JP2005110402A - Motor drive unit system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a starting system of a motor that responds to variety of needs of use conditions by making variable the adaptable range of the fan motor by comparing a low-level voltage and a constant voltage value, and by setting a value of the minimum number of revolutions of the motor on the basis of the obtained compared value, when the low-level voltage is inputted. <P>SOLUTION: This motor drive unit system is constituted by including: a drive unit; a voltage stabilization unit that is composed by including a voltage stabilization means, generates a constant voltage and feed it to the drive unit; and a power feed unit that feeds voltages to the voltage stabilization unit and the drive unit. The drive unit includes: a signal generation unit for generating an input signal that varies depending on the high level or the low level of an input voltage of the power feed unit; a comparison unit that compares the constant voltage of the voltage stabilization unit and the input signal of the signal generation unit, and generates a comparison signal; and a control unit that adjusts the number of revolutions of the motor on the basis of the comparison signal generated by the comparison unit. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a system for a motor drive device, and more particularly to a motor drive device system capable of setting a motor rotation speed with a low level input voltage.

  In the conventional fan motor drive system, when a high level voltage is input due to the characteristics of the drive element of the fan motor, the fan rotates at full speed to enhance the heat dissipation effect, and when a low level voltage is input, Rotates at the lowest speed. That is, the rotation speed of the fan is adjusted by a linear change according to the level of the input voltage.

  However, when the input voltage is at a low level, the motor drive system according to this method cannot be changed because the minimum speed rotation is the only fixed value. For this reason, the application range of the fan is limited, and it may not meet the actual needs.

  In the present invention, when a low level voltage is input, it is compared with a constant voltage value, the minimum rotation speed value of the motor is set based on the obtained comparison value, and the adaptation range of the fan motor is made variable to be used in various ways. It is an object of the present invention to provide a motor start system that can meet the needs of the situation.

  Therefore, as a result of intensive research in view of the drawbacks found in the prior art, the present inventor has, as a result, a driving unit and a voltage stabilizing unit that includes a voltage stabilizing means, generates a constant voltage, and supplies the constant voltage to the driving unit. The voltage stabilizing unit, and a power supply unit that provides a voltage to the drive unit, and the drive unit generates an input signal that varies depending on whether the input voltage of the power supply unit is high or low. A signal generating unit for generating a comparison signal by comparing a constant voltage of the voltage stabilizing unit and an input signal of the signal generating unit, and a rotation speed of the motor based on the comparison signal generated by the comparison unit Based on this knowledge, we focused on the problem that can be solved by the structure of the motor drive system comprising the control unit Invention was allowed to complete.

The present invention will be specifically described below.
The motor drive device system according to claim 1 is a motor drive device system configured to include a voltage stabilization unit, a drive unit, the voltage stabilization unit, and a power supply unit that provides a voltage to the drive unit.
The voltage stabilization unit includes voltage stabilization means, generates a constant voltage and supplies the constant voltage to the drive unit;
The drive unit compares a signal generation unit that generates an input signal that varies depending on whether an input voltage of the power supply unit is high or low, and a constant voltage of the voltage stabilization unit and an input signal of the signal generation unit. A comparison unit that generates a comparison signal, and a control unit that adjusts the rotational speed of the motor based on the comparison signal generated by the comparison unit,
When the voltage input from the power supply unit is at a low level, the input signal is changed, the comparison unit compares the constant voltage of the voltage stabilization unit with the input signal in which the change has occurred, and generates a comparison signal. The control unit is configured to control the rotation speed of the motor.

  In the motor drive system described in claim 2, the voltage stabilization unit in claim 1 is a voltage stabilization circuit.

  According to a third aspect of the present invention, the voltage stabilizing means in the first aspect is a zener diode.

  According to a fourth aspect of the present invention, the voltage stabilizing means in the first aspect is a voltage stabilizer.

  According to a fifth aspect of the present invention, the signal generating unit according to the first aspect is a resistance capacitor (RC) circuit.

  According to a sixth aspect of the present invention, the signal generation unit according to the first aspect is an oscillator.

  According to a seventh aspect of the present invention, the signal generating unit according to the first aspect includes a capacitor, and sets the frequency of the input signal.

