Title :
High gain, linear, low cost digitally controlled VHF-UHF analog transponder for nano satellites
Author :
Ceylan, Oguzhan ; Ozen, O.E. ; Canbey, Hilal Hilye ; Cam, Zehra Gulru ; Yagci, H.B.
Author_Institution :
Fac. of Electrics & Electron., Istanbul Tech. Univ., Istanbul, Turkey
Abstract :
Nano satellites are generally developed by universities for scientific researches because of low design cost and time. On the other hand a nano satellite has small power and limited volume; therefore there are several restrictions for circuit design. In this project, a digitally controlled VHF to UHF analog transponder is presented for nano satellites. System has -115 dBm receive sensitivity. Output power is 1 W at 437.225 MHz with ±35 kHz narrow bandwidth. Transponder is controlled by a microcontroller to keep output power stable as 30 dBm (1W) with ±1.5 dB ripple. Circuit size is 9×9 cm2 and includes a metal shield. System was tested under space conditions such as vacuum and very high temperature changes. System is pin to pin compatible with other commercial nano satellite devices´ bus structures.
Keywords :
satellite communication; transponders; bandwidth -35 kHz; bandwidth 35 kHz; circuit design; digitally controlled VHF-UHF analog transponder; frequency 437.225 MHz; gain -1.5 dB; gain 1.5 dB; metal shield; microcontroller; nanosatellite device bus structure; power 1 W; Aerospace electronics; Gain; Power amplifiers; Power generation; Satellite broadcasting; Satellites; Transponders; Analog transponder; VHF to UHF conversion; nano satellite;
Conference_Titel :
Microwave Conference Proceedings (APMC), 2013 Asia-Pacific
Conference_Location :
Seoul
DOI :
10.1109/APMC.2013.6695013
