CN202405266U - Inverted scale or small scale NMOS pipe layout structure for resisting accumulated dose radiation effects - Google Patents

Abstract

The utility model relates to an inverted scale or small scale NMOS pipe layout structure for resisting accumulated dose radiation effects, comprising a semiconductor substrate and an active region; a polycrystalline grid deposits in the active region of the semiconductor substrate; a source end injection protection ring and a leakage end injection protection ring are respectively arranged in two ends of the deposited polycrystalline grid in the active region; a source end and a leakage end are respectively arranged in the source end injection protection ring and the leakage end injection protection ring through ion injection; the source end and the leakage end are both enclosed and separated by the polycrystalline grid. The structure of the utility model completely eliminates electric leakage and isolation failure caused by induced trans of field oxygen under radiation conditions; meanwhile the boundary of the polycrystalline grid spanning a field oxygen zone no longer exists an edge parasitic transistor very sensitive to the accumulated dose effects and the purpose of reinforcing an accumulated dose is arrived; the structure of the utility model can realize inverted scale or small scale NMOS reinforcement of an NMOS pipe that is hard to realize by traditional circular grids; the structure is simple, is compatible with commercial processes and occupies small areas; layout wiring is more convenient and flexible.

Description

A kind of inverse ratio of anti-integral dose radiation effect or small scale NMOS pipe domain structure

Technical field

The utility model relates to a kind of metal-oxide-semiconductor domain structure, and especially a kind of inverse ratio of anti-integral dose radiation effect or small scale NMOS manage domain structure, belongs to the technical field of metal-oxide-semiconductor domain.

Background technology

When device continues to receive ionising radiation (like X ray, gamma-rays etc.), can produce the integral dose radiation effect.For the NMOS pipe, the silica dioxide medium layer of one deck 50～200 nanometers is all arranged between grid and substrate, under radiation condition, ionization produces the electron-hole pair of some in silica dioxide medium.When on grid, adding forward bias, the electronics major part that mobility is bigger is spilled over to grid, and some electronics and hole be to compound, most of hole under the effect of positive electric field to SiO ₂/ Si interface transportation, and some is by SiO at the interface ₂The defective of one side is captured, and forms interfacial state.Such positive charge accumulation can cause the drift of device threshold voltage, finally influences the performance of device.

Secondly; The transistor that adopts self-registered technology to make; Polysilicon gate is deposited on the thin oxide layer, and source/leakage is injected by the active area that is not covered by polysilicon and formed, and the circuit closeness that this technology produces is high; But make polysilicon gate oxygen on the scene and thin gate oxide transition region produce a parasitic transistor, this parasitic transistor is very responsive to total dose effect.Because an oxygen and thin gate oxide are under radiation condition, meeting ionization electron-hole is right; Because the effect of capturing of trap is piled up positive charge in the SiO2 of Si/SiO2 system one side, forms interfacial state; Badly influence transistorized I-V characteristic; Along with the increase of radiation dose, edge parasitic transistor leakage current also rises rapidly, when leakage current is increased to the ON state current near intrinsic transistor; Transistor can forever be opened, and causes component failure.

At last, total dose effect also can make an oxygen isolated failure.Field oxygen is used for adjacent transistor and isolates, but because total dose effect can ionization produce electron-hole pair in the oxygen on the scene; Because the effect of capturing of trap is piled up positive charge in the SiO2 of Si/SiO2 system one side, thereby the electric leakage structure that forms transoid under the oxygen causes an oxygen to lose isolation features, finally cause circuit function to lose efficacy.

Along with constantly reducing of process, the thickness of gate oxide constantly reduces, and when gate oxide thickness was lower than 60 dusts, total dose effect can be ignored the influence of NMOS pipe threshold voltage.But parasitic transistor electric leakage in edge does not but improve with an oxygen district electric leakage.

