JPH0753438Y2 - Fan motor drive circuit - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a drive circuit of a fan motor that rotates according to a supply voltage, and more particularly, to a fan that responds to the temperature of a cooling target cooled by the fan motor. The present invention relates to a fan motor drive circuit configured to control the magnitude of a voltage supplied to a motor.

(Prior Art) FIG. 3 is a configuration block diagram showing an example of a conventional fan motor drive circuit. In the figure, 1 is a DC voltage source Vi
The voltage control means 2 for inputting n is a fan motor to which the voltage from the voltage control means 1 is supplied, and the rotation speed of the fan motor changes according to the voltage supplied from the voltage control means 1. Reference numeral 3 is a temperature detecting means for detecting the temperature of a cooling target cooled by a fan motor, and for example, a thermistor is used. Reference numeral 4 is a reference voltage source (reference voltage Vr) connected in series with the thermistor 3, and 5 is an error amplifier, which is a voltage Vout supplied to the fan motor 2 and the reference voltage Vr divided by the thermistor 3 and the resistor R1. Amplifies the difference between
It is provided to the voltage control means 1.

When the temperature of the cooling target rises, the resistance value of the thermistor 3 falls and the input voltage et to the error amplifier 5 rises. The voltage control means 1 receives the output from the error amplifier 5 and controls so as to increase the supply voltage Vout to the fan motor 2. This increases the rotation speed of the fan motor 2,
Lower the temperature of the cooling target. When the temperature of the object to be cooled decreases, the reverse operation is performed.

(Problems to be solved by the invention) By the way, in such a device, the installation position of the fan motor 2 is separated from the voltage control means 1, and the thermistor 3 for detecting the temperature also needs to be installed near the fan motor. ,
It is necessary to stretch the cable up to that point. Here, if the cable connected to the thermistor 3 is broken or a connection failure occurs, it seems that the apparent temperature decreases (the resistance value increases), the supply voltage Vout decreases, and the fan motor 2 There is a problem that the number of rotations of is reduced more than necessary.

The present invention has been made in view of such a problem, and an object thereof is to prevent the rotation speed of the fan motor from being lowered more than necessary even if the cable connected to the temperature detecting means is broken or has a poor connection. To realize a highly reliable fan motor drive circuit.

(Means for Solving the Problem) The present invention which solves the above-mentioned problems includes an error amplifier (5) having its own supply voltage as one input.
A voltage control means (1) for controlling the magnitude of the supply voltage based on the output of the error amplifier, and a fan motor (2) whose rotation speed is controlled according to the supply voltage from the voltage control means. In a fan motor drive circuit provided, a temperature detection means (3) for detecting the temperature of a cooling target cooled by the fan motor, a voltage corresponding to a signal from the temperature detection means, and a predetermined voltage (VR) are provided. A voltage (et) corresponding to the signal from the temperature detecting means is applied to one input terminal of the comparator (7) to be compared, and the signal from the comparator is applied to the other input terminal through the resistor (R4). And an amplifier (8) to which the predetermined voltage (VR) is applied via a resistor (R5), the output from the amplifier (8) being supplied to the other of the error amplifiers (5). Fans that are supposed to be given as input It is over motor drive circuit.

(Operation) When the cable connected to the temperature detection means is broken, for example, the output of the comparator becomes high level, and the voltage control means sets the voltage supplied to the fan motor to a constant value corresponding to a predetermined voltage according to the output signal from the amplifier. Control so that the value is reached.

Embodiment An embodiment of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a configuration block diagram showing an embodiment of the present invention. In the figure, the same parts as those in FIG. 3 are designated by the same reference numerals. 1 is the DC voltage Vin from the DC voltage source
Is a voltage control means for controlling the magnitude of the supply voltage Vout to the fan motor 2, and for example, a stabilized power supply circuit of a series dropper type or a switching type is used. Reference numeral 3 is a temperature detecting means for detecting the temperature of a cooling target (not shown) cooled by the fan motor 2, and for example, a thermistor is used. Reference numeral 4 is a DC reference power source that outputs a predetermined reference voltage VR, and the temperature detecting means 3 is connected via a resistor R1.
This reference voltage VR is applied to. Reference numeral 6 is a voltage signal generated at both ends of the temperature detecting means 3, and a temperature signal corresponding to the detected temperature.
A first amplifier for outputting et, 7 is a comparator for comparing the temperature signal et from the first amplifier 6 with a reference voltage VR, 8
Is a second amplifier having a diode D1 between the input and output terminals for inputting the temperature signal et and the signal from the comparator 7 and amplifying the difference, the output of which is via the diode D2 and the error amplifier 5 Is applied to one of the input terminals (+).

The fan motor 2 is connected to the other input terminal (-) of the error amplifier 5.
Voltage Vout supplied to the voltage control means 1 is applied to the voltage control means 1. The voltage control means 1 is configured to control the supply voltage Vout to the fan motor 2 according to the signal VO2 from the second amplifier 8 given to the input terminal (+) of the error amplifier 5.

