Monolithic bracket for flat roof mounted photovoltaic modules

What is claimed is: 1. An integral, monolithic mounting bracket for supporting a corner of a photovoltaic (PV) module, the bracket comprising: a ballast tray for holding one or more ballast blocks; a plurality of monolithic support legs that are disposed at an acute angle from a plane of the ballast tray and that are integral with the ballast tray; and a plurality of clamp assemblies, each clamp assembly comprising a bolt and a clamp; wherein each clamp comprises a plurality of sharp points for piercing a non-conductive coating of a photovoltaic module frame and creating an electrical bonding path; wherein each support leg comprises a plurality of integral, monolithic module mounting tabs, wherein each tab defines a hole for receiving a fastener from a clamping assembly. 2. An integral, monolithic mounting bracket for supporting a corner of a photovoltaic (PV) module, the bracket comprising: a ballast tray for holding one or more ballast blocks; a plurality of monolithic support legs that are disposed at an acute angle from a plane of the ballast tray and that are integral with the ballast tray; and five module mounting tabs per support leg, with three tabs being oriented at a shallow angle with respect to a horizontal plane and pointed towards a first end of the bracket, and with two tabs being oriented at the same shallow angle with respect to the horizontal plane and pointed towards a second end of the bracket opposite to the first end of the bracket; wherein each support leg comprises a plurality of integral, monolithic module mounting tabs, wherein each tab defines a hole for receiving a fastener from a clamping assembly. 3. An integral, monolithic mounting bracket for supporting a corner of a photovoltaic module, the bracket comprising: a ballast tray for holding one or more ballast blocks defining a plurality of empty spaces; and a plurality of monolithic support legs, having shapes substantially corresponding to the plurality of empty spaces, that are disposed at an acute angle from a horizontal plane of the ballast tray and that are integral with the ballast tray, wherein the legs lean inwards towards a center of the bracket; and a plurality of metallic clamp assemblies to clamp the photovoltaic module in place on the support legs, each clamp assembly attached to the support leg with a bolt and a clamp; wherein the acute angle ranges from 75-89 degrees; wherein the bracket is symmetric across a plane of symmetry that: (a) is oriented perpendicular to the plane of the ballast tray, and (b) is located in a middle of the ballast tray; wherein two or more brackets are stackable in a nested group; wherein the bracket is made of sheet metal; and wherein each clamp comprises a plurality of rigid sharp metallic points for piercing a non-conductive anodized aluminum coating of a photovoltaic module frame and creating an electrical bonding path. 4. An integral, monolithic mounting bracket for supporting a corner of a photovoltaic module, the bracket comprising: a ballast tray for holding one or more ballast blocks; and a plurality of monolithic support legs that are disposed at an acute angle from a plane of the ballast tray and that are integral with the ballast tray; wherein the acute angle is 85 degrees; wherein two or more brackets are stackable in a nested group; wherein the bracket is made of galvanized steel sheet metal; wherein each support leg comprises a plurality of vertical stiffening ribs; wherein the ballast tray comprises a plurality of horizontal stiffening ribs; further comprising a pair of vertical edges disposed on a perimeter of the ballast tray; wherein each support leg comprises a plurality of integral, monolithic module mounting tabs, each tab defining a hole for receiving a fastener from a clamping assembly; wherein each module mounting tab is angled at a shallow angle with respect to the plane of the ballast tray, wherein the shallow angle is 5 degrees; wherein each module mounting tab is oriented perpendicular to its support leg; wherein the ballast tray defines a plurality of leftover empty spaces in the ballast tray corresponding to material that is stamped and bent-up for the support legs; further comprising a plurality of clamp assemblies, each clamp assembly comprising a bolt and a clamp; wherein each clamp comprises a plurality of sharp points for piercing a non-conductive coating of a PV module frame and creating an electrical bonding path; and further comprising a side mount support flange disposed vertically on a side of a support leg and oriented perpendicular to said leg. 5. The integral, monolithic mounting bracket of claim 4 , wherein the bracket is symmetric across a plane of symmetry that: (a) is oriented perpendicular to the plane of the ballast tray, (b) is oriented parallel to a first direction, and (c) is located in a middle of the ballast tray. 6. The integral, monolithic mounting bracket of claim 4 , wherein the bracket is symmetric across a plane of symmetry that: (a) is oriented perpendicular to the plane of the ballast tray, and (b) is located in a middle of the ballast tray. 7. The integral, monolithic mounting bracket of claim 6 , and wherein the bracket is also symmetric across a plane of symmetry that: (a) is oriented perpendicular to the plane of the ballast tray, (b) is oriented parallel to a second direction perpendicular to the first direction, and (c) is located in the middle of the ballast tray. 8. A method of forming an integral, monolithic mounting bracket for supporting a corner of a photovoltaic module and clamping the photovoltaic module in place, the method comprising: (a) providing a rectangular-shaped sheet of metal, the sheet defining a plane; (b) stamping at least two identical sections of metal from the sheet, with each section being cut along three sides, leaving an uncut fourth side remaining, in a pattern that leaves a continuous rim of metal along a perimeter of the sheet; (c) bending-up each section on its remaining uncut fourth side into a near-vertical position to form a ballast tray defining a plurality of empty spaces, whereby each bent-up section forms a monolithic support leg inclined inwards toward another monolithic support leg, having a shape substantially corresponding to one of the plurality of empty spaces, disposed at an acute angle from a plane disposed inside of a ballast tray, and forming the bracket with the ballast tray for holding one or more ballast blocks and mounting tabs angled at a shallow angle with respect to a horizontal plane; and (d) clamping the photovoltaic module in place on the support legs with a plurality of clamp assemblies, each clamp assembly attached to a support leg with a bolt and a clamp comprising a plurality of rigid, sharp points for piercing a non-conductive coating of a photovoltaic module frame and creating an electrical bonding path. 9. The method of claim 8 , further comprising: (d) bending-down a plurality of mounting tabs at an angle that is perpendicular to a corresponding support leg, and (e) drilling a hole through each mounting tab for receiving a bolt of a clamping assembly. 10. An integral, monolithic mounting bracket for support a corner of a photovoltaic (PV) module, the bracket comprising: a ballast tray for holding one or more ballast blocks; a plurality of monolithic support legs that are disposed at an acute angle from a horizontal plane disposed inside of the ballast tray, and that are integral with the ballast tray; and a plurality of clamping assemblies, each clamping assembly comprising a bolt and a clamp; wherein each clamp comprises a plurality of sharp points for piercing a non-conductive coating of a photovoltaic module frame and