Method of making a photodiode with reduced junction area
First Claim
1. A method for manufacturing a semiconductor device equipped with a light-receiving element having a first semiconductor layer of a first conductive type having a first surface, an element isolation region at said first surface of said first semiconductor layer, said element isolation region having a tilted edge embedded in said first surface of said first semiconductor layer, and an embedded region of a second conductive type embedded between said first surface of said first semiconductor layer and said tilted edge of said element isolation region, said method of manufacturing comprising the steps of:
- masking regions of a semiconductor layer of said first conductive type not to be used as the element isolation regions on said first surface of said first semiconductor layer;
implanting an ion impurity of said second conduction type into said unmasked region of said semiconductor layer of said first conductive type; and
thermally oxidizing said unmasked region of said semiconductor layer of said first conductive type;
whereby the unmasked region is caused to expand and produce said element isolation region having said tilted edge and said embedded region is formed in said tilted edge of said element isolation region.
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Abstract
The present invention discloses a light-receiving element, and method for making same, for a charge storage light sensor having a first semiconductor later of a first conductive type with an element isolation region disposed thereon. The element isolation regions are formed to produce tilted edges embedded within the first semiconductor layer and to also produce an embedded region of a second conductive type. The embedded region is effective to collect the photoelectric current resulting from light exposure to the first semiconductor layer regions upon the application of a reverse bias potential to the embedded region.
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Citations
3 Claims
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1. A method for manufacturing a semiconductor device equipped with a light-receiving element having a first semiconductor layer of a first conductive type having a first surface, an element isolation region at said first surface of said first semiconductor layer, said element isolation region having a tilted edge embedded in said first surface of said first semiconductor layer, and an embedded region of a second conductive type embedded between said first surface of said first semiconductor layer and said tilted edge of said element isolation region, said method of manufacturing comprising the steps of:
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masking regions of a semiconductor layer of said first conductive type not to be used as the element isolation regions on said first surface of said first semiconductor layer; implanting an ion impurity of said second conduction type into said unmasked region of said semiconductor layer of said first conductive type; and thermally oxidizing said unmasked region of said semiconductor layer of said first conductive type; whereby the unmasked region is caused to expand and produce said element isolation region having said tilted edge and said embedded region is formed in said tilted edge of said element isolation region. - View Dependent Claims (2, 3)
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Specification