CAJ | 학술논문

低死时间单道脉冲幅度分析器电路在输入高频信号时产生自激现象，且电路本身还存在峰位检测输出信号延迟、逻辑芯片误触发的问题，导致单道无法正常工作。针对这些问题，在低死时间单道设计原理的基础上进行了电路优化，主要改善了有源微分电路，增加了延迟电路，以及单稳态成形电路，并进行了实验验证。实验结果表明，该优化电路不仅可行，而且能够在输入正弦波信号频率高达2．2 MHz时正常稳定工作。
저사시간단도맥충폭도분석기전로재수입고빈신호시산생자격현상，차전로본신환존재봉위검측수출신호연지、라집심편오촉발적문제，도치단도무법정상공작。침대저사문제，재저사시간단도설계원리적기출상진행료전로우화，주요개선료유원미분전로，증가료연지전로，이급단은태성형전로，병진행료실험험증。실험결과표명，해우화전로불부가행，이차능구재수입정현파신호빈솔고체2．2 MHz시정상은정공작。
During the debugging of the circuit of the low dead-time single channel analyzer, some problems were found, such as high-frequency signal would produce self-excited oscillation, the output of peak position detection would be delayed and when height of input pulse was higher than the threshold of the upper discrimi-nator that would make a wrong output in the logic circuit.All of these cause the low dead-time single channel analyzer to not work properly.By analyzing the principle of Low dead-time single channel analyzer, some im-provements are made in the circuit of low dead-time single channel analyzer, including active differential cir-cuit, time-delay circuit and mono-stable trigger circuit.Experimental results showed that the optimized cir-cuit is not only feasible, but also can work properly and reliably when the sine wave input signal frequency in-creased up to 2.2 MHz.