  In the motor drive device system according to an eighth aspect, the motor drive device system according to the first aspect further includes a Hall element.

The motor drive device system according to claim 9 is a motor drive device system configured to include a drive unit and a power supply unit that provides a voltage to the drive unit.
The driving unit includes: a voltage stabilizing unit that generates a constant voltage; a signal generating unit that generates an input signal that varies depending on whether an input voltage of the power supply unit is high or low; and a constant voltage of the voltage stabilizing unit; A comparison unit that compares the input signal of the signal generation unit to generate a comparison signal, and a control unit that adjusts the rotational speed of the motor based on the comparison signal generated by the comparison unit;
When the voltage input from the power supply unit is at a low level, the input signal is changed, and the comparison unit compares the constant voltage of the voltage stabilization unit with the input signal in which the change has occurred to generate a comparison signal. The control unit is configured to control the rotation speed of the motor.

  According to a tenth aspect of the present invention, the voltage stabilizing unit according to the ninth aspect includes voltage stabilizing means.

  In the motor drive system described in claim 11, the voltage stabilization means in claim 9 is a zener diode.

  According to a twelfth aspect of the present invention, the voltage stabilizing means in the ninth aspect is a voltage stabilizer.

  According to a thirteenth aspect of the present invention, the signal generating unit according to the ninth aspect is a resistance capacitor (RC) circuit.

  According to a fourteenth aspect of the present invention, the signal generating unit according to the ninth aspect is an oscillator.

  According to a fifteenth aspect of the present invention, the signal generating unit according to the ninth aspect includes a capacitor, and sets the frequency of the input signal.

  According to a sixteenth aspect of the present invention, the motor driving device system according to the ninth aspect further includes a hall element.

  The motor start system of the present invention has an advantage that when a low level voltage is input, the minimum rotation speed value of the motor is adjusted, and the adaptation range of the fan motor can be made variable to meet the needs of various usage situations. is there.

The present invention provides a motor drive system capable of setting the rotation speed of a motor with a particularly low level input voltage, and includes a drive unit and voltage stabilization means, and generates a constant voltage. A voltage stabilizing unit that supplies the drive unit with the voltage stabilizing unit and a power supply unit that supplies the voltage to the drive unit. The drive unit has a high input voltage of the power supply unit. A signal generation unit that generates an input signal that varies depending on whether the signal level is low or a low level, a comparison unit that generates a comparison signal by comparing a constant voltage of the voltage stabilization unit and an input signal of the signal generation unit, And a control unit that adjusts the rotational speed of the motor based on the generated comparison signal.
In order to describe in detail the structure and characteristics of such a motor drive device system, a specific example will be given and described below with reference to the drawings.

  FIG. 1 discloses a block diagram of a motor drive system according to the present invention. According to the drawings, the motor drive system includes a power supply unit (11), a voltage stabilization unit (12), and a drive unit (10). The power supply unit (11) provides an input voltage to the voltage stabilization unit (12) and the drive unit (10), and the voltage stabilization unit (12) supplies a constant voltage to the drive unit (10).

  The drive unit (10) includes a signal generation unit (101), a comparison unit (102), and a control unit (103), and the signal generation unit (101) generates an input signal. The input signal varies depending on whether the input voltage of the power supply unit (11) is high level or low level. The comparison unit (102) compares the constant voltage of the voltage stabilization unit (12) with the input signal of the signal generation unit (101) to generate a comparison signal. The control unit (103) adjusts the rotation speed of the motor based on the comparison signal generated by the comparison unit (102).

  As disclosed in FIGS. 1 and 2, the power supply unit (11) is electrically connected to the power input pin (Vcc) of the drive unit (10) via the first capacitor (C1). The voltage stabilizing unit (12) is a voltage stabilizing circuit including a first resistor (121), a second resistor (122), a third resistor (123), and a voltage stabilizing means (124). The voltage stabilizing means (124) is a zener diode. The voltage stabilization unit (12) is electrically connected to the power supply unit (11) and further electrically connected to the VTH pin of the drive unit (10). The Hall element (13) is electrically connected to the HB, IN− and IN + pins of the drive unit (10). The HB pin generates a Hall bias, which is output to the Hall element (13) and activated. Also, a Hall reaction voltage is generated and output to the IN− and IN + pins. The second capacitor (C2) is electrically connected to the CPWM pin of the drive unit (10), and sets the frequency of the input signal of the signal generation unit (101). The motor (M1) is electrically connected to the first output terminal (OUT1) and the second output terminal (OUT2) of the drive unit (10).

