KR19980017811A - Horizontal output protection device of the monitor - Google Patents

Abstract

The present invention relates to a horizontal output protection device, the device of the present invention is provided with a PWM / DC converter 20 for receiving a PWM type F / V voltage and processing the signal to a DC voltage supply to the horizontal oscillator (10) In the horizontal deflection circuit, it is determined whether the horizontal frequency input from the video card 30 is within the rated range, and if the horizontal frequency is equal to or greater than the rated range, the F / V voltage is appropriately reduced so that the PWM / DC converter 20 When the voltage is less than the rated range, the F / V voltage is appropriately increased to be supplied to the PWM / DC converter 20 so that the horizontal drive is supplied to the horizontal output circuit even if the horizontal frequency does not exist within the rated range. The effect is to protect the horizontal output circuit by signal processing so that the signal is always within the rated range.

Description

An apparatus for protecting a horizontal output in a monitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal output protection device. In particular, in a multi-mode monitor operating according to a horizontal frequency, when the horizontal frequency does not exist within the rated range, the horizontal frequency is signal-processed so that the horizontal frequency exists within the rated range. It relates to an output protection device.

In general, a multi-mode monitor reproduces a video image according to a signal received from a video card in a computer, which requires adjustment of each part of the circuit according to a timing parameter of the received signal.

Here, look at the classification of the monitor according to the video mode through Table 1.

Classification by video mode Video mode Horizontal frequency (KHz) Vertical frequency (Hz) Resolution (H * V) CGA 15.75 60 640 * 200 EGA 21.8 60 640 * 350 VGA 31.5 60/70 720 * 350 640 * 480 SVGA 35 to 37 INTERLACE 1024 * 768 High resolution mode 64 to 75 60 to 70 1024 * 7681280 * 1024

As shown in Table 1, the horizontal and vertical frequencies are different according to the modes supported by the video card, and in particular, a video card supporting various modes, for example, a video card supporting VGA and SVGA and high resolution only modes, is mounted on the monitor. If so, the horizontal frequency range of each mode is about 30 to 75 KHz.

That is, when the mode is changed in the multi-mode monitor, there are parts that need to be changed in the internal circuits of the monitor. For example, the size and position of the image, the horizontal and vertical synchronization, the optimization of the deflection unit, and the various deflection correction circuits Readjustment should be done.

Next, the deflection principle of a general monitor will be briefly described with reference to the horizontal deflection circuit of FIG. 1.

When the microcomputer 2 receives the horizontal frequency from the video card 1 and converts the horizontal frequency into an F / V voltage in the form of a pulse width modulation (PWM), the PWM / DC converter 3 converts the F / V voltage back into a DC voltage. It converts and inputs it to the horizontal oscillation part 4. As shown in FIG.

The horizontal oscillator 4 receives the DC voltage to generate a horizontal driving signal and supplies the horizontal driving signal to the horizontal driving unit 5, thereby outputting a sawtooth current through the horizontal output unit 6.

The signal output through the horizontal output unit 6 is applied to the horizontal deflection coil 7, and also to the flyback transformer 8, which operates the high voltage circuit and the horizontal output circuit. After inputting, the voltage induced in the secondary winding is fed back to the horizontal oscillator 4 to synchronize with the horizontal frequency.

However, since the conventional microcomputer 2 receives the horizontal frequency and outputs only the corresponding F / V voltage, if the horizontal frequency outside the rated range (about 30 to 75 KHz) is input, the operation of the horizontal deflection circuit is unstable. There was a problem.

For example, when a very high horizontal frequency is input, the microcomputer 2 outputs the F / V voltage corresponding to the horizontal frequency as it is, and as the magnitude of the horizontal driving signal output from the horizontal oscillator 4 increases, The B + voltage rises, damaging the horizontal output transistors. On the contrary, when a very low horizontal frequency is input, the F / V voltage output from the microcomputer 2 becomes below the rating, so that the hold collapses and the set malfunctions or the horizontal output transistor is damaged.

The present invention has been made to solve the above problems, the horizontal output protection device which is designed to protect the horizontal output circuit by signaling the F / V voltage to be within the rated range when the horizontal frequency is not within the rated range The purpose is to provide.

The horizontal output protection device according to the present invention for achieving the above object, in the horizontal deflection circuit having a PWM / DC converter for receiving a PWM type F / V voltage and processing the signal into a DC voltage supplied to the horizontal oscillator In this case, it is determined whether the horizontal frequency input from the video card is within the rated range, and if the horizontal frequency is above the rated range, the F / V voltage is appropriately reduced and supplied to the PWM / DC converter. The V voltage is appropriately increased to supply the PWM / DC converter.

That is, according to the present invention, if the horizontal frequency is above the rated range, the F / V voltage is appropriately reduced, and if it is below the rated range, the F / V voltage is appropriately increased to output to the PWM / DC converter, whereby the F / V voltage is always It is designed to protect the horizontal output by signal processing to be within the rated range.

1 is a block diagram showing a general horizontal deflection circuit;

2 is a circuit diagram showing a horizontal output protection device of a monitor according to the present invention.

* Names of symbols for main parts of the drawings

10: video card 20: micom

30: PWM / DC converter 40: horizontal oscillator

50: signal processing unit NOR: Noah gate

OP 1,2,3,4: 1,2,3,4 buffer R 1,2,3,4: resistor

Hereinafter, an embodiment according to an apparatus of the present invention will be described with reference to the accompanying drawings.

2 is a circuit diagram showing a horizontal output protection device according to the present invention.

As shown in FIG. 2, the apparatus according to the present invention comprises a horizontal oscillator 10, a PWM / DC converter 20, a video card 30, a microcomputer 40, and a signal processor 50. .

