基于fpga的ZSI-Fed异步电机直接转矩控制和再生制动控制的设计与实现

H. Prasad, T. Maity
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引用次数: 0

摘要

本文利用基于现场可编程门阵列(FPGA)的实时数字模拟器(RTDS)对改进型z源逆变馈感应电机驱动的直接转矩控制(DTC)和再生制动控制进行了实时性能评估。RTDS采用超高速集成电路硬件描述语言(VHDL)构建,结构紧凑、通用性强。在MATLAB/Simulink模型的基础上,用VHDL语言进行了设计,验证了该方法对典型复杂驱动器的实时仿真的有效性。该模型在固定时间步长和10 μs固定步长解算器下执行,恒定开关频率为5 KHz。该设计在直接转矩控制和再生制动的功能块执行上有很大的改进,减少了执行时间。所提出的直接转矩驱动技术能够在满载转矩下从基本转速到零转速的大范围内改变电机转速。利用Xilinx SPARTAN-3 FPGA板,利用改进的z源逆变器(ZSI)馈电225 KW感应电机,通过MATLAB/Simulink接口,实时仿真验证了所规划的DTC驱动和再生制动方案的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
FPGA-based design and implementation of DTC and regenerative braking control of ZSI-Fed an induction motor drive
This paper presents a real-time performance evaluation of direct torque control (DTC) and regenerative braking control of improved z-source inverter fed induction motor drives using field programmable gate arrays (FPGA) based real-time digital simulator (RTDS). RTDS was built using Very High Speed Integrated Circuit Hardware Description Language (VHDL), composing it versatile and compact. The proposed design method was carried out in VHDL, based on MATLAB/Simulink model and also validates the utility of simulating a drive of typical complexity in real-time. The proposed model is executed at fixed time-step and fixed step solver of 10 μs and constant switching frequency is 5 KHz. The proposed design employs much advancement to execute the functional blocks in DTC and regenerative braking that reduce the execution time. The proposed DTC drive technique is capable to change the wide range of motor speed from base speed to zero speed with full load torque. Real-time simulation results are certified the validity of the planned DTC drives and regenerative braking by MATLAB/Simulink interface using Xilinx SPARTAN-3 FPGA board of a 225 KW induction motor fed by the improved z-source inverter (ZSI).
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