Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 1
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
M39003/01/03/09
Vishay Sprague
FEATURES
Hermetically sealed
Metal cased
Axial lead
Tubular
STYLE, DOCUMENT/DETAIL SPECIFICATION
Style CSR13, M39003/01
Style CSR23, M39003/03
Style CSR21, M39003/09
Solid-Electrolyte TANTALEX® Capacitors to Military
Specification MIL-PRF-39003 - Exponential and Weibull
Distribution: Hermetically sealed, metal cased, axial leaded
tubular capacitors manufactured as Military Styles CSR13,
CSR21 and CSR23. These capacitors are furnished to the
requirements of the military specification, including marking,
testing and inspection.
In accordance with the specification, all capacitors are
marked with the Military Part Number (M39003/xx-xxxx)
rather than the older Style designation (CSRxxxxxxxx) and
should be ordered as such. All capacitors covered by
MIL-PRF-39003 are now ordered with the Military Part
Number as illustrated in the Part Numbering System chart.
Capacitors must not be ordered using the Style number
identification.
MIL-PRF-39003 establishes failure rates (expressed in
percent per 1000 h) based on exponential and Weibull
distribution. Care must be exercised in ordering to insure the
part number correctly identifies the desired failure rate level.
Exponential failure rates are identified as levels M, P, R and
S; Weibull failure rates are B, C and D. Failure rate levels M,
P, R and S are inactive for new designs.
In addition, each order for Military Style CSR13, CSR23
capacitors requiring government inspection must state
whether inspection is to be at the destination or at the Vishay
Sprague Plant. Orders requiring source inspection cannot be
shipped until this has been accomplished.
Style CS13 capacitors previously shown in MIL-C-26655 are
directly replaced by Style CSR13 and Style CSR23
capacitors are extended capacitance range versions of
Military Style CSR13.
For information on the performance characteristics of these
capacitors, please refer to the latest issue of the military
specification.
Note
(1) The material in this section has been abstracted from MIL-PRF-39003. If questions about optional surge current testing or high
temperature solder, please see MIL-PRF-39003, paragraph 1.2, table II.
MILITARY SPECIFICATION MIL-PRF-39003 PART NUMBERING SYSTEM INFORMATION
M39003 /01 -2254 A (1)
BASIC DOCUMENT NUMBER DETAIL
SPECIFICATION
DASH NUMBER SURGE CURRENT OPTION CODE
Indicates the Basic Specification;
in this case MIL-PRF-39003
Indicates the Detail
Specification of
the Basic Military
Specification
Taken from Standard/
Extended Ratings
Tables
Blank = Standard (no surge current)
A = + 25 °C, after Weibull
B = - 55 °C and + 85 °C, after Weibull
C = - 55 °C and + 85 °C, before Weibull
D = + 25 °C, after Weibull, High Temperature solder
E = - 55 °C and + 85 °C, after Weibull,
High Temperature solder
F = - 55 °C and + 85 °C, before Weibull,
High Temperature solder
H = High Temperature solder only (no surge)
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
2Revision: 14-Sep-09
DIMENSIONS in inches [millimeters]
CASE
CODE
L
± 0.031 [0.79]
D
+ 0.016 [0.41]
- 0.015 [0.38]
M
± 0.002 [0.05]
J
(MAX.)
A 0.286 [7.26] 0.135 [3.43] 0.020 [0.51] 0.422 [10.72]
B 0.474 [12.04] 0.185 [4.70] 0.020 [0.51] 0.610 [15.49]
C 0.686 [17.42] 0.289 [7.34] 0.025 [0.64] 0.822 [20.88]
D 0.786 [19.96] 0.351 [8.92] 0.025 [0.64] 0.922 [23.42]
Notes
(1) The case insulation shall extend 0.015" [0.38 mm] minimum beyond each end. However, when a shrink-fitted insulation is used, it shall lap
over the ends of the capacitor body.
(2) A minimum lead length of 1.0" [2.54 mm] for use with tape and reel automatic insertion equipment is available upon request.
(3) Failure Rate levels M, P, R and S are inactive for new design. Insulation is used, it shall lap over the ends of the capacitor body.
M
0.094 [2.4]
Max.
J1.500 ± 0.250
[38.10 ± 6.35]
L
D
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
6 WVDC AT + 85 °C, SURGE = 8 V . . . 4 WVDC AT + 125 °C, SURGE = 5 V
5.6 A 5 5001 5201 5401 5601 6001 7001 8001 0.3 6.0 7.5 4 4
5.6 A 10 2241 2481 2721 2961 6002 7002 8002 0.3 6.0 7.5 4 4
6.8 A 5 5002 5202 5402 5602 6003 7003 8003 0.3 6.0 7.5 6 6
6.8 A 10 2242 2482 2722 2962 6004 7004 8004 0.3 6.0 7.5 6 6
6.8 A 20 2243 2843 2723 2963 6005 7005 8005 0.3 6.0 7.5 6 6
47.0 B 5 5003 5203 5403 5603 6006 7006 8006 1.5 24.0 30.0 6 6
47.0 B 10 2244 2484 2724 2964 6007 7007 8007 1.5 24.0 30.0 6 6
47.0 B 20 2245 2485 2725 2965 6008 7008 8008 1.5 24.0 30.0 6 6
56.0 B 5 5004 5204 5404 5604 6009 7009 8009 1.5 24.0 30.0 6 6
56.0 B 10 2246 2486 2726 2966 6010 7010 8010 1.5 24.0 30.0 6 6
150.0 C 5 5005 5205 5405 5605 6011 7011 8011 4.5 90.0 113.0 8 8
150.0 C 10 2247 2487 2727 2967 6012 7012 8012 4.5 90.0 113.0 8 8
150.0 C 20 2248 2488 2728 2968 6013 7013 8013 4.5 90.0 113.0 8 8
180.0 C 5 5006 5206 5406 5606 6014 7014 8014 5.5 110.0 138.0 8 8
180.0 C 10 2249 2489 2729 2969 6015 7015 8015 5.5 110.0 138.0 8 8
270.0 D 5 5007 5207 5407 5607 6016 7016 8016 6.5 130.0 163.0 8 8
270.0 D 10 2250 2490 2730 2970 6017 7017 8017 6.5 130.0 163.0 8 8
330.0 D 5 5008 5208 5408 5608 6018 7018 8018 7.5 150.0 188.0 8 8
330.0 D 10 2251 2491 2731 2971 6019 7019 8019 7.5 150.0 188.0 8 8
330.0 D 20 2252 2492 2732 2972 6020 7020 8020 7.5 150.0 188.0 8 8
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 3
