NAVY MIL-S-81344-1965 CONVERTER SIGNAL DATA CV-2461( ) A《CV-2461( ) A信号数据转换器》.pdf

1、MIL-S-81344 61 a 9779906 0418865 ? H MIL-S-81344 (W) 27 December 1965 BILITAY SPECIFICATION SYNCHRO CONVERTER SET, A-NEU THIS SPECIFICATION HAS BEEN APPROVED BY THE BUREAU OF NAVAL i4EAPONS, DEPARTMENT OF THE NAW 1. SCOPE 1.1 to convert an:ular data represented by three vire 400 cycle per second (cp

2、s) electricdl synchro sipals into 11 bit binary digital data and to convert 11 bit bincry digital data into three wire 406 cps synchro electrical signals. Scope - The equipment covered by this specification shall be designed 1. listed in 6.9. Classification - The Synchro Converter Set shall consist

3、of the items 2, APPLICABLE DOCUMENTS 2.1 General - The documents listed in 6.10 of the issue in effect on the dete of invitation for bids form a part of this specification to the extent specified herein. 3. REqUIEMENTS - 3.1 testing. Preproduction - This specification makes provision for preproducti

4、on 3.2 ment of major design objectives shall be the prime consideration. Parts and Hsterialc - In the selection of parts and materials, fulfill- In so cioing the following chai1 govern: (1) Xicroelectronic items shall conform to WR- 101, requirements specified herein. part 2 and the (2) Other parts

5、and materials requirements shall. conform to Specification MIL-E-5400. (3) Nonrepairable subassemblies, as outlined in Specification NIL-E-5400, shall be used hen practicable. The general size of the subassembly and the amount ofcircuitry to be included therein shall be approved by the procuring act

6、ivity. reliable. (See 6.4) Nonrepairable subassemblies must be (4) Digital input amplifiers shall be designed in accordance with the requirements of Appendix A. FSC-6125 Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-S-1344 61 = 7777906 042bh 7

7、S. MIL-S-8134.4 (WP) 3.2.1 #als Approval - Approval for the use of nonstandard parts and materials shall be obtained a8 outlined in Specifi- cation MIL-E-5400, 3.2.2 Electron Devices - Transistors and diodes shall be chosen and applied as outlined in Specification !4IL-E-4682. 3.2.3 Assemblies shall

8、 be described by a contractor procurement specification and must be approved by the procuring agency, (Microelectronic Circuits) (MICS) shall be contained within Maintenance Modules, (for example, or printed circuit cards). The choice of Microelec- tronic Modular Assemblies shall be based on at leas

9、t two sources of supply, which can be used interchangeably. Microelectronic Modular Assemblies - Nien used,Elicroelectronic Modular Microelectronic Modular Assemblies 3.3 applicable requirements of Specification MIL-E-5400 for design, construction and workmanship, except as otherwise specified herei

10、n. 3.3.1 Total Weight - The total weight of the equipment, excluding cables, shall be a minimum consistent with good design and shall not exceed 50 pounds. Design and Construction - The equipment shall conform with all the 3.3.2 Reliability 3.p.2.1 Operational Stability - The .equipment shall operat

11、e with satisfactory performance, continuously or intermittently for a period of at least 1,000 hours without the necessity for readjustment of any controls which are inac- cessible to the operator during normal use, 3.3.2.2 50,000 hours with reasonable servicing and replncement of parts. life is def

12、ined as that period of time during which the equipment has an MTBF equal to or greater than the minimum acceptable MTBF. scheduled replacement shall be specified by the contrac tor. Operating Life - The equipment shall have a total operating life of Operating Parts requiring 3.3.2.3 Keliabili ty, Re

13、quirements 3.3,2,3.1 Desipn idean Time Between Failures - The specified or design mean- time-between-failures (MTBF) shall meet or exceed 4,500 hours. The speciifed MTBF shall be substantiated by an analytical model of equipment reliability, The reliability model shall be prepared in accordance with

14、 the procedures established in MIL-STD-756 and MIL-HRBK-217, Failure rates and failure rate curves used shall be substantiated by minimum of 10 X 166 component hours for each component type or shall be taken from the appropriate curve in MIL- HDBK-217, The reliability calculations with the substanti

15、ating failure rate data shall be submitted with the contractors proposal to the government. 3.3.2.3.2 MTBF To Be Demonstrated By Test - For purposes of demonstrating MTBF by test, as opposed to analytical substantiation, 1500 hours shall be used as the specified MTBF when testing in accordance with

