KR20060109039A - Pan driver circuit using temperature sensor - Google Patents

Abstract

A fan driver circuit is provided to prevent unnecessary operation and noise of a fan by automatically turning on/off the fan in accordance with the temperature. A fan driver circuit comprises a transistor(Q2) which is turned on by receiving driving voltage through a base; a resistor(R1) for receiving power of a vehicle or an electronic product; a resistor(R2) having one end serially connected to the resistor(R1) and the other end which is grounded so as to cooperate with the resistor(R1) to distribute power of the vehicle or the electronic product; a transistor(Q1) which is turned on by receiving power of the vehicle or the electronic product through an emitter and receiving voltage of the resistor(R2) through a base when the first transistor is turned on; a resistor(R3) having one end connected to a collector of the transistor(Q1); a resistor(R4) having one end connected to the other end of the resistor(R3) and the other end which is grounded; a temperature sensor which has a resistance component, and is connected to the resistor(R4) in parallel; a transistor(Q3) which is turned on by receiving voltage distributed by resistors(R3,R4) and the resistance component of the temperature sensor, and passes power of the vehicle or the electronic product provided through the collector of the transistor(Q1); a resistor(R5) for dropping voltage of power of the vehicle or the electronic product provided through a collector of the transistor(Q3); and a transistor(Q4) which is turned on by receiving voltage dropped by the resistor(R5) through a base, and provides power of the vehicle or the electronic product to a fan.

Description

Fan driver circuit using temperature sensor {PAN DRIVER CIRCUIT USING TEMPERATURE SENSOR}

1 is a circuit diagram of a fan driving circuit using a temperature sensor according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fan driving circuit for cooling a set, and more particularly to a fan driving circuit having a temperature sensor that is automatically turned on / off according to a temperature.

In general, automobiles and electronics (hereinafter collectively referred to as "sets") generate heat due to the movement and power of the engine and motor. These columns degrade the performance of the set. The fan is driven to cool the heat by air to prevent performance degradation due to heat.

Typically, the fan operates from the point where power is applied to the set. Since these fans ventilate the air by the rotation of the motor, noise occurs during operation. Over time, the fan ages and the noise becomes louder.

As described above, since the conventional fan operates from the time when the power is applied to the set, the fan is driven from the initial stage when no heat is generated in the set, thereby generating unnecessary noise, shortening the fan aging, that is, reducing the fan life, There was a problem that the noise is increased.

Accordingly, an object of the present invention is to provide a fan driving circuit using a temperature sensor that measures the temperature of a set using a temperature sensor and drives the fan when the measured temperature is above a predetermined temperature.

The circuit of the present invention for achieving the above object; A fan driving circuit using a temperature sensor receiving a driving voltage and a set power source from a microcomputer, the fan driving circuit comprising: a transistor (Q2) turned on by receiving the driving voltage as a base, a resistor (R1) receiving the set power source, The resistor R2 is connected in series with the resistor R1 and the other side is grounded to divide the resistor R1 with the set power, and the set power is input to the emitter and the first transistor is turned on. Transistor Q1 that is turned on by receiving the voltage applied by voltage-divided resistor R2 as a base, resistor R3 having one side connected to the collector of transistor Q1, and the other side of resistor R3 And a temperature sensor connected in series with the other side and grounded at the other side, having a resistance component, and connected in parallel with the resistor R4, the resistor R3, the resistor R4, and the temperature sensor. The set power is divided into voltages by the parallel resistance of the resistance component. The transistor Q3 for turning on the input voltage and passing the set power supplied through the collector of the transistor Q1, and a resistor for dropping the voltage of the set power provided through the collector of the transistor Q3. And a transistor Q4 that is turned on by receiving the voltage dropped voltage as a base and provides the set power to the fan.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to deviate from the gist of the present invention.

