DLA DSCC-DWG-06016 REV B-2012 CAPACITORS FIXED ELECTROLYTIC (NONSOLID ELECTROLYTE) TANTALUM.pdf

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1、 REVISIONS LTR DESCRIPTION DATE APPROVED A Add part purchase requirement 6 Dec 2006 Michael A. Radecki B Add an approved source of supply. 30 August 2012 Michael A. Radecki Prepared in accordance with ASME Y14.100 Source control drawing REV STATUS OF PAGES REV B B B B B B B B B B B B PAGES 1 2 3 4 5

2、 6 7 8 9 10 11 12 PMIC N/A PREPARED BY Ken Bernier DESIGN ACTIVITY: DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OH Original date of drawing 11 May 2006 CHECKED BY Patrick Kyne TITLE CAPACITORS, FIXED, ELECTROLYTIC (NONSOLID ELECTROLYTE), TANTALUM APPROVED BY Michael A. Radecki SIZE A CODE IDENT. NO. 0

3、37Z3 DWG NO. 06016 SCALE N/A REV B PAGE 1 OF 12 AMSC N/A 5910-2012-E15CURRENT DESIGN ACTIVITY CAGE CODE 037Z3 HAS CHANGED NAMES TO: DLA LAND AND MARITIME COLUMBUS, OHIO 43218-3990 Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER,

4、 COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 037Z3 DWG NO. 06016 REV B PAGE 2 1. SCOPE 1.1 Scope. This drawing and MIL-PRF-39006/31 describe the requirements for fixed tantalum (nonsolid electrolyte) capacitors. This drawing offers MIL-PRF-39006/31 capacitors with additional test requirements for

5、use in high reliability applications. 1.2 Part or Identifying Number (PIN). The complete PIN is as follows: 06016- XXXXH Drawing Dash number number (see table I) 2. APPLICABLE DOCUMENTS 2.1 General. The documents listed in this section are specified in sections 3 and 4 of this specification. This se

6、ction does not include documents cited in other sections of this specification or recommended for additional information or as examples. While every effort has been made to ensure the completeness of this list, document users are cautioned that they must meet all specified requirements of documents

7、cited in sections 3 and 4 of this specification, whether or not they are listed. 2.2 Government documents. 2.2.1 Specifications, standards, and handbooks. The following specifications, standards, and handbooks form a part of this document to the extent specified herein. Unless otherwise specified, t

8、he issues of these documents are those cited in the solicitation or contract. DEPARTMENT OF DEFENSE SPECIFICATION MIL-PRF-39006 - Capacitor, Fixed, Electrolytic (Nonsolid Electrolyte), Tantalum, Established Reliability General Specification for. DEPARTMENT OF DEFENSE STANDARDS MIL-STD-202 - Electron

9、ic and Electrical Component Parts. MIL-STD-1285 - Marking of Electrical and Electronic Parts. MIL-STD-1276 - Leads for Electronic Component Parts (Copies of these documents are available online at https:/assist.dla.mil/quicksearch/ or from the Standardization Document Order Desk, 700 Robbins Avenue,

10、 Building 4D, Philadelphia, PA 19111-5094.) 2.3 Order of precedence. Unless otherwise noted herein or in the contract, in the event of a conflict between the text of this document and the references cited herein, the text of this document takes precedence. Nothing in this document, however, supersed

11、es applicable laws and regulations unless a specific exemption has been obtained. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 037Z3 DWG NO. 06016 REV B PAGE 3 NOTES: 1. Dimensio

12、ns are in inches. 2. Metric equivalents are in parentheses. 3. Metric equivalents are given for general information only. 4. The weld shall not be enclosed in the end seal. Case size Dimensions Basic case Insulated case E .250 (6.35) L 1/ +.031 (0.79) -.016 (0.41) D .016 (0.41) D max T1 .453 (11.51)

