Mixed mode stepper motor controller and method

A mixed mode controller (100) for use with a motor having a mechanism (110, 114) for generating a command signal to operate the motor and a first circuit (104) for adjusting the gain of the command signal to provide high speed operation. A second circuit (102) is provided for converting the command signal to a drive signal to excite a winding (106) and to damp the motor. In a preferred embodiment, a step rate signal introduced into the motor controller (100) is operated upon by an accumulator (110) and a memory (114) to generate a voltage command signal. The motor controller (100) includes a low bandwidth current control feedback loop (104) utilized to adjust the gain of the voltage command signal by comparing a command motor current and an actual motor current in a summer circuit (126). The feedback loop (104) provides for automatic gain control of the voltage command signal for yielding high speed operation. The gain-adjusted voltage command signal is thereafter applied to a bipolar voltage driver (102) having high motor damping characteristics. The voltage driver (102) is utilized to control the application of a bus voltage to the motor winding (106) of a stepper motor via a transistor control logic circuit (148). Also included is a time constant correction network (138) for accelerating the settling of variations in the motor current to steady state. Thus, the correction network (138) ensures a rapid response to changes in the commanded motor current.