用神经网络控制器提高直流电源效率

Weiming Li, Xiao-Hua Yu
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引用次数: 8

摘要

DC-DC转换器几乎可以在每一个电力电子设备中找到。为了提高DC-DC变换器的效率和控制器对动态系统变化的响应,选择了神经网络作为经典方法的替代。然而,在控制PSFB(相移全桥)变换器的神经网络方法方面还没有前人的研究。本研究提出了一种多层前馈神经网络控制器。基于神经网络的控制器具有自适应学习能力,可以在输入电压和负载电流波动的情况下工作。在计算机仿真中采用Levenberg-Marquardt反向传播训练算法。然后使用DSP(数字信号处理器)在硬件上实现神经控制器。实验结果令人满意。
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Improving DC Power Supply Efficiency with Neural Network Controller
DC-DC converters can be found in almost every power electronics device. To improve the efficiency and controller response of a DC-DC converter to dynamical system changes, neural network has been chosen as an alternative to classic methods. However, no prior work has been done in the neural network approach for control of a PSFB (phase-shifted full-bridge) converter yet. In this research, a multi-layer feedforward neural network controller is proposed. The neural network based controller has the advantage of adaptive learning ability, and can work under the situation when the input voltage and load current fluctuate. Levenberg-Marquardt back-propagation training algorithm is used in computer simulation. The neural controller is then implemented on hardware using a DSP (digital signal processor). Satisfactory experimental results are obtained.
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