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A thermoelectric assembly is disclosed, the assembly having a cold side and a hot side, where the hot side comprises a single fan sink and the cold side comprises dual fan sinks. Thermoelectric modules may be between the hot side and cold side and arranged in one circuit or multiple parallel circuit

A thermoelectric assembly is disclosed, the assembly having a cold side and a hot side, where the hot side comprises a single fan sink and the cold side comprises dual fan sinks. Thermoelectric modules may be between the hot side and cold side and arranged in one circuit or multiple parallel circuits, and in direct thermal contact with both the hot side and the cold side. The assembly may include one or more moisture barrier measures, including a wire seal, a series of screw O-rings, and a sealing layer.

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1. A thermoelectric assembly comprising: a cold side and a hot side;the assembly further comprising a fan sink on the hot side, and a pair of fan sinks on the cold side;wherein each fan sink comprises a heat sink and a fan, each fan comprising a blade, and each heat sink comprising a heat sink base

1. A thermoelectric assembly comprising: a cold side and a hot side;the assembly further comprising a fan sink on the hot side, and a pair of fan sinks on the cold side;wherein each fan sink comprises a heat sink and a fan, each fan comprising a blade, and each heat sink comprising a heat sink base and a fin set disposed on the heat sink base, each fin set comprising a plurality of fins aligned in an exhaust direction, wherein each fan sink is associated with an air intake direction defined by an axis about which the blade is rotatably attached to the fan;the assembly further comprising a plurality of thermoelectric modules, the thermoelectric modules being arranged in at least one electrical circuit and in thermal contact with the heat sink bases of the fan sinks; andwherein the angle defined by the exhaust directions of the pair of fan sinks on the cold side is selected from the group consisting of zero degrees, ninety degrees, and one hundred eighty degrees. 2. The thermoelectric assembly of claim 1, further comprising an electric bay between the pair of fan sinks on the cold side. 3. The thermoelectric assembly of claim 1, wherein: a boundary between the hot side and the cold side is generally defined by a plane; andthe exhaust directions are parallel to the plane; andthe air intake directions of the pair of fan sinks on the cold side are substantially parallel vectors. 4. The thermoelectric assembly of claim 1, further comprising at least one moisture barrier measure selected from the group consisting of a wire seal, a series of screw O-rings, and a sealing layer. 5. The thermoelectric assembly of claim 1, further comprising a wire seal including a head having one or more holes through which a wire may pass into a lead, each hole comprising a membrane. 6. The thermoelectric assembly of claim 5, wherein the head comprises a series of holes selected from the group consisting of: three holes arranged in a 1×3 matrix, and six holes arranged in a 2×3 matrix. 7. The thermoelectric assembly of claim 1, comprising a wire seal, a series of screw O-rings, and a sealing layer. 8. The thermoelectric assembly of claim 1, comprising eight thermoelectric modules, the thermoelectric modules being arranged in a one of a plurality of parallel circuits selected from the group consisting of eight circuits of one thermoelectric module each, four circuits of two thermoelectric modules each, and two circuits of four thermoelectric modules each. 9. The thermoelectric assembly of claim 1, wherein: the thermoelectric assembly includes a plurality of fan sinks on the hot side; and/orthe thermoelectric assembly includes two fan sinks on the hot side that have opposite exhaust directions; and/orthe thermoelectric assembly includes three fan sinks on the cold side. 10. The thermoelectric assembly of claim 1, wherein: the heat sinks comprise a material selected from the group consisting of a thermoplastic, anodized aluminum, or copper; and/orat least one of the heat sinks comprises a material that has been skived to create the fins. 11. A thermoelectric assembly comprising: a first fan sink, a second fan sink, and a third fan sink;wherein each fan sink comprises a heat sink and a fan, each fan comprising a blade, and each heat sink comprising a heat sink base and a fin set disposed on the heat sink base, each fin set comprising a plurality of fins being aligned in an exhaust direction, wherein each fan sink is associated with an air intake direction defined by an axis about which the blade is rotatably attached to the fan;the assembly further comprising a plurality of thermoelectric modules;where the heat sink base of the first fan sink is in thermal contact with a first side of each of the thermoelectric modules, and where the second fan sink is in thermal contact with a second side of half of the thermoelectric modules, and where the third fan sink is in thermal contact of the second side of the other half of the thermoelectric modules; andwherein the angle defined by the exhaust directions of the second and third fan sinks is selected from the group consisting of zero degrees, ninety degrees, and one hundred eighty degrees. 