KR19990009254U - Automatic reset circuit when the latch up of the microcomputer occurs - Google Patents

Abstract

The present invention relates to an electronic product having a microcomputer that is operated by an input operating voltage and outputs an operation control signal according to an operation mode selected by a user to various devices through a data bus. Comparing the voltage generating means for outputting a voltage corresponding to the frequency of the data output through the reference voltage generating means, the reference voltage generating means for generating a predetermined constant voltage, and the output voltages of the voltage generating means and the reference voltage generating means. A comparison means for generating a predetermined signal among the plurality of pre-configured signals, a pulse generating means for generating a reset pulse having a predetermined magnitude when the signal output from the comparing means becomes less than or equal to a predetermined value, and is output from the pulse generating means. The reset pulse is input to the microcomputer by the reset pulse. When latch-up occurs and characterized by including a lock switching means, which is to be automatically reset by the microcomputer.

Description

Automatic reset circuit when the latch up of the microcomputer occurs

The present invention relates to an automatic reset circuit when a microcomputer latches up. In particular, when a microcomputer enters a latch up state in which the microcomputer cannot operate due to static electricity or an overload, the user is automatically reset so that the user The present invention relates to an automatic reset circuit when a microcomputer latches up when a latch up occurs so that the convenience of use can be improved by not performing an operation such as unplugging the plug for reset.

In general, the microcomputer is composed of MOS semiconductor devices and controls the operation of various devices used in the periphery. Therefore, the microcomputer is used as a major component in most electronic products (for example, television, radio, etc.).

However, since the microcomputer includes semiconductor devices, when the overcurrent is applied due to the characteristics of the MOS device, the microcomputer is very weak to noise (for example, static electricity and arching), or the synchronization mismatch of the internal devices of the microcomputer occurs. As the devices malfunction, the microcomputer enters a latch-up state in which any key input does not operate until the microcomputer is reset.

In the conventional micom, when the latch-up as described above occurs, the user unplugs the electronic device using the microcomputer from the outlet, and then inserts the plug into the outlet to initialize the microcomputer.

An embodiment of the microcomputer will be described with reference to the television.

1 is a block diagram showing the structure of a conventional television.

The television includes a remote controller 20a for largely selecting various operation modes, a remote controller key signal input unit 20b for receiving infrared signals according to various operation modes output from the remote controller 20a, and a plurality of semiconductor elements. And the broadcast signal of the channel selected by the preset signal output from the microcomputer 30 and the channel voltage output from the microcomputer 30 by the signal output from the remote controller key signal input unit 20b. A tuner 40 received from the tuner 40, an image processor 52 for processing an image signal among the broadcast signals received by the tuner 40, and an image amplification for amplifying the image signal output from the image processor 52. A unit 54, a CRT 56 which receives an image signal output from the image amplification unit 54, and displays the image signal on a screen, and processes a sound signal among broadcast signals received by the tuner 40. The user receives a voice processor 62, a voice amplifier 64 for amplifying and outputting the voice signal processed by the voice processor 62 to a predetermined level, and a voice signal output from the voice amplifier 64. Is largely composed of a speaker 66 that outputs audible signals.

The operating voltage 5V of the microcomputer 30 is generated by a regulator 80 connected to the rear end of the commercial AC voltage input terminal 70, and the commercial AC voltage input terminal 70. The resistor R connected between the regulator 80 and the regulator 80 controls the voltage input to the regulator 80 to a predetermined magnitude to stabilize the operation of the regulator 80.

However, when an overcurrent is applied to the microcomputer 30 or synchronization inconsistency between the devices in the microcomputer 30 occurs, the microcomputer 30 is in a latch-up state, and at this time, a voltage drop occurs in the microcomputer 30. Thus, the voltage at the operating voltage input terminal Vcc of FIG. 1 goes down to 3V.

As described above, when the microcomputer 30 is in the latched up state, in order to reset the television, the user needs to unplug the television from the power outlet and plug it in again to reset the microcomputer 30.

