Thermoelectric power source utilizing ambient energy harvesting for remote sensing and transmitting
First Claim
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1. A method for providing power comprising:
- providing a thermoelectric generator having a first end and a second end;
exposing the first end of the thermoelectric generator to thermal energy of a first temperature region;
exposing the second end of the thermoelectric generator to thermal energy of a second temperature region; and
utilizing a difference between the thermal energy of the first temperature region and the thermal energy of the second temperature region to produce electric power from the thermoelectric generator regardless of whether the first temperature region is warmer or cooler than the second temperature region;
wherein the thermoelectric generator comprises a plurality of thermocouples comprising p-type and n-type thin film semiconductor thermoelements formed on a single flexible substrate;
wherein each thermocouple comprises at least three thermoelements; and
wherein each of the p-type thermoelements and the n-type thermoelements has a length to area ratio of between from about 1,000 cm−
1 and to about 10,000 cm−
1.
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Abstract
A method and apparatus for providing electrical energy to an electrical device wherein the electrical energy is originally generated from temperature differences in an environment having a first and a second temperature region. A thermoelectric device having a first side and a second side wherein the first side is in communication with a means for transmitting ambient thermal energy collected or rejected in the first temperature region and the second side is in communication with the second temperature region thereby producing a temperature gradient across the thermoelectric device and in turn generating an electrical current.
71 Citations
13 Claims
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1. A method for providing power comprising:
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providing a thermoelectric generator having a first end and a second end; exposing the first end of the thermoelectric generator to thermal energy of a first temperature region; exposing the second end of the thermoelectric generator to thermal energy of a second temperature region; and utilizing a difference between the thermal energy of the first temperature region and the thermal energy of the second temperature region to produce electric power from the thermoelectric generator regardless of whether the first temperature region is warmer or cooler than the second temperature region; wherein the thermoelectric generator comprises a plurality of thermocouples comprising p-type and n-type thin film semiconductor thermoelements formed on a single flexible substrate; wherein each thermocouple comprises at least three thermoelements; and wherein each of the p-type thermoelements and the n-type thermoelements has a length to area ratio of between from about 1,000 cm−
1 and to about 10,000 cm−
1.
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2. A method for providing power comprising:
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providing a thermoelectric generator having a first end and a second end; exposing the first end of the thermoelectric generator to thermal energy of a first temperature region; exposing the second end of the thermoelectric generator to thermal energy of a second temperature region; and utilizing a difference between the thermal energy of the first temperature region and the thermal energy of the second temperature region to produce electric power from the thermoelectric generator regardless of whether the first temperature region is warmer or cooler than the second temperature region; wherein the thermoelectric generator comprises a plurality of thermocouples comprising p-type and n-type thin film semiconductor thermoelements formed on a single flexible substrate, the p-type or the n-type thermoelements having L/A ratios from about 500 cm−
1 to about 10,000 cm−
1;wherein a single p-type thermoelement is, or a plurality of p-type thermoelements in parallel with each other are, electrically connected in series with a single n-type thermoelement or with a plurality of n-type thermoelements in parallel with each other; and wherein each thermocouple comprises at least three thermoelements. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for providing power comprising:
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providing a thermoelectric generator having a first end and a second end; exposing the first end of the thermoelectric generator to thermal energy of a first temperature region; exposing the second end of the thermoelectric generator to thermal energy of a second temperature region; and utilizing a difference between the thermal energy of the first temperature region and the thermal energy of the second temperature region to produce electric power from the thermoelectric generator regardless of whether the first temperature region is warmer or cooler than the second temperature region; wherein the thermoelectric generator comprises a plurality of thermocouples comprising p-type and n-type thin film semiconductor thermoelements each sputter deposited on a single, continuous flexible substrate formed in a coil configuration, and wherein the p-type and n-type thermoelements have L/A ratios of from about 500 cm−
1 to about 10,000 cm−
1;wherein a single n-type thermoelement is, or a plurality of n-type thermoelements in parallel with each other are, electrically connected in series with a single p-type thermoelement or with a plurality of p-type thermoelements in parallel with each other; and wherein each thermocouple comprises at least three thermoelements.
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Specification