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
10 WVDC AT + 85 °C, SURGE = 13 V . . . 7 WVDC AT + 125 °C, SURGE = 9 V
3.9 A 5 5009 5209 5409 5609 6021 7021 8021 0.3 6.0 7.5 4 4
3.9 A 10 2253 2493 2733 2973 6022 7022 8022 0.3 6.0 7.5 4 4
4.7 A 5 5010 5210 5410 5610 6023 7023 8023 0.4 7.0 8.8 4 4
4.7 A 10 2254 2494 2734 2974 6024 7024 8024 0.4 7.0 8.8 4 4
4.7 A 20 2255 2495 2735 2975 6025 7025 8025 0.4 7.0 8.8 4 4
27.0 B 5 5011 5211 5411 5611 6026 7026 8026 2.0 40.0 50.0 6 6
27.0 B 10 2256 2496 2736 2976 6027 7027 8027 2.0 40.0 50.0 6 6
33.0 B 5 5012 5212 5412 5612 6028 7028 8028 2.5 50.0 63.0 6 6
33.0 B 10 2257 2497 2737 2977 6029 7029 8029 2.5 50.0 63.0 6 6
33.0 B 20 2258 2498 2738 2978 6030 7030 8030 2.5 50.0 63.0 6 6
39.0 B 5 5013 5213 5413 5613 6031 7031 8031 2.5 50.0 63.0 6 6
39.0 B 10 2259 2499 2739 2979 6032 7032 8032 2.5 50.0 63.0 6 6
82.0 C 5 5014 5214 5414 5614 6033 7033 8033 4.0 80.0 100.0 6 6
82.0 C 10 2260 2500 2740 2980 6034 7034 8034 4.0 80.0 100.0 6 6
100.0 C 5 5015 5215 5415 5615 6035 7035 8035 5.0 100.0 125.0 8 8
100.0 C 10 2261 2501 2741 2981 6036 7036 8036 5.0 100.0 125.0 8 8
100.0 C 20 2262 2502 2742 2982 6037 7037 8037 5.0 100.0 125.0 8 8
120.0 C 5 5016 5216 5416 5616 6038 7038 8038 6.0 120.0 150.0 8 8
120.0 C 10 2263 2503 2743 2983 6039 7039 8039 6.0 120.0 150.0 8 8
180.0 D 5 5017 5217 5417 5617 6040 7040 8040 9.0 180.0 226.0 8 8
180.0 D 10 2264 2504 2744 2984 6041 7041 8041 9.0 180.0 226.0 8 8
220.0 D 5 5018 5218 5418 5618 6042 7042 8042 10.0 200.0 250.0 8 8
220.0 D 10 2265 2505 2745 2985 6043 7043 8043 10.0 200.0 250.0 8 8
220.0 D 20 2266 2506 2746 2986 6044 7044 8044 10.0 200.0 250.0 8 8
15 WVDC AT + 85 °C, SURGE = 20 V . . . 10 WVDC AT + 125 °C, SURGE = 12 V
2.7 A 5 5019 5219 5419 5619 6045 7045 8045 0.3 6.0 7.5 4 4
2.7 A 10 2267 2507 2747 2987 6046 7046 8046 0.3 6.0 7.5 4 4
3.3 A 5 5020 5220 5420 5620 6047 7047 8047 0.4 8.0 10.0 4 4
3.3 A 10 2268 2508 2748 2988 6048 7048 8048 0.4 8.0 10.0 4 4
3.3 A 20 2269 2509 2749 2989 6049 7049 8049 0.4 8.0 10.0 4 4
18.0 B 5 5021 5221 5421 5621 6050 7050 8050 2.0 35.0 44.0 6 6
18.0 B 10 2270 2510 2750 2990 6051 7051 8051 2.0 35.0 44.0 6 6
22.0 B 5 5022 5222 5422 5622 6052 7052 8052 2.0 40.0 50.0 6 6
22.0 B 10 2271 2511 2751 2991 6053 7053 8053 2.0 40.0 50.0 6 6
22.0 B 20 2272 2512 2752 2992 6054 7054 8054 2.0 40.0 50.0 6 6
56.0 C 5 5023 5223 5423 5623 6055 7055 8055 4.0 80.0 100.0 6 6
56.0 C 10 2273 2513 2753 2993 6056 7056 8056 4.0 80.0 100.0 6 6
68.0 C 5 5024 5224 5424 5624 6057 7057 8057 5.0 100.0 125.0 6 6
68.0 C 10 2274 2514 2754 2994 6058 7058 8058 5.0 100.0 125.0 6 6
68.0 C 20 2275 2515 2755 2995 6059 7059 8059 5.0 100.0 125.0 6 6
120.0 D 5 5025 5225 5425 5625 6060 7060 8060 9.0 180.0 226.0 8 8
120.0 D 10 2276 2516 2756 2996 6061 7061 8061 9.0 180.0 226.0 8 8
150.0 D 5 5026 5226 5426 5626 6062 7062 8062 10.0 200.0 250.0 8 8
150.0 D 10 2277 2517 2757 2997 6063 7063 8063 10.0 200.0 250.0 8 8
150.0 D 20 2278 2518 2758 2998 6064 7064 8064 10.0 200.0 250.0 8 8
20 WVDC AT + 85 °C, SURGE = 26 V . . . 13 WVDC AT + 125 °C, SURGE = 16 V
1.2 A 5 5027 5227 5427 5627 6065 7065 8065 0.3 6.0 7.5 4 4
1.2 A 10 2279 2519 2759 2999 6066 7066 8066 0.3 6.0 7.5 4 4
1.5 A 5 5028 5228 5428 5628 6067 7067 8067 0.3 6.0 7.5 4 4
1.5 A 10 2280 2520 2760 3000 6068 7068 8068 0.3 6.0 7.5 4 4
1.5 A 20 2281 2521 2761 3001 6069 7069 8069 0.3 6.0 7.5 4 4
1.5 A 5 5029 5229 5429 5629 6070 7070 8070 0.3 6.0 7.5 4 4
1.8 A 10 2282 2522 2762 3002 6071 7071 8071 0.3 6.0 7.5 4 4
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
4Revision: 14-Sep-09
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
20 WVDC AT + 85 °C, SURGE = 26 V . . . 13 WVDC AT + 125 °C, SURGE = 16 V
2.2 A 5 5030 5230 5430 5630 6072 7072 8072 0.4 8.0 10.0 4 4
2.2 A 10 2283 2523 2763 3003 6073 7073 8073 0.4 8.0 10.0 4 4
2.2 A 20 2284 2524 2764 3004 6074 7074 8074 0.4 8.0 10.0 4 4
8.2 B 5 5031 5231 5431 5631 6075 7075 8075 1.0 20.0 25.0 6 6
8.2 B 10 2285 2525 2765 3005 6076 7076 8076 1.0 20.0 25.0 6 6
10.0 B 5 5032 5232 5432 5632 6077 7077 8077 1.5 30.0 38.0 6 6
10.0 B 10 2286 2526 2766 3006 6078 7078 8078 1.5 30.0 38.0 6 6
10.0 B 20 2287 2527 2767 3007 6079 7079 8079 1.5 30.0 38.0 6 6
12.0 B 5 5033 5233 5433 5633 6080 7080 8080 1.8 35.0 44.0 6 6
12.0 B 10 2288 2528 2768 3008 6081 7081 8081 1.8 35.0 44.0 6 6
15.0 B 5 5034 5234 5434 5634 6082 7082 8082 2.0 40.0 50.0 6 6
15.0 B 10 2289 2529 2769 3009 6083 7083 8083 2.0 40.0 50.0 6 6
15.0 B 20 2290 2530 2770 3010 6084 7084 8084 2.0 40.0 50.0 6 6
27.0 C 5 5035 5235 5435 5635 6085 7085 8085 2.5 50.0 63.0 6 6
27.0 C 10 2291 2531 2771 3011 6086 7086 8086 2.5 50.0 63.0 6 6
33.0 C 5 5036 5236 5436 5636 6087 7087 8087 3.5 70.0 88.0 6 6
33.0 C 10 2292 2532 2772 3012 6088 7088 8088 3.5 70.0 88.0 6 6
33.0 C 20 2293 2533 2773 3013 6089 7089 8089 3.5 70.0 88.0 6 6
39.0 C 5 5037 5237 5437 5637 6090 7090 8090 4.0 80.0 100.0 6 6
39.0 C 10 2294 2534 2774 3014 6091 7091 8091 4.0 80.0 100.0 6 6
47.0 C 5 5038 5238 5438 5368 6092 7092 8092 4.5 90.0 113.0 6 6
47.0 C 10 2295 2535 2775 3015 6093 7093 8093 4.5 90.0 113.0 6 6
47.0 C 20 2296 2536 2776 3016 6094 7094 8094 4.5 90.0 113.0 6 6
56.0 D 5 5039 5239 5439 5639 6095 7095 8095 5.5 110.0 138.0 6 6
56.0 D 10 2297 2537 2777 3017 6096 7096 8096 5.5 110.0 138.0 6 6
68.0 D 5 5040 5240 5440 5640 6097 7097 8097 7.0 140.0 175.0 6 6
68.0 D 10 2298 2538 2778 3018 6098 7098 8098 7.0 140.0 175.0 6 6
68.0 D 20 2299 2539 2779 3019 6099 7099 8099 7.0 140.0 175.0 6 6
