Advanced active output filter for low acoustic noise adjustable speed drive (ASD) system

W. Dai, P. Enjeti, D. Qiu
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引用次数: 2

Abstract

In recent years, manufactures of adjustable speed drive (ASD) make effort to reduce the acoustic noise emitted by electric motors. Traditionally, LC passive filters can be employed to mitigate the pulse-width modulation (PWM) generated current harmonics in the audible noise range. However, the bulky passive filters contribute to additional volume and cannot effectively eliminate harmonics at low switching frequency. In this paper, an active output filter (AOF) is proposed to replace passive filters to achieve higher power density and lower acoustic noise. The proposed AOF can be envisioned as a power semiconductor filter block and is implemented by the harmonic injection strategy, which can compensate voltage/current harmonics at the arbitrary frequency. Advanced wide-band gap devices can be employed in AOF to achieve low power loss and high switching frequency. Experimental results from a 2/3 horsepower ASD prototype verifies the advantages of the proposed AOF.
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先进的主动输出滤波器低噪音可调速度驱动(ASD)系统
近年来,可调调速驱动器(ASD)的制造商都在努力降低电动机的噪声。传统上,LC无源滤波器可用于减轻可听噪声范围内脉宽调制(PWM)产生的电流谐波。然而,笨重的无源滤波器增加了额外的体积,不能有效地消除低开关频率下的谐波。本文提出一种有源输出滤波器(AOF)来取代无源滤波器,以达到更高的功率密度和更低的噪声。所提出的AOF可以设想为一个功率半导体滤波器块,并通过谐波注入策略实现,可以补偿任意频率的电压/电流谐波。先进的宽带隙器件可用于AOF,以实现低功耗和高开关频率。2/3马力ASD样机的实验结果验证了所提出的AOF的优点。
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