KR960009057Y1 - Displaying circuit for self raster of green monitor - Google Patents

Abstract

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Description

Self-Laster Exhibition of Green Monitor

1 is a partial configuration of a conventional green monitor.

2 is a partial configuration of the green monitor applied to the self-monitoring exhibition of the present invention green monitor.

* Explanation of symbols for main parts of the drawings

201: Signal cable connector 202: Buffer part

203: Green function processing unit 204: Horizontal synchronization processing unit

205: horizontal oscillation unit 206: image clamping unit

207: AFC signal generator 208: Clamp signal generator

The present invention relates to a green monitor that can be self-tested. In particular, a self-raster is displayed on the monitor screen so that the user can easily recognize the abnormality of the green monitor during self-test. It could be about self-raster exhibition of green monitors.

1 shows a part of a conventional green monitor, in which a signal cable (not shown) for supplying a horizontal synchronous signal is connected to a signal cable connecting portion 101 having a self test terminal A and a horizontal synchronous input terminal B. FIG. Then, the self test terminal A of the signal cable connecting portion 101 is grounded because it is electrically grounded unconditionally when the signal cable is connected to the signal cable connecting portion 101, and is horizontally connected through the connected signal cable. When the horizontal synchronization signal is input to the synchronization input terminal B, the horizontal synchronization signal is input to the buffer unit 102.

As such, in the buffer unit 102 receiving the horizontal synchronization signal, the diode D1 is turned off to the ground of the self test terminal A of the signal cable connection unit 101, so that the power supply voltage B + through the resistor R1 becomes the resistance ( It is not applied to the base terminal of the transistor Q1 through R2), and instead the horizontal synchronous signal is applied to the base of the transistor Q1 through the capacitor C1 and the resistor R2, so that the transistor Q1 is turned on. .

As such, when the transistor Q1 of the buffer unit 102 is turned on, the collector terminal falls to a low state. Thus, a low signal is output from the buffer unit 102 having the collector terminal as an output terminal, and thus the green function processing unit 103 It is input to the horizontal synchronization processing part 104 simultaneously.

Here, the green function processing unit 103 is a circuit provided in the green monitor for performing the power saving function (DPM), and serves to control the operation of the horizontal synchronization processing unit 104 by operating as an input of a high signal. When the low signal is input from the buffer unit 102 as described above, the green function processing unit 103 does not operate, so the horizontal synchronization processing unit 104 and the horizontal oscillating unit 105 operate normally.

As the horizontal oscillator 105 operates normally as described above, a clamp signal (black level reference signal) is generated from the horizontal oscillator 105 and is supplied to the image clamping unit 106 so that an image appears on the monitor screen.

On the other hand, if the signal cable is connected to the signal cable connecting portion 101, but there is no horizontal synchronous signal input to the horizontal synchronous input terminal (B) of the signal cable connecting portion 101 via the signal cable, of course, even at this time signal cable Since the self-test terminal A of the signal cable connection unit 101 is connected since there is a connection, since there is no horizontal synchronization signal input to the horizontal synchronization input terminal B, the buffer unit 102 does not receive any signal at the base. The transistor Q1 is turned off, whereby the buffer unit 102 having the collector of the transistor Q1 as the output terminal outputs a high signal by the power supply voltage B + through the resistor R4, thereby outputting the green function processing unit ( 103 is simultaneously input to the horizontal synchronization processing unit 104.

However, even though the horizontal synchronization processing unit 104 receives the high signal in this way, the green function processing unit 103 which receives the high signal is operated. Therefore, the horizontal synchronization processing unit 104 controls the operation of the green function processing unit 103. Power saving function is disabled.

On the other hand, when the signal cable is not connected to the signal cable connecting portion 101 at all, contrary to now, there is no horizontal synchronous signal input to the horizontal synchronous input terminal B, and the self test terminal A is not grounded. Therefore, since the diode D1 is turned on in the buffer unit 102, a high signal is applied to the base of the transistor Q1 through the diode D1 and the resistor R2 through the power supply voltage B + through the resistor R1. Therefore, the transistor Q1 is turned on so that the low signal is output from the buffer unit 102.