Therefore, when the microcomputer enters the latched-up state as described above, the user has to unplug and reinsert the plug to reset the microcomputer. In addition, when the user does not know the latch-up phenomenon, A / S ( After Service), there was a problem that the labor and time was wasted.

As a prior art for solving the above problems, there is a technique known in Korean Utility Model Publication No. 93-3909.

It outlines using FIG. 2 attached to the summary of above-mentioned technique.

2 illustrates a reset circuit when a latch up of a microcomputer occurs. The microcomputer 230 receives an input signal applied from an input controller 205 and outputs an output signal to an output controller 210. The input controller An input signal recognition unit 215 and an output signal recognition unit 220 for recognizing an input signal and an output signal of the output control unit 210 and an output signal at a logic level, and the input signal recognition unit 215 A reset driving circuit 240 for logically combining the logic level output of the output signal recognizing unit 220 with an AND gate to determine a latch-up occurrence and outputting a reset signal; and a reset signal of the reset driving circuit 240. The reset circuit 250 resets the microcomputer.

In the above configuration, when the microcomputer 230 operates normally, a high level signal is output from the reset driving circuit 240, and when the microcomputer 230 is in a latched up state, the input / output signal recognition unit 215 ( Since any signal 220 is at a low level, the signal output from the reset driving circuit 240 is at a low level. As described above, when a low level signal is output from the reset driving circuit 240, the reset circuit 250 is operated to input a reset signal to the microcomputer 230.

However, in the prior art as described above, since the input / output signals of the microcomputer are detected and the reset pulse input is controlled by the microcomputer accordingly, there is a problem in that the circuit configuration becomes complicated.

An object of the present invention for solving the above problems is to automatically reset when a latch-up that prevents the microcomputer from operating due to static electricity or overload, etc., and to simplify the circuit configuration. The present invention provides an automatic reset circuit when a microcomputer latches up.

1 is an exemplary block diagram of a conventional remote control television receiver.

2 is a circuit diagram showing an automatic reset circuit when a latch up of a conventional microcomputer occurs.

3 is a circuit diagram showing an automatic reset circuit when a latch-up occurs in the microcomputer according to the present invention.

Explanation of symbols for main parts of the drawings

20a: remote control 30: micom

40: tuner 52: video processor

54: image amplifier 56: CRT

62: voice amplifier 64: voice amplifier

66: speaker 90: F-V converter

100: reference voltage generator 110: comparator

120: pulse generator ANT: antenna

Tr: Transistor Vcc: Operating Voltage Terminal

A feature of the present invention for achieving the above object is an electronic product having a microcomputer that is operated by an input operating voltage to output an operation control signal according to an operation mode selected by a user to various devices through a data bus, Voltage generation means for outputting a voltage corresponding to the frequency of data output through the data bus, connected to the middle of the data bus, reference voltage generating means for generating a predetermined constant voltage, the voltage generating means and the reference voltage generating means A comparison means for generating a predetermined signal among a plurality of preset signals by comparing the output voltages, and generating pulses for generating a reset pulse having a predetermined size when a signal output from the comparing means falls below a predetermined value; Means, and output from the pulse generating means And a switching means for inputting the reset pulse to the microcomputer by a set pulse, so that the microcomputer is automatically reset when a latch-up occurs.

An additional feature of the present invention for achieving the above object is that the reference voltage generating means uses a zener diode, and another additional feature is that the switching means uses a transistor.

Hereinafter, a preferred embodiment according to the present invention with reference to the accompanying drawings as follows.

2 is a block diagram illustrating an automatic reset circuit when a latch up of a microcomputer according to the present invention occurs.

