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In some embodiments, a photovoltaic module includes an active layer, a top layer, and a bottom layer. The active layer includes a plurality of strips of thin-film PV material that are arranged spaced apart from and substantially parallel to each other. The top layer is disposed above the active laye

In some embodiments, a photovoltaic module includes an active layer, a top layer, and a bottom layer. The active layer includes a plurality of strips of thin-film PV material that are arranged spaced apart from and substantially parallel to each other. The top layer is disposed above the active layer and includes a substantially transparent film. The bottom layer is disposed below the active layer, the bottom layer including a conductive backsheet configured to form a current return path for the strips of thin-film PV material. The PV module further includes means for serially and redundantly interconnecting the strips of thin-film PV material together.

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1. A photovoltaic module, comprising: an active layer including a plurality of strips of thin-film photovoltaic material that are arranged spaced apart from and substantially parallel to each other, each of the plurality of strips being continuous substantially the entire length of the photovoltaic

1. A photovoltaic module, comprising: an active layer including a plurality of strips of thin-film photovoltaic material that are arranged spaced apart from and substantially parallel to each other, each of the plurality of strips being continuous substantially the entire length of the photovoltaic module;a top layer disposed above the active layer, the top layer including a substantially transparent film;means for serially and redundantly interconnecting the strips of thin-film photovoltaic material together;a bottom layer disposed below the active layer, the bottom layer including an electrically conductive backsheet electrically connecting a first outer strip of thin-film photovoltaic material and a second outer strip of thin-film photovoltaic material to form a current return path for the strips of thin-film photovoltaic material;an electronic circuit layer electrically connected between the first outer strip of thin-film photovoltaic material and the electrically conductive backsheet; anda substantially electrically insulating material disposed between the electrically conductive backsheet and the plurality of strips of thin-film photovoltaic material; wherein:the electronic circuit layer is electrically connected to a to surface of the first outer strip of thin-film photovoltaic material and the electrically conductive backsheet is electrically connected to a substrate on a bottom surface of the second outer strip of thin-film photovoltaic material; orthe electronic circuit layer is electrically connected to a substrate on a bottom surface of the first outer strip of thin-film photovoltaic material and the electrically conductive backsheet is electrically connected to a top surface of the second outer strip of thin-film photovoltaic material. 2. The photovoltaic module of claim 1, wherein a length of each of the strips of thin-film photovoltaic material is in a range of 20 feet to 40 feet and an aspect ratio of the photovoltaic module is in a range of 6 to 50. 3. The photovoltaic module of claim 1, wherein the substantially transparent film has a thickness in a range of 15 microns to 300 microns, and wherein the substantially transparent film includes a weatherability film and a barrier layer film. 4. The photovoltaic module of claim 1, wherein the means for serially and redundantly interconnecting includes a plurality of top layer conductive strips laminated to a bottom surface of the top layer and interposed between the strips of thin-film photovoltaic material. 5. The photovoltaic module of claim 4, wherein the means for serially and redundantly interconnecting further includes at least one of: a power collection macro grid intermittently formed on a bottom surface of the top layer, the bottom surface of the top layer being configured to contact an upper surface of each of the strips of thin-film photovoltaic material, wherein each area of the power collection macro grid includes a plurality of interconnected grid lines of conductive material, the plurality of interconnected grid lines of conductive material being between 50 microns to 200 microns wide and 50 microns to 200 microns deep, each area of the power collection macro grid configured to contact and collect power from an underlying strip of thin-film photovoltaic material; ora power collection nano grid intermittently formed on the bottom surface of the top layer, wherein each area of the power collection nano grid includes a plurality of conductive nano particles arranged in an interconnected network of conductive traces, each area of the power collection nano grid configured to contact and collect power from an underlying strip of thin-film photovoltaic material. 6. The photovoltaic module of claim 5, wherein each of the plurality of top layer conductive strips at least partially overlaps at least one of an adjacent area of the power collection macro or nano grid such that one lengthwise edge of each of the plurality of top layer conductive strips is connected to at least one of an adjacent area of the power collection macro or nano grid. 7. The photovoltaic module of claim 4, wherein the means for serially and redundantly interconnecting further includes a plurality of bottom layer conductive strips laminated to a top surface of the bottom layer, each of the plurality of bottom layer conductive strips being at least partially disposed beneath a corresponding one of the plurality of top layer conductive strips and an adjacent one of the plurality of strips of thin-film photovoltaic material, each strip of thin-film photovoltaic material including a substrate connected to a bottom layer conductive strip and a transparent conducting oxide connected to a top layer conductive strip such that the strips of thin-film photovoltaic material a serially and redundantly interconnected. 