Nighttime solar cell

US 5,936,193 A
Filed: 09/19/1997
Issued: 08/10/1999
Est. Priority Date: 05/09/1997
Status: Expired due to Fees

First Claim

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1. A thermoelectric cell comprising:

a first junction surface having a first temperature disposed in contact with a first semiconductor material;

a second junction surface having a second temperature disposed in contact with a second semiconductor material;

a third junction surface having a third temperature disposed in contact with the first semiconductor material and the second semiconductor material; and

wherein the first temperature and the second temperature are about the same and the third temperature is greater than the first temperature and the second temperature.

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Abstract

This invention is a thermoelectric-photovoltaic device for converting electrical energy from both thermal radiation and sunlight. Thermoelectric energy is produced from thermoelectric cells when a temperature difference is present between two different semiconductor materials. Solar energy is produced from photovoltaic cells when two different semiconductor materials are exposed to sunlight. To achieve increased electrical energy production, one of the semiconductor materials is placed in a cell having a reduced pressure atmosphere to increase the radiative energy thermal exchange with the black sky at night.

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29 Claims

1. A thermoelectric cell comprising:
- a first junction surface having a first temperature disposed in contact with a first semiconductor material;
  
  a second junction surface having a second temperature disposed in contact with a second semiconductor material;
  
  a third junction surface having a third temperature disposed in contact with the first semiconductor material and the second semiconductor material; and
  
  wherein the first temperature and the second temperature are about the same and the third temperature is greater than the first temperature and the second temperature.

2. A thermoelectric cell comprising:
- a first junction surface having a first temperature disposed in contact with a first semiconductor material;
  
  a second junction surface having a second temperature disposed in contact with a second semiconductor material;
  
  a third junction surface having a third temperature disposed in contact with the first semiconductor material and the second semiconductor material; and
  
  wherein the first temperature and the second temperature are about the same and the third temperature is less than the first temperature and the second temperature.

3. A thermoelectric cell comprising:
- a first junction surface disposed in contact with a first semiconductor material;
  
  a second junction surface disposed in contact with a second semiconductor material;
  
  a third junction surface disposed in contact with the first semiconductor material and the second semiconductor material;
  
  the first and second junction surfaces at a temperature different from the third surface junction producing a thermoelectric potential between the first and second junction surfaces;
  
  the thermoelectric potential having an electrical current;
  
  the first and second junction surfaces electrically connected such that the current flows to a current flow direction circuitry;
  
  the current flow direction circuitry operable to detect the direction of the current;
  
  the current flow direction circuitry further operable to orient the direction of an output current; and
  
  the current flow circuitry electrically connected to a load.
- View Dependent Claims (4, 5, 6)
- - 4. A thermoelectric cell as set forth in claim 3 further comprising a finned heat exchanger disposed in contact with the third junction surface.
  - 5. A thermoelectric cell as set forth in claim 3 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and wherein the first and second temperatures are about the same and the third junction surface has a third temperature and wherein the third temperature is greater than the first temperature and the second temperature and wherein the current flow direction is positive.
  - 6. A thermoelectric cell as set forth in claim 3 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and wherein the first and second temperatures are about the same and the third junction surface has a third temperature and wherein the third temperature is less than the first temperature and the second temperature and wherein the current flow direction is negative.

7. A thermoelectric cell for use in an environment having an ambient pressure, the thermoelectric cell comprising:
- a first junction surface disposed in contact with a first semiconductor material;
  
  a second junction surface disposed in contact with a second semiconductor material;
  
  a third junction surface disposed in contact with the first semiconductor material and the second semiconductor material;
  
  the first and second semiconductor materials disposed within a cell having a pressure less than the ambient pressure; and
  
  the first and second junction surfaces at a temperature different from the third surface junction producing a thermoelectric potential between the first and second junction surfaces.

