KR100308670B1 - Micom reset circuit by VCC control - Google Patents

Abstract

The present invention relates to a circuit for resetting the microcomputer when a low voltage is applied to the microcomputer operating the system by receiving the system driving voltage. In particular, the configuration is connected between the input terminal and the ground terminal of the system driving voltage and the system driving voltage. A first capacitor for stabilizing a corresponding voltage through an operation of charging by the first capacitor; First and second resistors having two resistors connected in series and connected to the first capacitor as a whole and dividing a voltage stabilized through the first capacitor to output a reference voltage; A seventh and eighth resistors connected between the input terminal of the bias positive voltage having a predetermined magnitude and the ground terminal and dividing and outputting the bias positive voltage; A comparator for inputting the voltage divided by the first and second resistors to the inverting data input terminal and receiving and comparing the voltage divided by the seventh and eighth resistors to the non-inverting data input terminal and outputting a comparison value; A diode having an output signal of the comparator input to the anode terminal through a sixth resistor, and the cathode terminal of which is connected to a ground terminal; A second capacitor connected in parallel with the diode to stabilize the voltage across the anode terminal of the diode; And a transistor to which a system driving voltage is applied to the collector terminal, the emitter terminal is connected to the cathode terminal of the diode, and the transistor which receives the voltage applied to the anode terminal of the diode to the base terminal through the fourth resistor and operates on / off.

Description

Micom reset circuit by driving voltage control {Micom reset circuit by VCC control}

The present invention relates to a reset method of a microcomputer in charge of the operation of an electronic device, and in particular, by using a low-cost microcomputer without a reset function through the control of the driving power and changing the driving power of the microcomputer to zero power when the power is turned off. The present invention relates to a microcomputer initialization circuit by driving voltage control to prevent a malfunction.

In general, thanks to the development of electronic technology, modern people are very familiar with and depend on electronic devices.

In addition, various convenience facilities, formerly operated by mechanical or mechanical mechanisms, are now being replaced by electronic control systems operated by microcomputers or microprocessors.

For example, because modern people live in innumerable electronic devices such as personal mobile communication devices (pagers, cell phones), computers, telephones, automatic doors, TVs, radios, etc., It can be seen that the inconvenience of modern people is greatly increased when the operation of all facilities stops or malfunctions.

Thus, the importance of microcomputers or microprocessors that are responsible for the operation of the above mentioned electronic daily necessities or facilities is increasing. In contrast, modern consumers are looking for smaller and cheaper facilities and at the same time expect high levels of performance. There is a trend.

Therefore, producers of electronic daily necessities are trying to develop low-cost products while maintaining the performance of the system. Microcom or microprocessors in charge of the operation of the system pursue high performance. Many difficulties have arisen.

In addition, even though a central processing unit having the same performance is a low-cost microcomputer without a corresponding function compared to a microcomputer with a low voltage reset function, a low voltage reset function is necessary for a portable device, and thus, a considerable difficulty in lowering the production cost is required. Occurred.

An object of the present invention for solving the above problems is to change the drive power of the microcomputer to zero power when the power is off while using a low-cost microcomputer without a reset function through the control of the drive power to prevent malfunction The present invention provides a microcomputer initialization circuit by driving voltage control.

1 is an exemplary configuration of a microcomputer initialization circuit by driving voltage control according to the present invention;

2A and 2B are exemplary waveform diagrams for comparing the prior art with the present invention.

