IR above +125°C is derated by one order of magnitude.
WORKING VOLTAGE (WVDC):
See Capacitance Values Table, page 2.
ENVIRONMENTAL TESTS
ATC 100 B Series Capacitors are designed and manufactured to
meet and exceed the requirements of EIA-198, MIL-PRF-55681 and
MIL-PRF-123.
DIELECTRIC WITHSTANDING VOLTAGE (DWV):
Case B: 250% of rated WVDC for 5 secs.
RETRACE:
Less than ±(0.02% or 0.02 pF), whichever is greater.
AGING EFFECTS:
None
PIEZOELECTRIC EFFECTS:
None
(No capacitance variation with voltage or pressure).
CAPACITANCE DRIFT:
±(0.02% or 0.02 pF), whichever is greater.
OPERATING TEMPERATURE RANGE:
0.1 to 330 pF: from -55°C to +175°C
360 to 1000 pF: from -55°C to +125°C
(No derating of working voltage).
THERMAL SHOCK:
MIL-STD-202, Method 107, Condition A.
MOISTURE RESISTANCE:
MIL-STD-202, Method 106.
LOW VOLTAGE HUMIDITY:
MIL-STD-202, Method 103, Condition A, with 1.5 Volts DC applied
while subjected to an environment of 85°C with 85% relative
humidity for 240 hours min.
TERMINATION STYLES:
Available in various surface mount and leaded styles.
See Mechanical Configurations, page 3.
LIFE TEST:
MIL-STD-202, Method 108, for 2000 hours, at 125°C.
200% WVDC applied.
TERMINAL STRENGTH:
Terminations for chips and pellets
withstand a pull of 5 lbs. min., 15 lbs. typical, for 5 seconds in direc-
tion perpendicular to the termination surface of the capacitor. Test
per MIL-STD-202, method 211.
ATC # 001-807 Rev. I 6/06
ATC 100 B Capacitance Values
CAP.
CODE
0R1
0R2
0R3
0R4
0R5
0R6
0R7
0R8
0R9
1R0
1R1
1R2
1R3
1R4
1R5
1R6
1R7
1R8
1R9
2R0
2R1
2R2
CAP.
(pF) TOL.
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
B
B, C
RATED
WVDC
CAP.
CODE
2R4
2R7
3R0
3R3
3R6
3R9
4R3
4R7
5R1
5R6
6R2
6R8
7R5
8R2
9R1
100
110
120
130
150
160
180
CAP.
(pF)
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
11
12
13
15
16
18
TOL.
RATED
WVDC
CAP.
CODE
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
101
111
121
131
CAP.
(pF)
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
100
110
120
130
TOL.
RATED
WVDC
CAP.
CODE
151
161
181
201
221
241
271
301
331
361
391
431
471
511
561
621
681
751
821
911
102
CAP.
(pF)
150
160
180
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
1000
TOL.
RATED
WVDC
300
B, C,
D
500
F, G,
J, K,
M
200
F, G,
J, K,
M
500
B, C,
D
500
B, C, J,
K, M
100
F, G, J,
K, M
50
300
VRMS = 0.707 X WVDC
• SPECIAL VALUES, TOLERANCES, HIGHER WVDC AND MATCHING AVAILABLE. • ENCAPSULATION OPTION AVAILABLE. PLEASE CONSULT FACTORY.
ATC PART NUMBER CODE
ATC100 B 91 0
Series
Case Size
Capacitance Code:
First 2 significant digits for capacitance.
R=Decimal Point
Indicates number of zeros following digits
of capacitance in picofarads except for decimal values.
Capacitance Tolerance
J W 500 X
C
Packaging
T - Tape and Reel, 1000 pc. qty., 7" Reel std.*
TV - Vertical Orientation of Product,
Tape and Reel, 1000 pc. qty., 7" Reel std.*
C - ATC Cap-Pac
®
, 100 pc. qty. std.*
B - Bulk Packaging (packed in plastic bags)
I - Special Packaging. Consult Factory.
*
Consult ATC for other quantities
Laser Marking
CAPACITANCE TOLERANCE
Code
Tol.
B
C
D
F
G
J
K
M
±20%
±0.1 pF ±0.25 pF ±0.5 pF ±1%
±2% ±5% ±10%
WVDC
Termination Code
The above part number refers to a 100 B Series (case size B) 91 pF capacitor,
J tolerance (±5%), 500 WVDC, with W termination (Tin /Lead, Solder Plated over Nickel Barrier), laser marking and ATC Cap-Pac
®
packaging.
ATC accepts orders for our parts using designations
with
or
without
the
“ATC” prefix. Both methods of defining the part number are equivalent, i.e.,
part numbers referenced with the “ATC” prefix are interchangeable to parts
referenced without the “ATC” prefix. Customers are free to use either in
specifying or procuring parts from American Technical Ceramics.
