Method for forming high breakdown semiconductor device
First Claim
1. A high breakdown voltage semiconductor device comprising:
- a semiconductor substrate having first and second main surfaces opposite to each other and having a plurality of gaps provided at said first main surface;
a first impurity region of a first conductivity type formed within a region of said semiconductor substrate sandwiched between one and another gaps of said plurality of gaps;
a second impurity region of a second conductivity type formed in said first impurity region nearer said first main surface;
a third impurity region of the first conductivity type formed at said first main surface, opposite to said first impurity region with said second impurity region disposed therebetween; and
a gate electrode layer disposed opposite to said second impurity region sandwiched between said first and third impurity regions with a gate insulating layer disposed between said second impurity region and said gate electrode layer;
whereinsaid gap is filled with a filling insulating layer having a fixed charge of an opposite polarity substantially equal in amount to charge within said first impurity region when said first impurity region is depleted.
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Abstract
An n type diffusion region and a p type diffusion region are formed in a region sandwiched between trenches arranged at a first main surface of a semiconductor substrate. A p type well is formed in the n- and p-type diffusion regions nearer the first main surface. A source n+ diffusion region is formed at the first main surface within the p type well. A gate electrode layer is formed opposite to the p type well sandwiched between the n type diffusion region and the source n+ diffusion region with a gate insulating layer disposed therebetween. The n- and p-type diffusion regions each have an impurity concentration distribution diffused from a sidewall surface of a trench. Thus, a fine, micron-order pn repeat structure can be achieved with sufficient precision and a high breakdown voltage semiconductor device is thus obtained which has superior on-state voltage and breakdown voltage as well as fast switching characteristics.
141 Citations
6 Claims
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1. A high breakdown voltage semiconductor device comprising:
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a semiconductor substrate having first and second main surfaces opposite to each other and having a plurality of gaps provided at said first main surface; a first impurity region of a first conductivity type formed within a region of said semiconductor substrate sandwiched between one and another gaps of said plurality of gaps; a second impurity region of a second conductivity type formed in said first impurity region nearer said first main surface; a third impurity region of the first conductivity type formed at said first main surface, opposite to said first impurity region with said second impurity region disposed therebetween; and a gate electrode layer disposed opposite to said second impurity region sandwiched between said first and third impurity regions with a gate insulating layer disposed between said second impurity region and said gate electrode layer;
whereinsaid gap is filled with a filling insulating layer having a fixed charge of an opposite polarity substantially equal in amount to charge within said first impurity region when said first impurity region is depleted.
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2. A method of manufacturing a high breakdown voltage semiconductor device, comprising the steps of:
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forming a first impurity region of a first conductivity type at a semiconductor substrate having first and second main surfaces opposite to each other nearer said first main surface; forming at said first main surface a first plurality of gaps deeper than said first impurity region; forming at said first main surface a second plurality of gaps deeper than said first impurity region; introducing an impurity of the first conductivity type at one sidewall surface of said first gap by a method having impurity concentration controllability of high precision not affecting a final performance of the semiconductor device to form a second impurity region of the first conductivity type; introducing an impurity of the second conductivity type at one sidewall surface of said second gap by a method having impurity concentration controllability of high precision not affecting the final performance of the semiconductor device to form a third impurity region of the second conductivity type; and with a filling layer of one of insulating film and semi-insulating film filling said first and second gaps, diffusing said impurities of the first and second conductivity types introduced at said one sidewall surface of said first and second gaps to form said second impurity region on said one sidewall surface of said first gap and said third impurity region on said one sidewall surface of said second gap in contact with each other in said first impurity region nearer said second main surface. - View Dependent Claims (3, 4, 5, 6)
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Specification