Three phase a.c. motor drive system
First Claim
1. A system for generating a three phase variable frequency signal for driving a three phase a.c. motor, said system comprising the combination of a d.c. voltage source having positive and negative voltage levels, an inverter having a plurality of controllable solid state switching means for selectively applying said positive and negative voltage levels alternately to each of three output lines to generate a three phase a.c. output, means for controlling the rise times of the positive and negative currents flowing to the inverter, current sensing means for generating a control signal in response to an increase in the magnitude of the inverter current flow through said inverter above a predetermined level, and current limiting means responsive to said control signal for limiting the inverter current flow to said predetermined level, said current sensing means comprising a resistor between said d.c. voltage source and the inverter, the voltage drop across said resistor being proportional to the current therethrough, an amplifier for amplifying the magnitude of the voltage drop across said resistor, and a silicon bidirectional switch which generates a control signal when said amplified resistor voltage drop exceeds a predetermined level.
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Abstract
A system for controlling the speed, torque and power of three phase a.c. motor. A binary logic circuit generates a variable frequency three phase signal which controls three driver pairs in an inverter to selectively apply either the positive voltage or the negative voltage of a direct current power source to each of the three motor phases. The three phase binary driver control signal is pulse frequency modulated below 60 cycles per second to operate the motor in a constant torque mode without varying the rectifier output voltage. The logic control signal also includes a delay to protect the drivers by assuring that one driver of a pair is "off" prior to turning the other driver "on". In addition the system comprises high response voltage and current limiting circuits to protect the system and to reduce the overcapacity requirement of the components. An accelerator/decelerator circuit achieves a nearly linear characteristic through the use of switching transistors to permit substantial cost savings.
20 Citations
2 Claims
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1. A system for generating a three phase variable frequency signal for driving a three phase a.c. motor, said system comprising the combination of a d.c. voltage source having positive and negative voltage levels, an inverter having a plurality of controllable solid state switching means for selectively applying said positive and negative voltage levels alternately to each of three output lines to generate a three phase a.c. output, means for controlling the rise times of the positive and negative currents flowing to the inverter, current sensing means for generating a control signal in response to an increase in the magnitude of the inverter current flow through said inverter above a predetermined level, and current limiting means responsive to said control signal for limiting the inverter current flow to said predetermined level, said current sensing means comprising a resistor between said d.c. voltage source and the inverter, the voltage drop across said resistor being proportional to the current therethrough, an amplifier for amplifying the magnitude of the voltage drop across said resistor, and a silicon bidirectional switch which generates a control signal when said amplified resistor voltage drop exceeds a predetermined level.
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2. A system for generating a three phase variable frequency signal for driving a three phase a.c. motor, said system comprising the combination of a d.c. voltage source having positive and negative voltage levels, an inverter having a plurality of controllable solid state switching means for selectively applying said positive and negative voltage levels alternately to each of three output lines to generate a three phase a.c. output, and dynamic braking means responsive to an increase in the voltage across the inverter to a predetermined level for protecting the inverter from excessive voltage levels, said dynamic braking means comprising a Schmitt trigger receiving an input proportional to the voltage across the inverter and producing an output when said voltage exceeds a predetermined maximum, and switching means responsive to the output of the Schmitt trigger for connecting a power resistor network across the inverter to protect the inverter from excessive voltages.
Specification