82.0 D 5 5041 5241 5441 5641 6100 7100 8100 8.0 160.0 200.0 6 6
82.0 D 10 2300 2540 2780 3020 6101 7101 8101 8.0 160.0 200.0 6 6
100.0 D 5 5042 5242 5442 5642 6102 7102 8102 10.0 200.0 250.0 8 8
100.0 D 10 2301 2541 2781 3021 6103 7103 8103 10.0 200.0 250.0 8 8
100.0 D 20 2302 2542 2782 3022 6104 7104 8104 10.0 200.0 250.0 8 8
35 WVDC AT + 85 °C, SURGE = 46 V . . . 23 WVDC AT + 125 °C, SURGE = 28 V
5.6 B 5 5043 5243 5443 5643 6105 7105 8105 1.3 25.0 32.0 4 4
5.6 B 10 2303 2543 2783 3023 6106 7106 8106 1.3 25.0 32.0 4 4
6.8 B 5 5044 5244 5444 5644 6107 7107 8107 1.5 30.0 38.0 6 6
6.8 B 10 2304 2544 2784 3024 6108 7108 8108 1.5 30.0 38.0 6 6
6.8 B 20 2305 2545 2785 3025 6109 7109 8109 1.5 30.0 38.0 6 6
22.0 C 5 5045 5245 5445 5645 6110 7110 8110 4.0 80.0 100.0 6 6
22.0 C 10 2306 2546 2786 3026 6111 7111 8111 4.0 80.0 100.0 6 6
22.0 C 20 2307 2547 2787 3027 6112 7112 8112 4.0 80.0 100.0 6 6
27.0 D 5 5046 5246 5446 5646 6113 7113 8113 4.5 90.0 113.0 6 6
27.0 D 10 2308 2548 2788 3028 6114 7114 8114 4.5 90.0 113.0 6 6
33.0 D 5 5047 5247 5447 5647 6115 7115 8115 5.5 110.0 138.0 6 6
33.0 D 10 2309 2549 2789 3029 6116 7116 8116 5.5 110.0 138.0 6 6
33.0 D 20 2310 2550 2790 3030 6117 7117 8117 5.5 110.0 138.0 6 6
39.0 D 5 5048 5248 5448 5648 6118 7118 8118 7.0 140.0 175.0 6 6
39.0 D 10 2311 2551 2791 3031 6119 7119 8119 7.0 140.0 175.0 6 6
47.0 D 5 5049 5249 5449 5649 6120 7120 8120 8.0 160.0 200.0 6 6
47.0 D 10 2312 2552 2792 3032 6121 7121 8121 8.0 160.0 200.0 6 6
47.0 D 20 2313 2553 2793 3033 6122 7122 8122 8.0 160.0 200.0 6 6
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 5
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
50 WVDC AT + 85 °C, SURGE = 65 V . . . 33 WVDC AT + 125 °C, SURGE = 40 V
0.056 A 5 5063 5263 5463 5663 6156 7156 8156 0.3 5.0 6.3 2 4
0.056 A 10 2334 2574 2814 3054 6157 7157 8157 0.3 5.0 6.3 2 4
0.068 A 5 5064 5264 5464 5664 6158 7158 8158 0.3 5.0 6.3 2 4
0.068 A 10 2335 2575 2815 3055 6159 7159 8159 0.3 5.0 6.3 2 4
0.068 A 20 2336 2576 2816 3056 6160 7160 8160 0.3 5.0 6.3 2 4
0.082 A 5 5065 5265 5465 5665 6161 7161 8161 0.3 5.0 6.3 2 4
0.082 A 10 2337 2577 2817 3057 6162 7162 8162 0.3 5.0 6.3 2 4
0.10 A 5 5066 5266 5466 5666 6163 7163 8163 0.3 5.0 6.3 2 4
0.10 A 10 2338 2578 2818 3058 6164 7164 8164 0.3 5.0 6.3 2 4
0.10 A 20 2339 2579 3819 3059 6165 7165 8165 0.3 5.0 6.3 2 4
0.12 A 5 5067 5267 5467 5667 6166 7166 8166 0.3 5.0 6.3 2 4
0.12 A 10 2340 2580 2820 3060 6167 7167 8167 0.3 5.0 6.3 2 4
0.15 A 5 5068 5268 5468 5668 6168 7168 8168 0.3 5.0 6.3 2 4
0.15 A 10 2341 2581 2821 3061 6169 7169 8169 0.3 5.0 6.3 2 4
0.15 A 20 2342 2582 2822 3062 6170 7170 8170 0.3 5.0 6.3 2 4
0.18 A 5 5069 5269 5469 5669 6171 7171 8171 0.3 5.0 6.3 2 4
0.18 A 10 2343 2583 2823 3063 6172 7172 8172 0.3 5.0 6.3 2 4
0.22 A 5 5070 5270 5470 5670 6173 7173 8173 0.3 5.0 6.3 2 4
0.22 A 10 2344 2584 2824 3064 6174 7174 8174 0.3 5.0 6.3 2 4
0.22 A 20 2345 2585 2825 3065 6175 7175 8175 0.3 5.0 6.3 2 4
0.27 A 5 5071 5271 5471 5671 6176 7176 8176 0.3 5.0 6.3 2 4
0.27 A 10 2346 2586 2826 3066 6177 7177 8177 0.3 5.0 6.3 2 4
0.33 A 5 5072 5272 5472 5672 6178 7178 8178 0.3 5.0 6.3 2 4
0.33 A 10 2347 2587 2827 3067 6179 7179 8179 0.3 5.0 6.3 2 4
0.33 A 20 2348 2588 2828 3068 6180 7180 8180 0.3 5.0 6.3 2 4
0.39 A 5 5073 5273 5473 5673 6181 7181 8181 0.3 5.0 6.3 2 4
0.39 A 10 2349 2589 2829 3069 6182 7182 8182 0.3 5.0 6.3 2 4
0.47 A 5 5074 5274 5474 5674 6183 7183 8183 0.3 5.0 6.3 2 4
0.47 A 10 2350 2590 2830 3070 6184 7184 8184 0.3 5.0 6.3 2 4
0.47 A 20 2351 2591 2831 3071 6185 7185 8185 0.3 5.0 6.3 2 4
0.56 A 5 5075 5275 5475 5675 6186 7186 8186 0.3 5.0 6.3 2 4
0.56 A 10 2352 2592 2832 3072 6187 7187 8187 0.3 5.0 6.3 2 4
0.68 A 5 5076 5276 5476 5676 6188 7188 8188 0.3 5.0 6.3 2 4
0.68 A 10 2353 2593 2833 3073 6189 7189 8189 0.3 5.0 6.3 2 4
0.68 A 20 2354 2594 2834 3074 6190 7190 8190 0.3 5.0 6.3 2 4
0.82 A 5 5077 5277 5477 5677 6191 7191 8191 0.3 5.0 6.3 2 4
0.82 A 10 2355 2595 2835 3075 6192 7192 8192 0.3 5.0 6.3 2 4
1.0 A 5 5078 5278 5478 5678 6193 7193 8193 0.4 8.0 10.0 4 4
1.0 A 10 2356 2596 2836 3076 6194 7194 8194 0.4 8.0 10.0 4 4
1.0 A 20 2357 2597 2837 3077 6195 7195 8195 0.4 8.0 10.0 4 4
1.2 B 5 5079 5279 5479 5679 6196 7196 8196 0.4 9.0 11.0 4 4
1.2 B 10 2358 2598 2838 3078 6197 7197 8197 0.4 9.0 11.0 4 4
1.5 B 5 5080 5280 5480 5680 6198 7198 8198 0.6 12.0 15.0 4 4
1.5 B 10 2359 2599 2839 3079 6199 7199 8199 0.6 12.0 15.0 4 4
1.5 B 20 2360 2600 2840 3080 6200 7200 8200 0.6 12.0 15.0 4 4
1.8 B 5 5081 5281 5481 5681 6201 7201 8201 0.7 14.0 18.0 4 4
1.8 B 10 2361 2601 2841 3081 6202 7202 8202 0.7 14.0 18.0 4 4
2.2 B 5 5082 5282 5482 5682 6203 7203 8203 0.8 17.0 22.0 4 4
2.2 B 10 2362 2602 2842 3082 6204 7204 8204 0.8 17.0 22.0 4 4
2.2 B 20 2363 2603 2843 3083 6205 7205 8205 0.8 17.0 22.0 4 4
2.7 B 5 5083 5283 5483 5683 6206 7206 8206 1.0 20.0 25.0 4 4
2.7 B 10 2364 2604 2844 3084 6207 7207 8207 1.0 20.0 25.0 4 4
3.3 B 5 5084 5284 5484 5684 6208 7208 8208 1.2 25.0 32.0 4 4
3.3 B 10 2365 2605 2845 3085 6209 7209 8209 1.2 25.0 32.0 4 4
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
6Revision: 14-Sep-09
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
50 WVDC AT + 85 °C, SURGE = 65 V . . . 33 WVDC AT + 125 °C, SURGE = 40 V
3.3 B 20 2366 2606 2846 3086 6210 7210 8210 1.2 25.0 32.0 4 4
3.9 B 5 5085 5285 5485 5685 6211 7211 8211 1.5 30.0 38.0 4 4
