KR100461635B1 - Reset circuit - Google Patents

Abstract

The present invention relates to a reset circuit, and more particularly to a reset circuit that can be initialized by the operation of the key from the outside without disassembling the product.

The reset circuit of the present invention includes: control means for controlling a function of a product to be performed; Operating voltage supply means for supplying an operating voltage to the control means; Key input means for inputting an external key; And a reset means for combining the external key input to mute the operating voltage supplied to the control means.

Description

Reset circuit

The present invention relates to a reset circuit, and more particularly to a reset circuit that can be initialized by the operation of the key from the outside without disassembling the product.

As shown in FIG. 1, the conventional reset circuit includes an input power supply unit 10 for inputting a voltage of a predetermined size when an external power supply is input to a product, and a battery power supply unit for supplying battery power when there is no external power supply ( 15), a reset driver 20 for driving a reset by supplying a high signal or a low signal in accordance with an input power source, and a recognizing unit 25 which is forcibly reset by receiving the output of the reset driver 20. .

In the conventional reset circuit configured as described above, when external power is input to the product, 5.7 volts is applied to the input power supply unit 10. The reset driver 20 receives power of about 5 volts from the power input from the input power supply unit 10. The reset driver 20 determines whether the magnitude of the input power is the same voltage as the operating power of the recognition unit (microcomputer) 25, and when the size is the same as the operating power, the high signal is low when the power is smaller than the operating power. Output the signal. Therefore, when the external power source is input, the reset driver 20 outputs a high signal and the recognition unit 25 is driven by the input high signal (5 volts) to cancel the reset operation.

In addition, in the absence of power input to the product from the outside, the power generated from the battery power supply unit 15 is applied to the reset driver 20, the reset driver 20 is the input power is the same as the operating voltage of the microcomputer When it has a magnitude, it outputs a high signal. When the battery power is applied to the reset driver 20 from the battery power supply unit 15, the reset driver 20 outputs a voltage having the same size as the operating power of the recognition unit 25, and the voltage is the recognition unit 25. ) Is input as a high signal, and the reset is canceled.

In order to control the product to operate normally when a malfunction or runaway of the recognition unit 25 occurs in the conventional reset circuit that performs such an operation, the recognition unit 25 is forced to the recognition unit 25. The low signal (base potential) must be applied.

For this operation, the user disassembles the product and connects the switch JC1 of the reset driver 20 to the switch JC2. Then, while the ground potential is applied to the switch JC1, the recognition unit 25 inputs a low signal, thereby forcibly resetting the product.

That is, the conventional reset circuit had to disassemble the product, find the reset circuit of the controller, and short the switches JC1 and JC2 to reset the microcomputer when the congestion or malfunction of the microcomputer occurred.

However, such a reset operation is difficult for the user to perform, so when a problem occurs, a service should be applied, and this has been troublesome to use, which has lowered the reliability of the product.

Accordingly, an object of the present invention is to provide a reset circuit which can easily perform a reset when a malfunction of a product occurs.

A reset circuit according to the present invention for achieving the above object, the control means for controlling the function of the product; Operating voltage supply means for supplying an operating voltage to the control means; Key input means for inputting an external key; And a reset means for combining the external key input to mute the operating voltage supplied to the control means.

When the malfunction or congestion occurs during the operation of the product, the present invention simply performs a reset to normalize the product, so that the reset function is not easily recognized in the normal operation state of the product.

In particular, the present invention is characterized in resetting a microcomputer in a microcomputer embedded product.

The present invention is a microcomputer embedded product, characterized in that to reset the microcomputer by combining an external input key.

In particular, the present invention is characterized in that by using a combination of keys that do not perform a function at the same time in use to perform a reset function when the key is recognized at the same time.

Therefore, the present invention has the effect of bringing convenience in use by simplifying the forced reset function of the product.

Hereinafter, a reset circuit according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a reset circuit according to the present invention.

