KR100646897B1 - Apparatus for protecting thermal overload in electronic device - Google Patents

Abstract

The present invention relates to an overheat protection device for an electronic device which can cut off the power supply of the power supply device by detecting a change in the output voltage of the power supply device.

To this end, the present invention provides a negative voltage detector for detecting output voltages from a plurality of secondary power supplies in the power supply unit, a negative voltage switching unit for selectively outputting an output voltage of the negative voltage detector, and the negative voltage switching unit. A power controller for outputting a signal for shutting off the power supply of the power supply unit when the voltage level output from the controller is higher than or equal to a preset voltage, and overheating protection for shutting off the power supply of the power supply unit according to a control signal of the power control unit. It is configured to include a wealth.

Therefore, the present invention has the effect of preventing overheating and malfunction of the electronic circuit due to the abnormal voltage by cutting off the power supply of the main power supply when an error occurs in the power supplied to the electronic device.

Overtemperature Protection Circuits, Negative Voltage Detection

Description

Apparatus for protecting thermal overload in electronic device             

1 is a view showing a thermal protection device of a conventional electronic device

2 is a view showing an overheat protection device for an electronic device according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

200: power supply unit 210: negative voltage detection unit

220: negative voltage switching unit 230: power control unit

240: overheat protection

The present invention relates to an overheat protection device for an electronic device that can prevent an abnormal occurrence such as overheating by controlling the power supply of the electronic device.

If the load is larger than necessary in the circuit operation connected to the power supply of the electronic device, the semiconductor switching elements such as transistors used in the circuit elements generate excessive heat, and eventually the semiconductors are destroyed so that they cannot function as elements. Occurs.

 Therefore, an overheat protection circuit for preventing such overheating requires a temperature detecting element for detecting an overheating state. If a thermal fuse is used as the temperature sensing element, once it is shut off, it cannot return from the state, and thus it is time and costly to replace it with a new temperature fuse.

Unlike these thermal fuses, there is a static thermistor as a temperature sensing element that can be returned even after the shutdown. The overheat protection circuit using such thermistors has the advantage that it is possible to save time and money by eliminating the need for component replacement.

1 is a view showing a thermal protection device of a conventional electronic device.

As shown in FIG. 1, the conventional overheat protection circuit includes a first series circuit including a first resistor R11, a positive characteristic thermistor PTC, and a second resistor R12, a load, a switching transistor Tr1, and A second series circuit composed of the third resistor R13 is provided.

The static thermistor PTC is disposed near the switching transistor Tr1 and changes to a resistance value corresponding to the temperature of the switching transistor Tr1. When the temperature of the switching transistor Tr1 is less than or equal to the Curie point of the static thermistor PTC, the switching transistor Tr1 is conducted by the low-resistance static thermistor PTC to conduct electricity to the load.

On the other hand, when the temperature of the switching transistor Tr1 rises due to the current fluctuation to the load, and the temperature of the static characteristic thermistor PT reaches the Curie point and becomes more than the Curie point, the static characteristic thermistor PTC becomes Since a high resistance state of a predetermined value or more is reached, the base current to the switching transistor Tr1 is lowered by the positive characteristic thermistor PTC in the high resistance state, so that the switching transistor Tr1 shuts off and energizes the load. Is stopped.

If a predetermined time elapses after the energization stop, the abnormal energization state is eliminated by the energization stop to the load, and thus the temperature of the switching transistor Tr1 to be detected is reduced. When the resistance of the static characteristic thermistor PTC becomes lower than the predetermined value as the temperature decreases, the base current to the switching transistor Tr1 becomes a predetermined value or more, so that the switching transistor Tr1 conducts power to the load. To return.

However, the overheat protection device of the electronic device using the thermistor has a problem that the overheating of the electronic device can not be prevented by detecting the overheating state only after the overheating state of the device occurs due to the overload.

In addition, the overheat protection device of an electronic device using a thermistor has a problem in that power supply to a load cannot be stopped when a voltage lower than a voltage required by a circuit is supplied because the overheat protection device of the electronic device operates only by an overheating state.

SUMMARY OF THE INVENTION An object of the present invention is to provide an overheat protection device for an electronic device that can protect an electronic device by detecting output voltages of a plurality of secondary power supply units and cutting off a power supply when an abnormal voltage occurs in any one of them.

It is still another object of the present invention to provide an overheat protection device for an electronic device that detects output voltages of a plurality of sub-power supplies and cuts off a power supply when an abnormal voltage occurs in any one of them. Has its purpose.

An overheat protection apparatus for an electronic device according to the present invention for achieving the above object includes a negative voltage detection unit for detecting output voltages from a plurality of secondary power supply units in a power supply unit, and an output voltage of the negative voltage detection unit. A negative voltage switching unit for outputting a signal; and a power control unit for outputting a signal for shutting off power supply of the power supply unit when the voltage level output from the negative voltage switching unit is greater than or equal to a predetermined voltage; It characterized in that it comprises a thermal protection unit for shutting off the power supply of the power supply in accordance with the signal.

