KR970001284Y1 - Pwm control unit of hss - Google Patents

Abstract

None.

Description

Horizontal synchronous signal pulse width control device

1 is a block diagram of a horizontal synchronous signal pulse width control apparatus according to the present invention.

2 is a detailed circuit diagram of the horizontal synchronous signal pulse width control circuit of FIG.

FIG. 3 is a sub waveform diagram of FIG. 2 when a positive horizontal synchronization signal is input. FIG.

FIG. 4 is a sub waveform diagram of FIG. 2 when a negative horizontal synchronization signal is input.

* Explanation of symbols for main parts of the drawings

10: video card 12: horizontal synchronization signal pulse width control circuit

14: mode discrimination circuit 16, 18, 22: mixed glue portion gate

20: multivibrator VR: variable resistor

The present invention relates to a horizontal synchronous signal pulse width control device, and outputs a variable time constant by connecting a variable resistor to one side of a multivibrator in a horizontal synchronous signal pulse width control circuit to discriminate horizontal synchronous signals input from various video cards. It relates to a horizontal synchronous signal pulse width control device configured to determine more modes by reducing the width of the trigger pulse.

In general, a monitor used as a peripheral device of a computer system is to display a video signal provided from a main body, and a main body is equipped with a video card for accurate video signal frequency of the monitor.

However, there are many differences in the horizontal synchronization signal generated from the video card because the pulse width varies greatly from manufacturer to manufacturer. In order to overcome this problem, a mode discrimination circuit for discriminating and processing the polarity is configured by the pulse width of the horizontal synchronization signal, and the mode is discriminated and controlled by the pulse width of the input horizontal synchronization signal.

However, in the mode discrimination circuit of such a configuration, it is often difficult to perform mode discrimination if the width of the input pulse becomes longer than the on time or the off time.

This invention is to solve the above problems, the object of this invention is to configure a horizontal synchronous signal pulse width control circuit for reducing the width of the pulse provided to the mode determination circuit to determine a wider variety of video cards A synchronization signal pulse width control apparatus is provided.

The horizontal synchronous signal pulse width control apparatus according to the present invention for achieving the above object is characterized by performing the mode-specific operation according to the video card type by discriminating the horizontal synchronous signal input from the video card and providing it to the mode class circuitry. A horizontal synchronizing signal pulse width control apparatus comprising: a first logical combination for outputting a horizontal synchronizing signal section as a high level signal by logically combining the horizontal synchronizing signal with reference to a reference voltage that varies according to the polarity of the input horizontal synchronizing signal; Means; Trigger means for outputting a synchronous signal applied from said first logical combining means as a pulse wave having a predetermined width; Pulse width varying means for varying a pulse width output from said trigger means by varying the resistance value and thus varying the time value; The second logic combination means for outputting a pulse different from the polarity by combining the pulse output from the trigger means with a reference voltage variable according to the polarity and one exclusive ore.

Hereinafter, a preferred embodiment of a horizontal synchronous signal pulse width control apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an embodiment of a horizontal synchronous signal pulse width control apparatus according to the present invention, the video card 10 for providing a horizontal synchronous signal (H-Sync) and the horizontal synchronous signal (H-Sync) is inputted A horizontal synchronizing signal pulse width control circuit 12 for outputting different pulses in accordance with the synchronizing signal, and a mode discriminating circuit 14 for discriminating modes by discriminating the input pulse waves.

The horizontal synchronous signal pulse width control circuit 12 configured in the horizontal synchronous signal pulse width control apparatus according to the present invention having such a configuration has a constant pulse width of the horizontal synchronous signal (H-Sync) input from the video card 10. After decrementing it, it inputs to these mode discrimination circuits 14. By discriminating the pulses input to the mode discrimination circuit 14, mode discrimination according to the model of the video card 10 can be performed.

The detailed operation of the horizontal synchronous signal pulse width control circuit 12 for outputting the pulse for determining the input mode in this manner will be described with reference to FIG.

The horizontal synchronizing signal pulse width control circuit 12 has an exclusive or gate 16 connected to the other input side to which the horizontal synchronizing signal is input from the video card 910, and the input shaft to which the horizontal synchronizing signal is input is a constant voltage. A resistor (RI) biased to (B +) and a ground capacitor (CI) connected in parallel thereto are connected, and the output signal is connected to be input as an input signal of the exclusive ora gate (18). The output signal of the OR gate 18 is configured to be input to another input signal of the exclusive OR gate 18 through the resistor R2.

