KR920006877Y1 - Spot protecting circuit for color tv - Google Patents

Abstract

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Description

Spot prevention circuit of color TV

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

R1-R8: Resistor D1-D3: Diode

C1, C2: capacitor Q1, Q2: transistor

Ry1: Relay Vc, Vd: Power Supply Terminal

A10: Micom A11: D / A Converter

A12: BIO chroma processing integrated circuit AC: AC power supply

The present invention relates to a circuit for preventing the SPOT phenomenon that occurs temporarily when the power switch of the television receiver is turned off. In particular, the contrast and brightness of a video chroma processing integrated circuit using a microcomputer power on / off pulse. It is intended to provide a color television's spot protection circuit which is achieved by rapidly decreasing the control voltage of the varnish control input terminal.

In general, even after turning off the power switch of the color TV after watching, electrons are continuously emitted from the heater in the cathode where the supply current is halved.The high voltage supplied to the anode of the CRT is kept inside and outside the CRT even after the power switch of the receiver is turned off. Since it is retained by a capacitor composed of a conduction, electrons continue to be emitted from the heater to the fluorescent surface of the CRT until the residual high voltage disappears.

Therefore, the horizontal and vertical deflection circuits deflecting such an electron beam turn off the power switch of the receiver and stop its operation. Therefore, the electrons emitted from the heater go straight as they are, so that only the center part of the CRT fluorescent surface shines brightly. Will be done.

Conventionally, in order to prevent such spot phenomenon, the spot switch is removed by means of turning off the power switch and stopping the oscillation of the horizontal oscillation circuit by a simple discharge circuit. Some small to medium size CRTs were able to achieve some effects, but when the screen size of color TVs gradually increased, in CRTs for large screens, the oscillation of the horizontal oscillation circuit could not be stopped quickly by a simple discharge circuit, and the time to stop it was not sufficient. The delay is somewhat delayed, leaving a spot for that delay.

Therefore, there are many problems such as shortening the lifespan of the CRT due to a temporary spot phenomenon and creating anxiety for the viewer when the power is turned off.

Therefore, in order to solve the conventional problem, the present invention reduces the brightness and contrast control voltage of the video chroma processing integrated circuit using the power on / off pulse of the microcomputer to minimize the brightness and contrast control voltage to prevent the spot phenomenon. The bar will be described in detail with reference to the accompanying drawings as follows.

As shown, the power on / off output terminal A of the known microcomputer A10 is connected to the base of the transistor Q1 to which the emitter is grounded through the resistor R1, and the collector side thereof has a standby power supply ( The resistor R2 of the Vd side is connected to the base of the transistor Q2, and one side of the coil L of the relay Ry1 to which the standby power supply Vd is applied is connected to the collector side of the transistor Q2. The chattering prevention diode D1 is connected to both ends of the coil L, an input AC power supply is connected to the contact of the relay Ry1, and a data output terminal B of the microcomputer A10 is connected. The brightness terminal Br and the contrast terminal Cn of the video chroma processing integrated circuit A12 are respectively connected to the output terminals C and D of the D / A converter A11, and are connected between the connected terminals. The distribution resistors (R3-R8) and capacitors (C1, C2) for dividing the supply power supply (Vc) are connected to each other. A respective connection to merge one diode (D2, D3) is wood its anode from the axis, and then make up the connection to the base of said transistor (Q2).

When explaining the operation and effect of the present invention configured as described above, it is generally possible to turn on the power switch of the television receiver. rust. Collector of a blue signal drive transistor (not shown) and a red tube (not shown). rust. When a high voltage (approximately 175B) is supplied from the flyback transformer (not shown) of each of the blue signals for the blue signal (RK0 (GK) (Bk)), a red, green, and blue color difference signal is inputted to each base of the drive transistor. (RY) (GY) (BY) and the brightness signal (Y: luminance signal) input to the emitter are synthesized by the transistor and then scanned to the fluorescent surface through the cathode for red, green and blue signals of the CRT.

In this way, it is injected into the fluorescent surface of the CRT. rust. The blue composite signal becomes a hole level (black level) when the potential is high, and becomes a white level when the potential is low, so it is used as the base and emitter of each of the color signal drive transistors. rust. When the blue color difference signal RY (GY) (BY) and the brightness signal (Y) are input and their respective transistors are turned on, the color signal level of about 30 to 40 degrees from the back level is applied to each cathode (RK) of the CRT. (GK) (BK), and the color screen is reproduced on the fluorescent screen.

As such, when the brightness signal Y flows relatively during the reproduction of the color screen, a bright screen with a high back level is obtained, and as the brightness signal flows less, it is induced to be closer to the hall level.

In such a state, when the power switch of the television receiver or the power switch of the remote controller (not shown) is turned off, the pulse output from the power on / off output terminal A of the microcomputer A10 is transferred to the standby power supply Vd. The relay Ry1 is de-energized at the same time between the base and the collector of Q1) and the contact thereof is opened to stop the operation of the flyback transformer not shown.

However, before turning off the power switch, the output data of the brightness signal Br and the contrast signal Cn from the data output terminal B of the microcomputer A10 is converted into an analog signal through the D / A converter A11. It is a state where it is applied to the video chroma processing integrated circuit A12.

Therefore, when the power switch is off, the output pulse of the power on / off terminal A of the microcomputer A10 is applied to the base of the transistor Q1 through the resistor R1, and then through the resistor R2 from the output side collector. The standby voltage Vd is applied to the emitter ground side, and the base potential of the transistor Q2 is applied to the brightness signal Br applied from the D / A converter A11 to the video chroma processing integrated circuit A12. And the contrast signal Cn is blocked by the diodes D2 and D3 so that a beam current such as a bright screen lowers the cone control voltage to a minimum, and the AC power AC applied through the relay Ry1 is cut off. The same strong current will not be emitted.

As described above, by simply reducing the brightness and contrast control voltage using the power on / off pulses of the microcomputer A10 by the respective diodes, the spot phenomenon can be reliably suppressed, thereby eliminating anxiety of the viewer. It is a very useful design that can contribute to quality improvement and cost reduction of a television set, such as extending the horizontal level by reducing the damage of the CRT.

Claims (1)

The power on / off output terminal A of the known microcomputer A10 is connected to the base of the transistor Q1 to which the emitter is grounded through a resistor R1, and the collector side thereof has a standby supply voltage Vd side resistor. The base of the transistor Q2 is connected to the base of the transistor Q2, and one side of the coil L of the relay Ry1 to which the standby supply power supply Vd is applied is connected to the collector side of the transistor Q2. ) D / A connected to both ends of the chattering prevention diode (D1), the input AC power supply to the contact of the relay Ry1, and connected to the data output terminal (B) of the microcomputer (A10). The brightness terminal Br of the video chroma processing integrated circuit A12 and the contrast terminal Cn are respectively connected to the output terminals C and D of the converter A11, and the supply power supply Vc is connected between the connected terminals. ) Connect the divider resistors (R3-R8) and capacitors (C1, C2) that divide the voltage A diode (D2, D3) have their anode side a byeongham then the transistor (Q2) of the anti-Spot color television characterized by configured to connect to the base of the circuit.