电子测试
電子測試
전자측시
ELECTRONIC TEST
2012年
5期
89-92
,共4页
调制电路%555振荡器%微波开关%微波信号
調製電路%555振盪器%微波開關%微波信號
조제전로%555진탕기%미파개관%미파신호
modulation circuit%555 oscillator%microwave switch%microwave signal
在智能微波开关的发射电路中,对高频微波信号采用了低频和中频两级调制的方法。为避免现场多对智能微波开关之间的相互干扰,首先用37~51 Hz分8级可调的低频高占空比方波信号调制21 kHz固定频率的中频信号,再用该信号调制10 GHz的高频微波信号。在信号调制的同时,用低频信号控制MOS管对高频微波模块的DC-DC供电电源反馈回路进行干预,使DC-DC电路工作于最佳状态,输出电压峰值平稳,避免了高频发射模块间歇式工作对电源电路输出的影响,提高了智能微波开关的测量精度和工作的可靠性。设计结果与理论分析结果比较接近,达到了设计要求。
在智能微波開關的髮射電路中,對高頻微波信號採用瞭低頻和中頻兩級調製的方法。為避免現場多對智能微波開關之間的相互榦擾,首先用37~51 Hz分8級可調的低頻高佔空比方波信號調製21 kHz固定頻率的中頻信號,再用該信號調製10 GHz的高頻微波信號。在信號調製的同時,用低頻信號控製MOS管對高頻微波模塊的DC-DC供電電源反饋迴路進行榦預,使DC-DC電路工作于最佳狀態,輸齣電壓峰值平穩,避免瞭高頻髮射模塊間歇式工作對電源電路輸齣的影響,提高瞭智能微波開關的測量精度和工作的可靠性。設計結果與理論分析結果比較接近,達到瞭設計要求。
재지능미파개관적발사전로중,대고빈미파신호채용료저빈화중빈량급조제적방법。위피면현장다대지능미파개관지간적상호간우,수선용37~51 Hz분8급가조적저빈고점공비방파신호조제21 kHz고정빈솔적중빈신호,재용해신호조제10 GHz적고빈미파신호。재신호조제적동시,용저빈신호공제MOS관대고빈미파모괴적DC-DC공전전원반궤회로진행간예,사DC-DC전로공작우최가상태,수출전압봉치평은,피면료고빈발사모괴간헐식공작대전원전로수출적영향,제고료지능미파개관적측량정도화공작적가고성。설계결과여이론분석결과비교접근,체도료설계요구。
In transmission circuit of a smart microwave switch,both the low-frequency and the mid-frequency signals are transformed into microwave frequency.To avoid several couple smart microwave switches interfere with each other, first, the 21 kHz fixed-frequency signal is modulated by a high-duty-cycle square wave signal which frequencies are adjustable from 37 Hz to 51 Hz as 8-levels. secondly, the modulated signal modulates microwave. At the same time, the low-frequency signal controls a MOSFET to regulate the feedback signal of the DC-DC circuit of the microwave module. The regulating operation makes the DC-DC circuit to work in best state, prevent effects from intermittent work of the high-frequency module. The output voltage of the DC- DC circuit is very smooth. The measuring precision and reliability are improved. Design results are close the theoretical results and meet the design requirements.
