KR19990002541U - Color bleeding prevention circuit at power turn-on in television receiver - Google Patents

Abstract

The present invention relates to a television receiver, and more particularly, to a color bleeding prevention circuit during power turn-on to remove a phenomenon in which an image is temporarily blurred due to instantaneous high-pressure supply at the time of turn-on of a power pipe, and an image processor circuit 100 ), The luminance signal Y is inputted to the base of the transistor, and the emitter of the transistor is inputted to the base tube. At the same time as being input to the display unit 200, the standby power ( In a television receiver circuit connected to

Standby power supply (when power is on Voltage is connected to the collector and the emitter is inserted in between the p-type transistor Q1 connected to the resistor R3 and the standby power supply to the base of the p-type transistor Q1 at a turn-on voltage. A delay circuit comprising a predetermined number of voltage divider resistors and a predetermined number of capacitors connected to be charged for a predetermined time by a voltage enhanced by the voltage divider resistors.

Description

Color bleeding prevention circuit at power turn-on in television receiver

The present invention relates to a television receiver, and more particularly, to a color bleeding prevention circuit during power turn-on to remove a phenomenon in which an image is temporarily blurred due to a momentary high-pressure supply when the power of a tube is turned on.

Televisions displaying images using a CRT must supply high pressure to the receiver. This is because high pressure is applied to the anode to accelerate hot electrons emitted from the cathode of the electron gun to reach the fluorescent surface. The voltage across the anode is 20 to 30 mA.

When the television set is turned on in a long power-off state, high pressure is applied to the water tube as described above, and the hot electrons are accelerated and flowed in a relatively large amount. As a result, hot electrons collide with a large amount of fluorescent surfaces at a time (relatively), so that a blurring phenomenon and a color bleeding phenomenon may occur temporarily.

As a conventional method for solving the above problems, there is a method of slowly increasing the high voltage to be supplied to the anode of the water pipe, which requires a lot of circuit elements in terms of controlling the high voltage, because the characteristics of the target is high voltage Difficult to miniaturize In particular, the method of controlling the high voltage does not fundamentally eliminate the temporary color bleeding during power turn-on.

In order to solve the above problems, the present invention provides a method in which the luminance signal, which is a signal for the amount of anode current reaching the fluorescent screen, is temporarily delayed so that color bleeding does not occur instantaneously when the power tube power of the television is turned on. Its purpose is to provide a circuit for reaching a correlated driver.

1 is a circuit diagram showing a video signal transfer process from a video processor circuit to a water pipe display in a conventional television.

2 is a circuit diagram illustrating a video signal transmission process to a water pipe to which a circuit for preventing color bleeding during power turn-on according to the present invention is added.

Explanation of symbols on the main parts of the drawings

100: image processor circuit 200: water pipe display

: Power supply C1, C2: Capacitor

R1, R2, R3: resistors Q1, Q2: transistors

Y: luminance signal

In order to achieve the above object, a feature of the present invention is that the luminance signal (Y) output from the image processor circuit (100) to the water pipe display unit (200) by the transistor (Q2), the luminance signal (Y) Is input to the base of the transistor, and the emitter of the transistor is input to the water pipe display unit 200 and at the same time, the standby power ( In a television receiver circuit connected to

Standby power supply (when power is on ) Is to add a predetermined delay circuit composed of a predetermined number of resistors and capacitors to the front end of the resistor R3, i.e., the power supply side, in order to delay the time for reaching the emitter of the transistor Q2 by a predetermined amount. .

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

The accompanying drawings are circuit diagrams showing a video signal transfer process from a video processor circuit to a water pipe display unit in a television. FIG. 1 is a conventional circuit diagram, and FIG. 2 is a delay circuit for preventing color bleeding during power turn on according to the present invention. It is a schematic diagram.

An example of the delay circuit for preventing color bleeding provided by the present invention includes an npn type first transistor Q1, a capacitor C1 or the like of which one is grounded, and a resistor connected in series with the capacitor ( R1, etc.). The connection relationship of the delay circuits is described in detail as follows.

