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A Hybrid Control Method for Resonant Converter in Distributed Power System

A technology of resonant converter and distributed power supply, which is applied in the direction of adjusting electrical variables, control/regulation systems, high-efficiency power electronic conversion, etc., and can solve the problems of increasing design cost and complexity of control, and reducing the performance and efficiency of resonant converters, etc. problem, achieve the effect of optimizing the intermediate connection capacitance, reducing the conduction loss and turn-off loss, and wide input voltage range

Active Publication Date: 2021-03-16
HUBEI UNIV OF TECH
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Problems solved by technology

However, when the input terminal of the resonant converter operates in a wide voltage range, it is necessary to adjust the switching frequency away from the resonance point, which leads to a decrease in the performance and efficiency of the resonant converter
The current related research adds auxiliary switching power devices or changes the control mode of the resonant converter to make the resonant converter meet the requirements of hold-up time characteristics. These methods increase the design cost and control complexity

Method used

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  • A Hybrid Control Method for Resonant Converter in Distributed Power System
  • A Hybrid Control Method for Resonant Converter in Distributed Power System
  • A Hybrid Control Method for Resonant Converter in Distributed Power System

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Embodiment Construction

[0028] The technical solution of the present invention will be described below in conjunction with the accompanying drawings and embodiments, so that those skilled in the art can better understand the present invention.

[0029] Such as figure 1 As shown, the distributed power supply system DPS in the embodiment adopts a commonly used two-stage topology. The front stage is a boost power factor correction stage PFC, and the latter stage is a DC-DC conversion stage DC-DC. A connection capacitor C is connected between the two stages. link. The boost power factor correction stage PFC performs power factor correction, so that the total current harmonic distortion meets the requirements of the load equipment, and at the same time converts the input AC voltage into a DC voltage, which is used as the input voltage of the subsequent stage circuit. The subsequent DC-DC conversion stage DC-DC precisely adjusts the output voltage to provide power to the load equipment. The DC-DC conversi...

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Abstract

The invention provides a hybrid control method for a resonant converter in a distributed power system. The distributed power system adopts a two-pole topology structure, the front stage is a step-up power factor correction stage, and the rear stage is a DC-DC conversion stage. A connection capacitor is connected between the two stages, and the DC-DC conversion stage adopts a full-bridge LLC resonant converter; it is characterized in that: in normal mode, the full-bridge LLC resonant converter works in the state of a half-bridge resonant converter, and the resonant The operating frequency of the converter is equal to the resonant frequency, and the resonant converter works at the resonant frequency point, and the efficiency of the resonant converter is the largest; when the AC input voltage is lost, the full-bridge LLC resonant converter is in the holding mode, and the full-bridge LLC resonant converter adopts Based on the hybrid control of pulse width modulation and pulse frequency modulation, high voltage gain adjustment is realized, the input voltage working range of the resonant converter is widened, and the output voltage of the load remains unchanged.

Description

technical field [0001] The invention relates to a hybrid control method of a resonant converter, in particular to a resonant converter applied to a distributed power system (DPS), and belongs to the technical field of power electronic converters. Background technique [0002] The front stage of the commonly used distributed power system (DPS) is a step-up power factor correction stage (PFC), so that the power factor is 1, and the current harmonic distortion is reduced. At the same time, the input AC voltage is converted into a DC voltage, which is used as the input of the subsequent circuit Voltage. The latter stage is a DC-DC conversion stage (DC-DC), which precisely adjusts the output voltage and supplies power to the load equipment with a constant voltage. An intermediate connection capacitor (C link ). [0003] A key feature of a distributed power system (DPS) is the retention time requirement. When the input voltage at the AC input terminal of the step-up power factor...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02M1/42H02M3/335
CPCH02M1/4233H02M1/4241H02M3/3353H02M1/0054Y02B70/10
Inventor 潘健刘松林陈凤娇陈庆东吕磊熊嘉鑫张琦刘孙徳
Owner HUBEI UNIV OF TECH
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