KR20050077054A - Device resetting micom of monitor and method thereof - Google Patents

Abstract

A reset device for a microcomputer for a monitor and a method thereof are provided. The reset device provided in the monitor and for resetting the microcomputer for controlling the operation of the monitor, when a reset command is input to the sensor unit for inputting the microcom reset command and the reset unit to the sensor unit, turns off the power applied to the microcomputer and then restarts it. Applying a power supply to reset the microcomputer. As a result, when the monitor micom operates abnormally, the monitor microcomputer can be reset by touching the touch sensor, and the user can reset the monitor microcomputer in a more convenient manner. In addition, when the microcomputer is operating abnormally, the user may be notified of this, and the user may be induced to reset the microcomputer of the monitor.

Description

Reset device for monitor microcomputer and method thereof {Device resetting micom of monitor and method

The present invention relates to a reset device for a monitor microcomputer and a method thereof, and more particularly, to a reset device and a method for resetting the monitor microcomputer when it operates abnormally.

Most electronic products have a built-in Micom, which controls the overall operation of the electronic products.

As such, since the microcomputer plays a pivotal role in the operation of the electronic product, the microcomputer may be abnormally operated due to internal factors (eg, overload) or external factors (eg, electric / physical impact). As a result, the entire electronic product may not operate normally.

If an abnormality occurs in the operation of the microcomputer, the microcomputer needs to be reset, which is possible by turning off the power applied to the microcomputer and applying the microcomputer again.

In the case of a monitor, when the microcomputer operates abnormally and needs to be reset, the monitor must be unplugged and plugged in again, which causes inconvenience to the user. And a user who does not know how to reset the microcomputer of the monitor by such a method may be mistaken that the monitor is broken.

In addition, in order to meet the trend of artificial intelligence of electronic products, when the microcomputer is operating abnormally, a situation is required to inform the user to induce a user to reset the microcomputer of the monitor.

The present invention has been made to solve the above problems, an object of the present invention, by touching the touch sensor when the monitor microcomputer is operating abnormally, by re-applying the power applied to the monitor microcomputer after shutting off The present invention provides a reset device and a method for resetting the same.

According to the present invention for achieving the above object, the reset device for resetting the microcomputer for controlling the operation of the monitor, the sensor unit for inputting a reset command of the microcomputer; And a power applying unit which resets the micom by cutting off and reapplying the power applied to the micom when the reset command is input to the sensor unit. The sensor unit is preferably a touch sensor.

In addition, the touch sensor is preferably provided on the front portion of the monitor.

The power applying unit may include a controller configured to output a signal having a predetermined logic level based on a result of comparing the output signal value output from the sensor unit with a predetermined reference signal value; And a switching unit which is switched according to an output signal of the control unit and supplies and cuts power to the microcomputer.

The controller may be an operational amplifier that receives the output signal of the sensor unit through an inverting terminal, receives the predetermined reference signal through a non-inverting terminal, and outputs a signal having the predetermined logic level to the switching unit. .

The switching unit may receive the output signal of the controller through a base terminal, a collector terminal is connected to a power supply terminal of the microcomputer, and an emitter terminal may be a grounded transistor.

The microcomputer may further include a microcomputer reset unit configured to reset the microcomputer by cutting off the power applied to the power supply unit and reapplying the microcomputer when the reset signal is received from the microcomputer.

The microcomputer reset unit may receive the reset signal of the microcomputer through a base terminal, the collector terminal is connected to the power supply terminal of the microcomputer, and the emitter terminal may be a grounded transistor.

On the other hand, according to the present invention, the reset method provided in the monitor, for resetting the microcomputer for controlling the operation of the monitor, the method comprising the steps of: a) detecting whether the reset command of the microcomputer input; b) shutting off power applied to the microcomputer when the reset command is input; And c) resetting the microcomputer by reapplying power to the microcomputer.

In addition, in the step a), the reset command may be input through a touch sensor provided in the monitor.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a block diagram of a monitor provided with a reset device for a monitor microcomputer according to the present invention. Referring to FIG. 1, the monitor includes an AC adapter 110, a voltage adjusting unit 120, a microcomputer power supply unit 130, a microcomputer reset unit 140, a display unit 150, and an OSD (on screen display) unit 160. ), An input unit 170 and a microcomputer 180.