The negative voltage switching unit may selectively output an output voltage of the negative voltage detection unit according to a selection signal of the power control unit.

The negative voltage switching unit includes a plurality of input terminals to which voltages of the plurality of sub power supply units are applied, an output terminal for selectively outputting output voltages of the plurality of negative voltage detection units, and a voltage input to the plurality of input terminals. It characterized in that it comprises a selection signal input terminal for receiving a signal for selecting any one.

The power control unit may output a power supply cutoff signal when the voltage input from the negative voltage switching unit is out of a reference voltage level.

The overheat protection unit may be configured to cut off the power supply of the power supply unit according to a power supply circuit for maintaining the power supply of the power supply unit normally according to a power supply signal output from the power control unit, and a power cutoff signal output from the power control unit. Characterized in that the power off circuit.

Hereinafter, an overheat protection apparatus for an electronic device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing an overheat protection device for an electronic device according to an embodiment of the present invention.

As shown in FIG. 2, the overheat protection device for an electronic device according to the present invention includes a negative voltage detection unit 210, a negative voltage switching unit 220, a power control unit 230, and an overheat protection unit 240. It is configured by.

The overheat protection device of the electronic device according to the present invention is to cut off the power supply to the main power supply unit 201 and the sub-power supply unit 202 of the power supply unit 200 by the control of the relay 203, the sub-power supply unit 202 It is possible to block the supply of the abnormal voltage to the circuit portion of the electronic device.

First, each component constituting the overheat protection device for an electronic device according to an embodiment of the present invention will be described in detail.

The negative voltage detector 210 may include a first negative voltage detector 211 and a second negative voltage detector 211 for detecting voltages of a plurality of negative power supply units respectively for supplying different voltages to a plurality of circuit parts used in an electronic device. The second negative voltage detector 212, the third negative voltage detector 204, and the like are provided.

In the above-described exemplary embodiment of the present invention, an example in which the negative voltage detection unit 210 includes the first, second, and third negative voltage detection units 211, 212, and 213 has been described. The negative voltage detector may be included.

The first, second, and third negative voltage detectors 211, 212, and 213 each include a distribution circuit including a plurality of resistors R21, R22, R23, R24, and R25, R26. . The ratio of the respective resistance values may be determined differently according to the reference voltage level set by the power control unit 230.

The negative voltage switching unit 220 is a circuit for selectively outputting the output voltage output from the negative power supply. To this end, a plurality of input ports P1, P2, and P3 receiving the voltages of the output terminals of the first, second, and third negative voltage detectors 211, 212, and 213 are provided.

In addition, selection ports S1 and S2 are provided to receive selection signals for selecting a port for inputting a voltage to be compared with a voltage level among the voltages input to the plurality of input ports P1, P2, and P3. . The selection ports S1 and S2 may be further configured according to the number of input ports. In addition, when configuring the two negative voltage detection unit 210, only one selection port may be provided.

In addition, the negative voltage switching unit 220 is an output port for selectively outputting the voltage input to the plurality of input ports (P1, P2, P3) according to the selection signal input to the selection port (S0, S1) P4 is provided.

The power control unit 230 outputs a signal for shutting off the power supply of the power supply unit when there is an error in the voltage level output from the negative voltage switching unit 220. To this end, the power control unit 230 is provided with selection signal output ports I0 and I1 for supplying a negative voltage selection signal to the negative voltage switching unit 220. An input port I2 for receiving a signal output from the negative voltage switching unit 220 is provided.

In addition, when the input voltage is in the range of the reference voltage level, the power control unit 230 includes a first control signal output port I3 for outputting a signal for maintaining the power supply of the power supply unit, and the input voltage is referred to. The second control signal output port I4 for outputting a signal for shutting off the power supply of the power supply unit when the voltage level is exceeded is provided.

The overheat protection unit 240 operates to maintain or cut off the power supply of the power supply unit according to the control signal of the power control unit 230. To this end, a power supply holding circuit 241 including the resistors R28 and R29 and the transistor Tr21 and a power interrupting circuit 242 including the resistor R29 and the transistor Tr22 are provided.

The power holding circuit 241 maintains the power supply normally by driving the relay 203 of the power supply unit 200 according to the power supply signal output from the power control unit 230.

The power cutoff circuit 242 cuts the power supply by driving the relay 203 of the power supply 200 according to the power cutoff signal output from the power control unit 230.

It describes the operation of the overheat protection device of the electronic device according to the present invention configured as described above.

When power is applied to the electronic device, a separate voltage for supplying power required for each circuit is applied from the sub power supply unit 202 of the power supply unit 200. Accordingly, a voltage corresponding to a predetermined ratio is detected in each of the first, second, and third sub-power detectors 211, 212, and 213 according to the set resistance value.

At this time, the power controller 230 outputs a selection signal to the negative voltage switching unit 220 to determine whether the power applied from the negative power supply unit 202 is supplied at a voltage required for each circuit. The negative voltage switching unit 220 outputs the voltage of the first negative power detection unit 211.

The voltage output from the negative voltage switching unit 220 is input to the power control unit 230. It is determined whether the voltage input to the power control unit 230 corresponds to the set voltage level.