In commercial application because parasitic transistor can not conducting, so commercial process without CONSIDERING EDGE parasitic transistor characteristic, this makes that the edge parasitic transistor of commercial device way is very responsive to the integral dose radiation effect.Because the commodity production line is not taked any radiation hardened measure on technology,, need make amendment to the transistor domain therefore in order to reach radiation-resistant purpose.

The NMOS of international popular pipe total dose radiation hardening way is to adopt annular grid structure to realize at present.Annular grid structure has been eliminated the show up transition region of oxygen of gate oxide fully between source/drain region; Eliminated the edge parasitic transistor; Adopt the adjacent NMOS pipe of this structure can a shared source region simultaneously, eliminated an oxygen and isolated an electric leakage problem that causes, and compatible with commercial process.But because the structural limitations of ring-shaped gate, the breadth length ratio of only suitable NMOS pipe is the unit more than 4:1 at least.And the very little NMOS pipe of breadth length ratio utilizes the ring-shaped gate domain structure to realize, is enclosed in the middle of the ring-shaped gate owing to the NMOS drain terminal in addition, and is very limited on the domain wires design.So the application of the reinforced layout structure of ring-shaped gate in radiation-hardened ic is restricted.

Summary of the invention

The purpose of the utility model is to overcome the deficiency that exists in the prior art, and a kind of inverse ratio or small scale NMOS pipe domain structure of anti-integral dose radiation effect is provided, its compact conformation, and area occupied is little, and with existing process compatible, wiring is flexibly, and is safe and reliable.

According to the technical scheme that the utility model provides, a kind of inverse ratio NMOS of anti-integral dose radiation effect manages domain structure, comprises semiconductor substrate and is positioned at the active area on the said semiconductor substrate; Be deposited with the polycrystalline grid in the active area of said semiconductor substrate; The source end is set respectively in the two ends of corresponding deposit formation polycrystalline grid in the said active area injects guard ring and drain terminal injection guard ring, inject in the guard ring through ion injection formation respectively source end and drain terminal at said source end injection guard ring and drain terminal; Said source end and drain terminal are all surrounded by the polycrystalline grid, and leave through the polycrystalline barrier between source end and drain terminal.

Said polycrystalline grid are bar shaped, and an end of polycrystalline grid is provided with the grid exit, and said grid exit extends outside the active area, and the grid exit is provided with the grid contact hole corresponding to the other end that links to each other with the polycrystalline grid.

End in contact hole, source is set in the end of said source.The drain terminal contact hole is set in the said drain terminal.The injection guard ring is set in the said active area, and said injection guard ring is coated with the end edge of polycrystalline grid in source region and the said active area, and injects the outer ring that the guard ring extended loop lays out active area; The substrate electric potential contact hole is set in the active area.

A kind of small scale NMOS pipe domain structure of anti-integral dose radiation effect comprises semiconductor substrate and is positioned at the active area on the said semiconductor substrate; Be deposited with the polycrystalline grid in the active area of said semiconductor substrate; The source end is set respectively in the polycrystalline grid that the corresponding deposit of said active area forms injects guard ring and drain terminal injection guard ring; Inject in the guard ring through ion injection formation respectively source end and drain terminal at the source of active area end injection guard ring and drain terminal; Said source end and drain terminal are all surrounded by the polycrystalline grid in the active area, and leave through the polycrystalline barrier between source end and drain terminal.

Said polycrystalline grid are square, and said source end and drain terminal are symmetrically distributed in the both sides of polycrystalline grid; The grid exit is set on the polycrystalline grid, and said grid exit extends outside the active area from the polycrystalline grid, and the end that grid exit correspondence is extended outside the active area is provided with the grid contact hole.

End in contact hole, source is set in the end of said source.The drain terminal contact hole is set in the said drain terminal.The injection guard ring is set in the said active area, and said injection guard ring is coated with the end edge of polycrystalline grid in source region and the said active area, and injects the outer ring that the guard ring extended loop lays out active area; The substrate electric potential contact hole is set in the active area.

