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Three-level integrated gate commutation thyristor voltage source inverter bridge arm through protector

A commutating thyristor, integrated gate technology, applied in emergency protection circuit devices, electrical components, output power conversion devices, etc. Low cost and the effect of reducing short-circuit current

Active Publication Date: 2011-12-28
TIANJIN RES INST OF ELECTRIC SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The fatal shortcoming of IGCT is that once the current flowing through it exceeds its shutdown current, it will not be able to shut down
However, this method has limitations. It is suitable for the case where the IGCT component used in the inverter has a small current (lower output power). If the IGCT used in the inverter has already reached the maximum current specification, this method is not suitable.
In addition, due to the high price of IGCT itself, the cost of using this method is relatively high
[0008] Another disadvantage of open circuit protection is that the protection components are connected in series in the DC circuit, and DC current flows during normal operation, which increases the conduction loss. If IGCT is used, a radiator needs to be added
[0009] The bypass shunt method overcomes the shortcomings of the above-mentioned open circuit protection, and is a more suitable and effective direct short-circuit protection method for high-power three-level IGCT voltage source medium-voltage inverters

Method used

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  • Three-level integrated gate commutation thyristor voltage source inverter bridge arm through protector

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Embodiment Construction

[0027] In order to further understand the invention content, features and effects of the present invention, the following examples are exemplified, and the three-level integrated gate-commutated thyristor voltage source inverter bridge arm through protector of the present invention is described in detail as follows:

[0028] A current rise rate limiting reactor (such as figure 2 L11, L12 in the above), because the inductance of the load motor is much larger than the bridge arm current rise rate limiting reactor, the current rise rate is mainly limited by the load inductance during normal operation, and the voltage drop on the bridge arm current rise rate limiting reactor is very small ; When the through fault occurs, since the capacitor voltage cannot change abruptly, the DC voltage at the initial stage of the through is suddenly added to the bridge arm current rise rate limiting reactor. Therefore, the voltage on the reactor is limited by detecting the rise rate of the bridg...

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Abstract

The invention discloses a three-level integrated gate commutation thyristor voltage source frequency converter bridge arm through protector. The bridge arm through protector is arranged in parallel in a rectifier, a DC filter capacitor and an inverter which are sequentially connected in parallel. In the DC circuit of the three-level integrated gate-commutated thyristor voltage source inverter, the bridge arm through protector includes a protection unit, a bridge arm through protection control unit connected to the protection unit, and a bridge arm through protection control unit connected to the protection unit. A plurality of bridge arms connected to the unit are directly connected to the signal detection unit. The present invention can quickly bypass and reduce the short-circuit current of the through bridge arm; bypass the reverse surge current generated by the inductance of the through loop; consume the energy of the DC bus and accelerate the attenuation process of the surge current; after detecting the through-through of the bridge arm, it can Trigger the bypass thyristor to bypass the discharge of DC energy, and send an alarm signal to the system, so that the system is interlocked for protection. It can effectively protect the three-level IGCT voltage source medium-voltage inverter in the event of a bridge arm through fault.

Description

technical field [0001] The invention belongs to a bridge arm straight-through protector in a high-power medium-voltage variable-frequency AC speed regulating device, in particular to a medium-voltage frequency conversion that can effectively protect a three-level integrated gate commutation thyristor voltage source when a bridge arm straight-through fault occurs Three-level integrated gate-commutated thyristor voltage source inverter bridge arm through protector. Background technique [0002] Integrated gate commutated thyristor (IGCT) is an advanced high-power semiconductor switching device currently used for power conversion. The main power switching device of the three-level medium voltage inverter. [0003] figure 1 Shown is an active front-end type three-level IGCT voltage source type three-phase medium voltage frequency converter. Due to the failure of the IGCT device, or the reverse breakdown of the anti-parallel fast recovery freewheeling diode, or the hardware fa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02M1/32H02H7/122H02M5/45
Inventor 楚子林徐道恒伍丰林许希刘国林赵相宾郭培建金雪峰王国建张向前
Owner TIANJIN RES INST OF ELECTRIC SCI
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