KR920003090Y1 - Laster deleted circuit in non signal input - Google Patents

Abstract

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Description

Raster elimination circuit for no signal input

1 is a detailed circuit diagram showing a conventional raster drive circuit.

2 is a block diagram showing a raster removal circuit in the no-signal input of the present invention.

Figure 3 is a detailed circuit diagram showing a raster removal circuit when no signal input of the present invention.

* Explanation of symbols for main parts of the drawings

1: logic converter 2: brightness controller

3: video amplifier Q1 to Q4: transistor

10: no signal detection unit C1, C2: capacitor

20: raster removal unit D1: diode

R1 to R13: resistor L1: coil

G1, G3: Conversion gate CRT: Cathode ray tube

G2: AND gate S1: ECL video positive signal

S2: ECL video sub-signal

The present invention relates to an ECL (Emitter Coupling Logic) type monitor, and in particular, a raster removal circuit when no signal input to prevent the raster (step) is operated to step on the no signal input of the monitor.

In general, an ECL monitor defines a high signal (logic 1) of the ECL when the input voltage is -0.81 to -0.91, and a low signal (logic 0) of the ECL when the input voltage is -1.63 to -1.95 V. .

Therefore, a raster used in a conventional ECL monitor has a logic converter for converting an input ECL signal into a TTL signal, and a video amplifier for amplifying an input video signal to an output terminal of the logic converter.

At this time, by adjusting the amplification degree of the video output signal output from the video amplifier, a brightness controller for adjusting the brightness of the screen is connected.

That is, the input ECL signal is converted into a TTL signal by the logic converter, and the converted TTL signal is applied to a video amplifier connected to the rear stage.

At this time, the video amplifying unit determines the amplification degree of the input video signal by the output signal of the brightness adjusting unit composed of the applied TTL signal and the variable resistor, and the amplified video signal is output to the cathode ray tube.

At this time, even if no video signal is input, the raster is brightly lit on the operation screen, which consumes power and shortens the life of the monitor that generates heat according to the video output signal.

In addition, a noise component is introduced into the input signal-free signal, thereby causing noise on the screen.

The present invention is to solve the above problems, and the object of the present invention is to detect the presence of the input ECL video signal and to remove the raster operation. It is to provide a raster removal circuit.

It is another object of the present invention to simply design a raster canceling unit for erasing the raster when the no signal detection unit of the input ECL video signal and the no signal detection unit detect the no signal of the ECL video signal. It is an object of the present invention to provide a raster cancellation circuit for a no-signal input.

A feature of the present invention for achieving the above object is a logic converter for converting an input ECL video signal into a TTL signal, a brightness controller for adjusting the brightness on the screen, and the gain by the output signal of the brightness controller A raster circuit comprising a video amplifier for amplifying an output TTL signal of a logic converter and a cathode ray tube for displaying an amplified video signal of the video amplifier on a screen, the raster circuit for detecting no signal of the input ECL video signal. And a raster cancellation circuit configured to remove the raster by removing the driving voltage of the brightness adjusting unit when a no signal is detected by the no signal detection unit and the no signal detection unit.

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

FIG. 1 is a detailed circuit diagram showing a conventional raster driving circuit, and a logic converter 1 for converting input ECL video signals S1 and S2 into a TTL signal is connected.

The logic converter 1 divides the negative power supply (-VCC) and the negative power supply (-VCC) at each input terminal of the input ECL video signals S1 and S2, and divides the resistors R1, R2, and R3. , R4) is connected.

In addition, a conversion gate G1 for converting an ECL signal input to an output terminal of the voltage dividing resistors R and R3 connected to the respective input terminals into a TTL signal is connected.

A bias voltage R5 for applying the TTL signal output from the output terminal of the conversion gate G1 of the logic converter 1 to the video amplifier 3 connected to the rear end is connected.

Meanwhile, the brightness adjusting unit 2 for adjusting the brightness of the screen is connected. The brightness adjusting unit 2 includes an input electrostatic source VCC, a variable resistor VR1, and a resistor R6.

The video amplifier 3 is connected to an output terminal of the resistor R6 of the brightness adjusting unit 2 and an output terminal of the resistor R5 connected to the rear end of the conversion gate G1 of the logic converter 1. .

The video amplifier 3 is used for amplification in which the amplification degree of the TTL video signal inputted by the output potential of the resistor R6 of the brightness adjusting unit 1 and the output potential of the resistor R5 of the logic converter 1 is determined. It consists of transistors Q1 and Q2.

A frequency correction resistor R8 and a capacitor C1 are connected between the emitter side of the amplifying transistors Q1 and Q2 of the video amplifier 3 and the emitter axis, and the collector of the amplifying transistor Q1 is connected. On the side, a frequency correction coil L1 and a resistor R7 are connected.

On the other hand, the cathode ray tube (CRT) for outputting the raster drive signal is applied to the collector side of the transistor (Q1) of the video amplifier (3).

That is, the input ECL video positive signal S1 is inverted and applied to the conversion gate G1 of the logic converter 1, and the ECL video subsignal S2 is applied to the conversion gate G1 of the logic converter 1. The TTL video signal is converted into a TTL video signal and applied to the base side of the amplifying transistor Q1 of the video amplifier 3 through a resistor.

In the brightness adjusting unit 2 for adjusting the brightness of the screen, the variable resistor VR1 is manually adjusted and applied to the base side of the amplifying transistor Q2 of the video amplifier 3.

Therefore, in the video amplifier 3, the amplification degree is determined by the TTL video signal output from the logic converter 1 and the output signal of the brightness controller 2.