The advantage of the utility model: changed the isolation method of this type of NMOS pipe source end and drain terminal, making does not have an oxygen district existence between source end and the drain terminal, has eliminated electric leakage and isolated failure problem that radiation condition end oxygen is inducted and caused after the transoid fully; The border in the oxygen district of polycrystalline grid leap simultaneously no longer exists the highstrung edge of total dose effect parasitic transistor, has reached the purpose of total dose radiation hardening; Inverse ratio and small scale NMOS pipe belong to the weak pipe of MOS device, and be very responsive to the device breadth length ratio, and the breadth length ratio design has imbalance slightly, and device function just maybe be undesired; The utility model is the P-area through what form between N+ injection protection zone and the P+ injection guard ring; Not influenced by total dose effect; Therefore the conduction region that falls when doing than the plumber can not change under radiation condition, does not reinforce the breadth length ratio of NMOS plumber when doing thereby can not influence this type of; Can realize inverse ratio or small scale reinforcing NMOS pipe that the traditional endless grid are difficult to realize; Simple in structure; With commercial process compatible, area occupied is little, is easy to realize flexibly the reinforcing NMOS pipe of all kinds of inverse ratios and small scale; Can guarantee to reinforce the NMOS breadth length ratio and under radiation condition, can not change, and the domain wiring is also more convenient and flexible.

Description of drawings

The edge parasitic transistor that Fig. 1 causes for conventional NMOS pipe total dose effect vertical sketch map that leaks electricity.

Fig. 2 adopts the traditional endless gate layout structure to realize the NMOS duct ligation fruit sketch map of reinforcing.

Fig. 3 realizes the inverse ratio NMOS tubular construction sketch map of reinforcing for the utility model.

Fig. 4 realizes the small scale NMOS tubular construction sketch map of reinforcing for the utility model.

Fig. 5 ~ Fig. 8 is that the utility model inverse ratio NMOS tubular construction forms the step sketch map, wherein:

Fig. 5 is the structural representation that is formed with behind the source region.

Fig. 6 is the structural representation behind the formation polycrystalline grid.

Fig. 7 is the structural representation behind formation source end and the drain terminal.

Fig. 8 is the structural representation after guard ring is injected in formation.

Description of reference numerals: 1-active area, 2-polycrystalline grid, 3-source end, 4-grid contact hole, 5-inject the source end of guard ring, 6-boundary line, 7-annular polysilicon gate, 8-contact hole, 9-NMOS pipe, drain terminal, 15-drain terminal, end in contact hole, 16-source, 17-substrate electric potential contact hole, 18-drain terminal contact hole and the 19-grid exit of 10-NMOS pipe.

Embodiment

Below in conjunction with concrete accompanying drawing and embodiment the utility model is described further.

As shown in Figure 1: as to be the conventional NMOS pipe that adopts self-registered technology to make; Polysilicon gate is deposited on the thin oxide layer; Source/leakage is to be injected by the active area that is not covered by polysilicon to form; The circuit closeness that this technology produces is high, but makes polysilicon gate produce a parasitic transistor in a gate oxide and an oxygen transition region, and this parasitic transistor is very responsive to total dose effect.Because an oxygen and gate oxide under radiation condition, can ionization produce electron-hole pair; Because the effect of capturing of trap is piled up positive charge in silicon dioxide one side of silicon/silicon dioxide system, forms interfacial state, badly influences transistorized electric current and voltage characteristic.Along with the increase of radiation dose, edge parasitic transistor leakage current also rises rapidly, and when leakage current was increased to the ON state current near intrinsic transistor, transistor can forever be opened, and causes component failure; On the other hand, the field oxygen that the polycrystalline grid the are crossed over transoid of can under radiation condition, inducting directly causes the source region of NMOS pipe under the non operating state and drain region to form the path that leaks electricity.

