Novel digital control topology of a high power resonant DC-DC converter for X-ray high-voltage applications

Proceedings of Power Conversion Conference - PCC '97 Pub Date : 1997-08-03 DOI:10.1109/PCCON.1997.638394

H. Takano, T. Hatakeyama, L. Gamage, J.M. Sun, M. Nakaoka

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引用次数: 17

Abstract

This paper describes a 32-bit RISC processor-based digital feedback control scheme for a series-parallel resonant high power DC-DC converter using its high-voltage transformer parasitic LC circuit components which is applied to a medical use X-ray high-voltage generator. In the converter system, I-PD feedback control algorithm with a nonlinear compensator for steady-state voltage regulation characteristics and an input voltage fluctuation compensator are presented in this paper. A practical estimation procedure to obtain the adequate I-PD gains specified by logarithmic interpolation from some regulation points is established under conditions of extremely wide load ranges as the medical use X-ray high-voltage generator. High speed processing hardware for the digital feedback control scheme with 20 kHz sampling frequency are also discussed as well as programming guidelines. Finally, the performances of this application-specific converter and the effectiveness of the proposed gain parameter estimation procedure of the I-PD compensator are demonstrated on the basis of experimental results.

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用于x射线高压应用的高功率谐振DC-DC变换器的新型数字控制拓扑

本文介绍了一种基于32位RISC处理器的串并联谐振大功率DC-DC变换器的数字反馈控制方案，该方案利用其高压互感器寄生LC电路元件，应用于医用x射线高压发生器。在变换器系统中，本文提出了具有稳态电压调节特性非线性补偿器和输入电压波动补偿器的I-PD反馈控制算法。以医用x射线高压发生器为例，在极宽负载范围条件下，建立了一种实用的估计程序，可从一些调节点获得对数插值所指定的足够的I-PD增益。还讨论了采样频率为20khz的数字反馈控制方案的高速处理硬件以及编程指南。最后，在实验结果的基础上，验证了该变换器的性能和所提出的I-PD补偿器增益参数估计方法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of Power Conversion Conference - PCC '97

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