As the low signal is output from the buffer unit 102, the horizontal synchronizing processor 104 operates normally because the green function processing unit 103 does not operate in the same manner as when the horizontal synchronizing signal is input. Since there is no horizontal synchronous signal introduced through the horizontal oscillator 105, the clamp signal is not generated, so the image clamping unit 106 does not receive the clamp signal, so only a dark image appears on the monitor screen.

Accordingly, the user cannot easily recognize the abnormality of the green monitor because only the dark image appears on the monitor screen when the signal cable is not connected, that is, when there is no signal, and only the power lamp of the terminal green monitor is lit. Therefore, we had to rely only on the power supply lamp that the green monitor was normal.

As described above, since the monitor is normal, only a dark image is displayed on the monitor screen because no horizontal synchronization signal is input from an external signal source due to the disconnection of the signal cable. There is a problem if it is not easy to recognize whether is currently normal.

Therefore, the object of the present invention is that the raster according to the control signal of the monitor itself, not the general raster according to the external video signal, on the monitor screen even when there is no horizontal synchronous signal input from the outside due to the disconnection of the signal cable. ) Is to provide a self-monitoring exhibition of green monitors so that users can easily recognize whether the monitor is normal or not.

Self-raster exhibition of the present invention green monitor according to the above object is the image clamping part to operate the clamp signal to display the raster on the monitor screen, and the signal cable for supplying the horizontal synchronous signal to the signal cable connection part of the green monitor A green monitor having a horizontal oscillator for supplying a clamp signal to the image clamping portion only when connected, wherein the signal cable allows the self-raster to be displayed on the monitor screen even if the signal cable is not connected to the signal cable connection portion. And a clamp signal generator for supplying a clamp signal to the image clamping part only when a signal cable is not connected to the connection part.

The operation and effects of the present invention will be described in detail with reference to FIG. 2 showing one specific embodiment of the self-raster exhibition furnace of the present invention green monitor configured as described above. Here, detailed description of the same parts as in the prior art will be omitted.

First, when a signal cable is connected to the signal cable connection unit 201, and a horizontal synchronization signal is input to the horizontal synchronization input terminal B of the signal cable connection unit 201 through the signal cable, the buffer unit 202 as in the prior art. Since the green function processing unit 203 does not operate because the low signal is outputted, the horizontal synchronization processing unit 204 and the horizontal oscillation unit 205 operate normally, and the clamp signal is supplied to the image clamping unit 206. The image appears.

At this time, even when the horizontal synchronous signal is input to the clamp signal generator 208 through the capacitor C1 of the buffer unit 203 as the horizontal synchronous signal input to the horizontal synchronous input terminal B, the horizontal synchronous signal is the clamp signal. Since the zener diode ZD1 of the generator 208 is weak to turn on, the transistor Q3 connected through the zener diode ZD1 is turned off because the zener diode ZD1 is disconnected. Is turned off, and therefore the transistor Q2 is turned off regardless of the output signal of the AFC signal generator 207.

As described above, when the transistors Q3 and Q2 are turned off, the transistor Q4 is turned on because the base terminal of the transistor Q4 is kept high by the power supply voltage B + through the resistor R6. The collector terminal of Q4 falls into a low state, and thus a low signal, that is, a clamp signal, is not generated in the clamp signal generator 208 which makes the collector terminal of the transistor Q4 an output terminal.

Therefore, when the signal cable is connected to the signal cable connecting portion 201 and the horizontal synchronous signal is input from the external signal source to the horizontal synchronous input terminal B through the signal cable as now, the clamp signal generator 208 displays an image. Since the clamp signal cannot be supplied to the clamping unit 206, the image clamping unit 206 has no effect.

