REVISIONS LTR A DESCRIPTION DATE APPROVED 11 May 88 D. Moore 23 Feb 94 D. Moore 25 Apr 94 23 May 96 D. Moore A. Ernst 5 April 99 J. Crum 10 April 00 Kendall A. Cottongim 16 January 01 Kendall A. Cottongim 12 September 01 Kendall A. Cottongim 4 November 02 Kendall A. Cottongim 18 August 2004 Kendall A. Cottongim 19 April 2007 Michael A. Radecki 21 October 2010 Michael A. Radecki Added suggested sources of supply. Changes to suggested sources of supply. Modified manufacturer’s PIN. Changes to 3.2.2, 3.2.6, and 6.1. Editorial changes throughout. Corrected dimension chart for figure 1. Changes in accordance with NOR 5910-R007-96 Revised sources of supply, made editorial changes, and converted references to MIL-PRF49467. Moved solderability testing from group A to group B. Updated suggested sources of supply. Removed suggested source of supply. Added note 4 to figure 1. Added capacitor tolerance note to 3.2.9. Added suggested source of supply. Changed Johanson Dielectrics CAGE code. Updated name and address of vendor C. Added Johanson Dielectrics as a suggested source of supply. Added CalRamic Technologies as a suggested source of supply. Changed drawing type to Source Control with Approved Sources. Added manufacturer eligibility criteria, paragraph 3.14. Added new paragraph 6.3. Added an approved source. B C D E F G H J K L M CURRENT DESIGN ACTIVITY CAGE CODE 037Z3 HAS CHANGED NAMES TO: DLA LAND AND MARITIME COLUMBUS, OHIO 43218-3990 Prepared in accordance with ASME Y14.100 REV STATUS OF PAGES PMIC N/A Source control drawing REV M M M M M M M M M PAGES 1 2 3 4 5 6 7 8 9 PREPARED BY ROBERT E. GRILLOT DEFENSE ELECTRONIC SUPPLY CENTER DAYTON, OH Original date of drawing 23 June 1987 CHECKED BY HERALDINE JOHNSON APPROVED BY DAVID E. MOORE SIZE A REV AMSC N/A TITLE CAPACITORS, CERAMIC, MULTILAYER, HIGH VOLTAGE, X7R, 5,000 V DC CODE IDENT. NO. 14933 DWG NO. M PAGE 87070 1 OF 9 5910-E478 1. SCOPE 1.1 Scope. This drawing and MIL-PRF-49467 describe the requirements for high voltage multilayer ceramic capacitors. 1.2 Part or Identifying Number (PIN). The complete PIN shall be as follows: 87070 | | Drawing number -XX | | Dash 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 section 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 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, the issues of these documents are those cited in the solicitation or contract. DEPARTMENT OF DEFENSE SPECIFICATIONS MIL-PRF-49467 - Capacitor, Fixed, Ceramic, Multilayer, High Voltage (General Purpose), Established Reliability, General Specification for. DEPARTMENT OF DEFENSE STANDARDS MIL-STD-202 MIL-STD-1285 - Test Methods Standard Electronics and Electrical Component Parts. Marking of Electrical and Electronic Parts. (Copies of these documents are available online at https://assist.daps.dla.mil/quicksearch/ or https://www.assist.daps.dla.mil/ or from the Standardization Document Order Desk, 700 Robbins Avenue, 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, supersedes applicable laws and regulations unless a specific exemption has been obtained. 3. REQUIREMENTS 3.1 Interface and physical dimensions. The interface and physical dimensions shall be as specified in MIL-PRF-49467 and herein (see figure 1). 3.1.1 Leads. Leads shall be solder coated. Tin-lead (Sn-Pb) finishes are acceptable provided that the minimum lead content is 3 percent. 3.1.2 Case. Epoxy, conformally coated. 3.1.3 Operating temperature range. The operating temperature range shall be -55°C to +125°C. 3.2 Electrical characteristics. 