A thermoelectric device contains at least one module having a first carrier layer and a second carrier layer, an interspace disposed between the first carrier layer and the second carrier layer, and an electrical insulation layer disposed on each of the first carrier layer and on the second carrier
A thermoelectric device contains at least one module having a first carrier layer and a second carrier layer, an interspace disposed between the first carrier layer and the second carrier layer, and an electrical insulation layer disposed on each of the first carrier layer and on the second carrier layer toward the interspace. The thermoelectric device further has a plurality of p and n-doped semiconductor elements, which are arranged alternately in the interspace between the insulation layers and are alternately electrically connected to one another.
대표청구항▼
1. A thermoelectric device, comprising: at least one module having a first carrier layer and a second carrier layer, said first carrier layer and said second carrier layer defining an interspace therebetween;electrical insulation layers disposed on said first carrier layer and on said second carrier
1. A thermoelectric device, comprising: at least one module having a first carrier layer and a second carrier layer, said first carrier layer and said second carrier layer defining an interspace therebetween;electrical insulation layers disposed on said first carrier layer and on said second carrier layer toward said interspace; anda plurality of p and n-doped semiconductor elements, disposed alternately in said interspace between said electrical insulation layers and said p and n-doped semiconductor elements are alternately electrically connected to one another, said p and n-doped semiconductor elements are each configured in an annular shape and having an outer circumferential area and an inner circumferential area, said p and n-doped semiconductor elements connected to said electrical insulation layers by said outer circumferential area and said inner circumferential area, said p and n-doped semiconductor elements each having current transfer areas on said outer circumferential area and on said inner circumferential area, said current transfer areas of said outer circumferential area and of said inner circumferential area of a respective one of said p and n-doped semiconductor elements have the same surface area size. 2. The thermoelectric device according to claim 1, wherein at least one of said first and second carrier layers is formed from a material containing plastic. 3. The thermoelectric device according to claim 1, further comprising a solder material, said p and n-doped semiconductor elements are electrically connected to one another by said solder material on said electrical insulation layers, and at least one of the following conditions is met: said solder material has a solder thickness and a ratio of a height of said semiconductor elements to said solder thickness is greater than 5:1; andsaid solder material has an element selected from the group consisting of active solder and silver solder. 4. The thermoelectric device according to claim 1, wherein said outer circumferential area and said inner circumferential area differ in size and a ratio of said outer circumferential area to said inner circumferential area is up to 3:1. 5. The thermoelectric device according to claim 1, wherein a useful volume of said module is defined as a ratio of a sum of a volume of said semiconductor elements in said module to an encapsulated volume of said module and said useful volume is greater than 90%. 6. The thermoelectric device according to claim 1, wherein said semiconductor elements have an additional electrical insulation layer on side areas facing one another, wherein said additional electrical insulation layer is formed from a material selected from the group consisting of mica and ceramic. 7. The thermoelectric device according to claim 1, wherein a ratio of a height of said semiconductor elements to an insulation layer thickness of said electrical insulation layers is greater than 8:1. 8. The thermoelectric device according to claim 1, wherein said first carrier layer has at least one axial compensation element which compensates for a thermal expansion of said module in an axial direction. 9. The thermoelectric device according to claim 1, wherein said semiconductor elements are disposed obliquely in an axial direction and define at least one axial compensation element, such that a thermal expansion of said module in an axial direction is at least partly converted into a thermal expansion in a radial direction. 10. The thermoelectric device according to claim 1, wherein said at least one module in one of a number of modules, at least a plurality of said modules can be connected to one another in an axial direction. 11. The thermoelectric device according to claim 1, wherein said p and n-doped semiconductor elements are electrically connected to one another in a form of a series circuit exclusively via said solder material. 12. A motor vehicle, comprising: an internal combustion engine;an exhaust gas system;a cooling circuit; anda plurality of thermoelectric devices each containing: a hot side connected to said exhaust gas system;a cold side connected to said cooling circuit;at least one module having a first carrier layer and a second carrier layer, said first carrier layer and said second carrier layer defining an interspace therebetween;electrical insulation layers disposed on said first carrier layer and on said second carrier layer toward said interspace;a plurality of p and n-doped semiconductor elements, disposed alternately in said interspace between said electrical insulation layers and said p and n-doped semiconductor elements are alternately electrically connected to one another, each of said p and n-doped semiconductor elements having an annular shape;said first carrier layer connected to the hot side and said second carrier layer connected to the cold side; andeach of said p and n-doped semiconductor elements having a first contact area connected to one of said electrical insulation layers and said one of said electrical insulation layers is connected to said first carrier layer and a second contact area connected to another one of said electrical insulation layers and said another one of said electrical insulation layers is connected to said second carrier layer, said first and second contact areas having contact surfaces of different surface area sizes, said p and n-doped semiconductor elements each having current transfer areas on said first contact area and on said second contact area, said current transfer areas of said first and second contact areas of a respective one of said p and n-doped semiconductor elements being of a same surface area size.
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이 특허에 인용된 특허 (8)
Hed Aharon Z. (Nashua NH), Cylindrical thermoelectric cells.
Limbeck, Sigrid; Brueck, Rolf, Thermoelectric module with thermal expansion compensation, method for producing a thermoelectric module and thermoelectric generator.
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