Abstract: There is disclosed a driving and control circuit for a tuning fork resonator also adaptable to rotary motor control wherein an approximately sine wave signal from a motion sensor is applied to an instantaneous level detector which causes a control signal to be generated during that portion of the sine wave signal where the instantaneous level exceeds an adjustable reference level; the control signal causes the application of a current to the tuning fork drive which is in a direction to cause braking and reduction of motion amplitude. A distinctive feature of the instantaneous level detector is the fact that the sine wave signal is not rectified but is rather converted to a fluctuating direct current signal with a DC level accurately determined by an internal semiconductor voltage reference element.

Abstract: There is disclosed a driving and control circuit for a tuning fork resonator also adaptable to rotary motor control wherein an approximately sine wave signal from a motion sensor is applied to an instantaneous level detector which causes a control signal to be generated during that portion of the sine wave signal where the instantaneous level exceeds an adjustable reference level; the control signal causes the application of a current to the tuning fork drive which is in a direction to cause braking and reduction of motion amplitude. A distinctive feature of the instantaneous level detector is the fact that the sine wave signal is not rectified but is rather converted to a fluctuating direct current signal with a DC level accurately determined by an internal semiconductor voltage reference element.