3.2.1 Rated voltage. The rated voltage shall be 5,000 volts dc. 3.2.2 Dielectric type. X7R. DEFENSE ELECTRONIC SUPPLY CENTER SIZE CODE IDENT NO. DWG NO. DAYTON, OHIO A 14933 87070 REV M PAGE 2 Case code A B C D E F G Sizes (max.) Width (W) .550 .570 .670 .770 1.050 1.250 1.450 Height (H) Inches .002 .025 .030 .250 .270 .280 .400 .475 .500 .550 .570 .575 Lead spacing Thickness (T) .280 .500 .600 .720 .500 .600 .720 .250 .270 .270 .270 .270 .270 .270 ± .030 (S) .400 .475 .575 .675 .900 1.100 1.300 mm 0.05 0.64 0.76 6.35 6.86 7.11 10.16 12.07 12.70 13.97 14.48 14.61 Inches .600 .670 .675 .720 .770 .900 1.050 1.100 1.250 1.300 1.450 mm 15.24 17.02 17.15 18.29 19.56 22.86 26.67 27.94 31.75 33.02 36.83 NOTES: 1. Dimensions are in inches. 2. Metric equivalents are given for general information only. 3. H dimension includes meniscus. 4. S dimension shall be maintained from chip body to end of leads. FIGURE 1. Case dimensions and configuration. DEFENSE ELECTRONIC SUPPLY CENTER SIZE CODE IDENT NO. DWG NO. DAYTON, OHIO A 14933 87070 REV M PAGE 3 3.2.3 Temperature coefficient. ±15 percent. (For MIL-PRF-49467 group B voltage temperature limits, use step a through step d only.) 3.2.4 Capacitance. See table I. Measured in accordance with method 305 of MIL-STD-202, 1 kHz at 1.0 V rms at +25°C. 3.2.5 Dissipation factor (+25°C). 2.5 percent maximum (measured under the same conditions as capacitance). 3.2.6 Insulation resistance. Measured in accordance with method 302 of MIL-STD-202. At +25°C, 500 V dc: 100,000 megohms or 1,000 megohms microfarad, whichever is less. At +125°C, 500 V dc: 10,000 megohms or 100 megohms microfarad, whichever is less. 3.2.7 Dielectric withstanding voltage. 1.2 times rated voltage. 3.2.8 Aging rate. -2.0 percent maximum per decade-hour. 3.2.9 Capacitance tolerance. K = ±10 percent, M = ±20 percent. K tolerance parts may be substituted for M tolerance parts, with acquiring activity approval. 3.3 Solderability of terminals. In accordance with MIL-PRF-49467. 3.4 Vibration. In accordance with MIL-PRF-49467. 3.5 Shock. In accordance with MIL-PRF-49467. 3.6 Immersion cycling. In accordance with MIL-PRF-49467. 3.7 Moisture resistance. In accordance with MIL-PRF-49467. 3.8 Life. One hundred percent of rated voltage applied at +125°C for 1,000 hours. Resistors with a high value such as 1 megohm may be used in series with each part under test in lieu of fuses. 3.9 Thermal shock. Method 107, MIL-STD-202, test condition B except low temperature is -55°C. 3.10 Voltage conditioning. In accordance with MIL-PRF-49467, 100 percent of rated voltage. Resistors with a high value such as 1 megohm may be used in series with each part under test in lieu of fuses. 3.11 Terminal strength. In accordance with MIL-PRF-49467. 3.12 Marking. Marking shall be in accordance with MIL-STD-1285 except the capacitors shall be marked with the PIN as specified in 1.2, the manufacturer’s name or Commercial and Government Entity (CAGE) code, and date lot code as a minimum. 3.13 Recycled, recovered, or environmentally preferable materials. Recycled, recovered, or environmentally preferable materials should be used to the maximum extent possible provided that the material meets or exceeds the operational and maintenance requirements, and promotes economically advantageous life cycle costs. 3.14 Manufacturer eligibility. To be eligible for listing as an approved source of supply, a manufacturer shall be listed on the MIL-PRF-49467 Qualified Products Database for at least one part, or provide data as requested by DLA Land and Maritime – VAT. 3.15 Certificate of compliance. A certificate of compliance shall be required from manufacturers requesting to be an approved source of supply. 