  The power supply unit (11) converts the input voltage into a voltage stabilization unit (12), a drive unit (10), a signal generation unit (101) provided in the drive unit (10), a comparison unit (102), To the control unit (103). The supplied input voltage is reduced by the first resistor (121) of the voltage stabilization unit (12), and further divided by the second resistor (122) and the third resistor (123) of the voltage stabilization means (124). The constant voltage is output to the VTH pin of the drive unit (10).

  When the input voltage is at a high level, the motor (M1) rotates at full speed. However, when a low level voltage is input, a change occurs in the input signal, and the comparison unit (102) generates a comparison signal by comparing the constant voltage of the VTH pin with the input signal in which the change has occurred. The comparison signal is output to the control unit (103). Further, the control unit (103) transmits a control signal to the motor (M1) by the first output pin (OUT1) and the second output pin (OUT2) to control the rotation speed to the minimum.

  The voltage stabilizing means (124) may be a voltage stabilizer (not shown), and the signal generating unit (101) may be a resistor capacitor (RC) circuit or an oscillator (not shown). An effect is obtained.

  FIG. 3 discloses a second embodiment of the present invention. According to the drawing, the second embodiment comprises a power supply unit (21) and a drive unit (20), which provides an input voltage to the drive unit (20). . The drive unit (20) includes a voltage stabilization unit (204), a signal generation unit (201), a comparison unit (202), and a control unit (203). The voltage stabilizing unit (204) includes voltage stabilizing means (2043) for stabilizing the voltage, and the signal generating unit (201) generates an input signal. The input signal varies depending on the level of the input voltage of the power supply unit (21). The comparison unit (202) compares the constant voltage of the voltage stabilization unit (204) with the input signal of the signal generation unit (201) to generate a comparison signal. The control unit (203) controls the rotation speed of the motor according to the comparison signal generated from the comparison unit (202).

  As disclosed in FIGS. 3 and 4, the power supply unit (21) is electrically connected to the power input pin (Vcc) of the drive unit (20) via the first capacitor (C21). The voltage stabilization means (2043) is electrically connected from the 6VREG pin to the first resistor (2041) and the second resistor (2042), and further electrically connected to the VTH pin of each drive unit (20). . The voltage stabilizing means (2043) is a zener diode. The Hall element (23) is electrically connected to the HB, IN− and IN + pins of the drive unit (20). The HB pin generates a Hall bias, which is output to the Hall element (23) and activated. Also, a Hall reaction voltage is generated and output to the IN− and IN + pins. The second capacitor (C22) is electrically connected to the CPWM pin of the drive unit (20) and sets the frequency of the input signal of the signal generation unit (201). The motor (M2) is electrically connected to the first output terminal (OUT1) and the second output terminal (OUT2) of the drive unit (20).

  The power supply unit (21) converts the input voltage into the drive unit (20), the voltage stabilization unit (204) provided in the drive unit (20), the signal generation unit (201), and the comparison unit (202). To the control unit (203). The supplied input voltage is lowered by the voltage stabilization means (2043) of the voltage stabilization unit (204) and output to the 6VREG pin, and further divided by the first resistor (2041) and the second resistor (2042). The constant voltage is output to the VTH pin of the drive unit (20).

  When the input voltage is at a high level, the motor (M2) rotates at full speed. However, when a low level voltage is input, a change occurs in the input signal, and the comparison unit (202) generates a comparison signal by comparing the constant voltage of the VTH pin with the input signal in which the change has occurred. The comparison signal is output to the control unit (203). Further, the control unit (203) controls the first output pin (OUT1) and the second output pin (OUT2) to transmit a control signal to the motor (M2) so that the rotation speed becomes the minimum.

  The voltage stabilizing unit (204) may be a voltage stabilizer (not shown), and the signal generating unit (201) may be a resistor capacitor (RC) circuit or an oscillator (not shown). An effect is obtained.

