Electricity: motive power systems – Phasing or angular or linear positional control of movable...
Reexamination Certificate
2001-12-27
2003-01-28
Leykin, Rita (Department: 2837)
Electricity: motive power systems
Phasing or angular or linear positional control of movable...
C318S132000, C318S254100, C318S434000
Reexamination Certificate
active
06512343
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a motor driver suitable for driving a brushless DC motor built in, e.g., an air conditioner, a water heater, an air cleaner, and an information apparatus such as a copying machine, a printer and the like. More particularly, relates it to an efficient motor driver through which alternate current changing sequentially runs, thereby reducing torque ripples, vibrations and noises in activating the motor. Sine-wave current is preferred to the alternate current.
BACKGROUND ART
DC brushless motors have been widely used as driving motors built in, e.g., an air conditioner and an information apparatus including a copying machine, a printer and the like because of their advantages such as a long service-life, high reliability, and easiness of speed control.
FIG. 21
is a circuit diagram of a conventional motor driver.
FIG. 22
shows waveforms at respective sections of the driver with respect to a rotating angle (electric angle) of the motor when a voltage of a rectangular waveform is applied to the motor driving coils of the driver.
As shown in
FIG. 21
, in a driver of a brushless DC motor (hereinafter simply referred to as a motor), a rotor position is detected by a plurality of position detectors
901
,
903
and
905
comprising a Hall effect device. Three-phase distributor
890
receives position signals Hu, Hv and Hw, and outputs three-phase distribution signals U
0
, V
0
and W
0
to pulse-width modulating (PWM) comparator
840
. At this time, signals U
0
, V
0
and W
0
shape in one-step signals different from each other by 120 degree in electrical angles as shown in FIG.
22
. Comparator
840
outputs a signal which controls, via gate driver
830
, six switches constituting power-feeder
820
sequentially to be turned ON or OFF. Power supplied to three-phase coils
811
,
813
and
815
is thus switched in sequence responsive to a rotor position, thereby spinning the motor.
A voltage—applied between a coil end of phase U and neutral point N—shapes in a rectangular waveform signal as shown at U-N in FIG.
2
. Signals in rectangular waveforms similar to this are applied to phase V and phase W. Changing a current in the three-phase coils causes sharp ON-OFF switches responsive to the rectangular waveform signals. As a result, coils are vibrated, mechanical noises and electrical noises are produced.
A motor driver, which lowers noises and electric noises discussed above, is disclosed in Japanese Patent No. 2658085. This motor driver uses detection output from a detecting element which detects main magnetic-field for driving, and an address signal formed of pulses having frequencies higher than that of the output of the detecting element, whereby a driving waveform stored in a memory is read out for driving the motor. This structure eliminates a frequency generator (FG) and a detecting element (PG) to be simplified. The FG has a constant number of pulses per rotation of the rotor as well as a frequency varying responsive to an r.p.m. of the rotor, and the PG detects magnetic flux from a permanent magnet disposed at given places on the outer wall of the rotor.
The conventional motor driver discussed above, however, requires a memory storing a predetermined driving waveform and a digital-analog (D/A) converter which reads out the driving waveform (digital signal) before converting the digital signal into an analog signal for driving the motor. Therefore, the conventional motor driver needs a complicated circuit.
Further, in the conventional motor driver discussed above, the driving waveform with respect to a rotational position of the rotor, namely, a voltage waveform applied to the coils of respective phases, is uniquely determined by digital-signal data stored in the memory discussed above. Thus, in the case where the driver drives a motor having a rather large inductance, e.g., a stator iron core is wounded with coils, a phase delay of current of respective phases with respect to the voltages applied to the respective phases becomes larger when the driving waveform is applied to the respective phases. As a result, efficiency of the motor is lowered.
SUMMARY OF THE INVENTION
The present invention addresses the problem discussed above, and aims to provide a simply structured and efficient motor-driver which can reduce torque ripples, vibrations and noises of a motor.
The motor driver of the present invention comprises the following elements:
(a) driving coils for three phases;
(b) a power feeder, connected to a dc power supply, for powering the coils of the respective phases;
(c) a position detector for detecting a mover position with respect to the respective phases;
(d) a positional signal interpolator, disposed for at least one of the phases, for dividing one cycle in electrical angles of a positional signal of at least one phase into 3n×4 cycles (“n” is an integer equal to or more than “1”), where the positional signal is produced by an output from the position detector; and
(e) a driving-waveform generator for receiving a dividing address-signal from the interpolator, producing a step-waveform for each of three phases where the step-waveform has a voltage level (not exceeding the steps of 3n+1) preset corresponding to respective addresses of the address signal, and outputting the step-waveforms in voltages.
A driving signal for each of the respective phases, corresponding to the step-waveforms for three phases, is applied to the power feeder, thereby driving the motor with an alternate current which changes respective phase-coils sequentially.
The motor driver of the present invention can be equipped with three positional-signal interpolators, three driving-waveform generators for the three phases individually, in other words, the motor driver comprises the following elements:
A motor driver comprising the following elements:
(a) driving coils for three phases;
(b) a power feeder, connected to a dc power supply, for powering the coils of the respective phases;
(c) a position detector for detecting a mover position with respect to the respective phases;
(d) positional signal interpolators, disposed for each of the phases, for dividing one cycle in electrical angles of respective phase-positional-signals produced by outputs from the position detector into 3n×4 cycles (“n” is an integer equal to or more than “1”); and
(e) driving-waveform generators, disposed for each of the respective phases, for receiving a dividing address-signal from each of the interpolators, producing a step-waveform for each of three phases where the step-waveform has a voltage level (not exceeding the steps of 3n+1) preset corresponding to respective addresses of the address signal, and outputting the step-waveforms voltages.
A driving signal for each of respective phases, corresponding to each step of the step-waveforms, is applied to the power feeder, thereby driving the motor with an alternate current which changes respective phase-coils sequentially.
This structure allows the motor driver not only to reduce torque ripples at starting a motor, vibrations and noises, but also to drive the motor in an efficient manner.
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patent: 6084376 (2000-07-01), Piedl et al.
patent: 6163118 (2000-12-01), Chen et al.
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patent: 0 068 756 (1983-01-01), None
patent: 0 954 090 (1999-11-01), None
patent: A-H1-126191 (1989-05-01), None
patent: WO 93/26075 (1993-12-01), None
Leykin Rita
Matsushita Electric - Industrial Co., Ltd.
Ratner & Prestia
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