KR970002385B1 - Method and apparatus of detecting heating degree for monitor - Google Patents

Abstract

A monitor temperature sensing apparatus and control method thereof having a temperature sensing means sensing the temperature outputted from a vertical deflection processor and a horizontal deflection processor; an A/D converting means the temperature outputted from said temperature sensing means to digital signal; a control means outputting the stored regulation value according to the temperature outputted from said A/D converting means; and D/A converting means converting the digital signal regulation value outputted said control means to analog signal regulation value to apply to said vertical deflection processor and said horizontal deflection processor is disclosed. Thereby, the regulation value controlling vertical size and horizontal size is variable according to the inputted temperature, thus it is possible to prevent the image degradation due to temperature increasing.

Description

Monitor's temperature sensing device and its control method

1 is a view showing the configuration of a general monitor.

2 is a cross-sectional view showing the configuration of a temperature sensing device for a monitor according to the present invention.

3 is a flow chart showing a temperature sensing control process of a monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

41: horizontal deflection processor 42: vertical deflection processor

43: temperature detection unit 44: A / D conversion unit

45: control unit 46: D / A conversion unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to a temperature sensing device for a monitor capable of increasing rotation by varying a control value output from a microprocessor according to a change in temperature and a control method thereof.

A general monitor includes a video board 2 for processing a video signal output from a microprocessor 1 of a computer so as to be displayed on a screen and applying the same to a cathode ray tube (CRT), as shown in FIG. The main board 3 for switching modes by judging the presence or absence of the horizontal synchronous signal and the vertical synchronous signal output from 1), and the vertical synchronous signal and the horizontal synchronous signal in the form of pulses output from the main board 3 in the form of a triangular waveform. It is composed of a deflection portion 4 for converting into a deflection signal and generating a high pressure to be applied to the cathode ray tube (CRT).

The deflection unit 4 includes a horizontal deflection processing unit 41 for generating a high pressure by processing an input horizontal synchronization signal, a vertical deflection unit 42 for processing an input vertical synchronization signal, and the horizontal deflection processing unit 11. And a control unit 43 for controlling the vertical deflection processing unit 42.

In the general monitor configured as described above, first, the video signal (R.G.B color signal) output from the microprocessor 1 is applied to the video board 2, the screen is displayed, and then amplified and applied to the cathode ray tube CRT.

Meanwhile, the horizontal synchronous signal Hs and the vertical synchronous signal Vs output from the microprocessor 1 are applied to the main board 3 to determine whether the horizontal synchronous signal Hs and the vertical synchronous signal Vs are present. A control signal for switching to the on mode, the off mode, the suspend mode, or the standby mode is output, and the mode of the monitor is switched by the control signal.

Further, when the on mode is set by the control signal output from the main board 3, the horizontal synchronizing signal and the vertical synchronizing signal are applied to the horizontal deflection processing unit 41 and the vertical deflection processing unit 12 of the deflection unit 4. After being converted to a triangular waveform, a high pressure is generated by a flyback transformer not shown in the drawing.

At this time, the vertical size, the horizontal size, the vertical position, the horizontal position, and the like are controlled by the control value output from the controller 4 according to the temperature raised by the high pressure generated in the deflection portion 4.

The high pressure output from the flyback transformer is applied to the cathode ray tube CRT to control the video signal output from the video board 2 to be scanned on the front surface of the cathode ray tube CRT.

As described above, in the general monitor, the internal temperature of the monitor is controlled by a control value output from the control unit of the deflection unit, and the control value is constantly output regardless of the internal temperature of the monitor. There was a problem that the image quality is lowered abnormally operating.

Therefore, the present invention is to solve such a problem, the object of the present invention is that the set value output from the control unit is variable according to the internal temperature of the monitor to control the vertical size, horizontal size, etc., the image quality due to the increase in the internal temperature It is to provide a temperature sensing device for a monitor and a control method thereof that can prevent the degradation of the product and improve the reliability of the product.

The object of the present invention is a horizontal deflection signal and a horizontal synchronous signal output from the main board is applied to the vertical deflection processing unit and the horizontal deflection processing unit is converted to a triangular waveform deflection signal in the monitor to generate a high pressure, the vertical deflection Temperature sensing means for sensing a temperature output from the processor and the horizontal deflection processor, A / D conversion means for converting the temperature output from the temperature detection means into a digital signal, and a temperature output from the A / D conversion means A control means for outputting the stored control value, and a D / A conversion means for converting the control value of the digital signal output from the control means into a control value of the analog signal and applying it to the vertical deflection processing part and the horizontal deflection processing part. In the temperature sensing device, the input vertical deflection processing unit and the horizontal deflection processing unit A first process of sensing the generated temperature and converting the sensed temperature into a digital signal, a second process of comparing the temperature read in the first process with a temperature previously stored in the lookup table, and the second process It provides a temperature sensing control method for a monitor, characterized in that the control temperature corresponding to the read temperature and the pre-stored temperature is output and the horizontal deflection processing unit and the vertical deflection processing unit are controlled by the control value. This can be achieved by.