16、paragraph 4.5. -2 - Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-3.3.2.4 Materials and Process Reliability - All materials, components and processes shall be qualified to the maximum environmental conditions of MIL-E-5400, for Class 1 equipment. Q

17、ualification of materials, components and processes shall be conducted prior to their use in deliverable equipment. Qualification records and test results shall be maintained and made available to the Government upon request, 3.3.2.5 Parts Specifications - The contractor shall control the procuremen

18、t of all parts and materials by detail contractor specifications. cations shall contain sufficient information and quality assurance requirements to preclude contractor acceptance of materials not in conformance with the equipment design and environmental requirements. The specifi- 3.3.3 Maintainabi

19、lity - To provide for increased system effectiveness, main- tainability shall receive equal consideration with such factors as cost, physical parameters, and reliability. The Maintenance Philosophy for avionics equipment procured for use in the A-NEW program is that of fault isolation to and repair

20、by replacement of individual modules at the organizational maintenance level without removing equipment from the operational environment in the air- craft. Where feasible, fault isolation shall be computer initiated utilizing a diagnostic program; where not feasible, equipments shall provide self te

21、st features or readily accessible test points to accommodate standard test equip- ment affording fault isolation to the individual replaceable module. It shall be possible in 95% of the cases to fault isolate, repair and Check-out the unit-within a maximum of 30 minutes at the organizational mainten

22、ance level. In addition, the capability for performance testing shall be built into each system, subsystem and equipment to provide preflight readiness indications and to check performance levels when an out-of-tolerance condition is suspected. 3.3.3.1 DEFINITIONS 3.3.3.1.2 herein noted. Terms used

23、in this specification are defined in MIL-STD-280 unless 3.3.3.1.3 Maintenance Levels - Maintenance levels shall be as defined in BUWEPS Instruction 4700.2a. 3.3.3.1.4 Module - The least complex segment of a component (Unit, Black Box) that can be removed and reinserted into the component through the

24、 use of connectors without a requirement for soldering (brazing) or welding. It is the assembly to which a fault isisolated in the aircraft. either throw-away or shop repairable. . Modules may be 3.3.3.2 Requirements 3.3-2.1 Readiness Measurement Requirements - Suitable features shall be incorporate

25、d in the equipment to provide the operator, while airborne and while on the ground, with Go NO-G indication of equipment readiness. features may be in conjunction with, but not necessarily as part of the fault isolation features. These -3- Y*. Provided by IHSNot for ResaleNo reproduction or networki

26、ng permitted without license from IHS-,-,-MIL-S-813LILI 61 = 9999906 009LIb07 O MIL-S-$1344 (WP) 3.3.3.2.1.1 test featuEe shall be accomplished automatically and continuously by the computer unless it can be demonstrated that an on-demand, manually energized test mode of operation is more feasible.

27、Mode of Operation - The operation of the performance/readiness 3.3.3.2.2 Maintainability Requirements 3.3.2.2.1 Operational Maintainability Requirements - The time to repair shall be such that it will be possible in 95% of all the cases offailures, to per- form corrective organizational maintenance

28、actions within 30 minutes. As here applied on organizational corrective action includes the following: (1) Recognition of a fault (2) Isolation of.the fault to a module (3) Module replacement (4) Check out of the equipment 3.3.3.2.2.2 Packaging Requirements - The equipment shall be packaged in modul

29、ar form so that, to the maximum extent practical, all sub-assemblies shall be of the plug in type and should be easily removable without special tools, for maintenance, If a special tool is required for removal, it shall be pro- vided and attached to. the equipment. 3.3.3.2.2.3 Module Commonality -

30、The number of different modules will be keptAo an absolute minimum. testing and spares requirements at all levels of maintenance, This standardization is mandatory to ease the 3.3.3.2.2.4 Module Accessibility - Module arrangement, will be such that access to each module does not require the removal

31、of adjacent modules or parts other than access panels. 3.3.3.2.2.5 Keying - Modules and connectors shall be keyed to prevent the insertion of a connector or module into an improper location within or on the equipment, 3.3.3.2.2.6 Part Replacement - Part replacement on the analog modules shall be pos

32、sible by skilled technicians working in a designated service area such as intermediate maintenance activity. Use of potting compounds, excessive moisture/fungus proofing compounds or any other substance to mechanically support piece parts is forbidden. Moisture/fungus proofing compounds, not in exce

33、ss of a 2 mil thickness is permitted. 3.3.3.2.2.7 Non-repairable assemblies - All designs for non-repairable assemblies shall be submitted to the Government, for approval, prior to release for fabricagion. -4- Provided by IHSNot for ResaleNo reproduction or networking permitted without license from