13、 .188 (4.78) .219 ( 5.56) 1.500 (38.10) T2 .641 (16.28) .281 (7.14) .312 ( 7.92) 2.250 (57.15) T3 .766 (19.46) .375 (9.52) .406 (10.31) 2.250 (57.15) T4 1.062 (26.97) .375 (9.52) .406 (10.31) 2.250 (57.15) 1/ Length of basic case sleeving shall be as specified in MIL-PRF-39006. FIGURE 1. Configurati

14、on and dimensions. + + + - + Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 037Z3 DWG NO. 06016 REV B PAGE 4 3. REQUIREMENTS 3.1 Item requirements. The individual item requirements

15、 shall be in accordance with MIL-PRF-39006/31, “R” failure rate level, “H” shock and vibration requirements, and the requirements specified herein. 3.1.1 Dimensions and configuration: See figure 1. 3.1.2 Case type: Tantalum, tubular, insulated. 3.1.3 Seal type: Hermetic (glass-to-tantalum anode). 3.

16、1.4 Terminals: Axial-wire lead: Cathode and anode (N32, N51, or N52 of MIL-STD-1276). 3.1.5 Rated voltage: See table I. 3.1.6 Capacitance (Cap.) (nom): See table I. 3.1.7 Cap. tolerance: See table I. 3.1.8 DC leakage: See table I. 3.1.9 Dissipation factor: See table I. 3.1.10 Equivalent series resis

17、tance (ESR). See table I. 3.1.11 Operating temperature: -55C to +85C, voltage de-rated to +125C (see figure 2). FIGURE 2. Voltage derating with temperature. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHI

18、O SIZE A CODE IDENT NO. 037Z3 DWG NO. 06016 REV B PAGE 5 TABLE I. Capacitor characteristics. Rated voltage (+85C) 1/ Cap. Cap. toler-ance DC leakage (max) Dissi-pation factor (max) ESR at +25C (max) 2/ Derated voltage (+125C) 1/ Surge voltage (+85C) Imped- ance (max) Capacitance change at Max +85C 4

19、0 kHz ripple current 3/ Case size DSCC drawing PIN 06016- +25C +85C +125C -55C +85C +125C V dc F % A A % Ohms V dc V dc Ohms % % % mA rms 6 220 20 2 9 25 1.51 4 6.9 36 -64 +13 +16 1,000 T1 0177H 6 220 10 2 9 25 1.51 4 6.9 36 -64 +13 +16 1,000 T1 0178H 6 820 20 3 14 77.5 1.26 4 6.9 18 -88 +16 +20 1,5

20、00 T2 0179H 6 820 10 3 14 77.5 1.26 4 6.9 18 -88 +16 +20 1,500 T2 0180H 6 1,500 20 5 20 86 0.76 4 6.9 18 -90 +20 +25 1,900 T3 0181H 6 1,500 10 5 20 86 0.76 4 6.9 18 -90 +20 +25 1,900 T3 0182H 6 2,200 20 6 24 85 0.52 4 6.9 13 -90 +25 +30 2,300 T4 0183H 6 2,200 10 6 24 85 0.52 4 6.9 13 -90 +25 +30 2,3

21、00 T4 0184H 6 180 20 2 9 20.5 1.51 5 9.2 45 -60 +13 +16 1,000 T1 0185H 8 180 10 2 9 20.5 1.51 5 9.2 45 -60 +13 +16 1,000 T1 0186H 8 680 20 3 14 65 1.27 5 9.2 22 -83 +16 +20 1,500 T2 0187H 8 680 10 3 14 65 1.27 5 9.2 22 -83 +16 +20 1,500 T2 0188H 8 1,500 20 5 20 85 0.75 5 9.2 18 -90 +20 +25 1,900 T3

22、0189H 8 1,500 10 5 20 85 0.75 5 9.2 18 -90 +20 +25 1,900 T3 0190H 8 1,800 20 7 25 69 0.51 5 9.2 14 -90 +25 +30 2,300 T4 0191H 8 1,800 10 7 25 69 0.51 5 9.2 14 -90 +25 +30 2,300 T4 0192H 8 150 20 2 9 17 1.51 7 11.5 54 -55 +13 +16 900 T1 0193H 10 150 10 2 9 17 1.51 7 11.5 54 -55 +13 +16 900 T1 0194H 1

