Analysis and voltage-mode controller design for a single-switch fifth-order boost converter

2017 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC) Pub Date : 2017-11-01 DOI:10.1109/APPEEC.2017.8308985

Priyabrata Shaw, M. Veerachary

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引用次数: 2

Abstract

In this paper, a digital single-loop voltage-mode controller (VMC) is designed for the non-isolated fifth-order boost converter, which exhibits low source current ripple. A detailed analysis is performed, in continuous inductor current mode of operation, to obtain the design expressions and relevant differential equations. Later on, a state-space modeling approach is extended to formulate the discrete-time models. A pole placement technique is utilized in the digital controller design to achieve required stability margins. The robustness of the closed-loop controlled system is analyzed using modulus margin (MM) concept. Simulation studies have been conducted to validate the steady-state and transient performances of the digital VMC. To confirm the analytical results, a 12 to 48 V, 25 Watt, 100 kHz prototype is developed and the closed-loop system (CLS) stability is verified for a given range of parameter uncertainties. Both simulation and experimental results depict the efficacy of the controller against source and load disturbances.

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单开关五阶升压变换器的分析与电压模式控制器设计

针对非隔离型五阶升压变换器，设计了一种具有低源电流纹波特性的数字单回路电压模式控制器(VMC)。对电感电流连续工作模式进行了详细分析，得到了设计表达式和相关微分方程。然后，将状态空间建模方法扩展到离散时间模型。在数字控制器设计中利用极点放置技术来实现所需的稳定裕度。利用模裕度(MM)概念分析了闭环控制系统的鲁棒性。仿真研究验证了数字VMC的稳态和瞬态性能。为了验证分析结果，开发了一个12至48 V, 25瓦，100 kHz的原型，并在给定的参数不确定性范围内验证了闭环系统(CLS)的稳定性。仿真和实验结果均表明了该控制器对源干扰和负载干扰的有效性。

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2017 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC)

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