Control of a High Voltage DC Modulator for an Industrial Magnetron

2021 4th International Conference on Energy Conservation and Efficiency (ICECE) Pub Date : 2021-03-16 DOI:10.1109/ICECE51984.2021.9406280

Noman Khan, Tanveer Abbas, K. Shehzad, R. Khan, Zia-ur-Rehman

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引用次数: 1

Abstract

Industrial magnetrons require high voltage DC supply (anode power supply) for its operation. Magnetrons are expensive and sensitive to variations in terminal voltage. Generally a soft start procedure is adopted to save the magnetrons that requires a specific pulse shape and transient behaviour of the power supply. This paper implements PI control for a previously designed power supply to make it reliable for a 10 kW magnetron. The requirements and issues are discussed in detail with respect to unregulated resonant DC power supply and it is argued that PI control is an attractive choice for its simplicity. Simulations are performed in PSIM and MATLAB-SIMULINK using real values of the circuit components and the controller is applied to the circuit instead of a mathematical model. Hence the work presented in this paper provides a strong foundation for the realization of the practical system. The controller is evaluated rigorously for line and load regulation and other transient characteristics. The proposed PI control is found very promising for the intended application and the resonant DC power supply design presented previously.

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工业磁控管高压直流调制器的控制

工业磁控管的工作需要高压直流电源(阳极电源)。磁控管价格昂贵，对终端电压的变化很敏感。通常采用软启动程序来节省需要特定脉冲形状和电源瞬态行为的磁控管。本文对先前设计的电源进行PI控制，使其可靠地用于10kw磁控管。详细讨论了无规谐振直流电源的要求和问题，并认为PI控制因其简单性是一种有吸引力的选择。在PSIM和MATLAB-SIMULINK中使用电路元件的实值进行仿真，并将控制器应用于电路而不是数学模型。因此，本文所做的工作为实际系统的实现提供了坚实的基础。该控制器对线路和负载调节及其他暂态特性进行了严格的评估。所提出的PI控制对于预期的应用和先前提出的谐振直流电源设计非常有希望。

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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2021 4th International Conference on Energy Conservation and Efficiency (ICECE)

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