改进型开关磁阻发电机功率变换器及其数据与电能同步传输策略OA
An improved switched reluctance generator converter and its signal and power synchronous transmission strategy
针对直流微电网中开关磁阻发电机(switched reluctance generator,SRG)输出电压脉动大的问题以及安全可靠数据通信的需求,文中提出一种适用于SRG的改进型功率变换器及其数据与电能同步传输通信策略.在常规不对称半桥(asymmetric half bridge,AHB)变换器基础上,引入一个与AHB变换器级联的辅助电路,从而有效抑制SRG绕组换相引起的电压纹波;以频移键控方法调制辅助电路中的功率开关,在输出电压母线上衍生出加载数据信号的电压纹波,并结合Welch法实现数据信号解调.实验结果表明,通过合理调制文中所提改进型SRG变换器,可以在有效抑制换相电压纹波的同时,实现数据与电能的同步传输.文中所提方法可以作为备用或者应急通信策略,应用于SRG系统远程投切、状态监测和协调控制等对通信速率要求不高的场合.
Given the problem of large output voltage ripple of switched reluctance generator(SRG)system and the demand for safe and reliable data communication in DC microgrid,an improved power converter and power synchronous transmission strategy suitable for SRG is proposed in this article.By appropriately modulating an introduced additional circuit cascaded to the conventional asymmetric half bridge(AHB)converter,the voltage ripple caused by SRG winding commutation is effectively suppressed.The power switch in the additional circuit is modulated using frequency shift keying to generate voltage ripples on the output voltage bus for carry data.Welch method-based power spectrum is adopted to demodulate the transmitted signals.Experimental results show that by rationally modulating the improved SRG converter,the voltage ripples can be effectively suppressed while achieving synchronous transmission of power and data.The proposed data transmission method can also serve as a backup or emergency communication strategy for SRG systems operated in scenarios that require low data communication rates,such as remote switching,status monitoring,and coordinated control.
邵志一;杨坤博;陶浩栋;于东升
中国矿业大学电气工程学院,江苏 徐州 221116中国矿业大学电气工程学院,江苏 徐州 221116中国矿业大学电气工程学院,江苏 徐州 221116中国矿业大学电气工程学院,江苏 徐州 221116
信息技术与安全科学
开关磁阻发电机(SRG)改进型SRG变换器纹波抑制频移键控数据与电能同步传输不对称半桥(AHB)变换器
switched reluctance generator(SRG)improved SRG convertersuppression of voltage ripplefrequency shift keyingsynchronous transmission of power and signalsasymmetric half bridge(AHB)converter
《电力工程技术》 2026 (2)
30-40,11
国家自然科学基金资助项目(52377201)
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