  The above is a preferred embodiment of the present invention and does not limit the scope of the present invention. Therefore, any modifications or changes that can be made by those skilled in the art, which are made within the spirit of the present invention and have an equivalent effect on the present invention, shall belong to the scope of the claims of the present invention. To do.

It is the block diagram which showed the structure of the motor drive unit system by this invention. (Example 1) It is a circuit diagram of the motor drive device system disclosed in FIG. (Example 1) It is the block diagram which showed the structure of the motor drive unit system by 2nd Example. (Example 2) FIG. 4 is a circuit diagram of the motor drive system disclosed in FIG. 3. (Example 2)

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Drive unit 101 Signal generation unit 102 Comparison unit 103 Control unit 11 Power supply unit 12 Voltage stabilization unit 121 1st resistance 122 2nd resistance 123 3rd resistance 124 Voltage stabilization means 13 Hall element 20 Drive unit 201 Signal generation unit 202 Comparison unit 203 Control Unit 204 Voltage Stabilization Unit 21 Power Supply Unit 2041 First Resistance 2042 Second Resistance 2043 Voltage Stabilization Means 23 Hall Element C1 First Capacitor C2 Second Capacitor C21 First Capacitor C22 Second Capacitor M1 Motor M2 Motor

Claims (16)

In a motor drive device system configured to include a voltage stabilization unit, a drive unit, the voltage stabilization unit, and a power supply unit that provides a voltage to the drive unit.
The voltage stabilization unit includes voltage stabilization means, generates a constant voltage and supplies the constant voltage to the drive unit;
The drive unit compares a signal generation unit that generates an input signal that varies depending on whether an input voltage of the power supply unit is high or low, and a constant voltage of the voltage stabilization unit and an input signal of the signal generation unit. A comparison unit that generates a comparison signal, and a control unit that adjusts the rotational speed of the motor based on the comparison signal generated by the comparison unit,
When the voltage input from the power supply unit is at a low level, the input signal is changed, the comparison unit compares the constant voltage of the voltage stabilization unit with the input signal in which the change has occurred, and generates a comparison signal. A motor drive device system configured to control the rotation speed of the motor by the control unit.   The motor drive device system according to claim 1, wherein the voltage stabilization unit is a voltage stabilization circuit.   The motor drive system according to claim 1, wherein the voltage stabilizing means is a zener diode.   The motor drive system according to claim 1, wherein the voltage stabilization means is a voltage stabilizer.   The motor drive system according to claim 1, wherein the signal generation unit is a resistance capacitor (RC) circuit.   The motor drive system according to claim 1, wherein the signal generation unit is an oscillator.   The motor driving device system according to claim 1, wherein the signal generation unit includes a capacitor and sets a frequency level of an input signal.   The motor driving device system according to claim 1, wherein the motor driving device system further includes a hall element. In a motor drive system comprising a drive unit and a power supply unit that provides a voltage to the drive unit,
The drive unit includes: a voltage stabilizing unit that generates a constant voltage; a signal generating unit that generates an input signal that varies depending on whether the input voltage of the power supply unit is high or low; and the constant voltage of the voltage stabilizing unit; A comparison unit that compares the input signal of the signal generation unit to generate a comparison signal, and a control unit that adjusts the rotational speed of the motor based on the comparison signal generated by the comparison unit;
When the voltage input from the power supply unit is at a low level, the input signal is changed, and the comparison unit compares the constant voltage of the voltage stabilization unit with the input signal in which the change has occurred to generate a comparison signal. And a motor drive device system configured to control the rotational speed of the motor by the control unit.   10. The motor drive system according to claim 9, wherein the voltage stabilization unit includes voltage stabilization means.   The motor drive system according to claim 9, wherein the voltage stabilizing means is a zener diode.   The motor drive system according to claim 9, wherein the voltage stabilization means is a voltage stabilizer.   The motor drive system according to claim 9, wherein the signal generation unit is a resistance capacitor (RC) circuit.   The motor driving apparatus system according to claim 9, wherein the signal generating unit is an oscillator.   The motor drive system according to claim 9, wherein the signal generation unit includes a capacitor and sets a frequency level of an input signal.   The motor driving device system according to claim 9, wherein the motor driving device system further includes a Hall element.

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