Motor having electronically switched stator field current and integral torque control

1. An electric motor comprising a stator, a rotor rotatably mounted on a shaft within said stator, a plurality of stator windings, and a circuit for switching stator field currents, said circuit comprising a positive current driver and a negative current driver for each stator winding, said positive current driver operating to permit current flow in one direction through said winding for part of the rotor rotation, said negative current driver operating to permit current flow in the opposite direction for a succeeding part of the rotor rotation, said circuit further comprising sensing means associated with each of said drivers to sense rotor position and produce outputs to cause said associated driver to permit said current flow, said sensing means including means for successively causing current flow through each of said stator windings in turn such that current flows in only one stator winding at a time, said sensing means comprising a plurality of spaced optical interrupters fixedly mounted with respect to the rotor shaft and at substantially equal radial distances therefrom, each of said interrupters having an optical source, an optical receiver and a space therebetween defining an optical path, said sensing means further including a substantially circular plate coaxial with the rotor shaft and adapted to rotate therewith, said plate containing a slot extending circumferentially along the outer edge of said plate of a length corresponding to said part of the rotor rotation that current flows through the windings, said plate being interposed within said optical paths such that a particular one of said optical receivers produces an output only when said slot is within the optical path associated with that receiver, one of said interrupters including a second optical source, optical receiver and space therebetween defining an optical path, and said plate contains a plurality of spaced apertures substantially radially equidistant from the center of said plate such that said second optical receiver produces an output each time one of said apertures traverses said second optical path.