基于增强dsp的组合式非反相高升压降压Dc-Dc变换器控制建模与实现

2022 13th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC) Pub Date : 2022-02-01 DOI:10.1109/PEDSTC53976.2022.9767303

Mohsen Karimi, M. Pichan, Mohammad Farsijani

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引用次数: 0

摘要

研究人员提出了一种新的混合控制方案，用于数字实现正降压DC到DC拓扑，重点是高压操作和感应电感电流，以及带有基于dsp的控制器的电流积分环路控制器。该技术基于积分动态模型的原理，其中正直流拓扑的输入(Vin& Iin)和重负载是恒定的，而输出在低负载下是间歇性的。因此，变换器方案是通过混合不同的动态特征来实现的:a)仔细选择变换器系统参数，b)与实验装置的制定和构建有关的电感电流和输出误差的正常。仿真模拟了各种负载和输入电压波动情况，并将其应用于DSP控制器中，结果表明该控制器是合适的。正降压-升压DCtoDC拓扑的建模和实验结果是可以接受的。

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An Enhanced DSP-Based Control Modeling and Implementation of Combinational Non-inverting High Step Up-Step Down Dc-Dc Converter

The researchers suggest a novel hybrids control scheme for digitally implementing a positive buck-boost DC to DC topology focused on high voltage operation and sensing inductance current, as well as a current integral loop controller with a DSP-based controller. This technique is based on the principle of an integrating dynamic model, wherein the input (Vin& Iin) and heavy loads of a positive DC to DC topology are constant, while the outputs is intermittent in lower loads. As a result, the converter scheme is achieved through the blend of different dynamical features: a) Careful choice of the converter system parameters, and b) Normal of inductance current and output errors that relate to the formulation and construction of the experimental setup. Various load and input voltage fluctuation situations are modeled in Simulation and applied in the DSP controller, and all of the findings suggest that the controller is suitable. The modeling and experimental results on a positive buck-boost DCtoDC topology are acceptable.

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2022 13th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC)

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