KR900009588Y1 - Laster pulse with stabilization circuit - Google Patents

Abstract

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Description

Raster Pulse Width Stabilization Circuit

1 is a block diagram of the present invention.

2 is a detailed circuit diagram showing an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: Sync Separation Unit 2: Sync Discriminator

3: low pass filter 4: horizontal oscillator

5 horizontal drive unit 6 horizontal output unit

7: flyback transformer 8: video signal controller

9: horizontal deflection coil part 10: current voltage conversion part

11: switching unit 12: horizontal adjustment unit

13 comparison unit 14 gain control unit

The present invention relates to a raster pulse width stabilization circuit that makes the scan width constant when scanning from left to right in a scan (SCAN) system of a television.

In the conventional television scanning system, there is a problem that horizontal scan instability, jitter shape, under scan, over scan, and the like cannot be maintained at all times.

The present invention is devised to solve the problems of the prior art as described above, the automatic frequency control (Auto Freguency Control, AFC) pulse is input to the synchronous discrimination unit through the feedback unit to adjust the horizontal frequency constant, the horizontal deflection current It is an object of the present invention to provide a raster pulse width stabilization circuit which allows a constant deflection current to flow through a gain control fed back to a horizontal output unit.

In order to achieve the above object, the present invention connects the automatic frequency control pulse output from the flyback transformer to be applied to the synchronization discrimination unit so as to be mixed with the horizontal synchronization signal, and the horizontal pulse output from the horizontal output unit is a horizontal deflection coil unit. It is connected to the current voltage converter to be applied, the voltage converted by the current voltage converter is connected to compare the reference voltage in the comparator through the switching unit and the horizontal adjuster, the output terminal of the comparator is a gain control unit for adjusting the gain The output terminal of the gain control unit provides a raster pulse width stabilization circuit configured to be connected to a horizontal drive unit for controlling the output current of the horizontal output unit.

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

1 is a block diagram of the present invention, a horizontal sync separator (1), a sync discriminator (2), a low pass filter (3), and a horizontal oscillator (Oscillator). ), Horizontal drive unit 5, horizontal output unit 6, fly back transformer 7, image signal processing unit 8, horizontal deflection coil unit 9, current voltage converting unit ( A current to voltage converter 10, a switching unit 11, a horizontal adjusting unit 12, a comparing unit 13, and a voltage gain adjusting unit 14 are included.

FIG. 2 is a detailed circuit diagram showing an embodiment of FIG. 1 having the above configuration, wherein the composite video signal is connected to the horizontal synchronization unit 1, and the output terminal of the horizontal synchronization unit 1 is connected to the capacitor C13. It is connected to a synchronous discriminator 2 composed of resistors R1-R3, capacitors C1, and diodes D1, D2, and the synchronous discriminator 2 is composed of resistors R4, R5 and capacitors C2, C3. It is connected to the low pass filter (3) consisting of a, and the output terminal of the low pass filter (3) through the horizontal oscillator (4), the resistor (R6-R7), condenser (C4), variable resistor (VR2) and transistor (Q1) It is connected to the horizontal drive unit 5 consisting of.

The output terminal of the horizontal drive unit 5 is connected to the flyback transformer unit 7 and the horizontal deflection coil unit 9 through a horizontal output unit 6 including a capacitor C5, a diode D3, and a transistor Q2. The automatic frequency control signal AFC of the flyback transformer 7 is connected to the synchronization discriminator 2, and the other output terminal of the flyback transformer 7 is an RGB signal output from the image signal processor 8. It is connected to the cathode ray tube (CRT) is applied, the output terminal of the horizontal deflection coil unit 9 is connected to the current voltage converter (10) consisting of resistors (R10, R11) and the operational amplifier (A1).

