CN102184860A - Cold MOS (Metal Oxide Semiconductor) groove padding method and cold MOS groove structure - Google Patents

Abstract

The invention provides a cold MOS (Metal Oxide Semiconductor) groove padding method comprising the following steps: providing an N type semiconductor substrate; etching a deep groove on the N type semiconductor substrate; forming a P type epitaxial layer on the inner wall of the deep groove, wherein a gap is reserved in the middle of the P type epitaxial layer; diffusing P type impurities in the P type epitaxial layer into the N type semiconductor substrate, thus forming a P type diffusion region; and carrying out high-temperature oxidization on the surface of the P type epitaxial layer in the deep groove, and padding the gap in the middle of the P type epitaxial layer with oxides. Correspondingly, the invention further provides a cold MOS groove structure. After one epitaxial layer is grown on the inner wall of the deep groove of a cold MOS super structure, the gap is reserved in the middle of the epitaxial layer, then the surface of the epitaxial layer is oxidized through a high-temperature oxidization method, and oxides are filled in the gaps between the deep groove and the epitaxial layer, so that the cold MOS super structure without gaps can be obtained without complicated process, leakage in working is avoided, and the stable electrical performance of the device can be maintained.

Description

The channel filling method of cold MOS and the groove structure of cold MOS

Technical field

The present invention relates to technical field of manufacturing semiconductors, specifically, the present invention relates to the channel filling method of a kind of cold MOS and the groove structure of a kind of cold MOS.

Background technology

Cold MOS (Cool MOS) has another name called Super Junction MOSFET (super-junction metal oxide semiconductor field effect transistor), invented by the Chen Xing of the Chengdu University of Electronic Science and Technology academician that assists at first, after transfer company of German Infineon.As the new device of power MOSFET field milestone, Cool MOS has broken the theoretical limit of conventional power MOSFET, comes out in 1998 and also moves towards market very soon.

Compare with common high-voltage MOSFET, Cool MOS is owing to adopt new structure of voltage-sustaining layer, utilized the notion of super knot (Super Junction), when almost keeping all advantages of power MOSFET, extremely low conduction loss is arranged again, caloric value is very low, can also significantly reduce chip area in addition, so just be called Cool MOS.At this power transistor with 600 volts is example, uses the conducting resistance of the Cool MOS with super-junction structure to have only 20% of conventional power transistors of the same area.And its output capacitance, input capacitance also reduce synchronously, and the operating frequency characteristic of device is improved.

In general, the realization of super-junction structure has two kinds of approach, a kind of method that is to use repeatedly injection, multilayer epitaxial to form super knot; Another kind is the method that diffuses to form super knot in deep trench.Fig. 1 is use in the prior art is repeatedly injected, multilayer epitaxial forms super knot cross-sectional view.As shown in the figure, this method is by extension successively on N type silicon substrate 100, and the mode of using ion to inject p type impurity on each layer N type epitaxial loayer 101～103 respectively correspondingly successively forms the P trap 104～106 of same horizontal level.Advance with boiler tube technology then, the expanded range of the P trap 104～106 in the N type epitaxial loayer 101～103 is come, the P trap 104～106 of same horizontal level is together in series up and down and forms a kind of " sugarcoated haws " shape, obtains the super-junction structure of Cool MOS.And Fig. 2 is cross-sectional view that diffuses to form super knot in deep trench in the prior art.As shown in the figure, this method is by etching deep trench on N type silicon substrate 200, and fills these deep trench with P type epitaxial loayer 201,202.Advance with boiler tube technology afterwards, form p type diffusion region 203, obtain the super-junction structure of Cool MOS in the deep trench outside.

The method that more above-mentioned two kinds of methods, first kind of use are repeatedly injected, multilayer epitaxial forms super knot need be on Semiconductor substrate etching and fill deep trench, but this method need repeatedly be used epitaxy technique, cost is very high.Second kind of method that diffuses to form super knot in deep trench used the very difficult of epitaxy technique in deep trench, being easy to stay one slit in the process of filling deep trench with epitaxial loayer in groove does not fill up, leaky takes place when causing the work of Cool MOS device, thereby reduces the electric property of device.

