CWR19 Series Datasheet

TAZ Series
CWR19 - MIL-PRF-55365/11
Established Reliability, COTS-Plus & Space Level
An extended range of capacitor ratings beyond
CWR09 that is fully qualified to MIL-PRF55365/11, this series represents the most
flexible of surface mount form factors, offering
nine case sizes (the original A through H of
CWR09) and adds the new X case size.
The series is qualified to MIL-PRF-55365 Weibull
“B”, “C”, “D” and “T” levels, with all surge
options (“A”, “B” & “C”) available.
The molded body / compliant termination
construction ensures no TCE mismatch with any
substrate. This construction is compatible with a
wide range of SMT board assembly processes
including wave or reflow solder, conductive
epoxy or compression bonding techniques. The
parts also carry full polarity and capacitance /
voltage marking.
There are four termination finishes available:
solder plated, fused solder plated, hot solder
dipped and gold plated (these are “H”, “K”, “C”
and “B” termination, respectively, per MIL-PRF55365). In addition, the molding compound has
been selected to meet the requirements of
UL94V-0 (Flame Retardancy) and outgassing
requirements of ASTM E-595.
The four smaller cases are characterized by their
low profile construction, with the A case being the
world’s smallest molded military tantalum chip.
For moisture sensitivity levels please refer to the
High Reliability Tantalum MSL section located in
the back of the High Reliability Tantalum Catalog.
For Space Level applications, AVX SRC 9000
qualification is recommended (see ratings table
for part number availability).
CASE DIMENSIONS:
millimeters (inches)
Case Length (L)
Width (W)
Height (H)
Code ±0.38 (0.015) ±0.38 (0.015) ±0.38 (0.015)
MARKING
A
2.54 (0.100)
1.27 (0.050)
1.27 (0.050)
(White marking on black body)
B
3.81 (0.150)
1.27 (0.050)
1.27 (0.050)
C
5.08 (0.200)
1.27 (0.050)
1.27 (0.050)
D
3.81 (0.150)
2.54 (0.100)
1.27 (0.050)
E
5.08 (0.200)
2.54 (0.100)
1.27 (0.050)
F
5.59 (0.220)
3.43 (0.135)
1.78 (0.070)
G
6.73 (0.265)
2.79 (0.110)
H
7.24 (0.285)
3.81 (0.150)
X
6.93 Max
(0.273)
5.41 Max
(0.213)
Polarity Stripe (+)
Capacitance Code
Rated Voltage
Term. Width (W1)
1.27±0.13
(0.050±0.005)
1.27±0.13
(0.050±0.005)
1.27±0.13
(0.050±0.005)
2.41+0.13/-0.25
(0.095+0.005/-0.010)
2.41+0.13/-0.25
(0.095+0.005/-0.010)
3.30±0.13
(0.130±0.005)
2.67±0.13
2.79 (0.110)
(0.105±0.005)
3.68+0.13/-0.51
2.79 (0.110) (0.145+0.005/-0.020)
2.74 Max
(0.108)
3.05±0.13
(0.120±0.005)
Term. Length (A)
+0.25/-0.13
(+0.010/-0.005)
S min
Typical
Weight (g)
0.76 (0.030)
0.38 (0.015)
0.016
0.76 (0.030)
1.65 (0.065)
0.025
0.76 (0.030)
2.92 (0.115)
0.035
0.76 (0.030)
1.65 (0.065)
0.045
0.76 (0.030)
2.92 (0.115)
0.065
0.76 (0.030)
3.43 (0.135)
0.125
1.27 (0.050)
3.56 (0.140)
0.205
1.27 (0.050)
4.06 (0.160)
0.335
1.19 (0.047)
N/A
0.420
CWR19-MIL-PRF 55365/11
CAPACITANCE AND RATED VOLTAGE, VR (VOLTAGE CODE) RANGE (LETTER DENOTES CASE SIZE)
Capacitance
μF
Code
0.33
334
0.47
474
0.68
684
1.0
105
1.5
155
2.2
225
3.3
335
4.7
475
6.8
685
10
106
15
156
22
226
33
336
47
476
68
686
100
107
150
157
220
227
330
337
041416
4V (C)
6V (D)
Rated voltage DC (VR) at 85ºC
10V (F)
15V (H)
20V (J)
25V (K)
35V (M)
A
A
A
A
A
B
B
B/D
D/E
E
E
F
G
H
H
A
A
B
B
B/D/E
D/E
E
F
F/G
G
G
H
H
A
A
B/C
B/C/D
B/C/D/E
D/E
E
F
F/G
G
G/H
H/X
H
A
A
A
B
B/C/D
D/E
D/E
E/F
F
F/G
G/H
G/H
H
A
A
B
B
D
E
E
E/F
F
G
H
H/X
B
D
E
F
G
G/H
H
G
H
X
13
TAZ Series
CWR19 - MIL-PRF-55365/11
Established Reliability, COTS-Plus & Space Level
HOW TO ORDER
COTS-PLUS & MIL QPL (CWR19):
TAZ H
Type
Case
Size
227
*
006
C
#
Capacitance Capacitance
Voltage
Standard or Packaging Inspection Level
Code
Tolerance
Code
Low ESR
S = Std.
