Drive circuit for a three-phase brushless motor
First Claim
1. A three-phase brushless motor drive circuit that switches its outputs by producing drive signals displaced in phase relative to one another, comprising:
- comparing means for comparing output voltages appearing across coils of a three-phase motor individually with a voltage at a terminal common to three phases;
means for forming a reference clock from signals outputted from the comparing means;
detecting means for detecting edges of the reference clock;
a noise reduction circuit for reducing noise components that are generated by noises included in the output voltages when the reference clock is subjected to edge detection;
means for forming a pulse-train signal by being triggered by an edge detection output obtained through the noise reduction circuit;
means for controlling charging and discharging of one capacitor in synchronism with the pulse-train signal;
means for making a voltage comparator perform voltage comparison between a sawtooth voltage appearing across the capacitor and a predetermined reference voltage in order to determine displacement of the pulse-train signal in accordance with a result of the voltage comparison; and
means for distributing the pulse-train signal outputted from the pulse-train signal forming means to produce three-phase drive signals.
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Accused Products
Abstract
A three-phase brushless motor drive circuit switches its three-phase outputs by producing drive signals displaced in phase relative to one another. In this drive circuit, a reference clock is formed from the signals obtained by comparing the output voltages appearing across the coils of a three-phase motor individually with a voltage at a terminal common to the three phases. This reference clock is subjected to edge detection by an edge detection circuit. The output voltages include noises generated when the outputs are switched. The noise components produced when the reference clock is subjected to edge detection are reduced by a noise reduction circuit. A resulting edge detection output, which no longer includes noise components, is used to trigger an RS flip-flop to form a pulse-train signal. This pulse-train signal is used to control the charging and discharging of a capacitor. A sawtooth voltage appearing across this capacitor is compared with a predetermined reference voltage by a voltage comparator, and, in accordance with a comparison output, the displacement in phase of the pulse-train signal is determined and the pulse-train signal is distributed to produce separate signals for the three phases.
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Citations
5 Claims
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1. A three-phase brushless motor drive circuit that switches its outputs by producing drive signals displaced in phase relative to one another, comprising:
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comparing means for comparing output voltages appearing across coils of a three-phase motor individually with a voltage at a terminal common to three phases; means for forming a reference clock from signals outputted from the comparing means; detecting means for detecting edges of the reference clock; a noise reduction circuit for reducing noise components that are generated by noises included in the output voltages when the reference clock is subjected to edge detection; means for forming a pulse-train signal by being triggered by an edge detection output obtained through the noise reduction circuit; means for controlling charging and discharging of one capacitor in synchronism with the pulse-train signal; means for making a voltage comparator perform voltage comparison between a sawtooth voltage appearing across the capacitor and a predetermined reference voltage in order to determine displacement of the pulse-train signal in accordance with a result of the voltage comparison; and means for distributing the pulse-train signal outputted from the pulse-train signal forming means to produce three-phase drive signals. - View Dependent Claims (2, 3)
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4. A three-phase brushless motor drive circuit that switches its output voltages by producing drive signals displaced in phase relative to one another, comprising:
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voltage comparators, provided one for each phase, for comparing output voltages appearing across coils of a three-phase motor individually with a voltage at a terminal common to three phases; a reference clock generating circuit for generating a reference clock based on voltages outputted from the voltage comparators, said reference clock being displaced in phase by 60°
relative to switching timing of the output voltages and having one third of a period of the output voltages;a detecting circuit for detecting edges of the reference clock; a noise reduction circuit for reducing noise components that are generated by noises included in the output voltages when the reference clock is subjected to edge detection; an RS flip-flop for forming a pulse-train signal by using as a set signal an edge detection output obtained through the noise reduction circuit; a circuit for controlling charging and discharging of one capacitor in synchronism with the pulse-train signal; a first voltage comparator for performing voltage comparison between a sawtooth voltage appearing across the capacitor and a first reference voltage to reset the RS flip-flop in accordance with a result of the voltage comparison; means for forming three-phase drive signals in synchronism with the pulse-train signal outputted from the RS flip-flop; a second voltage comparator for comparing the sawtooth voltage with a second reference voltage; and means for feeding pulses outputted from the second voltage comparator to the noise reduction circuit to achieve noise reduction. - View Dependent Claims (5)
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Specification