KR19980067126U - Drive control unit of cooling fan motor - Google Patents

Abstract

The present invention relates to a drive control device for a cooling fan motor, and an object thereof is to achieve power saving by adaptively controlling a fan drive motor according to a temperature state of a heat radiation target device.

In order to achieve the object of the present invention, a cooling fan motor for providing a rotational force to the cooling fan by applying a motor driving voltage to cool the heat dissipation target device that requires heat dissipation, and a drive for controlling the driving of the cooling fan motor A drive control apparatus for a cooling fan motor having a transistor for power supply, comprising: a temperature sensing unit configured to detect a heating state of the heat radiating target device and output a voltage proportional to a temperature; and an output of the temperature sensing unit output at a predetermined reference temperature. According to the drive control device of the present invention, the drive control device including a drive control unit for controlling the operation of the cooling fan motor by hysteresis on / off the driving transistor according to the present invention, a power supply device and a heat dissipation target device Effective heat dissipation by adaptively driving cooling fan motor according to temperature change Effects and power savings can be achieved at the same time.

Description

Drive control unit of cooling fan motor.

The present invention relates to a drive control device for a cooling fan motor, and more particularly, a temperature sensing sensor is provided on a closed circuit path formed by a power supply device and a cooling fan motor to sense a temperature of a heat dissipation target device and a power supply device. After that, the present invention relates to a drive control apparatus for a cooling fan motor capable of adaptively driving a cooling fan motor according to a temperature change.

In general, a motor-driven cooling fan protects most electronic devices and various mechanical devices such as power supplies, amplifiers, high performance CPUs, printers, copiers, and the like from physical damage, malfunctions, and deformation of operating characteristics due to thermal causes. It is widely used for forced heat radiation purposes.

In the case of heat dissipation using a cooling fan, a commonly used method is a method in which a power switch is turned on at the same time as it is turned on and continuously driven to perform a heat dissipation function while the power switch is kept on. In another method, when the heat radiation target device is active, the heat radiation target device performs heat radiation in a normal operation mode, and the heat radiation target device is not activated for a predetermined time while the power is supplied, such as a sleep mode. At the time of turning off the cooling fan motor to save power.

Referring to Figure 1 attached to the drive control apparatus for a cooling fan motor according to the prior art as follows. 1 illustrates a drive control apparatus for a cooling fan motor according to the prior art.

As shown in FIG. 1, a driving control apparatus for a cooling fan motor according to the related art is provided in parallel with a cooling fan motor 10 and a cooling fan motor 10 that provide rotational force to the cooling fan by applying a motor driving voltage. A diode 20 connected to serve as a snubber circuit to block back EMF generated from the cooling fan motor 10, and a driving transistor 40 to drive the cooling fan motor 10 according to the motor driving voltage. And a CPU 30 connected to the collector of the driving transistor 40 to protect the driving transistor 40 from reverse overvoltage and controlling an average voltage applied to the control terminal of the driving transistor 40 ( Not shown).

A driving control apparatus for a cooling fan motor according to the related art configured as described above will be described in detail with reference to FIG. 1.

In the former case, as the power switch is turned on, the power switch is turned on at the same time, and while the power switch is kept on, the constant motor drive voltage is continuously provided to maintain a constant rotational speed regardless of the operation mode of the heat dissipation target device. The cooling fan rotates to perform heat dissipation.

On the other hand, in the latter case, the square wave signal (V _in ) has a duty ratio between a frequency range of several kHz to several tens of kHz with the motor driving voltage from the simplest method of controlling the motor supply voltage on and off depending on the operation mode. ) Can be applied to the driving transistor 40 in various ways to adaptively save power depending on the situation.

In the above, when the wind speed is controlled by applying the square wave signal V _in as a motor driving voltage, the base wave of the cooling fan driving transistor 40 depends on the frequency and duty ratio of the square wave signal V _in . By adjusting the average voltage applied to control the collector current to control the wind speed of the cooling fan, in this case, the higher the frequency of the square wave signal (V _in ) and the greater the duty ratio, the higher voltage is applied to the cooling fan motor 10.

On the other hand, the diode 30 serves to prevent the driving transistor 40 from being damaged or deformed due to excessive voltage. That is, the driving transistor 40 generates a transient voltage by turning on / off a motor driving voltage or continuously repeating a high state and a low state of the square wave signal V _in to generate a cooling fan motor ( The counter electromotive force is generated by the armature coil of 10).