B = Bulk
pF code:
M = ±20% 004 = 4Vdc
Range
Conformance
R = 7" T&R
1st two digits
K = ±10% 006 = 6Vdc C = Std ESR S = 13" T&R L = Group A
represent
J = ±5%
010 = 10Vdc L = Low ESR W = Waffle
M = MIL (JAN)
significant
015 = 15Vdc
CWR19
figures 3rd
020 = 20Vdc
See page 8
digit represents
025 = 25Vdc
for additional
multiplier
035 = 35Vdc
(number of
packaging
zeros to follow)
options.
@
0
^
++
Reliability Grade
Qualification Termination Finish
Level
Weibull:
H = Solder Plated
0 = N/A
B = 0.1%/1000 hrs.
0 = Fused Solder
T = T Level
90% conf.
Plated
C = 0.01%/1000 hrs. 9 = SRC9000 8 = Hot Solder
90% conf.
Dipped
D = 0.001%/1000 hrs.
9 = Gold Plated
90% conf.
7 = Matte Sn
Z = Non-ER
(COTS-Plus only)
Surge Test
Option
00 = None
23 = 10 Cycles, +25ºC
24 = 10 Cycles,
-55ºC & +85ºC
45 = 10 cycles,
-55ºC & +85ºC
before Weibull
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
CWR19 P/N CROSS REFERENCE:
CWR19
D
^
227
*
@
H
+
Type
Voltage
Code
C = 4Vdc
D = 6Vdc
F = 10Vdc
H = 15Vdc
J = 20Vdc
K = 25Vdc
M = 35Vdc
Termination
Finish
H = Solder Plated
K = Solder Fused
C = Hot Solder
Dipped
B = Gold Plated
Capacitance
Code
pF code:
1st two digits
represent
significant
figures 3rd digit
represents
multiplier
(number of zeros
to follow)
Capacitance
Tolerance
M = ±20%
K = ±10%
J = ±5%
Reliability
Grade
Weibull:
B = 0.1%/1000 hrs.
90% conf.
C = 0.01%/1000 hrs.
90% conf.
D = 0.001%/1000
hrs. 90% conf.
T = T Level
A = Non-ER
Case
Size
Surge Test
Option
A = 10 cycles, +25°C
B = 10 cycles,
-55°C & +85°C
C = 10 cycles,
-55°C & +85°C
before Weibull
Z = None required
Packaging
Bulk = Standard
\TR = 7" T&R
\TR13 = 13" T&R
\W = Waffle
See page 8
for additional
packaging
options.
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
SPACE LEVEL OPTIONS TO SRC9000*:
TAZ H
Type
Case
Size
227
*
006
C
L
Capacitance Capacitance
Voltage
Standard or Packaging Inspection Level
Code
Tolerance
Code
Low ESR
L = Group A
B = Bulk
pF code:
M = ±20% 004 = 4Vdc
Range
R = 7" T&R
1st two digits
K = ±10% 006 = 6Vdc C = Std ESR S = 13" T&R
represent
J = ±5%
010 = 10Vdc L = Low ESR W = Waffle
significant
015 = 15Vdc
figures 3rd
020 = 20Vdc
See page 8
digit represents
025 = 25Vdc
for additional
multiplier
035 = 35Vdc
(number of
packaging
zeros to follow)
options.
@
9
^
Reliability Grade
Qualification Termination Finish
Level
Weibull:
H = Solder Plated
9 = SRC9000 0 = Fused Solder
B = 0.1%/1000 hrs.
90% conf.
Plated
C = 0.01%/1000 hrs.
8 = Hot Solder
90% conf.
Dipped
D = 0.001%/1000 hrs.
9 = Gold Plated
90% conf.
++
Surge Test
Option
45 = 10 cycles,
-55ºC & +85ºC
before Weibull
LEAD-FREE COMPATIBLE
COMPONENT
*Contact factory for AVX SRC9000 Space Level SCD details.
For RoHS compliant products,
please select correct termination style.
