KR19990034540U - Cooling Fan Speed Control Circuit According to Temperature - Google Patents

Abstract

The present invention relates to a cooling fan speed control circuit for controlling the fan speed by supplying the supply voltage of the fan motor differently according to the temperature generated inside the set in the PC integrated monitor fan control circuit.

In the conventional cooling fan speed control circuit, the supply voltage of the fan motor is supplied only by the switching of the relay according to the temperature detected by the thyristor, so that the speed is large even if the cooling fan speed is determined and power consumption is lowered. It does not decrease, there is a problem that lowers the efficiency of the fan motor.

The present invention is to supply a different supply voltage of the fan motor according to the temperature detected from the thyristor to solve the above problems, it is to control the speed of the fan motor in accordance with the temperature.

Description

Cooling Fan Speed Control Circuit According to Temperature

The present invention relates to a fan motor control circuit of a PC integrated monitor, and more particularly, to a cooling fan speed control circuit according to a temperature so that the supply voltage of a cooling fan can be differently adjusted according to a temperature inside a set.

The configuration of the cooling fan control circuit according to the conventional temperature is shown in Figure 1,

First, the thermistor TH1, which represents a very large and nonlinear resistance change according to the temperature change inside the set, and the thermistor TH1 and the reference voltage Vref are connected to compare a magnitude of a predetermined voltage to output a comparison signal. The comparator 1, the transistor Q1 which is turned on / off according to the comparison signal output from the comparator 1, and the relay unit 2 is turned on / off according to the on / off operation of the transistor Q1. ), A relay unit (2) comprising a transistor (Q2) for driving), a coil (L1) and a relay switch (SW1) for switching according to an on / off operation of the transistor (Q2), and the relay unit (2) The fan motor M1 is driven by the voltage V1 according to the switching operation of the relay switch SW1.

Reference numerals R1-R5 are resistors, and D1 is a diode.

The operation of the fan speed control circuit according to the conventional temperature configured as described above will be described with reference to FIGS. 1 and 2.

As the inside of the set rises to a constant temperature T1 as shown in FIG. 2, the set value increases to the resistance value Rb of the thermistor TH1, and the resistor R1 connected to the constant power source B ⁺ by the thermistor TH1. The voltage also rises at the positive terminal (+) of the comparator 1 connected at the contact portion A with ().

When the positive terminal (+) voltage of the comparator 1 rises and becomes larger than the reference voltage Vrf connected to the negative terminal (−), the output signal of the comparator 1 becomes high (H). The transistors Q1 and Q2 are turned on.

That is, according to the on operation of the transistor Q2, the relay unit 2 connected to the coil L1 of the diode D1 is driven and the relay switch SW1 connected to the constant voltage V1 switches to operate the fan motor. By driving M1), the temperature inside the set is lowered to the reference set temperature T as shown in FIG. 2, so that the resistance value of the thermistor TH1 is also lowered to the reference set resistance value Ra.

Therefore, when the positive terminal (+) voltage of the comparator 1 is larger or smaller than the reference voltage Vref, the circuit operates or stops, thus only performing a role of the switching circuit, and the relay switch SW1 is driven to switch. The fan motor M1 is operated.

Conventionally, in driving a cooling fan using a temperature generated inside the set, the cooling fan is controlled at a supply voltage by a constant voltage according to the switching of the relay, so that the speed is determined and the cooling fan is reduced even if the power consumption decreases. It does not reduce the speed of, thereby reducing the efficiency of the cooling fan.

The present invention to solve the above problems is to supply the supply voltage of the cooling fan differently according to the temperature generated in the set to adjust the speed, and to reduce the power and noise of the cooling fan at low temperature. .

1 is a configuration diagram of a conventional cooling fan speed control circuit

2 is a graph showing the resistance characteristics of the thyristor according to the conventional temperature

3 is a configuration diagram of a cooling fan speed control circuit according to the present invention temperature

4 is a relationship graph between the present invention temperature and the cooling fan supply voltage

The configuration of the fan speed control circuit according to the present invention temperature is shown in Figure 3,

Fan motor speed control unit 11 for controlling the speed of the fan motor by the voltage according to the temperature change in the set, and the voltage supply unit 12 for introducing the input fan input voltage (Vi) to the fan motor speed control unit 11 It is composed.

