KR900003408Y1 - Detection compersation circuit for automatic detail tuning - Google Patents

Abstract

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Description

Detection correction circuit for automatic fine tuning

1 is a conventional automatic fine tuning circuit diagram.

2 is a waveform diagram of an automatic fine tuning voltage.

3 is a circuit diagram of the present invention.

4a and 4b are equivalent circuit diagrams of FIG.

* Explanation of symbols for main parts of the drawings

1: AFT control circuit 2: Pulse input terminal

L ₂ : AFT Coil VD ₁ : Variable Capacitance Diode

C ₆ : smoothing capacitor

The present invention is adapted to the external switch or button operation when the operating point is shifted due to the shift and error of the local oscillator circuit of the tuner, especially the automatic fine tuning (AFT) state, in the television receiver using the automatic tuning circuit by the voltage synthesis method. The present invention relates to an automatic fine tuning detection correction circuit that allows the AFT operating point to be artificially moved to a normal operating point by changing the capacitance value by applying the pulse voltage according to the variable capacitance diode connected to the AFT circuit.

Conventionally, as shown in FIG. ₁ , an AFT coil L having a tuning coil and a condenser tuned to an input I ₀ , I ₁ of an AFT circuit 10 which is an integrated circuit to be tuned at a corresponding image intermediate frequency according to a broadcasting system. ₁₀₎ the connection to the switch (SW ₁₀₎ when the on-off if the input (I _0, I ₁₎ voltage is below 0.7V so as the AFT adjustment, and the switch (SW ₁₀ are not the AFT circuit (10)) AFT coil L ₁₀ operates at the corresponding frequency to operate the AFT circuit 10 so that a predetermined voltage is output to the output D ₀ of the AFT circuit 10.

The output voltage of the AFT circuit 10 is applied to the local oscillation circuit 11 of the tuner to convert the capacitance value of the variable capacitance diode of the local oscillation circuit to detect the video intermediate frequency.

However, this is because the frequency change or error of the local oscillator circuit, especially when the operating point of the AFT is shifted from the reference operating point (a) to the position of the point (b) or point (c) as shown in FIG. Since the frequency is imaged at the frequency half-converted by the points (b, c), there is a problem that the luminance is insufficient on the screen or the color synchronous is unstable and the faithful image cannot be reproduced.

In addition, the television receiver using the automatic synthesis circuit of the voltage synthesis method has a disadvantage that the viewer can not watch by shifting the frequency to the desired screen state.

The present invention connects the variable capacitance diode to the AFT coil of the AFT circuit to solve the conventional disadvantages, and the user applies artificially to the external voltage of the variable capacitance diode by using a button switch, etc. It is an object of the present invention to provide an AFT detection circuit for faithfully reproducing an image by allowing an operating point to be aligned with a reference operating point. Hereinafter, the configuration and effect of the present invention will be described in detail with reference to the accompanying drawings. As follows.

First, the configuration of the present invention will be described with reference to FIG. 3. The variable capacitance diode VD ₁ is connected in parallel with the AFT coil L ₂ connected between the input terminals I ₀ and I ₁ of the AFT adjustment circuit ₁ . The anode of the variable capacitance diode (VD ₁ ) is grounded through clause (R ₅ ) and the cathode is grounded via resistor (R ₄ ) at the other end of the smoothing capacitor (V ₆ ) and resistor (R ₆ ) The other end of the resistor (R ₆ ) is connected to the pulse input terminal (2) to which a predetermined pulse is input whenever the fine adjustment button is turned on, and the output terminal (D ₀ ) of the AFT adjustment circuit (1) It is connected to the local oscillation circuit (3).

In the drawings, reference numerals C ₃ , C ₅ , and C ₆ are noise canceling capacitors R ₄ , R ₇ , and R ₈ are resistors, and resistors R ₄ are for protecting the variable capacitance diode, and resistors R ₇ , R ₈ are This is a load resistance that converts the slope of the AFT characteristic curve.

The effect of the present invention is converted by a smoothing circuit composed of a resistor (R ₆ ) and a capacitor (C ₆ ) when a pulse signal is applied to the terminal (2) by an external fine adjustment up / down button as in FIG. 3. The biased voltage is applied to the variable capacitance diode VD ₁ in the reverse direction through the resistor R ₄ .

In this pressure pulse signal, when the fine adjustment up button is pressed, the pulse definition (+) level portion applied to the resistor R ₆ is increased, and when the down button is pressed, the negative level portion is increased.

When the positive level is increased by pressing the rising button of the fine adjustment button, the bias voltage applied in the reverse direction of the variable capacitance diode VD ₁ increases, so that the large number of carriers in the diode junction moves away from the junction. As a result, when (+,-) ions cross the junction, they combine with holes and electrons, creating more immobile space charges of unneutralized ions near the junction.

The thickness of this space charge region increases with the reverse bias voltage Based on (ε: dielectric constant, A: cross-sectional area of the space charge region, W: thickness of the space charge region), the space charge capacity (C _T ) becomes small.

On the other hand, because the capacitors C ₃ and C ₄ in Fig. ₃ are similar to short circuits at high frequencies, they can be equivalently represented as shown in Fig. 4A, which is again shown in Fig. 4B. The equivalent circuit may be represented as one detection coil having a characteristic equivalent to that of the detection coil of FIG. 3 AFT coil L ₂ .

Therefore, when the space charge capacity (C _T ) becomes small, The tuning frequency f is increased by (L: tuning coil inductance, C: tuning capacitor capacity).

Therefore, in the state where the operating point is AFT-adjusted with low image intermediate frequency, the positive level of the input pulse is increased by the external fine adjustment increase button, so that the value of the space charge capacity in the variable capacitance diode (VD ₁ ) is reduced, so that the tuning coil is synchronized. By increasing the frequency, the AFT operating point can be moved toward the higher frequency.

On the contrary, when the operating point is automatically fine-adjusted toward the middle of the high image, the tuning level of the tuning coil is increased by decreasing the positive level of the input pulse and increasing the space-lowering capacitance value in the variable capacitance diode (VD ₁ ) by the external fine adjustment down button. The smaller frequency allows the AFT operating point to move towards lower frequencies.

Therefore, since the operation point movement is to change the fine adjustment state, the fine adjustment state can be artificially moved in the AFT-on state by pressing the " fine adjustment up / down " button to adjust the change in image quality at will.

As described above, according to the present invention, since the operating point of the AFT circuit can be adjusted by simple switch operation, a clear and good screen can be obtained.

Claims (1)

In the case where the AFT coil and the local oscillation circuit are connected to the AFT adjustment integrated circuit, the variable capacitance diode VD is connected in parallel with the AFT coil L ₂ connected between the input terminals ₁₀ and I ₁ of the AFT adjustment circuit 1. ₄ ), but the anode of the variable capacitor diode (VD ₁ ) is grounded through the resistor (R ₅ ), and the cathode is grounded through the resistor (R ₄ ) and the other end of the smoothing capacitor (C ₆ ) R ₅ ) One end is connected, and the other end of the resistor (R ₆ ) is connected to the pulse input terminal (2) where a predetermined pulse is input whenever the fine adjustment button is turned on, and the output terminal (D ₀ ) of the AFT adjustment circuit (1). Is a fine correction detection correction circuit connected to the local oscillation circuit (3).