Summary of the invention

Technical problem to be solved by this invention provides the channel filling method of a kind of cold MOS and the groove structure of a kind of cold MOS, can fill full deep trench under the situation that does not improve process complexity, keeps the stable of device electric property.

For solving the problems of the technologies described above, the invention provides the channel filling method of a kind of cold MOS, comprise step:

The N type semiconductor substrate is provided;

On described N type semiconductor substrate, etch deep trench;

On the inwall of described deep trench, form P type epitaxial loayer, leave one the slit in the middle of the described P type epitaxial loayer;

P type impurity in the described P type epitaxial loayer is diffused in the described N type semiconductor substrate, forms p type diffusion region;

With the P type epi-layer surface high-temperature oxydation in the described deep trench, fill the middle slit of full described P type epitaxial loayer by oxide.

Alternatively, described Semiconductor substrate is a silicon substrate.

Alternatively, the degree of depth of described deep trench is 40～50 μ m, and width is 1.5～2 μ m.

Alternatively, described P type epitaxial loayer is to use the method for extension to form by silane and borine.

Alternatively, the thickness of described P type epitaxial loayer is

Alternatively, described diffusion of impurities adopts the propelling of boiler tube technology do to finish.

Alternatively, described oxide is a silicon dioxide.

Alternatively, described high-temperature oxydation comprises dry-oxygen oxidation and/or wet-oxygen oxidation.

Correspondingly, the present invention also provides the groove structure of a kind of cold MOS, comprise the deep trench that is positioned at the N type semiconductor substrate, be formed with P type epitaxial loayer on the described trench wall, leave one the slit in the middle of the described P type epitaxial loayer, the described groove outside is surrounded by the p type diffusion region that is penetrated in the described N type semiconductor substrate, and the slit in the middle of the described P type epitaxial loayer is filled full by the oxide of described P type epitaxial loayer.

Alternatively, the thickness of described P type epitaxial loayer is

Compared with prior art, the present invention has the following advantages:

The present invention grows on the inwall of the deep trench of cold MOS super-junction structure after one deck epitaxial loayer, in the middle of epitaxial loayer, leave one the slit, pass through the method for high-temperature oxydation then with the epi-layer surface oxidation, fill the slit between the epitaxial loayer in the full deep trench by oxide, thereby do not need complicated technology just can obtain not have the cold MOS super-junction structure in slit, leak electricity when having avoided work, kept the stable of device electric property.

Description of drawings

The above and other features of the present invention, character and advantage will become more obvious by the description below in conjunction with drawings and Examples, wherein:

Fig. 1 is use in the prior art is repeatedly injected, multilayer epitaxial forms super knot generalized section;

Fig. 2 is cross-sectional view that diffuses to form super knot in deep trench in the prior art;

Fig. 3 is the flow chart of channel filling method of the cold MOS of one embodiment of the invention;

Fig. 4 to Fig. 7 is the cross-sectional view of trench fill process of the cold MOS of one embodiment of the invention.

Embodiment

The invention will be further described below in conjunction with specific embodiments and the drawings, but should not limit protection scope of the present invention with this.

Fig. 3 is the flow chart of channel filling method of the cold MOS of one embodiment of the invention.As shown in the figure, this method can originate in step S301.

In step S301, the N type semiconductor substrate is provided, this N type semiconductor substrate is specifically as follows N type silicon substrate.

In step S302, on the N type semiconductor substrate, etch deep trench.

Fig. 4 to Fig. 7 is the cross-sectional view of trench fill process of the cold MOS of one embodiment of the invention.Wherein, Fig. 4 is for etching the cross-sectional view of deep trench 401 on N type silicon substrate 400.The degree of depth of this deep trench 401 for example can be 40～50 μ m, and width can be 1.5～2 μ m.

In step S303, on the inwall of deep trench, form P type epitaxial loayer, leave one the slit in the middle of this P type epitaxial loayer.

