LED backlight system for cabinet sign

The invention claimed is: 1. A lighting system for illuminating a sign, the system comprising: a plurality of electrically interconnected modules each module including a double-sided printed circuit board having a length, and at least one light emitting diode (“LED”) electrically connected to the printed circuit board; two or more electrical conductors electrically connecting the plurality of modules; and one or more rails, each of said rails having a width less than the length of said printed circuit board, said rails mechanically connecting adjacent modules in a spaced relationship. 2. The system of claim 1 , wherein the one or more rails comprises a heat sink. 3. The system of claim 1 , wherein said electrical conductors include insulation. 4. The system of claim 1 , further comprising an overmolding covering at least a portion of the front surface of the printed circuit board. 5. The system of claim 1 , wherein each module comprises a plurality of LEDs arranged in a one dimensional array and wherein each of said one or more rails has a length defining an axis at least substantially transverse to an axis of said array. 6. The system of claim 1 , wherein each module comprises a plurality of LEDs arranged in two parallel one dimensional arrays defining a two dimensional array and wherein each of said one or more rails has a length defining an axis at least substantially transverse to an axis of each of said one dimensional arrays. 7. The system of claim 1 wherein the LEDs are equally spaced apart. 8. The system of claim 6 , further comprising three or more modules and wherein the one or more rails mechanically connect adjacent modules to be equidistant from one another. 9. The system of claim 1 , wherein the plurality of electrically interconnected modules form a lattice. 10. The system of claim 1 further comprising an attachment element for securing the lighting system to the frame of a sign. 11. The system of claim 1 comprised of at least two rails and including a connector providing electrical communication between modules of said two rails. 12. The system of claim 1 wherein each of the electrically interconnected modules further includes one or more electrical connectors and one or more mechanical connectors, the one or more electrical conductors electrically connecting the plurality of modules via the one or more electrical connectors, and the one or more rails mechanically connecting adjacent modules via the one or more mechanical connectors. 13. A sign comprising a frame and the lighting system of claim 1 attached to the frame. 14. The sign of claim 13 wherein the plurality of modules are arranged in a row. 15. The sign of claim 13 wherein the plurality of modules are arranged in a column. 16. A backlighting system comprising: a) a first plurality of light emitting modules, each module including: a printed wiring board, a plurality of light emitting diodes electrically connected to the printed wiring board and arranged in each module in a spaced relationship in a first array, an overmolding covering the at least a portion of the printed wiring board; b) wherein the first plurality of light emitting modules are arranged in spaced relationship to one another in a second array such that the relative spacing of the light emitting diodes between adjacent modules is substantially the same as the relative spacing of the light emitting diodes in a given module; c) one or more insulated electrical conductors electrically connecting the first plurality of modules; and d) one or more rails mechanically connecting adjacent modules in the second array; the backlighting system further comprising: a) a second plurality of light emitting modules, each module including: a printed wiring board, a plurality of light emitting diodes electrically connected to the printed wiring board and arranged in each module in a spaced relationship in a third array, an overmolding covering at least a portion of the printed wiring board; b) wherein the second plurality of light emitting modules are arranged in a spaced relationship to one another in a fourth array such that the relative spacing of the light emitting diodes between adjacent modules is substantially the same as the relative spacing of the light emitting diodes in a given module; c) one or more insulated electrical conductors electrically connecting the second plurality of modules; and d) one or more rails mechanically connecting adjacent modules in the fourth array; and wherein the second plurality of modules is arranged relative to the first plurality of modules such that the light emitting diodes of the second plurality of modules are arranged intermediate the light emitting diodes of the first plurality of modules. 17. The backlighting system of claim 16 wherein the one or more rails define the relative spacing between adjacent modules. 18. The backlighting system of claim 16 wherein the fourth array is arranged in spaced relationship to the second array such that the relative spacing of the light emitting diodes between adjacent modules from the first plurality and second plurality is substantially the same as the relative spacing of the light emitting diodes in a given module. 19. The backlighting system of claim 16 wherein the second array and the fourth array are arranged relative to one another in a common plane. 20. The backlighting system of claim 16 wherein the first plurality of light emitting modules is electrically connected to the second plurality of light emitting modules, and further comprising a power supply to electrically energize the first and second plurality of light emitting modules. 21. A backlighting system comprising: a) a first plurality of light emitting modules, each module including: a printed wiring board, a plurality of light emitting diodes electrically connected to the printed wiring board and arranged in each module in a spaced relationship in a first array, an overmolding covering the at least a portion of the printed wiring board; b) wherein the first plurality of light emitting modules are arranged in spaced relationship to one another in a second array such that the relative spacing of the light emitting diodes between adjacent modules is substantially the same as the relative spacing of the light emitting diodes in a given module; c) one or more insulated electrical conductors electrically connecting the first plurality of modules; and d) one or more rails mechanically connecting adjacent modules in the second array; the backlighting system further comprising: a) a second plurality of light emitting modules, each module including: a printed wiring board, a plurality of light emitting diodes electrically connected to the printed wiring board and arranged in each module in a spaced relationship in a third array, an overmolding covering at least a portion of the printed wiring board; b) wherein the second plurality of light emitting modules are arranged in a spaced relationship to one another in a fourth array such that the relative spacing of the light emitting diodes between adjacent modules is substantially the same as the relative spacing of the light emitting diodes in a given module; c) one or more insulated electrical conductors electrically connecting the second plurality of modules; and d) one or more rails mechanically connecting adjacent modules in the fourth array; and wherein the second plurality of modules is arranged relative to the first plurality of module