TECHNICAL SPECIFICATIONS
Technical Data:
Capacitance Range:
Capacitance Tolerance:
Rated Voltage (VR)
Category Voltage (VC)
Surge Voltage (VS)
Surge Voltage (VS)
Temperature Range:
14
Unless otherwise specified, all technical data relate to an ambient temperature of 25°C
0.33 μF to 330 μF
±5%; ±10%; ±20%
85°C:
4
6
10
15
20
25
35
125°C:
2.7
4
6.7
10
13.3
16.7
23.3
85°C:
5.3
8
13.3
20
26.7
33.3
46.7
125°C:
3.5
5.3
8.7
13.3
17.8
22.2
31.1
-55°C to +125°C
041416
TAZ Series
CWR19 - MIL-PRF-55365/11 Established Reliability, COTS-Plus & Space Level
Parametric Specifications by Rating per MIL-PRF-55365/11
Cap
DC Rated
ESR
DCL max
DF Max
@ 120Hz Voltage @ 100kHz
+25ºC
+85ºC
+125ºC
+25ºC +(85/125)ºC
μF
V
Ohms
CWR19 P/N
AVX MIL & COTS-Plus P/N
AVX SRC9000 P/N
Case
(μA)
(μA)
(μA)
(%)
(%)
@ 25ºC
@ +85ºC @ +25ºC
CWR19C^335*@A+ TAZ A 335 * 004 C # @ 0 ^ ++ TAZ A 335 * 004 C L @ 9 ^ ++ A
3.3
4
12
1
10
12
6
8
CWR19C^475*@A+ TAZ A 475 * 004 C # @ 0 ^ ++ TAZ A 475 * 004 C L @ 9 ^ ++ A
4.7
4
12
1
10
12
6
8
CWR19C^685*@A+ TAZ A 685 * 004 C # @ 0 ^ ++ TAZ A 685 * 004 C L @ 9 ^ ++ A
6.8
4
12
1
10
12
6
8
CWR19C^106*@B+ TAZ B 106 * 004 C # @ 0 ^ ++ TAZ B 106 * 004 C L @ 9 ^ ++ B
10
4
8
1
10
12
8
10
CWR19C^156*@B+ TAZ B 156 * 004 C # @ 0 ^ ++ TAZ B 156 * 004 C L @ 9 ^ ++ B
15
4
8
1
10
12
8
10
CWR19C^226*@B+ TAZ B 226 * 004 C # @ 0 ^ ++ TAZ B 226 * 004 C L @ 9 ^ ++ B
22
4
8
1
10
12
8
10
CWR19C^226*@D+ TAZ D 226 * 004 C # @ 0 ^ ++ TAZ D 226 * 004 C L @ 9 ^ ++ D
22
4
4
1
10
12
8
10
CWR19C^336*@D+ TAZ D 336 * 004 C # @ 0 ^ ++ TAZ D 336 * 004 C L @ 9 ^ ++ D
33
4
4
2
20
24
8
10
CWR19C^336*@E+ TAZ E 336 * 004 C # @ 0 ^ ++ TAZ E 336 * 004 C L @ 9 ^ ++ E
33
4
3
2
20
24
8
10
CWR19C^476*@E+ TAZ E 476 * 004 C # @ 0 ^ ++ TAZ E 476 * 004 C L @ 9 ^ ++ E
47
4
3
2
20
24
8
10
CWR19C^686*@E+ TAZ E 686 * 004 C # @ 0 ^ ++ TAZ E 686 * 004 C L @ 9 ^ ++ E
68
4
3
3
30
36
8
10
CWR19C^107*@F+ TAZ F 107 * 004 C # @ 0 ^ ++ TAZ F 107 * 004 C L @ 9 ^ ++
F
100
4
2
4
40
48
10
12
CWR19C^157*@G+ TAZ G 157 * 004 C # @ 0 ^ ++ TAZ G 157 * 004 C L @ 9 ^ ++ G
150
4
1
6
60
72
10
12
CWR19C^227*@H+ TAZ H 227 * 004 C # @ 0 ^ ++ TAZ H 227 * 004 C L @ 9 ^ ++ H
220
4
1
8
80
96
10
12
CWR19C^337*@H+ TAZ H 337 * 004 C # @ 0 ^ ++ TAZ H 337 * 004 C L @ 9 ^ ++ H
330
4
0.9
10
100
120
10
12
CWR19D^335*@A+ TAZ A 335 * 006 C # @ 0 ^ ++ TAZ A 335 * 006 C L @ 9 ^ ++ A
3.3
6
12
1
10
12
6
8
CWR19D^475*@A+ TAZ A 475 * 006 C # @ 0 ^ ++ TAZ A 475 * 006 C L @ 9 ^ ++ A
4.7
6
12
1
10
12
6
8
CWR19D^685*@B+ TAZ B 685 * 006 C # @ 0 ^ ++ TAZ B 685 * 006 C L @ 9 ^ ++ B
6.8
6
8
1
10
12
6
8
CWR19D^106*@B+ TAZ B 106 * 006 C # @ 0 ^ ++ TAZ B 106 * 006 C L @ 9 ^ ++ B
10
6
8
1
10
12
6
8
CWR19D^156*@B+ TAZ B 156 * 006 C # @ 0 ^ ++ TAZ B 156 * 006 C L @ 9 ^ ++ B
15
6
8
1
10
12
8
10
CWR19D^156*@D+ TAZ D 156 * 006 C # @ 0 ^ ++ TAZ D 156 * 006 C L @ 9 ^ ++ D
15
6
5
1
10
12
8
10
CWR19D^226*@D+ TAZ D 226 * 006 C # @ 0 ^ ++ TAZ D 226 * 006 C L @ 9 ^ ++ D