In addition, the output terminal of the current voltage converter 10 is connected to a switching unit 11 composed of resistors R12 to R14, a capacitor C8, a diode D4, and a transistor Q3, The output terminal is connected to the comparator 13 composed of the resistors R15 and R16 and the comparator A2 through the horizontal adjuster 12. The output terminal of the comparator 13 is connected to the resistors R18 and R19 and the transistors Q4, Q5) and a variable resistor VR4, which is connected to the gain adjusting unit 14, and the output terminal of the gain adjusting unit 14 is configured to be connected to the horizontal driving unit 5.

The operation of the present invention configured as described above will be described.

The horizontal synchronizing signal outputted by applying the composite image signal to the horizontal synchronizing separator 1 is automatically controlled by the synchronizing discriminator 2 composed of resistors R1-R3, capacitors C1, and diodes D1, D2. The noise signal is removed through the low pass filter unit 3 composed of the resistors R4 and R5 and the capacitors C2 and C3 mixed with the pulse AFC, and then outputs the control voltage of the horizontal oscillator 4.

At this time, in the synchronous discriminating unit 2, the mixed voltage level of the horizontal synchronizing signal and the automatic frequency control pulse (AFC: sawtooth waveform) is made constant by the diodes D1 and D2 and the condenser C1. The oscillation frequency is made constant, and the horizontal scan position is determined by adjusting the automatic frequency control pulse AFC output from the flyback transformer 7 with the variable resistor VR1.

The output signal of the horizontal oscillator 4 is applied to the base of the transistor Q1 of the horizontal driver 5 to generate a voltage at the collector.

In addition, by adjusting the variable resistor VR2 to stabilize the horizontal synchronization to prevent the horizontal collapse.

When a horizontal pulse is applied to the horizontal deflection coil section 9 connected to the collector of the transistor Q2 of the horizontal output section 6, a deflection current (typically in the range of 3-3.5 A) through the coil is applied to the operational amplifier A1. do.

The reason why the deflection current is passed through the operational amplifier A1 is to stabilize the deflection current through the coil.

That is, the deflection current through the current voltage converter 10 including the resistors R10 and R11 and the operational amplifier A1 is converted into a voltage, and the ground diode D4 and the resistor R12 and the ground capacitor C8 are connected to each other. DC is applied through and applied to the base of the transistor (Q3).

At this time, the power supply voltage of the collector is controlled by the switching operation of the transistor Q3 by adjusting the size of the horizontal scan by the resistor R13 and the variable resistor VR3 through the emitter, and then the comparator A2 of the comparator 13. Is applied to.

Therefore, the comparator (A2) is the power (B ⁺⁾ voltage resistance (R17) and the grounded diode (D5) and a Zener diode reference voltage (Vref) and a variable resistor (VR3) with (ZD2) and a resistor (R15) The voltage whose horizontal scan size is determined is compared, and corrected by the gain adjusting transistors Q4 and Q5 by the difference, and the gain is adjusted by the variable resistor VR4.

In addition, the output of the gain adjusting unit 14 is fed back to the horizontal drive unit 5 to control the current of the horizontal output unit 6.

As described above, according to the present invention, by adjusting the scan width of the television to a variable resistor, it is possible to maintain a constant scan width at all times by preventing anxiety, jitter, lack of scan width, and excessiveness of the television.

Claims (1)

The automatic frequency control pulse output from the flyback transformer 7 is connected to the synchronization discriminating unit 2 so as to be mixed with the horizontal synchronizing signal, and the horizontal pulse output from the horizontal output unit 6 is connected to the horizontal deflection coil unit 9. Is connected to the current voltage converter 10 through), and the voltage converted by the current voltage converter 10 is compared with the reference voltage in the comparator A2 through the switching unit 11 and the horizontal adjuster 12. The output terminal of the comparator A2 is connected to the gain adjusting unit 14 for adjusting the gain, and the output terminal of the gain adjusting unit 14 controls the output current of the horizontal output unit 6. Raster pulse width stabilization circuit characterized in that it is configured to connect.