On the other hand, the fan motor speed control unit 11 includes a thermistor TH11 which represents a very large and nonlinear resistance change according to the temperature change inside the set, and a transistor Q11 that outputs a voltage according to the temperature change of the thermistor TH11. And a zener diode ZD11 for changing the supply voltage of the fan motor by adding the internal voltage to the output voltage of the transistor Q11.

Reference numerals R11-R15 are resistors, D11 are diodes, and Q12 are transistors.

Referring to Figures 3 and 4 the operation of the fan speed control circuit according to the present invention configured as described above is as follows.

First, when the high signal H of the fan motor control signal is input to the fan motor speed controller 11 while the fan input voltage Vi is supplied, the fan motor speed is the thyristor TH11 of the fan motor speed controller 11. It changes according to the resistance value of.

That is, the connection portion voltage Va of the resistor R11 connected to the constant voltage B ⁺ by the thyristor TH11 is Therefore, the voltage Va changes according to the resistance value according to the sensing temperature of the thyristor TH11.

Here, when the temperature inside the set rises, the resistance value of the thyristor TH11 becomes high, and thus the voltage Va becomes high. When the temperature decreases, the resistance value of the thyristor TH11 becomes low, thus the voltage Va decreases. You lose.

The transistor Q11 of the fan motor speed control unit 11 receives the fan input voltage Vi flowing through the resistor R14 and the diode D11 of the voltage supply unit 12 connected to the collector terminal. It is turned on by the high signal of and is output to the emitter stage.

The emitter voltage Vb of the transistor Q11 generates a voltage about 0.7V lower than the voltage Va.

That is, Vb = Va-0.7V = to be.

At this time, the transistor Q12 of the voltage supply unit 12 is turned off by the on operation of the transistor Q11.

The voltage Vc generated at the cathode of the zener diode ZD11 connected to the emitter terminal of the transistor Q11 is the sum of the internal voltage V _ZD11 of the zener diode ZD11 to the voltage Vb. Voltage, and this voltage Vc becomes the supply voltage V _FAN of the fan motor.

In other words, to be.

4 is a graph showing the relationship between temperature and fan motor supply voltage.

Since the resistance value of the thyristor (TH11) has almost no value due to the voltage (Vmin) for the minimum temperature (0 ° C), "V _FAN = V _ZD11 ", and the voltage (Vmax) for the maximum temperature (100 ° C). Since the resistance of the thyristor TH11 is the highest state, considering the resistance values of the thyristor TH11 and the resistor R12, "V _FAN = V _ZD11 + B ⁺ ".

That is, the fan motor supply voltage (V _FAN ) is _changed from "V _ZD11 " to "V _ZD11 + B ⁺ " according to the temperature to control the speed of the fan motor.

The present invention has the effect of reducing the noise of the fan motor while controlling the speed by controlling the supply voltage of the fan motor by using the resistance characteristics according to the temperature of the thyristor.

Claims (2)

In the cooling fan control circuit of the PC integrated monitor, Fan motor speed control unit 11 for controlling the speed of the fan motor by the resistance variable according to the temperature change in the set, and voltage supply unit for introducing the input fan input voltage (Vi) to the fan motor speed control unit ( Cooling fan speed control circuit according to the temperature, characterized in that consisting of 12). 2. The fan motor speed control unit (11) according to claim 1, wherein the fan motor speed control unit (11) includes a thermistor (TH11) indicating a very large and nonlinear resistance change according to the temperature change in the set, and a voltage according to the temperature change of the thermistor (TH11). And a zener diode (ZD11) for changing the supply voltage of the fan motor by adding an output transistor (Q11) and an internal voltage to the output voltage of the transistor (Q11).