J. Bayona, José Guillermo Guarnizo Marin, N. Gélvez
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引用次数: 1
摘要
脉冲宽度预测控制技术已被广泛应用于升压拓扑中具有功率因数校正的交直流变换器中,在不需要使用经典控制律的情况下,已经报道了令人满意的结果。然而,这种技术还没有探索其他类型的ACDC变换器的功率因数校正。在这项工作中,提出了在半桥升压拓扑中具有功率因数校正的AC-DC转换器中使用该技术。与其他拓扑结构相比,这种拓扑结构使用最少的半导体,因此具有较高的效率。在该技术中,通过处理半桥升压拓扑中变换器的状态和输入变量的平均值来预测占空比,仅使用4次乘法和5次加法,这意味着其实现的复杂性较低。为了验证其有效性,使用MATLAB R simulink进行仿真,可以观察到功率因数和THD值与其他控制方法(如非线性载波控制和传统模拟控制)的可比性,这两种控制方法均在文献中报道过。
Pulse width Prediction Control Technique Applied to a Half-Bridge Boost
The pulse width prediction control technique has been widely used in AC-DC converters with power factor correction in boost topology, where satisfactory results have been reported without the need to use classic control laws. However, this technique has not been explored for other types of ACDC converters with power factor correction. In this work, the use of this technique is proposed in an AC-DC converter with power factor correction in a half-bridge boost topology. This topology presents high efficiency because it uses the least number of semiconductors compared to other topologies. In this technique the duty cycle is predicted by processing the average values of state and input variables of the converter in half bridge boost topology, using only four multiplications and five additions, which implies less complexity in its implementation. For its validation simulations were performed using MATLAB R simulink, where it was possible to observe values of power factor and THD comparable with other control methods such as non-linear carrier control, and conventional analog control, both reported in the literature.