3.16 Workmanship. Capacitors shall be uniform in quality and free from any defects that will affect life, serviceability, or appearance. DEFENSE ELECTRONIC SUPPLY CENTER SIZE CODE IDENT NO. DWG NO. DAYTON, OHIO A 14933 87070 REV M PAGE 4 TABLE I. Electrical characteristics DSCC drawing 8707001 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Capacitance Capacitance tolerance Case code K M K M K M K M K M K M K M K M K M K M K M K M K M K M K M K A A A A A A A A A A A A A A A A A A A A A A A A B B B B B B B 100 pF 100 pF 120 pF 120 pF 150 pF 150 pF 180 pF 180 pF 220 pF 220 pF 270 pF 270 pF 330 pF 330 pF 390 pF 390 pF 470 pF 470 pF 560 pF 560 pF 680 pF 680 pF 820 pF 820 pF 1000 pF 1000 pF 1200 pF 1200 pF 1500 pF 1500 pF 1800 pF DSCC drawing 8707032 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 Capacitance Capacitance tolerance Case code 1800 pF 2200 pF 2200 pF 2700 pF 2700 pF 3300 pF 3300 pF 3900 pF 3900 pF 4700 pF 4700 pF 5600 pF 5600 pF 6800 pF 6800 pF 8200 pF 8200 pF .01 µF .01 µF .012 µF .012 µF .015 µF .015 µF .018 µF .018 µF .022 µF .022 µF .027 µF .027 µF .033 µF .033 µF M K M K M K M K M K M K M K M K M K M K M K M K M K M K M K M B B B B B B B B B B B B B B B C C C C D D D D E E E E F F G G DEFENSE ELECTRONIC SUPPLY CENTER SIZE CODE IDENT NO. DWG NO. DAYTON, OHIO A 14933 87070 REV M PAGE 5 4. VERIFICATION 4.1 Qualification inspection. Qualification inspection is not required. 4.2 Conformance inspection. 4.2.1 Inspection of product for delivery. Inspection of product for delivery shall consist of all tests specified in group A and group B inspections of MIL-PRF-49467, provided they are listed in this drawing. PPM testing and calculation is not applicable. Solderability testing shall be performed as a separate subgroup of group B inspection with a sample size of 3 units and 0 defectives permitted. 4.2.2 Certification. The acquiring activity, at its discretion, may accept a certificate of compliance with group B requirements in lieu of performing group B tests (see 6.2d). 5. PACKAGING 5.1 Packaging. For acquisition purposes, the packaging requirements shall be as specified in the contract or order (see 6.2). When packaging of materiel is to be performed by DoD or in-house contractor personnel, these personnel need to contact the responsible packaging activity to ascertain packaging requirements. Packaging requirements are maintained by the Inventory Control Point’s packaging activities within the Military Service or Defense Agency, or within the military service’s system commands. Packaging data retrieval is available from the managing Military Department’s or Defense Agency’s automated packaging files, CD-ROM products, or by contacting the responsible packaging activity. 6. NOTES (This section contains information of a general or explanatory nature which may be helpful, but is not mandatory.) 6.1 Intended use. Capacitors conforming to this drawing are intended for use when military specifications do not exist and qualified military devices that will perform the required function are not available for original equipment manufacturer application. This drawing is intended exclusively to prevent the proliferation of unnecessary duplicate specifications, drawings, and stock catalog listings. When a military specification exists and the product covered by this drawing has been qualified for listing, this drawing becomes obsolete and will not be used for new design. 