014/21, failure rate level M.
The reasons for the miniature size, high electrical performance,
and high reliability of Glass-K capacitors are as follows:
• Superior Dielectric – The Glass-K capacitors’ dielectric is
formed by ceraming a specially prepared glass.
• Proven Construction Techniques – AVX utilizes a stable,
closely controlled process to construct Glass-K capacitors.
Additionally, tight incoming material QC requirements add to
the consistent performance of the product.
• Quality Assurance – Each lot of Glass-K capacitors is
required to meet rigorous visual inspection criteria.
Production inspection includes 100% testing for capaci-
tance, dissipation factor, insulation resistance, and dielectric
strength.
General performance guidelines are as follows:
Construction – The following materials are utilized in Glass-K
capacitors: Glass-K dielectric, gold electrodes, silver termina-
tion, lead attach solder, lead wire, and silicone encapsulant.
Tight requirements are placed upon all incoming materials.
Performance – The following Glass-K capacitors are
described in this catalog:
Product style Qualified to MIL-C-11015/25,
CK31, CK32 standard military specification and
used in industrial applications.
Product style Qualified to MIL-C-39014/21,
CKR31, CKR32 established reliability specification and
also used in high reliability commercial
applications.
Product style Qualified to AVX elevated temperature
ET31, ET32 internal specification, used primarily for
high temperature circuitry up to
+200°C.
Capacitance Change vs. Temperature – The change in
capacitance over temperatures from -55°C to +125°C is as
follows:
BT Dielectric: +2%, -10%
BU Dielectric: +2%, -15%
BV Dielectric: +20%, -45%
See Graphs 1 and 2 for further details.
Capacitance Change vs. Voltage – The change in capaci-
tance over operating temperatures from -55°C to +125°C with
rated voltage is as follows:
BT Dielectric: +2%, -10%
BU Dielectric: +2%, -15%
BV Dielectric: +20%, -50%
See Graphs 3 and 4 for further details.
Losses vs. Temperature – The maximum dissipation factor
for CK and CKR series at 25°C:
BT Dielectric ≤1.0%
BU Dielectric ≤1.5%
BV Dielectric ≤3.0%
See Graph 5 for further details.
Insulation Resistance – CKR series – at 25°C, 100,000
megohms or 1000 megohm-microfarads. At 125°C, 10,000
megohms or 100 megohm-microfarads.
CK series – at 25°C, 100,000 megohms or 1000 megohm-
microfarads, whichever is less.
ET Series – 200°C Insulation Resistance is as follows:
K250 Dielectric: 1 x 108
K380 Dielectric: 1 x 109
K888 Dielectric: 1 x 109
Resonant Frequency vs. Capacitance – Resonant
Frequency vs. Capacitance as shown in Figure 6; Impedance
vs. Frequency as shown in Figure 7.
Temperature Range – The operating temperature range for
all Glass-K CK, CKR capacitors is -55°C to +125°C. The
Elevated Temperature (ET) series operating temperature range
is -75°C to +200°C with no voltage derating required.
Life – CKR Life: Meets or exceeds requirements of MIL-C-
39014. At 200% of rated voltage, 125°C, at 4000 hours, the
capacitance change for each stability characteristic is as
follows:
BT: ±2%
BU: ±10%
BV: ±20%
CK Life: Meets or exceeds requirements of MIL-C-11015.
At 200% of rated voltage, 125ºC, the maximum capacitance
change for each stability characteristic is as follows:
BT: ±2%
BU: ±5%
BV: ±20%
ET Life: Meets or exceeds requirements of internal AVX ET
specification for 250 hour life performance at 200°C.
Packaging –
Bulk – 25 pieces strip
125 pieces compartment
Taped – N/A
25
Glass-K Capacitors
Performance Curves
Capacitance change – percent
Temperature – ºC
Char. V
Char. T Char. T
Char. U Char. U
10
0
-10
-20
-30
-40
5
0
-5
-10
-15
-20
-50 -25 0 10 25 50 75 85 100 125
GRAPH 1
GRAPH 2
% Capacitance Change vs. Temperature
Capacitance change – percent
Applied rms. voltage at 1kHz
Char. V
Char. U
Char. T
-20
-10
0
51015202530
GRAPH 3
% Capacitance Change vs. ac Voltage
Capacitance change – percent
Applied dc voltage
Measurements taken at 1 kHz
with 2 Vac rms.