3.9 B 10 2367 2607 2847 3087 6212 7212 8212 1.5 30.0 38.0 4 4
4.7 B 5 5086 5286 5486 5686 6213 7213 8213 1.7 35.0 44.0 4 4
4.7 B 10 2368 2608 2848 3088 6214 7214 8214 1.7 35.0 44.0 4 4
4.7 B 20 2369 2609 2849 3089 6215 7215 8215 1.7 35.0 44.0 4 4
5.6 C 5 5087 5287 5487 5687 6216 7216 8216 2.2 45.0 56.0 4 4
5.6 C 10 2370 2610 2850 3090 6217 7217 8217 2.2 45.0 56.0 4 4
6.8 C 5 5088 5288 5488 5688 6218 7218 8218 2.2 45.0 56.0 6 6
6.8 C 10 2371 2611 2851 3091 6219 7219 8219 2.2 45.0 56.0 6 6
6.8 C 20 2372 2612 2852 3092 6220 7220 8220 2.2 45.0 56.0 6 6
8.2 C 5 5089 5289 5489 5689 6221 7221 8221 2.5 50.0 63.0 6 6
8.2 C 10 2373 2613 2853 3093 6222 7222 8222 2.5 50.0 63.0 6 6
10.0 C 5 5090 5290 5490 5690 6223 7223 8223 2.5 50.0 63.0 6 6
10.0 C 10 2374 2614 2854 3094 6224 7224 8224 2.5 50.0 63.0 6 6
10.0 C 20 2375 2615 2855 3095 6225 7225 8225 2.5 50.0 63.0 6 6
12.0 C 5 5091 5291 5491 5691 6226 7226 8226 3.0 60.0 75.0 6 6
12.0 C 10 2376 2616 2856 3096 6227 7227 8227 3.0 60.0 75.0 6 6
15.0 C 5 5092 5292 5492 5692 6228 7228 8228 4.0 80.0 100.0 6 6
15.0 C 10 2377 2617 2857 3097 6229 7229 8229 4.0 80.0 100.0 6 6
15.0 C 20 2378 2618 2858 3098 6230 7230 8230 4.0 80.0 100.0 6 6
18.0 C 5 5093 5293 5493 5693 6231 7231 8231 4.5 90.0 113.0 6 6
18.0 C 10 2379 2619 2859 3099 6232 7232 8232 4.5 90.0 113.0 6 6
22.0 D 5 5094 5294 5494 5694 6233 7233 8233 5.5 110.0 138.0 6 6
22.0 D 10 2380 2620 2860 3100 6234 7234 8234 5.5 110.0 138.0 6 6
22.0 D 20 2381 2621 2861 3101 6235 7235 8235 5.5 110.0 138.0 6 6
75 WVDC AT + 85 °C, SURGE = 98 V . . . 50 WVDC AT + 125 °C, SURGE = 64 V
0.1 A 5 5095 5295 5495 5695 6236 7236 8236 0.3 5.0 6.3 2 4
0.1 A 10 2382 2622 2862 3102 6237 7237 8237 0.3 5.0 6.3 2 4
0.1 A 20 2383 2623 2863 3103 6238 7238 8238 0.3 5.0 6.3 2 4
0.12 A 5 5096 5296 5496 5696 6239 7239 8239 0.3 5.0 6.3 2 4
0.12 A 10 2384 2624 2864 3104 6240 7240 8240 0.3 5.0 6.3 2 4
0.15 A 5 5097 5297 5497 5697 6241 7241 8241 0.3 5.0 6.3 2 4
0.15 A 10 2385 2625 2865 3105 6242 7242 8242 0.3 5.0 6.3 2 4
0.15 A 20 2386 2626 2866 3106 6243 7243 8243 0.3 5.0 6.3 2 4
0.18 A 5 5098 5298 5498 5698 6244 7244 8244 0.3 5.0 6.3 2 4
0.18 A 10 2387 2627 2867 3107 6245 7245 8245 0.3 5.0 6.3 2 4
0.22 A 5 5099 5299 5499 5699 6246 7246 8246 0.3 5.0 6.3 2 4
0.22 A 10 2388 2628 2868 3108 6247 7247 8247 0.3 5.0 6.3 2 4
0.22 A 20 2389 2629 2869 3109 6248 7248 8248 0.3 5.0 6.3 2 4
0.27 A 5 5100 5300 5500 5700 6249 7249 8249 0.3 5.0 6.3 2 4
0.27 A 10 2390 2630 2870 3110 6250 7250 8250 0.3 5.0 6.3 2 4
0.33 A 5 5101 5301 5501 5701 6251 7251 8251 0.3 5.0 6.3 2 4
0.33 A 10 2391 2631 2871 3111 6252 7252 8252 0.3 5.0 6.3 2 4
0.33 A 20 2392 2632 2872 3112 6253 7253 8253 0.3 5.0 6.3 2 4
0.39 A 5 5102 5302 5502 5702 6254 7254 8254 0.3 5.0 6.3 2 4
0.39 A 10 2393 2633 2873 3113 6255 7255 8255 0.3 5.0 6.3 2 4
0.47 A 5 5103 5303 5503 5703 6256 7256 8256 0.3 5.0 6.3 2 4
0.47 A 10 2394 2634 2874 3114 6257 7257 8257 0.3 5.0 6.3 2 4
0.47 A 20 2395 2635 2875 3115 6258 7258 8258 0.3 5.0 6.3 2 4
0.56 A 5 5104 5304 5504 5704 6259 7259 8259 0.3 5.0 6.3 2 4
0.56 A 10 2396 2636 2876 3116 6260 7260 8260 0.3 5.0 6.3 2 4
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 7
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
75 WVDC AT + 85 °C, SURGE = 98 V . . . 50 WVDC AT + 125 °C, SURGE = 64 V
0.68 A 5 5105 5305 5505 5705 6261 7261 8261 0.3 5.0 6.3 2 4
0.68 A 10 2397 2637 2877 3117 6262 7262 8262 0.3 5.0 6.3 2 4
0.68 A 20 2398 2638 2878 3118 6263 7263 8263 0.3 5.0 6.3 2 4
0.82 B 5 5106 5306 5506 5706 6264 7264 8264 0.3 5.0 6.3 2 4
0.82 B 10 2399 2879 2879 3119 6265 7265 8265 0.3 5.0 6.3 2 4
1.0 B 5 5107 5307 5507 5707 6266 7266 8266 0.3 5.0 6.3 2 4
1.0 B 10 2400 2410 2880 3120 6267 7267 8267 0.3 5.0 6.3 2 4
1.0 B 20 2401 2641 2881 3121 6268 7268 8268 0.3 5.0 6.3 2 4
1.2 B 5 5108 5308 5508 5708 6269 7269 8269 0.3 5.0 6.3 4 4
1.2 B 10 2402 2642 2882 3122 6270 7270 8270 0.3 5.0 6.3 4 4
1.5 B 5 5109 5309 5509 5709 6271 7271 8271 0.6 10.0 13.0 4 4
1.5 B 10 2403 2643 2883 3123 6272 7272 8272 0.6 10.0 13.0 4 4
1.5 B 20 2404 2664 2884 3124 6273 7273 8273 0.6 10.0 13.0 4 4
1.8 B 5 5110 5310 5510 5710 6274 7274 8274 0.7 10.0 13.0 4 4
1.8 B 10 2405 2645 2885 3125 6275 7275 8275 0.7 10.0 13.0 4 4
1.8 B 10 2405 2645 2885 3125 6275 7275 8275 0.7 10.0 13.0 4 4
2.2 B 5 5111 5311 5511 5711 6276 7276 8276 0.8 15.0 19.0 4 4
2.2 B 10 2406 2646 2886 3126 6277 7277 8277 0.8 15.0 19.0 4 4
2.2 B 20 2407 2647 2887 3127 6278 7278 8278 1.0 15.0 19.0 4 4
2.7 B 5 5112 5312 5512 5712 6279 7279 8279 1.0 15.0 19.0 4 4
2.7 B 10 2408 2648 2888 3128 6280 7280 8280 1.2 15.0 19.0 4 4
3.3 B 5 5113 5313 5513 5713 6281 7281 8281 1.2 20.0 25.0 4 4
3.3 B 10 2409 2649 2889 3129 6282 7282 8282 1.2 20.0 25.0 4 4
3.3 B 20 2410 2650 2890 3130 6283 7283 8283 1.5 20.0 25.0 4 4
3.9 B 5 5114 5314 5514 5714 6284 7284 8284 1.5 20.0 25.0 4 4
3.9 B 10 2411 2651 2891 3131 6285 7285 8285 3.0 20.0 25.0 4 4
4.7 C 5 5115 5315 5515 5715 6286 7286 8286 3.0 60.0 75.0 4 4
4.7 C 10 2412 2652 2892 3132 6287 7287 8287 3.0 60.0 75.0 4 4
4.7 C 20 2413 2653 2893 3133 6288 7288 8288 3.0 60.0 75.0 4 4
5.6 C 5 5116 5316 5513 5716 6289 7289 8289 3.0 60.0 75.0 4 4
5.6 C 10 2414 2654 2894 3134 6290 7290 8290 5.0 60.0 75.0 4 4
6.8 C 5 5117 5317 5517 5717 6291 7291 8291 5.0 100.0 125.0 6 6
6.8 C 10 2415 2655 2895 3135 6292 7292 8292 5.0 100.0 125.0 6 6
6.8 C 20 2416 2656 2896 3136 6293 7293 8293 5.0 100.0 125.0 6 6
8.2 C 5 5118 5318 5518 5718 6294 7294 8294 5.0 100.0 125.0 6 6