6.2 Ordering data. The contract or purchase order should specify the following: a. Complete PIN (see 1.2). b. Requirements for delivery of one copy of the conformance inspection data or certificate of compliance that parts have passed conformance inspection with each shipment of parts by the manufacturer. c. Requirements for packaging and packing. d. Whether the manufacturer performs the group B tests or provides certification of compliance with group B requirements. e. Requirements for notification of change of product to procuring activity, if applicable. 6.3 Tin whisker growth. The use of alloys with tin content greater than 97 percent, by mass, may exhibit tin whisker growth problems after manufacture. Tin whiskers may occur anytime from a day to years after manufacture and can develop under typical operating conditions, on products that use such materials. Conformal coatings applied over top of a whisker-prone surface will not prevent the formation of whiskers. Alloys of 3 percent lead, by mass, have shown to inhibit the growth of tin whiskers. For additional information on this matter, refer to ASTM B545 (Standard Specification for Electrodeposited Coating of Tin). 6.4 Replaceability. Capacitors covered by this drawing will replace the same commercial device covered by contractor prepared specification or drawing. 6.5 Users of record. Coordination of this document for future revisions is coordinated only with the approved sources of supply and the users of record of this document. Requests to be added as a recorded user of this drawing should be in writing to: DLA Land and Maritime, ATTN: VAT, Post Office Box 3990, Columbus, OH 43218-3990 or e-mailed to [email protected] also by telephone (614) 692-4709 or DSN 850-4709. DEFENSE ELECTRONIC SUPPLY CENTER SIZE CODE IDENT NO. DWG NO. DAYTON, OHIO A 14933 87070 REV M PAGE 6 DEFENSE ELECTRONICS SUPPLY CENTER DAYTON, OHIO SIZE A CODE IDENT NO. 14933 REV M DWG NO. 87070 PAGE 1/ DSCC drawing PIN 8707001 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Vendor A similar vendor type Vendor B similar vendor type Vendor C and J similar vendor type Vendor D similar vendor type Vendor E Vendor F similar similar vendor type vendor type SV06KC101KHA SV06KC101MHA SV06KC121KHA SV06KC121MHA SV06KC151KHA SV06KC151MHA SV06KC181KHA SV06KC181MHA SV06KC221KHA SV06KC221MHA SV06KC271KHA SV06KC271MHA SV06KC331KHA SV06KC331MHA SV06KC391KHA SV06KC391MHA SV06KC471KHA SV06KC471MHA SV06KC561KHA SV06KC561MHA SV06KC681KHA SV06KC681MHA SV06KC821KHA SV06KC821MHA SV07KC102KHA SV07KC102MHA SV07KC122KHA SV07KC122MHA SV07KC152KHA SV07KC152MHA SV07KC182KHA SV07KC182MHA SV07KC222KHA SV07KC222MHA SV07KC272KHA SV07KC272MHA SV07KC332KHA SV07KC332MHA SV07KC392KHA SV07KC392MHA SV07KC472KHA SV07KC472MHA SV07KC562KHA SV07KC562MHA SV07KC682KHA SV07KC682MHA SV08KC822KHA SV08KC822MHA 3920CX101KA502 3920CX101MA502 3920CX121KA502 3920CX121MA502 3920CX151KA502 3920CX151MA502 3920CX181KA502 3920CX181MA502 3920CX221KA502 3920CX221MA502 3920CX271KA502 3920CX271MA502 3920CX331KA502 3920CX331MA502 3920CX391KA502 3920CX391MA502 3920CX471KA502 3920CX471MA502 3920CX561KA502 3920CX561MA502 3920CX681KA502 3920CX681MA502 3920CX821KA502 3920CX821MA502 4540CX102KA502 4540CX102MA502 4540CX122KA502 4540CX122MA502 4540CX152KA502 4540CX152MA502 4540CX182KA502 4540CX182MA502 4540CX222KA502 4540CX222MA502 4540CX272KA502 4540CX272MA502 4540CX332KA502 4540CX332MA502 4540CX392KA502 4540CX392MA502 4540CX472KA502 4540CX472MA502 4540CX562KA502 