现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2013年
9期
147-150
,共4页
微波源%磁控管%DC?RF转换%相位控制
微波源%磁控管%DC?RF轉換%相位控製
미파원%자공관%DC?RF전환%상위공제
microwave source%magnetron%DC?RF conversion%phase control
基于5.8 GHz磁控管,研制测试了输出功率、频率稳定以及相位可控的大功率微波源系统.磁控管是整个系统的核心器件,由于其具有较高的DC?RF转换效率和功率质量比,选择磁控管作为系统的微波发生器.然而磁控管的输出频率不稳定、相位不可控,因此研究了以注入锁相和DDS+PLL频率合成为关键技术的相位控制系统,以实现对磁控管微波源系统输出信号频率和相位的控制,并测试了微波源系统输出功率、频率的稳定性以及相位控制系统的相位精度.测试显示微波源具有670 W的稳定输出功率,且频率稳定度≤10kHz,相位精度≤±2°.
基于5.8 GHz磁控管,研製測試瞭輸齣功率、頻率穩定以及相位可控的大功率微波源繫統.磁控管是整箇繫統的覈心器件,由于其具有較高的DC?RF轉換效率和功率質量比,選擇磁控管作為繫統的微波髮生器.然而磁控管的輸齣頻率不穩定、相位不可控,因此研究瞭以註入鎖相和DDS+PLL頻率閤成為關鍵技術的相位控製繫統,以實現對磁控管微波源繫統輸齣信號頻率和相位的控製,併測試瞭微波源繫統輸齣功率、頻率的穩定性以及相位控製繫統的相位精度.測試顯示微波源具有670 W的穩定輸齣功率,且頻率穩定度≤10kHz,相位精度≤±2°.
기우5.8 GHz자공관,연제측시료수출공솔、빈솔은정이급상위가공적대공솔미파원계통.자공관시정개계통적핵심기건,유우기구유교고적DC?RF전환효솔화공솔질량비,선택자공관작위계통적미파발생기.연이자공관적수출빈솔불은정、상위불가공,인차연구료이주입쇄상화DDS+PLL빈솔합성위관건기술적상위공제계통,이실현대자공관미파원계통수출신호빈솔화상위적공제,병측시료미파원계통수출공솔、빈솔적은정성이급상위공제계통적상위정도.측시현시미파원구유670 W적은정수출공솔,차빈솔은정도≤10kHz,상위정도≤±2°.
The high?power microwave source system based on 5.8 GHz magnetron was developed and tested,which meets the requirements of stable output power and frequency,along with controllable phase. Magnetron works as the core device of the whole microwave source system. Owing to its high DC?RF conversion efficiency and power quality ratio,the magnetron was taken as the microwave generator of the microwave source system. However,due to the unstable output frequency and uncontrollable phase,the phase controlling system with the key technologies of injection phase?locking and DDS+PLL frequency synthesis was studied to control the output signal frequency and phase of the magnetron microwave source system. The stability of output power and frequency,as well as the phase precision of phase control system were tested. The test demonstrates that the magnetron microwave source system has 670 W stable output power,its frequency stability is ≤10 kHz and phase accuracy range is ≤±2°.