Double-edge anti-integral dose radiation reinforced layout structure

A layout structure, anti-total dose technology, applied in the direction of electrical components, circuits, semiconductor devices, etc., can solve the problems of parasitic leakage, difficult to model, difficult to achieve small width-to-length ratio, etc., to solve the problem of parasitic leakage, easy to design and Effects of modeling and solving leakage problems

Inactive Publication Date: 2010-07-14
BEIJING MXTRONICS CORP +1
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  • Abstract
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Problems solved by technology

[0010] The technical problem of the present invention is: to overcome the deficiencies of the prior art, to provide an anti-total dose radiation-reinforced layout structure, which solves the problem of parasitic leakage caused by the total dose effect of ionizing radiation, and at the same time solves the problems caused by the traditional closed gate reinforcement structure. Large area, poor symmetry, difficult to achieve small aspect ratio and difficult to model

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  • Double-edge anti-integral dose radiation reinforced layout structure
  • Double-edge anti-integral dose radiation reinforced layout structure
  • Double-edge anti-integral dose radiation reinforced layout structure

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Embodiment Construction

[0025] like Figure 4 As shown, the layout structure 41 includes a substrate 42, an active region 43, an implanted region 411, and a gate 46. The active region 43 and the implanted region 411 are formed on the substrate 42, and the overlapping area of ​​the active region 43 and the implanted region 411 is formed The source region 44 and the drain region 45, the gate 46 adopts a double-edge structure with both sides exceeding the active region 43, and separates the source region 44 and the drain region 45, and the injection region 411 is inside the active region 43, ensuring that the source region 44 The presence of thin oxide between source region 44 and drain region 45 eliminates the via between source region 44 and drain region 45 consisting entirely of thick oxide.

[0026] In the layout structure 41, in order to realize the thin oxide region, the minimum coverage length value 47 of the active region 43 to the implanted region 411 satisfies L1≥L1 0 , where L1 0 is the min...

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Abstract

The invention relates to a double-edge total dose radiation resistance reinforcement domain structure, and the domain structure comprises an underlay, an active zone, an injection zone and a bar, wherein the active zone and the injection zone are formed on the underlay; overlapping zone of the active zone and the injection zone forms a source zone and a leakage zone; the bar adopts a double-edge structure two sides of which is beyond the active region; the source zone and the leakage zone are separated; the injection zone is arranged on the inner part of the active zone; thin oxide between the active zone and the leakage zone is ensured to exist between the active zone and the leakage zone; and a passageway between the active zone and the leakage zone completely formed by thick oxide is eliminated. The double-edge total dose radiation resistance reinforcement domain structure solves the problem of parasitic leakage caused by the total dose effect of ionizing radiation, and solves the problems of great area, bad symmetry, difficult realization of small breadth length ratio, difficult modelling, and the like brought by traditional closed bar reinforcement structure at the same time.

Description

technical field [0001] The invention relates to a layout structure, in particular to a total dose radiation-reinforced layout structure. Background technique [0002] figure 1 A plan view of a standard conventional transistor 11 is shown. Transistor 11 comprises an injection region 111, an active region 13, a polysilicon gate 16, and the overlapped portion of the injection region 111 and the active region 13 (here, the active region portion) is divided into three parts by the gate 16, covered by the gate The part of the gate is the channel region 112, and the other parts on both sides of the gate are respectively the source region 14 and the drain region 15 of the transistor. The active region 13 defines a thin oxide region, and the part outside the active region is a thick oxide region. When the transistor works, whether the substrate (or well) 12 of the channel region 112 is controlled by the voltage of the gate 16 is inversion, and when the substrate 12 is inversion, a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L29/78H01L29/423
Inventor 岳素格王亮边强赵元富
Owner BEIJING MXTRONICS CORP
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