KR920004942Y1 - Auto sharpness circuit - Google Patents

Abstract

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Description

Automatic sharpness circuit using strength of broadcasting signal

1 is a conventional sharpness circuit diagram.

2 is an automatic sharpness circuit block diagram according to the present invention.

3 is a detailed circuit diagram of part A of FIG.

* Explanation of symbols for main parts of the drawings

A: tuner (R, F) A20: detector

A30: control unit A40: chroma demodulation circuit unit

R1-R13: resistor Q1-Q3: transistor

C1: Capacitor Vcc: Supply Power Terminal

P1: connection point

The present invention relates to a sharpness circuit that clearly distinguishes the screen state of a television receiver. In particular, an automatic sharpness that automatically determines a variable amount of voltage (DC) value of sharpness according to the strength and weakness of a broadcast signal. To provide a circuit.

In general, the screen of a television receiver is densely composed of the picture elements of a minimum unit that uses a certain size and shade, so that a clearer screen can be obtained by controlling an image signal that provides average brightness to each pixel. Sharpness circuit function is provided.

In the conventional sharpness circuit having such a function, as shown in FIG. 1, the amount of sharpness variation is determined by simply converting the direct current (DC) value of the input power supply Vss according to the screen state to the variable resistor VR1. It relies on the manual operation adjustment method, which not only has the inconvenience of user's manual operation depending on the screen condition, but also can adjust the amount of sharpness variation according to the change of screen scan, The drawback of not being able to make fine adjustments has been implicated, which has been a factor to reduce the reliability of the product.

Therefore, the present invention has been made to solve the above-mentioned simple problem, and does not rely on the user for a means for changing the sharpness variable amount sent to the chroma demodulation circuit, but depending on the strength and weakness of the broadcast signal. The purpose of the present invention is to provide the convenience of use and to improve the reliability of the product by automatically controlling the variable amount of.

As a means for realizing the object of the present invention, by detecting the high-frequency automatic gain signal (AGC) output from the tuner (RF) according to the strength of the broadcast signal to amplify the voltage supplied to determine the sharpness variable amount and then broadcast signal strength A detection unit for inducing low voltage when strong and a high voltage for weak signal and a control unit for setting a sharpness voltage variable range are provided.

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

According to the screen state, the DC voltage value of the input power supply Vss is changed to the variable resistor VR1 to determine the variable amount of the sharpness voltage value sent to the input terminal SC1 of the chroma demodulation circuit section A40 by manual operation. In the sharpness circuit of the transistor Q1 between the input terminal SC1 of the chroma demodulation circuit unit A40 and the high frequency automatic gain signal output terminal AGC of the tuner A10, the transistor Q1 is connected via a resistor R1. A detector A20 formed by connecting the supply power side resistor R2 and the ground resistor R3 to the emitter and collector sides, respectively, and a ground resistor R4 at the emitter side of the transistor Q1 of the detector A20. And a connection point connecting the distribution resistors R5 and R7 to both ends of the variable resistor R6 for setting the sharpness voltage variable range, and the connection point P1 to which the variable resistor R6 and the base of the transistor Q2 are connected. Connect the RC filter (R8) (C1) and the distribution resistor (R9) on the supply power supply (Vcc) to the The collector side connected to the emitter side of the emitter Q2 and the resistor R10 and R12 on the supply power source Vcc side connected to the emitter and base side of the transistor Q3 respectively. The controller A30 is configured to be connected to each other.

Referring to the operation and effects of the present invention configured as described above are as follows.

First, the broadcast signal transmitted to the detection unit A20 automatically controls the gain of the amplifier so that the output level does not change even when there is a change in the input level in the automatic gain control device of the tuner A10. Then, it is applied to the detector A20 through the resistor R1.

However, according to the strength of the broadcast signal, the DC voltage change amount of the automatic gain control signal occurs in the high frequency automatic gain output terminal AGC of the tuner A10.

That is, when the broadcast signal strength is a strong signal, it is generated at a low voltage, and when the broadcast signal strength is a weak signal, it is generated at a high voltage.

As described above, the DC voltage change amount of the different auto gain signals is generated according to the broadcast signal strength to change the emitter voltage of the transistor Q1 of the detector A20.

The changed emitter voltage of the transistor Q1 is provided to the input power of the distribution resistors R5 and R7 and the variable resistor R6 for setting the sharpness voltage variable range, and the emitter voltage of the transistor Q1 of the detector A20 is applied. The variable resistor R6 is applied with a voltage divided by the distribution resistors R5 and R7.

At this time, when the power supply Vcc across the resistors R8 and R9 is higher than the divided voltage applied to the variable resistor R6 due to the change of the automatic gain control signal of the tuner A10, the DC DC value is changed. At the same time as the base of the transistor Q2 is supplied to the supply power supply (Vcc) of the same size as the transistor (Q3) through the respective resistors (R10) (R12), transistor Q2 is operated by its turn-on operation It is applied to the sharpness control terminal SC1 of the chroma demodulation circuit section A40 to automatically change the variable amount of the sharpness.

As described above, the present invention can provide convenience in use by automatically controlling the sharpness variable amount according to the strength of the broadcast signal, and is a very useful design that can improve the reliability of the product.

Claims (1)

In a typical sharpness circuit, a transistor Q1 connected between the input terminal SC1 and the high frequency automatic gain signal output terminal AGC of the tuner A10 to the chroma demodulation circuit unit A40 through a resistor R1. A detector A20 formed by connecting the supply power side resistor R2 and the ground resistor R3 to the emitter and collector side of the detector, and the ground resistor R4 and the emitter side of the transistor Q1 of the detector A20. It connects the connection of the distribution resistor (R5) (R7) to both ends of the variable resistor (R6) for setting the sharpness voltage variable range, and accommodates the controller (A30) connected to the variable resistor (R6) and the base of the transistor (Q2) Automatic sharpness circuit using the strength of the broadcast signal, characterized in that made by.