8. A thermoelectric cell positioned between the earth and open space in an ambient pressure within the atmosphere of the earth, the thermoelectric cell comprising:
- a first junction surface disposed in contact with a first semiconductor material;
  
  a second junction surface disposed in contact with a second semiconductor material;
  
  the first and second junction surfaces disposed within a cell having a pressure less than the ambient pressure;
  
  a third junction surface disposed in contact with the first semiconductor material and the second semiconductor material; and
  
  the first and second junction surfaces in heat exchange relationship with deep space;
  
  the third junction surface in heat exchange relationship with the atmosphere of the earth;
  
  the first and second junction surfaces at a temperature different from the third surface junction producing a thermoelectric potential between the first and second junction surfaces.
- View Dependent Claims (9, 10, 11)
- - 9. A thermoelectric cell as set forth in claim 8 further comprising a finned heat exchanger disposed in contact with the third junction surface.
  - 10. A thermoelectric cell as set forth in claim 8 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and wherein the first and second temperatures are about the same and the third junction surface has a third temperature and wherein the third temperature is greater than the first temperature and the second temperature and wherein the current flow direction is positive.
  - 11. A thermoelectric cell as set forth in claim 8 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and wherein the first and second temperatures are about the same and the third junction surface has a third temperature and wherein the third temperature is less than the first temperature and the second temperature and wherein the current flow direction is negative.

12. A thermoelectric array comprising a plurality of electrically connected thermoelectric cells for use in an environment having an ambient pressure, the thermoelectric cells comprising:
- a first junction surface disposed in contact with a first semiconductor material;
  
  a second junction surface disposed in contact with a second semiconductor material;
  
  the first and second junction surfaces disposed within a cell having a pressure less than the ambient pressure;
  
  a third junction surface disposed in contact with the first semiconductor material and the second semiconductor material; and
  
  the first and second junction surfaces at a temperature different from the third surface junction producing a thermoelectric potential between the first and second junction surfaces.
- View Dependent Claims (13, 14)
- - 13. A thermoelectric array as set forth in claim 12 wherein the plurality of thermoelectric cells are connected in series fashion.
  - 14. A thermoelectric array as set forth in claim 12 wherein the plurality of thermoelectric cells are connected in parallel fashion.

15. A thermoelectric array comprising a plurality of electrically connected thermoelectric cells, the thermoelectric cells comprising:
- a first junction surface disposed in contact with a first semiconductor material;
  
  a second junction surface disposed in contact with a second semiconductor material;
  
  a third junction surface disposed in contact with the first semiconductor material and the second semiconductor material;
  
  the first and second junction surfaces at a temperature different from the third surface junction producing a thermoelectric potential between the first and second junction surfaces;
  
  the thermoelectric potential having an electrical current;
  
  the first and second junction surfaces electrically connected such that the current flows to a current flow direction circuitry;
  
  the current flow direction circuitry operable to detect the direction of the current;
  
  the current flow direction circuitry further operable to orient the direction of an output current; and
  
  the current flow circuitry electrically connected to a load.
- View Dependent Claims (16, 17)
- - 16. A thermoelectric array as set forth in claim 15 wherein the plurality of thermoelectric cells are connected in series fashion.
  - 17. A thermoelectric array as set forth in claim 15 wherein the plurality of thermoelectric cells are connected in parallel fashion.

18. A thermoelectric-photovoltaic cell for converting thermal radiation and sunlight into electrical energy, including a thermoelectric cell and a solar cell, the thermoelectric-photovoltaic cell comprising:
- the solar cell exposed to sunlight disposed within the thermoelectric cell exposed to thermal radiation;
  
  the thermoelectric cell having a first junction surface disposed in contact with a first semiconductor material, a second junction surface disposed in contact with a second semiconductor material, a third junction surface disposed in contact with the first semiconductor material and the second semiconductor material, the first and second junction surfaces at a temperature different from the third surface junction producing a thermoelectric potential between the first and second junction surfaces, the thermoelectric potential having an electrical current, the first and second junction surfaces electrically connected such that the current flows to a current flow direction circuitry, the current flow direction circuitry operable to detect a direction of the current;
  
  the solar cell having a pair of electrodes, the electrodes comprised of a first semiconductor material coupled to the second semiconductor material of the thermoelectric cell and a second semiconductor material coupled to the first semiconductor material of the thermoelectric cell, the first and second semiconductor materials of the solar cell converting the sunlight to electrical energy having a solar output current having a direction;
  
  the current flow direction circuitry further operable to orient the direction of a thermoelectric output current to that of the solar current output direction;
  