Here, the microcomputer 40 outputs a low level first control signal and a second control signal when the input horizontal frequency is within the rated range, and when the input horizontal frequency is greater than the rated range, the microcontroller 40 and the high level second control signal. The control signal is output, and if it is below the rated range, the first control signal of high level and the second control signal of low level are output.

In addition, when the first control signal and the second control signal of the low level are input from the microcomputer 40, the signal processor 50 outputs the F / V voltage to the PWM / DC converter 20 as it is, and the low level. When the first control signal of and the second control signal of the high level is input Outputs twice the F / V voltage to the PWM / DC converter 20, and when the first control signal of high level and the second control signal of low level are input, double the FV voltage of the PWM / DC converter 20. )

Here, the signal processor 50 may include a NOR gate NOR for receiving first and second control signals from the microcomputer 40; The first buffer OP1 is enabled by the output signal of the NOR gate NOR, the F / V voltage output from the microcomputer 40 is input to a non-inverting input terminal, and the output signal is fed back to the inverting input terminal. ; Enabled by the first control signal, the F / V voltage output from the microcomputer 40 is input to a non-inverting input terminal, and the output signal is voltage-divided through the resistors R1 and R2 to feed a feedback to the inverting input terminal. A second buffer OP2; Enabled by the second control signal, the F / V voltage output from the microcomputer 40 is divided by voltage through resistors R3 and R4 and input to the non-inverting input terminal, and the output signal is fed back to the inverting input terminal. It consists of a third buffer OP.

Next will be described in detail the operation and effects of the other device to the present invention configured as described above.

First, the microcomputer 40 determines whether the horizontal frequency input from the video card 30 is within the rated range, and outputs the first and second low level control signals when the horizontal frequency is within the rated range.

Accordingly, since the '00' signal is inputted to the NOR gate NOR and '1' is output, the F / V voltage is buffered through the first buffer OP1 as only the first buffer OP1 is enabled. It is output as it is without signal processing.

On the other hand, if the horizontal frequency is less than the rated range, the microcomputer 40 outputs a high level first control signal and a low level second control signal.

Accordingly, since a '10' signal is input to the NOR gate NOR and '0' is output, the F / V voltage is buffered through the second buffer OP2 as only the second buffer OP2 is enabled. The signal shown in Equation 1 is output by the resistors R1 and R2.

Here, the F / V input voltage of the buffer OP Output voltage Say,

[Equation 1]

The fourth buffer OP4 is an impedance matching buffer.

In addition, when the horizontal frequency is greater than or equal to the rated range, the microcomputer 40 outputs a low level first control signal and a high level second control signal.

Accordingly, since the '01' signal is inputted to the Noah gate NOR and '0' is output, the F / V voltage is buffered through the third buffer OP3 as only the third buffer OP3 is enabled. The signal shown in the output equation 2 is output by the resistors R2 and R3.

[Equation 2]

Therefore, since the voltage output from the signal processor 50 is input to the PWM / DC converter 30 and converted into a DC voltage, and then applied to the horizontal oscillator 40, the horizontal frequency output from the video card 10. Even if is not within the rated range, since the DC voltage supplied to the horizontal oscillator 40 is within the rated range, the horizontal drive signal output from the horizontal oscillator 40 also always exists within the rated range.

In addition, when the horizontal frequency is out of the rated range, the microcomputer 20 outputs a display control signal to emit light or display the light emitting display on the screen, thereby informing the user.

As described above, the present invention relates to a multi-mode monitor operating according to a horizontal frequency so that a horizontal drive signal supplied to a horizontal output circuit always exists within a rated range even if the horizontal frequency does not exist within a rated range. By processing, the effect is to protect the horizontal output circuit.

Claims (3)

In a horizontal deflection circuit having a PWM / DC converter 20 that receives a PWM type F / V voltage and processes the signal into a DC voltage and supplies the same to the horizontal oscillator 10, the horizontal frequency input from the video card 30. Is determined to be within the rated range, and if the horizontal frequency is greater than or equal to the rated range, the F / V voltage is appropriately reduced to be supplied to the PWM / DC converter 20, and if it is below the rated range, the F / V voltage is appropriately increased. Horizontal output protection device, characterized in that for supplying to the PWM / DC converter (20). The low level first control signal and the high level second control are outputted when the input horizontal frequency is within the rated range. A microcomputer 40 which outputs a signal and outputs a high level first control signal and a low level second control signal when the signal is below the rated range; When the low level first control signal and the second control signal are input from the microcomputer 40, the F / V voltage is output to the PWM / DC converter 20 as it is, and the low level first control signal and the high level When the second control signal is input Outputs twice the F / V voltage to the PWM / DC converter 20, and when the first control signal of high level and the second control signal of low level are input, double the FV voltage of the PWM / DC converter 20. Horizontal output protection device characterized in that it is composed of a signal processing unit (50) to output. 3. The signal processing unit (50) according to claim 2, further comprising: a NOR gate (NOR) for receiving first and second control signals from the microcomputer 40; The first buffer OP1 is enabled by the output signal of the NOR gate NOR, the F / V voltage output from the microcomputer 40 is input to a non-inverting input terminal, and the output signal is fed back to the inverting input terminal. ; Enabled by the first control signal, the F / V voltage output from the microcomputer 40 is input to a non-inverting input terminal, and the output signal is voltage-divided through the resistors R1 and R2 to feed a feedback to the inverting input terminal. A second buffer OP2; Enabled by the second control signal, the F / V voltage output from the microcomputer 40 is divided by voltage through resistors R3 and R4 and input to the non-inverting input terminal, and the output signal is fed back to the inverting input terminal. And a third buffer (OP).