Mitigation of Starting Transients in Slip-Energy Recovery Drives

Sanaa M I Amer, Mona N Eskander
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Abstract

Starting voltage and current transients in slip energy recovery drives (SERD) may damage the stator and rotor windings. The resulting torque oscillations damage the induction machine mechanical parts. In this paper three schemes for damping starting transients and torque oscillations are proposed. In the first scheme a parallel RL impedance is connected between the supply and the stator coils, in the second scheme a parallel RL impedance is added in the rotor circuit, and in the third scheme the two impedances are connected simultaneously. Transient performance is simulated and the results of the three schemes are compared. Also, the effect of each proposed scheme on the steady state values of the SERD currents, voltages, and electric torque is studied and demonstrated. Lower current and voltage transients, and lower torque oscillations resulted in all schemes, with optimum transient performance observed when adding the two impedances simultaneously.
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滑移能量恢复驱动启动瞬态的缓解
滑差能量恢复驱动器(SERD)的启动电压和电流瞬态可能会损坏定子和转子绕组。由此产生的转矩振荡会损坏感应电机的机械部件。本文提出了三种阻尼启动瞬态和转矩振荡的方案。在第一种方案中,在电源和定子线圈之间连接一个并联RL阻抗,在第二种方案中,在转子电路中增加一个并联RL阻抗,在第三种方案中,两个阻抗同时连接。对三种方案的暂态性能进行了仿真,并对结果进行了比较。此外,研究并论证了每种方案对SERD电流、电压和电转矩稳态值的影响。所有方案均具有较低的电流和电压瞬态,以及较低的转矩振荡,同时添加两种阻抗时,可观察到最佳的瞬态性能。
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