4540CX562MA502 4540CX682KA502 4540CX682MA502 5550CX822KA502 5550CX822MA502 502H99W101KQ3H 502H99W101MQ3H 502H99W121KQ3H 502H99W121MQ3H 502H99W151KQ3H 502H99W151MQ3H 502H99W181KQ3H 502H99W181MQ3H 502H99W221KQ3H 502H99W221MQ3H 502H99W271KQ3H 502H99W271MQ3H 502H99W331KQ3H 502H99W331MQ3H 502H99W391KQ3H 502H99W391MQ3H 502H99W471KQ3H 502H99W471MQ3H 502H99W561KQ3H 502H99W561MQ3H 502H99W681KQ3H 502H99W681MQ3H 502H99W821KQ3H 502H99W821MQ3H 502H62W102KQ3H 502H62W102MQ3H 502H62W122KQ3H 502H62W122MQ3H 502H62W152KQ3H 502H62W152MQ3H 502H62W182KQ3H 502H62W182MQ3H 502H62W222KQ3H 502H62W222MQ3H 502H62W272KQ3H 502H62W272MQ3H 502H62W332KQ3H 502H62W332MQ3H 502H62W392KQ3H 502H62W392MQ3H 502H62W472KQ3H 502H62W472MQ3H 502H62W562KQ3H 502H62W562MQ3H 502H62W682KQ3H 502H62W682MQ3H 502H66W822KQ3H 502H66W822MQ3H UTC4128-01 UTC4128-02 UTC4128-03 UTC4128-04 UTC4128-05 UTC4128-06 UTC4128-07 UTC4128-08 UTC4128-09 UTC4128-10 UTC4128-11 UTC4128-12 UTC4128-13 UTC4128-14 UTC4128-15 UTC4128-16 UTC4128-17 UTC4128-18 UTC4128-19 UTC4128-20 UTC4128-21 UTC4128-22 UTC4128-23 UTC4128-24 UTC4128-25 UTC4128-26 UTC4128-27 UTC4128-28 UTC4128-29 UTC4128-30 UTC4128-31 UTC4128-32 UTC4128-33 UTC4128-34 UTC4128-35 UTC4128-36 UTC4128-37 UTC4128-38 UTC4128-39 UTC4128-40 UTC4128-41 UTC4128-42 UTC4128-43 UTC4128-44 UTC4128-45 UTC4128-46 UTC4128-47 UTC4128-48 130403-01 130403-02 130403-03 130403-04 130403-05 130403-06 130403-07 130403-08 130403-09 130403-10 130403-11 130403-12 130403-13 130403-14 130403-15 130403-16 130403-17 130403-18 130403-19 130403-20 130403-21 130403-22 130403-23 130403-24 130403-25 130403-26 130403-27 130403-28 130403-29 130403-30 130403-31 130403-32 130403-33 130403-34 130403-35 130403-36 130403-37 130403-38 130403-39 130403-40 130403-41 130403-42 130403-43 130403-44 130403-45 130403-46 130403-47 130403-48 See footnote at end of table. PCI1560-01 PCI1560-02 PCI1560-03 PCI1560-04 PCI1560-05 PCI1560-06 PCI1560-07 PCI1560-08 PCI1560-09 PCI1560-10 PCI1560-11 PCI1560-12 PCI1560-13 PCI1560-14 PCI1560-15 PCI1560-16 PCI1560-17 PCI1560-18 PCI1560-19 PCI1560-20 PCI1560-21 PCI1560-22 PCI1560-23 PCI1560-24 PCI1560-25 PCI1560-26 PCI1560-27 PCI1560-28 PCI1560-29 PCI1560-30 PCI1560-31 PCI1560-32 PCI1560-33 PCI1560-34 PCI1560-35 PCI1560-36 PCI1560-37 PCI1560-38 PCI1560-39 PCI1560-40 PCI1560-41 PCI1560-42 PCI1560-43 PCI1560-44 PCI1560-45 PCI1560-46 PCI1560-47 PCI1560-48 Vendor G similar vendor type Vendor H similar vendor type 4020N101K502LEXH 4020N101M502LEXH 4020N121K502LEXH 4020N121M502LEXH 4020N151K502LEXH 4020N151M502LEXH 4020N181K502LEXH 4020N181M502LEXH 4020N221K502LEXH 4020N221M502LEXH 4020N271K502LEXH 4020N271M502LEXH 4020B331K502LEXH 4020B331M502LEXH 4020B391K502LEXH 4020B391M502LEXH 4020B471K502LEXH 4020B471M502LEXH 4020B561K502LEXH 4020B561M502LEXH 4020B681K502LEXH 4020B681M502LEXH 4020B821K502LEXH 4020B821M502LEXH 4540B102K502LEXH 4540B102M502LEXH 4540B122K502LEXH 4540B122M502LEXH 4540B152K502LEXH 4540B152M502LEXH 4540B182K502LEXH 4540B182M502LEXH 4540B222K502LEXH 4540B222M502LEXH 4540B272K502LEXH 4540B272M502LEXH 4540B332K502LEXH 4540B332M502LEXH 4540B392K502LEXH 4540B392M502LEXH 4540B472K502LEXH 4540B472M502LEXH 4540B562K502LEXH 4540B562M502LEXH 4540B682K502LEXH 4540B682M502LEXH 5550B822K502LEXH 5550B822M502LEXH 50HV11B101KM 50HV11B101MM 50HV11B121KM 50HV11B121MM 50HV11B151KM 50HV11B151MM 50HV11B181KM 50HV11B181MM 50HV11B221KM 50HV11B221MM 50HV11B271KM 50HV11B271MM 50HV11B331KM 50HV11B331MM 50HV11B391KM 50HV11B391MM 50HV11B471KM 50HV11B471MM 50HV11B561KM 50HV11B561MM 50HV11B681KM 50HV11B681MM 50HV11B821KM 50HV11B821MM 