Shown in Fig. 2: be the NMOS pipe that adopts the traditional endless gate layout structure to reinforce.Wherein boundary line 6 area surrounded are the active area of NMOS pipe, and zone 9 is the source end of NMOS pipe, and active area 10 is the drain terminal of NMOS pipe, between zone 9 and active area 10, does not have an existence in oxygen district.So there is not the edge parasitic transistor, eliminate leak channel with this, reach the purpose of total dose radiation hardening.Zone 7 is the annular polysilicon gate of NMOS pipe.One side at annular polysilicon gate links to each other with metal through regional 8 contact holes, and in order to connect proper voltage, the voltage of control NMOS pipe grid is to reach the state of control NMOS pipe.In active area 10 drain terminals of NMOS pipe, also link to each other with metal wire, as this NMOS pipe output potential exit through regional 8 contact holes.

As shown in Figure 3: as to be the inverse ratio NMOS duct ligation composition that utilizes the utility model to reinforce.Some active areas 1 are set on the semiconductor substrate, and said active area 1 is the zone that forms the NMOS pipe; The material of semiconductor substrate comprises silicon.Deposit forms polycrystalline grid 2 in the active area 1 of semiconductor substrate, and said polycrystalline grid 2 are bar shaped, and polycrystalline grid 2 are the polysilicon gate of inverse ratio NMOS pipe.When forming polycrystalline grid 2; Respectively leave certain not deposit of zone polysilicon at the two ends of polycrystalline grid 2; Promptly the two ends of corresponding polycrystalline grid 2 are provided with source end injection guard ring and drain terminal injection guard ring respectively in active area 1; Said source end injects guard ring and drain terminal injects guard ring all by 2 encirclements of polycrystalline grid, and isolates through polycrystalline grid 2 between source end injection guard ring and drain terminal injection guard ring.End at polycrystalline grid 2; One end of said polycrystalline grid 2 is provided with grid exit 19; Said grid exit 19 extends outside the active area 1; Corresponding to the end of extending outside the active area 1 grid contact hole 4 is set at grid exit 19, is deposited with metal in the grid fairlead 4, through controlling the current potential of polycrystalline grid 2 behind the depositing metal in grid fairlead 4.Subsequently;, the source at polycrystalline grid 2 two ends end passes through to inject N type foreign ion in injecting guard ring and drain terminal injection guard ring; To form the source end 3 and the drain terminal 4 of NMOS pipe at the two ends of polycrystalline grid 2, said source end 3 and drain terminal 4 are all surrounded by polycrystalline grid 2, and source end 3 and drain terminal 4 are isolated through polycrystalline grid 2 simultaneously.After forming source end 3 and drain terminal 4, the outer ring of end 3 and drain terminal 4 forms N+ injection protection zone in the source, and said N+ injects the protection zone and covers contiguous polycrystalline grid 2.At last, on semiconductor substrate, inject the p type impurity ion, form and inject guard ring 5, as the substrate contact and the P+ guard ring of inverse ratio NMOS pipe; Said injection guard ring 5 is coated with source region 1, and is covered in the end edge of polycrystalline grid 2, and extends the outer ring of active area 1.

Corresponding to forming the zone of injecting guard ring 5 substrate electric potential contact hole 17 is set at active area 1, behind depositing metal in substrate electric potential contact hole 17, can introduces the substrate electric potential of inverse ratio metal-oxide-semiconductor.End in contact hole, source 16 is set in the source end 3, drain terminal contact hole 18 is set in the drain terminal 4,, thereby can form source end exit, the drain terminal exit of metal-oxide-semiconductor through depositing metal in end in contact hole, source 16 and end in contact hole 18, source.When the p type impurity ion is injected in end injection region and drain terminal injection region in the source, when forming injection guard ring 5, need inject N type foreign ion, can form the domain structure of PMOS pipe like this.The size 11 that identifies among the figure is injected the size that the guard ring territory covers polycrystalline grid 2 for P+; N+ when size 12 is formation source end 3 and drain terminal 4 injects the size that the guard ring territory covers polycrystalline grid 2; Size 13 is injected the size of guard ring territory and P+ injection guard ring territory two border spacings for N+; Size 14 is that end in contact hole, source 16 is big or small with the spacing of polycrystalline grid 2, and these 4 sizes are relevant with the applied manufacturing process of inverse ratio NMOS ruggedized construction.This structure is through the domain structure of ingenious design inverse ratio NMOS pipe; Changed the isolation method of inverse ratio NMOS pipe source end 3 with drain terminal 4; To make do not have an oxygen district to exist between source end 3 and the drain terminal 4, eliminated electric leakage and isolated failure problem that radiation condition end oxygen is inducted and caused after the transoid fully; The border in the oxygen district of polycrystalline grid 2 leaps simultaneously no longer exists the highstrung edge of total dose effect parasitic transistor, has reached the purpose of total dose radiation hardening.