Char. V
Char. T & U
+5
0
-5
-10
0102030405060
GRAPH 4
% Capacitance Change vs. dc Voltage
Dissipation Factor – %
Temperature – ºC
Char. V
Char. U
Char. T
10
8
6
4
2
0
-50 -25 0 25 50 75 100 125
GRAPH 5
Dissipation Factor vs. Temperature
Frequency – MHz
Capacitance – pF
Total Lead Length = .125 inch
100
10
1,000 10,000 100,000
GRAPH 6
Resonant Frequency vs. Capacitance
Measurement
Equipment Limit
Total Combined
Lead Length
20 inches
100
10
1
0.1
0.1 110 100 1000
Impedance – Ohms
Frequency – MHz
10,000 pF
CK32
CK31
100,000 pF
GRAPH 7
Impedance vs. Frequency
APPLICATIONS
These miniature multilayer ceramic capacitors, style CK31 and
CK32, meet or exceed all requirements of MIL-C-11015/25. High
volumetric efficiency and reliable performance result from the spe-
cial GLASS-K dielectric, which is fused into a compact monolithic
structure. Available in three different stability characteristics, these
capacitors are suitable for both military and commercial applications
in miniature circuitry.
PERFORMANCE CHARACTERISTICS
Tolerance: ±20% and ±10% in characteristics “U” and “V”,
and ±10% and ±5% in characteristic “T”.
Stability Characteristics: Available as follows:
BT-TC: +2, -10%; TVC: +2, -10%
BU-TC: +2, -15%; TVC: +2, -15%
BV-TC: +20, -45%; TVC: +20, -50%
Dissipation Factor:
BT: ≤1.0%
BU: ≤1.5%
BV: ≤3.0%
Life: Meets or exceeds requirements of MIL-C-11015. At
200% of rated voltage, 125°C, the maximum capacitance
change for each stability characteristic is as follows:
BT: ±2%
BU: ±5%
BV: ±20%
Insulation Resistance: 100,000 megohms or 1,000
megohm-microfarads, whichever is less.
Voltage/Temperature Ratings: Rated voltage is 50 Vdc.
The operating temperature range is -55°C to +125°C.
Moisture Resistance: Meets or exceeds requirements of
MIL-C-11015 and MIL-STD-202, Method 106. The capaci-
tance change is less than 2% for stability characteristics T
and U, and less than 5% for characteristic V.
26
JCY6E
151JM
AVX
CK31
CK32
M23269J
02-3042
AVX
L
T31.75
(1.250)
Min.
Glass-K Capacitors
CK31, 32 (QPL to MIL-C-11015/25)
Case Lead Dia. Weight
Size L D +0.1(+0.004) (Grams)
±.254 (0.010) ±.254 (0.010) -0.03(±0.001) (Typ.)
CK31 6.09 2.29 .41
(0.240) (0.090) (0.016) .2
CK32 6.09 3.30 .41
(0.240) (0.130) (0.016) .3
DIMENSIONS: millimeters (inches)
Note: Leads are gold-plated, solderable and weldable Dumet per
MIL-STD-1276, Type D.
Capacitance – pF Style Stability
CK Char.
270 – 10,000 31 BT
12,000 – 20,000 31 BU
32 BT
22,000 – 39,000 31 BV
32 BU
47,000 – 51,000 31 BV
56,000 – 100,000 32 BV
QUICK SELECTION GUIDE
27
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CK32 (BT)
CK32BT123
*
12,000 J, K 50
CK32BT153 15,000 J, K 50
CK32BT183 18,000 J, K 50
CK32BT203 20,000 J, K 50
CK32 (BU)
CK32BU223
*
22,000 K, M 50
CK32BU273 27,000 K, M 50
CK32BU333 33,000 K, M 50
CK32BU393 39,000 K, M 50
CK32 (BV)
CK32BV563
*
56,000 K, M 50
CK32BV623 62,000 K, M 50
CK32BV683 68,000 K, M 50
CK32BV753 75,000 K, M 50
CK32BV823 82,000 K, M 50
CK32BV913 91,000 K, M 50
CK32BV104 100,000 K, M 50
RATINGS & PART NUMBER REFERENCE (Standard Values)
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
CK31 (BT)
CK31BT271
*
270 J, K 50
CK31BT331 330 J, K 50
CK31BT391 390 J, K 50
CK31BT471 470 J, K 50
CK31BT561 560 J, K 50
CK31BT681 680 J, K 50
