GMW3103JulAppendix A Test Plan.docForumsSAE.doc

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1、Table A1: Component EMC Test PlanDevice Under Test (no abbreviations):GM Approval Number:Release Date: Revision:DUT Part Number(s):DUT Manufacturer:Prepared by (Supplier):Approved by Vehicle Manufacturers Responsible Engineer:Approved by (Supplier): Approved by Vehicle Manufacturers/EMC: Revision Hi

2、storyDateDescriptionThis Test Plan is approved with the following corrections and/or added conditions:Modifications to GMW3097DateDescriptionTable A2.1: Test RequirementsDevice Category(per Table 2 of GMW3097)GMW 3097TestApplies?Number of Samples (Note 1)DUT Setup Figure(s)DUT Test Mode No.Test Comm

3、entParagraphY/NDVPVRadiated Emission RE3.3.1 ALSE3.3.2 CE, Artificial NetworkRadiated Immunity RI3.4.1 Bulk Current Injection 3.4.2 Anechoic chamber3.4.3 Reverb, mode tuning3.4.4 Magnetic fieldTransients3.5.1 Conducted Emissions3.5.2 Power Lines3.5.3 I/O Lines3.5.4 Sensor Lines3.5.5 (Optional) 85V I

4、/OElectrostatic Discharge ESD3.6.1 Power-On Mode3.6.2 Remote I/O3.6.3 HandlingNote 1: Minimum number of test samples is two. It takes two (2) samples to pass and one (1) to failTable A2.2: EMC Design Requirements ChecklistGMW 3097Compliance (Validate by Inspection)CommentParagraphY/NDVPV3.7.1 Restri

5、ction of BM Motor Capacitance to Control Switching Transients3.7.2 BM Glass Wipers and HVAC Blower Motor Capacitance3.7.3 Package Protection - Short-Duration Motor Inductors3.7.4 Package Protection - Short-Duration Motor Transient Voltage Suppression3.7.5 Package Protection Transient Voltage Suppres

6、sion on AX Outputs Switching BM Motors3.7.6 Communication Bus (Low-Speed GMLAN, High-Speed GMLAN, etc.)A3 Component EMC Test PlanA3.1 Product Family Description. Provide a brief DUT product family description, including any similarities and differences of planned hardware and software revisions. In

7、some cases, it may make sense to select a specific sample for test that represents the entire DUT family. Please state the justification and rationale for doing this.(to be filled by supplier, enlarge this area as necessary)A3.2 Product Functional Description. Provide a brief overview of the DUT fun

8、ctions, including system interfaces. Use wording that describes the system to those not familiar with the product. Define all abbreviations. Provide a list of all used connector pins and their function.(to be filled by supplier, enlarge this area as necessary)A3.3 DUT Component/Subsystem Level Test

9、Requirements. Determine the required tests for the DUT (complete Table A3, then Table A2.1). For each applicable test, indicate the appropriate DUT test mode number listed in Table A3. Provide justification if all samples of the DUT are not subjected to the same test condition. Also, provide justifi

10、cation for any omissions in testing for any of the DUT test modes listed.Additionally, complete Table A2.1 regarding specific design requirements.Note: Table 2 of GMW3097 shall be used to aid in the determination of applicable component and subsystem tests.A3.4 DUT Operating Modes/Functional Perform

11、ance Level. All DUT hardware I/O shall be examined, list all DUT I/O in Table A3. Names may be used in the table to reference DUT test modes and functions as long as a subsequent description of the mode/function is included. The Acceptance Criteria shall equal the upper limit of tolerance deviation

12、specified in the DUTs supporting documentation defining acceptable I/O parameter (CTS, SSTS or other relevant technical documentation). If not specified in other specifications use the following tolerance for voltage and current: +10/-0%. For frequency, pulse width and timing relationship measuremen

13、t 10%.Note: Supplier must provide all specialized equipment used for monitoring functionality.Table A3: DUT I/O Performance LevelDUT Test Mode #I/O DescriptionFunctionMonitored ByDUT Pin #NominalAcceptance CriteriaImmunity LevelA3.5 Device Under Test Electrical Input Requirements. Indicate input con

14、ditions that will place the DUT in the desired test mode(s) defined in Table A3, DUT I/O Performance Level. List all DUT test modes and the input names used in them. Duplicate entries for input names may exist under different modes. Include any additional information required to support DUT operatio

15、n during test, including data bus messages, and special test software. Table A4, shown below should be used to provide this information.Table A4: Device Under Test Electrical Input RequirementsTest Mode #Input Description/NameDUTPin #Waveform(sq./sine etc)AmplitudeFreq/Pulse Width/ etc.Comments/Othe

16、rA3.6 Device Under Test Non-Electrical Input Signals/Characteristics. Provide the non-electrical input signals/characteristics to make the DUT functional (e.g., light, weight, pressure, liquid, temperature, object, etc.). Include mode information for each signal.Table A5: Device Under Test Non-Elect

17、rical Input RequirementsTest Mode #Input Description/NameDetails(to be filled by supplier, place holder for images or drawings if appropriate, enlarge this area as necessary)A3.7 Simulator/Exercisers Test Support Requirements. Illustrate the simulator used during component/subsystem testing includin

