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High-speed railway negative-sequence and harmonic compensation system based on two-phase three-wire system converter

A technology of high-speed railway and harmonic compensation, applied to AC network to reduce harmonic/ripple, reactive power compensation, harmonic reduction device, etc., can solve the problem of increasing the voltage level of power devices, etc., to achieve negative sequence harmony Wave comprehensive compensation, simple structure, cost reduction effect

Inactive Publication Date: 2013-07-03
HUNAN UNIV
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Problems solved by technology

In addition, some scholars have proposed a three-phase active compensation system - active power quality compensator (Active Power Quality Compensator, APQC), its structure is to use Scott transformer to convert two single-phase power into three-phase balanced voltage, and then Connecting a three-phase converter to the three-phase balance through three output inductors saves one arm of power switching devices than RPC, but increases the voltage level of power devices, and requires a more complex Scott transformer and one more Output inductance, its specific structure see figure 2

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  • High-speed railway negative-sequence and harmonic compensation system based on two-phase three-wire system converter
  • High-speed railway negative-sequence and harmonic compensation system based on two-phase three-wire system converter
  • High-speed railway negative-sequence and harmonic compensation system based on two-phase three-wire system converter

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[0017] see image 3 , image 3 It is a structural diagram of the present invention. The compensation object of the present invention 4 is a high-speed railway power supply system using a three-phase V / V traction transformer 1 . The present invention 4 is composed of two single-phase step-down transformers 2 and a two-phase three-wire converter 3 . The primary sides of the two single-phase transformers are respectively connected to the two single-phase traction power supply arms, and the two ends of the secondary sides of the two single-phase transformers corresponding to the ground of the primary side are connected to form a three-wire. The three-phase formed by the secondary side of the transformer is connected to the two-phase three-wire converter. The two-phase three-wire converter consists of an ordinary three-leg converter and two output inductors L α and L β In this configuration, the output terminal corresponding to the ground wire in the converter does not have an...

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Abstract

The invention discloses a high-speed railway negative-sequence and harmonic compensation system based on a two-phase three-wire system converter, comprising two single-phase reducing transformers and a two-phase three-wire system converter, wherein the primary sides of the two single-phase reducing transformers are connected with two single-phase power-supply arms arranged in a three-phase V / V tractive power-supply system, and both ends of the secondary sides of the two single-phase reducing transformers are connected correspondingly with the primary sides, thereby the secondary sides of the two single-phase reducing transformers form three wires; the two-phase three-wire system converter comprises three switch arms, wherein one switch arm is connected with two single-phase voltage sharedground wires, and the other two switch arms are respectively connected with the other two wires in the secondary sides of the two single-phase reducing transformers by an inductor. Compared with two common single-phase converters, the high-speed railway negative-sequence and harmonic compensation system reduces one switch arm and does not increase the current level of a switch device. Compared with the common three-phase converter, the high-speed railway negative-sequence and harmonic compensation system reduces one output inductor to save cost, and the voltage utilization of a direct currentside is one time higher.

Description

technical field [0001] The invention relates to a high-speed railway negative-sequence and harmonic comprehensive compensation system, in particular to a high-speed railway negative-sequence and harmonic compensation system based on a two-phase three-wire converter. Background technique [0002] Because the high-speed railway traction power supply system adopts single-phase power supply mode, negative sequence current is generated, which brings serious harm to the operation of power generation, transmission and transformation equipment in the power system, such as increasing the loss of generators, reducing the output of transformers, etc., seriously affecting Safe and economical operation of power systems. In addition, the harmonics generated by high-speed railway electric locomotives also reduce the reliability of its power supply system and upper-level power system. Therefore, effective measures must be taken to suppress the negative sequence and harmonic currents genera...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02J3/18H02J3/01
CPCY02E40/30Y02E40/40
Inventor 罗安吴传平孙娟章兢马伏军徐先勇张寅王刚
Owner HUNAN UNIV
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