For additional information and catalogs contact your ATC
representative or call direct at (631) 622-4700.
Consult factory for additional performance data.
A M E R I C A N
2
ATC North America
631-622-4700 • sales@atceramics.com
T E C H N I C A L
ATC Europe
+46 8 6800410 • sales@atceramics-europe.com
C E R A M I C S
ATC Asia
+86-755-8366-4318 • sales@atceramics-asia.com
w
w
w
.
a
t
c
e
r
a
m
i
c
s
.
c
o
m
ATC 100 B Capacitors: Mechanical Configurations
ATC
SERIES
& CASE
SIZE
ATC
TERM.
CODE
OUTLINES
MIL-PRF-
55681
CASE SIZE
& TYPE
BODY DIMENSIONS
INCHES (mm)
LENGTH
(L)
.110
+.020 -.010
(2.79
+0.51 -0.25)
.110
+.035 -.010
(2.79
+0.89 -0.25)
.110
+.020 -.010
(2.79
+0.51 -0.25)
.110
+.020 -.010
(2.79
+0.51 -0.25)
TL
W
Lead and Termination
Dimensions and Materials
OVERLAP
(Y)
MATERIALS
W/T IS A
TERMINATION SURFACE
WIDTH
(W)
THICKNESS
(T)
Y
100B
W
CDR14BG
B
Solder Plate
Y
W
L
T
.110 ±.015
(2.79 ±0.38)
Tin /Lead, Solder Plated over
Nickel Barrier Termination
100B
P
CDR14BG
B
Pellet
Y
L
W
T
.110 ±.015
(2.79 ±0.38)
.102 (2.59)
max.
.110 ±.015
(2.79 ±0.38)
.015 (0.38)
±.010 (0.25)
Heavy Tin/Lead Coated,
over Nickel Barrier Termination
100B
T
N/A
B
RoHS Compliant
Tin Plated over
Nickel Barrier Termination
Solderable
Nickel Barrier
Y
W
L
T
100B
CA
CDR13BG
B
Gold Chip
W
L
T
.110 ±.015
(2.79 ±0.38)
RoHS Compliant
Gold Plated over
Nickel Barrier Termination
Length
( LL )
Width
( WL )
Thickness
( TL )
100B
MS
CDR21BG
B
WL
LL
.120 (3.05)
max.
Microstrip
B
WL
L
T
TL
100B
AR
CDR22BG
LL
W
L
T
.135 ±.015
(3.43 ±0.38)
Axial Ribbon
.250
(6.35) min.
.093 ±.005 .004 ±.001
(2.36
(.102
±0.13)
±.025)
LL
100B
RR
CDR24BG
B
Radial Ribbon
W
L
T
WL
.110 ±.015
(2.79 ±0.38)
.102 (2.59)
max.
N/A
LL
100B
RW
CDR23BG
B
Radial Wire
T
L
W
.145 ±.020
(3.68 ±0.51)
LL
.500
(12.7) min.
#26 AWG.,
.016 (.406) dia.
nominal
100B
AW
CDR25BG
B
Axial Wire
L
W
T
Additional lead styles available: Narrow Microstrip (NM), Narrow Axial Ribbon (NA) and Vertical Narrow Microstrip (H). Other lead lengths are available; consult factory.
All leads are high purity silver attached with high temperature solder and are
RoHS
compliant. For a complete military catalog, request American Technical Ceramics
document ATC 001-818.
A M E R I C A N
3
ATC North America
631-622-4700 • sales@atceramics.com
T E C H N I C A L
ATC Europe
+46 8 6800410 • sales@atceramics-europe.com
C E R A M I C S
ATC Asia
+86-755-8366-4318 • sales@atceramics-asia.com
w
w
w
.
a
t
c
e
r
a
m
i
c
s
.
c
o
m
ATC 100 B Non-Magnetic Capacitors: Mechanical Configurations
ATC
SERIES
& CASE
SIZE
ATC
TERM.
CODE
OUTLINES
MIL-PRF-
55681
CASE SIZE
& TYPE
W/T IS A
TERMINATION SURFACE
BODY DIMENSIONS
INCHES (mm)
LENGTH
(L)
.110
+.025 -.010
(2.79
+0.64 -0.25)
.110
+.035 -.010
(2.79
+0.89 -0.25)
.110
+.025 -.010
(2.79
+0.64 -0.25)
LEAD AND TERMINATION
DIMENSIONS AND MATERIALS
OVERLAP
(Y)
MATERIALS
WIDTH
(W)
THICKNESS
(T)
100B
WN
Meets
Require-
ments
Y
B
Non-Mag
Solder Plate
Y
W
L
T
.110 ±.015
(2.79 ±0.38)
Tin /Lead, Solder Plated over
Nickel Barrier Termination
100B
PN
Meets
Require-
ments
B
Non-Mag
Pellet
Y
W
L
T
.110 ±.015
(2.79 ±0.38)
.102 (2.59)
max.
