KR20010036207A - Reset circuit of a electric system - Google Patents

Abstract

PURPOSE: A reset circuit for an electronic device is provided to stabilize the output of the reset circuit operating at a low voltage by installing a pull-down resistor and a pull-up resistor at the output part of the reset circuit. CONSTITUTION: In a reset circuit for an electronic device, a pull-down resistor(R41) of 100kohm is installed between the reset output terminal of a MAX811/812 IC(30) and a pull-up resistor(R42) is installed between the output terminal and the VCC. Thus, A reset signal by a reset switch(SW) turns on an NMOS transistor(N30) and produces a low potential reset signal. When the switch is off, a PMOS transistor(P30) is turned on and produces a high potential reset signal. But when the VCC is below 1V, the NMOS and PMOS transistors(N30,P30) do not turn on normally. So to maintain a stable low potential, the VCC is divided by the pull-down and pull-up resistors(R41,R42).

Description

RESET CIRCUIT OF A ELECTRIC SYSTEM

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reset circuit of an electronic device, and more particularly, to a reset circuit of an electronic device capable of stably maintaining a reset state even at a low operating voltage when operating a reset switch to initialize an electronic device. .

The reset of the electronic device is to operate in a predetermined state when the electronic device is turned on. For example, the data storage circuit such as a main memory device or a register is set to zero. In addition, resetting the electronic device to the state immediately after the power is turned on by operations other than power-on is also called reset.

1 is a circuit diagram illustrating a reset circuit of an electronic device according to the prior art.

As shown here, the reset switch SW is connected to the ground via the first resistor R11 to the reset terminal reset of the electronic device 10, and the reset terminal reset and the power supply voltage VCC. The second resistor R12 is interposed between the ground and the first capacitor C11. In addition, the diode D11 is connected in the direction of the power supply voltage at the reset terminal reset in parallel with the second resistor R12.

Therefore, when the reset switch SW is pressed, the reset terminal reset drops the ground voltage, and when the power supply voltage VCC is turned off through the diode D11, the charge charged in the first capacitor C11 is quickly discharged. .

However, this circuit has a problem in that the voltage of the reset terminal does not drop to a sufficiently low voltage when the power supply is momentarily turned off, so that the electronic device 10 or the like may be runaway.

That is, there are devices that are driven by various power supply voltages in the electronic device 10, but if they do not fall to a low enough voltage, some devices may be operated to damage other devices or cause reverse bias to damage the devices.

Therefore, an additional circuit is provided to generate a stable reset signal when the operating voltage drops below a predetermined value.

2 is a circuit configuration diagram showing a conventional reset circuit for generating a reset signal in accordance with a state of an operating voltage.

As shown here, the circuit uses TI's TL7705A family of ICs with built-in comparators. Therefore, when the operating voltage is lowered by about 10%, that is, when the operating voltage is 5V, when the voltage input to the sense terminal is less than 4.5V, the reset signal is sent through the reset terminal.

Therefore, the circuit can be reset when the power supply voltage fluctuates and the system does not operate normally. In order to compensate that the reset signal output value of the reset circuit according to FIG. 1 does not drop sufficiently to a low potential, It is possible to drop to a sufficiently low potential to output a stable reset signal.

However, since the TL7705A series IC 20 does not operate correctly when the operating voltage is 1.8V or less, there is a risk that a CMOS device which is used in recent years may run out to 2V or less when the power supply drops.

To solve this problem, MAXIM's MAX811 / 812 reset circuit is used as shown in FIG.

As seen here, MAXIM's MAX811 / 812 operate at 1V supply voltage and fewer external components, resulting in a more stable reset signal output.

However, in the case of the device 30, when the power supply voltage VCC becomes 1 V or less, the PMOS transistor P30 or the NMOS transistor N30 that drives the output of the reset signal does not operate normally, and thus the output of the reset signal reset. There is a problem that the correct reset signal is not output because the drive is not normally driven.

The present invention has been made to solve the above problems, and an object of the present invention is to quickly and stably drop the low potential by installing a pull-down resistor and a pull-up resistor at the output stage to stabilize the output of the reset circuit operated at a low voltage. The present invention provides a reset circuit for an electronic device that can be turned down or raised to a high potential so that it can be reset without congestion of the system.

1 is a circuit configuration diagram showing a reset circuit of an electronic device for arbitrarily resetting the electronic device according to the prior art.

2 is a circuit diagram illustrating a reset circuit that generates a reset signal in accordance with a state of an operating voltage.

3 is a circuit diagram illustrating a MAX811 / 812 reset circuit of MAXIM Corporation.

4 is a circuit diagram illustrating a reset circuit of an electronic device according to the present invention.

-Explanation of symbols for the main parts of the drawings-

10: electronic device

20,30: reset circuit

The present invention for realizing the above object is a reset circuit of an electronic device that generates a reset signal for resetting the electronic device, comprising: a pull-down resistor mediated between a reset signal output terminal and ground, and a complementary output terminal and a power supply voltage; It is characterized by including the mediated pull-up resistor.

According to the present invention made as described above, when the reset signal is outputted at a low operating voltage, the output drive does not operate normally, so that the unstable output signal is stably maintained at the low potential through the pull-down resistor, and the pull-up is performed when the reset signal rises to high potential. It is operated to stabilize quickly by resistance.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

4 is a circuit diagram illustrating a reset circuit of an electronic device according to the present invention.

As shown here, a 100 kW pull-down resistor (R41) is installed between the reset signal output terminal and the ground of the MAX811 / 812 IC 30 of MAXIM Corporation, and the reset signal output terminal and the power supply voltage (VCC). Install a 100㏀ pull-up resistor (R42) in between.

Therefore, when the reset switch SW is operated to output a reset signal, the NMO transistor N30 is turned on to output a low potential reset signal reset. In addition, when the reset signal reset is not output, the PMOS transistor P30 is turned on to output a high potential reset signal reset.

However, when the power supply voltage VCC is 1 V or less, since the NMOS transistor N30 and the PMOS transistor P30 which drive the output of the reset signal are not normally turned on, the reset signal reset is stably output at a low potential. In order to maintain the low potential, the power supply voltage VCC is distributed by the pull-down resistor R41 and the pull-up resistor R42 for output.

Accordingly, the reset state can be stably maintained even with a malfunction of the transistor driving the output of the reset signal in the reset circuit of MAXIM Corporation operating even when the power supply voltage VCC is less than 1V.

As described above, according to the present invention, the reset circuit which generates the reset signal when the electronic device is to be reset maintains the reset state accurately even under 1V, so that the reset circuit can be reset without congestion of devices operated at various driving voltages in the electronic device. There is an advantage that can prevent the malfunction of the electronic device.

Claims (2)

A reset circuit of an electronic device for generating a reset signal for resetting the electronic device, A pull-down resistor mediated between the reset signal output stage and ground; Mediated Pullup Resistor Between Reset Signal Output and Supply Voltage Reset circuit of an electronic device, characterized in that made. The reset circuit of claim 1, wherein the pull-down resistor and the pull-up resistor are 100 kΩ.