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A Quick Response Magnetic Control Reactor Device Controlled by a Voltage Source

A magnetron reactor, a fast-response technology, applied in output power conversion devices, electrical components, conversion equipment that can be converted to DC without intermediate conversion, etc. Slow speed, unable to meet the requirements of voltage flicker control and other problems, to achieve the effect of quickly adjusting output and solving voltage flicker control

Active Publication Date: 2018-09-07
杭州银湖电气设备有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The invention solves the defects that the existing magnetron reactor has a slow response speed and cannot meet the requirements for voltage flicker control, and provides a fast-response magnetron reactor device controlled by a voltage source. The rectification module with switchable rectification state and inverter state supplies power to the excitation control circuit, realizes the rapid adjustment of the output of the magnetic control reactor, and combines the fixed capacitor bank to solve the problem of voltage flicker control
[0005] The present invention also solves the defects of slow response speed of existing magnetic control reactors and poor compensation effect on tracking fast-changing loads, and provides a fast-response magnetic control reactor device controlled by a voltage source. Electricity, and the rectification module with switchable rectification state and inverter state supplies power to the excitation control circuit, realizes the rapid adjustment of the output of the magnetic control reactor, and solves the reactive power compensation of the rapidly changing load
[0006] The invention also solves the defect that the existing magnetron reactor has a slow response speed and cannot meet the requirement of reactive power output under the low voltage ride-through condition required by the current power system, and provides a fast-response magnetron reactor device controlled by a voltage source , take power from the tap of the reactor body, and supply power to the excitation control circuit through the rectification module with switchable rectification state and inverter state, so as to realize the rapid adjustment output of the magnetic control reactor, and can meet the requirements of current wind power generation, photovoltaic power generation and other power systems Required reactive power output requirements under low voltage ride through conditions

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  • A Quick Response Magnetic Control Reactor Device Controlled by a Voltage Source
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  • A Quick Response Magnetic Control Reactor Device Controlled by a Voltage Source

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Embodiment 1

[0043] Embodiment 1: A fast-response magnetron reactor device controlled by a voltage source (see figure 1 figure 2 image 3 ), including a magnetron reactor body composed of an iron core with a small cross-section structure and four cross-connected parallel coils wound on the iron core, an excitation control unit and a controller with an auxiliary high-voltage power supply. In the excitation control unit, the input ends ac12 and ac22 are connected to the lower taps ac1 and ac2 of the magnetron reactor body, the output ends dc12 and dc22 are connected to the excitation connection points dc1 and dc2 of the magnetron reactor, and the control end is connected to the main body of the magnetron reactor. device controller. The excitation control unit is composed of a conventional excitation circuit, a high-voltage auxiliary power supply and switch switches K1 and K2. The output terminals of the conventional excitation circuit and the high-voltage auxiliary power supply are connec...

Embodiment 2

[0048] Embodiment 2: A fast-response magnetron reactor device controlled by a voltage source (see Figure 4 ), including a magnetron reactor body consisting of an iron core with a small cross-section structure and four cross-connected parallel coils wound on the iron core, an excitation control unit and a controller with two auxiliary high-voltage power supplies, the said Excitation control unit, its input ends ac12, ac22 are connected to the low taps ac1, ac2 of the magnetron reactor body, the output ends dc12, dc22 are connected to the excitation connection points dc1, dc2 of the magnetron reactor, and the control end is connected to the control of the device The excitation control unit includes a conventional excitation circuit, a high-voltage auxiliary power supply 1, a high-voltage auxiliary power supply 2 and switches K1, K2, and K3; the output terminals of the conventional excitation circuit, the high-voltage auxiliary power supply 1, and the high-voltage auxiliary power...

Embodiment 3

[0053] Embodiment 3: A fast-response magnetron reactor device controlled by a voltage source (see Figure 5 ), including a magnetron reactor body composed of an iron core with a small cross-section structure and four cross-connected parallel coils wound on the iron core, an excitation control unit and a controller with an auxiliary high-voltage power supply, the excitation control unit, its input ends ac12, ac22 are connected to the low taps ac1, ac2 of the magnetron reactor body, the output ends dc12, dc22 are connected to the excitation connection points dc1, dc2 of the magnetron reactor, and the control end is connected to the controller of the device; The excitation control unit includes a conventional excitation circuit, a high-voltage auxiliary power supply and a switch K2; the output terminal K2 of the high-voltage auxiliary power supply is connected in series with the conventional excitation circuit to form an output terminal of the excitation control unit. K1 is an IG...

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Abstract

The present invention relates to a rapid response magnetically controlled reactor device with novel voltage source control, and the defect that the response speed of an existing magnetically controlled reactor is slow and a voltage flickering governance requirement can not be satisfied is solved. The device comprises a magnetically controlled reactor body formed by an iron core with a small cross section structure and four cross-connected parallel coils wound around the iron core, an excitation control unit with an auxiliary high voltage power supply and a controller. The input ends ac12 and ac22 of the excitation control unit are connected to the low-order taps ac1 and ac2 of the magnetically controlled reactor body to form a two-quadrant voltage source. An excitation control point unit and the magnetically controlled reactor body taps are connected to a two-quadrant voltage source. Through voltage closed-loop control, the two-quadrant voltage source is used as the auxiliary high voltage source of the excitation control unit, the rapid adjustment output of the magnetically controlled reactor is realized, the voltage flickering governance and the reactive power compensation of rapid change load are solved, and the reactive power output requirements of existing wind power generation, photovoltaic power generation and other power systems in low voltage through conditions can be satisfied.

Description

technical field [0001] The invention relates to the field of reactive power compensation, in particular to a fast-response magnetron reactor device controlled by a voltage source. Background technique [0002] Magnetically controlled reactor (MCR for short) is a device that uses the principle of DC magnetization to magnetize the iron core by using additional excitation current to change the magnetic permeability of the iron core and realize the continuously adjustable reactance value. The dynamic reactive power compensation device (MCR type SVC) composed of magnetron reactor and capacitor bank has become one of the important technologies of reactive power compensation in the power system. [0003] Compared with TCR-type SVC, the traditional magnetron reactor type SVC has significant advantages such as high reliability, small footprint, maintenance-free, etc., and it is also more competitive in cost; however, due to the traditional magnetron reactor type SVC response time Th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P13/06H02J3/18
CPCY02E40/30
Inventor 吕征宇俞立天喻德来
Owner 杭州银湖电气设备有限公司
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