8.2 C 10 2417 2657 2897 3137 6295 7295 8295 5.0 100.0 125.0 6 6
10.0 C 5 5119 5319 5519 5719 6296 7296 8296 5.0 100.0 125.0 6 6
10.0 C 10 2418 2658 2898 3138 6297 7297 8297 5.0 100.0 125.0 6 6
10.0 C 20 2419 2659 2899 3139 6298 7298 8295 5.0 100.0 125.0 6 6
12.0 D 5 5120 5320 5520 5720 6299 7299 8299 5.0 100.0 125.0 6 6
12.0 D 10 2420 2660 2900 3140 6300 7300 8300 5.0 100.0 125.0 6 6
15.0 D 5 5121 5321 5521 5721 6301 7301 8301 7.0 140.0 175.0 6 6
15.0 D 10 2421 2661 2901 3141 6302 7302 8302 7.0 140.0 175.0 6 6
15.0 D 20 2422 2662 2902 3142 6303 7303 8303 7.0 140.0 175.0 6 6
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
8Revision: 14-Sep-09
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
100 WVDC AT + 85 °C, SURGE = 130 V . . . 67 WVDC AT + 125 °C, SURGE = 86 V
0.056 A 5 5135 5335 5535 5735 6337 7337 8337 0.3 5.0 6.3 2 4
0.056 A 10 2443 2683 2923 3163 6338 7338 8338 0.3 5.0 6.3 2 4
0.068 A 5 5136 5336 5536 5736 6339 7339 8339 0.3 5.0 6.3 2 4
0.068 A 10 2444 2684 2924 3164 6340 7340 8340 0.3 5.0 6.3 2 4
0.068 A 20 2445 2685 2925 3165 6341 7341 8341 0.3 5.0 6.3 2 4
0.082 A 5 5137 5337 5537 5737 6342 7342 8342 0.3 5.0 6.3 2 4
0.082 A 10 2446 2686 2926 3166 6343 7343 8343 0.3 5.0 6.3 2 4
0.1 A 5 5138 5338 5538 5738 6344 7344 8344 0.3 5.0 6.3 2 4
0.1 A 10 2447 2687 2927 3167 6345 7345 8345 0.3 5.0 6.3 2 4
0.1 A 20 2448 2688 2928 3168 6346 7346 8346 0.3 5.0 6.3 2 4
0.12 A 5 5139 5339 5539 5739 6347 7347 8347 0.3 5.0 6.3 2 4
0.12 A 10 2449 2689 2929 3169 6348 7348 8348 0.3 5.0 6.3 2 4
0.15 A 5 5140 5340 5540 5740 6349 7349 8349 0.3 5.0 6.3 2 4
0.15 A 10 2450 2690 2930 3170 6350 7350 8350 0.3 5.0 6.3 2 4
0.15 A 20 2451 2691 2931 3171 6351 7351 8351 0.3 5.0 6.3 2 4
0.18 A 5 5141 5341 5541 5741 6352 7352 8352 0.3 5.0 6.3 2 4
0.18 A 10 2452 2692 2932 3172 6353 7353 8353 0.3 5.0 6.3 2 4
0.22 A 5 5142 5342 5542 5742 6354 7354 8354 0.3 5.0 6.3 2 4
0.22 A 10 2453 2693 2933 3173 6355 7355 8355 0.3 5.0 6.3 2 4
0.22 A 20 2454 2694 2934 3174 6356 7356 8356 0.3 5.0 6.3 2 4
0.27 A 5 5143 5343 5543 5743 6357 7357 8357 0.3 5.0 6.3 2 4
0.27 A 10 2455 2695 2935 3175 6358 7358 8358 0.3 5.0 6.3 2 4
0.33 A 5 5144 5344 5544 5744 6359 7359 8359 0.3 5.0 6.3 2 4
0.33 A 10 2456 2696 2936 3176 6360 7360 8360 0.3 5.0 6.3 2 4
0.33 A 20 2457 2697 2937 3177 6361 7361 8361 0.3 5.0 6.3 2 4
0.39 A 5 5145 5345 5545 5745 6362 7362 8362 0.3 5.0 6.3 2 4
0.39 A 10 2458 2698 2938 3178 6363 7363 8363 0.3 5.0 6.3 2 4
0.47 A 5 5146 5436 5546 5746 6364 7364 8364 0.3 5.0 6.3 2 4
0.47 A 10 2459 2699 2939 3179 6365 7365 8365 0.3 5.0 6.3 2 4
0.47 A 20 2460 2700 2940 3180 6366 7366 8366 0.3 5.0 6.3 2 4
0.56 A 5 5147 5347 5547 5747 6367 7367 8367 0.3 5.0 6.3 2 4
0.56 A 10 2461 2701 2941 3181 6368 7368 8368 0.3 5.0 6.3 2 4
0.68 B 5 5148 5348 5548 5748 6369 7369 8369 0.3 5.0 6.3 2 4
0.68 B 10 2462 2702 2942 3182 6370 7370 8370 0.3 5.0 6.3 2 4
0.68 B 20 2463 2703 2943 3183 6371 7371 8371 0.3 5.0 6.3 2 4
0.82 B 5 5149 5349 5549 5749 6372 7372 8372 0.4 5.0 6.3 2 4
0.82 B 10 2464 2704 2944 3184 6373 7373 8373 0.4 5.0 6.3 2 4
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 9
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
STANDARD RATINGS: CSR13, M39003/01-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/01-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
100 WVDC AT + 85 °C, SURGE = 130 V . . . 67 WVDC AT + 125 °C, SURGE = 86 V
1.0 B 5 5150 5350 5550 5750 6374 7374 8374 0.5 5.0 6.3 2 4
1.0 B 10 2465 2705 2945 3185 6375 7375 8375 0.5 5.0 6.3 2 4
1.0 B 20 2466 2706 2946 3186 6376 7376 8376 0.5 5.0 6.3 2 4
1.2 B 5 5151 5351 5551 5751 6377 7377 8377 0.5 5.0 6.3 4 4
1.2 B 10 2467 2707 2947 3187 6378 7378 8378 0.5 5.0 6.3 4 4
1.5 B 5 5152 5352 5552 5752 6379 7379 8379 0.7 10.0 13.0 4 4
1.5 B 10 2468 2708 2948 3188 6380 7380 8380 0.7 10.0 13.0 4 4
1.5 B 20 2469 2709 2949 3189 6381 7381 8381 0.7 10.0 13.0 4 4
1.8 B 5 5153 5353 5553 5753 6382 7382 8382 0.7 10.0 13.0 4 4
1.8 B 10 2470 2710 2950 3190 6383 7383 8383 0.7 10.0 13.0 4 4
2.2 B 5 5154 5354 5554 5754 6384 7384 8384 0.9 15.0 19.0 4 4
2.2 B 10 2471 2711 2951 3191 6385 7385 8385 0.9 15.0 19.0 4 4
2.2 B 20 2472 2712 2952 3192 6386 7386 8386 0.9 15.0 19.0 4 4
2.7 B 5 5155 5355 5555 5755 6387 7387 8387 1.1 15.0 19.0 4 4
2.7 B 10 2473 2713 2953 3193 6388 7388 8388 1.1 15.0 19.0 4 4
3.3 C 5 5156 5356 5556 5756 6389 7389 8389 1.5 30.0 38.0 6 6
3.3 C 10 5157 5357 5557 5757 6390 7390 8390 1.5 30.0 38.0 6 6
3.3 C 20 5158 5358 5558 5758 6391 7391 8391 1.5 30.0 38.0 6 6
3.9 C 5 5159 5359 5559 5759 6392 7392 8392 1.5 30.0 38.0 6 6
3.9 C 10 5160 5360 5560 5760 6393 7393 8393 1.5 30.0 38.0 6 6
4.7 C 5 5161 5361 5561 5761 6394 7394 8394 2.5 50.0 63.0 6 6
4.7 C 10 5162 5362 5562 5762 6395 7395 8395 2.5 50.0 63.0 6 6
4.7 C 20 5163 5363 5563 5763 6396 7396 8396 2.5 50.0 63.0 6 6
5.6 C 5 5164 5364 5564 5764 6397 7397 8397 2.5 50.0 63.0 6 6
5.6 C 10 5165 5365 5565 5765 6398 7398 8398 2.5 50.0 63.0 6 6
6.8 C 5 5166 5366 5566 5766 6399 7399 8399 2.5 50.0 63.0 6 6
6.8 C 10 5167 5367 5567 5767 6400 7400 8400 2.5 50.0 63.0 6 6
6.8 C 20 5168 5368 5568 5768 6401 7401 8401 2.5 50.0 63.0 6 6
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
10 Revision: 14-Sep-09
STANDARD RATINGS: CSR21, M39003/09-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/09-
FAILURE RATE LEVEL (%/1000 h)
MAX. DCL
(µA) AT
MAX.
DF AT
+ 25 °C
1 kHz
(%)
MAX.
ESR AT
+ 25 °C
100 kHz
(Ω)
DERATED
MAX.
