Linear Hall Device Based Field Oriented Control Motor Drive System

What is claimed is: 1 . A method for controlling an electric motor, the method comprising: producing a first signal indicative of a strength of a first magnetic field component produced by a set of rotor magnets included within a rotor of the electric motor using a first linear Hall device; simultaneously producing a second signal indicative of a strength of second magnetic field component produced by the rotor magnets that is approximately orthogonal to the first magnetic field component using a second linear Hall device; calculating an angular position and angular velocity of the rotor based on the first signal and the second signal; producing a plurality of phase signals based on the calculated angular position and angular velocity; and controlling current in a plurality of field windings of the motor using the plurality of phase signals. 2 . The method of claim 1 , in which the first linear Hall device is located adjacent the rotor, and in which the second linear Hall device positioned perpendicular to the first linear Hall device. 3 . A motor drive system comprising: a multidimensional array of at least a first linear Hall device and a second linear Hall device; angle-speed calculation logic coupled to receive signals indicative of magnetic field strength from each of the linear Hall devices; and motor controller and drive logic coupled to receive angular speed information from the angle-speed calculation logic, with a plurality of outputs for providing a plurality of phase signals to control a motor. 4 . The system of claim 3 , in which the second linear Hall device is positioned perpendicular to the first linear Hall device. 5 . The system of claim 3 in which the multidimensional array of Hall devices, the angle-speed calculation logic and the motor controller and drive logic are all formed on a single integrated circuit, (IC). 6 . A permanent magnet synchronous motor (PMSM) comprising: stator having a plurality of field windings, in which the plurality of phase signals are coupled to the field windings; rotor configured to rotate with reference to the stator, the rotor having a plurality of rotor magnets; a motor drive system positioned so as to be within a magnetic field produced by the rotor magnets, in which the motor drive system includes a first linear Hall device and a second linear Hall device positioned perpendicular to each other. 7 . The PMSM of claim 6 , in which the motor drive system further includes: angle-speed calculation logic coupled to receive signals indicative of magnetic field strength from each of the linear Hall devices; and motor controller and drive logic coupled to receive angular speed information from the angle-speed calculation logic, with a plurality of outputs for providing a plurality of phase coupled to the field windings of the stator. 8 . The PMSM of claim 7 , in which the first linear Hall device, the second linear Hall device, the angle-speed calculation logic and the motor controller and drive logic are all formed on a single integrated circuit (IC).