As shown in Figure 4, be the small scale NMOS duct ligation composition that utilizes the utility model to reinforce.Similar with the inverse ratio reinforced layout structure, semiconductor substrate is provided with source region 1, and active area 1 is the zone that forms small scale NMOS pipe.Polycrystalline grid 2 are the polysilicon gate of small scale NMOS pipe, and said polycrystalline grid 2 are square.When forming polycrystalline grid 2, in polycrystalline grid 2, respectively leave certain not deposit of zone polysilicon, the end injection region, source and the drain terminal injection region of symmetrical distribution promptly is set in polycrystalline grid 2, end injection region, said source and drain terminal injection region are positioned at the both sides of polycrystalline grid 2; This zone forms the source/drain region of small scale NMOS pipe.Inject through in end injection region, the source of polycrystalline grid 2 and drain terminal injection region, carrying out N type foreign ion; To form the source end 3 and the drain terminal 4 of NMOS pipe; And in said source the outer ring of end 3 and drain terminal 4 forms N+ and injects the protection zone; Source end 3 and drain terminal 4 are all surrounded by the polycrystalline grid 2 of correspondence, and source end 3 and drain terminal 4 are isolated through polycrystalline grid 2.At polycrystalline grid 2 grid exit 19 is set; Said grid exit 19 extends outside the active area 1; And grid contact hole 4 is set in the end that said grid exit 19 extends outside the active area 1, through depositing metal in grid contact hole 4, can control the current potential of polycrystalline grid 2.

At last, on semiconductor substrate, inject the p type impurity ion, form and inject guard ring 5, as the substrate contact and the P+ guard ring of inverse ratio NMOS pipe; Said injection guard ring 5 is coated with source region 1, and is covered in the end edge of polycrystalline grid 2, and extends the outer ring of active area 1.

Corresponding to forming the zone of injecting guard ring 5 substrate electric potential contact hole 17 is set at active area 1, behind depositing metal in substrate electric potential contact hole 17, can introduces the substrate electric potential of inverse ratio metal-oxide-semiconductor.End in contact hole, source 16 is set in the source end 3, drain terminal contact hole 18 is set in the drain terminal 4,, thereby can form source end exit, the drain terminal exit of metal-oxide-semiconductor through depositing metal in end in contact hole, source 16 and end in contact hole 18, source.When the p type impurity ion is injected in end injection region and drain terminal injection region in the source, when forming injection guard ring 5, need inject N type foreign ion, can form the domain structure of PMOS pipe like this.The size 11 that identifies among the figure is injected the size that the guard ring territory covers polycrystalline grid 2 for P+; N+ when size 12 is formation source end 3 and drain terminal 4 injects the size that the guard ring territory covers polycrystalline grid 2; Size 13 is injected the size of guard ring territory and P+ injection guard ring territory two border spacings for N+; Size 14 is that end in contact hole, source 16 is big or small with the spacing of polycrystalline grid 2, and these 4 sizes are relevant with the applied manufacturing process of inverse ratio NMOS ruggedized construction.This structure is through the domain structure of ingenious design inverse ratio NMOS pipe; Changed the isolation method of inverse ratio NMOS pipe source end 3 with drain terminal 4; To make do not have an oxygen district to exist between source end 3 and the drain terminal 4, eliminated electric leakage and isolated failure problem that radiation condition end oxygen is inducted and caused after the transoid fully; The border in the oxygen district of polycrystalline grid 2 leaps simultaneously no longer exists the highstrung edge of total dose effect parasitic transistor, has reached the purpose of total dose radiation hardening.