Fig. 5 is the cross-sectional view that forms P type epitaxial loayer 402 on the inwall of deep trench 401.Leave slit 403 one in the middle of this P type epitaxial loayer 402.In the present embodiment, this P type epitaxial loayer 402 is to be formed by silane and the borine method with extension, its thickness can for

In step S304, the p type impurity in the P type epitaxial loayer is diffused in the N type semiconductor substrate, form p type diffusion region.

Fig. 6 is for being diffused into the p type impurity in the P type epitaxial loayer 402 cross-sectional view in the N type semiconductor substrate 400.This process is permeated in N type semiconductor substrate 400 and is formed p type diffusion region 404.In the present embodiment, this diffusion of impurities process can adopt the propelling of boiler tube technology do to finish.

In step S305,, fill the middle slit of full P type epitaxial loayer by oxide with the P type epi-layer surface high-temperature oxydation in the deep trench.

Fig. 7 is with the P type epitaxial loayer 402 surperficial high-temperature oxydations in the deep trench 401, fills the cross-sectional view in the slit 403 in the middle of the full P type epitaxial loayer 402 by oxide 405, also promptly by the groove structure of the cold MOS of the final acquisition of above-mentioned channel filling method institute.In the present embodiment, high-temperature oxydation can comprise dry-oxygen oxidation and/or wet-oxygen oxidation.Because the effect of high-temperature oxydation, oxide 405 (for example silicon dioxide) can consume certain thickness P type epitaxial loayers 402 in the deep trench 401, thus make the thickness attenuation of P type epitaxial loayer 402 in deep trench 401 some.

The present invention grows on the inwall of the deep trench of cold MOS super-junction structure after one deck epitaxial loayer, in the middle of epitaxial loayer, leave one the slit, pass through the method for high-temperature oxydation then with the epi-layer surface oxidation, fill the slit between the epitaxial loayer in the full deep trench by oxide, thereby do not need complicated technology just can obtain not have the cold MOS super-junction structure in slit, leak electricity when having avoided work, kept the stable of device electric property.

Though the present invention with preferred embodiment openly as above; but it is not to be used for limiting the present invention; any those skilled in the art without departing from the spirit and scope of the present invention; can make possible change and modification, so protection scope of the present invention should be as the criterion with the scope that claim of the present invention was defined.

Claims (10)

1. the channel filling method of a cold MOS comprises step:

The N type semiconductor substrate is provided;

On described N type semiconductor substrate, etch deep trench;

On the inwall of described deep trench, form P type epitaxial loayer, leave one the slit in the middle of the described P type epitaxial loayer;

P type impurity in the described P type epitaxial loayer is diffused in the described N type semiconductor substrate, forms p type diffusion region;

With the P type epi-layer surface high-temperature oxydation in the described deep trench, fill the middle slit of full described P type epitaxial loayer by oxide.

2. channel filling method according to claim 1 is characterized in that, described Semiconductor substrate is a silicon substrate.

3. channel filling method according to claim 1 and 2 is characterized in that, the degree of depth of described deep trench is 40～50 μ m, and width is 1.5～2 μ m.

4. channel filling method according to claim 2 is characterized in that, described P type epitaxial loayer is to use the method for extension to form by silane and borine.

5. channel filling method according to claim 4 is characterized in that, the thickness of described P type epitaxial loayer is

6. channel filling method according to claim 1 and 2 is characterized in that, described diffusion of impurities adopts boiler tube technology to do to advance and finishes.

7. channel filling method according to claim 2 is characterized in that, described oxide is a silicon dioxide.

8. channel filling method according to claim 1 and 2 is characterized in that described high-temperature oxydation comprises dry-oxygen oxidation and/or wet-oxygen oxidation.

9. the groove structure of a cold MOS, comprise the deep trench that is positioned at the N type semiconductor substrate, it is characterized in that, be formed with P type epitaxial loayer on the described trench wall, leave one the slit in the middle of the described P type epitaxial loayer, the described groove outside is surrounded by the p type diffusion region that is penetrated in the described N type semiconductor substrate, and the slit in the middle of the described P type epitaxial loayer is filled full by the oxide of described P type epitaxial loayer.

10. groove structure according to claim 9 is characterized in that, the thickness of described P type epitaxial loayer is

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