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MMC topological structure with direct current fault removing capability

A topology and DC fault technology, applied in the direction of converting AC power input to DC power output, output power conversion device, automatic disconnection emergency protection device, etc., can solve the problem of energy imbalance between half-bridge sub-module and full-bridge sub-module Balance, improve sub-module packaging, industrial design difficulty, complex MMC topology and other issues, to achieve the effect of simple control, easy and fast reclosing, and the use of fewer components

Active Publication Date: 2018-12-07
NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

After the fault is blocked, only the capacitor of the full-bridge sub-module in the hybrid MMC topology is introduced into the fault circuit, the capacitor is charged, and the voltage rises, so the energy imbalance between the half-bridge sub-module and the full-bridge sub-module occurs, which increases the speed of rapid reclosing. Difficulty of gate
In addition, the hybrid MMC topology is relatively complex, which increases the difficulty of sub-module packaging and industrial design

Method used

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  • MMC topological structure with direct current fault removing capability
  • MMC topological structure with direct current fault removing capability
  • MMC topological structure with direct current fault removing capability

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Embodiment Construction

[0019] refer to Figure 1-6 , a specific embodiment of the present invention, each phase includes an upper bridge arm and a lower bridge arm, the top of the upper bridge arm and the bottom end of the lower bridge arm are respectively connected to the DC positive and negative busbars, the bottom end of the upper bridge arm is connected to the lower bridge arm The top of the bridge arm is connected to the AC bus; each bridge arm includes several half-bridge sub-modules SM and bridge arm reactor L connected in series, and the two ends of each bridge arm are respectively connected with the first transistor VT1 and the fourth transistor VT4, A first diode VD1 is connected in antiparallel between the emitter and collector of the first transistor VT1, a fourth diode VD4 is connected in antiparallel between the emitter and collector of the fourth transistor VT4, and the second diode The anode of the tube VD2 is connected to the emitter of the fourth transistor VT4, the cathode of the ...

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Abstract

The invention discloses an MMC topological structure with direct current fault removing capability. Each phase comprises an upper bridge arm and a lower bridge arm; each bridge arm comprises a numberof half bridge submodules and bridge arm reactors that are connected in series, a first transistor and a fourth transistor are respectively connected to two ends of each bridge arm, a first diode is reversely connected in parallel between an emitting electrode and a collector electrode of the first transistor, a fourth diode is reversely connected in parallel between an emitting electrode and a collector electrode of a fourth transistor, an anode of a second diode is connected to the emitting diode of the fourth transistor, a cathode of the second diode is connected to the emitting diode of the first transistor, an anode of a third diode is connected to the collector electrode of the fourth transistor, and a cathode of a third diode is connected to the collector electrode of the first transistor. The MMC topological structure disclosed in the invention can help correct deficiencies of technologies of the prior art, fault currents can be rapidly cleared, and fast reclosing can be easilyrealized.

Description

technical field [0001] The invention relates to the technical field of power electronics, in particular to an MMC topological structure with the capability of clearing DC faults. Background technique [0002] As the penetration rate of distributed power supply and power electronic equipment continues to increase, the problems of traditional AC distribution network in terms of power supply efficiency, power quality and transmission capacity have become increasingly prominent. The DC distribution network will play an important role in the future power grid due to its advantages of low operating cost, flexible control, and high utilization rate of new energy. Modular Multilevel Converter (MMC) has been successfully applied in flexible direct current transmission systems. Its modular design, good scalability, low device switching frequency, good harmonic characteristics and many other advantages make it It will also have broad application prospects in the DC distribution networ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02M7/483H02H7/122H02H3/05
CPCH02H3/05H02H7/122H02M7/483
Inventor 王毅胡灿
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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