In the present invention, the resistance component is increased by the heat of the temperature sensor, and in the fan driving circuit using the temperature sensor which receives the driving voltage and the set power from the microcomputer, the transistor is turned on by receiving the driving voltage as a base ( Q2), a resistor (R1) receiving the set power, a resistor (R2) connected in series with the resistor (R1) and grounded at the other side to divide voltage between the resistor (R1) and the set power source, and Transistor Q1 that receives the set power from the emitter and is turned on by receiving the voltage applied by the voltage-divided resistor R2 when the first transistor is turned on as a base, and the collector of one side of the transistor Q1 A temperature sensor connected in parallel with the resistor R3 connected to the resistor R3, the resistor R4 connected in series with the other side of the resistor R3, and the other side grounded; , The resistance (R3) A transistor for turning on the set power and passing the set power provided through the collector of the transistor Q1 by receiving the voltage divided by the set power by the resistance of the resistor R4 and the resistance component of the temperature sensor. Q3, a resistor R5 for dropping the voltage of the set power source provided through the collector of the transistor Q3, and the set voltage is turned on by receiving the voltage drop voltage as a base. The transistor Q4 is provided.

1 is a circuit diagram of a fan driving circuit using a temperature sensor according to an embodiment of the present invention, which shows an example applied to an automobile. A description with reference to FIG. 1 is as follows.

The fan driving circuit using the temperature sensor according to the present invention has four transistors (Q1, Q2, Q3, Q4), six resistors (R1, R2, R3, R4, R5, R6) and four capacitors (C1, C2, C3, C4) and one Zener diode (D1), thermistor and temperature sensor (PAN).

When the power is applied to the set, the driving voltage 5V is applied to the set power supply 12V and the microcomputer (not shown) through the base of the transistor Q1. The transistor Q1 is turned on when the driving power is input from the microcomputer. Since the transistor Q1 is turned on, the transistor Q1 is operated at the base of the transistor Q1 by voltage division between the resistor R1 and the resistor R2. Since transistor Q1 is also turned on. Thus, a set supply 12V is provided to node A. When a 12V power source is applied to the node A, the node B is provided with a voltage divided by the parallel resistance of the resistance components of the resistor R3, the resistor R4, and the thermistor P1. Since the resistance component of the thermistor P1 varies with temperature, the parallel value of the resistance component of resistor R4 and thermistor P1 also varies with temperature. For example, as the temperature increases, the resistance component of the thermistor P1 also increases, so that the parallel resistance value of the thermistor P1 and the resistor R4 also increases. Therefore, the voltage provided to the node B also increases. When the voltage across the node B rises to an operating voltage for turning on the transistor Q3, the transistor Q3 is turned on to provide the node C with an operating voltage at the base of the transistor Q4, thereby providing a transistor Q4. ) Is turned on. When Q4 is turned on, the power of node A is supplied to the fan to drive the fan.

The temperature at which the fan is driven is determined by resistor R3 and resistor R4. Therefore, in order to set a desired temperature, the resistance values of the resistors R3 and R4 may be adjusted.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

According to the present invention as described above, the fan is automatically turned on / off according to the temperature, and thus, unnecessary driving of the fan can be prevented at the time of initial driving that does not generate heat or when the temperature decreases due to the driving of the fan. By preventing the driving, the noise of the fan can be reduced, and the life of the fan can be extended.

Claims (1)

In a fan driving circuit using a temperature sensor that receives a driving voltage and a set power from a microcomputer, A transistor Q2 applied to the driving voltage based on the driving voltage; A resistor R1 receiving the set power; A resistor R2 connected in series with the resistor R1 and grounded at the other side to divide voltage between the resistor R1 and the set power source; A transistor Q1 that receives the set power as an emitter and receives the voltage applied by the voltage-distributed resistor R2 as a base when the first transistor is turned on; A resistor R3 connected to one side of the collector of the transistor Q1; A resistor R4 connected in series with the other side of the resistor R3 and grounded at the other side; A temperature sensor having a resistance component and connected in parallel with the resistor R4; A set provided by the collector of the transistor Q1 is turned on by receiving the voltage-divided voltage of the set power by the parallel resistance value of the resistor R3 and the resistor R4 and the temperature sensor. A transistor Q3 for passing a power supply, A resistor R5 for dropping the voltage of the set power source provided through the collector of the transistor Q3; And a transistor (Q4) configured to receive the voltage dropped voltage as a base and to be turned on to provide the set power to the fan.

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