JP2888858B2 - FM video signal circuit - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an FM video signal circuit for demodulating a composite video signal from a high-frequency signal frequency-modulated by a composite video signal in a television receiver for receiving satellite broadcasting. .

2. Description of the Related Art Signals input to a television receiver that receives satellite broadcasts are at various levels, affected by the received electric field strength, the length of a cable connecting the antenna and the television receiver, and the like. Therefore, in the conventional television receiver, in order to obtain a predetermined performance, an AGC circuit is provided in the FM video signal circuit,
The degree of amplification of the amplifier is automatically changed according to the level of the input signal.

FIG. 4 is a block diagram showing a configuration example of such a conventional FM video signal circuit. In this figure, 1 is an input terminal to which a high-frequency signal is input, 2 is a high-frequency amplifier that amplifies a high-frequency signal, and 3 is a high-frequency amplifier. A local oscillator that outputs a local oscillation signal,
4 is a buffer amplifier for amplifying the local oscillation signal to a predetermined level, 5 is a mixer for mixing the high frequency signal with the local oscillation signal and converting it to an intermediate frequency signal, and 6 and 7 are intermediate frequency amplifiers for amplifying the intermediate frequency signal, respectively. It is.

8 demodulates a composite video signal from the intermediate frequency signal.
This is a PLL demodulation circuit. In the PLL demodulation circuit 8, 9 is a voltage controlled oscillator (VC) that outputs an oscillation signal of a predetermined frequency.
O), 10 is a phase comparator that compares the phase of the intermediate frequency signal with the phase of the oscillation signal and outputs a phase comparison signal, 11 is a filter that smoothes the phase comparison signal, and 12 is an amplifier that amplifies the output signal of the filter 11 An output signal of the DC amplifier 12 is output from the PLL demodulation circuit 8 as a demodulated signal, that is, a composite video signal, and is input to a control voltage input terminal of the VCO 9. Thereby, the frequency of the oscillation signal is controlled.

Further, 13 is an amplifier for amplifying the composite video signal, and 14 is an output terminal for outputting the composite video signal.

In addition, reference numeral 15 denotes an AGC circuit which receives an intermediate frequency signal and varies the amplification degree of the intermediate frequency amplifier 6 according to the output signal. In the AGC circuit 15, reference numeral 16 is provided near the input end of the PLL demodulation circuit 8, detects a level of the input signal of the PLL demodulation circuit 8 and outputs a detection signal, 17 is a reference voltage, and 18 is a detection signal. And a reference voltage, and amplifies the difference. The output voltage of the DC amplifier 18 controls the amplification of the intermediate frequency amplifier 6. As a result, the input signal of the PLL demodulation circuit 8 is maintained at the optimum constant level, and the output signal is stabilized.

"Problems to be solved by the invention" By the way, in the above-mentioned conventional FM video signal circuit,
The loop gain of the PLL demodulation circuit 8 includes the input signal level, the conversion level of the phase comparator 10, the amplification of the DC amplifier 12, and
Determined by the product of VCO9 frequency-voltage sensitivity, etc.
If the high frequency signal is very weak, the intermediate frequency amplifier 6
However, even if the amplification degree is maximized, the input signal of the PLL demodulation circuit 8 is not amplified to an optimum level. Accordingly, the loop gain of the PLL demodulation circuit 8 becomes less than the optimum value, the demodulation bandwidth becomes narrow, and the quality of the video signal and the audio signal obtained by processing the composite video signal output from the FM video signal circuit is reduced. However, there is a problem in that the temperature is greatly deteriorated. In particular, in the case of a video, there is a problem that tearing noise occurs.

On the other hand, when the level of the high-frequency signal is very large, the input signal of the PLL demodulation circuit 8 is not attenuated to an optimum level even if the amplification of the intermediate frequency amplifier 6 is minimized. Therefore, there is a problem that the loop gain of the PLL demodulation circuit 8 becomes more than the optimum value and abnormal oscillation occurs.

The present invention has been made under such a background,
An object of the present invention is to provide an FM video signal circuit capable of controlling a loop gain of a PLL demodulation circuit to an optimum value.

[Means for Solving the Problems] An FM video signal circuit according to the present invention includes an intermediate frequency amplifier that amplifies a frequency-modulated intermediate frequency signal, a voltage-controlled oscillator that outputs an oscillation signal having a predetermined frequency, and an intermediate frequency signal. A phase comparator that compares the phase of the oscillation signal with the phase of the oscillation signal to output a phase comparison signal, a filter that smoothes the phase comparison signal, an output signal of the filter, amplifies the output signal of the filter, and outputs the A DC amplifier for controlling the frequency, and an AGC circuit for controlling the respective amplification degrees of the intermediate frequency amplifier and the DC amplifier in accordance with the level of the intermediate frequency signal, wherein the intermediate frequency input to the intermediate frequency amplifier is provided. When the level of the frequency signal is low and the amplification of the intermediate frequency amplifier is the maximum, the amplification of the DC amplifier is controlled.

