Dead-time compensation scheme for adjustable dead-time controlled resonant snubber inverter

N. Hoshi, Syoichi Nagata
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引用次数: 9

Abstract

Auxiliary resonant snubber inverters (RSIs) have been proposed a solution of demands for inverter, which are high efficiency and low EMI. In RSI, zero voltage switching (ZVS) on the inverter main switches is achieved by use of the auxiliary circuit; however, additional conduction loss increases simultaneously. The operating frequency of the auxiliary circuit in RSI can be reduced to a half of switching transition of a main switch when natural ZVS, in which ZVS can be achieved without using auxiliary circuit by using output current, is used. As a result, additional conduction loss can be suppressed. However, in this scheme, ZVS turn-on on main switch is failed near zero output current when dead-time was constant. As a solution for this problem, adjustable dead-time control scheme for RSI has been proposed; however, output current is distorted in low output power range. Thus, this paper proposes a dead-time compensation scheme for adjustable dead-time control. This paper shows the basic concept of the proposed compensation scheme. In addition, the effectiveness of the proposed scheme was verified through simulations using PSIM and experiments. As a result, it was verified that the proposed control scheme was able to improve THD without decreasing in efficiency.
可调死区控制谐振缓冲器逆变器的死区补偿方案
辅助谐振缓冲器是一种高效率、低电磁干扰的逆变器。在RSI中,逆变器主开关上的零电压开关(ZVS)是利用辅助电路实现的;然而,额外的传导损失同时增加。当使用自然零电压时,RSI中辅助电路的工作频率可以降低到主开关开关过渡的一半,其中使用输出电流可以不使用辅助电路而实现零电压。因此,额外的传导损耗可以被抑制。然而,在此方案中,当死区时间一定时,总开关的ZVS导通在输出电流接近零时失败。针对这一问题,提出了可调死区控制方案;然而,在低输出功率范围内,输出电流失真。因此,本文提出了一种可调死区控制的死区补偿方案。本文阐述了所提出的补偿方案的基本概念。通过PSIM仿真和实验验证了该方案的有效性。结果验证了所提出的控制方案能够在不降低效率的情况下提高THD。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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