RIPPLE
CURRENT
AT + 25 °C
(A)
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C 40
kHz
1
kHz
6 WVDC AT + 85 °C, SURGE = 8 V . . . 4 WVDC AT + 125 °C, SURGE = 5 V
150.0 C 5 0001 0101 0201 0301 2001 3001 4001 4.5 90.0 113.0 10 0.065 3.3 2.0
150.0 C 10 0002 0102 0202 0302 2002 3002 4002 4.5 90.0 113.0 10 0.065 3.3 2.0
150.0 C 20 0003 0103 0203 0303 2003 3003 4003 4.5 90.0 113.0 10 0.065 3.3 2.0
180.0 C 5 0004 0104 0204 0304 2004 3004 4004 5.5 110.0 138.0 10 0.060 3.4 2.4
180.0 C 10 0005 0105 0205 0305 2005 3005 4005 5.5 110.0 138.0 10 0.060 3.4 2.4
270.0 D 5 0006 0106 0206 0306 2006 3006 4006 6.5 130.0 163.0 10 0.050 4.1 3.4
270.0 D 10 0007 0107 0207 0307 2007 3007 4007 6.5 130.0 163.0 10 0.050 4.1 3.4
330.0 D 5 0008 0108 0208 0308 2008 3008 4008 7.5 150.0 188.0 12 0.045 4.3 3.8
330.0 D 10 0009 0109 0209 0309 2009 3009 4009 7.5 150.0 188.0 12 0.045 4.3 3.8
330.0 D 20 0010 0110 0210 0310 2010 3010 4010 7.5 150.0 188.0 12 0.045 4.3 3.8
10 WVDC AT + 85 °C, SURGE = 13 V . . . 7 WVDC AT + 125 °C, SURGE = 9 V
82.0 C 5 0011 0111 0211 0311 2011 3011 4011 4.0 80.0 100.0 8 0.085 2.9 1.8
82.0 C 10 0012 0112 0212 0312 2012 3012 4012 4.0 80.0 100.0 8 0.085 2.9 1.8
100.0 C 5 0013 0113 0213 0313 2013 3013 4013 5.0 100.0 125.0 8 0.075 3.0 2.2
100.0 C 10 0014 0114 0214 0314 2014 3014 4014 5.0 100.0 125.0 8 0.075 3.0 2.2
100.0 C 20 0015 0115 0215 0315 2015 3015 4015 5.0 100.0 125.0 8 0.075 3.0 2.2
120.0 C 5 0016 0116 0216 0136 2016 3016 4016 6.0 120.0 150.0 8 0.070 3.2 2.5
120.0 C 10 0017 0117 0217 0317 2017 3017 4017 6.0 120.0 150.0 8 0.070 3.2 2.5
180.0 D 5 0018 0118 0218 0318 2018 3018 4018 9.0 180.0 226.0 8 0.060 3.7 3.4
180.0 D 10 0019 0119 0219 0319 2019 3019 4019 9.0 180.0 226.0 8 0.060 3.7 3.4
220.0 D 5 0020 0120 0220 0320 2020 3020 4020 10.0 200.0 250.0 10 0.055 3.9 3.4
220.0 D 10 0021 0121 0221 0321 2021 3021 4021 10.0 200.0 250.0 10 0.055 3.9 3.4
220.0 D 20 0022 0122 0222 0322 2022 3022 4022 10.0 200.0 250.0 10 0.055 3.9 3.4
15 WVDC AT + 85 °C, SURGE = 20 V . . . 10 WVDC AT + 125 °C, SURGE = 12 V
56.0 C 5 0023 0123 0223 0323 2023 3023 4023 4.0 80.0 100.0 6 0.100 2.6 1.8
56.0 C 10 0024 0124 0224 0324 2024 3024 4024 4.0 80.0 100.0 6 0.100 2.6 1.8
68.0 C 5 0025 0125 0225 0325 2025 3025 4025 5.0 100.0 125.0 6 0.095 2.7 2.2
68.0 C 10 0026 0126 0226 0326 2026 3026 4026 5.0 100.0 125.0 6 0.095 2.7 2.2
68.0 C 20 0027 0127 0227 0327 2027 3027 4027 5.0 100.0 125.0 6 0.095 2.7 2.2
120.0 D 5 0028 0128 0228 0328 2028 3028 4028 9.0 180.0 226.0 8 0.070 3.5 2.8
120.0 D 10 0029 0129 0229 0329 2029 3029 4029 9.0 180.0 226.0 8 0.070 3.5 2.8
150.0 D 5 0030 0130 0230 0330 2030 3030 4030 10.0 200.0 250.0 8 0.065 3.6 3.1
150.0 D 10 0031 0131 0231 0331 2031 3031 4031 10.0 200.0 250.0 8 0.065 3.6 3.1
150.0 D 20 0032 0132 0232 0332 2032 3032 4032 10.0 200.0 250.0 8 0.065 3.6 3.1
20 WVDC AT + 85 °C, SURGE = 26 V . . . 13 WVDC AT + 125 °C, SURGE = 16 V
27.0 C 5 0033 0133 0233 0333 2033 3033 4033 2.5 50.0 63.0 5 0.145 2.2 1.2
27.0 C 10 0034 0134 0234 0334 2034 3034 4034 2.5 50.0 63.0 5 0.145 2.2 1.2
33.0 C 5 0035 0135 0235 0335 2035 3035 4035 3.5 70.0 88.0 5 0.130 2.3 1.4
33.0 C 10 0036 0136 0236 0336 2036 3036 4036 3.5 70.0 88.0 5 0.130 2.3 1.4
33.0 C 20 0037 0137 0237 0337 2037 3037 4037 3.5 70.0 88.0 5 0.130 2.3 1.4
39.0 C 5 0038 0138 0238 0338 2038 3038 4038 4.0 80.0 100.0 5 0.120 2.4 1.7
39.0 C 10 0039 0139 0239 0339 2039 3039 4039 4.0 80.0 100.0 5 0.120 2.4 1.7
47.0 C 5 0040 0140 0240 0340 2040 3040 4040 4.5 90.0 113.0 6 0.110 2.5 1.8
47.0 C 10 0041 0141 0241 0341 2041 3041 4041 4.5 90.0 113.0 6 0.110 2.5 1.8
47.0 C 20 0042 0142 0242 0342 2042 3042 4042 4.5 90.0 113.0 6 0.110 2.5 1.8
56.0 D 5 0043 0143 0243 0343 2043 3043 4043 5.5 110.0 138.0 6 0.100 2.9 2.2
56.0 D 10 0044 0144 0244 0344 2044 3044 4044 5.5 110.0 138.0 6 0.100 2.9 2.2
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 11
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
STANDARD RATINGS: CSR21, M39003/09-XXXX
CAPACITAN
CE (µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/09-
FAILURE RATE LEVEL (%/1000 h)
MAX. DCL
(µA) AT
MAX.
DF AT
+ 25 °C
1 kHz
(%)
MAX.
ESR AT
+ 25 °C
100 kHz
(Ω)
DERATED
MAX. RIPPLE
CURRENT
AT + 25 °C
(A)
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C 40 kHz 1 kHz
20 WVDC AT + 85 °C, SURGE = 26 V . . . 13 WVDC AT + 125 °C, SURGE = 16 V
68.0 D 5 0045 0145 0245 0345 2045 3045 4045 7.0 140.0 175.0 6 0.095 3.0 2.4
68.0 D 10 0046 0146 0246 0346 2046 3046 4046 7.0 140.0 175.0 6 0.095 3.0 2.4
68.0 D 20 0047 0147 0247 0347 2047 3047 4047 7.0 140.0 175.0 6 0.095 3.0 2.4
82.0 D 5 0048 0148 0248 0348 2048 3048 4048 8.0 160.0 200.0 6 0.085 3.1 2.5
82.0 D 10 0049 0149 0249 0349 2049 3049 4049 8.0 160.0 200.0 6 0.085 3.1 2.5
100.0 D 5 0050 0150 0250 0350 2050 3050 4050 10.0 200.0 250.0 8 0.075 3.3 2.5
100.0 D 10 0051 0151 0251 0351 2051 3051 4051 10.0 200.0 250.0 8 0.075 3.3 2.5
100.0 D 20 0052 0152 0252 0352 2052 3052 4052 10.0 200.0 250.0 8 0.075 3.3 2.5
35 WVDC AT + 85 °C, SURGE = 46 V . . . 23 WVDC AT + 125 °C, SURGE = 28 V
22.0 C 5 0053 0153 0253 0353 2053 3053 4053 4.0 80.0 100.0 4 0.160 2.1 1.5
22.0 C 10 0054 0154 0254 0354 2054 3054 4054 4.0 80.0 100.0 4 0.160 2.1 1.5
22.0 C 20 0055 0155 0255 0355 2055 3055 4055 4.0 80.0 100.0 4 0.160 2.1 1.5
27.0 D 5 0056 0156 0256 0356 2056 3056 4056 4.5 90.0 113.0 4 0.145 2.4 1.9
27.0 D 10 0057 0157 0257 0357 2057 3057 4057 4.5 90.0 113.0 4 0.145 2.4 1.9
33.0 D 5 0058 0158 0258 0358 2058 3058 4058 5.5 110.0 138.0 5 0.130 2.5 1.9
33.0 D 10 0059 0159 0259 0359 2059 3059 4059 5.5 110.0 138.0 5 0.130 2.5 1.9
33.0 D 20 0060 0160 0260 0360 2060 3060 4060 5.5 110.0 138.0 5 0.130 2.5 1.9