Like Fig. 5 ~ shown in Figure 8, be to adopt the utility model patent to realize reinforcing the formation step of inverse ratio NMOS pipe.At first, setting is formed with source region 1 on semiconductor substrate, and said active area 1 is the active area 1 that forms inverse ratio NMOS pipe, and is as shown in Figure 5.As shown in Figure 6: deposit polysilicon on active area 1 forms polycrystalline grid 2; When forming polycrystalline grid 2, respectively leave certain not deposit of zone polysilicon at polysilicon gate 2 two ends, i.e. source end injection region and drain terminal injection region, this zone forms source/drain region that inverse ratio NMOS manages; End at polycrystalline grid 2 is provided with grid exit 19 on the polycrystalline grid 2, said grid exit 19 extends outside the active area 1.Then, on the end injection region, source at polycrystalline grid 2 two ends and drain terminal injection region, inject source end 3 and the drain terminal 4 that forms the NMOS pipe through N type foreign ion; At last, on active area 1, inject the p type impurity ion, as the substrate contact and the injection guard ring 5 of inverse ratio NMOS pipe; Said injection guard ring 5 covers the end edge and the corresponding grid exit 19 of polycrystalline grid 2.Grid contact hole 4 is set extending out on the grid exit 19 of active area 1; Link to each other with metal through grid contact hole 4; As inverse ratio NMOS pipe grid control of Electric potentials electrode, the end in contact hole, source 16 of inverse ratio NMOS pipe source/drain terminal and drain terminal contact hole 18 be through linking to each other with metal, is used in the source termination and goes into suitable potential or draw the output potential that inverse ratio NMOS manages at drain terminal; Inject in the guard ring 5 and link to each other the substrate electric potential of introducing inverse ratio metal-oxide-semiconductor through substrate electric potential contact hole 17 with metal; Through behind the above-mentioned processing step, can form the NMOS pipe domain structure of inverse ratio.In like manner, said small scale NMOS pipe domain structure can obtain equally.

Like Fig. 3 ~ shown in Figure 8: a kind of inverse ratio of anti-integral dose radiation effect or small scale NMOS pipe domain structure; Domain structure through design inverse ratio or small scale NMOS pipe; Changed the isolation method of this type of NMOS pipe source end 3 with drain terminal 4; To make do not have an oxygen district to exist between source end 3 and the drain terminal 4, eliminated electric leakage and isolated failure problem that radiation condition end oxygen is inducted and caused after the transoid fully; The border in the oxygen district of polycrystalline grid 2 leaps simultaneously no longer exists the highstrung edge of total dose effect parasitic transistor, has reached the purpose of total dose radiation hardening.Inverse ratio and small scale NMOS pipe belong to the weak pipe of MOS device, and be very responsive to the device breadth length ratio, and the breadth length ratio design has imbalance slightly, and device function just maybe be undesired.What the utility model N+ formed between injecting and injecting with P+ is the P-area, not influenced by total dose effect, and the conduction region that therefore falls when doing than the plumber can not change under radiation condition, thus the breadth length ratio can not influence this type of reinforcing NMOS plumber and do the time.

The utility model advantage compared with prior art: this structure can realize inverse ratio or the small scale reinforcing NMOS pipe that the traditional endless grid are difficult to realize; Simple in structure; With commercial process compatible, area occupied is little, is easy to realize flexibly the reinforcing NMOS pipe of all kinds of inverse ratios and small scale; Can guarantee to reinforce the NMOS breadth length ratio and under radiation condition, can not change, and the domain wiring is also more convenient and flexible.The utility model unaccomplished matter belongs to techniques well known.