At this time, the diode 20 performs the snubber function by feedbacking the reverse overvoltage generated by the counter electromotive force, and the diode 30 performs a function of directly protecting the transistor 40 from the reverse overvoltage.

However, in the drive control apparatus for a cooling fan motor according to the prior art, in the former case, when the heat dissipation target device is not active, the current consumption is small and the cooling fan needs to be stopped due to the low heat generation. The cooling fan motor will remain on until the power switch is turned off, not only producing noise when not performing work, but also consuming unnecessary power.

In addition, in the latter case, turning off the cooling fan motor in an operation mode such as an idle mode, i.e., an operation mode in which an inactive state is maintained for a certain period of time can save power. However, since the drive control of the cooling fan motor is performed regardless of the heat generation of the power supply, it is difficult to expect an effective power saving effect.

Therefore, the present invention has been devised to solve such a problem, and has a temperature sensor to detect the temperature of the heat dissipation target device and the power supply, and then adapts a cooling fan motor according to the temperature change. It is an object of the present invention to provide a drive control apparatus for a cooling fan motor that can achieve effective heat dissipation effect and power saving effect at the same time.

1 is a circuit diagram showing a drive control apparatus for a cooling fan motor according to the prior art;

Figure 2 is a circuit diagram showing a drive control device of a cooling fan motor according to the present invention.

* Explanation of symbols on the main parts of the drawings *

10: cooling fan motor 20, 30: diode

40: driving transistor 110: temperature sensing unit

120: drive control unit R _th : thermistor

R _d : Distribution resistor R ₁ : First resistor

R ₂ : second resistor R ₃ : third resistor

OP1: op amp

In order to achieve the object of the present invention, the drive control device of the cooling fan motor according to the present invention is provided with a temperature sensing sensor on the closed circuit path constituted by the power supply device and the cooling fan motor power supply and heat dissipation target It checks the thermal state of the device and gives adaptability during heat dissipation by varying the driving state of the cooling fan motor according to the degree of heat generation. The heat dissipation is performed by turning on the cooling fan motor, and in particular, it is characterized by hysterically controlling the timing of turn-on and turn-off.

Referring to Figure 2 attached to the drive control apparatus of the cooling fan motor according to the present invention are as follows.

Figure 2 is a circuit diagram showing a drive control apparatus for a cooling fan motor according to the present invention, the same reference numerals are given to the same parts as in the prior art.

As shown in FIG. 2, the driving control apparatus of the cooling fan motor according to the present invention provides cooling power by applying a motor driving voltage to cool a heat dissipation target device (not shown) that requires heat dissipation. A diode 20 connected in parallel to the fan motor 10, the cooling fan motor 10, and acting as a snubber circuit to block back EMF generated from the cooling fan motor 10, and a cooling fan motor ( 10. Drive control of a cooling fan motor comprising a driving transistor 40 for controlling the driving of the drive 10 and a diode 30 connected to the collector of the driving transistor 40 to protect the driving transistor 40 from reverse overvoltage. In the apparatus, the temperature sensing unit 110 for detecting a heat state of the heat radiation target device (not shown) and outputs a voltage proportional to the temperature, and the output of the temperature sensing unit 110 output at a predetermined reference temperature According to the award By on / off the driving transistor 40 for a hysteresis (hysterisis) ever be configured to include a drive control unit 120 for controlling operation of the cooling fan motor 10.

Here, the temperature sensing unit 110 has a thermistor R _th having a negative resistance value inversely proportional to the temperature of the heat dissipation target device having one axis connected to a supply power supply, and one side of the temperature detector 110 having the other side of the thermistor R _th . And a distribution resistor (R _d ) for distributing and supplying the supply power through a contact with the thermistor (R _th ) connected to the ground.

In addition, the driving controller 120 includes an operational amplifier OP1 in which an inverting terminal receives an output of the temperature sensing unit 110 and a non-inverting terminal is grounded through a first resistor R ₁ , and the operational amplifier ( the non-inverting terminal and the first resistor (R ₁₎ a second resistor (R _2), and one side is the joint contact is connected to one side of the common contact and the other end is connected to the output terminal of the operational amplifier (OP1) between the OP1) A Schmitt trigger hysterically operated comprising a third resistor R ₃ connected to the power supply and the other end connected to the power supply, and an inverter INV1 for inverting the output of the operational amplifier OP1. To form.