CK31BT821 820 J, K 50
CK31BT102 1,000 J, K 50
CK31BT122 1,200 J, K 50
CK31BT152 1,500 J, K 50
CK31BT182 1,800 J, K 50
CK31BT222 2,200 J, K 50
CK31BT272 2,700 J, K 50
CK31BT332 3,300 J, K 50
CK31BT392 3,900 J, K 50
CK31BT472 4,700 J, K 50
CK31BT562 5,600 J, K 50
CK31BT682 6,800 J, K 50
CK31BT822 8,200 J, K 50
CK31BT103 10,000 J, K 50
CK31 (BU)
CK31BU123
*
12,000 K, M 50
CK31BU153 15,000 K, M 50
CK31BU183 18,000 K, M 50
CK31BU203 20,000 K, M 50
CK31 (BV)
CK31BV223
*
22,000 K, M 50
CK31BV273 27,000 K, M 50
CK31BV333 33,000 K, M 50
CK31BV393 39,000 K, M 50
CK31BV473 47,000 K, M 50
CK31BV513 51,000 K, M 50
Add Capacitance Tolerance Letter
J = ±5%, K = ±10% or M = ±20%
Add Capacitance Tolerance Letter
J = ±5%, K = ±10% or M = ±20%
Glass-K Capacitors
Part Numbers and Ordering Information
MARKING
CK
Style
31
Case Size
31
32
B
Operating
Temperature Range
-55°C to +125°C
103
Capacitance Code
Capacitance Code expressed in
picofarads (pF). The first two digits
represent significant figures and the
third digit specifies the number of
zeros to follow; i.e. 103 indicates
10,000 pF.
K
Capacitance
Tolerance
J = ±5% (T char. only)
K = ±10%
M = ±20%
T
Stability
Characteristic
T = +2% -10%
U = +2% -15%
V = +20% -45%
HOW TO ORDER
AVX
CK31BT
103K
0505
AVX = AVX Corporation
CK = Style
31 = Case Size
B = Operating Temperature Range
T = Stability Characteristic
103 = Capacitance, Coded in pF
K = Tolerance
0505 = Date Code
28
APPLICATIONS
These miniature multilayer ceramic capacitors, style CKR31
and CKR32, are qualified to Established Reliability specification
MIL-C-39014/21. High volumetric efficiency and reliable perform-
ance result from the special GLASS-K dielectric, which is fused into
a compact monolithic structure. These capacitors are available in
three different stability characteristics.
PERFORMANCE CHARACTERISTICS
Tolerance: ±20% and ±10% in characteristics “U” and “V”,
and ±10% and ±5% in characteristic “T”.
Stability Characteristics: Available as follows:
BT-TC: +2, -10%; TVC: +2, -10%
BU-TC: +2, -15%; TVC: +2, -15%
BV-TC: +20, -45%; TVC: +20, -50%
Dissipation Factor:
BT: ≤1.0%
BU: ≤1.5%
BV: ≤3.0%
Life: Meets or exceeds requirements of MIL-C-39014. At
200% of rated voltage, 125°C, at 4,000 hours, the capaci-
tance change for each stability characteristic is as follows:
BT: ±5%
BU: ±10%
BV: ±20%
Insulation Resistances: At 25°C, 100,000 megohms or
1,000 megohm-microfarads. At 125°C, 10,000 megohms or
100 megohm-microfarads.
Voltage/Temperature Ratings0: Rated voltage is 50 Vdc.
The operating temperature range is -55°C to +125°C.
Moisture Resistance: Meets or exceeds requirements of
MIL-C-39014 and MIL-STD-202, Method 106. The capaci-
tance change is less than 2% for stability characteristics T
and U, and less than 5% for characteristic V.
CKR31BT
CKR31
CKR32
CKR32BT
L
D
31.75
(1.250)
Min.
Glass-K Capacitors
CKR31, 32 (QPL to MIL-C-39014/21)
Established Reliability
Case Lead Dia. Weight
Size L D +0.1(+0.004) (Grams)
±.254 (0.010) ±.254 (0.010) -0.03(±0.001) (Typ.)
CKR31 6.09 2.29 .41
(0.240) (0.090) (0.016) .2
CKR32 6.09 3.30 .41
(0.240) (0.130) (0.016) .3
DIMENSIONS: millimeters (inches)
Note: Leads are gold-plated, solderable and weldable per MIL-STD-1276,
Type D.
Capacitance – pF Style Stability
CKR Char.