22
6
5
1
10
12
6
8
CWR19D^156*@E+ TAZ E 156 * 006 C # @ 0 ^ ++ TAZ E 156 * 006 C L @ 9 ^ ++ E
15
6
3
1
10
12
8
10
CWR19D^226*@E+ TAZ E 226 * 006 C # @ 0 ^ ++ TAZ E 226 * 006 C L @ 9 ^ ++ E
22
6
3.5
2
20
24
8
10
CWR19D^336*@E+ TAZ E 336 * 006 C # @ 0 ^ ++ TAZ E 336 * 006 C L @ 9 ^ ++ E
33
6
3.5
2
20
24
6
8
CWR19D^476*@F+ TAZ F 476 * 006 C # @ 0 ^ ++ TAZ F 476 * 006 C L @ 9 ^ ++
F
47
6
3.5
3
30
36
8
10
CWR19D^686*@F+ TAZ F 686 * 006 C # @ 0 ^ ++ TAZ F 686 * 006 C L @ 9 ^ ++
F
68
6
1.5
4
40
48
10
12
CWR19D^686*@G+ TAZ G 686 * 006 C # @ 0 ^ ++ TAZ G 686 * 006 C L @ 9 ^ ++ G
68
6
1
4
40
48
10
12
CWR19D^107*@G+ TAZ G 107 * 006 C # @ 0 ^ ++ TAZ G 107 * 006 C L @ 9 ^ ++ G
100
6
1.1
6
60
72
10
12
CWR19D^157*@G+ TAZ G 157 * 006 C # @ 0 ^ ++ TAZ G 157 * 006 C L @ 9 ^ ++ G
150
6
1.1
10
100
120
10
12
CWR19D^227*@H+ TAZ H 227 * 006 C # @ 0 ^ ++ TAZ H 227 * 006 C L @ 9 ^ ++ H
220
6
0.9
10
100
120
10
12
CWR19D^337*@H+ TAZ H 337 * 006 C # @ 0 ^ ++ TAZ H 337 * 006 C L @ 9 ^ ++ H
330
6
0.9
20
200
240
10
12
CWR19F^225*@A+ TAZ A 225 * 010 C # @ 0 ^ ++ TAZ A 225 * 010 C L @ 9 ^ ++ A
2.2
10
12
1
10
12
6
8
CWR19F^335*@A+ TAZ A 335 * 010 C # @ 0 ^ ++ TAZ A 335 * 010 C L @ 9 ^ ++ A
3.3
10
12
1
10
12
6
8
CWR19F^475*@B+ TAZ B 475 * 010 C # @ 0 ^ ++ TAZ B 475 * 010 C L @ 9 ^ ++ B
4.7
10
8
1
10
12
6
8
CWR19F^685*@B+ TAZ B 685 * 010 C # @ 0 ^ ++ TAZ B 685 * 010 C L @ 9 ^ ++ B
6.8
10
8
1
10
12
6
8
CWR19F^106*@B+ TAZ B 106 * 010 C # @ 0 ^ ++ TAZ B 106 * 010 C L @ 9 ^ ++ B
10
10
8
1
10
12
8
10
CWR19F^475*@C+ TAZ C 475 * 010 C # @ 0 ^ ++ TAZ C 475 * 010 C L @ 9 ^ ++ C
4.7
10
5.5
1
10
12
6
8
CWR19F^685*@C+ TAZ C 685 * 010 C # @ 0 ^ ++ TAZ C 685 * 010 C L @ 9 ^ ++ C
6.8
10
5.5
1
10
12
6
8
CWR19F^106*@C+ TAZ C 106 * 010 C # @ 0 ^ ++ TAZ C 106 * 010 C L @ 9 ^ ++ C
10
10
5.5
1
10
12
6
8
CWR19F^685*@D+ TAZ D 685 * 010 C # @ 0 ^ ++ TAZ D 685 * 010 C L @ 9 ^ ++ D
6.8
10
5
1
10
12
6
8
CWR19F^106*@D+ TAZ D 106 * 010 C # @ 0 ^ ++ TAZ D 106 * 010 C L @ 9 ^ ++ D
10
10
4
1
10
12
6
8
CWR19F^156*@D+ TAZ D 156 * 010 C # @ 0 ^ ++ TAZ D 156 * 010 C L @ 9 ^ ++ D
15
10
5
2
20
24
6
8
CWR19F^106*@E+ TAZ E 106 * 010 C # @ 0 ^ ++ TAZ E 106 * 010 C L @ 9 ^ ++ E
10
10
3.5
1
10
12
6
8
CWR19F^156*@E+ TAZ E 156 * 010 C # @ 0 ^ ++ TAZ E 156 * 010 C L @ 9 ^ ++ E
15
10
3
2
20
24
8
10
CWR19F^226*@E+ TAZ E 226 * 010 C # @ 0 ^ ++ TAZ E 226 * 010 C L @ 9 ^ ++ E
22
10
2
3
30
36
8
10
CWR19F^336*@F+ TAZ F 336 * 010 C # @ 0 ^ ++ TAZ F 336 * 010 C L @ 9 ^ ++
F
33
10
1.5
3
30
36
8
10
CWR19F^476*@F+ TAZ F 476 * 010 C # @ 0 ^ ++ TAZ F 476 * 010 C L @ 9 ^ ++
F
47
10
1.5
4
40
48
10
12
CWR19F^476*@G+ TAZ G 476 * 010 C # @ 0 ^ ++ TAZ G 476 * 010 C L @ 9 ^ ++ G
47
10
1
4
40
48
10
12
CWR19F^686*@G+ TAZ G 686 * 010 C # @ 0 ^ ++ TAZ G 686 * 010 C L @ 9 ^ ++ G
68
10
1.1
6
60
72
10
12
CWR19F^107*@G+ TAZ G 107 * 010 C # @ 0 ^ ++ TAZ G 107 * 010 C L @ 9 ^ ++ G
100