12. The thermoelectric assembly of claim 11, further comprising an electric bay between the second and third fan sinks. 13. The thermoelectric assembly of claim 11, further comprising at least one moisture barrier measure selected from the group consisting of a wire seal, a series of screw O-rings, and a sealing layer. 14. The thermoelectric assembly of claim 11, wherein the plurality of thermoelectric modules comprises an even number of thermoelectric modules, the thermoelectric modules being arranged in two parallel electrical circuits each consisting of an equal number of thermoelectric modules, where the thermoelectric modules reside in a plane defined by the first fan sink on one side of the plane and the second and third fan sinks on the other side of the plane. 15. The thermoelectric assembly of claim 11, wherein the air intake directions of the first fan sink is a substantially parallel vector from that of the second fan sink and the third fan sink. 16. The thermoelectric assembly of claim 11, further comprising a wire seal including a head having one or more holes through which a wire may pass into a lead, each hole comprising a membrane. 17. The thermoelectric assembly of claim 16, wherein the head comprises three holes arranged in a 1×3 matrix or six holes arranged in a 2×3 matrix. 18. The thermoelectric assembly of claim 11, comprising eight thermoelectric modules, the thermoelectric modules being arranged in a series of parallel circuits selected from the group consisting of eight circuits of one thermoelectric module each, four circuits of two thermoelectric modules each, and two circuits of four thermoelectric modules each. 19. The thermoelectric assembly of claim 11, wherein: the heat sinks comprise a material selected from the group consisting of a thermoplastic, anodized aluminum, or copper; and/orat least one of the heat sinks comprises a material that has been skived to create the fins. 20. A thermoelectric assembly comprising: a plurality of fan sinks including a hot side fan sink and a plurality of cold side fan sinks, each fan sink comprising; a heat sink including a heat sink base and heat sink fins extending at least in a first air flow direction; anda fan oriented with an axis of rotation along a second air flow direction generally oriented with respect to the heat sink such that when air flows in the second air flow direction, air also flows in the first air flow direction;a plurality of thermoelectric modules electrically coupled to a power source, each thermoelectric module being in thermal contact with the hot side fan sink and at least one cold side fan sink; andwherein the first air flow direction for each cold side fan sink has an angle with regard to the first air flow direction of another cold side fan sink, the angle being selected from the group consisting of zero degrees, ninety degrees and one hundred eighty degrees. 21. The thermoelectric assembly of claim 20, further comprising an electric bay between a pair of the cold side fan sinks. 22. The thermoelectric assembly of claim 20, further comprising a moisture barrier measure. 23. The thermoelectric assembly of claim 20, wherein: the thermoelectric assembly is operable for enhancing thermal communication across a conceptual boundary plane having a hot side and a cold side;the heat sink fins of each fan sink are generally parallel and extend at least in the first air flow direction generally parallel to the boundary plane;the fan of each fan sink is oriented with the axis of rotation along the second air flow direction generally perpendicular to the boundary plane; andthe second air flow direction for each fan sink is substantially parallel to the second air flow direction of another fan. 24. The thermoelectric assembly of claim 20, wherein the first air flow direction is an exhaust air flow direction and the second air flow direction is a fan intake air direction. 25. The thermoelectric assembly of claim 20, wherein: the thermoelectric assembly includes a plurality of hot side fan sinks; and/orthe thermoelectric assembly includes two hot side fan sinks that have opposite exhaust directions; and/orthe thermoelectric assembly includes three fan sinks on the cold side; and/orat least one of the heat sinks comprises a material that has been skived to create the heat sink fins. 26. The thermoelectric assembly of claim 20, wherein: the heat sink of the hot side fan sink comprises a material that has been skived to create the heat sink fins; andthe heat sink of at least two of the plurality of cold side fan sinks comprises a material that has been skived to create the heat sink fins.