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SGT device with silicon nitride barrier layer and method of making

A silicon nitride and barrier layer technology, applied in semiconductor/solid-state device manufacturing, semiconductor devices, electrical components, etc., can solve problems affecting system operation, device failure, etc., to solve problems such as unstable breakdown voltage, small threshold voltage, The effect of small on-resistance

Active Publication Date: 2022-04-08
UNIV OF ELECTRONICS SCI & TECH OF CHINA +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

This causes the avalanche breakdown voltage of the SGT device to increase first and then decrease with the increase of the stress time. As the stress time increases, when the avalanche breakdown voltage of the device is lower than the system operating voltage, the device is prone to failure and affects the entire system. run

Method used

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  • SGT device with silicon nitride barrier layer and method of making
  • SGT device with silicon nitride barrier layer and method of making
  • SGT device with silicon nitride barrier layer and method of making

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Embodiment

[0040] A SGT device with a silicon nitride barrier layer, characterized in that it includes a metallized drain 1, an N+ substrate 2, an N-drift region 3, and a metallized source 11 stacked sequentially from bottom to top;

[0041] The N-drift region 3 has a trench gate structure, a P-type doped region 4, a P+ heavily doped region 6 and an N+ heavily doped region 5;

[0042] The trench gate structure includes an oxide layer 8, a control gate electrode 7 located inside the oxide layer 8, a silicon nitride barrier layer 9 and a shielded gate electrode 10, and the silicon nitride barrier layer 9 and the shielded gate electrode 10 are located on the control gate electrode 7 Below, the control gate electrode 7 and the shielding gate electrode 10 are not in contact, the silicon nitride barrier layer 9 is U-shaped, and the silicon nitride barrier layer 9 is located in the oxide layer 8 on the left and right sides and the bottom of the shielding gate electrode 10;

[0043] The P-type d...

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Abstract

The invention provides a SGT device with a silicon nitride barrier layer and a preparation method thereof, comprising a metallized drain, an N+ substrate, an N-drift region, and a metallized source that are sequentially stacked from bottom to top; in the N-drift region It has a trench gate structure, a P-type doped region, a P+ heavily doped region, and an N+ heavily doped region; the trench gate structure includes an oxide layer, a control gate electrode, a silicon nitride barrier layer and a shield gate electrode; when the device is forward When on, the control gate electrode is connected to positive potential, the metallized drain is connected to positive potential, and the metallized source is connected to zero potential; when the device is reversely blocked, the control gate electrode and metallized source are shorted and connected to zero potential, and the metallization The drain is connected to a positive potential; the invention has characteristics such as larger forward current, smaller threshold voltage, and smaller on-resistance, and effectively solves the reliability problem of unstable breakdown voltage of SGT.

Description

technical field [0001] The invention belongs to the technical field of power semiconductors, and in particular relates to an SGT device with a silicon nitride barrier layer and a preparation method thereof. Background technique [0002] Since Dr. Zeng Jun of Fairchild Semiconductor proposed Shield-gate VDMOS in 2003, this device with low specific on-resistance and low gate charge has attracted widespread attention. The device introduces a new electrode in the conventional groove gate VDMOS groove, which can be used as a field plate-assisted depletion device in the drift region of the carrier to reduce the specific on-resistance of the device, and can also act as a shield to reduce the interaction between the gate electrode and the drain electrode. The stack area reduces the Miller capacitance of the device and reduces the gate charge. Compared with traditional VDMOS devices, shielded gate VDMOS devices have the advantages of low power loss, small parasitic capacitance, fast...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L29/423H01L29/78H01L21/336
CPCH01L29/42364H01L29/7813H01L29/66553H01L29/66734H01L29/407
Inventor 李泽宏莫家宁王彤阳叶俊肖璇
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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