The AC adapter 110 receives an external AC power source (AC 100 to 220V), converts it to DC 14V, and outputs the converted AC 14V.

The voltage adjusting unit 120 adjusts the input power (DC 14V) applied from the AC adapter 110 so that the power output to the microcomputer power supply unit 130 is maintained at DC 5V.

The microcomputer power supply unit 130 applies or blocks the power DC 5V output from the voltage adjusting unit 120 to the microcomputer 180. In detail, the microcomputer power supply unit 130 normally supplies power to the microcomputer 180, but when the touch sensor 170a provided in the input unit 170 is touched, the microcomputer power supply unit 130 cuts off the power applied to the microcomputer 180 for a while. Should reapprove.

The microcomputer reset unit 140 controls the microcomputer 180 to supply or cut off the power output from the voltage adjusting unit 120 to the microcomputer power supply unit 130. In detail, the microcomputer reset unit 140 normally supplies power to the microcomputer power supply unit 130, but when the microcomputer reset unit 140 receives a reset command from the microcomputer 180, the microcomputer reset unit 140 briefly turns on the power applied to the microcomputer power supply unit 130. Blocked and reauthorized

The display unit 150 displays an image input from an external device (eg, PC, camera, VCR, DVDP, etc.).

The OSD unit 160 displays information on the operating environment of the monitor such as brightness, position, size, and the like on the screen for the user to refer to. That is, the OSD unit 147 causes symbols, letters, numbers, and the like for displaying the above information to be displayed at specific positions on the screen.

In addition, the OSD unit 160 provides a user interface by displaying an OSD menu on the display unit 150 through which a user can input a configuration or operation control of a monitor.

The input unit 170 is a device that receives a user's operation command and transmits it to the microcomputer 180, and is generally provided at the front of the monitor. In addition, the input unit 170 may be implemented as a light receiving unit that receives the remote control for inputting the user's operation command and the output signal of the remote control to transmit to the microcomputer 180.

The input unit 170 includes a touch sensor 170a used to reset the microcomputer 180, a direction key 170b for moving the cursor displayed on the OSD menu, and a selection key 170c for selecting a menu where the cursor is located. ) Is provided.

The microcomputer 180 controls the overall operation of the monitor. In particular, the microcomputer 180 controls the monitor to operate according to a user's operation command input through the input unit 170.

The microcomputer 180 is driven by receiving power from the microcomputer power supply unit 130 and outputs a reset control signal to the microcomputer reset unit 140.

Hereinafter, the microcomputer power supply unit 130 and the microcomputer reset unit 140 illustrated in FIG. 1 will be described in detail with reference to FIG. 2. 2 is a circuit diagram of the microcomputer power supply unit 130 and the microcomputer reset unit 140. In FIG. 2, the voltage adjusting unit 120, the touch sensor 170a, and the microcomputer 180 are further illustrated for convenience of understanding.

The microcomputer power supply unit 130 applies or blocks the power output from the voltage adjusting unit 120 to the power supply terminal Vcc of the microcomputer 180. The control unit 135 and the first resistor R ₁ connected thereto, A second resistor R ₂ , a first capacitance C ₁ , a second capacitance C ₂ , and a first transistor Q ₁ are provided.

The controller 135 compares the magnitude of the input voltage of the touch sensor signal input terminal In_sen and the magnitude of the input voltage of the reference signal input terminal In_ref, and according to the result, the logic of the signal output from the output terminal Out. Adjust the level.

First, when the touch sensor 170a is not touched (ie, normally), a voltage charged in the first capacitance C ₁ is applied to the touch sensor signal input terminal In_sen, and is applied to the reference signal input terminal In_ref. The charged voltage is applied to the second capacitance C ₂ . Since the capacitance of the first capacitance C ₁ is larger than that of the second capacitance C ₂ , the input voltage of the touch sensor signal input terminal In_sen is greater than the input voltage of the reference signal input terminal In_ref. high. In this case, the controller 135 outputs a logic level 'Low' signal to the output terminal Out, which is possible by bypassing the output terminal Out to the ground terminal GND.

When the logic level 'Low' signal is output to the output terminal Out of the controller 135, the first transistor Q ₁ is in the 'turn-off' state, and thus the power output from the voltage adjusting unit 120 is zero. 2 is applied to the power supply terminal (Vcc) of the microcomputer 180 through the resistor (R ₂ ).