On the other hand, when the signal cable is connected to the signal cable connecting portion 201, but there is no horizontal synchronous signal inputted to the synchronous signal input terminal B of the signal cable connecting portion 201 from the external signal source via the signal cable, As the high signal is output from the buffer unit 202 to operate the green function processing unit 203, the power generation function in which the horizontal synchronization processing unit 204, the horizontal oscillation unit 205 and the image clamping unit 206 do not operate is performed. Is performed.

As such, when the horizontal synchronization processing unit 204, the horizontal oscillation unit 205, and the image clamping unit 206 do not operate, a low signal is output from the AFC signal generation unit 207 on the clamp signal generation unit 208 side so that the transistor ( Since the transistor Q2 is turned off regardless of the on / off of Q3), the transistor is turned on so that the clamp signal generator 208 does not generate a low signal, that is, a clamp signal.

Therefore, in this case, i.e., when the signal cable is connected to the signal cable connecting portion 201 but there is no horizontal synchronous signal through which the horizontal synchronous signal is input from the external signal source to the horizontal synchronous input terminal B via the signal cable, a clamp signal is generated. The unit 208 cannot supply the clamp signal to the image clamping unit 206 and thus has no effect on the image clamping unit 206.

Lastly, when an external signal source is not connected to the signal cable connecting portion 201 to check whether the monitor is normal, the diode D1 of the buffer portion 202 is turned on as in the prior art, so that the resistor R1 is used. The transistor Q1 is turned on by the power supply voltage B + and the low signal is output from the buffer unit. Accordingly, the green function processor 203 does not operate, and the horizontal synchronization processor 204 operates normally, but the signal is Since there is no horizontal synchronization signal input through the cable, the clamp signal is not generated in the horizontal oscillator 205.

However, the power supply voltage B + through the resistor R1 of the buffer unit 202 flows toward the zener diode ZD1 of the clamp signal generator 208 through the diode D1 that is previously turned on, thereby turning on the transistor Q3. On the other hand, since the high signal is output from the AFC signal generator 207 and the transistor Q2 is left as the high signal, the transistor Q4 is turned off as the base terminal of the transistor Q4 goes low. Since the collector terminal becomes high due to the power supply voltage B +, a high signal, that is, a clamp signal is output from the clamp signal generator 208 having the collector terminal as an output terminal, and is supplied to the image clamping unit 206. Even if there is no horizontal synchronous signal input from an external signal source through the cable, the bright self-raster is displayed on the monitor screen so that the user can easily recognize that the monitor is in a normal state.

As described in detail above, the present invention can easily recognize that the monitor is normal by displaying a bright self-raster on the monitor screen even when there is no horizontal synchronous signal input from an external signal source due to disconnection of the signal cable when the monitor is normal. The effect is that it can be done.

Claims (3)

An image clamping unit which acts as a clamp signal to display the raster on the monitor screen, and a horizontal oscillator which supplies a clamp signal to the image clamping unit only when the signal cable supplying the horizontal synchronous signal is connected to the signal cable connection of the green monitor. In the green monitor provided with the image clamping unit only when the signal cable is not connected to the signal cable connecting portion so that the bright self-raster can be displayed on the monitor screen even if the signal cable is not connected to the signal cable connecting portion. Self-raster exhibition of the green monitor, characterized in that it comprises a clamp signal generating means for supplying a clamp signal to. 2. The self-monitoring exhibition of the green monitor according to claim 1, wherein the clamp signal generating means uses the output signal from the AFC signal generating portion of the green monitor to determine whether the signal cable is connected to the signal cable connecting portion. The cathode terminal potential of the diode of the buffer portion of the green monitor according to claim 1 or 2, wherein the clamp signal generating means has a diode turned on by a power supply voltage only when the signal cable is not connected to the signal cable connection portion. The self-monitoring exhibition of the green monitor, characterized in that for use in determining whether the signal cable connection to the signal cable connection.