The emitter of the first transistor Q1 is connected to a conventional voltage divider R3, and the collector is a standby power source ( And a standby voltage (Hi) at a base thereof so that electricity (voltage) is conducted between the collector and the emitter. ) Is connected in parallel to the base as well as the collector.

In addition, a predetermined number of resistors (R1, etc.) are inserted in the middle of the standby power supply connected to the base of the transistor Q1, and a capacitor (C2, etc.) is inserted at the end of the inserted resistors, that is, the base side. The other end of the capacitor C2 is grounded. A capacitor grounded on one side may also be inserted between the predetermined number of resistors to be inserted. In FIG. 1B two capacitors are connected (inserted).

Hereinafter, an operation relationship in which the delay circuit provided by the present invention prevents color bleeding will be described.

In the conventional video signal transmission circuit diagram, when the luminance signal Y output from the video / chroma circuit 100 is input to the base of the pnp transistor Q2, a standby power source connected to the emitter of the pnp transistor Q2 ( ), The magnitude of the current (that is, the voltage) input to the receiver tube display unit 200 changes according to the current change between the base and the collector of the transistor Q2.

When the power of the water pipe is turned on, the standby power ( ) Is also turned on, and the luminance signal Y is input to the base of the pnp transistor Q2. In the circuit diagram according to the present invention, the standby power is not immediately input to the receiving tube display unit 200 when the power of the receiving tube is turned on, that is, operates as follows so as to delay a predetermined time.

Standby power ( ) Is input to the collector of the first transistor Q1 at the time of power turn-on, and also to the base thereof. By the way, before the voltage which passed through the 1st voltage divider R1 passes through the 2nd voltage divider R2 again, first, the 1st capacitor C1 with which one side is grounded is charged. Determining the charge time ultimately depends on the capacity of the capacitor and the voltage across the capacitor. In general, the larger the capacity of the capacitor, the longer the charging time.

After a predetermined time after the water tube power is turned on, the first capacitor C1 is charged, and the standby power source ( When the voltage passes through the second voltage divider resistor R2, the second capacitor C2 needs to be charged again. Similarly, after a predetermined charging time according to the magnitude of the voltage dropped by the voltage divider resistor and the capacitance of the capacitor has elapsed, a high voltage Hi is supplied to the base of the first transistor Q1. Then, the electricity reaching the collector is conducted to the emitter and is input to the water pipe display 200 through the conventional resistor R3.

In the above description, the voltage supplied to the base of one npn transistor is described as two resistors and two capacitors as examples of the delay circuit, but the present invention is not limited thereto and only one or more resistors and capacitors are used. In addition, a plurality of such delay circuit sets may be added. Those skilled in the art will be able to easily apply.

The present invention operated as described above has an effect of preventing the instantaneous color bleeding phenomenon at the time of turn-on by delaying the time for which the luminance signal reaches the water-tube display part at the time of turn-on of the power-on tube power. . In addition, since the instantaneous excessive current caused by the initial luminance signal is reduced, there is an effect of reducing the power.

Claims (2)

In the medium of the luminance signal Y output from the image processor circuit 100 to the water pipe display unit 200 as the transistor Q2, the luminance signal Y is input to the base of the transistor, The emitter is input to the water pipe display unit 200 and at the same time the standby power (through the resistor R3) In a television receiver circuit connected to Standby power supply (when power is on A predetermined delay circuit is added to the power supply in front of the resistor R3 for a predetermined delay to the time that the voltage of the transistor reaches the emitter of the transistor Q2 to the power supply in front of the resistor R3. . The standby circuit of claim 1, wherein the delay circuit comprises: a standby power supply ( ) Is connected to the collector and the emitter is connected to the resistor (R3) to the (p) transistor (Q1) and the standby power is input to the base of the (P) transistor (Q1) to the turn-on voltage And a predetermined number of voltage divider resistors interposed therebetween, and a predetermined number of capacitors connected to be charged for a predetermined time by a voltage strengthened by the voltage divider resistors.