The operation of the device configured as described above will be described below.

FIG. 2 is a diagram for explaining the operation.

Here, when the thermistor is used as the temperature detecting means 2, its resistance value Rt is
As shown in (a), the first amplifier 6 amplifies the signal corresponding to this resistance value change and outputs the temperature signal et. This temperature signal et also changes (decreases as the temperature rises) like the resistance value. The comparator 7 receives this temperature signal et
Compared with the reference voltage VR, et <VR in the normal operating range as shown in (a). Therefore, the output of the comparator 7 is at low level.

The second amplifier 8 inputs the temperature signal et and also the voltage e01 as expressed by the following equation determined by the ratio of the reference voltage VR and the combined resistance of the resistors R5, R4 and R7, and the difference between them. To amplify.

Then, as shown in (b), in the normal operating range, the signal e02 that gradually increases with the temperature rise is output to the error amplifier 5 as a reference.

This signal e02 is as follows depending on the magnitudes of the temperature signal et and the output signal e01 of the comparator 7, ignoring the forward voltage drop of the diode.

When et ≧ e01 e02 = e01 et <e01 When e02 = e01 + (e01−et) × (R8 / R6) The voltage control means 1 receives the signal from the error amplifier 5 and supplies the voltage Vout to be supplied to the fan motor 2. , (C), the temperature is controlled to increase as the temperature rises. As a result, the rotation speed of the fan motor 2 is increased, and the cooling effect is increased to lower the temperature. When the temperature falls below a certain value, the voltage e02 given as a reference to the error amplifier 5 becomes a certain value, and thus the supply voltage Vout also becomes a certain value, for example, the lowest rated voltage of the fan motor. . These constant values can be adjusted by the value of each resistor and the value of the reference voltage VR.

Here, the thermistor 3 itself or this thermistor 3
When the cable connected to the cable is broken or the connection is defective, the resistance value increases. Therefore, the temperature signal et is apparently
The temperature changes as if it had dropped. This gives the temperature signal
When et increases, the output of the comparator 7 becomes high level and the output voltage e01 increases. At this time, if the relation of et ≧ e01 is established, the output e02 of the second amplifier 8 becomes e02.
It becomes equal to 01 and becomes a constant value as shown in (b). Therefore, the supply voltage Vout is also maintained at a constant value as shown in (c), and if the output voltage e01 at this time is set to an appropriate value, the rotation speed of the fan motor 2 becomes lower than necessary. It is possible to secure a constant number of rotations.

In the above description, it is assumed that a thermistor is used as the temperature detecting means. However, the temperature detecting means may be a resistance temperature detector, a thermocouple, or another semiconductor temperature sensor.

(Effects of the Invention) As described in detail above, according to the present invention, even if the temperature detecting means itself fails, or the cable connected to the temperature detecting means is disconnected or has a poor connection, the fan motor It is possible to prevent the number of revolutions from decreasing more than necessary, and it is possible to provide a highly reliable fan motor drive circuit.

In the present invention, the amplifier 8 has one input terminal to which a voltage (et) corresponding to the signal from the temperature detecting means 3 is applied, and the other input terminal to which the signal from the comparator 7 passes through the resistor R4. Is applied at the same time, and the predetermined voltage VR is applied via the resistor R5, the resistors R4, R
The threshold value for cable disconnection and connection failure judgment can be easily adjusted by the value of 5 or the predetermined voltage value VR.

[Brief description of drawings]

FIG. 1 is a configuration block diagram showing an embodiment of the present invention, and FIG.
FIG. 3 is a diagram for explaining the operation, and FIG. 3 is a configuration block diagram showing a conventional circuit. 1 ... Voltage control means 2 ... Fan motor 3 ... Temperature detection means 4 ... Reference voltage source 5 ... Error amplifier 7 ... Comparator 6, 8 ... Amplifier

Claims (1)

[Scope of utility model registration request] 1. An error amplifier (5) having its own supply voltage as one input, voltage control means (1) for controlling the magnitude of the supply voltage based on the output of this error amplifier, and this voltage control means. In a fan motor drive circuit including a fan motor (2) whose rotation speed is controlled in accordance with a voltage supplied from the temperature controller, temperature detection means (3) for detecting the temperature of a cooling target cooled by the fan motor, A comparator (7) for comparing a voltage corresponding to the signal from the temperature detecting means with a predetermined voltage (VR), and a voltage (et) corresponding to the signal from the temperature detecting means is applied to one input terminal. A signal from the comparator is applied to the other input terminal via a resistor (R4), and an amplifier (8) to which the predetermined voltage (VR) is applied via a resistor (R5). The output from the amplifier (8) Fan motor driving circuit which is to give as the other input of the serial error amplifier (5).