Claims (10)

1. the inverse ratio NMOS of anti-integral dose radiation effect pipe domain structure comprises semiconductor substrate and is positioned at the active area (1) on the said semiconductor substrate; It is characterized in that: be deposited with polycrystalline grid (2) in the active area of said semiconductor substrate (1); The source end is set respectively in the two ends of corresponding deposit formation polycrystalline grid (2) in the said active area (1) injects guard ring and drain terminal injection guard ring, inject in the guard ring through ion injection formation respectively source end (3) and drain terminal (15) at said source end injection guard ring and drain terminal; Said source end (3) and drain terminal (15) are all surrounded by polycrystalline grid (2), and isolate through polycrystalline grid (2) between source end (3) and drain terminal (15).

2. the inverse ratio NMOS pipe domain structure of anti-integral dose radiation effect according to claim 1; It is characterized in that: said polycrystalline grid (2) are bar shaped; One end of polycrystalline grid (2) is provided with grid exit (19); Said grid exit (19) extends outside the active area (1), and grid exit (19) is provided with grid contact hole (4) corresponding to the other end that links to each other with polycrystalline grid (2).

3. the inverse ratio NMOS pipe domain structure of anti-integral dose radiation effect according to claim 1 is characterized in that: end in contact hole, source (16) is set in the said source end (3).

4. the inverse ratio NMOS pipe domain structure of anti-integral dose radiation effect according to claim 1 is characterized in that: drain terminal contact hole (18) is set in the said drain terminal (15).

5. the inverse ratio NMOS pipe domain structure of anti-integral dose radiation effect according to claim 1; It is characterized in that: be provided with in the said active area (1) and inject guard ring (5); Said injection guard ring (5) is coated with the end edge of source region (1) and the interior polycrystalline grid of said active area (1) (2), and injects the outer ring that guard ring (5) extended loop lays out active area (1); Substrate electric potential contact hole (17) is set in the active area (1).

6. the small scale NMOS of anti-integral dose radiation effect pipe domain structure comprises semiconductor substrate and is positioned at the active area (1) on the said semiconductor substrate; It is characterized in that: be deposited with polycrystalline grid (2) in the active area of said semiconductor substrate (1); The source end is set respectively in the polycrystalline grid (2) that the corresponding deposit of said active area (1) forms injects guard ring and drain terminal injection guard ring; Inject in the guard ring through ion injection formation respectively source end (3) and drain terminal (15) at the source of active area (1) end injection guard ring and drain terminal; Said source end (3) and drain terminal (15) are all surrounded by the polycrystalline grid (2) in the active area (1), and isolate through polycrystalline grid (2) between source end (3) and drain terminal (15).

7. the small scale NMOS pipe domain structure of anti-integral dose radiation effect according to claim 6, it is characterized in that: said polycrystalline grid (2) are square, and said source end (3) and drain terminal (15) are symmetrically distributed in the both sides of polycrystalline grid (2); Grid exit (19) is set on the polycrystalline grid (2), and said grid exit (19) is outside polycrystalline grid (2) extend active area (1), and the end that grid exit (19) correspondence is extended outside the active area (1) is provided with grid contact hole (4).

8. the small scale NMOS pipe domain structure of anti-integral dose radiation effect according to claim 6 is characterized in that: end in contact hole, source (16) is set in the said source end (3).

9. the small scale NMOS pipe domain structure of anti-integral dose radiation effect according to claim 6 is characterized in that: drain terminal contact hole (18) is set in the said drain terminal (15).

10. the small scale NMOS pipe domain structure of anti-integral dose radiation effect according to claim 6,

It is characterized in that: be provided with in the said active area (1) and inject guard ring (5); Said injection guard ring (5) is coated with the end edge of source region (1) and the interior polycrystalline grid of said active area (1) (2), and injects the outer ring that guard ring (5) extended loop lays out active area (1); Substrate electric potential contact hole (17) is set in the active area (1).

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