KR880000316Y1 - Spart phenomenon cleaning circuit - Google Patents

Abstract

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Description

Spot elimination circuit of TVC

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

Q ₁ , Q ₂ , Q ₃ : Transistor for red, green, blue signal drive

RK, GK, BK: Red, green, blue signal cathode

C ₁ : Spark elimination capacitor D ₁ : Diode

FBT: Flyback Transformer

L ₁ : primary winding of the flyback transformer

A: Anodized terminal of CRT

The present invention eliminates the SPOT phenomenon that occurs when the power switch of the TV receiver is turned off with a single capacitor. When the TV receiver is turned on, the smoothing function of the DC power supplied from the flyback transformer to each receiver circuit is provided. In addition, the present invention relates to a circuit elimination circuit of a TVTV tube that prevents an electric shock caused by a charged capacitor during a post-production test process or a repair of a fault caused by a fault.

Even after turning off the power switch of the color TV vision receiver (including the black and white TV receiver) after viewing, electrons continue to be emitted from the heater in the CRT at half the supply current.

At this time, since the high pressure supplied to the anode of the CRT is retained by the capacitor composed of the CRT internal and external conduction even after the power switch of the receiver is turned off, from the heater to the fluorescent surface of the CRT until the remaining high voltage disappears. The electrons continue to be emitted. The horizontal and vertical deflection circuits deflecting the electron beam are turned off at the same time as the power switch of the receiver is turned off. The occurrence of the spark phenomenon shortens the life of the CRT.

The present invention is to solve the above problems, by using only one capacitor to eliminate the above-mentioned spark phenomenon, as well as the red, green, blue signal drive transistors and CRTs of the red, green, blue signal drive when the power supply of the receiver 'on' It performs the DC smoothing function of the + 175V DC power supply supplied to the blue signal cathode and the + 103V B ⁺ power supply supplied to each receiver circuit, and the voltage charged to the capacitor when the power of the receiver is 'off' is 75V. It can be maintained at a low voltage level to prevent the electric shock that may occur during the test process or troubleshooting, as described in the accompanying drawings as follows.

Red, green and blue signal cathodes (RK) (GK) (red, green and blue signal drive transistors Q _{1 to} Q ₃ ) and CRTs in the primary winding of a conventional flyback transformer (FBT) The capacitor (C) is connected between the + 175V power supply terminal supplied to BK) and the + 103V power supply terminal, which is B ⁺ power supply, and RY, GY, BY are red, green, and blue difference signals, and Y is Brightness signal, R ₁ -R ₃ is resistor, D is diode, HVD is high voltage diode, L ₂ is high voltage side winding of flyback transformer (FBT) HT is heater of CRT, A is anode.

The operation and effects of the present invention as the configuration is as follows.

When the power switch of the TV receiver is turned on, the collector of the red, green and blue signal drive transistors (Q _{1 to} Q ₃ ) and the red, green and blue signals of the CRT are respectively cathode (RK) (GK) BK ) Is supplied with + 175V voltage from the flyback transformer (FBT).

At this time, both ends of the condenser (C) of the present invention will be smoothed while charging about 72V, but since the terminal shaft is connected to the B ⁺ power supply to the 103V supply terminal, the relative potential becomes DC 175V.

On the other hand, the red, green, and blue color difference signals RY (GY) (BY) input to the respective bases of the transistors Q ₁ -Q ₃ and the brightness signal Y input to the emitter are the transistors Q _1. -Q ₃ ), and then scanned to the fluorescent surface through the red, green, blue signal cathode (RK) (GK) (BK) of the CRT.

As described above, the red, green, and blue composite signals scanned on the fluorescent surface of the CRT become a black level (ie, a blanking level) at a higher potential, and a white level at a lower potential. The red, green, and blue color difference signals RY (GY) (BY) and the brightness signal Y are inputted to respective bases and emitters of the color signal drive transistors Q ₁ -Q ₂ , respectively. _1- Q ₃ ), the color signal level of about 30-40 from the back level is applied to each cathode (RK) (GK) (BK) of the CRT and the color screen is reproduced on the fluorescent surface.

If the power switch of the TV receiver is 'off' in this state, the operation of the flyback transformer (FBT) is stopped and the charge potential of the capacitor (C) drops to 103V potential of the negative terminal shaft of the capacitor (C). Is about 72V DC (175V-103V) and continues to be supplied to each cathode (RK) (GK) (BK) of the CRT and maintains the 'HIGH' level so that from the anode (A) of the CRT No current flows through each of the cathodes RK, GK, and BK, that is, electrons are not emitted from each of the cathodes RK, GK, and BK.

On the other hand, a method of grounding the -terminal shaft of the condenser C as described above may be considered, but this is because the voltage charged to the condenser C becomes 175V when the power switch of the TV receiver is 'off'. Since the voltage charged in the capacitor C has no path to discharge, it may cause a malfunction of the TV receiver or an electric shock due to the operator's carelessness during the post-production test. There is almost no risk of electric shock due to the charging voltage of 72V.

As described above, the present invention can obtain three functions of eliminating the spark phenomenon and the prevention of electric shock and DC voltage leveling by using only one capacitor, which can contribute to the improvement of the quality of the TV receiver and the cost reduction. will be.

Claims (1)

+ 175V power supply to red, green, and blue signal cathode (RK) (GK) (BK) in CRT in primary axis winding of conventional flyback transformer (FBT) and + 103V power supply which is B ⁺ power supply A spatter phenomenon elimination circuit of a television tube characterized in that a condenser (C) is connected between the terminals.