Woven thermoelectric ribbon

The invention claimed is: 1. A woven structure comprising: a plurality of thermoelectric ribbons interwoven with yarn or thread, each of the plurality of thermoelectric ribbons comprising a folded matrix, the folded matrix comprising an insulating substrate, at least three rows of thermoelectric elements disposed on the substrate, a plurality of conductive elements, a first matrix terminal and a second matrix terminal, wherein the conductive elements are disposed on the substrate and operably connected to form a series connection of the thermoelectric elements from the first matrix terminal to the second matrix terminal; wherein a set of first conductive elements have a first temperature and a set of second conductive contacts have a second temperature lower than the first temperature when a first current flows in a first direction between the first matrix terminal and the second matrix terminal, and wherein the folded matrix is configured to form spaced-apart alternating stacks of the first conductive contacts and second conductive contacts; wherein each length of the yard or thread is interwoven such that it passes alternately under stacks of first conductive contacts and over stacks of second conductive contacts; wherein each folded matrix includes the at least three rows of thermoelectric elements forming stacks of the thermoelectric elements, each stack having at least three thermoelectric elements; and wherein each stack of the at least three thermoelectric elements includes insulating material of the substrate disposed between each adjacent pair of the at least three thermoelectric elements in the stack. 2. The woven structure of claim 1 , wherein the woven structure has a first side and a second side, and wherein each of a plurality of threads or lengths of yarns is woven such that in at least a portion of the woven structure, all of the first conductive contacts are nearer the first side than the second side, and all of the second conductive contacts are nearer the second side than the first side. 3. The woven structure of claim 1 , wherein a first thermoelectric ribbon includes a plurality of the stacks of thermoelectric elements interleaved between a respective first conductive element of the set of first conductive elements and a respective second conductive element of the set of second conductive elements. 4. The woven structure of claim 3 , wherein each of the plurality of stacks of thermoelectric elements is disposed at least in part laterally between adjacent lengths of yarn or thread. 5. The woven structure of claim 1 , wherein each of the plurality of thermoelectric ribbons comprises a plurality of the folded matrices serially connected. 6. The woven structure of claim 1 , wherein the substrate has a thickness of approximately 1 micron or less. 7. The woven structure of claim 1 , wherein adjacent pairs of the plurality of thermoelectric ribbons interwoven with the yarn or thread extend in a substantially parallel manner. 8. The woven structure of claim 1 , wherein adjacent stacks of the at least three thermoelectric elements are connected by a stack of at least three conductors. 9. A woven thermoelectric assembly, comprising: a plurality of threads; a plurality of thermoelectric ribbons interwoven with the plurality of threads, each of the plurality of thermoelectric ribbons forming a folded matrix, each folded matrix comprising, a first flexible substrate having an array of thermoelectric elements, the array including a plurality of rows, each row having a plurality of the thermoelectric elements, at least two of the plurality of rows folded to form a stack of at least three of the plurality of rows, wherein each row has alternating p-type thermoelectric elements and n-type thermoelectric elements coupled in series, and wherein the rows are electrically serially connected; wherein the plurality of thermoelectric ribbons are woven with the plurality of threads such that the threads create a vertical separation between a first side to a second side of each of the p-type thermoelectric elements and n-type thermoelectric elements; wherein each folded matrix includes stacks of thermoelectric elements of the array of thermoelectric elements, each stack of thermoelectric elements having at least three thermoelectric elements; and wherein each stack of the at least three thermoelectric elements includes insulating material of the substrate disposed between each adjacent pair of the at least three thermoelectric elements in the stack. 10. The woven structure of claim 9 , wherein the first flexible substrate has a thickness of approximately 1 micron or less. 11. The woven structure of claim 10 , wherein the first flexible substrate comprises polyethylene. 12. The woven structure of claim 10 , wherein each of the n-type elements and p-type elements has a thickness in the range of 2 to 10 microns, and each thread has a diameter of 10 to 100 microns.