On the other hand, when the user touches the touch sensor 170a (that is, when the touch sensor 170a contacts the body), the input voltage of the touch sensor signal input terminal In_sen of the controller 135 is the reference signal input terminal ( Since it is lower than the input voltage of In_ref, the controller 135 outputs a logic level 'High' signal to the output terminal Out. This is possible by the controller 135 bypassing the output terminal Out to the power supply terminal Vcc.

When the logic level 'High' signal is output to the output terminal Out of the controller 135, the first transistor Q ₁ is in a 'turn-on' state, and the power supply terminal Vcc of the microcomputer 180 is Since the grounded state, the power output from the voltage adjusting unit 120 is not applied to the microcomputer 180.

The microcomputer reset unit 140 operates according to the control signal of the microcomputer 180, and applies or blocks the power output from the voltage adjusting unit 120 to the microcomputer power supply unit 130. The microcomputer reset unit 140 performing the function includes a third resistor R ₃ and a second transistor Q ₂ .

The microcomputer 180 outputs a reset control signal to the microcomputer reset unit 140 through a reset terminal Reset.

Normally, a reset control signal having a logic level of 'Low' is output from the reset terminal Reset of the microcomputer 180, and the transistor Q ₂ is in a 'turn-off' state, so that the voltage is output from the voltage adjusting unit 120. The power is applied to the power supply terminal Vcc of the microcomputer 180 through the second resistor R ₂ .

However, when a reset control signal having a logic level of 'High' is output from the reset terminal Reset of the microcomputer 180, the second transistor Q ₂ is turned on and the output terminal of the power adjusting unit 120 is turned on. Since it is grounded through the third resistor R ₃ , no power is applied to the microcomputer 180.

Meanwhile, the control unit 135 of the microcomputer power supply unit 130 may be implemented as an operational amplifier (OP-Amp), which is illustrated in FIG. 3.

Referring to FIG. 3, the touch sensor 170a and the first capacitance C ₁ are connected to the inverting (−) terminal of the operational amplifier OP-Amp through the first resistor R ₁ and non-inverting (+). ) Terminal is connected to the second capacitance C ₂ . In addition, the base terminal of the first transistor Q ₁ is connected to the output terminal of the operational amplifier OP-Amp.

When the touch sensor 170a is not touched (ie, normally), since the input voltage of the inverting (-) terminal is higher than that of the non-inverting (+) terminal, a logic level 'Low' signal is output to the output terminal. . When the touch sensor 170a is touched, since the input voltage of the non-inverting (+) terminal is higher than the input voltage of the inverting (-) terminal, a logic level 'High' signal is output to the output terminal.

The remaining operations are the same as described with reference to FIG. 2 and will be omitted.

Hereinafter, a method of resetting the monitor microcomputer will be described in detail with reference to FIG. 4.

First, when an operation abnormality occurs in the microcomputer 180 (S310), and the degree of the operation abnormality is serious, the screen is not displayed on the display unit 150 or when the displayed screen is stopped (S320). When the touch sensor 170a provided in the touch (S330) is input (S330), the power applied to the microcomputer 180 is interrupted for a while, and then reapplied (S340), the microcomputer 180 is reset.

Specifically, when the user touches the touch sensor 170a, the input voltage of the touch sensor signal input terminal In_sen of the control unit 135 provided in the microcomputer power supply unit 130 is set to the reference signal input terminal In-ref. Since the voltage is lower than the input voltage, the controller 135 outputs a logic level 'High' signal to the output terminal Out, so that the first transistor Q ₁ is in a 'turn-on' state, and the power supply of the microcomputer 180 is applied. The supply terminal Vcc is in a ground state, and the power output from the voltage adjusting unit 120 is not applied to the microcomputer 180.

After the user's touch is made instantaneously, the input voltage of the touch sensor signal input terminal In_sen of the controller 135 is higher than the input voltage of the reference signal input terminal In_ref, so that the controller 135 goes to the output terminal Out. Since the first transistor Q ₁ is 'turned off' by outputting a logic level 'Low' signal, the power output from the voltage adjusting unit 120 is re-applied to the microcomputer 180, thereby resetting the microcomputer 180. This is done.

The same applies to the case where the control unit 135 of the microcomputer power supply unit 130 is implemented as an operational amplifier (OP-Amp) as shown in FIG. 3.