23、0 560 20 3 16 53 1.26 7 11.5 27 -77 +16 +20 1,450 T2 0195H 10 560 10 3 16 53 1.26 7 11.5 27 -77 +16 +20 1,450 T2 0196H 10 1,200 20 5 20 68.5 0.76 7 11.5 18 -88 +20 +25 1,850 T3 0197H 10 1,200 10 5 20 68.5 0.76 7 11.5 18 -88 +20 +25 1,850 T3 0198H 10 1,500 20 7 25 57 0.51 7 11.5 15 -88 +25 +30 2,300

24、T4 0199H 10 1,500 10 7 25 57 0.51 7 11.5 15 -88 +25 +30 2,300 T4 0200H 10 100 20 2 9 15 1.99 10 17.2 72 -44 +13 +16 900 T1 0201H 15 100 10 2 9 15 1.99 10 17.2 72 -44 +13 +16 900 T1 0202H 15 390 20 3 16 37 1.26 10 17.2 31 -66 +16 +20 1,450 T2 0203H 15 390 10 3 16 37 1.26 10 17.2 31 -66 +16 +20 1,450

25、T2 0204H 15 820 20 6 24 55.5 0.90 10 17.2 22 -77 +20 +25 1,800 T3 0205H 15 820 10 6 24 55.5 0.90 10 17.2 22 -77 +20 +25 1,800 T3 0206H 15 1,000 20 8 32 46 0.61 10 17.2 17 -77 +25 +30 2,300 T4 0207H 15 1,000 10 8 32 46 0.61 10 17.2 17 -77 +25 +30 2,300 T4 0208H 15 68 20 2 9 11 2.15 15 28.8 90 -40 +12

26、 +15 850 T1 0209H 25 68 10 2 9 11 2.15 15 28.8 90 -40 +12 +15 850 T1 0210H 25 270 20 3 16 27.5 1.35 15 28.8 33 -62 +13 +16 1,400 T2 0211H 25 270 10 3 16 27.5 1.35 15 28.8 33 -62 +13 +16 1,400 T2 0212H 25 560 20 7 28 38 0.90 15 28.8 24 -72 +20 +25 1,750 T3 0213H 25 560 10 7 28 38 0.90 15 28.8 24 -72

27、+20 +25 1,750 T3 0214H 25 680 20 8 32 31.5 0.62 15 28.8 19 -72 +25 +30 2,100 T4 0215H 25 680 10 8 32 31.5 0.62 15 28.8 19 -72 +25 +30 2,100 T4 0216H 25 56 20 2 9 11 2.61 20 34.5 100 -38 +12 +15 800 T1 0217H 30 56 10 2 9 11 2.61 20 34.5 100 -38 +12 +15 800 T1 0218H 30 220 20 3 16 21 1.27 20 34.5 36 -

28、60 +13 +16 1,200 T2 0219H 30 220 10 3 16 21 1.27 20 34.5 36 -60 +13 +16 1,200 T2 0220H 30 470 20 8 32 32 0.91 20 34.5 25 -65 +20 +25 1,500 T3 0221H 30 470 10 8 32 32 0.91 20 34.5 25 -65 +20 +25 1,500 T3 0222H 30 560 20 9 36 27.5 0.65 20 34.5 20 -65 +25 +30 2,000 T4 0223H 30 560 10 9 36 27.5 0.65 20

29、34.5 20 -65 +25 +30 2,000 T4 0224H 30 33 20 2 9 6.15 2.48 30 57.5 135 -29 +10 +12 700 T1 0225H See footnotes at end of table. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 037Z3 D

30、WG NO. 06016 REV B PAGE 6 TABLE I. Capacitor characteristics - Continued. Rated voltage (+85C) 1/ Cap. Cap. toler-ance DC leakage (max) Dissi-pation factor (max) ESR at +25C (max) 2/ Derated voltage (+125C) 1/ Surge voltage (+85C) Imped- ance (max) Capacitance change at Max +85C 40 kHz ripple curren