10
1.1
10
100
120
10
12
CWR19F^107*@H+ TAZ H 107 * 010 C # @ 0 ^ ++ TAZ H 107 * 010 C L @ 9 ^ ++ H
100
10
0.9
10
100
120
10
12
CWR19F^157*@H+ TAZ H 157 * 010 C # @ 0 ^ ++ TAZ H 157 * 010 C L @ 9 ^ ++ H
150
10
0.9
15
150
180
10
12
CWR19F^227*@H+ TAZ H 227 * 010 C # @ 0 ^ ++ TAZ H 227 * 010 C L @ 9 ^ ++ H
220
10
0.9
20
200
240
10
12
CWR19F^157*@X+ TAZ X 157 * 010 C # @ 0 ^ ++ TAZ X 157 * 010 C L @ 9 ^ ++ X
150
10
0.9
15
150
180
10
12
RATING & PART NUMBER REFERENCE
Power
-55ºC
(%)
8
8
8
10
10
10
12
12
12
12
12
12
12
12
12
8
8
8
8
10
12
8
12
12
8
12
12
12
12
12
12
12
8
8
8
8
10
8
8
8
8
8
8
8
10
10
10
12
12
12
12
12
12
12
12
25ºC
Dissipation Ripple
A
W
(100kHz)
0.050
0.06
0.050
0.06
0.050
0.06
0.070
0.09
0.070
0.09
0.070
0.09
0.080
0.14
0.080
0.14
0.090
0.17
0.090
0.17
0.090
0.17
0.100
0.22
0.125
0.35
0.150
0.39
0.150
0.41
0.050
0.06
0.050
0.06
0.070
0.09
0.070
0.09
0.070
0.09
0.080
0.13
0.080
0.13
0.090
0.17
0.090
0.16
0.090
0.16
0.100
0.17
0.100
0.26
0.125
0.35
0.125
0.34
0.125
0.34
0.150
0.41
0.150
0.41
0.050
0.06
0.050
0.06
0.070
0.09
0.070
0.09
0.070
0.09
0.075
0.12
0.075
0.12
0.075
0.12
0.080
0.13
0.080
0.14
0.080
0.13
0.090
0.16
0.090
0.17
0.090
0.21
0.100
0.26
0.100
0.26
0.125
0.35
0.125
0.34
0.125
0.34
0.150
0.41
0.150
0.41
0.150
0.41
0.200
0.47
Typical RMS Ripple Data by Rating
85ºC
125ºC
25ºC
85ºC
Ripple
Ripple
Ripple
Ripple
A
A
V
V
(100kHz) (100kHz) (100kHz) (100kHz)
0.06
0.03
0.77
0.70
0.06
0.03
0.77
0.70
0.06
0.03
0.77
0.70
0.08
0.04
0.75
0.67
0.08
0.04
0.75
0.67
0.08
0.04
0.75
0.67
0.13
0.06
0.57
0.51
0.13
0.06
0.57
0.51
0.16
0.07
0.52
0.47
0.16
0.07
0.52
0.47
0.16
0.07
0.52
0.47
0.20
0.09
0.45
0.40
0.32
0.14
0.35
0.32
0.35
0.15
0.39
0.35
0.37
0.16
0.37
0.33
0.06
0.03
0.77
0.70
0.06
0.03
0.77
0.70
0.08
0.04
0.75
0.67
0.08
0.04
0.75
0.67
0.08
0.04
0.75
0.67
0.11
0.05
0.63
0.57
0.11
0.05
0.63
0.57
0.16
0.07
0.52
0.47
0.14
0.06
0.56
0.51
0.14
0.06
0.56
0.51
0.15
0.07
0.59
0.53
0.23
0.10
0.39
0.35
0.32
0.14
0.35
0.32
0.30
0.13
0.37
0.33
0.30
0.13
0.37
0.33
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.06
0.03
0.77
0.70
0.06
0.03
0.77
0.70
0.08
0.04
0.75
0.67
0.08
0.04
0.75
0.67
0.08
0.04
0.75
0.67
0.11
0.05
0.64
0.58
0.11
0.05
0.64
0.58
0.11
0.05
0.64
0.58
0.11
0.05
0.63
0.57
0.13
0.06
0.57
0.51
0.11
0.05
0.63
0.57
0.14
0.06
0.56
0.51
0.16
0.07
0.52
0.47
0.19
0.08
0.42
0.38
0.23
0.10
0.39
0.35
0.23
0.10
0.39
0.35
0.32
0.14
0.35
0.32
0.30
0.13
0.37
0.33
0.30
0.13
0.37
0.33
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.42
0.19
0.42
0.38
125ºC
Ripple
V
(100kHz)
0.31
0.31
0.31
0.30
0.30
0.30
0.23
0.23
0.21
0.21
0.21
0.18
0.14
0.15
0.15
0.31
0.31
0.30
0.30
0.30
0.25
0.25
0.21
0.22
0.22
0.24
0.15
0.14
0.15
0.15
0.15
0.15
0.31
0.31
0.30
0.30
0.30
0.26
0.26
0.26
0.25
0.23
0.25
0.22
0.21
0.17
0.15
0.15
0.14
0.15
0.15
0.15
0.15
0.15
0.17
All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes.
NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards.
041416
15
TAZ Series
CWR19 - MIL-PRF-55365/11 Established Reliability, COTS-Plus & Space Level
Parametric Specifications by Rating per MIL-PRF-55365/11
Cap
DC Rated
ESR
DCL max
DF Max
@ 120Hz Voltage @ 100kHz
+25ºC
+85ºC
+125ºC
+25ºC +(85/125)ºC
μF
V
Ohms
CWR19 P/N
AVX MIL & COTS-Plus P/N
AVX SRC9000 P/N
Case
(μA)
(μA)
(μA)
(%)
(%)
@ 25ºC
@ +85ºC @ +25ºC
CWR19H^105*@A+ TAZ A 105 * 015 C # @ 0 ^ ++ TAZ A 105 * 015 C L @ 9 ^ ++
A
1
15
15
1
10
12
6
8
CWR19H^155*@A+ TAZ A 155 * 015 C # @ 0 ^ ++ TAZ A 155 * 015 C L @ 9 ^ ++
A
1.5
15
15
1
10
12
6
8
CWR19H^225*@A+ TAZ A 225 * 015 C # @ 0 ^ ++ TAZ A 225 * 015 C L @ 9 ^ ++
A
2.2
15
15
1
10
12
6
8
CWR19H^335*@B+ TAZ B 335 * 015 C # @ 0 ^ ++ TAZ B 335 * 015 C L @ 9 ^ ++
B
3.3
15
9
1
10
12
6
8
CWR19H^475*@B+ TAZ B 475 * 015 C # @ 0 ^ ++ TAZ B 475 * 015 C L @ 9 ^ ++
B
4.7
15
5
1
10
12
6
8
CWR19H^475*@C+ TAZ C 475 * 015 C # @ 0 ^ ++ TAZ C 475 * 015 C L @ 9 ^ ++ C
4.7
15
5.5
1
10
12
6
8
CWR19H^475*@D+ TAZ D 475 * 015 C # @ 0 ^ ++ TAZ D 475 * 015 C L @ 9 ^ ++
D
4.7
15
6
1
10
12
6
8
CWR19H^685*@D+ TAZ D 685 * 015 C # @ 0 ^ ++ TAZ D 685 * 015 C L @ 9 ^ ++
D
6.8
15
6
1
10
12
6
8
CWR19H^106*@D+ TAZ D 106 * 015 C # @ 0 ^ ++ TAZ D 106 * 015 C L @ 9 ^ ++
D
10
15
6
2
20
24
6
8
CWR19H^685*@E+ TAZ E 685 * 015 C # @ 0 ^ ++ TAZ E 685 * 015 C L @ 9 ^ ++
E
6.8
15
3
1
10
12
8
10
CWR19H^106*@E+ TAZ E 106 * 015 C # @ 0 ^ ++ TAZ E 106 * 015 C L @ 9 ^ ++
E
10
15
4
2
20
24
6
8
CWR19H^156*@E+ TAZ E 156 * 015 C # @ 0 ^ ++ TAZ E 156 * 015 C L @ 9 ^ ++
E
15
15
4
2
20
24
6
8
CWR19H^156*@F+ TAZ F 156 * 015 C # @ 0 ^ ++ TAZ F 156 * 015 C L @ 9 ^ ++
F
15
15
3
2
20
24
8
10
CWR19H^226*@F+ TAZ F 226 * 015 C # @ 0 ^ ++ TAZ F 226 * 015 C L @ 9 ^ ++
F
22
15
3
3
30
36
8
10
CWR19H^336*@F+ TAZ F 336 * 015 C # @ 0 ^ ++ TAZ F 336 * 015 C L @ 9 ^ ++
F
33
15
3
5
50
60
6
8
CWR19H^336*@G+ TAZ G 336 * 015 C # @ 0 ^ ++ TAZ G 336 * 015 C L @ 9 ^ ++ G
33
15
1.1
6
60
72
8
10
CWR19H^476*@G+ TAZ G 476 * 015 C # @ 0 ^ ++ TAZ G 476 * 015 C L @ 9 ^ ++ G
47
15
1.1
10
100
120
8
10
CWR19H^686*@G+ TAZ G 686 * 015 C # @ 0 ^ ++ TAZ G 686 * 015 C L @ 9 ^ ++ G
68
15
1.1
10
100
120
8
10
CWR19H^476*@H+ TAZ H 476 * 015 C # @ 0 ^ ++ TAZ H 476 * 015 C L @ 9 ^ ++ H
47
15
0.9
10
100
120
8
10
CWR19H^686*@H+ TAZ H 686 * 015 C # @ 0 ^ ++ TAZ H 686 * 015 C L @ 9 ^ ++ H
68
15
0.9
10
100
120
8
10
CWR19H^107*@H+ TAZ H 107 * 015 C # @ 0 ^ ++ TAZ H 107 * 015 C L @ 9 ^ ++ H
