Torque and Speed Response Differences Between Deadbeat-Direct Torque and Flux Control and Indirect Field Oriented Control for Induction Machine Drives

2018 IEEE Energy Conversion Congress and Exposition (ECCE) Pub Date : 2018-09-01 DOI:10.1109/ECCE.2018.8557888

Kang Wang, R. Lorenz, Noor Aamir Baloch

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Abstract

Indirect field oriented control (IFOC) is widely used in induction machine (IM) drives. IFOC controls torque and rotor flux linkage by using an embedded current regulator. The torque and speed response are limited by current regulator bandwidth. Different from IFOC, without any current regulator, deadbeat-direct torque and flux control (DB-DTFC) calculates the voltage commands directly, which can achieve torque commands within just one switching period. However, high frequency torque and speed response have not been systematically discussed. First, IFOC, DB-DTFC algorithm and implementation issues are discussed in details. Then, the metric for evaluating the high frequency torque and speed response are proposed and evaluated. In the torque response, the DB-DTFC drive shows higher torque command tracking bandwidth with linear phase lag compared to IFOC drive. In the speed response, parameter sensitivities of high frequency speed command tracking for the two control algorithms are compared with encoder feedback. Finally, the speed response in the self-sensing mode for the two control algorithms are also compared.

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转矩和速度响应差异:感应电机传动的直接转矩和磁链控制与间接磁场定向控制

间接磁场定向控制(IFOC)广泛应用于感应电机的驱动中。IFOC通过使用嵌入式电流调节器控制转矩和转子磁链。转矩和速度响应受电流调节器带宽的限制。与IFOC不同的是，在没有任何电流调节器的情况下，滞热-直接转矩和磁通控制(DB-DTFC)直接计算电压命令，只需一个开关周期即可实现转矩命令。然而，高频转矩和速度响应尚未得到系统的讨论。首先，详细讨论了IFOC、DB-DTFC算法及其实现问题。然后，提出并评估了高频转矩和转速响应的度量。在转矩响应方面，DB-DTFC驱动器显示出比IFOC驱动器更高的线性相位滞后转矩指令跟踪带宽。在速度响应方面，比较了两种控制算法对高频速度指令跟踪的参数灵敏度和编码器反馈。最后，比较了两种控制算法在自感知模式下的速度响应。

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2018 IEEE Energy Conversion Congress and Exposition (ECCE)

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