1、软件验收测试规范英文第一版Software Acceptance Test SpecificationISSUE HISTORYIssueDate IssuedAuthor(s)Change No.12015-01-19ZRJCAMENDMENT HISTORYIssueDate IssuedDetailsApprovalTABLE OF CONTENTS1 INTRODUCTION1.1 TEST OBJECTIVES AND COVERAGEThe purpose of this System Verification Plan (Software Acceptance Test SWAT
2、 Checklist) is to document the tests to be performed on the ZRJC SCL1141A project software on the bench. The System Verification bench testing involves simulating the systems environment to give local control and network control over the software. VAC testing (Factory Acceptance Test FAT) and field
3、train testing (Site Acceptance Test SAT) phases are planned following successful completion of bench testing1.2 TEST CLASSIFICATIONType Test.1.3 DOCUMENT OVERVIEWThis document is structured in the following manner.(a) Section 1 This section described the background, context and environment for the t
4、est.(b) Section 2 This section contains the actual test checklist(c) Section 3 This section contains comments to be made on the test and details the non-conformances arising from the test.1.4 REFERENCE DOCUMENTS Document ReferenceIssue DateIssueNumberAuthorTitleT002 VAC Software Requirement Specific
5、ation.doc18/1/2015A ZRJCVACSoftware RequirementsSpecification1.5 DEFINITIONS & ABBREVIATIONSTermDefinitionTMSTrain Management SystemHDLCHigh-Level Data Link ControlFATFresh Air TemperatureRATReturn Air TemperatureSRSSoftware Requirements SpecificationVACVentilation and Air ConditioningHMIElectrical
6、Touch Screen for VAC ControlZRJCGuangzhou Zhongche Railway Vehicles Equipment Joint-Stock Co., LtdTSStandard temperatureRHReturn Air humidityPTUPortable Test Unit2 TEST PREPARATION, SETUP AND SAFETY2.1 TEST SAFETYThe test environment uses low voltages (24VDC) and appropriate safety precautions shoul
7、d be observed.2.2 TEST ENVIRONMENTCompanyZRJCAddressNo.38 Nanbian Road, Haizhu District, Guangzhou, ChinaLocationElectrical Research DepartmentDate2.3 SOFTWARE VERSION INPUT IDKEIL:V4.73.0.0Vb:V6.0Qt:Qt Creator 2.8.12.4 HARDWARE CONFIGURATIONModel of controller CRPC11Serial number of controller:N/A
8、- boards only2.4.1 Test Equipment IdentificationComputerXP or more advanced as the operating systemHDLC MasterModel HMT-1 EMD Network Testing PlatformHMIHMI-022.5 TEST PREPARATION AND SETUPThe tester shall be responsible for conducting the test as per the test procedure in this document. The tester
9、shall also be responsible for configuring the test environment and setup of test equipment as per that as shown in figure 1.错误!链接无效。Figure 1 Controller Testing Environment Configuration2.6 TEST METHOD AND CRITERIA2.6.1 Computer Test MethodThe test computer is used for downloading software, running t
10、he PTU software and TMS simulator software. Serial port communication line shall be used to connect X6 port of controller and 485 communication line shall be used to connect the X5 port of controller.2.6.2 HDLC Test Method2.6.2.1 Network Card ConfigurationAs shown in figure 1, connect the test equip
11、ment, test lines and controller. Dial the 60 input switches to correct position according to the corresponding software control specification. Draw out the communication line from computer for connecting the X5 port of controller. Confirm the jumper cap position of network card is correct. And pleas
12、e see below for detailed specification: Figure 2 HDLC Communication Board Diagram:Jumper Setting:JP2:programming and operation selection,1-2: programming;2-3:operation;JP9:485 bus 120 resistance:Disconnect: remove the 120 resistance;Connect: place the 120 resistance in parallel;LED light:LD1:RSRS232
13、 send;LD2:RSRS232 receive;LD3:HDLC send;LD4:HDLC receive;LD5:CPU operate indicator light;LD6:data validation error instructionJX5:DB9/M; JX7:DB9/F; (1-9 pins of JX5 and JX7 are correspondingly connected)Signal definition:6RS485A; 2RS485B; 5SGND;HDLC Master shall be connected to X5 and X7 ports of co
14、ntroller by HDLC communication line.2.6.2.2 Install TMS Simulator Software in the Test ComputerInstall TMS Simulator Software for the test computer then supply power to controller. The software interface is as shown in below figure:The left part is for sending instruction, by double clicking the dat
15、a in this area, modification for each byte can be realized. And the right part is for receiving instruction. Once there is data returned from controller, they will be displayed at this area.Figure 2.6.1As shown in below figure, fill in input instruction at the left part:Figure 2.6.2By clicking , dia
