Thermoelectric device having an energy storage device located between its hot and cold sides
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-035/04
H01L-035/28
출원번호
UP-0818113
(2004-04-05)
등록번호
US-7655858
(2010-03-31)
발명자
/ 주소
Esser, Brian
Huston, Dryver R.
Plumpton, James O.
출원인 / 주소
The University of Vermont and State Agricultural College
대리인 / 주소
Downs Rachlin Martin PLLC
인용정보
피인용 횟수 :
9인용 특허 :
4
초록▼
A thermoelectric device (100, 342) that includes at least one thermoelectric couple (118, 304) that contains a thermoelectric junction (156) between two dissimilar materials (P, N) that allow exploitation of either the Seebeck effect or Peltier effect of the junction. The thermoelectric couple inclu
A thermoelectric device (100, 342) that includes at least one thermoelectric couple (118, 304) that contains a thermoelectric junction (156) between two dissimilar materials (P, N) that allow exploitation of either the Seebeck effect or Peltier effect of the junction. The thermoelectric couple includes two thermoelements (120, 124, 324, 326) that extend between the hot side (104) and cold side (108) of the device. Each thermoelement has a thermally insulating region (128, 132) that insulates the hot side from the cold side and an electrical energy storage device (136, 138, 308, 310) that stores electrical energy. When operating in a Seebeck mode, each storage device may be periodically discharged by harvesting circuitry (200, 300) so as to harvest the energy stored therein. When operating in a Peltier mode, each storage device may be periodically charged by charging circuitry (900, 1000) so as to induce a temperature change at the thermoelectric junction.
대표청구항▼
What is claimed is: 1. A system, comprising: a first single-thermoelectric-junction thermoelectric couple that includes: a hot side when the system is operating; a cold side spaced from said hot side when the system is operating; a first thermoelement having a first end in thermal communication wit
What is claimed is: 1. A system, comprising: a first single-thermoelectric-junction thermoelectric couple that includes: a hot side when the system is operating; a cold side spaced from said hot side when the system is operating; a first thermoelement having a first end in thermal communication with one of said hot side and said cold side, and a second end in thermal communication with the other of said hot side and said cold side, said first thermoelement comprising at least one first electrical and thermal conducting portion and a first energy storage device that includes a first insulating region connected in series with said at least one first electrical and thermal conducting portion between said hot side and said cold side so as to inhibit flow of heat through said first thermoelement and to inhibit the flow of electricity across said first energy storage device; a second thermoelement having a third end in thermal communication with the one of said hot side and said cold side in which said first end of said first thermoelement is in thermal communication, and a fourth end in thermal communication with the other of said hot side and said cold side in which said second end of said first thermoelement is in thermal communication, said second thermoelement comprising at least one second electrical and thermal conducting portion and a second energy storage device that includes a second insulating region connected in series with said at least one second electrical and thermal conducting portion between said hot side and said cold side so as to inhibit flow of heat through said second thermoelement and to inhibit the flow of electricity across said second energy storage device; and only one thermoelectric junction, said thermoelectric junction being formed by and between said first end of said first thermoelement and said third end of said second thermoelement; and energy harvesting circuitry in electrical communication with each of said first energy storage device and said second energy storage device for periodically harvesting electrical energy from said first energy storage device and said second energy storage device. 2. The system of claim 1, wherein said energy harvesting circuitry includes: a switch for opening and closing a circuit that includes said first energy storage device and a second energy storage device; and a switch controller for controlling said switch as a function of a magnitude of charge stored on at least one of: 1) said first energy storage device and 2) said second energy storage device. 3. The system of claim 2, wherein said switch controller includes a charge sensor for sensing charge buildup on at least one of: 1) said first energy storage device and 2) said second energy storage device. 4. The system of claim 1, wherein said first energy storage device includes a first side and a second side electrically separated by said first insulating region and said second energy storage device includes a third side and a fourth side electrically separated by said second insulating region, said energy harvesting circuitry electrically connected to each of said first side, said second side, said third side and said fourth side. 5. The system of claim 4, wherein each of said first energy storage device and said second energy storage device comprises a capacitor that includes a first condenser plate and a second condenser plate, said energy harvesting circuitry directly electrically connected to ones of said first condenser plate and said second condenser plate. 6. The system of claim 1, wherein said first energy storage device includes a first side and a second side electrically separated by said first insulating region and said second energy storage device includes a third side and a fourth side electrically separated by said second insulating region, said energy harvesting circuitry electrically connected to only said first side and said third side. 7. The system of claim 1, wherein said energy harvesting circuitry further comprises signal conditioning circuitry for smoothing a periodic waveform resulting from switching of said switch. 8. The system of claim 1, comprising a plurality of thermoelectric couples each substantially identical to said first single-thermoelectric-junction thermoelectric couple, wherein ones of said plurality of thermoelectric couples are not directly electrically coupled to one another, said energy harvesting circuitry in electrical communication with said ones of said plurality of thermoelectric couples and operatively configured to stagger discharge of ones of said first and second energy storage devices across said plurality of thermoelectric couples so as to smooth an output of said energy harvesting circuitry. 9. The system of claim 1, further comprising a thermal conductor located between and spaced from said hot side and said cold side, wherein said first thermoelectric couple is a multistage thermoelectric couple in which each of said first and second thermoelements includes a series-connected energy storage device on each side of said thermal conductor.
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