18、g pin numbers, I/O labels, actual simulated load values within the simulator including power and ground architecture. Indicate whether it is an input or output and, if loaded, is connected to a real or simulated termination. Also, include information on additional support hardware/software requireme

19、nts. Include detailed block diagrams of the load box and/or support equipment. Specify how any support equipment used will be configured so as not to influence the test results.All loads of the simulator load box shall equal the resistance, capacitance and inductance representing the actual vehicle

20、loads called out within the DUTs supporting documentation (EICD, CTS, SSTS, etc.).(to be filled by supplier, enlarge this area as necessary)A3.8 Specific Test Configurations. Provide specific test set-up information (do not include copies of generic setup diagram from IEC/ISO/SAE or other EMC standa

21、rds), including block diagrams, photographs etc. indicating DUT connections to facility and test equipment for each required test identified in Table A2 in the following test sections. The information provided should permit reproduction of the test by another test laboratory. If a specific test will

22、 not be performed, mark “N/A” in the applicable sections.A3.8.1 Radiated Emissions (RE) Setup. For Anechoic testing only: Specify which side(s) of the DUT will face the antenna during test. Provide information regarding cable/harness layout and grounding Specify other special test arrangements that

23、apply to this test Include switching power supplies “boosted voltage” mode, if applicable, to DUT(to be filled by supplier, enlarge this area as necessary)A3.8.1.1 RE, Conducted Emissions, Test With Artificial Network Setup.Please include the following items: DUT lines that are to be connected to th

24、e LISN Specify other special test arrangements that apply to this test Include switching power supplies “boosted voltage” mode, if applicable, to DUT(to be filled by supplier, enlarge this area as necessary)A3.8.2 Radiated Immunity (RI) Setup.(to be filled by supplier, enlarge this area as necessary

25、)A3.8.2.1 RI, Bulk Current Injection Test Setup.(to be filled by supplier, enlarge this area as necessary)A3.8.2.2 Immunity to Power Line Magnetic Fields Test Setup.a.DUT face with connector parallel to coils, harness perpendicular to coils andb.DUT face with connectors perpendicular to coils, harne

26、ss parallel to coils(to be filled by supplier, enlarge this area as necessary)A3.8.3 Conducted Emissions (CE) and Immunity (CI).A3.8.3.1 CE, Conducted Transient Emissions Test Setup.(to be filled by supplier, enlarge this area as necessary)A3.8.3.2 CI, Transient On Power Lines Test Setup. Include li

27、nes or pins, which are to be injected to during this test. List all individual lines or pins pulled up to battery, switched battery (e.g. ignition, switched ignition, accessory ignition, run) also include those I/O connected through loads (e.g. bulbs, relay, fuel injectors) to battery or switched ba

28、ttery. Specify if injections are to be applied to separate inputs and/or simultaneously the inputs identified below.Table A6: Transient ApplicationTypePin 12a2b 3a3b45b7Note: Pulse 1 and 2b are applicable to switched battery lines only.Note: Pulse 4 is only applicable to B+ and switched battery line

29、s which are powered during cranking.A3.8.3.3 CI, Coupling to Other Than Supply Lines (I/O lines) Test Setup.(to be filled by supplier, enlarge this area as necessary)A3.8.3.4 CI, Direct Capacitive Coupling to Sensor Lines.(to be filled by supplier, enlarge this area as necessary)A.3.8.3.5 (Optional)

30、 CI, 85V Direct Capacitive Coupling. Specify special test arrangements that apply to this test(to be filled by supplier, enlarge this area as necessary)A3.8.4 Electrostatic Discharge (ESD). This section defines criteria used to identify lines, pins or DUT case locations, which are to be subjected to

31、 ESD discharge events during Electrostatic Discharge Component Tests. Identify the ESD discharge points. List all individual pins, case discharge locations, discharge type, simulator voltages, discharge network type and a description of the pin signal.A3.8.4.1 ESD, Test During Operation of the Devic

32、e (Power-On Mode) Test Setup. Specify if DUT is accessible from outside the vehicle Specify other special test arrangements that apply to this testTable A7: ESD, Test During Operation of the Device (Power-On Mode) TestModeLocation (Pin/Case)Discharge Type(Air/Contact)ESD Simulator Voltage (kV)Discha

33、rge Network (R/C Value)Signal/PinDescription /Name(to be filled by supplier, enlarge this area as necessary)A3.8.4.2 ESD, Remote Inputs/Outputs Test Setup. Specify special test arrangements that apply to this test Specify how bus is to be active during dischargingTable A8: ESD, Remote Inputs/Outputs

34、 TestModeLocation (Pin/Case)Discharge Type(Air/Contact)ESD Simulator Voltage (kV)Discharge Network (R/C Value)Signal/PinDescription /Name(to be filled by supplier, enlarge this area as necessary)A3.8.4.3 ESD, Handling of Devices Test Setup. Specify special test arrangements that apply to this testTable A9: ESD, Handling of Devices TestModeLocation(Pin/Case)Discharge Type(Air/Contact)ESD Simulator Voltage (kV)Discharge Network(R/C Value)Signal/PinDescription /Name(to be filled by supplier, enlarge this area as necessary)

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