High-power thyristor

A thyristor, high-power technology, applied in the field of power switching devices, can solve the problems of lower on-state average current density, worse on-state current density distribution uniformity, slower turn-on speed, etc., to achieve high on-state average current density, The effect of uniform current density distribution and on-state voltage reduction

Active Publication Date: 2013-05-08
HANGZHOU HANAN SEMICON
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, as the diameter of the silicon chip continues to increase with the increase of power, the length of the amplification gate will inevitably increase, and its parasitic distributed resistance and capacitance will increase rapidly.
Due to the above reasons, the size of the gate of the unit cell structure increases, which is affected by the increase of the parasitic resistance and capacitance of the central gate and the amplified gate, which increases the charging time constant of the thyristor during the turn-on process, causing the turn-on time to be prolonged and the turn-on speed to slow down. , the di / dt tolerance of the opening process is reduced, and the opening uniformity is deteriorated; at the same time, the uniformity of the on-state current density distribution is deteriorated, the effective on-state average current density is reduced, and the on-state voltage drop and on-state power consumption are increased.

Method used

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Embodiment Construction

[0011] The high-power thyristor of the first embodiment of the present invention is provided with a silicon chip, and the silicon chip is provided with seven unit cell gates with the same structure. Such as figure 1 As shown, each unit cell gate consists of a central gate 1 and an enlarged gate 2. The amplifying gate 2 includes three arrow-shaped fingers, and each finger is provided with a folded edge 3 bent at 120 degrees, and the middle of the folded edge 3, that is, at the junction of the two sides, faces toward the central gate. 1 is provided with a connecting portion 4 . The sub-fingers are distributed around the center gate 1 in a ring with an interval of 12 degrees, and the connection parts 4 of the three sub-fingers are interwoven and connected around the center gate 1, and the connection parts 4 of the sub-fingers are located at a radius centered on the center gate 1 In the direction, the hem portions 3 of adjacent fingers are separated.

[0012] Since the ring-sha...

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Abstract

The invention discloses a high-power thyristor which comprises a silicon wafer, the silicon wafer is provided with unit cell gate poles, each unit cell gate pole comprises a central gate pole and an amplification gate pole, each central gate pole is located at the dead center of each amplification gate pole, the silicon wafer is provided with at least seven unit cell gate poles, and any three adjacent unit cell gate poles are distributed on the silicon wafer in a regular triangle shape. A plurality of small-size unit cell gate poles are installed on the silicon wafer of the high-power thyristor, multiple-unit cell structure gate poles are formed on the surface of the silicon wafer of the high-power thyristor, a plurality of parasitic resistors and a plurality of working areas which are small in capacitance are built on the surface of the silicon wafer, so that the thyristor which is large in size has the same working properties with a thyristor which is small in size, and the high-power thyristor has the advantages of being high in starting speed, even in current density distribution, high in on-state average current density, low in on-state voltage-drop, and low in on-state power consumption. Therefore, by means of the technical scheme, switching operation which is good in performance can be achieved on the high-power thyristor which is larger in size.

Description

technical field [0001] The invention relates to a power switching device, in particular to a high-power thyristor. Background technique [0002] A silicon chip is arranged in the thyristor, and the silicon chip is circular. A gate with a unit cell structure is provided on the silicon wafer, that is, only a central gate and an amplification gate surrounding the central gate are provided on the silicon wafer. The amplification gate mostly adopts a mushroom-shaped multi-finger structure or an involute multi-finger structure to cover the silicon chip. However, as the diameter of the silicon chip continues to increase with the increase of power, the length of the amplifying gate inevitably increases, and its parasitic distributed resistance and capacitance increase rapidly. Due to the above reasons, the size of the gate of the unit cell structure increases, which is affected by the increase of the parasitic resistance and capacitance of the central gate and the amplified gate, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L29/74H01L29/423
CPCH01L29/0692H01L29/42308H01L29/74
Inventor 王勇张海鹏
Owner HANGZHOU HANAN SEMICON
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