Decoupled MultiLoop Control of Switched Inductor Z-Source Inverters for Distributed Generations

2020 IEEE 1st International Conference for Convergence in Engineering (ICCE) Pub Date : 2020-09-05 DOI:10.1109/ICCE50343.2020.9290730

S. singh, S. Bose, P. Dwivedi

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Abstract

Switched inductor topology is an advanced byproduct of Z-Source inverter which is equipped with enlarged voltage boost factor capability, employing less duty ratio and high modulation index. A well established closed loop power control requires high quality waveform followed by a good current controller which should be precise and should have significant effect on the dynamics of the system. Transient modelling is performed to widen the investigative study of non-minimum phase behaviour caused by right hand plane zeroes exhibited due to the impedance network on the DC side of these inverters. Also the independency of DC side and AC side control has been kept in discussion with separate controller designs. This paper presents an idea of decoupled AC side control in synchronous reference frame to eliminate the cross coupled behaviour of d-q axes during independent control of active and reactive powers. Simulation result shows good reference tracking and disturbance rejection property, which is recognised to be evident and substantial using MATLAB as testing platform.

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分布式世代开关电感z源逆变器的解耦多环控制

开关电感拓扑结构是z源逆变器的先进副产品，具有放大电压升压因数的能力，占用更小的占空比和更高的调制指数。一个良好的闭环功率控制需要高质量的波形，然后是一个好的电流控制器，它应该是精确的，应该对系统的动力学有显著的影响。暂态建模是为了扩大对这些逆变器直流侧阻抗网络导致的右平面零引起的非最小相位行为的调查研究。此外，直流侧和交流侧控制的独立性也在单独的控制器设计中进行了讨论。本文提出了同步参考系中交流侧解耦控制的思想，以消除有功和无功独立控制时d-q轴的交叉耦合行为。仿真结果表明，该系统具有良好的参考跟踪和抗干扰性能，并在MATLAB测试平台上得到了验证。

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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2020 IEEE 1st International Conference for Convergence in Engineering (ICCE)

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