The method of determining whether the power controller 230 corresponds to the set voltage level may be implemented by various methods.

First, when the power control unit 230 is an integrated circuit including an analog circuit, when the voltage of the reference level is applied, the output signal of the first control signal output port I3 is high (H), and the second control is performed. The power control unit 230 may be configured to output an output signal of the signal output port I4 to a low L.

In addition, after digitally converting the voltage level applied to the power control unit 230, and storing the value corresponding to the reference voltage level in the power control unit 230, the digital converted value and the stored reference voltage level value In comparison, the power control unit 230 may be configured to determine an output signal.

When the voltage applied to the power control unit 230 corresponds to a reference level, a high (H) signal is output from the first control signal output port I3 of the power control unit 230. The high (H) signal output from the first control signal output port I3 is applied to the base terminal of the transistor Tr21 through the resistor R27 of the power holding circuit 241 to turn off the transistor Tr21. OFF). Accordingly, the high (H) signal applied to the collector terminal of the transistor Tr21 maintains the energization state of the relay 203 of the power supply unit 200. Therefore, the power of the main power supply 201 is continuously supplied to the sub-power supply 202 to maintain a normal power supply state.

When the state check of the supply voltage of the first sub-power detector 211 is completed, the power controller 230 outputs a second selection signal to the sub-voltage switch 220 so that the sub-voltage switch ( 220 outputs the voltage of the second sub-power detector 212.

On the other hand, the power controller 230 sequentially turns on the negative voltage switching unit 220 until the inspection of the detection voltage of each of the first, second, and third sub-power detectors 211, 212, and 213 is completed. Output the selection signal.

 The process of checking whether the voltages of the second and third sub-power detectors 212 and 213 are in a steady state is sequentially performed. Since this process is the same as the operation process of the first sub-power detector 212 described above, a detailed description thereof will be omitted.

The case where the detection voltage of the negative power detector 210 is in a normal state has been described above. However, the electronic device may become a high voltage due to excessive output voltage of the sub power supply unit 202 due to various causes during the operation process, or, conversely, a low voltage required for circuit operation. In this case, the circuit may be overheated or the electronic equipment may malfunction. Therefore, it is necessary to cut off the power supply.

The operation of the overheat protection device of the electronic device according to the present invention when the abnormal voltage is detected by the negative power detection unit 210 will be described.

When an abnormal voltage occurs in any one of the first, second, and third sub-power detectors 211, 212, and 213 during the process of checking whether the detected voltage of the sub-power detector 210 is normal, the power supply The controller 230 detects the abnormal voltage and outputs a high (H) signal to the second control signal output port I4 as opposed to the normal voltage state.

 The high (H) signal output from the second control signal output port I4 is applied to the power cutoff circuit 242 of the overheat protection part 240. The applied high (H) signal is applied to the base terminal of the transistor Tr22 through the resistor R29 to turn on the transistor Tr22. Accordingly, the low (L) signal is applied to the collector terminal of the transistor Tr21. The low (L) signal of the collector stage changes the relay 203 of the power supply unit 200 to a cutoff state. Accordingly, the supply of the main power supply unit 201 to the sub power supply unit 202, which has been previously supplied, is cut off, thereby making it possible to stop overheating or malfunction of the electronic circuit due to the abnormal voltage.

The overheat protection device for an electronic device according to the present invention can prevent overheating of the electronic device circuit due to an abnormal voltage by cutting off the power supply of the main power supply unit when an abnormality occurs in the supplied power supply.

In addition, the abnormal operation of the circuit can be prevented by detecting the output voltages of the plurality of sub-power supply units and cutting off the power supply when an abnormal voltage occurs in any one of them.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

Claims (6)

A negative voltage detector for detecting output voltages from a plurality of secondary power supplies in the power supply; A negative voltage switching unit for selectively outputting an output voltage of the negative voltage detection unit; A power control unit outputting a signal for shutting off power supply of the power supply unit when the voltage level output from the negative voltage switching unit is higher than or lower than a preset voltage; And And an overheat protection unit for shutting off the power supply of the power supply unit according to a control signal of the power control unit. The overheat protection device of claim 1, wherein the negative voltage switching unit selectively outputs an output voltage of the negative voltage detection unit according to a selection signal of the power control unit. The method of claim 1, wherein the negative voltage switching unit, A plurality of input terminals to which voltages of the plurality of sub power supplies are applied; An output terminal for selectively outputting output voltages of the plurality of negative voltage detection units; And a selection signal input terminal for receiving a signal for selecting any one of voltages input to the plurality of input terminals. delete The method of claim 1, wherein the overheat protection unit, A power holding circuit for normally maintaining power supply of the power supply unit according to a power supply signal output from the power control unit; The overheat protection device of the electronic device, characterized in that configured as a power cutoff circuit to cut off the power supply of the power supply in accordance with the power cutoff signal output from the power control unit. The overheat protection device of claim 1, wherein the overheat protection unit drives a relay in the power supply unit for supplying or cutting off power according to an output signal of the power control unit.

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