Synthesis of drive systems of infinite disturbance rejection ratio and zero-dynamics/instantaneous response
First Claim
1. A method for synthesizing electric motor drive system of infinite disturbance rejection ratio and zero dynamics comprising:
- accepting a source of electrical energy of a constant voltage at an input to a power converter,coupling mechanically a shaft of an electric motor to a load to be driven at an output,controlling a power flow from said input to said output,modulating said power converter for the control of said power flow in a pulse width modulation manner,supplying a total control signal for modulating said power converter,supplying position feedback pulses,feeding back said position feedback pulses and comparing their frequency and phase with frequency and phase of position command pulses in a phase frequency detector in a negative feedback manner;
thereby producing a position error voltage proportional to a difference in frequency and phase between said position command pulses and said position feedback pulses;
supplying a position command obtained as a voltage potential,passing said position command through a position direct path circuit;
thereby producing said position command pulses,passing said position command through a differentiation circuit;
thereby producing a velocity signal voltage,passing said velocity signal voltage through a velocity direct path circuit;
thereby producing a velocity command voltage,passing said velocity signal voltage through a feedforward circuit;
thereby producing a feedforward signal,supplying a velocity feedback signal,feeding back said velocity feedback signal and summing it with said velocity command voltage and said position error voltage in a negative feedback manner;
thereby producing a resulting error voltage,passing said resulting error voltage through a cascade connection of a stabilizing network and a control circuit;
thereby producing a control signal proportional to the algebraic sum of said velocity command voltage and said velocity feedback signal and said position error voltage,sensing a current through said electric motor,feeding back the sensed current signal through a current feedback circuit in a positive feedback loop with respect to said control signal and said feedforward signal and summing the sensed current signal with said control signal and said feedforward signal,supplying said total control signal, obtained as the sum of said control signal and said feedforward signal and the current signal fed through said current feedback circuit, for modulating said power converter for the control of the flow of power from the input electrical source to the output mechanical load, whereby all electrical and mechanical time constants associated with said electric motor and with the mechanical load are brought to zero yielding an infinite disturbance rejection ratio by making an angular shaft position and speed independent of said load and yielding a zero dynamics by cancelling remaining time constants in the system and making a transfer function from said position command to said angular shaft position a constant and therefore of zero dynamics.
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Abstract
A method of synthesizing drive systems, including dc, synchronous and asynchronous ac, and step motor drive systems, of instantaneous response and zero error in both transient and steady state with respect to an input command and of infinite disturbance rejection ratio with respect to a load torque changes, comprising an inner positive current feedback of exactly specified nature and value of its transfer function forcing the motor impedance to zero for load independence, and further comprising control functions in a direct path with respect to both position and velocity feedback loop and in a feedforward path of exactly specified values which, together with the inner positive current feedback loop, provide for the zero-dynamics system transfer function with respect to the command with an associated instantaneous response.
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Citations
9 Claims
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1. A method for synthesizing electric motor drive system of infinite disturbance rejection ratio and zero dynamics comprising:
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accepting a source of electrical energy of a constant voltage at an input to a power converter, coupling mechanically a shaft of an electric motor to a load to be driven at an output, controlling a power flow from said input to said output, modulating said power converter for the control of said power flow in a pulse width modulation manner, supplying a total control signal for modulating said power converter, supplying position feedback pulses, feeding back said position feedback pulses and comparing their frequency and phase with frequency and phase of position command pulses in a phase frequency detector in a negative feedback manner;
thereby producing a position error voltage proportional to a difference in frequency and phase between said position command pulses and said position feedback pulses;supplying a position command obtained as a voltage potential, passing said position command through a position direct path circuit;
thereby producing said position command pulses,passing said position command through a differentiation circuit;
thereby producing a velocity signal voltage,passing said velocity signal voltage through a velocity direct path circuit;
thereby producing a velocity command voltage,passing said velocity signal voltage through a feedforward circuit;
thereby producing a feedforward signal,supplying a velocity feedback signal, feeding back said velocity feedback signal and summing it with said velocity command voltage and said position error voltage in a negative feedback manner;
thereby producing a resulting error voltage,passing said resulting error voltage through a cascade connection of a stabilizing network and a control circuit;
thereby producing a control signal proportional to the algebraic sum of said velocity command voltage and said velocity feedback signal and said position error voltage,sensing a current through said electric motor, feeding back the sensed current signal through a current feedback circuit in a positive feedback loop with respect to said control signal and said feedforward signal and summing the sensed current signal with said control signal and said feedforward signal, supplying said total control signal, obtained as the sum of said control signal and said feedforward signal and the current signal fed through said current feedback circuit, for modulating said power converter for the control of the flow of power from the input electrical source to the output mechanical load, whereby all electrical and mechanical time constants associated with said electric motor and with the mechanical load are brought to zero yielding an infinite disturbance rejection ratio by making an angular shaft position and speed independent of said load and yielding a zero dynamics by cancelling remaining time constants in the system and making a transfer function from said position command to said angular shaft position a constant and therefore of zero dynamics. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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3. The method of claim 2 wherein said equation providing transfer function of said current feedback circuit is physically implemented, thereby implementing said current feedback circuit, in case of the direct current motors, or the alternating current synchronous motors, or the step motors, in accordance with an expression giving said impedance of said electric motor in laplace domain Zekv (s) as a series connection of a resistance and an inductive reactance of said electric motor, and, in case of the alternating current asynchronous motors, in accordance with another expression giving said impedance of said electric motor in laplace domain Aekv (s) as a series connection of a stator impedance with a parallel connection of a magnetizing reactance and a rotor impedance referred to stator of said electric motor.
- 4. The method of claim 1 wherein said position direct path circuit is synthesized using an equation providing transfer function of said position direct path circuit
- space="preserve" listing-type="equation">K.sub.i =mK.sub.e K.sub.g
in said equation m being a scaling constant equal to said transfer function from said position command to said angular shaft position, Ke being a gain constant of a digital encoder, and Kg being a gear ratio constant of a gear box.
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5. The method of claim 4 wherein said equation providing transfer function of said position direct path circuit is physically implemented, thereby implementing said position direct path circuit, as a constant gain circuit.
- 6. The method of claim 1 wherein said velocity direct path circuit is synthesized using an equation providing transfer function of said velocity direct path circuit
- space="preserve" listing-type="equation">K.sub.i '"'"'=mK.sub.v
in said equation m being a scaling constant equal to said transfer function from said position command to said angular shaft position, and Kv being a gain constant of a tach.
- space="preserve" listing-type="equation">K.sub.i "=mK.sub.m /A
Specification