270 – 10,000 31 BT
12,000 – 20,000 31 BU
32 BT
22,000 – 39,000 31 BV
32 BU
47,000 – 51,000 31 BV
56,000 – 100,000 32 BV
QUICK SELECTION GUIDE
29
M39014/21
(Dash Number) Capacitance Capacitance DC
Failure Rate Level Value Tolerance Rated
(%/1,000 hours) (pF) ± Percent Voltage
1.0 (M)
CKR31 (BV)
0049 22,000 10 50
0050 22,000 20 50
0051 27,000 10 50
0052 27,000 20 50
0053 33,000 10 50
0054 33,000 20 50
0055 39,000 10 50
0056 39,000 20 50
0057 47,000 10 50
0058 47,000 20 50
0059 51,000 10 50
0060 51,000 20 50
CKR32 (BT)
0061 12,000 5 50
0062 12,000 10 50
0063 15,000 5 50
0064 15,000 10 50
0065 18,000 5 50
0066 18,000 10 50
0067 20,000 5 50
0068 20,000 10 50
CKR32 (BU)
0069 22,000 10 50
0070 22,000 20 50
0071 27,000 10 50
0072 27,000 20 50
0073 33,000 10 50
0074 33,000 20 50
0075 39,000 10 50
0076 39,000 20 50
CKR32 (BV)
0077 56,000 10 50
0078 56,000 20 50
0079 62,000 10 50
0080 62,000 20 50
0081 68,000 10 50
0082 68,000 20 50
0083 75,000 10 50
0084 75,000 20 50
0085 82,000 10 50
0086 82,000 20 50
0087 91,000 10 50
0088 91,000 20 50
0089 100,000 10 50
0090 100,000 20 50
M39014/21
(Dash Number) Capacitance Capacitance DC
Failure Rate Level Value Tolerance Rated
(%/1,000 hours) (pF) ± Percent Voltage
1.0 (M)
CKR31 (BT)
0001 270 5 50
0002 270 10 50
0003 330 5 50
0004 330 10 50
0005 390 5 50
0006 390 10 50
0007 470 5 50
0008 470 10 50
0009 560 5 50
0010 560 10 50
0011 680 5 50
0012 680 10 50
0013 820 5 50
0014 820 10 50
0015 1,000 5 50
0016 1,000 10 50
0017 1,200 5 50
0018 1,200 10 50
0019 1,500 5 50
0020 1,500 10 50
0021 1,800 5 50
0022 1,800 10 50
0023 2,200 5 50
0024 2,200 10 50
0025 2,700 5 50
0026 2,700 10 50
0027 3,300 5 50
0028 3,300 10 50
0029 3,900 5 50
0030 3,900 10 50
0031 4,700 5 50
0032 4,700 10 50
0033 5,600 5 50
0034 5,600 10 50
0035 6,800 5 50
0036 6,800 10 50
0037 8,200 5 50
0038 8,200 10 50
0039 10,000 5 50
0040 10,000 10 50
CKR31 (BU)
0041 12,000 10 50
0042 12,000 20 50
0043 15,000 10 50
0044 15,000 20 50
0045 18,000 10 50
0046 18,000 20 50
0047 20,000 10 50
0048 20,000 20 50
MARKING
JCK31
103KM
0505B
AVX
J = JAN Trademark
CK = Style
31 = Case Size
103 = Capacitance, Coded in pF
K = Tolerance
M = Failure Rate Level
0505 = Date Code
B = Lot Code
AVX = AVX Corporation
Glass-K Capacitors
Part Numbers and Ordering Information
CROSS REFERENCE
MIL-C-39014/21 MIL-C-11015/25
Style Style
CKR31 CK31
CKR32 CK32
Part Number Explanation
Part numbers are formed by adding a dash number
from the part number table to the basic mil spec
number – M39014/21 – (add dash number)
Example: M39014/21-0040
CKR31 10,000pF ±10% 50V
M Failure Rate (BT Characteristic)
RATINGS & PART NUMBER REFERENCE
30
Glass-K/ET Series Caps
Miniature Elevated Temperature
INTRODUCTION
Circuits that operate in environments in
excess of +200°C need to be com-
pact, reliable and efficient. Glass-K
Elevated Temperature (ET) Capacitors
utilize a proprietary Glass-K dielectric
and are available in three different K
factors which correspond to specific
stability characteristics and capaci-
tance value ranges. All Glass-K
dielectrics are fused into a compact
monolithic structure and transfer mold-
ed in a silicone case.