31、t 3/ Case size DSCC drawing PIN 06016- +25C +85C +125C -55C +85C +125C V dc F % A A % Ohms V dc V dc Ohms % % % mA rms 50 33 10 2 9 6.15 2.48 30 57.5 135 -29 +10 +12 700 T1 0226H 50 120 20 4 24 11.25 1.25 30 57.5 49 -42 +12 +15 1,200 T2 0227H 50 120 10 4 24 11.25 1.25 30 57.5 49 -42 +12 +15 1,200 T2

32、 0228H 50 270 20 8 32 18.5 0.91 30 57.5 29 -46 +20 +25 1,450 T3 0229H 50 270 10 8 32 18.5 0.91 30 57.5 29 -46 +20 +25 1,450 T3 0230H 50 330 20 9 36 19 0.77 30 57.5 22 -46 +25 +30 1,900 T4 0231H 50 330 10 9 36 19 0.77 30 57.5 22 -46 +25 +30 1,900 T4 0232H 50 27 20 3 12 5.1 2.51 40 69.0 144 -24 +10 +1

33、2 700 T1 0233H 60 27 10 3 12 5.1 2.51 40 69.0 144 -24 +10 +12 700 T1 0234H 60 100 20 4 20 9.5 1.26 40 69.0 54 -36 +12 +15 1,100 T2 0235H 60 100 10 4 20 9.5 1.26 40 69.0 54 -36 +12 +15 1,100 T2 0236H 60 220 20 8 32 15 0.91 40 69.0 29 -40 +16 +20 1,400 T3 0237H 60 220 10 8 32 15 0.91 40 69.0 29 -40 +1

34、6 +20 1,400 T3 0238H 60 270 20 9 36 13.5 0.67 40 69.0 23 -45 +20 +25 1,850 T4 0239H 60 270 10 9 36 13.5 0.67 40 69.0 23 -45 +20 +25 1,850 T4 0240H 60 22 20 3 12 4.25 2.57 50 86.2 157 -19 +10 +12 600 T1 0241H 75 22 10 3 12 4.25 2.57 50 86.2 157 -19 +10 +12 600 T1 0242H 75 82 20 4 24 7.6 1.23 50 86.2

35、63 -30 +12 +15 1,000 T2 0243H 75 82 10 4 24 7.6 1.23 50 86.2 63 -30 +12 +15 1,000 T2 0244H 75 180 20 9 36 12.2 0.90 50 86.2 30 -35 +16 +20 1,300 T3 0245H 75 180 10 9 36 12.2 0.90 50 86.2 30 -35 +16 +20 1,300 T3 0246H 75 220 20 10 40 18.5 1.12 50 86.2 24 -40 +20 +25 1,800 T4 0247H 75 220 10 10 40 18.

36、5 1.12 50 86.2 24 -40 +20 +25 1,800 T4 0248H 75 10 20 3 12 2.25 2.99 65 115.0 200 -17 +10 +12 800 T1 0249H 100 10 10 3 12 2.25 2.99 65 115.0 200 -17 +10 +12 800 T1 0250H 100 39 20 5 24 5.2 1.77 65 115.0 80 -20 +12 +15 1,300 T2 0251H 100 39 10 5 24 5.2 1.77 65 115.0 80 -20 +12 +15 1,300 T2 0252H 100

37、68 20 10 40 5.65 1.11 65 115.0 40 -30 +14 +16 1,600 T3 0253H 100 68 10 10 40 5.65 1.11 65 115.0 40 -30 +14 +16 1,600 T3 0254H 100 120 20 12 48 12.5 1.38 65 115.0 30 -35 +15 +17 2,000 T4 0255H 100 120 10 12 48 12.5 1.38 65 115.0 30 -35 +15 +17 2,000 T4 0256H 100 6.8 20 3 12 3 5.86 85 144.0 300 -14 +1