34、IHS-,-,-MIL-S-81344 (WP) 3.3.3.2.2.8 Adiustments - In ordrr to decrease the complexity of the main- tenance tasks the equipment should be designed to require no periodic adjust- ments, alignment or calibration. Adjustments shall be capable of being made in the aircraft using simple hand tools and/or

35、 General and Standard Test Equipment. Adjustments shall be identified and accessible without a require- ment to remove or relocate the module, any other modular or part. 3.3.3.2.2.9 Access - It shall be possible to perform 90% of the anticipated maintenance actions by access to one side of the equip

36、ment only. 3.3.3.2.2.10 Access Panels - Access panels shall be retained by quick dis- connect fastners i.e. hand operated slide, dzus type etc. 3.3.3.2.2.11 Air Filters - Devices requiring removal periodically for inspect- ion and/or servicing shall be retained by quick disconnect fastners i.e. hand

37、 operated slide, dzus type etc, 3.3.3.2.212 Eounting Devices - Connectors, receptacles, fuses, circuit breakers or any other electronic part, shall not be a part of any mounting device associated with the equipment. 3.3.3.2.2.13 Aircraft Connectors - Aircraft cables shall mount directly to the equip

38、ment, using quick disconnect type connectors. 3.3.3.2.2.14 Aircraft Accessibility - Form factor and location of connectors, air filters, circuit breakers, access panels, and modules shall be such that when the equipment is installed in the aircraft, all in-aircraft maintenance acttons may be perform

39、ed with the equipment in its installed position. 3.3.3.2.2.15 Protective Devices - Circuit breakers shall be used in lieu of fuses whenever possible. Fuses, if used, sliall be of types and ratings readily available from Navy Supply. Fuse holders and/or circuit breakers shall be accessible from the e

40、xterior of the equipment, plainly marked as to rating and size, and shall be of the fault indicating type and/or have access for quick voltage checks. 3.3.3.2.2.16 Handles - Handles shall be provided as part of the equipment. They shall be located to give optimum handling capability by one man. ! 3.

41、3.3.2.3 Fault Isolation/Manual Preparation 3.3.3.2.3.1 Fault Isolation - In conjunction with, but not necessarily as part of the Performance/Readiness testing features, there shall be features incorporated which will permit fault isolation to the module level. These features shall include the necess

42、ary switching arrangements with a GO NO-GO readout device that will dearly indicate whether or not the function selected is within minimum perfonnance standards. not feasible, means shall be provided to use general or standard test equip- ment, i.e. Oscilloscope, VTVM etc. If a built-in readout devi

43、ce is Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-S-L344 b1 m 9999906 0094611 9 m MIL-S-81344 (Wp) 3.3.3.2.3.2 Diagnostic Ability - If feasible, the equipment shall be logi- cally and electrically designed to facilitate the location of malfun

44、ctioning modules throu;h diagnostic programming in conjunction with the aircrafts computer and/or other installed electronic equipment. made available at the front of the equipment to assist diagnosis of malfunct- ions. Test points shall be 3.3.3.2.3.2 Diagnostic and Maintenance Koutines - The contr

45、actor shall assume responsibility for preparation and delivery of the diagnostic routines, and a program listing including the description of use for each as well as pre- paration and delivery of the associated maintenance manual. 3.3.3.2.3.3 Manual Preparation - The equipment maintenance manual to

46、be used in the performance of the testing will be written to a comprehensive ability level as described in paragraph 3.7.6 of Naval Weapon Specification, WS 3099. (1) (2) Civilian Education - High School graduate or equivalent. Technical Training - Navy, Class A technician school and training course

47、s appropriate to the maintenance task. Experience - ho years of technician experience in addition to technician tr %riing. (3) 3.3.3.2.4 TEST POINTS 3.2.3.2.4.1 standard Navy approved test equipment, i.e. multimeter or oscilloscope probes. probes, use of adapters will be permitted. vided with and se

48、cured to the set. Test Point Requirement - All test points shall accommodate In the event miniature test points cannot accommodate standard These adapters are to be pro- 3.3.3.2.4.2 Power Supply Test Points - Accessible external individual test receptacles shall be provided on the equipment, to meas

49、ure the output voltages, The receptacles shall be identified as to the voltage normally present at the test point. 3.3.3.2.4.3 Fault Isolation Test Points - Test points are required to provide capabilities for testing, when nature of malfunction is beyond scope of com- puter diagnostic test program, built-in-test equipment (BITE) or when other provisions have not been made for fault isolation to the function and/or module level. In addition, for those equipments incorporatirg