KR0134616Y1 - Crt spot killer circuit - Google Patents

Abstract

The present invention relates to a CRT protection circuit, which outputs the on-screen display video signal in H up to 500ms after the power is turned on before the temperature is turned on. A microprocessor for outputting a video signal, an on-screen display interface unit that does not output a video signal when the microprocessor receives an on-screen display video signal or an on-screen display blanking signal, and video from the on-screen display interface. The buffer part is configured so that a normal picture is formed on the CRT only when the signal is normally output, so that stable operation is performed both when the power is turned on and off.

Description

CRT protection circuit

1 is a circuit diagram of a conventional CRT protection circuit.

2 is a circuit diagram of the present invention.

3 is a waveform diagram showing an operation process of the present invention.

* Explanation of symbols for main parts of the drawings

1: microprocessor 2: on-screen display interface

3: buffer R11, R12: resistance

D11, D12: Diode

The present invention relates to a CRT protection circuit, and more particularly, to a CRT protection circuit that can be applied to a projection TV that uses a high-brightness CRT having a large beam current because a spot does not occur when power is turned on and off.

In general, spots are small light spots that are made on the fluorescent surface of the electron beam of the CRT. It is well known that spots are damaged in the center of the CRT when the TV is turned on or off.

Therefore, in the related art, as shown in FIG. 1, the power supply voltage 12V passes through the time constant elements of the resistor R1 and the capacitor C1 and passes through the diode D1 and the resistors R2 and R3 through the transistor Q1. 12V, which is connected to the base of the transistor and applied to the collector of the transistor Q1, is supplied from the emitter thereof to the base of the transistor Q2 through the capacitor C2 and through the resistor R4 to the color difference signal RY. In the collector of the transistor Q3 to which (BY) is applied as a base, the video signal (-Y) is connected to the emitter through the diode D2 or directly connected to the base and the emitter of the transistor Q2. It was configured to be input via R5) and capacitor C2, and the driving power source B ⁺ was applied to the collector of transistor Q2 in common with CRT via resistors R6 and R7.

According to the conventional CRT protection circuit as described above, when power is applied, 12 V, the power supply voltage, is charged to the capacitor C1 in a discharged state for a predetermined time by the time constant element of the resistor R1 and the capacitor C1. During this time, the transistor Q1 is turned off and thus the 12V is not applied to the base of the transistor Q2 and thus cannot be supplied to the CRT, thereby muting the screen, while in the state where the charging of the capacitor C1 is completed, the transistor Q1 Is applied as a bias voltage to the base of the circuit), and accordingly, the power supply voltage 12V is applied to the base of the transistor Q2, and the color difference signal RY (BY) and the video respectively input to the base and emitter of the transistor Q3. The screen was formed on the CRT by the signal (-Y).

However, the conventional CRT protection circuit as described above can only remove spots caused by abnormal phenomena when power is turned on, as well as spots caused by time difference between vertical and horizontal deflection, as well as spots generated when power is turned off. There was a disadvantage that could not be effectively prevented.

Accordingly, an object of the present invention is to provide a CRT protection circuit that prevents a defect in which the CRT is burned by a spot when the TV is turned on or off.

In order to achieve the above object, the present invention outputs the on-screen display video signal in H for up to 500ms after the power is turned on, and outputs the on-screen display blanking signal in H for 200ms during power-off and then turns off the data. A microprocessor for outputting an on-screen display interface unit that does not output a video signal when the microprocessor receives an on-screen display video signal or an on-screen display blanking signal from the microprocessor, and a video signal from the on-screen display interface. The buffer unit is configured to form a normal screen on the CRT only when the output is normal, so that a stable operation is performed when the power is turned on or off.

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

Outputs the On-Screen Display video signal (OSD-Y) for 500ms after H on from the standby state before power-on, and outputs the On-Screen Blanking signal (OSD-Blanking) for H for 200ms when the power is off. The microprocessor 1 which outputs the power-off data and the on-screen display video signal OSD-Y and the on-screen display blanking signal OSD-Blanking from the microprocessor 1 are resistors R11, respectively. On-screen display interface unit 2 for receiving the video signal (Y) and selectively outputting the video signal (-Y) while being input to the blanking terminal (BLK) via R12 and the backflow prevention diodes (D11) and (D12). ) And buffers (3) which allow the video signal (-Y) from the on-screen display interface unit (2) to be output at a stable value via the transistors (Q11) and (Q12). A.

The CRT protection circuit of the present invention configured as described above outputs the on-screen display video signal (OSD-Y) in H state before the power is applied to the microprocessor (1) that receives a signal according to the user's power on. After the delay for a predetermined time (500ms), the on-screen display interface unit 2 that outputs L and inputs the two transistors Q11 of the buffer 3 while outputting the video signal (-Y) to H after 500ms. Q12 is supplied to the CRT (not shown) in a stable state to form the screen by the normal signal.

When the power is turned off, the on-screen display blanking signal (OSD-Blanking) is converted to H for a while (200 ms) and the data of the power off is output after 200 ms.

Therefore, the on-screen display interface unit 2 receiving the input converts and outputs the video signal (-Y) to L 200ms before the power is turned off so that the screen of the CRT is muted.

That is, the microprocessor 1 converts the on-screen display video signal (OSD-Y) from H to L and turns off the power after 500ms after turning on the power as shown in FIG. The on-screen display blanking signal (OSD-Blanking) is converted from L to H before 200ms to eliminate spots generated in the CRT when the power is turned on or off.

Therefore, according to the CRT protection circuit of the present invention, when the power is applied, the output of the on-screen display video signal is delayed for a predetermined time, and when the power is turned off, the power is turned off after some time after converting and outputting the on-screen display blanking signal. This allows the generation of spots to be completely suppressed when the power is turned on or off, and can also be used reliably in a projection TV using a high beam current.

Claims (1)

In the CRT protection circuit for outputting the on-screen display video signal (OSD-Y) to the on-screen display unit 2 to drive the CRT through the buffer unit 3 when the power is turned on / off On-screen display blanking signal (OSD-Blanking) when the power is turned off while outputting the on-screen display video signal (OSD-Y) through the resistor (R11) and diode (D11) after 500 ms from the microprocessor (1). CRT protection circuit is configured to output power off data after 200ms after converting and outputting through resistor R12 and diode D12.