Servo power amplifier having load equalization
First Claim
1. A system for controlling at least two direct current, reversible motors driven by a source of dual polarity direct current power, comprising:
- a motor control circuit associated with each of said motors and coupled between the corresponding motor and said direct current power source, each motor control circuit being operative to control the delivery of power from said source to the corresponding motor and creating a voltage imbalance in said power source as a result of the return of power from the corresponding motor to said source; and
means coupled with each of said motor control circuits and with said source for equalizing the load on said source whereby to balance the voltage supplied by said source.
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Accused Products
Abstract
A servo power amplifier for driving multiple DC motors (10, 12) employs a load equalization circuit (36) which allows reduction of the overall number of circuit components required to drive the motors. The load equalization circuit is coupled in parallel with each of the motor drive circuits (14, 16) across the power source (46, 48) and controls an inductive load (84) which temporarily stores energy that is returned to the power source from the motors. The equalization circuit is pulse width modulated in accordance with a control signal which is derived by sensing the current flowing through the inductive load and using a sensing circuit (44) to determine the difference in the magnitude of the positive and negative voltages supplied by the power source. The equalization control circuit and the motor drive circuits are each T-configured and employ no more than two switching elements for controlling current flow.
22 Citations
22 Claims
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1. A system for controlling at least two direct current, reversible motors driven by a source of dual polarity direct current power, comprising:
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a motor control circuit associated with each of said motors and coupled between the corresponding motor and said direct current power source, each motor control circuit being operative to control the delivery of power from said source to the corresponding motor and creating a voltage imbalance in said power source as a result of the return of power from the corresponding motor to said source; and means coupled with each of said motor control circuits and with said source for equalizing the load on said source whereby to balance the voltage supplied by said source. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A system for controlling at least two direct current, reversible motors coupled with a source of direct current power having positive and negative power supply terminals providing positive and negative voltages for respectively driving said motors, comprising:
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a motor control circuit for each of said motors and coupled between the corresponding motor and said source, each motor control circuit including not more than a first and second switch coupled between the winding of the motor and said source for respectively controlling the flow of current through said winding in opposite directions, each of said motor control circuits being operative to return power to said source; and means coupled with each of said motor control circuits and with said source for equalizing the positive and negative voltages on said source to prevent overload on said source resulting from the return of power to said source from said motors. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A system for controlling at least two direct current, reversible motors powered by a source of direct current power, said power source including a pair of power output terminals respectively supplying positive and negative voltages, comprising:
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a motor control circuit for each of said motors, each control circuit including (1) first and second switches respectively coupled between said one side of said motor and said power output terminals, said first and second switches being operative to control the flow of current in respective opposite directions through said motor, (2) a ground connection coupled with the opposite side of said motor, each motor control circuit being operative to control the operation of the corresponding motor and returning electrical energy to said source, the return of electrical energy to said source resulting in an imbalance in the positive and negative supply voltage of said source; and an equalization control circuit coupled with said output terminals for equalizing the positive and negative voltages of said source. - View Dependent Claims (18)
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17. The system of clalm 16, wherein said equalization circuit includes means for temporarily storing energy returned from each of said motor control circuits and no more than two switches for controlling the flow of energy to said inductive means.
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19. Apparatus for controlling an electrical motor system of the type having at least two electrical coil windings adapted to be energized by a dual polarity direct current power source supplying positive and negative voltages, comprising:
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a pair of motor control circuits respectively associated with said coil windings and coupled between the corresponding coil winding and said direct current power source, each motor control circuit being operative to control the delivery of electrical power from said source to the corresponding coil winding and ordinarily creating a voltage imbalance in said power source as a result of the return of electrical power from the corresponding coil winding to said power source; and means coupled with each of said coil windings and with said power source for equalizing the load on said power source whereby to balance the positive and negative voltages supplied by said source. - View Dependent Claims (20)
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21. A method for controlling at least two direct current motors powered by a source of direct current power supplying positive and negative voltages, comprising the steps of:
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(A) delivering pulses of electrical energy from said source through a supply circuit to each of said motors, the width of said pulses corresponding to the magnitude of electrical energy delivered to the motors; (B) returning a portion of the electrical energy delivered in step (A) from each of the motors to the supply circuit, thereby creating an imbalance between the positive and negative voltages supplied by said power source; and (C) temporarily storing in an inductive load a portion of the electrical energy returned in step (B), thereby balancing the positive and negative voltages supplied by said source. - View Dependent Claims (22)
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Specification