Electric power connector for aircraft drive wheel drive system

The invention claimed is: 1. An aircraft electric power distribution system designed to provide a simple and reliable unitary connection between a source of electric power on an aircraft and multiple electrical connections in an electric drive motor assembly mounted to drive aircraft nose or main landing gear wheels and move the aircraft autonomously on the ground without reliance on aircraft engines or external vehicles, comprising: a. an electric drive motor assembly mounted within a space between an inboard wheel wall adjacent to a landing gear strut and an outboard wheel wall in an aircraft nose or main landing gear coaxially with said landing gear wheel on a landing gear axle, said electric drive motor assembly comprising at least a rotor and a stator having a plurality of windings with a multiplicity of individual wires connected at one end to said stator and at an opposite end to a source of electric power on the aircraft; b. a toroidal planar power distribution assembly mounted adjacent to and interiorly of the inboard wheel wall on the landing gear axle coaxially with said electric drive motor assembly comprising a number of spaced parallel planar toroidal power distribution elements with surfaces facing said stator, each said planar toroidal power distribution element supporting on the facing surface a selected number of connections to said opposite ends of a selected number of the multiplicity of individual wires; and c. a single central connector positioned to connect electrically with all of said selected number of connections on said facing surfaces of each said planar toroidal power distribution element and to form a single electrical connection from each of said number of planar toroidal power distribution elements, wherein all of said central connectors from all of the planar toroidal power distribution elements are positioned to extend through said inboard wheel wall and into a central connector orientation guide exterior to said inboard wheel wall to connect with a unitary connector providing a single secure electrical connection to the aircraft source of electric power. 2. The system of claim 1 , wherein a number of said one or more spaced parallel planar toroidal power distribution elements in said planar power distribution assembly is selected to reduce a number of electrical connections between said plurality of stator windings and said unitary connector to a single connection with said aircraft source of electric power. 3. The system of claim 2 , wherein said plurality of stator windings comprises 18 of said multiplicity of wires connected to said stator windings and said number of electrical connections between said plurality of stator windings and said unitary connector through said toroidal planar power distribution assembly is reduced to three electrical connections. 4. The system of claim 1 , wherein each of said planar power distribution elements comprises a toroidal planar disc supporting the selected number of connections on said facing surface, each of said connections comprising an integral connector configured to connect at one extent to a single wire connected to one of said plurality of windings and at an opposite extent to said single central connector, and said selected number of connections is less than said plurality of windings. 5. The system of claim 4 , wherein each of said planar toroidal power distribution elements comprises a printed circuit board and each of said selected number of connections comprises a trace corresponding to each integral connector printed on said circuit board. 6. The system of claim 5 , wherein each printed trace has a width dimension of 0.200 inches (5.08 millimeters) and is separated from an adjacent trace by a distance of about 1.57 inches (40.0 millimeters). 7. The system of claim 5 , wherein said printed circuit board comprises a high temperature glass-reinforced epoxy laminate covered with copper foil and said selected number of connections comprise soldered connections or mechanical connections. 8. The system of claim 4 , wherein said planar power distribution assembly comprises three planar toroidal power distribution elements and said plurality of stator windings comprises a multiplicity of 18 wires connected to said power distribution assembly, wherein each of said three planar toroidal power distribution elements is directly to connected to six of said 18 wires and said selected number of connections between said plurality of stator windings and said unitary connector comprises three. 9. The system of claim 4 , wherein said integral connectors have different lengths and are spaced circumferentially on each parallel planar toroidal power distribution element and connections between said integral connectors and said multiplicity of individual wires are formed at circumferentially spaced locations corresponding to the lengths of the integral connectors. 10. The system of claim 1 , wherein a total number of said planar toroidal power distribution elements in said planar power distribution assembly is selected so that said selected number of connections supported on each said planar toroidal power distribution element comprises a selected fraction of said connections to said multiplicity of individual wires, and the total number of said planar toroidal power distribution elements provides all of the electrical connections needed to connect said plurality of windings to said planar power distribution assembly. 11. The system of claim 1 , wherein said unitary connector has a configuration that forms a secure electrical connection with a wire harness electrically connected to said aircraft electric power source and facilitates disconnection from and reconnection to said wire harness as needed. 12. The system of claim 1 , wherein said central connector orientation guide is attached exteriorly to a planar inboard landing gear wheel structure to receive all of said central connectors and is configured to direct all of said central connectors from a coaxial orientation parallel to a landing gear axle to a perpendicular orientation parallel to said landing gear strut to terminate at said unitary connector and form the secure electrical connection with the source of aircraft power through connection of the unitary connector and an aircraft wire harness. 13. An electric power connector assembly located in an aircraft landing gear designed to reduce the number of electrical connections required to provide a supply of electric power from a source of electric power on an aircraft to an electric drive means mounted to power an aircraft landing gear drive wheel to move the aircraft autonomously on the ground without aircraft engines of tow vehicles, comprising a. a power distribution assembly in electrical connection with stator windings in a stator in an electric drive means mounted to power an aircraft landing gear drive wheel and drive the aircraft autonomously on the ground, wherein said electric drive means comprises a high phase order electric motor with a rotor positioned outwardly of said stator and a multiplicity of wires corresponding to the high phase order electric motor stator windings, and wherein said multiplicity of wires connect said stator windings to connectors on a number of spaced parallel planar toroidal discs mounted coaxially with said landing gear drive wheel and said stator in said power distribution assembly, each said connector being connected between one of said multiplicity of wires and a central electrical connector on a planar toroidal disc, the number of central electrical connectors corresponding to the number of said planar toroidal discs and a number of said connectors on each of said