Speed control circuit for phase-locked loop motor drive systems
First Claim
1. An oscillator circuit having fine frequency adjustment control comprising a pulse generator for generating pulses at high and low frequencies;
- a frequency divider having an input responsive to the pulse generator for dividing said pulses;
a bistable circuit responsive to an output signal from said frequency divider to generate a first binary state signal;
a programmable counter having a resettable count value for counting said low frequency pulses in response to the occurrence of said first binary state signal to cause said bistable circuit to generate a second binary state signal when said count value is reached thereby defining a desired period;
means for selectively generating a speed increment and a speed decrement command signal;
means for normally applying said low frequency pulses to said frequency divider;
means responsive to said speed increment command signal for applying a train of said high frequency pulses in place of said low frequency pulses to said frequency divider during said defined period and means responsive to said speed decrement command signal for inhibiting the input of said frequency divider during said defined period.
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Abstract
A phase-locked loop motor drive system includes a crystal-controlled frequency source for generating reference frequency pulses at a selectable frequency for driving the motor at a desired speed and a frequency divider coupled to the oscillator to reduce the oscillator frequency to a suitable value as a reference frequency for comparison with the frequency and phase of a signal derived from the motor. In order to provide fine adjustment of the motor speed, a speed control circuit is connected between the oscillator and the frequency divider to inhibit the passage of the oscillator pulses to the frequency divider for a selectable period immediately following an output pulse from the frequency divider when it is desired to decrease the motor speed, and inject a train of higher frequency pulses into the frequency divider while the passage of the oscillator pulses is inhibited when it is desired to increase the motor speed.
52 Citations
7 Claims
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1. An oscillator circuit having fine frequency adjustment control comprising a pulse generator for generating pulses at high and low frequencies;
- a frequency divider having an input responsive to the pulse generator for dividing said pulses;
a bistable circuit responsive to an output signal from said frequency divider to generate a first binary state signal;
a programmable counter having a resettable count value for counting said low frequency pulses in response to the occurrence of said first binary state signal to cause said bistable circuit to generate a second binary state signal when said count value is reached thereby defining a desired period;
means for selectively generating a speed increment and a speed decrement command signal;
means for normally applying said low frequency pulses to said frequency divider;
means responsive to said speed increment command signal for applying a train of said high frequency pulses in place of said low frequency pulses to said frequency divider during said defined period and means responsive to said speed decrement command signal for inhibiting the input of said frequency divider during said defined period. - View Dependent Claims (2, 3)
- a frequency divider having an input responsive to the pulse generator for dividing said pulses;
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4. A speed control system for a motor comprising:
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means for generating a pulse signal having a frequency proportional to speed of said motor and a first voltage signal having a magnitude proportional to the speed of said motor; a frequency divider for generating an output signal having a frequency that is an integral submultiple of the frequency of an input signal to the divider; a frequency-to-voltage converter for generating a second voltage signal having a magnitude proportional to the output frequency of said frequency divider; a phase comparator for generating a phase differential signal representing a difference in phase between said pulse signal and the output of said frequency divider; a lowpass filter responsive to the output of said phase comparator; a voltage comparator for generating a voltage differential signal representing a difference in magnitude between said first and second voltage signals; a summing amplifier for combining said phase differential signal through said lowpass filter with said voltage differential signal for energizing said motor; a source for generating pulse signals at high and low reference frequencies; a bistable device responsive to the output of said frequency divider to assume a first binary state; a programmable counter responsive to said low frequency pulses and said first binary state for defining a desired time period, said counter having a resettable count value for counting said low frequency reference pulses in response to the presence of said first binary state, said counter controlling said bistable device to change to a second binary state in response to said count value to define said desired period; means for selectively generating a speed increment and a speed decrement command signal; and means for normally applying said low frequency reference pulse signal to said frequency divider;
means responsive to said speed increment command signal for applying said high frequency reference pulse signal instead of said low frequency reference pulse signal to said frequency divider during said defined period, and means responsive to said speed decrement command signal for inhibiting the application of said low and high frequency reference pulse signals to said frequency divider during said defined period. - View Dependent Claims (5, 6, 7)
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Specification