39.0 D 5 0061 0161 0261 0361 2061 3061 4061 7.0 140.0 175.0 5 0.120 2.6 2.0
39.0 D 10 0062 0162 0262 0362 2062 3062 4062 7.0 140.0 175.0 5 0.120 2.6 2.0
47.0 D 5 0063 0163 0263 0363 2063 3063 4063 8.0 160.0 200.0 5 0.110 2.7 2.2
47.0 D 10 0064 0164 0264 0364 2064 3064 4064 8.0 160.0 200.0 5 0.110 2.7 2.2
47.0 D 20 0065 0165 0265 0365 2065 3065 4065 8.0 160.0 200.0 5 0.110 2.7 2.2
50 WVDC AT + 85 °C, SURGE = 65 V . . . 33 WVDC AT + 125 °C, SURGE = 40 V
5.6 C 5 0066 0166 0266 0366 2066 3066 4066 2.2 45.0 56.0 3 0.300 1.5 0.6
5.6 C 10 0067 0167 0267 0367 2067 3067 4067 2.2 45.0 56.0 3 0.300 1.5 0.6
6.8 C 5 0068 0168 0268 0368 2068 3068 4068 2.2 45.0 56.0 3 0.275 1.6 0.7
6.8 C 10 0069 0169 0269 0369 2069 3069 4069 2.2 45.0 56.0 3 0.275 1.6 0.7
6.8 C 20 0070 0170 0270 0370 2070 3070 4070 2.2 45.0 56.0 3 0.275 1.6 0.7
8.2 C 5 0071 0171 0271 0371 2071 3071 4071 2.5 50.0 63.0 3 0.250 1.6 0.9
8.2 C 10 0072 0172 0272 0372 2072 3072 4072 2.5 50.0 63.0 3 0.250 1.6 0.9
10.0 C 5 0073 0173 0273 0373 2073 3073 4073 2.5 50.0 63.0 3 0.230 1.7 1.1
10.0 C 10 0074 0174 0274 0374 2074 3074 4074 2.5 50.0 63.0 3 0.230 1.7 1.1
10.0 C 20 0075 0175 0275 0375 2075 3075 4075 2.5 50.0 63.0 3 0.230 1.7 1.1
12.0 C 5 0076 0176 0276 0376 2076 3076 4076 3.0 60.0 75.0 3 0.210 1.8 1.3
12.0 C 10 0077 0177 0277 0377 2077 3077 4077 3.0 60.0 75.0 3 0.210 1.8 1.3
15.0 C 5 0078 0178 0278 0378 2078 3078 4078 4.0 80.0 100.0 3 0.190 1.9 1.4
15.0 C 10 0079 0179 0279 0379 2079 3079 4079 4.0 80.0 100.0 3 0.190 1.9 1.4
15.0 C 20 0080 0180 0280 0380 2080 3080 4080 4.0 80.0 100.0 3 0.190 1.9 1.4
18.0 C 5 0081 0181 0281 0381 2081 3081 4081 4.5 90.0 113.0 4 0.175 2.0 1.4
18.0 C 10 0082 0182 0282 0382 2082 3082 4082 4.5 90.0 113.0 4 0.175 2.0 1.4
22.0 D 5 0083 0183 0283 0383 2083 3083 4083 5.5 110.0 138.0 4 0.160 2.3 1.7
22.0 D 10 0084 0184 0284 0384 2084 3084 4084 5.5 110.0 138.0 4 0.160 2.3 1.7
22.0 D 20 0085 0185 0285 0385 2085 3085 4085 5.5 110.0 138.0 4 0.160 2.3 1.7
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
12 Revision: 14-Sep-09
STANDARD RATINGS: CSR23, M39003/03-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/03-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
6 WVDC AT + 85 °C, SURGE = 8 V . . . 4 WVDC AT + 125 °C, SURGE = 5 V
10.0 A 10 0101 0201 0301 0401 2001 3001 4001 0.9 9.0 11.0 6 6
10.0 A 20 0102 0202 0302 0402 2002 3002 4002 0.9 9.0 11.0 6 6
12.0 A 10 0103 0203 0303 0403 2003 3003 4003 1.0 10.0 12.5 6 6
100.0 B 10 0104 0204 0304 0404 2004 3004 4004 6.0 60.0 75.0 8 8
100.0 B 20 0105 0205 0305 0405 2005 3005 4005 6.0 60.0 75.0 8 8
330.0 C 10 0106 0206 0306 0406 2006 3006 4006 15.0 150.0 188.0 8 8
330.0 C 20 0107 0207 0307 0407 2007 3007 4007 15.0 150.0 188.0 8 8
390.0 C 10 0108 0208 0308 0408 2008 3008 4008 15.0 150.0 188.0 10 10
470.0 C 10 0109 0209 0309 0409 2009 3009 4009 15.0 150.0 188.0 10 10
470.0 C 20 0110 0210 0310 0410 2010 3010 4010 15.0 150.0 188.0 10 10
680.0 D 10 0111 0211 0311 0411 2011 3011 4011 20.0 200.0 250.0 10 10
680.0 D 20 0112 0212 0312 0412 2012 3012 4012 20.0 200.0 250.0 10 10
820.0 D 10 0113 0213 0313 0413 2013 3013 4013 20.0 200.0 250.0 10 10
1000.0 D 10 0114 0214 0314 0414 2014 3014 4014 30.0 300.0 375.0 10 10
1000.0 D 20 0115 0215 0315 0415 2015 3015 4015 30.0 300.0 375.0 10 10
10 WVDC AT + 85 °C, SURGE = 13 V . . . 7 WVDC AT + 125 °C, SURGE = 9 V
6.8 A 10 0116 0216 0316 0416 2016 3016 4016 1.0 10.0 12.5 6 6
6.8 A 20 0117 0217 0317 0417 2017 3017 4017 1.0 10.0 12.5 6 6
8.2 A 10 0118 0218 0318 0418 2018 3018 4018 1.2 12.0 15.0 6 6
47.0 B 10 0119 0219 0319 0419 2019 3019 4019 5.0 50.0 63.0 6 6
47.0 B 20 0120 0220 0320 0420 2020 3020 4020 5.0 50.0 63.0 6 6
56.0 B 10 0121 0221 0321 0421 2021 3021 4021 6.0 60.0 75.0 6 6
68.0 B 10 0122 0222 0322 0422 2022 3022 4022 7.0 70.0 88.0 6 6
68.0 B 20 0123 0223 0323 0423 2023 3023 4023 7.0 70.0 88.0 6 6
82.0 B 10 0124 0224 0324 0424 2024 3024 4024 8.0 80.0 100.0 6 6
220.0 C 10 0125 0225 0325 0425 2025 3025 4025 15.0 150.0 188.0 8 8
220.0 C 20 0126 0226 0326 0426 2026 3026 4026 15.0 150.0 188.0 8 8
270.0 C 10 0127 0227 0327 0427 2027 3027 4027 15.0 150.0 188.0 8 8
390.0 D 10 0128 0228 0328 0428 2028 3028 4028 20.0 200.0 250.0 10 10
470.0 D 10 0129 0229 0329 0429 2029 3029 4029 20.0 200.0 250.0 10 10
470.0 D 20 0130 0230 0330 0430 2030 3030 4030 20.0 200.0 250.0 10 10
560.0 D 10 0131 0231 0331 0431 2031 3031 4031 30.0 300.0 375.0 10 10
15 WVDC AT + 85 °C, SURGE = 20 V . . . 10 WVDC AT + 125 °C, SURGE = 12 V
4.7 A 10 0132 0232 0332 0432 2032 3032 4032 1.0 10.0 12.5 4 4
4.7 A 20 0133 0233 0333 0433 2033 3033 4033 1.0 10.0 12.5 4 4
5.6 A 10 0134 0234 0334 0434 2034 3034 4034 1.3 13.0 16.5 4 4
33.0 B 10 0135 0235 0335 0435 2035 3035 4035 6.0 60.0 75.0 6 6
33.0 B 20 0136 0236 0336 0436 2036 3036 4036 6.0 60.0 75.0 6 6
39.0 B 10 0137 0237 0337 0437 2037 3037 4037 6.0 60.0 75.0 6 6
150.0 C 10 0138 0238 0338 0438 2038 3038 4038 15.0 150.0 188.0 8 8
150.0 C 20 0139 0239 0339 0439 2039 3039 4039 15.0 150.0 188.0 8 8
180.0 C 10 0140 0240 0340 0440 2040 3040 4040 15.0 150.0 188.0 8 8
220.0 D 10 0141 0241 0341 0441 2041 3041 4041 20.0 200.0 250.0 8 8
220.0 D 20 0142 0242 0342 0442 2042 3042 4042 20.0 200.0 250.0 8 8
270.0 D 10 0143 0243 0343 0443 2043 3043 4043 20.0 200.0 250.0 8 8
330.0 D 10 0144 0244 0344 0444 2044 3044 4044 20.0 200.0 250.0 8 8
330.0 D 20 0145 0245 0345 0445 2045 3045 4045 20.0 200.0 250.0 8 8
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 13
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
STANDARD RATINGS: CSR23, M39003/03-XXXX
CAPACITANCE
(µF)
CASE
CODE
CAP.
TOL.
