传统转发器测试系统由于各设备间连接环节较多,仪器自处理数据能力较差,测试效率低,当转发器路数大大增加时,测试效率成为了制约研制进度的主要矛盾。同时,传统的转发器数据判读需判读人员将测试数据人工逐一录入到测试记录表格后,依据判读文件人工判读,判读效率较低。为有效解决效率低下的矛盾,QC小组通过头脑风暴,运用PDCA工具,制定对策措施,通过设计出新型的开关矩阵、选用高效信号收发一体机、采用自动化判读手段等实施对策,开发出一套高效的转发器一体化验证系统,系统具备高效的测试及判读能力。该QC成果已在多颗通信卫星的测试中应用,取得了良好的应用效果,使测试和判读效率提升至67%,并把测试过程和判读出错风险降为零,实现了质量和效率的巨大提升。 The traditional transponder test system has many problems in the link between the devices, such as poor capability of self-processing data and low test efficiency. When the number of transponders is greatly increased, the test efficiency becomes the main contradiction that restricts the progress of the development. At the same time, the traditional transponder data interpretation requires the interpreter to manually input the test data into the test record table one by one, and the interpretation is inefficient according to the interpretation of the interpretation document. In order to effectively solve the contradiction of inefficiency, the QC team used brainstormes and PDCA tools to formulate countermeasures. By designing a new switch matrix, selecting high-performance signal transceivers, and implementing automated interpretation methods, the QC team developed an efficient Transponder integrated verification system, the system has an efficient test and interpretation capabilities. The QC results have been applied in the testing of multiple communication satellites and have achieved good application results, improving the testing and interpretation efficiency to 67%, and reducing the risk of testing process and interpretation error to zero, realizing great quality and efficiency Enhance.