Motor controller and method for controlling motor
First Claim
1. A motor controller comprising:
- an H bridge circuit having switching elements, fly-wheel diodes, and half bridges connected to motor coils provided in the motor;
a current detector that detects motor current flowing in the motor coil;
a zero-cross detector that detects a zero-cross of a back electromotive force voltage of each of the motor coils; and
a controller that operates to control the H bridge circuit to operate in one of operation modes including a charge mode, a high-dissipation mode, a low-dissipation mode and a free mode by activating the switching elements of the H bridge based on the motor current detected by the current detector,wherein the H bridge circuit increases the motor current flowing in each of the motor coils in the charge mode,wherein the H bridge circuit operates with high energy dissipation and a flyback pulse of each of the motor coils is induced in the high-dissipation mode,wherein the H bridge circuit operates with low energy dissipation that is lower than in the high-dissipation mode in the low-dissipation mode,wherein the H bridge circuit operates to allow the zero-cross detector to detect the zero-cross of the back electromotive force voltage of each of the motor coils after the flyback pulse of each of the motor coils is decreased,wherein the controller further operates to perform a process including;
controlling the H bridge circuit to switch to the charge mode;
controlling the H bridge circuit to switch to the high-dissipation mode when the zero-cross detector detects that the back electromotive force voltage of the motor coil connected to a phase of the H bridge circuit shortly before the H bridge circuit is zero-crossed;
controlling the H bridge circuit to switch to the low-dissipation mode after a predetermined time has elapsed; and
controlling the H bridge circuit to switch to the free mode when the motor current detector detects that the motor current flowing in the motor coil connected to the H bridge circuit flows in a direction opposite to that in the charge mode.
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Accused Products
Abstract
A controller of a motor controller operates to perform a process including: controlling the H bridge circuit to switch to the charge mode; controlling the H bridge circuit to switch to the high-dissipation mode when the zero-cross detector detects that the back electromotive force voltage of the motor coil connected to a phase of the H bridge circuit shortly before the H bridge circuit is zero-crossed; controlling the H bridge circuit to switch to the low-dissipation mode after a predetermined time has elapsed; and controlling the H bridge circuit to switch to the free mode when the motor current detector detects that the motor current flowing in the motor coil connected to the H bridge circuit flows in a direction opposite to that in the charge mode.
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Citations
6 Claims
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1. A motor controller comprising:
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an H bridge circuit having switching elements, fly-wheel diodes, and half bridges connected to motor coils provided in the motor; a current detector that detects motor current flowing in the motor coil; a zero-cross detector that detects a zero-cross of a back electromotive force voltage of each of the motor coils; and a controller that operates to control the H bridge circuit to operate in one of operation modes including a charge mode, a high-dissipation mode, a low-dissipation mode and a free mode by activating the switching elements of the H bridge based on the motor current detected by the current detector, wherein the H bridge circuit increases the motor current flowing in each of the motor coils in the charge mode, wherein the H bridge circuit operates with high energy dissipation and a flyback pulse of each of the motor coils is induced in the high-dissipation mode, wherein the H bridge circuit operates with low energy dissipation that is lower than in the high-dissipation mode in the low-dissipation mode, wherein the H bridge circuit operates to allow the zero-cross detector to detect the zero-cross of the back electromotive force voltage of each of the motor coils after the flyback pulse of each of the motor coils is decreased, wherein the controller further operates to perform a process including; controlling the H bridge circuit to switch to the charge mode; controlling the H bridge circuit to switch to the high-dissipation mode when the zero-cross detector detects that the back electromotive force voltage of the motor coil connected to a phase of the H bridge circuit shortly before the H bridge circuit is zero-crossed; controlling the H bridge circuit to switch to the low-dissipation mode after a predetermined time has elapsed; and controlling the H bridge circuit to switch to the free mode when the motor current detector detects that the motor current flowing in the motor coil connected to the H bridge circuit flows in a direction opposite to that in the charge mode. - View Dependent Claims (2, 3, 4, 5)
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6. A method for controlling a motor with a motor controller including:
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an H bridge circuit having switching elements, fly-wheel diodes, and half bridges connected to motor coils provided in the motor; a current detector that detects motor current flowing in the motor coil; a zero-cross detector that detects a zero-cross of a back electromotive force voltage of each of the motor coils; and a controller that operates to control the H bridge circuit to operate in one of operation modes including a charge mode, a high-dissipation mode, a low-dissipation mode and a free mode by activating the switching elements of the H bridge based on the motor current detected by the current detector, wherein the H bridge circuit increases the motor current flowing in each of the motor coils in the charge mode, wherein the H bridge circuit operates with high energy dissipation and a flyback pulse of each of the motor coils is induced in the high-dissipation mode, wherein the H bridge circuit operates with low energy dissipation that is lower than in the high-dissipation mode in the low-dissipation mode, wherein the H bridge circuit operates to allow the zero-cross detector to detect the zero-cross of the back electromotive force voltage of each of the motor coils after the flyback pulse of each of the motor coils is decreased, wherein the method comprises; controlling the H bridge circuit to switch to the charge mode; controlling the H bridge circuit to switch to the high-dissipation mode when the zero-cross detector detects that the back electromotive force voltage of the motor coil connected to a phase of the H bridge circuit shortly before the H bridge circuit is zero-crossed; controlling the H bridge circuit to switch to the low-dissipation mode after a predetermined time has elapsed; and controlling the H bridge circuit to switch to the free mode when the motor current detector detects that the motor current flowing in the motor coil connected to the H bridge circuit flows in a direction opposite to that in the charge mode.
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Specification