The stable performance and miniature
size of these capacitors make them a
natural choice for oil well logging sys-
tems, semiconductor burn-in testing,
geophysical probes or anywhere tem-
perature extremes are encountered.
FEATURES
• Proprietary Glass-K dielectric
• Standard burn-in
• Values from 2700 pF to 100,000 pF
• Working temperature range -75°C
to +200°C
• Excellent VHF characteristics
STANDARD OPERATING CHARACTERISTICS OF AVX MINIATURE ET GLASS-K®
SERIES – AXIAL LEADED GLASS CAPACITORS
Working Temperature Range
Working Temperature Range -75°C to 200°C
Capacitance Range 270 pF to 100,000 pF as follows:
K250...270 pF to 20,000 pF
K380...12,000 pF to 39,000 pF
K888...22,000 pF to 100,000 pF
Insulation Resistance @ 25°C...1 x 1011
@ 200°C...
...K250...108
...K380...109
...K888...109
Dissipation Factor @ 25°C @ 200°C...
...K250...1.0% ...K250...1.5%
...K380...1.5% ...K380...2.5%
...K888...3.0% ...K888...4.0%
Life (@ 200°C, 250 hour life test at rated
voltage). Post test life data as follows:
K250...Delta C @ 25°C<1%
DF @ 25°C<4%
IR @ 25°C>1 x 109
K380...Delta C @ 25°C<2%
DF @ 25°C<6%
IR @ 25°C>1 x 108
K888...Delta C @ 25°C<4%
DF @ 25°C<8%
IR @ 25°C>1 x 107
TYPICAL APPLICATIONS
In general, AVX ET Glass-K Series glass capacitors are ideal-
ly suited for any environment where high temperature could
alter or destroy circuit performance. And since they are rated
down to -75°C, ET Glass-K Series capacitors are also useful
where cycling to colder temperatures may be a problem.
Some applications where AVX ET Glass-K Series capacitors
exhibit particular advantages are:
• Semiconductor Burn-in ovens.
• Oil well logging and downhole instrumentation, where fric-
tional or geothermal heat is a problem.
• Geophysical pressure probes.
• Missile or aerospace applications where engine or environ-
mental heat needs to be monitored or may cause circuit
failure.
• Radar or other microwave applications.
• RF output circuitry where conduction or fan cooling cannot
be entirely relied upon to remove all of the heat.
• Space and satellite applications where temperature
changes are extreme and “zero failures” are a must.
• Industrial chemical process instrumentation where heat is a
part of the process.
• Instrumentation for monitoring at-the-tool performance in
metal cutting machinery.
• Fire-safe alarm or control circuitry.
31
Glass-K/ET Series Caps
Miniature Elevated Temperature
-20
-10
-30
-40
-50 0 50 100
K250
K380
K888
150 200
%C
Frequency – MHz
Capacitance – pF
100
1,000 10,000 100,000
10
Total Lead Length = .125 inch
Resonant Frequency vs. Capacitance
10
100
1
0.1
0.1 110 100 1000
Impedance – Ohms
Frequency – MHz
10,000 pF
ET31, K250
ET32, K888
100,000 pF
Measurement
Equipment Limit
Total Combined
Lead Length
20 inches
Impedance vs. Frequency
Capacitance change – percent
Applied rms. volta
g
e at 1kHz
K888
K380
K250
+20
+10
0
51015202530
% Capacitance Change vs. ac Voltage
Capacitance change – percent
Applied dc voltage
Measurements taken at 1 kHz
with 2 Vac rsm.
K888
Char. K250, K380
+5
0
-5
-10
0102030405060
% Capacitance Change vs. dc Voltage
32
APPLICATIONS
AVX Miniature ET Glass-K capacitors are available in two standard
case sizes with three different temperature coefficients. This
combination provides high temperature circuit designers numerous
combinations of highly volumetric efficient capacitors. All ET
Glass-K capacitors are made of a proprietary nonbarium titanate
dielectric and are transfer molded into a tough silicon encapsulant.
ET Glass-K capacitors are internally tested to the requirements of
MIL-C-39014.
PERFORMANCE CHARACTERISTICS
Tolerance: Available tolerances for each capacitance value
are shown in the ordering information table on the following
page. Part marking codes are also provided.
Temperature Coefficient: ET Glass-K capacitors are
available in three different dielectric types each having a
unique stability characteristic. Dielectric types and stability
are as follows:
K250: TC (+3%, -25%)
K380: TC (+3%, -35%)
K888: TC (+21%, -50%)
All ET Glass-K capacitors undergo a 100 hour, 100 volt burn-
in prior to shipment.
