Flexible solar roofing modules

The invention claimed is: 1. A roofing photovoltaic (PV) module comprising: a first PV tile area comprising a first protective layer overlaying a first plurality of solar cells; a second PV tile area comprising a second protective layer overlaying a second plurality of solar cells; a third PV tile area, comprising a third protective layer overlaying a third plurality of solar cells, wherein the first, second, and third protective layers are arranged linearly to form an elongated roofing module, with the first PV tile area adjacent to the second PV tile area, and with the second PV tile area adjacent to the third PV tile area; a first flexible joint, electrically and structurally connecting the first PV tile area and the second PV tile area, wherein the first and second protective layers are separated by a gap and the first flexible joint spans the gap and bends to accommodate rotation of the first protective layer relative to the second protective layers within 5° measured from an unbent configuration; a second flexible joint, electrically and structurally connecting the second PV tile area and the third PV tile area, wherein the second and third protective layers are separated by a gap and the second flexible joint spans the gap and bends to accommodate rotation of the third protective layer relative to the second protective layer within 5° measured from an unbent configuration; a plurality of local bus bars, wherein a pair of the local bus bars are positioned on either side of the first flexible joint and a pair of the local bus bars are positioned on either side of the second flexible joint, adapted to electrically interconnect each of the PV tile areas into a series circuit; and a pair of outlet bus bars, one outlet bus bar each electrically connected to opposite ends of the series circuit, and forming respective V+ and V− power outputs, wherein the roofing PV module is configured for installation on a roof and the flexible joints have sufficient resilience to withstand the roofing PV module being walked on during installation, wherein the roofing PV module is configured to attach to other roofing PV modules to provide a substantially watertight seal for a roof surface. 2. The roofing PV module of claim 1 , wherein the first flexible joint and the second flexible joint each comprise a ribbon wire. 3. The roofing PV module of claim 2 , wherein each of the plurality of solar cells comprises two paired solar cells, and wherein the plurality of local bus bars comprise a bus bar on the left side and on the right side of each PV pairing of solar cells. 4. The roofing PV module of claim 1 , wherein the first flexible joint and the second flexible joint each comprise a copper foil interconnection. 5. The roofing PV module of claim 4 , wherein the copper foil interconnection is electrically connected to and spans the gap between two adjacent PV tile areas, wherein the section of the copper foil interconnection spanning the gap is covered with a dielectric material. 6. The roofing PV module of claim 4 , wherein the copper foil interconnection is electrically connected to and spans the gap between two adjacent PV tile areas, wherein the sections of the copper foil connected to the two PV tile areas are covered with a tin coating. 7. The roofing PV module of claim 4 , wherein the copper foil has a thickness of from about 0.1 mm to about 0.4 mm. 8. The roofing PV module of claim 1 , wherein the first second and third protective layers are each sheets of glass. 9. The roofing PV module of claim 1 , wherein the first flexible joint and the second flexible joint each have a strain-life of about 30,000 cycles for a range of motion of up to 5°. 10. The roofing PV module of claim 1 , wherein the first flexible joint and the second flexible joint each have a strain-life of about 1,000 cycles for a range of motion of up to 15°. 11. The roofing PV module of claim 1 , further comprising a fourth PV tile area, arranged linearly with and adjacent to the third PV tile area. 12. The roofing PV module of claim 11 , further comprising a fifth PV tile area, arranged linearly with and adjacent to the fourth PV tile area. 13. A roofing photovoltaic (PV) module comprising: a first PV tile area comprising a first protective layer overlaying a first plurality of solar cells; a second PV tile area comprising a second protective layer overlaying a second plurality of solar cells; a third PV tile area comprising a third protective layer overlaying a third plurality of solar cells, the first protective layer, second protective layer, and third protective layer being arranged linearly to form an elongated roofing module, with the first PV tile area adjacent to the second PV tile area, and with the second PV tile area adjacent to the third PV tile area; a first flexible joint, electrically and structurally connecting the first PV tile area and the second PV tile area wherein the first and second protective layers are separated by a gap and the first flexible joint spans the gap and bends to accommodate rotation of the first protective layer relative to the second protective layers; a second flexible joint, electrically and structurally connecting the second PV tile area and the third PV tile area, wherein the second and third protective layers are separated by a gap and the second flexible joint spans the gap and bends to accommodate rotation of the second protective layer relative to the third protective layer wherein the first flexible joint and the second flexible joint each have a strain-life of about 1,000 cycles for a range of motion of up to 5°; a plurality of local bus bars, wherein a pair of the local bus bars are positioned on either side of the first flexible joint and a pair of the local bus bars are positioned on either side of the second flexible joint, adapted to electrically interconnect each of the PV tile areas into a series circuit; and a pair of outlet bus bars, one outlet bus bar each electrically connected to opposite ends of the series circuit, and forming respective V+ and V− power outputs, wherein the roofing PV module is configured for installation on a roof and the flexible joints has sufficient resilience to withstand the roofing PV module being walked on during installation, wherein the roofing PV module is configured to attach to other roofing PV modules to provide a substantially watertight seal for a roof surface. 14. The roofing PV module of claim 13 , wherein the first flexible joint and the second flexible joint each comprise a ribbon wire. 15. The roofing PV module of claim 14 , wherein each PV tile area comprises two paired solar cells, and wherein the plurality of local bus bars comprise a bus bar on the left side and on the right side of each PV pairing of solar cells. 16. The roofing PV module of claim 13 , wherein the first flexible joint and the second flexible joint each comprise a copper foil interconnection. 17. The roofing PV module of claim 16 , wherein each PV tile area comprises two paired solar cells, and wherein the pair of outlet bus bars comprise a bus bar on the right side of the solar cells in the first PV tile area and a bus bar on left side of the solar cells in the third PV tile area. 18. The roofing PV module of claim 16 , wherein the copper foil interconnection is electrically connected to and spans a gap between two adjacent PV tile areas, wherein the section of the copper foil spanning the gap is covered with a dielectric material. 19. The roofing PV module of claim 16 , wherein the copper foil interconnect