16、log box (as shown in figure 4.4) will pop up. Select “One Shot” for data single transmission, otherwise is for data continuous transmission. And then click , communication begins and interface as shown in figure 2.6.3 appears. Figure 2.6.3Figure 2.6.4Keep it in normal communication for more than 2 h
17、ours, observe the communication lights to confirm it is normal without problems.The normal mode is:JP2 selected to operate;JP9 selected to connect;LD5 flickers;During communication LD1、LD2、LD3、LD4 flicker. Note: if LD6 is on, that means there is something with the communication board If the test res
18、ults are qualified, click first then disconnect the power to replace the next communication board card. Click to clear the counting before testing new card.2.6.3 HMI Test MethodThe HMI is used for local control over the controller. It is connected to X3 port of controller by CAN data line.2.6.4 Test
19、 Equipment Test MethodThe test equipment is as shown in below figure: Figure 2.1On the top left corner, there are power supply connecting terminal, power switches and power indicator lights. There are total 30 LED outputs (DO01DO30) to simulate the relay outputs, and 60 inputs (DI01DI60) to simulate
20、 each instruction and fault input; and there are 6 1k adjustable potentiometers to simulate the temperature sensor PT100, 8 20k adjustable potentiometers to stimulate the temperature sensor NTC; set variables from DI1DI60, upwardly dial the corresponding switch, the corresponding variable =0, and do
21、wnwardly dial the corresponding switch, the corresponding variable =1 (e.g. downwardly dial the first switch, then DI1 changes from 0 to 1: pulse the DI1=0 then 1). The below table shows the IO of the test equipment mapping the variables of controller:Variable DefinitionIOCF11_HOTCondenser fan 11 ov
22、erheat protectionDI1 CF12_HOTCondenser fan 12 overheat protectionDI2 CP11_HOTCompressor 11 overheat protectionDI3 CP12_HOTCompressor 12 overheat protectionDI4 CP13_HOTCompressor 13 overheat protectionDI5 CP14_HOTCompressor 14 overheat protectionDI6 EF11_HOTFan 11 overheat protectionDI7 HT1_HOTElectr
23、ic heater 1 overheat protectionDI8 EF12_HOTFan 12 overheat protectionDI9 CP11_HIGHPRESSURECompressor 11 high pressure protectionDI10 CP11_LOWPRESSURECompressor 11 low pressure protectionDI11 CP11_ExhaustHotCompressor 11 exhaust protectionDI12 CP12_HIGHPRESSURECompressor 12 high pressure protectionDI
24、13 CP12_LOWPRESSURECompressor 12 low pressure protectionDI14 CP12_ExhaustHotCompressor 12 exhaust protectionDI15 CP13_HIGHPRESSURECompressor 13 high pressure protectionDI16 CP13_LOWPRESSURECompressor 13 low pressure protectionDI17 CP13_ExhaustHotCompressor 13 exhaust protectionDI18 CP14_HIGHPRESSURE
25、Compressor 14 high pressure protectionDI19 CP14_LOWPRESSURECompressor 14 low pressure protectionDI20 CP14_ExhaustHotCompressor 14 exhaust protectionDI21 MixAirValve1_FBMixed air damper 1 feedbackDI22 EmergAirValve1_FBEmergency air damper 1 on feedbackDI23 INVERTER1_FBInverter 1 faultDI24 Smoke1_FBSm
26、oke 1 alarm signalDI25 Smoke1_FaultSmake Detecter 1 FaultDI26 380_OVThree-phase electric over-voltageDI27 380_LVThree-phase electric lack-voltageDI28 HT1Electric heater 1DO1 CF11Condenser fan 11DO2 CF12Condenser fan 12DO3 CP11Compressor 11DO4 CP12Compressor 12DO5 CP13Compressor 13DO6 CP14Compressor
27、14DO7 EF1Normal ventilation normal fan1DO8 EIF1Emergency ventilation fan 1DO9 MixAirValve1_ONMixed air damper 1 onDO10 MixAirValve1_OFFMixed air damper 1 offDO11 EmergAirValve1_ONEmergency air damper 1 onDO12 EmergAirValve1_OFFEmergency air damper 1 offDO13 INVERTER1Inverter 1 operatesDO14 Tr1Return
28、 air temperature sensor 1AI1. Th1Return Air humidity SensorAI2. Tef1Evaporation Fan 1 SensorAI3. Tef2Evaporation Fan 2 SensorAI4. Tf1Fresh Air SensorAI5. TcfCooling Air SensorAI6. 2.7 Test ContentsNo.Test ItemsNotes1 Initial Set Up And Start Up TestsProgram initialisation2 Starting up3 Inputs and Ou
29、tputsI/O mapping4 Network ControlHDLC network test5 Network control operation condition test6 Emergency ventilation mode7 Load shedding mode8 Dehumidification mode9 Smoke alarm10 Local Control CAN network test11 Local control operation condition test12 Read and delete the fault13 Read and delete the
30、 runtime14 Set and read the system time15 Read the target temperature16 Network control instruction switching17 Input and output status monitoring18 Communication port data monitoring19 Damper control Fresh air damper control20 Return air damper control21 Emergency bypass air damper control22 Fault SimulationCompressor fault23 Condenser fan fault24 Fan fault25 D
copyright@ 2008-2022 冰豆网网站版权所有
经营许可证编号:鄂ICP备2022015515号-1