DC link circuit for an electronically commutated motor
First Claim
1. A protective DC link circuit connecting a motor to a power supply, said motor having a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence, and having power switches for selectively providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, said rotatable assembly being in driving relation to a load said load having an inertia which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative torque, said DC link circuit connecting the power supply to the power switches, said DC link circuit comprising:
- a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage;
a voltage detecting circuit for detecting the DC link voltage;
an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds a reference voltage due to the excessive current caused by the inertia of the load during the coasting or negative torque generation of the motor;
a shunting circuit for selectively shunting current in the DC link circuit across the capacitor; and
an actuator circuit responsive to the overvoltage signal for actuating the shunting circuit and maintaining actuation of the shunting circuit only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition.
6 Assignments
0 Petitions
Accused Products
Abstract
A protective DC link circuit connecting a motor to a power supply. The motor has a stationary assembly and a rotatable assembly in magnetic coupling relation thereto and includes windings adapted to be commutated in at least one preselected sequence. The motor also has power switches for selectively providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly. The DC link circuit connects the power supply to the power switches. The DC link circuit includes a link capacitor connected in parallel with the power supply wherein a voltage across the link capacitor defines a DC link voltage. The protective circuit also includes a comparator for detecting the DC link voltage and for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit and a power switch for shunting current in the DC link circuit across the link capacitor thereby dissipating the overvoltage condition.
68 Citations
32 Claims
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1. A protective DC link circuit connecting a motor to a power supply, said motor having a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence, and having power switches for selectively providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, said rotatable assembly being in driving relation to a load said load having an inertia which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative torque, said DC link circuit connecting the power supply to the power switches, said DC link circuit comprising:
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a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds a reference voltage due to the excessive current caused by the inertia of the load during the coasting or negative torque generation of the motor; a shunting circuit for selectively shunting current in the DC link circuit across the capacitor; and an actuator circuit responsive to the overvoltage signal for actuating the shunting circuit and maintaining actuation of the shunting circuit only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition. - View Dependent Claims (2, 3, 4, 5)
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6. A protective DC link circuit connecting a motor to a power supply, said motor having stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence, and having power switches for selective providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, said DC link circuit connecting the power supply the power switches, said DC link circuit comprising:
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a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit generating an overvoltage signal representative of an overvoltage condition in the DC link circuit; and a shunting circuit responsive to the overvoltage signal for shunting current in the DC link circuit across the capacitor thereby dissipating the overvoltage condition, said shunting circuit including a resistor and a shunting switch connected in series said shunting circuit being connected in parallel with the capacitor, and said resistor having a predetermined resistance value as a function of maximum inertia of the rotatable assembly wherein the maximum inertia equals a maximum of {(center of rotating mass of the rotatable assembly)×
(mass velocity)2 }.
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7. A motor for driving a load, said load having an inertia which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative toque said motor comprising:
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a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence; power switches for selectively providing power to the windings in the preselected sequence by switching a power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly; and a protective DC link circuit connecting the power supply to the power switches, said DC link circuit comprising; a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds a reference voltage due to the excessive current caused by the inertia of the load during the coasting or negative torque generation of the motor; a shunting circuit for selectively shunting current in the DC link circuit to ground; and an actuator circuit responsive to the overvoltage signal for actuating the shunting circuit and maintaining actuation of the shunting circuit only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A motor comprising:
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a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including winding adapted to be commutated in at least one preselected sequence; power switches for selectively providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotatinq the rotatable assembly; and protective DC link circuit connecting the power supply to the power switches, said DC link circuit comprising; a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit; and a shunting circuit responsive to the overvoltage signal for shunting current in the DC link circuit across the capacitor thereby dissipating the overvoltage condition, said shunting circuit including a resistor and a shunting switch connected in series, said shunting circuit being connected in parallel with the capacitor, and said resistor having a predetermined resistance value as a function of maximum inertia of the rotatable assembly wherein the maximum inertia equals a maximum of {(center of rotating mass of the rotatable assembly)×
(mass velocity)2 }.
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18. A motor comprising:
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a stationary assembly and a rotatable assembly in magnetic coupling relation thereto said stationary assembly including windings adapted to be commutated in at least one preselected sequence; power switches for selectively providing power to the windings in the preselected sequence by switching a power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, said power supply including an unfiltered supply and at least one other supply, the at least one other supply having a time delay relative to the unfiltered supply whereby the unfiltered supply powers up faster than the at least one other supply, the unfiltered supply clamping the power switches off while the at least one other supply powers up thereby to prevent electrical interference from turning on the power switches when the at least one other supply powers up; a protective DC link circuit connecting the power supply to the power switches, said DC link circuit comprising; a link capacitor connected in parallel with the power supply Wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit; and a shunting circuit responsive to the overvoltage signal for shunting current in the DC link circuit to ground thereby dissipating the overvoltage condition.
