Motor control device and motor control method
First Claim
1. A device for controlling a motor by means of a switching element, wherein:
- the device outputs a pulse-like control signal to the switching element, the control signal being switched between high level and low level for selectively turning on or off the switching element such that the motor is supplied with a current in correspondence with a turned on state of the switching element;
the device samples and holds the current supplied to the motor for a predetermined sampling and holding time for obtaining a value of the motor current, the device controlling the motor in accordance with the obtained value;
the device determines, as the sampling and holding time, a time period between a first point in time when the level of the control signal is switched for turning off the switching element and a second point in time that precedes the first point in time by a predetermined period;
the device generates the control signal by comparing a delta wave variation with a predetermined first comparative value, the delta wave variation being varied in a delta wave manner or in an alternating, gradually increasing and quickly dropping manner; and
the device generates a pulse-like sampling and holding signal by comparing the delta wave variation with a predetermined second comparative value, the sampling and holding signal being switched between high level and low level, the device determining, as the sampling and holding time, the time period during which the sampling and holding signal is maintained at high level or low level.
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Accused Products
Abstract
A motor control device selectively turns on or off a drive transistor in-accordance with a PWM control signal Sp, such that a drive current Im supplied to a motor is adjusted. The device also samples and holds a motor current Sm for obtaining a motor current value Ih. With reference to the motor current value Ih, the device protects the motor from an overcurrent. Sampling and holding of the motor current Sm is performed for a sampling and holding time Ts. The sampling and holding time Ts corresponds to a time period between a first point in time when the level of the PWM control signal Sp is switched for turning off the drive transistor and a second point in time that precedes the first point in time by a predetermined period. As a result, the motor current value Ih is detected with high accuracy.
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Citations
9 Claims
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1. A device for controlling a motor by means of a switching element, wherein:
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the device outputs a pulse-like control signal to the switching element, the control signal being switched between high level and low level for selectively turning on or off the switching element such that the motor is supplied with a current in correspondence with a turned on state of the switching element; the device samples and holds the current supplied to the motor for a predetermined sampling and holding time for obtaining a value of the motor current, the device controlling the motor in accordance with the obtained value; the device determines, as the sampling and holding time, a time period between a first point in time when the level of the control signal is switched for turning off the switching element and a second point in time that precedes the first point in time by a predetermined period; the device generates the control signal by comparing a delta wave variation with a predetermined first comparative value, the delta wave variation being varied in a delta wave manner or in an alternating, gradually increasing and quickly dropping manner; and the device generates a pulse-like sampling and holding signal by comparing the delta wave variation with a predetermined second comparative value, the sampling and holding signal being switched between high level and low level, the device determining, as the sampling and holding time, the time period during which the sampling and holding signal is maintained at high level or low level. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A device for controlling a motor by means of a switching element, wherein:
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the device outputs a pulse-like control signal to the switching element, the control signal being switched between high level and low level for selectively turning on or off the switching element such that the motor is supplied with a current in correspondence with a turned on state of the switching element; the device samples and holds the current supplied to the motor for a predetermined sampling and holding time for obtaining a value of the motor current, the device controlling the motor in accordance with the obtained value; the device determines, as the sampling and holding time, a time period between a first point in time when the level of the control signal is switched for turning off the switching element and a second point in time that precedes the first point in time by a predetermined period, wherein the sampling and holding time is determined as a half of a predetermined minimum value of the time period during which the control signal is maintained at high level or low level for turning on the switching element.
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8. A method for controlling a motor by means of a switching element, comprising:
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generating a delta wave variation varied in a delta wave manner or in an alternating, gradually increasing and quickly dropping manner; generating a pulse-like control signal, which is switched between high level and low level, by comparing the delta wave variation with a predetermined first comparative value; outputting the control signal to the switching element for selectively turning on or off the switching element such that the motor is supplied with a current in correspondence with a turned on state of the switching element; sampling and holding the current supplied to the motor for a predetermined sampling and holding time for obtaining a value of the motor current; controlling the motor in accordance with the obtained value; determining, as the sampling and holding time, a time period between a first point in time when the level of the control signal is switched for turning off the switching element and a second point in time that precedes the first point in time by a predetermined period; and generating a pulse-like sampling and holding a signal by comparing the delta wave variation with a predetermined second comparative value, the sampling and holding signal being switched between high level and low level, wherein the time period during which the sampling and holding signal is maintained at high level or low level is determined as the sampling and holding time. - View Dependent Claims (9)
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Specification