50HV05B102KM 50HV05B102MM 50HV05B122KM 50HV05B122MM 50HV05B152KM 50HV05B152MM 50HV05B182KM 50HV05B182MM 50HV05B222KM 50HV05B222MM 50HV05B272KM 50HV05B272MM 50HV05B332KM 50HV05B332MM 50HV05B392KM 50HV05B392MM 50HV05B472KM 50HV05B472MM 50HV05B562KM 50HV05B562MM 50HV05B682KM 50HV05B682MM 50HV06B822KM 50HV06B822MM 7 DEFENSE ELECTRONICS SUPPLY CENTER DAYTON, OHIO 1/ DSCC drawing PIN 8707049 50 51 52 53 54 55 56 57 58 59 60 61 62 Vendor A similar vendor type Vendor B similar vendor type Vendor C and J similar vendor type Vendor D similar vendor type Vendor E Vendor F similar similar vendor type vendor type SV08KC103KHA SV08KC103MHA SV09KC123KHA SV09KC123MHA SV09KC153KHA SV09KC153MHA SV10KC183KHA SV10KC183MHA N/A N/A SV11KC273KHA SV11KC273MHA SV12KC333KHA SV12KC333MHA 5550CX103KA502 5550CX103MA502 5550CX123KA502 5550CX123MA502 5550CX153KA502 5550CX153MA502 8840CX183KA502 8840CX183MA502 8840CX223KA502 8840CX223MA502 11050CX273MA502 11050CX273KA502 13060CX333KA502 13060CX333MA502 502H66W103KQ3H 502H66W103MQ3H 502H70W123KQ3H 502H70W123MQ3H 502H70W153KQ3H 502H70W153MQ3H 502H99W183KQ3H 502H99W183MQ3H 502H99W223KQ3H 502H99W223MQ3H 502H99W273KQ3H 502H99W273MQ3H 502H80W333KQ3H 502H80W333MQ3H UTC4128-49 UTC4128-50 UTC4128-51 UTC4128-52 UTC4128-53 UTC4128-54 UTC4128-55 UTC4128-56 UTC4128-57 UTC4128-58 UTC4128-59 UTC4128-60 UTC4128-61 UTC4128-62 130403-49 130403-50 130403-51 130403-52 130403-53 130403-54 130403-55 130403-56 130403-57 130403-58 130403-59 130403-60 130403-61 130403-62 PCI1560-49 PCI1560-50 PCI1560-51 PCI1560-52 PCI1560-53 PCI1560-54 PCI1560-55 PCI1560-56 PCI1560-57 PCI1560-58 PCI1560-59 PCI1560-60 PCI1560-61 PCI1560-62 Vendor G similar vendor type Vendor H similar vendor type 5550B103K502LEXH 5550B103M502LEXH 6560B123K502LEXH 6560B123M502LEXH 6560B153K502LEXH 6560B153M502LEXH 9040B183K502LEXH 9040B183M502LEXH 9040B223K502LEXH 9040B223M502LEXH 11050B273K502LEXH 11050B273M502LEXH 13060B333K502LEXH 13060B333M502LEXH 50HV06B103KM 50HV06B103MM 50HV07B123KM 50HV07B123MM 50HV07B153KM 50HV07B153MM 50HV14B183KM 50HV14B183MM 50HV14B223KM 50HV14B223MM 50HV15B273KM 50HV15B273MM 50HV16B333KM 50HV16B333MM 1/ Parts must be purchased to this DSCC PIN to assure that all performance requirements and tests are met. SIZE A CODE IDENT NO. 14933 REV M DWG NO. 87070 PAGE 8 6.6 Approved sources of supply. Approved sources of supply are listed herein. Additional sources will be added as they become available. For assistance in the use of this drawing, contact DLA Land and Maritime, ATTN: VAT, Post Office Box 3990, Columbus, OH 43218-3990 or e-mailed to [email protected] also by telephone (614) 692-4709 or DSN 850-4709. Vendor Vendor CAGE Vendor name and address A 96095 Olean Advanced Products A Division of AVX Corporation 1695 Seneca Avenue Olean NY 14760-3736 B 63980 Wright Capacitors Incorporated 2610 South Oak Street Santa Ana CA 92707-3720 C 07EN1 Advanced Monolythic Ceramics, Incorporated 3101 Constitution Avenue, Suite 100 Olean NY 14760-1867 D 0YBX7 Union Technology Corporation 718 Monterey Pass Road Monterey Park CA 91754-3607 E 0LR95 Spectrum Control Technology Incorporated 1900 West College Avenue State College, PA 16801 F 60212 Presidio Components Incorporated 7169 Construction Court San Diego CA 92121-2615 G 65238 Novacap 25136 Anza Drive Valencia CA 91355-3415 H 3H3G4 CalRamic Technologies LLC 5462 Louie Lane Reno, NV 89511 J 29454 Johanson Dielectrics, Inc 15191 Bledsoe Avenue Sylmar, CA 91342 DEFENSE ELECTRONIC SUPPLY CENTER SIZE CODE IDENT NO. DWG NO. DAYTON, OHIO A 14933 87070 REV M PAGE 9