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Technology for improving the efficiency of APAA transmitter-receiver modules operating in pulsed mode

Keywords:

P.A. Tushnov – Main Technologist, Head of Department, PJSC «Radiofizika» (Moscow) V.S. Berdyev – Ph. D. (Eng.), Head of Department, PJSC «Radiofizika» (Moscow)


The article considers ways of efficiency improving of receive-transmit modules with amplifiers operating in pulsed mode, including features of RTM efficiency improving for active phased antenna array by increasing coefficient of efficiency and by stabilization of the output power with the use of Technology for power output control. The article highlights the issues of conflict between the requirements for electronic units of various functional groups and conditions and modes of their use and operation. A formula is presented that determines the dependence of the coefficient of efficiency of RTM from the coefficient of efficiency of the amplifier of output power for microwave channel operating in pulsed mode. Graphs of dependence of the coefficient of efficiency of RTM from the coefficient of efficiency of the transistor of the output power amplifier of microwave channel operating in pulsed mode are provided. Technological research conducted during manufacturing of an experimental development batch of S band RTM is highlighted. Manufacturing of a development batch made it possible to complete technological cycles of production required for mass production of RTM for S band APAA. Technological approaches for testing and conducting integrated measurements of RTM parameters on automated stands were elaborated in the process of manufacturing of the S band RTM experimental development batch. After the processing the results of the measurements obtained during the pilot production were presented in tables and charts. Features of improvement of RTM technological performance are considered as well as general principles of design, technological preparation and production of APAA RTM using principles of the lean full life cycle of the product. The features of circuit design, layout design and engineering solutions using the principles of LFLC at the stages of RTM development and mass manufacturing aimed at increasing of RTM technological efficiency (at the example of X band RTM) are discussed. Photos and brief characteristics of the X band RTM developed at JSC «Radiofizika» are provided. It is noted that technological reconstruction was held and a complex system of production sites was created at JSC «Radiofizika» in order to provide technological efficiency and to carry-out work on the development, production of experimental samples, small series of modules for technological processing and the subsequent series production, including automated testing and calibration of APAA RTM.
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