高功率因数升压整流器的非线性载波控制

Proceedings of 1995 IEEE Applied Power Electronics Conference and Exposition - APEC'95 Pub Date : 1995-03-05 DOI:10.1109/APEC.1995.469087

D. Maksimović, Y. Jang, R. Erickson

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引用次数: 204

摘要

提出了用于大功率因数升压整流器的新型非线性载波控制器。在NLC控制器中，开关占空比是通过比较由主开关电流产生的信号与周期性非线性载波波形来确定的。因此，平均输入电流跟随输入线路电压。该技术适用于工作在连续导通模式下的升压功率变换器。消除了输入电压传感、电流整形回路中的误差放大器和电压反馈回路中的乘法器/分法器电路。电流整形是基于开关(而不是电感)电流感应。与现有方案相比，NLC控制器提供了相当或改进的性能，非常适合简单的集成电路实现。介绍了240w整流器的实验验证

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Nonlinear-carrier control for high power factor boost rectifiers

Novel nonlinear-carrier (NLC) controllers are proposed for high-power-factor boost rectifiers. In the NLC controllers, the switch duty ratio is determined by comparing a signal derived from the main switch current with a periodic, nonlinear carrier waveform. As a result, the average input current follows the input line voltage. The technique is suitable for boost power converters operating in the continuous conduction mode. Input voltage sensing, the error amplifier in the current-shaping loop, and the multiplier/divider circuitry in the voltage feedback loop are eliminated. The current-shaping is based on switch (as opposed to inductor) current sensing. The NLC controllers offer comparable or improved performance over existing schemes, and are well-suited for simple integrated-circuit implementation. Experimental verification on a 240 W rectifier is described.<>

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来源期刊

Proceedings of 1995 IEEE Applied Power Electronics Conference and Exposition - APEC'95

CiteScore

3.20

自引率

0.00%

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