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19. A laundering apparatus comprising:
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a rotatable component; and a motor for driving the rotatable component, said rotatable component having an inertia which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative torque;
said motor comprising;a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, the stationary assembly including windings adapted to be commutated in at least one preselected sequence, the rotatable assembly being in driving relation to the rotatable component; power switches for selectively providing power to the windings in the preselected sequence by switching a power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly; and a protective DC link circuit connecting the power supply to the power switches, said DC link circuit comprising; a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds a reference voltage due to the excessive current caused by the inertia of the rotatable component during the coasting or negative torque generation of the motor; a shunting circuit for selectively shunting current in the DC link circuit across the capacitor; and an actuator circuit responsive to the overvoltage signal for actuating the shunting circuit and maintaining actuation of the shunting circuit only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27)
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28. A laundering apparatus comprising:
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a rotatable component; and a motor for driving the rotatable component;
said motor comprising;a stationary assembly and a rotatable assembly in magnetic coupling relation thereto the stationary assembly including windings adapted to be commutated in at least one preselected sequence the rotatable assembly being in driving relation to the rotatable component; power switches for selectively providing power to the windings in the preselected sequence by switching a power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly; and a protective DC link circuit connecting the power supply to the power switches, said DC link circuit comprising; a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit; and a shunting circuit responsive to the overvoltage signal for shunting current in the DC link circuit across the capacitor thereby dissipating the overvoltage condition, said shunting circuit including a resistor and a shunting switch connected in series, said shunting circuit being connected in parallel with the capacitor and said resistor having a predetermined resistance value as a function of maximum inertia of the rotatable assembly wherein the maximum inertia equals a maximum of {(center of rotating mass of the rotatable assembly)×
(mass velocity)2 }.
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29. A laundering apparatus comprising:
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a rotatable component; and a motor for driving the rotatable component;
said motor comprising;a stationary assembly and a rotatable assemble in magnetic coupling relation thereto, the stationary assembly including windings adapted to be commutated in at least one preselected sequence, the rotatable assembly being driving relation to the rotatable component; power switches for selectively providing power to the windings in the preselected sequence by switching a power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly said power supply including an unfiltered supply and at least one other supply, the at least one other supply having a time delay relative to the unfiltered supply whereby the unfiltered supply powers up faster than the at least one other supply, the unfiltered supply clamping the power switches off while the at least one other supply powers up thereby to prevent electrical interference from turning on the power switches when the at least one other supply powers up; a protective DC link circuit connecting the power supply to the power switches said DC link circuit comprising; a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage detecting circuit for detecting the DC link voltage; an overvoltage circuit responsive to the voltage detecting circuit for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit; and a shunting circuit responsive to the overvoltage signal for shunting current in the DC link circuit across the capacitor thereby dissipating the overvoltage condition.
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30. A protective DC link circuit connecting a motor to a power supply, said motor driving a load which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative torque, said motor having a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence, and having power switches for selectively providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, said DC link circuit connecting the power supply to the power switches, said DC link circuit comprising:
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a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; a voltage divider network connected to the DC link circuit for detecting the DC link voltage; a comparator connected to the voltage divider network for comparing the detected DC link voltage to a reference voltage for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds the reference voltage due to the excessive current caused by the inertia of the load during the coasting or negative torque generation of the motor; a shunting switch connected in parallel with the capacitor for selectively shunting current in the DC link circuit across the capacitor; and an actuator circuit for actuating the shunting switch in response to the overvoltage signal and for maintaining actuation of the shunting switch only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition.
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31. A method for protecting electrical components of a motor, including power switching devices, from overvoltage conditions, said motor driving a load which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative torque, said motor having a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence, and having a plurality of power switching devices for selectively providing power to the windings in the preselected sequence by switching a power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, the method comprising the steps of:
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connecting the power switching devices to the power supply through a protective DC link circuit, said DC link circuit comprising a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; detecting the DC link voltage; generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds a reference voltage due to the excessive current caused by the inertia of the load during the coasting or negative torque generation of the motor; selectively shunting current in the DC link circuit across the capacitor in response to the overvoltage signal; and maintaining the shunting of current to ground only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition.
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32. A protective DC link circuit connecting a motor to a power supply, said motor having a stationary assembly and a rotatable assembly in magnetic coupling relation thereto, said stationary assembly including windings adapted to be commutated in at least one preselected sequence, and having power switching means for selectively providing power to the windings in the preselected sequence by switching the power supply in connection with the windings whereby an electromagnetic field is produced for rotating the rotatable assembly, said rotatable assembly being in driving relation to a load, said load having an inertia which tends to cause excessive current in the motor when the motor is coasting and when the motor is generating a negative torque, said DC link circuit connecting the power supply to the power switching means, said DC link circuit comprising:
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a link capacitor connected in parallel with the power supply wherein a voltage across the capacitor defines a DC link voltage; means for detecting the DC link voltage; means responsive to the voltage detecting means for generating an overvoltage signal representative of an overvoltage condition in the DC link circuit when the DC link voltage exceeds a reference voltage due to the excessive current caused by the inertia of the load during the coasting or negative torque generation of the motor; means for selectively shunting current in the DC link circuit across the capacitor; and means responsive to the overvoltage signal for actuating the shunting means and for maintaining actuation of the shunting means only so long as the DC link voltage exceeds the reference voltage thereby dissipating the overvoltage condition.
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Specification