8. The photovoltaic module of claim 7, wherein each of the plurality of top layer conductive strips at least partially overlaps an adjacent one of the plurality of strips of thin-film photovoltaic material, a bottom surface of each top layer conductive strip directly contacting the transparent conducting oxide of an adjacent strip of thin-film photovoltaic material. 9. The photovoltaic module of claim 7, wherein the plurality of top and bottom layer conductive strips comprise metal, the photovoltaic module further comprising a visco-elastic material disposed between the plurality of bottom layer conductive strips and the plurality of top layer conductive strips, the plurality of top and bottom layer conductive strips and visco-elastic material forming a constrained layer damper. 10. The photovoltaic module of claim 4, wherein at least one of the plurality of top layer conductive strips have conductivity ranging from 10−6 to 10−8 ohm-meters;the plurality of top layer conductive strips include at least one of aluminum, stainless steel, copper, tin, or non-stainless low carbon steel;the plurality of top layer conductive strips include a coating of nickel, aluminum, copper, tin, silver, or strained layers of polyethylene terephthalate; oreach of the plurality of top layer conductive strips is configured to be plastically deformed. 11. The photovoltaic module of claim 1, wherein: the bottom layer includes a plurality of bottom layer conductive strips laminated to a top surface of the bottom layer;each bottom layer conductive strip overlaps two corresponding adjacent strips of thin-film photovoltaic material;an isolation material is disposed between the plurality of bottom layer conductive strips and plurality of strips of thin-film photovoltaic material in areas of overlap;a first longitudinal edge of each bottom layer conductive strip is connected through at least one contact strip to a substrate on a bottom surface of one of the corresponding adjacent strips of thin-film photovoltaic material in the area of overlap of the first longitudinal edge;the means for serially and redundantly interconnecting includes a plurality of gimbal strips laminated to a bottom surface of the top layer, each gimbal strip configured to discretely connect a second longitudinal edge of each bottom layer conductive strip to a transparent conducting oxide of the other one of the corresponding adjacent strips of thin-film photovoltaic material. 12. The photovoltaic module of claim 1, wherein: the top layer includes a plurality of stitched contact strips configured to connect each of a plurality of bottom layer conductive strips to a transparent conducting oxide of an adjacent strip of thin-film photovoltaic material;each stitched contact strip comprises a wire arranged in a stitch pattern, the wire having a diameter in a range of 12 microns to 75 microns;each wire comprises at least one of copper, gold, aluminum, or tin; andeach stitched contact strip includes a plurality of contact points, at least some of the contact points configured to contact a bottom layer conductive strip and at least some of the contact points configured to contact the transparent conducting oxide of an adjacent strip of thin-film photovoltaic material. 13. The photovoltaic module of claim 1, wherein the top layer includes a plurality of stitched contact strips, a stitch pattern of each stitched contact strip variably encroaching over an underlying flexible strip of thin-film photovoltaic material along the length of the stitched contact strip. 14. The photovoltaic module of claim 1, wherein: the bottom layer includes a plurality of bottom layer conductive strips laminated to a top surface of the bottom layer and at least partially aligned between the plurality of strips of thin-film photovoltaic material;each bottom layer conductive strip overlaps an adjacent strip of thin-film photovoltaic material;a conductive material is disposed between a top surface of each bottom layer conductive strip and a substrate on a bottom surface of each strip of thin-film photovoltaic material in areas of overlap; andthe conductive material comprises one or more of conductive adhesive, conductive epoxy, or conductive tape. 15. The photovoltaic module of claim 1, wherein the electronic circuit layer includes an input bus, a current return bus and a conditioned output bus, the photovoltaic module further comprising a plurality of redundant power conversion circuits connected to each other in parallel between the input bus, current return bus and the conditioned output bus. 16. The photovoltaic module of claim 1, wherein the electronic circuit layer is fabricated within and during fabrication of the photovoltaic module and wherein the redundant power conversion circuits are housed within discrete housings, the discrete housings within and redundant power conversion circuits being attached to the photovoltaic module after completion of photovoltaic module fabrication. 17. The photovoltaic module of claim 1, wherein the substantially electrically insulating material includes at least one of polyethylene terephthalate or poly methyl methacrylate. 18. The photovoltaic module of claim 1, wherein the conductive backsheet comprises less than three non-metal laminated films and wherein an exposed surface of the conductive backsheet is black and has an emissivity greater than 0.6. 19. The photovoltaic module of claim 1, wherein the conductive backsheet comprises an exposed electrical ground. 20. The photovoltaic module of claim 1, wherein lengths of the plurality of strips of thin-film photovoltaic material are substantially equal, widths of the plurality of strips of thin-film photovoltaic material are different from one strip to another, and the current output of each strip under uniform lighting conditions is substantially equal. 21. The photovoltaic module of claim 1, wherein the bottom layer and top layer extend beyond the edges of the plurality of strips of thin-film photovoltaic material.