A feature of the present invention for achieving the above object is a circuit for resetting the microcomputer when a low voltage is applied to a microcomputer operating a system by receiving a system driving voltage: between an input terminal and a ground terminal of the system driving voltage. A first capacitor connected to and stabilized by a voltage charged by the system driving voltage; First and second resistors having two resistors connected in series and connected to the first capacitor as a whole and dividing a voltage stabilized through the first capacitor to output a reference voltage; A seventh and eighth resistors connected between the input terminal of the bias positive voltage having a predetermined magnitude and a ground terminal to divide and output the bias positive voltage; A comparator for inputting a voltage divided by the first and second resistors to an inverting data input terminal and receiving a voltage divided by the seventh and eighth resistors to a non-inverting data input terminal and comparing the voltages; A diode having an output signal of the comparator input to an anode terminal through a sixth resistor and a cathode terminal connected to a ground terminal; A second capacitor connected in parallel to the diode to stabilize a voltage across an anode terminal of the diode; And a transistor for applying the system driving voltage to a collector terminal, an emitter terminal connected to a cathode terminal of the diode, and receiving a voltage applied to an anode terminal of the diode to a base terminal through a fourth resistor. To include it.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an exemplary configuration diagram of a microcomputer initialization circuit by driving voltage control according to the present invention, and is connected between an input terminal and a ground terminal of a system driving voltage Vcc and charged by the system driving voltage Vcc. The first capacitor C1 for stabilizing the corresponding voltage and two resistors are connected in series and are generally connected to the first capacitor C1 in parallel and divided by the voltage stabilized through the first capacitor C1. The first and second resistors R1 and R2 for outputting a voltage and the input terminal of the bias positive voltage Vbb of a predetermined magnitude are connected between the ground terminal and the seventh for dividing and outputting the bias positive voltage Vbb. The voltage divided by the eighth resistors R7 and R8 and the first and second resistors R1 and R2 is input to the inversion data input terminal and divided by the seventh and eighth resistors R7 and R8. Input voltage to non-inverting data input terminal In comparison, the comparator OP for outputting the comparison value and the output signal of the comparator OP are inputted to the anode terminal through the sixth resistor R6, and the cathode terminal is connected to the diode D connected to the ground terminal. And a second capacitor C2 connected in parallel to the diode D to stabilize the voltage across the anode terminal of the diode D, and an emitter terminal connected to the cathode terminal of the diode D. (D) a voltage applied to the anode terminal is input to the base terminal through the fourth resistor (R4) (on / off operation) and the system driving voltage (Vcc) and the collector terminal of the transistor Drives the third resistor R3 to be transferred to the third resistor; the fifth resistor R5 to transfer the system driving voltage Vcc to the anode terminal of the diode D; and the voltage applied to the first capacitor C1. To operate the system It is composed of a microcomputer 10 that.

A detailed operation example of the microcomputer initialization circuit according to the driving voltage control according to the present invention configured as described above will be described in detail with reference to FIGS. 2A and 2B.

Since the system driving voltage Vcc for the operation of the microcomputer 10 is charged by the first capacitor C1 and is stabilized and maintains a constant voltage, the microcomputer 10 performs a normal operation.

At this time, the system driving voltage Vcc stabilized through the first capacitor C1 by the first and second resistors R1 and R2 connected in parallel to the first capacitor C1 is divided. It is transferred to the inverting data input terminal of the comparator OP and used as a reference voltage of the comparator OP.

The comparator OP non-inverts the voltage of the connection point of the seventh and eighth resistors R7 and R8 that receive and divide the bias positive voltage Vbb of a predetermined magnitude, that is, the divided voltage of the bias positive voltage Vbb. When the input voltage is input to the data input terminal, the input voltage of both input terminals is compared, and when the reference voltage is large, the low voltage signal is output.

At this time, the output voltage of the comparator OP changes in association with the change of the system driving voltage, as shown in FIG.

In FIG. 2B, the voltage waveform denoted by reference numeral 'A' is a waveform of the voltage applied to the second capacitor C2, and the high waveform is displayed when the system driving voltage Vcc drops, that is, when the voltage is low. You can see that.

Accordingly, when the output voltage of the comparator OP becomes high, the transistor is turned on to quickly transfer the system driving voltage of the low voltage state applied to the microcomputer 10 to the ground side so that the microcomputer 10 has a low voltage. It can prevent malfunction in the state.

The waveform shown in FIG. 2A is an exemplary waveform diagram of a conventional microcomputer peripheral power supply circuit without a low voltage reset function, and is an exemplary diagram for comparing the waveform with FIG. 2B.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

By providing a microcomputer initialization circuit according to the drive voltage control according to the present invention operating as described above to change the driving power of the microcomputer to zero power when the power off using a low-cost microcomputer without a reset function through the control of the driving power supply It can prevent malfunction.

Claims (1)

In a circuit for resetting the microcomputer when a low voltage is applied to the microcomputer operating the system by receiving a system driving voltage: A first capacitor connected between an input terminal of the system driving voltage and a ground terminal and stabilizing a corresponding voltage through an operation charged by the system driving voltage; First and second resistors having two resistors connected in series and connected to the first capacitor as a whole and dividing a voltage stabilized through the first capacitor to output a reference voltage; A seventh and eighth resistors connected between the input terminal of the bias positive voltage having a predetermined magnitude and a ground terminal to divide and output the bias positive voltage; A comparator for inputting a voltage divided by the first and second resistors to an inverting data input terminal and receiving a voltage divided by the seventh and eighth resistors to a non-inverting data input terminal and comparing the voltages; A diode having an output signal of the comparator input to an anode terminal through a sixth resistor and a cathode terminal connected to a ground terminal; A second capacitor connected in parallel to the diode to stabilize a voltage across an anode terminal of the diode; And The transistor terminal is applied with the system driving voltage, the emitter terminal is connected to the cathode terminal of the diode and includes a transistor for receiving the voltage applied to the anode terminal of the diode to the base terminal through a fourth resistor to operate on / off A microcomputer initialization circuit by driving voltage control, characterized in that.