CKR31
CKR32
L
D
Glass-K/ET Series Capacitors
Miniature Axial Lead Elevated Temperature
Case All Dimensions in mm (inches)
Type Size Value Range Length Diameter
ET 31/2 270 pF - 10,000 pF 6.10 (0.240) 2.29 (0.090)
ET 31/3 12,000 pF - 20,000 pF 6.10 (0.240) 2.29 (0.090)
ET 31/8 22,000 pF - 51,000 pF 6.10 (0.240) 2.29 (0.090)
ET 32/2 12,000 pF - 20,000 pF 6.10 (0.240) 3.30 (0.130)
ET 32/3 22,000 pF - 37,000 pF 6.10 (0.240) 3.30 (0.130)
ET 32/8 56,000 pF - 100,000 pF 6.10 (0.240) 3.30 (0.130)
DIMENSIONS: millimeters (inches)
Note: Leads are solder-coated Dumet.
33
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
ET31 (cont’d)
ET32E223
* 8
22,000 K, M 25
ET32E273
8
27,000 K, M 25
ET32E333
8
33,000 K, M 25
ET32E393
8
39,000 K, M 25
ET32E473
8
47,000 K, M 25
ET32E513
8
51,000 K, M 25
ET32
ET32E123
* 2
12,000 J, K 25
ET32E153
2
15,000 J, K 25
ET32E183
2
18,000 J, K 25
ET32E203
2
20,000 J, K 25
ET32E223
3
22,000 K, M 25
ET32E273
* 3
27,000 K, M 25
ET32E333
3
33,000 K, M 25
ET32E393
3
39,000 K, M 25
ET32E563
* 8
56,000 K, M 25
ET32E623
8
62,000 K, M 25
ET32E683
8
68,000 K, M 25
ET32E753
8
75,000 K, M 25
ET32E823
8
82,000 K, M 25
ET32E913
8
91,000 K, M 25
ET32E104
8
100,000 K, M 25
RATINGS & PART NUMBER REFERENCE (Standard Values)
Military Type Capacitance Capacitance
Designation (pF) Tolerance WVDC
ET31
ET31E271
* 2
270 J, K 25
ET31E331 2 330 J, K 25
ET31E391 2 390 J, K 25
ET31E471 2 470 J, K 25
ET31E561 2 560 J, K 25
ET31E681 2 680 J, K 25
ET31E821 2 820 J, K 25
ET31E102 2 1,000 J, K 25
ET31E122 2 1,200 J, K 25
ET31E152 2 1,500 J, K 25
ET31E182 2 1,800 J, K 25
ET31E222 2 2,200 J, K 25
ET31E272 2 2,700 J, K 25
ET31E332 2 3,300 J, K 25
ET31E392 2 3,900 J, K 25
ET31E472 2 4,700 J, K 25
ET31E562 2 5,600 J, K 25
ET31E682 2 6,800 J, K 25
ET31E822 2 8,200 J, K 25
ET31E103 2 10,000 J, K 25
ET31E123
* 3
12,000 K, M 25
ET31E153 3 15,000 K, M 25
ET31E183 3 18,000 K, M 25
ET31E203 3 20,000 K, M 25
Add Capacitance Tolerance Letter
J = ±5%, K = ±10% or M = ±20%
Add Capacitance Tolerance Letter
J = ±5%, K = ±10% or M = ±20%
Glass-K/ET Series Caps
Part Numbers and Ordering Information
MARKING
ET
Style
31
Case Size
31
32
E
Operating
Temperature Range
-75°C to +200°C
102
Capacitance Code
Capacitance Code expressed in
picofarads (pF). The first two digits
represent significant figures and the
third digit specifies the number of
zeros to follow; i.e. 102 indicates
1,000 pF.
J
Capacitance
Tolerance
J = ±5%
K = ±10%
M = ±20%
2
Stability
Characteristic
2 = K250 diel.
3 = K380 diel.
8 = K888 diel.
HOW TO ORDER
AVX
ET31E
102J2
0505A
AVX = AVX Corporation
ET = Style
31 = Case Size
E = Operating Temperature Range
101 = Capacitance, Coded in pF
J = Tolerance
2 = Stability Characteristic
0505 = Date Code
A = Lot Code
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 sugges-
tions 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.
© AVX Corporation
S-GD00M505-N
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