.015 (0.38)
Heavy Tin/Lead Coated, over
±.010 (0.25)
Nickel Barrier Termination
100B
TN
Meets
Require-
ments
B
Solderable
Nickel Barrier
B
W
L
T
TL
W
L
T
.110 ±.015
(2.79 ±0.38)
RoHS Compliant
Tin Plated over
Nickel Barrier Termination
Length
( LL )
Width
( WL )
Thickness
( TL )
100B
MN
Meets
Require-
ments
LL
Non-Mag
Microstrip
B
WL
.120 (3.05)
max.
100B
AN
Meets
Require-
ments
TL
LL
WL
L
T
W
Non-Mag
Axial Ribbon
135 ±.015
(3.43 ±0.38)
.250
(6.35) min.
.110 ±.015
(2.79 ±0.38)
.102 (2.59)
max.
.093 ±.005 .004 ±.001
(2.36
(.102
±0.13)
±.025)
100B
FN
Meets
Require-
ments
B
Non-Mag
Radial Ribbon
LL
W
L
T
WL
N/A
100B
RN
Meets
Require-
ments
B
Non-Mag
Radial Wire
LL
T
L
W
.145 ±.020
(3.68 ±0.51)
W
.500
(12.7) min.
100B
BN
Meets
Require-
ments
#26 AWG.,
.016 (.406) dia.
nominal
B
Non-Mag
Axial Wire
L
LL
T
Additional lead styles available: Narrow Microstrip (NM), Narrow Axial Ribbon (NA) and Vertical Narrow Microstrip (H). Other lead lengths are available; consult factory.
All leads are high purity silver attached with high temperature solder and are
In interrupt mode, in the driver of ARM (embedded Linux) reading dual-port RAM, reading RAM can only be in a blocked state, and can only be awakened when an interrupt comes. Is it the only way? It can...
The Internet of Things is growing rapidly. In its sub-sectors, smart home and building automation applications, smart lighting plays a vital role in achieving energy conservation and power saving, red...
Can the external crystal oscillator of 430G2553 be phase-locked loop frequency multiplied? How to do it! ! The external clock is too slow, and the internal one is not accurate, so the precise timing c...
In the field of portable applications, the integration of multiple devices is inevitable. As Richtek Technology, a Taiwanese power management chip manufacturer, pointed out: " In the future, integrati...
1. Overview
Will passive devices
produce nonlinear intermodulation distortion? The answer is yes! Although there is no systematic theoretical analysis, it has been found in engineerin...[Details]
Google's driverless technology is not only an eye-catching technology, but also a subversion of the car usage model.
Those who have watched anti-terrorism films and TV dramas must have been im...[Details]
introduction
In the discharge process of tokamak plasma physics, the study of rupture and sawtooth is of great significance. Rupture and sawtooth exist in most tokamaks. Rupture is a notew...[Details]
Introduction
Power subsystems are becoming more and more integrated into the overall system. Power systems have moved from being separate "essential dangerous devices" to being monitorable...[Details]
1 Introduction
As an emerging microfabrication technology, micro-electromechanical system (MEMS) technology has begun to be applied in various fields. It can integrate functions such as inform...[Details]
Overview
As a remote network communication control method with advanced technology, high reliability, complete functions and reasonable cost, CAN-bus has been widely used in various automa...[Details]
1 Introduction
Building Automation System (BAS) is a distributed monitoring system (DCS) designed according to distributed information and control theory. It is the result of the mutual de...[Details]
1 Introduction
With the development of control, computer, communication, network technology, etc., a new control technology, namely fieldbus, has emerged in the field of industrial control...[Details]
Flooded Batteries
This battery developed in Germany can be used to power flashlights, strobe lights and toys as long as it is filled with water. This battery can be stored for 50 years and can...[Details]
Introduction
Liquid crystal, as a display device, is widely used in low-power products such as instruments, meters, and electronic equipment with its unique advantages. In the past, the displ...[Details]
Continuity test
A variety of devices need to be checked for continuity, including cable assemblies, printed circuit boards, and connectors to ensure that these components have the expected contin...[Details]
introduction
MEMS is a high-tech that has flourished on the basis of integrated circuit production technology and dedicated micro-electromechanical processing methods. Pressure sensors develop...[Details]
Problems such as the depletion of natural resources, air pollution, traffic congestion, and rising fossil fuel prices have forced societies and individuals to seek alternative means of transportati...[Details]
1. Disadvantages of choosing too high a voltage level
Choosing too high a voltage level will result in too high an investment and a long payback period. As the voltage level increases, the...[Details]
Motors, especially those with brushes, generate a lot of noise. This noise must be dealt with if the appliance is to meet the requirements of EMC standards. The means to solve EMC are nothing more ...[Details]
Analogue and Mixed Signal
京公网安备 11010802033920号
EEWORLD
