Electric energy transmission device based on isolated full-bridge boosting converter circuit structure and control method thereof

A boost converter and circuit structure technology, applied in the direction of circuit devices, DC network circuit devices, output power conversion devices, etc., can solve the problems of poor controllability of output voltage, etc., to improve voltage stability, reduce losses, and ensure safety The effect of reliable power

Inactive Publication Date: 2016-08-31
JILIN JIANZHU UNIVERSITY
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Problems solved by technology

[0005] The present invention also designs and develops a control method based on the circuit structure of the isolated full-bridge boost converter. The purpose is to solve the problem of poor controllability of the output voltage of the solid oxide fuel cell inverter itself. In order to improve the reliability of electricity consumption and ensure the quality of electricity consumption for users

Method used

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  • Electric energy transmission device based on isolated full-bridge boosting converter circuit structure and control method thereof
  • Electric energy transmission device based on isolated full-bridge boosting converter circuit structure and control method thereof
  • Electric energy transmission device based on isolated full-bridge boosting converter circuit structure and control method thereof

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Embodiment Construction

[0043] The present invention will be further described in detail below in conjunction with the accompanying drawings, so that those skilled in the art can implement it with reference to the description.

[0044] Such as figure 1 As shown, the present invention provides a power transmission device based on an isolated full-bridge boost converter circuit structure, including a fuel cell 110, a boost converter 120, an inverter 130, a filter 140 and a load 150 connected in sequence; Among them, the fuel cell 110 can output low-voltage direct current, the boost converter 120 is electrically connected to the fuel cell 110 to output high-voltage direct current, the inverter 130 inputs high-voltage direct current and outputs stable alternating current, and the filter 140 is used to filter out high-order harmonics. The input inductance of the boost converter 120 is provided with a flyback winding 200, and its output terminal is connected to the output terminal of the boost converter 12...

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Abstract

The invention discloses an electric energy transmission device based on an isolated full-bridge boosting converter circuit structure and a control method thereof. The electric energy transmission device comprises a fuel battery which is capable of outputting a low voltage direct current, a boosting converter which is electrically connected with the fuel battery and outputs a high voltage direct current, an inverter which inputs the high voltage direct current and outputs a stable alternating current, and a filter used for filtering out higher harmonics, wherein a fly-back winding is arranged on an input inductor of the boosting converter, an output end of the fly-back winding is connected with an output end of the boosting converter, and a loop is formed for releasing the energy in the input inductor. The invention further discloses a control method of the electric energy transmission device based on the isolated full-bridge boosting converter circuit structure. The electric energy transmission device has the advantages that the output voltage is stable, the controllability is high and the charging time is short.

Description

technical field [0001] The invention relates to a solid fuel cell power generation system, in particular to an electric energy transmission device based on an isolated full-bridge boost converter circuit structure and a control method thereof. Background technique [0002] The conventional single-stage inverter structure cannot meet the inverter requirements of the solid oxide fuel cell power generation system. The solid oxide fuel cell power generation system requires a two-stage inverter, and the front-stage DC / DC converter upgrades the low-voltage direct current to a stable DC bus voltage , the rear-stage inverter inverts the voltage of the previous stage into a stable alternating current that can be used by the load. At present, the topological structures of DC / DC boost converters mainly include Boost, single-ended forward converter, single-ended flyback circuit, and full-bridge circuit. The full-bridge circuit is suitable for high-voltage and medium-power applications,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02M3/28H02M1/14H02M7/48H02M1/12
CPCH02M1/126H02M1/14H02M3/28H02M7/48H02J2300/30H02M1/123
Inventor 魏立明张立辉吕雪莹孙雪景郭秀娟姚小春
Owner JILIN JIANZHU UNIVERSITY
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