The output signal of the exclusive OR gate 18 is connected to the input terminal of the multivibrator 20, and one side of the multivibrator 20 is a constant voltage B + which is a variable means for varying the width of the output pulse. Is applied to a variable resistor VR and a capacitor C3, and a non-inverting output terminal is connected to one input side of the exclusive OR gate 22.

The stop capacitor C2 is jointly connected to the input shaft to which the west port R2 of the exclusive ora gate 18 is connected, and the other input side of the exclusive ora gate 22. In addition, the output signal of the exclusive OR gate 22 is configured to be input to the mode determination circuit 14.

The operation of the horizontal synchronizing signal pulse width control circuit 12 according to such a configuration will be explained by dividing it into the case where the positive synchronization signal of FIG. 3 is input and the negative synchronization signal of FIG.

First, as shown in FIG. 3A, when the positive horizontal synchronization signal is input to the exclusive OR gate 16, the other input axis of the exclusive OR gate 16 is set to a low level voltage, and thus its output. As shown in FIG. 3B, a pulse having the same shape as the input pulse wave is output.

As the pulse as shown in FIG. 3 (b) is outputted, the potential charged in the capacitor C2 is at a low level as shown in FIG. 3 (c), so that the output waveform of the exclusive ora gate 18 is third. It becomes like (d).

As the waveform as shown in FIG. 3 (d) is input from the exclusive oar gate 18, the multivibrator 20 outputs the pulse as shown in FIG. 3 (e) to the exclusive oar gate 22. At this time, the width of the output pulse is varied by forming the number of facilities determined by the resistance value and the capacitor C2 value by varying the resistance value of the variable resistor VR.

If the width of the output pulse is made narrower, there will be redundancy in the area, so that more video card modes can be determined.

In this way, the pulses outputted from the multivibrator 20 are determined by the time values based on the values of the variable resistor VR and the capacitor C3, and are input to the exclusive or gate 22. The exclusive OR gate 22 has a low level voltage applied to the other input side as the input side of the exclusive OR gate 18, and thus its output is as shown in FIG.

Therefore, by reducing the width of the positive horizontal synchronization signal and inputting it to the mode discrimination circuit 14, it is possible to discriminate more modes of a video car or the like as much as the width of the sleepiness.

When the horizontal synchronizing signal input from the video card 10 is nonpolar, a horizontal synchronizing signal as shown in FIG. 4 (a) is inputted to the exclusive ora gate 16, as shown in FIG. As the pulse is output from the exclusive or gate 16, the voltage level charged in the capacitor C2 becomes high level as shown in FIG. Then, the exclusive OR gate 18 inputs a pulse as shown in FIG. 4 (D) to the multivibrator 20 by two input signals, and the multivibrator 20 is connected to a variable resistor VR connected to one side thereof. The pulse of which the pulse width is determined by the value of the condenser C3 is applied to the exclusive or gate 22, and the exclusive or gate 22 has a fourth input (Fig. F) Output the same pulse as above.

At this time, the exclusive OR gates 16 and 18 were combined to form a pulse input as an input signal of the multivibrator 20, and the multivibrator 20 is configured to trigger and output an input signal. The trigger time is determined by the values of the variable resistor (VR) and the capacitor (C3) connected to one side of the multi-vibrator 20, so that the variable resistance value is varied to determine more video card modes. By narrowing the width of the output pulse, it is possible to determine more video card modes by that extra amount.

As described above, according to the horizontal synchronizing signal pulse control apparatus according to the present invention, the horizontal synchronizing signal pulse width control circuit is provided with a variable resistor so as to provide a pulse for determining the mode by varying the pulse width provided to the mode discrimination circuit. By including the configuration, more video card modes can be determined.

Claims (1)

In the horizontal synchronous signal pulse width control device for determining the horizontal synchronous signal input from the video card to provide a mode discrimination circuit to perform a mode-specific operation according to the video card type, the horizontal synchronous signal to the polarity of the input horizontal synchronous signal First logic combining means for outputting a horizontal synchronous signal section as a high level signal by performing logical combining with reference to a reference voltage variable according to the variable voltage; Trigger means for outputting a synchronization signal applied from said first logic combining means as a pulse wave having a predetermined width; Pulse width varying means for varying a pulse width output from said trigger means by varying a resistance value and thus a time constant which is varied accordingly; And a second logical combination means for combining the pulse output from the trigger means with a reference voltage variable according to the polarity and an exclusive ora to output a pulse different according to the polarity.