The operation of the drive control apparatus for the cooling fan motor according to the present invention configured as described above will be described with reference to FIG. 2.

First, briefly describing the thermistor used in the present invention, the thermistor is a semiconductor device which is mixed and sintered by combining various oxides such as manganese, nickel, copper, cobalt, chromium, iron, etc. Is a sensitive device.

It is commonly used for temperature compensation of a temperature sensor or an electronic circuit as it is a negative resistance type device that exhibits a property of decreasing resistance when temperature rises, that is, negative resistance having a resistance value inversely proportional to temperature.

Characteristic resistance of thermistor used in the temperature sensing unit 110 silver

[Equation 1]

Becomes, where Are the coefficients of resistance of the reference temperature and thermistor, respectively, Are the temperatures obtained by converting the calculated temperature and the reference temperature into absolute temperatures, that is, absolute temperature values in units of K, respectively.

The present invention, as described above, by checking the thermal state of the power supply and the heat dissipation target device to give adaptability during heat dissipation by varying the driving state of the cooling fan motor according to the heat generation degree, the heat dissipation target device and power source When the temperature in the supply device rises, the resistance value of the thermistor R _th As is decreased, the output of the temperature sensing unit 110, that is, the divided voltage that can be expressed as ) Is increased.

[Equation 2]

The distribution voltage ( ) Is continuously increased to be greater than the first reference value, which is the upper trip point (UTP) of the Schmitt trigger and is applied to the inverting terminal of the operational amplifier OP1, the output of the operational amplifier OP1 is low ), And the output is inverted by the inverter INV1, so that the output of the driving control unit 120 becomes high to turn on the driving transistor 40.

On the other hand, when the temperature in the heat dissipation target device and the power supply is lowered by the rotation of the cooling fan, the resistance value of the thermistor R _th is obtained. As is increased, the divided voltage ( ) Will decrease.

The distribution voltage ( ) Is continuously decreased to become smaller than the second reference value, which is the lower trip point (LTP) of the Schmitt trigger, and is applied to the inverting terminal of the operational amplifier OP1, and the output of the operational amplifier OP1 is high. ), And the output is inverted by the inverter INV1, so that the output of the driving controller 120 is turned low to turn off the driving transistor 40. Here, although the driving control unit 120 of the present invention employs a Schmitter trigger to perform hysteretic operation, the driving control unit 120 is a conventional type comparator in which an output state is changed based on a reference threshold voltage using an operational amplifier. It is to be understood that the present invention can be accomplished even if the < RTI ID = 0.0 >

As described above, a cooling fan motor is provided with a motor driving voltage to provide rotational force to the cooling fan to cool the heat radiation target device requiring heat radiation, and a driving transistor for controlling driving of the cooling fan motor. In the drive control device of the cooling fan motor, the driving transistor according to the output of the temperature sensing unit for detecting the heat generated state of the heat radiation target device to output a voltage proportional to the temperature, and the temperature sensing unit output at a predetermined reference temperature According to a drive control device of a cooling fan motor of the present invention including a drive control unit for controlling the operation of the cooling fan motor by hysterically turning on / off, according to a temperature change of a power supply device and a heat radiation target device. Effective heat dissipation and energy savings by adaptively driving cooling fan motors It can be achieved at the same time.

Claims (4)

Drive control of a cooling fan motor having a cooling fan motor that is supplied with a motor driving voltage to provide a rotational force to the cooling fan to cool the heat dissipation target device that requires heat radiation, and a switching element that controls driving of the cooling fan motor. In an apparatus; A temperature sensor configured to detect a heat state of the heat dissipation target device and output a voltage proportional to a temperature; And And a driving control unit for controlling the operation of the cooling fan motor by hysterically turning on / off the switching element in accordance with the output of the temperature sensing unit. The method of claim 1, wherein the temperature sensing unit, A thermistor having a negative resistance value inversely proportional to the temperature of the heat dissipation target device, with one axis being connected to a power supply; And And a distribution resistor having one side connected to the other side of the thermistor, the other side being grounded, and distributing and supplying the supply power through a common contact with the thermistor. The apparatus of claim 1, wherein the driving controller is a Schmitt trigger having hysteresis characteristics. 2. The drive control apparatus for a cooling fan motor according to claim 1, wherein the drive control unit is a comparator using an operational amplifier.