38、0 +12 700 T1 0257H 125 6.8 10 3 12 3 5.86 85 144.0 300 -14 +10 +12 700 T1 0258H 125 27 20 5 24 3.6 1.77 85 144.0 90 -18 +12 +15 1,200 T2 0259H 125 27 10 5 24 3.6 1.77 85 144.0 90 -18 +12 +15 1,200 T2 0260H 125 47 20 10 40 3.95 1.12 85 144.0 50 -26 +14 +16 1,500 T3 0261H 125 47 10 10 40 3.95 1.12 85

39、144.0 50 -26 +14 +16 1,500 T3 0262H 125 82 20 12 48 8.7 1.41 85 144.0 32 -30 +15 +17 1,900 T4 0263H 125 82 10 12 48 8.7 1.41 85 144.0 32 -30 +15 +17 1,900 T4 0264H 1/ Reverse voltage rating at +85C is 3 V dc and at +125C is 2 V dc. 2/ Maximum ESR is calculated by the following equation: ESR (max) =

40、CfDF2, where: DF = Maximum dissipation factor from table I. f = 120 Hz; C = Nominal capacitance. 3/ For ripple current limits at various temperatures, voltages, and frequencies, see table II. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-TABLE II.

41、Ripple current multipliers versus frequency, temperature, and applied peak voltage. 1/ 2/ 3/ 4/ 5/ Frequency of applied ripple current Ambient still air 120 Hz 800 Hz 1 kHz 10 kHz 40 kHz 100 kHz Temp C Temp C Temp C Temp C Temp C Temp C 55 85 105 125 55 85 105 125 55 85 105 125 55 85 105 125 55 85 1

42、05 125 55 85 105 125 6/ 100 percent 90 percent 80 percent 70 percent 66 2/3 percent .60 .60 .60 .60 .60 .39 .46 .52 .58 .60 - - .35 .44 .46 - - - - .27 .71 .71 .71 .71 .71 .43 .55 .62 .69 .71 - - .42 .52 .55 - - - - .32 .72 .72 .72 .72 .72 .45 .55 .62 .70 .72 - - .42 .52 .55 - - - - .32 .88 .88 .88

43、.88 .88 .55 .67 .76 .85 .88 - - .52 .64 .68 - - - - .40 1.0 1.0 1.0 1.0 1.0 .63 .77 .87 .97 1.0 - - .59 .73 .77 - - - - .45 1.1 1.1 1.1 1.1 1.1 .69 .85 .96 1.07 1.1 - - .65 .80 .85 - - - - .50 1/ At +125C, the rated voltage of the capacitors decreases to 66.67 percent of the +85C rated voltage. 2/ T

44、he peak of the applied ac ripple voltage plus the applied dc voltage must not exceed the dc voltage rating of the capacitor either forward or reverse. 3/ The ripple current listed in table I represents a rating calculated by using a maximum internal temperature rise (T) at +50C at 40 kHz at +85C amb

45、ient temperature, with a maximum peak rated voltage of 66.67 percent of the +85C peak voltage rating. 4/ The maximum allowable internal temperature rise (T) decreases linearly to a calculated 10C rise at +125C ambient. 5/ The internal temperature rise is directly proportional to the ESR of the capac

46、itor, and ESR increases with decreasing frequency. 6/ Percentage of +85C rated peak voltage. DEFENSESUPPLYCENTER COLUMBUSSIZECODEIDENTNODWGNO.COLUMBUS,OHIOA 037Z3 06016REV BPAGE7Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, C

47、OLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 037Z3 DWG NO. 06016 REV B PAGE 8 3.2 Thermal shock. Shall be in accordance with MIL-PRF-39006/31, except, number of cycles for group A shall be ten cycles and number of cycles for group B shall be thirty cycles. 3.3 Constant voltage conditioning. Shall be in accordance with MIL-PRF-39006/31 except, the time shall be 168 hours minimum. 3.4 Seal (Fine leak). Shall be in accordance with MIL-PRF-39006 and method 112 of MIL-STD-202, condition C. 3.5 Seal (Gross leak). Shall be

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