(± %)
PART NO. M39003/03-
FAILURE RATE LEVEL (%/1000 h) MAX. DCL (µA) AT MAX. DF (%) AT
M
1.0
P
0.1
R
0.01
S
0.001
B
0.1
C
0.01
D
0.001 + 25 °C + 85 °C + 125 °C - 55 °C
+ 25 °C
+ 85 °C
+ 125 °C
20 WVDC AT + 85 °C, SURGE = 26 V . . . 13 WVDC AT + 125 °C, SURGE = 16 V
2.7 A 10 0146 0246 0346 0446 2046 3046 4046 0.8 8.0 10.0 4 4
3.3 A 10 0147 0247 0347 0447 2047 3047 4047 1.0 10.0 12.5 4 4
3.3 A 20 0148 0248 0348 0448 2048 3048 4048 1.0 10.0 12.5 4 4
3.9 A 10 0149 0249 0349 0449 2049 3049 4049 1.2 12.0 15.0 4 4
18.0 B 10 0150 0250 0350 0450 2050 3050 4050 4.0 40.0 50.0 6 6
22.0 B 10 0151 0251 0351 0451 2051 3051 4051 4.0 40.0 50.0 6 6
22.0 B 20 0152 0252 0352 0452 2052 3052 4052 4.0 40.0 50.0 6 6
27.0 B 10 0153 0253 0353 0453 2053 3053 4053 5.0 50.0 63.0 6 6
56.0 C 10 0154 0254 0354 0454 2054 3054 4054 9.0 90.0 110.0 6 6
68.0 C 10 0155 0255 0355 0455 2055 3055 4055 10.0 100.0 125.0 6 6
68.0 C 20 0156 0256 0356 0456 2056 3056 4056 10.0 100.0 125.0 6 6
82.0 C 10 0157 0257 0357 0457 2057 3057 4057 10.0 100.0 125.0 6 6
100.0 C 10 0158 0258 0358 0458 2058 3058 4058 15.0 150.0 188.0 6 6
100.0 C 20 0159 0259 0359 0459 2059 3059 4059 15.0 150.0 188.0 6 6
120.0 C 10 0160 0260 0360 0460 2060 3060 4060 15.0 150.0 188.0 6 6
150.0 D 10 0161 0261 0361 0461 2061 3061 4061 20.0 200.0 250.0 8 8
150.0 D 20 0162 0262 0362 0462 2062 3062 4062 20.0 200.0 250.0 8 8
180.0 D 10 0163 0263 0363 0463 2063 3063 4063 20.0 200.0 250.0 8 8
35 WVDC AT + 85 °C, SURGE = 46 V . . . 23 WVDC AT + 125 °C, SURGE = 28 V
1.8 A 10 0164 0264 0364 0464 2064 3064 4064 1.0 10.0 12.5 4 4
8.2 B 10 0165 0265 0365 0465 2065 3065 4065 3.5 35.0 44.0 6 6
10.0 B 10 0166 0266 0366 0466 2066 3066 4066 4.0 40.0 50.0 6 6
10.0 B 20 0167 0267 0367 0467 2067 3067 4067 4.0 40.0 50.0 6 6
33.0 C 10 0168 0268 0368 0468 2068 3068 4068 10.0 100.0 125.0 6 6
33.0 C 20 0169 0269 0369 0469 2069 3069 4069 10.0 100.0 125.0 6 6
39.0 C 10 0170 0270 0370 0470 2070 3070 4070 10.0 100.0 125.0 6 6
47.0 C 10 0171 0271 0371 0471 2071 3071 4071 10.0 100.0 125.0 6 6
47.0 C 20 0172 0272 0372 0472 2072 3072 4072 10.0 100.0 125.0 6 6
56.0 D 10 0173 0273 0373 0473 2073 3073 4073 15.0 150.0 188.0 6 6
68.0 D 10 0174 0274 0374 0474 2074 3074 4074 15.0 150.0 188.0 6 6
68.0 D 20 0175 0275 0375 0475 2075 3075 4075 15.0 150.0 188.0 6 6
50 WVDC AT + 85 °C, SURGE = 65 V . . . 33 WVDC AT + 125 °C, SURGE = 40 V
1.2 A 10 0176 0276 0376 0476 2076 3076 4076 0.9 9.0 11.0 4 4
1.5 A 10 0177 0277 0377 0477 2077 3077 4077 1.2 12.0 15.0 4 4
1.5 A 20 0178 0278 0378 0478 2078 3078 4078 1.2 12.0 15.0 4 4
5.6 B 10 0179 0279 0379 0479 2079 3079 4079 4.5 45.0 56.0 4 4
6.8 B 10 0180 0280 0380 0480 2080 3080 4080 4.5 45.0 56.0 6 6
6.8 B 20 0181 0281 0381 0481 2081 3081 4081 4.5 45.0 56.0 6 6
22.0 C 10 0182 0282 0382 0482 2082 3082 4082 10.0 100.0 125.0 6 6
22.0 C 20 0183 0283 0383 0483 2083 3083 4083 10.0 100.0 125.0 6 6
27.0 C 10 0184 0284 0384 0484 2084 3084 4084 10.0 100.0 125.0 6 6
33.0 D 10 0185 0285 0385 0485 2085 3085 4085 10.0 100.0 125.0 6 6
33.0 D 20 0186 0286 0386 0486 2086 3086 4086 10.0 100.0 125.0 6 6
39.0 D 10 0187 0287 0387 0487 2087 3087 4087 10.0 100.0 125.0 6 6
M39003/01/03/09
Vishay Sprague Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23
www.vishay.com For technical questions, contact: tantalum@vishay.com Document Number: 40018
14 Revision: 14-Sep-09
WEIBULL DISTRIBUTION METHOD FOR DETERMINING FAILURE RATE, MIL-PRF-39003
The current issue of Military Specification MIL-PRF-39003
incorporates Weibull distribution techniques as a means for
calculating failure rates for solid tantalum capacitors. The
exponential failure rates (M, P, R and S) are inactive for new
designs. Weibull graded failure rate level “B“ capacitors
supersede exponential failure rates M, P, R and S.
Increasingly, more stringent quality measurement systems
are being used in the electronics industry. AQL sample plans
are being replaced by programs measuring component
quality in PPM (Parts Per Million). Product quality
specifications seemingly approach perfection. Procedures
used to calculate PPM quality levels are based on
manufacturers in-process controls and final inspection
results and by users data at incoming inspection and
equipment assembly.
Initial quality requirements are only part of a good product
specification. Reliability and useful life should be considered
as well - to fit the reliability and useful life requirements of end
equipment.
Reliability is a measure of the expected failure rate during the
useful life of the capacitor. When plotted the failure rate
follows a characteristic “bathtub“ curve, covering three
periods in the typical capacitor life cycle.
The bathtub curve shows the early time period called infant
failure period, the uniform failure rate period or useful life and
a period of increasing failure rate due to wearout.
The Weibull shape parameter beta (β) is shown as less than
one (β < 1) during infant mortality, one (β = 1) during the
useful life and greater than one (β > 1) during the wearout
period. Since Weibull distribution works well on units with a
beta less than 1, solid tantalum capacitors can use this
method for determining failure rates. Solid tantalum
capacitors fail early in life (normally during the aging or
burnin cycles) and show a slightly decreasing failure rate
with time - however, there is no known wearout failure mode.
The processing of solid tantalum capacitors is not “perfectly
clean”. Impurities in the tantalum powders along with
microscopic dust particles can cause flaws in the dielectric
tantalum oxide. These flaws in the dielectric can cause
failure sites which are normally found during the in-process
aging or burn-in cycles. A very large percentage of failures
occur during these burn-ins. Since the worst flaws are
presumed to fail first, we eventually arrive at flaw sizes which
are presumably too small to cause further degradation.
Weibull states that the failure rate of a component that shows
a decreasing failure rate with time can be predicted within a
short period of time under accelerated conditions.
Accelerated conditions for solid tantalum capacitors can be
imposed by means of either voltage or temperature stress.
Since temperatures above + 125 °C can cause degradation
of the solid manganese dioxide electrolyte, voltage
acceleration is performed instead.
The Navy's Crane NAD facility completed testing on solid
tantalum capacitors from several manufacturers in late 1981.
During testing, acceleration factors (A.F.) were derived from
life test results and the following formula used:
A.F. = 7.034 x 10-9 e (18.7724 Vs/Vr)
Vs = Voltage stress
Vr = Rated voltage of unit under test
The acceleration factors used in MIL-C-39003 are as shown:
Vs/Vr A.F.
1.0 1.0
1.1 6.53
1.2 42.7
1.3 279.0
1.4 1824.0
1.5 -
1.527 11 923.0
FOR EXAMPLE: 20 000.00
If a 15 µF, 20 V part is placed on test for 1 h at + 85 °C and
26 V (Vs/Vr = 1.3), this is equivalent to 279 hours of testing at
+ 85 °C and 20 V (exponential grading).
To explain the Weibull analysis, several formulas must be
shown. The basic Weibull formula is as shown:
F(x) = Cumulative fraction failed (P) at time (t)
t = Actual test time
β = Weibull shape parameter (beta)
α = Weibull scale parameter (alpha)
To calculate Weibull failure rates, special burn-in ovens must
be used which will record an actual time to failure for each of
the units on test.
To perform the test, 100 % of the units (or 500 pieces
whichever is less) are placed in the Weibull oven and taken
to test conditions (+ 85 °C and voltage stress per the
acceleration factors chosen). For lots over 500 pieces, the
balance of the lot is placed in a standard burn-in oven at the
same Weibull conditions. Failures that occur during the
start-up are not used in the calculation. After test conditions
are reached (< 5 min), the start time is considered to be t0.
A count of good pieces is taken at no later than 15 minutes
after t0. This will be the sample size. At least two hours after
t0, the number of failures are counted. If no failures occur, the
lot must be put back on test and recounted after 10 h.
RELIABILITY LIFE CYCLE -
TYPICAL “BATHTUB” CURVE
USEFUL LIFE PERIOD
FAILURE RATE
TIME
INFANT
FAILURE
PERIOD
WEAROUT
PERIOD
Fx() 1e
tβ
α
-----
⎝⎠
⎛⎞
=
Document Number: 40018 For technical questions, contact: tantalum@vishay.com www.vishay.com
Revision: 14-Sep-09 15
M39003/01/03/09
Solid-Electrolyte TANTALEX® Capacitors,
Military MIL-PRF-39003 Qualified, Styles CSR13, 21, 23 Vishay Sprague
WEIBULL DISTRIBUTION METHOD FOR DETERMINING FAILURE RATE, MIL-PRF-39003
(Continued)
If no failures occur, the lot can be re-started at a higher stress
level only once. If no failures occur at the higher stress level,
the lot is not suitable for Weibull analysis.
t0 15 min 2 h t1 10 h 40 h
After a minimum of 40 h, the failure count is again taken. If
no further failures occur, one is added to the count. Failure
rate is calculated by the following:
Z (t) = [- β 1n (1 - P2)105]/t2 A.F.
Where
Z(t) = Failure Rate
β = Weibull shape parameter (slope of the line
between t1 and t2 graphed on paper with a 1n (t)
abscissa and 1n 1n (1/(1-P)) ordinate
P = Ratio of failures to units on test at stop time
t2 = Number of hours on test
A.F. = Acceleration Factor
The failure rate can be calculated from the previous formula
as follows:
Z (t) = [- β 1n (1 - P)105]/t A.F.
Z (t) = [- 0.2119 1n (1 - 0.0326) 105]/40 (17356)
Z (t) = [- 0.2119 (- 0.0331) 105]/6.9424 (105)
Z (t) = [0.0070/6.9424]
Z (t) = 0.0010 %/1000 h
ACTUAL WEIBULL TEST ANALYSIS FOR THE VISHAY SPRAGUE EQUIPMENT
Document Number: 91000 www.vishay.com
Revision: 18-Jul-08 1
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