[Operation] According to the above configuration, when the level of the intermediate frequency signal decreases when the amplification degree of the intermediate frequency amplifier is the maximum, the AGC circuit controls the amplification degree of the DC amplifier according to the level.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an FM video signal circuit according to an embodiment of the present invention. In this figure, the same reference numerals are given to parts corresponding to the respective parts in FIG. 4, and the description thereof will be omitted. . In FIG. 1, instead of the DC amplifier 12, a DC amplifier 19 whose amplification is controlled by the output voltage of the AGC circuit 15 is newly provided. still,
The DC amplifier 19 is controlled so that the amplification degree increases as the output voltage of the AGC circuit 15 decreases. FIG. 2 shows an example of a specific circuit of the DC amplifier 19. In these figures, reference numeral 20 denotes a terminal to which the output signal of the filter 11 is input, reference numeral 21 denotes a differential amplifier, reference numeral 22 denotes a resistor having one end connected to the inverting input terminal of the differential amplifier 21, and the other end grounded. A terminal connected to the control voltage input terminal of the VCO, 24 is a FET whose drain is connected to the terminal 23, and the resistance between the drain and source is varied by a voltage applied to the gate, 25 is one end of the differential amplifier 21 A resistor is connected to the inverting input terminal and the other end is connected to the source of the FET 24.

26 is a terminal to which the output voltage of the AGC circuit 15 is input, 2
Reference numeral 7 denotes a variable power supply, and reference numeral 28 denotes a diode. The variable characteristic of the variable power supply 27 is set by changing the value of the variable power supply 27. Reference numeral 30 denotes a resistor having one end connected to the cathode of the diode 28 and the other end connected to the gate of the FET 24.

In such a configuration, as shown in FIG. 3, when the level of the high frequency signal is weak than conventional AGC range (part of the figure a ₁₁ ~a ₁₂₎ (figure b _1), the intermediate Since the level of the intermediate frequency signal output from the frequency amplifier 7 and input to the PLL demodulation circuit 8 and the AGC circuit 15 is also weak, the AGC
The output voltage of the circuit 15 decreases, and the amplification of the intermediate frequency amplifier 6 becomes maximum. On the other hand, in the DC amplifier 19, the reduced output voltage of the DC amplifier 18 is fed to the FE via the resistors 29 and 30.
Applied to the gate of T24, the drain-source resistance of FET24 increases. As a result, the amplification degree of the DC amplifier 19 increases, the loop gain of the PLL demodulation circuit 8 increases, and the optimal level of the input signal of the PLL demodulation circuit 8 decreases (FIG. 3, a ₂ →).
b ₂ ).

As described above, the level of the high-frequency signal is
If the decreased beyond C range (the part of the figure a ₁₁ ~a _12), since it increases the loop gain of the PLL demodulation circuit 8 by the output voltage of the AGC circuit 15, a weak high-frequency signal input This does not reduce the demodulation bandwidth of the PLL demodulation circuit 8. Therefore, the quality of the video signal and the audio signal obtained by processing the composite video signal output from the FM video signal circuit does not significantly deteriorate.
Therefore, no tearing noise occurs in the reproduced image.

Therefore, high-quality television images can be viewed.

[Effects of the Invention] As described above, according to the present invention, there is an effect that the loop gain of the PLL demodulation circuit can be controlled to an optimum value. Therefore, there is an effect that high-quality television images can be viewed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the configuration of an FM video signal circuit according to an embodiment of the present invention, FIG. 2 is a diagram showing an example of the circuit of the DC amplifier 19 in FIG. 1, and FIG. PL
FIG. 4 is a diagram showing the relationship between input signal levels of the L demodulation circuit 8, and FIG. 4 is a block diagram showing the configuration of a conventional FM video signal circuit. 6 ... Intermediate frequency amplifier, 9 ... VCO, 10 ... Phase comparator, 1
5 …… AGC circuit, 19 …… DC amplifier.

Claims (1)

(57) [Claims] 1. An intermediate frequency amplifier for amplifying a frequency-modulated intermediate frequency signal, a voltage controlled oscillator for outputting an oscillation signal of a predetermined frequency, and comparing the phase of the intermediate frequency signal with the phase of the oscillation signal. A phase comparator that outputs a phase comparison signal, a filter that smoothes the phase comparison signal, a DC amplifier that amplifies an output signal of the filter and controls the frequency of the oscillation signal by the output signal, and the intermediate frequency. AG that controls the amplification degree of each of the intermediate frequency amplifier and the DC amplifier according to the signal level
And a C circuit, wherein when the level of the intermediate frequency signal input to the intermediate frequency amplifier is low and the amplification degree of the intermediate frequency amplifier is the maximum, the amplification degree of the DC amplifier is controlled. And FM video signal circuit.