On the other hand, if the degree of operation abnormality occurred in the microcomputer 180 is small (processing speed decrease due to overload, etc.), and the screen display is possible on the display unit 150 (S320), the microcomputer 180 is the OSD unit 160 By controlling the display unit 150 to display the 'reset selection menu' (S350). 5 illustrates an example of the reset selection menu 155 displayed on the display unit 150.

The user can move the cursor displayed on the reset selection menu 155 to the left / right by using the direction key 170b of the input unit 170, and the menu item (Yes) where the cursor is located by using the selection key 170c. Or No).

By the above-described method, when the user selects the reset of the microcomputer 180 ('Yes' selection) (S360), the microcomputer 180 is reset (S370).

Specifically, when the user selects the reset of the microcomputer 180, the microcomputer 180 outputs a reset control signal having a logic level 'High' to the reset terminal Reset, so that the second transistor Q ₂ is turned off. Since the output terminal of the power adjusting unit 120 is grounded through the third resistor R ₃ , power is not applied to the microcomputer 180.

Subsequently, the microcomputer 180 outputs a reset control signal having a logic level 'Low' to the reset terminal Reset, and the second transistor Q ₂ is 'turned off', so that the power input of the microcomputer 180 is turned on. Since the power output from the voltage adjusting unit 120 is reapplied to the terminal Vcc, the microcomputer 180 is reset.

As described above, according to the present invention, when the monitor micom operates abnormally, the monitor micom can be reset by touching the touch sensor, so that the user can reset the monitor micom in a more convenient manner. In addition, when the microcomputer is operating abnormally, the user may be notified of this, and the user may be induced to reset the microcomputer of the monitor.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is a block diagram of a monitor provided with a reset device for a microcomputer for a monitor according to the present invention;

2 is a circuit diagram of a microcomputer power supply unit and a microcomputer reset unit of FIG. 1 according to an embodiment of the present invention;

3 is a circuit diagram of the microcomputer power supply unit of FIG. 1 according to another embodiment of the present invention;

4 is a flowchart provided for explaining a method of resetting a monitor microcomputer according to the present invention;

5 is a diagram illustrating a reset selection menu displayed on a display unit.

Explanation of symbols on the main parts of the drawings

110: AC adapter 120: voltage adjuster

130: microcomputer power supply unit 140: microcomputer reset unit

150: display unit 160: OSD unit

170: input unit 170a: touch sensor

180: micom

Claims (10)

A reset device provided in a monitor, for resetting a microcomputer for controlling the operation of the monitor, A sensor unit for inputting a reset command of the microcomputer; And And a power applying unit which resets the micom by cutting off and reapplying the power applied to the micom when the reset command is input to the sensor unit. The method of claim 1, The sensor unit is a reset device, characterized in that the touch sensor. The method of claim 2, The touch sensor is a reset device, characterized in that provided in the front portion of the monitor. The method of claim 1, The power supply unit, A controller for outputting a signal having a predetermined logic level based on a result of comparing the output signal value output from the sensor unit with a predetermined reference signal value; And And a switching unit which is switched according to an output signal of the control unit and supplies and cuts power to the microcomputer. The method of claim 4, wherein The control unit, And an operational amplifier receiving the output signal of the sensor unit through an inverting terminal, receiving the predetermined reference signal through a non-inverting terminal, and outputting a signal having the predetermined logic level to the switching unit. The method of claim 4, wherein And the switching unit receives the output signal of the control unit through a base terminal, a collector terminal is connected to a power supply terminal of the microcomputer, and an emitter terminal is a transistor which is grounded. The method of claim 1, And a microcomputer reset unit which resets the microcomputer by cutting off the power applied to the power supply unit and reapplying the microcomputer when the reset signal is received from the microcomputer. The method of claim 7, wherein And the micom reset unit receives the reset signal of the microcomputer through a base terminal, a collector terminal is connected to a power supply terminal of the microcomputer, and an emitter terminal is a transistor that is grounded. In the reset method provided in the monitor, for resetting the microcomputer for controlling the operation of the monitor, a) detecting whether a reset command of the microcomputer is input; b) shutting off power applied to the microcomputer when the reset command is input; And c) resetting the micom by reapplying power to the micom. The method of claim 9, In step a), The reset command is input via the touch sensor provided in the monitor.