Hereinafter, an embodiment of a temperature sensing device for a monitor and a control method thereof according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view showing the configuration of the temperature sensing device of the monitor according to the present invention, as shown in this, the deflection portion 1 is a horizontal synchronous signal (Hs) and a vertical synchronous signal (outputted from the main board 3) Vs) is converted into a deflection signal of a triangular waveform and then the temperature output from the horizontal deflection processing unit 41 and the vertical deflection processing unit 42 and the horizontal deflection processing unit 41 and the vertical deflection processing unit 42 generating high pressure. The temperature output from the A / D conversion unit 44 by the temperature detection unit 43 for sensing and the A / D conversion unit 44 for converting the temperature output from the temperature detection unit 43 into a digital signal. The control unit 45 for outputting the stored control value and the control value of the digital signal output from the control unit 45 is converted to the control value of the analog signal and applied to the horizontal deflection processing unit 41 and the vertical deflection processing unit 42. / A converting section 46.

Here, the control unit 45 is configured to adjust the vertical size, horizontal size, vertical position, horizontal position, etc. by the control signal output from the control unit.

In the temperature sensing device of the monitor according to the present invention configured as described above, first, the horizontal deflection signal Hs and the vertical deflection signal Vs are output from the main board 3 so that the horizontal deflection processing unit 41 of the deflection section 4 is carried out. And a vertical deflection processor 42 are converted into a triangular waveform deflection signal, and the converted deflection signal is applied to a flyback transformer (not shown) to generate a high voltage.

At this time, the temperature output from the horizontal deflection processing unit 41 and the vertical deflection processing unit 42 of the deflection unit 4 is sensed by the temperature detection unit 13, and the detected temperature is the A / D conversion unit 44. Is converted into a digital signal.

Then, the temperature data converted into the digital signal is applied to the control unit 45 and compared with the temperature data stored in advance in the form of a look-up table, and then a control value corresponding to the matched temperature data is output.

The control value output from the controller 44 is applied to the D / A converter 46 and converted into an analog signal, and then applied to the horizontal deflection processing unit 41 and the vertical deflection processing unit 42 so that the vertical size, the horizontal size, etc. Controlled.

That is, the monitor is normally operated by the control of the vertical size and the horizontal size to control the deterioration of the image quality caused by the increase of the internal temperature.

The process described above will be described in more detail with reference to FIG. 3. First, the temperature output from the vertical deflection processing unit and the horizontal deflection processing unit is detected by the first step S1, and the detected temperature is measured by the second step ( S2) is converted into a digital signal.

When the temperature data converted in the second step S2 is compared with the temperature data stored in advance in the third step S3 and the temperature data coincides with each other, the control value corresponding to the temperature data is the first step S1. Is output by the execution of.

The control value output in the fourth step is converted into an analog signal in the fifth step S5, and then the control signal is applied to the horizontal deflection processing part and the vertical deflection processing part by the sixth step S6, so that the vertical size of the monitor, Horizontal size and the like are controlled.

As described above, the temperature sensing device and the control method of the monitor according to the present invention is controlled to control the vertical size, horizontal size, etc. according to the input temperature, it is possible to prevent the deterioration of image quality due to the internal temperature rise It has an effect.

Claims (2)

A horizontal synchronizing signal and a vertical synchronizing signal output from a main board are applied to a vertical deflection processing unit and a horizontal deflection processing unit and converted into a triangular waveform deflection signal. Temperature sensing means for sensing a temperature to be converted, A / D converting means for converting the temperature output from the temperature sensing means into a digital signal, and control means for outputting a stored control value according to the temperature output from the A / D converting means. And D / A converting means for converting the control value of the digital signal output from the control means into a control value of the analog signal and applying it to the vertical deflection processing unit and the horizontal deflection processing unit. A monitor for generating a high voltage after a horizontal synchronous signal and a vertical synchronous signal output from a main board are applied to a vertical deflection processing unit and a horizontal deflection processing unit and converted into a triangular waveform deflection signal, wherein the input vertical deflection processing unit and horizontal deflection processing unit A first process of detecting a temperature generated by the second process and converting the sensed temperature into a digital signal, a second process of comparing the temperature read in the first process with a temperature previously stored in a look-up table, and the second process And outputting a control value corresponding to a temperature at which the temperature read through and the pre-stored temperature coincide, and controlling the horizontal deflection processing unit and the vertical deflection processing unit by the control value.