Claims
- 1. A semiconductor solar cell, comprising a substrate body of a first conductivity type and having spaced parallel exposure-side and underside body surfaces, one of said surfaces having a plurality of laterally spaced elongate grooves with opposed inclined sidewalls which diverge in the direction of said one surface, thereby defining plural spaced, elongate, parallel units with sidewalls which converge in the direction of said one surface, the maximum effective lateral width of the exposure side of each unit being within the range up to ten mils, one sidewall of each unit comprised of a localized region of a second conductivity type, said localized region being diffused into said one sidewall and defining with adjacent first conductivity type body material a photovoltaic junction plane which is parallel to the sidewall surface at said region, the other sidewall of each unit being of first conductivity type, and electric-circuit connection means including first conductive means having ohmic contact with said second conductivity-type regions and second conductive means having ohmic contact with regions of said first conductivity type.
- 2. The solar cell of claim 1, in which said grooves extend to said other body surface, whereby said units have minimum separation at said other surface, and means fixedly retaining said separation of adjacent units.
- 3. The solar cell of claim 2, in which said substrate is of silicon-base material and the effective width of each unit at the exposure surface is in the order of 1 to 4 mils.
- 4. A semiconductor solar cell, comprising a substrate body of a first conductivity type and having spaced parallel exposure-side and underside body surfaces, one of said surfaces having a plurality of laterally spaced elongate grooves with opposed inclined sidewalls which diverge in the direction of said one surface, thereby defining plural spaced, elongate, parallel units with sidewalls which converge in the direction of said one surface, the maximum effective lateral width of the exposure side of each unit being within the range up to ten mils, one sidewall of each unit comprised of a localized region of a second conductivity type, said localized region being diffused into said one sidewall and defining with adjacent first conductivity type body material a photovoltaic junction plane which is parallel to the sidewall surface at said region, the other sidewall of each unit comprised of a localized region characterized by higher impurity concentration of first conductivity-type material, said impurity region being diffused into said other sidewall, and means interconnecting said units for combining the individual electrical outputs of said units, said means comprising separate conductive connections establishing ohmic contact with the respective sidewall regions of said units.
- 5. A semiconductor solar cell comprising an essentially flat, thin array of plural, spaced, elongate parallel semiconductor units formed from a common substrate wafer having spaced parallel exposure-side and underside body surfaces and comprised of a first conductivity type, the body material of each of said units having the same spaced retained relation to the body material of other of said units as in the original substrate from which they are formed, each unit having spaced elongate upstanding sidewalls extending between exposure-side and underside body surfaces, the maximum effective lateral width of the exposure side of each unit being within the range up to 10 mils, one sidewall of each unit comprised of a localized region of a second conductivity type which localized region also extends to a limited extent contiguously along a region of the adjacent underside body surface of said each unit, said localized region being diffused into said one sidewall and defining with adjacent first conductivity type body material a photovoltaic junction plane which is parallel to the sidewall surface at said region, the other sidewall of each unit comprised of a localized region characterized by higher impurity concentration of first conductivity-type material which localized region also extends to a limited extent contiguously along a region of the adjacent underside body surface of said each unit but short of contact with the adjacent second conductivity-type region of said each unit, said impurity region being diffused into said other sidewall, and means interconnecting said units for combining the individual electrical outputs of said units, said means comprising separate conductive connections to the respective sidewall regions of said units solely via ohmic contact with said associated underside body regions.
- 6. The solar cell of claim 5, in which the spaces between adjacent sidewalls of adjacent units are unfilled.
- 7. A semiconductor solar cell, comprising a substrate body wafer of a first conductivity type and having spaced parallel exposure-side and underside body surfaces, one of said surfaces having a plurality of laterally spaced elongate grooves with opposed upstanding sidewalls which extend to said one surface, thereby defining plural, spaced, elongate, parallel units with sidewalls extending from one to the other of said surfaces, the maximum effective lateral width of the exposure side of each unit being within the range up to ten mils, one sidewall of each unit comprised of a localized region of a second conductivity type, said localized region being diffused into said one sidewall and defining with adjacent first conductivity type body material a photovoltaic junction plane which is parallel to the sidewall surface at said region, the other sidewall of each unit comprised of a localized region characterized by higher impurity concentration of first conductivity-type material, said impurity region being diffused into said other sidewall, means interconnecting said units for combining the individual electrical outputs of said units, said means comprising separate conductive connections establishing ohmic contact with the respective sidewall regions of said units, and means external to said grooves for fixedly retaining the groove-separated distance between adjacent units.
- 8. The solar cell of claim 7, in which each of the grooves between adjacent units is filled with solid material.
- 9. The solar cell of claim 8, in which said solid material is of metal.
- 10. The solar cell of claim 8, in which said solid material is electrically insulating.
- 11. The solar cell of claim 7, in which said grooves are unfilled.
- 12. The solar cell of claim 7, in which said sidewalls are substantially parallel.
- 13. The solar cell of claim 7, in which for each groove said sidewalls are divergent in the direction of said one body surface.
Parent Case Info
This application is a continuation application based on our copending continuation in part application Ser. No. 901,331, filed May 1, 1978, now abandoned, which was based on Ser. No. 689,989, filed May 26, 1976, now U.S. Pat. No. 4,110,122, which patent is the subject of Reissue application, Ser. No. 26,754, filed Apr. 3, 1979, and pending.
US Referenced Citations (4)
Continuations (1)
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Date |
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Parent |
901331 |
May 1978 |
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Continuation in Parts (1)
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Number |
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689989 |
May 1976 |
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