  the current flow circuitry electrically connected to a load; and
  
  the solar cell electrically connected to a load.
- View Dependent Claims (19, 20, 21, 22, 23)
- - 19. A thermoelectric-photovoltaic cell as set forth in claim 18 further comprising a finned heat exchanger disposed in contact with the third junction surface.
  - 20. A thermoelectric-photovoltaic cell as set forth in claim 18 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and the third junction surface has a third temperature and wherein the first and second temperatures are about the same and the third is greater than the first and second temperatures and wherein the current flow direction is positive.
  - 21. A thermoelectric-photovoltaic cell as set forth in claim 18 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and the third junction surface has a third temperature and wherein the first and second temperatures are about the same and the third is less than the first and second temperatures and wherein the current flow direction is negative.
  - 22. A thermoelectric-photovoltaic cell as set forth in claim 18 wherein the thermoelectric-photovoltaic cell is disposed in an environment having an ambient pressure and wherein the first and second junction surfaces are disposed within a cell having a pressure less than the ambient pressure.
  - 23. A thermoelectric-photovoltaic cell as set forth in claim 18 wherein the solar cell includes a light concentrating device for focusing sunlight onto the electrodes.

24. A thermoelectric-photovoltaic array for converting thermal radiation and sunlight into electrical energy, comprising a plurality of thermoelectric cells and solar cells electrically connected, the thermoelectric-photovoltaic array comprising:
- the solar cells exposed to sunlight disposed within the thermoelectric cells exposed to thermal radiation;
  
  the thermoelectric cells each having a first junction surface having a first temperature disposed in contact with a first semiconductor material, a second junction surface having a second temperature disposed in contact with a second semiconductor material, a third junction surface having a third temperature disposed in contact with the first semiconductor material and the second semiconductor material, the first and second temperatures different from the third temperature producing a thermoelectric potential between the first and second junction surfaces, the thermoelectric potential having an electrical current, the first and second junction surfaces electrically connected such that the current flows to a current flow direction circuitry, the current flow direction circuitry operable to detect a direction of the current;
  
  the solar cells each having a pair of electrodes, the electrodes comprised of a first semiconductor material coupled to the second semiconductor material of the thermoelectric cell and a second semiconductor material coupled to the first semiconductor material of the thermoelectric cell, the first and second semiconductor materials of the solar cell converting the sunlight to electrical energy having a solar output current having a direction;
  
  the current flow direction circuitry further operable to orient the direction of a thermoelectric output current to that of the solar current output direction;
  
  the current flow circuitry electrically connected to a load; and
  
  the solar cell electrically connected to a load.
- View Dependent Claims (25, 26, 27, 28, 29)
- - 25. A thermoelectric-photovoltaic array as set forth in claim 24 further comprising a finned heat exchanger disposed in contact with the third junction surface.
  - 26. A thermoelectric-photovoltaic array as set forth in claim 24 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and wherein the first temperature and the second temperature are about the same and the third junction surface has a third temperature and wherein the third temperature is greater than the first temperature and the second temperature and wherein the current flow direction is positive.
  - 27. A thermoelectric-photovoltaic array as set forth in claim 24 wherein the first junction surface has a first temperature and the second junction surface has a second temperature and wherein the first temperature and the second temperature are about the same and the third junction surface has a third temperature and wherein the third temperature is less than the first temperature and the second temperature and wherein the current flow direction is negative.
  - 28. A thermoelectric-photovoltaic array as set forth in claim 24 wherein the thermoelectric-photovoltaic array is disposed in an environment having an ambient pressure and wherein the first and second junction surfaces are disposed within a cell having a pressure less than the ambient pressure.
  - 29. A thermoelectric-photovoltaic cell as set forth in claim 24 wherein the solar cell includes a light concentrating device for focusing sunlight onto the electrodes.

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Current Assignee
Ronald J. Parise
Original Assignee
Ronald J. Parise
Inventors
Parise, Ronald J.
Primary Examiner(s)
Gorgos, Kathryn
Assistant Examiner(s)
Parsons, Thomas H.

Application Number

US08/933,789
Time in Patent Office

690 Days
Field of Search

136/200, 136/201, 136/205, 136/206, 136/243, 136/246
US Class Current

136/205
CPC Class Codes

H01M 10/443   in response to temperature

H01M 8/04007   related to heat exchange

H02S 10/10   including a supplementary s...

H10N 10/00   Thermoelectric devices comp...

Y02E 10/50   Photovoltaic [PV] energy

Y02E 60/10   Energy storage using batteries

Y02E 60/50   Fuel cells

Nighttime solar cell

First Claim

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Abstract

46 Citations

29 Claims

Specification

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Nighttime solar cell

First Claim

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0 Petitions

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Accused Products

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Abstract

46 Citations

29 Claims

Specification

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Use Cases

Quick Links

Others