At this time, the TTL video inputted by the resistor R8 connected to the emitter side of the amplifying transistor Q1 of the video amplifier 3, the capacitor C1, and the coil L1 connected to the collector side of the amplifying transistor Q1. Correct the frequency of the signal.

On the other hand, the amplification degree is adjusted by the DC voltage applied to the base side of the amplifying transistor Q2 of the video amplifier 3 of the DC voltage output from the variable resistor VR1 of the brightness adjusting unit 2.

That is, the amplification degree of the video amplifier 3 is determined by the ratio of the resistor R6 of the brightness adjusting unit 2 and the connection resistance R7 on the collector side of the amplifying transistor Q2 of the video amplifier 3.

Accordingly, the input ECL video signal is converted into a TTL video signal, and the converted TTL video signal is applied to the video amplifier 3 so that the resistor R6 of the brightness adjuster 2 and the resistor R7 of the video amplifier 3 are received. Amplified and amplified TTL video signal is output to the cathode ray tube connected to the collector side of the transistor Q2 of the video amplifier 3.

However, when the input ECL signal is no signal, the input ECL video signal is unstable, and the raster of the monitor brightly illuminates, and noise is introduced into the input ECL video signal, thereby generating screen noise.

2 is a block diagram showing a raster cancellation circuit of the present invention, and connects a logic converter 1 for converting an input ECL video signal into a TTL video signal.

On the other hand, the brightness adjusting unit 2 for adjusting the brightness of the screen is connected.

The logic converter 1 and the brightness adjuster 2 determine an amplification degree and connect the video amplifier 3 to amplify the input TTL video signal.

At this time, the signal-free detection unit 10 for detecting whether the input ECL video signal is non-signal is connected to the ECL video signal input terminal, and the brightness adjustment unit 2 of the signal-free detection unit 10 detects no signal. The raster removal unit 20 for removing the raster signal by removing the driving power is connected.

3 is a detailed circuit diagram for removing a raster signal when no signal input according to the present invention, and the non-signal detection unit 10 AND gate for ANDing the ECL video signals S1 and S2 input to the input terminal. G2 is connected, and a conversion gate G3 for converting an AND gate G2 output signal to a TTL signal is connected to an output terminal of the AND gate G2.

At this time, if the input ECL video signal is no signal, the output signal of the no signal detection unit 10 is a high signal.

The raster removing unit 20 connects the switching transistor Q2 which is turned on / off by the output signal of the non-signal detecting unit 10, and the brightness adjusting unit 2 is connected to the collector side of the switching transistor Q2. Connect the driving power supply (VCC).

That is, when the switching transistor Q2 of the raster removal unit 20 is turned on, the driving power supply VCC of the brightness adjusting unit 2 applied to the collector side of the switching transistor Q2 is applied to the ground of the emitter side. The driving of (2) is stopped.

At this time, the diode D1 which prevents the current flowing to the collector side of the switching transistor Q2 of the raster removing unit 20 from being applied to the variable resistor VR1 of the brightness adjusting unit 2 is connected.

The brightness adjusting unit 2 connects the transistor Q3 turned on / off by the output potential of the variable resistor VR1 to the output terminal of the variable resistor VR1. The video amplifier 3 is connected to the emitter side of the switching transistor Q3.

At this time, if the ECL video signal input to the non-signal detecting means 10 is no signal, the logic 1 of the input ECL video signal S1 and the ECL video signal input in the present invention configured as described above detect the presence or absence of the input ECL video signal. Is applied to the non-signal detecting means 10. The logic 1 signal of the ECL video sub-signal S2 is applied to the AND gate G2 to be output as a high signal, and the high signal of ECL output by the AND gate G2 is applied to the conversion gate G3 to generate a TTL signal. To.

That is, the high signal output to the non-signal detecting unit 10 is applied to the raster removing unit 20 so that the transistor Q2 of the raster removing unit 20 is turned on.

Therefore, the driving power supply VCC of the brightness adjusting unit 2 applied to the collector side of the switching transistor Q2 of the raster removing unit 10 is applied to the ground of the emitter side.

Then, the driving power supply VCC of the brightness adjusting unit 2 is applied to the emitter side of the transistor Q2 of the raster removing unit 20 so that the switching transistor Q3 of the brightness adjusting unit 2 is turned off and thus the brightness adjusting unit 2 ) Is a low signal and is applied to the base side of the transistor Q4 of the video amplifier 3.

At this time, the transistor Q4 of the video amplifier 3 is turned off.

That is, the raster signal applied to the cathode ray tube CRT is removed.

As can be seen from the above, the present invention can prevent the raster from shining on the screen due to the defect of the ECL video signal inputted when the ECL video signal inputted is non-signaled, and by simply designing the raster removal circuit, the existing raster circuit There is an effect that can be easily used widely.

Claims (2)

A logic converter 1 for converting an input ECL video signal into a TTL signal, a brightness controller 2 for adjusting brightness on a screen, and the logic converter 1 as much as gain by an output signal of the brightness controller. In a register circuit comprising a video amplification unit for amplifying the output TTL signal and a cathode ray tube (CRT) for displaying the amplified video signal of the video amplification unit on the screen, detecting no signal of the input ECL video signal And a raster canceling unit (20) for removing the raster by removing the driving voltage of the brightness adjusting unit (2) when no signal is detected by the no signal detecting unit (10). Removal circuit. The non-signal detection unit 10 converts an AND gate G2 for ANDing the input ECL signals S1 and S2 and an ECL video signal output by the AND gate G2 into a TTL signal. And a raster elimination circuit upon signal-free input consisting of a conversion gate (G3).