When the microcomputer latches up, the automatic reset circuit inputs the operating voltage (5V) of the microcomputer 30 that outputs the operation control signal to various devices according to the input operation control signal. The regulator 80 generates power by using the power inputted from the control panel) and outputs the output to the microcomputer 30, and the data bus for applying the operation control signal output from the microcomputer 30 to the various devices 200. An FV converter 90 connected to a location and detecting a frequency of data output through the data bus and outputting a voltage corresponding to the frequency; a reference voltage generator 100 generating a voltage having a predetermined magnitude; Compare the voltage output from the FV converter 90 and the reference voltage generator 100 and output a specific signal according to the degree of positive / negative or magnitude of the difference Output comparator 110, a pulse generator 120 for generating an impulsive pulse of a predetermined size according to the signal output from the comparator 110, and the collector stage is between the microcomputer 30 and the regulator 80; The transistor terminal is connected to the link, the emitter terminal is grounded, and the base terminal is connected to the pulse generator 120 to perform a switching operation by a signal output from the pulse generator 120.

In the embodiment of the present invention, the reference voltage generator 100 preferably uses a zener diode.

The operation of the above automatic reset circuit will be described in more detail below.

The regulator 80 generates 5V, which is an operating voltage of the microcomputer 30, whereby the microcomputer 30 performs a normal operation and outputs an operation control signal to the various devices 200, thereby providing the various devices 200. They will execute the action accordingly.

At this time, the voltage output from the FV converter 90 and the reference voltage generator 100 is input to the comparator 110, the comparator 110, the pulse generator 120 of the rear end of the plurality of preset signals. The microcomputer 30 continues to operate normally by outputting a predetermined signal for preventing the operation of the.

However, when an overcurrent is applied to the microcomputer 30 by noise or when a synchronization mismatch occurs between the microcomputer internal devices, an abnormality occurs in the operation of the plurality of semiconductor devices constituting the microcomputer 30, and the microcomputer 30 is reset. The latch-up state will prevent any action before.

At this time, since no operation control signal is output from the microcomputer 30, the signal output from the FV converter 90 which is connected to the data bus and outputs a voltage corresponding to the frequency of data transmitted to the data bus is Is variable.

The voltage output from the FV converter 90 and the voltage output from the reference voltage generator 100 are input to the comparator 110. The comparator 110 receives the plurality of signals and receives a pulse generator of a subsequent stage ( 120 outputs a driving signal for operating.

According to the signal output from the comparator 110, the pulse generator 120 generates a reset pulse having a predetermined size and pulse width, and the transistor Tr by the reset pulse output from the pulse generator 110. Is instantaneously turned on so that the reset pulse is input to the microcomputer 30 through the operating voltage input terminal Vcc, and thus the microcomputer 30 is reset to operate normally.

Therefore, according to the present invention, even if a latch-up phenomenon occurs in the microcomputer, the microcomputer is automatically reset by the automatic reset circuit.

According to the automatic reset circuit of the microcomputer according to the present invention, which operates as described above, even if a latch-up phenomenon occurs, the microcomputer is automatically reset by the automatic reset circuit. Therefore, the automatic reset circuit does not remove the plug from the outlet. It automatically resets, greatly improving the convenience of use, and avoiding unnecessary A / S requests, thus preventing waste of time and manpower, and the automatic reset circuit detects only a signal input to the microcomputer. Therefore, since the reset pulse is generated, the circuit configuration can be simplified.

Claims (3)

An electronic product having a microcomputer that is operated by an input operating voltage and outputs an operation control signal according to an operation mode selected by a user to various devices through a data bus. Voltage generation means connected to the middle of the data bus and outputting a voltage corresponding to a frequency of data output through the data bus; Reference voltage generating means for generating a predetermined constant voltage; Comparing means for comparing output voltages of the voltage generating means and the reference voltage generating means and generating a predetermined signal among a plurality of preset signals according to a comparison result; Pulse generating means for generating a reset pulse having a predetermined magnitude when the signal output from the comparing means becomes less than or equal to a predetermined value; And a switching means for inputting the reset pulse to the microcomputer by a reset pulse output from the pulse generator, wherein the microcomputer is automatically reset when the latchup occurs. The automatic reset circuit according to claim 1, wherein the reference voltage generating means uses a zener diode. 2. The automatic reset circuit according to claim 1, wherein the switching means uses a transistor.