As shown in the reset circuit of the present invention, when an external power source is input to a product, an input power source unit 50 for inputting a voltage of a predetermined size, and a battery power source unit 55 for supplying battery power when there is no external power source; And a reset driver 60 for driving a reset by supplying a high signal or a low signal in accordance with the input power, and a recognition part 65 forcibly reset by receiving the output of the reset driver 60.

The reset circuit of the present invention receives a key input unit 70 for function selection from the outside and a forced reset circuit 75 for controlling the reset port of the recognition unit 65 by receiving the operation of the key input unit 70. ).

In more detail, the input power supply unit 50 includes an input terminal for inputting a voltage of about 5.7 volts, a diode D1 and a resistor R2 coupled in series with the input terminal.

The battery power supply unit 55 includes a battery BT1 and a diode D1 coupled in series between the base potential and one side of the resistor R2.

The reset driver 60 includes a reset integrated circuit U1 for inputting 5 volts of power supplied through the resistor R2, and a capacitor connected between an input terminal of the reset integrated circuit U1 and a ground potential. C1) and a capacitor C2 connected between the output terminal of the reset integrated circuit U1 and the ground potential.

The switch JC1 is connected through a resistor R1 connected to the output terminal of the reset integrated circuit U1, and the reset port of the recognition unit 65 is connected to the other side of the switch JC1. The switch JC1 is configured to be connected to another switch JC2, the switch JC2 is located facing the switch JC1, and the switch JC2 is connected to the ground potential.

That is, when the low signal is to be applied to the reset port of the recognition unit 65, the two potentials JC1 and JC2 are connected to the base potential to be applied to the reset port.

Next, the key input unit 70 performs an operation of resetting the recognition unit 65 by combining external input keys. In particular, the present invention uses a combination of keys that do not perform a function at the same time in use to perform a reset function when a key is recognized at the same time.

The key input unit 70 has two keys (Key1, Key2) and a 5-volt power supply connected to each other by a matrix structure, and switches SW1 and SW2 are respectively connected between the 5-volt power supply and the key. In other words, the switch is turned on when the key is operated so that the supply power is supplied.

The forced reset circuit is composed of two switching elements Q1 and Q2 operated by a power output from the key input unit 70. That is, the base terminals of the transistors Q1 and Q2 are connected to the output terminal of the key input unit 70 so that the key input unit 70 is operated at the time of high signal output. The two transistors Q1 and Q2 are connected in series. Therefore, the emitter terminal of the transistor Q2 is connected to the ground potential, the collector terminal is connected to the emitter terminal of the other transistor Q1, and the collector terminal of the transistor Q1 is reset of the recognition unit 65. It is connected to the port.

Next, the operation of the reset circuit according to the present invention having the above configuration will be described.

The reset circuit of the present invention releases the reset of the recognition unit 65 by an external power supply or a battery power supply, or resets the recognition unit 65 by connecting a switch, which is an internal component, or inputting an external key. Perform the action.

First, an operation in which the recognition unit 65 is reset by connection of a switch which is an internal component will be described.

For this operation, the product is disassembled, the reset circuit part inside the product is found, and the switch JC1 and the switch JC2 are connected. The switch JC1 is connected to the reset port of the recognition unit 65, and the other switch JC2 is connected to the ground potential. Accordingly, when the two positions JC1 and JC2 are connected, a low signal according to the ground potential is applied to the reset port of the recognition unit 65. When the low signal is applied to the reset port, the recognition unit 65 initializes the recognition unit 65. However, the reset operation can be performed only by disassembling the product.

In the initialization state of the recognition unit 65 as described above, when the operating power is supplied to the recognition unit 65, the reset operation is canceled and the operation of the microcomputer is resumed. Explain this process.

When an external power source is input, power of 5.7 volts derived from a transformer (not shown) secondary side is input through the input power source unit 50. The input power is adjusted to about 5 volts while conducting the diode D2 and is applied to the reset integrated circuit U1 of the reset driver 60.

The reset integrated circuit U1 determines whether the applied power is a power having the same size as the operating power for operating the microcomputer, and outputs a high signal when the power is the same. The high signal output at this time is applied to the reset port of the microcomputer, that is, the recognition unit 65, and acts as an operating power source.