100
15
0.9
15
150
180
10
12
CWR19J^684*@A+ TAZ A 684 * 020 C # @ 0 ^ ++ TAZ A 684 * 020 C L @ 9 ^ ++
A
0.68
20
15
1
10
12
6
8
CWR19J^105*@A+ TAZ A 105 * 020 C # @ 0 ^ ++ TAZ A 105 * 020 C L @ 9 ^ ++
A
1
20
15
1
10
12
6
8
CWR19J^155*@B+ TAZ B 155 * 020 C # @ 0 ^++ TAZ B 155 * 020 C L @ 9 ^++
B
1.5
20
9
1
10
12
6
8
CWR19J^225*@B+ TAZ B 225 * 020 C # @ 0 ^ ++ TAZ B 225 * 020 C L @ 9 ^ ++
B
2.2
20
9
1
10
12
6
8
CWR19J^335*@D+ TAZ D 335 * 020 C # @ 0 ^ ++ TAZ D 335 * 020 C L @ 9 ^ ++
D
3.3
20
6
1
10
12
6
8
CWR19J^475*@E+ TAZ E 475 * 020 C # @ 0 ^ ++ TAZ E 475 * 020 C L @ 9 ^ ++
E
4.7
20
6
1
10
12
6
8
CWR19J^685*@E+ TAZ E 685 * 020 C # @ 0 ^ ++ TAZ E 685 * 020 C L @ 9 ^ ++
E
6.8
20
5
2
20
24
6
8
CWR19J^106*@E+ TAZ E 106 * 020 C # @ 0 ^ ++ TAZ E 106 * 020 C L @ 9 ^ ++
E
10
20
5
2
20
24
6
8
CWR19J^106*@F+ TAZ F 106 * 020 C # @ 0 ^ ++ TAZ F 106 * 020 C L @ 9 ^ ++
F
10
20
3
2
20
24
6
8
CWR19J^156*@F+ TAZ F 156 * 020 C # @ 0 ^ ++ TAZ F 156 * 020 C L @ 9 ^ ++
F
15
20
3
3
30
36
6
8
CWR19J^226*@G+ TAZ G 226 * 020 C # @ 0 ^ ++ TAZ G 226 * 020 C L @ 9 ^ ++ G
22
20
2.5
4
40
48
6
8
CWR19J^336*@H+ TAZ H 336 * 020 C # @ 0 ^ ++ TAZ H 336 * 020 C L @ 9 ^ ++ H
33
20
0.9
6
60
72
8
10
CWR19J^476*@H+ TAZ H 476 * 020 C # @ 0 ^ ++ TAZ H 476 * 020 C L @ 9 ^ ++ H
47
20
0.9
10
100
120
8
10
CWR19J^476*@X+ TAZ X 476 * 020 C # @ 0 ^ ++ TAZ X 476 * 020 C L @ 9 ^ ++
X
47
20
0.9
10
100
120
8
10
CWR19K^474*@A+ TAZ A 474 * 025 C # @ 0 ^ ++ TAZ A 474 * 025 C L @ 9 ^ ++
A
0.47
25
15
1
10
12
6
8
CWR19K^105*@B+ TAZ B 105 * 025 C # @ 0 ^ ++ TAZ B 105 * 025 C L @ 9 ^ ++
B
1
25
10
1
10
12
6
8
CWR19K^225*@D+ TAZ D 225 * 025 C # @ 0 ^ ++ TAZ D 225 * 025 C L @ 9 ^ ++
D
2.2
25
6
1
10
12
6
8
CWR19K^335*@E+ TAZ E 335 * 025 C # @ 0 ^ ++ TAZ E 335 * 025 C L @ 9 ^ ++ E
3.3
25
4
1
10
12
6
8
CWR19K^685*@F+ TAZ F 685 * 025 C # @ 0 ^ ++ TAZ F 685 * 025 C L @ 9 ^ ++
F
6.8
25
3
2
20
24
6
8
CWR19K^156*@G+ TAZ G 156 * 025 C # @ 0 ^ ++ TAZ G 156 * 025 C L @ 9 ^ ++ G
15
25
1.4
4
40
48
6
8
CWR19K^226*@G+ TAZ G 226 * 025 C # @ 0 ^ ++ TAZ G 226 * 025 C L @ 9 ^ ++ G
22
25
1.4
6
60
72
6
8
CWR19K^226*@H+ TAZ H 226 * 025 C # @ 0 ^ ++ TAZ H 226 * 025 C L @ 9 ^ ++ H
22
25
0.9
6
60
72
6
8
CWR19K^336*@H+ TAZ H 336 * 025 C # @ 0 ^ ++ TAZ H 336 * 025 C L @ 9 ^ ++ H
33
25
0.9
10
100
120
8
10
CWR19M^334*@A+ TAZ A 334 * 035 C # @ 0 ^ ++ TAZ A 334 * 035 C L @ 9 ^ ++
A
0.33
35
22
1
10
12
6
8
CWR19M^685*@G+ TAZ G 685 * 035 C # @ 0 ^ ++ TAZ G 685 * 035 C L @ 9 ^ ++ G