In addition, in a state where power is not input from the outside into the product, there is no power source induced from a transformer (not shown) secondary side. At this time, the reset driving unit 60 receives the operating power of the microcomputer from the battery power supply unit 55. That is, when the product is not used, a transformer (not shown) that generates a rated voltage by the AC power flowing into the product does not operate. Therefore, no power is induced to the secondary side of the transformer, and thus the input power supply unit 50 cannot input power of a desired size.

At this time, the power supply of the battery power supply unit 55 is applied to the reset integrated circuit U1 of the reset driver 60 while conducting the diode D1, and the reset integrated circuit U1 generates a high signal by the battery power supply. The generated high signal is applied to the reset port of the recognition unit 65 to maintain the continuous operation state of the recognition unit.

As described above, while the microcomputer 65 is operated by an external power source or a battery power source, a normal control operation may not be performed due to malfunction or congestion. At this time, in order for the microcomputer 65 to operate normally again, it is necessary to forcibly reset the microcomputer 65.

However, the above-described reset operation by connecting the switches JC1 and JC2 has a disadvantage in that it can be performed only by disassembling the product.

Therefore, the present invention constitutes an apparatus capable of resetting a microcomputer without disassembling the product.

Next, a reset operation of the recognition unit 65 by an external key input according to the present invention will be described.

When the user does not control the desired state due to malfunction or congestion of the microcomputer, which is the recognition unit 65, the user simultaneously presses two keys (key1 and key2) set as reset functions in the key input unit 70. Choose. At this time, the two keys set as the reset function should be composed of a combination of keys that do not perform a function at the same time.

When the two keys are selected, the switches SW1 and SW2 interlocked with the keys are turned on, and 5 volt supply power is applied to the base terminals of the transistors Q1 and Q2. Since the 5 volt supply power applied at this time is applied as a size sufficient to turn on the transistors Q1 and Q2, the two transistors Q1 and Q2 are turned on.

When the two series-coupled transistors Q1 and Q2 are turned on, a 5-volt voltage applied to the reset port of the recognition unit 65 is supplied to the turned-on two transistors Q1 and Q2. 0 volts is applied to the reset port of the recognition unit 65. Accordingly, the recognition unit 65 receives a low signal and performs a reset operation.

That is, according to the present invention, when a certain key (key1, key2) is simultaneously input through the key input unit 70 at the time of malfunction or runaway of the recognition unit 65, the two transistors (Q1, Q2) connected to the key are simultaneously While being turned on, 0 volts of the forced reset circuit 75 is applied to the reset port of the recognition section 65 low, thereby forcibly resetting the recognition section 65.

When only the key key1 or the key2 is input by the key input unit 70, one of the two transistors Q1 and Q2 of the forced reset circuit 75 is not opened. In this case, therefore, the output voltage of the reset driver 60 is applied to the reset port of the recognition unit 65, thereby performing normal operation.

Therefore, the present invention has the advantage that the reset operation can be easily performed in case of malfunction or runaway of the microcomputer. In addition, the present invention can perform the reset function without disassembling the product, there is an advantage that can eliminate the inconvenience caused by the service request. And since the reset operation can be performed by a simple operation, there is an advantage that anyone can easily do.

1 is a configuration diagram showing a reset circuit according to the prior art;

2 is a block diagram showing a reset circuit according to the present invention;

Explanation of symbols on the main parts of the drawings

50: input power supply unit 55: battery power supply unit

60: reset driver 65: recognition unit

70: key input unit 75: forced reset circuit

R1 ~ R4: Resistor SW1, SW2: Switch

Q1, Q2: Transistor JC1, JC2: Switch

U1: reset integrated circuit C1, C2: capacitor

BT1: Battery Power

Claims (1)

Control means for controlling a function of a product to be performed; Operating voltage supply means for supplying an operating voltage to the control means; Key input means for inputting an external key; And reset means for combining the external key input to mute the operating voltage supplied to the control means.