6.8
35
1.5
3
30
36
6
8
CWR19M^106*@H+ TAZ H 106 * 035 C # @ 0 ^ ++ TAZ H 106 * 035 C L @ 9 ^ ++ H
10
35
0.9
4
40
48
8
10
CWR19M^156*@X+ TAZ X 156 * 035 C # @ 0 ^ ++ TAZ X 156 * 035 C L @ 9 ^ ++
X
15
35
0.9
6
60
72
6
8
RATING & PART NUMBER REFERENCE
Power
-55ºC
(%)
8
8
8
8
8
8
8
8
8
12
8
8
10
10
8
10
10
10
10
10
12
8
8
8
8
8
8
8
8
8
8
8
10
10
10
8
8
8
8
8
8
8
8
10
8
8
10
8
25ºC
Dissipation Ripple
A
W
(100kHz)
0.050
0.06
0.050
0.06
0.050
0.06
0.070
0.09
0.070
0.12
0.075
0.12
0.080
0.12
0.080
0.12
0.080
0.12
0.090
0.17
0.090
0.15
0.090
0.15
0.100
0.18
0.100
0.18
0.100
0.18
0.125
0.34
0.125
0.34
0.125
0.34
0.150
0.41
0.150
0.41
0.150
0.41
0.050
0.06
0.050
0.06
0.070
0.09
0.070
0.09
0.080
0.12
0.090
0.12
0.090
0.13
0.090
0.13
0.100
0.18
0.100
0.18
0.125
0.22
0.150
0.41
0.150
0.41
0.200
0.47
0.050
0.06
0.070
0.08
0.080
0.12
0.090
0.15
0.100
0.18
0.125
0.30
0.125
0.30
0.150
0.41
0.150
0.41
0.050
0.05
0.125
0.29
0.150
0.41
0.200
0.47
Typical RMS Ripple Data by Rating
85ºC
125ºC
25ºC
85ºC
Ripple
Ripple
Ripple
Ripple
A
A
V
V
(100kHz) (100kHz) (100kHz) (100kHz)
0.05
0.02
0.87
0.78
0.05
0.02
0.87
0.78
0.05
0.02
0.87
0.78
0.08
0.04
0.79
0.71
0.11
0.05
0.59
0.53
0.11
0.05
0.64
0.58
0.10
0.05
0.69
0.62
0.10
0.05
0.69
0.62
0.10
0.05
0.69
0.62
0.16
0.07
0.52
0.47
0.14
0.06
0.60
0.54
0.14
0.06
0.60
0.54
0.16
0.07
0.55
0.49
0.16
0.07
0.55
0.49
0.16
0.07
0.55
0.49
0.30
0.13
0.37
0.33
0.30
0.13
0.37
0.33
0.30
0.13
0.37
0.33
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.05
0.02
0.87
0.78
0.05
0.02
0.87
0.78
0.08
0.04
0.79
0.71
0.08
0.04
0.79
0.71
0.10
0.05
0.69
0.62
0.11
0.05
0.73
0.66
0.12
0.05
0.67
0.60
0.12
0.05
0.67
0.60
0.16
0.07
0.55
0.49
0.16
0.07
0.55
0.49
0.20
0.09
0.56
0.50
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.42
0.19
0.42
0.38
0.05
0.02
0.87
0.78
0.08
0.03
0.84
0.75
0.10
0.05
0.69
0.62
0.14
0.06
0.60
0.54
0.16
0.07
0.55
0.49
0.27
0.12
0.42
0.38
0.27
0.12
0.42
0.38
0.37
0.16
0.37
0.33
0.37
0.16
0.37
0.33
0.04
0.02
1.05
0.94
0.26
0.12
0.43
0.39
0.37
0.16
0.37
0.33
0.42
0.19
0.42
0.38
125ºC
Ripple
V
(100kHz)
0.35
0.35
0.35
0.32
0.24
0.26
0.28
0.28
0.28
0.21
0.24
0.24
0.22
0.22
0.22
0.15
0.15
0.15
0.15
0.15
0.15
0.35
0.35
0.32
0.32
0.28
0.29
0.27
0.27
0.22
0.22
0.22
0.15
0.15
0.17
0.35
0.33
0.28
0.24
0.22
0.17
0.17
0.15
0.15
0.42
0.17
0.15
0.17
All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes.
NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards.
16
041416