JPH0787558B2 - Audio multiplex demodulation circuit - Google Patents

Description

The present invention relates to an audio multiplex demodulation circuit which is installed in a broadcast receiving device in an FM tuner, a cassette tape recorder, a tape player or the like and realizes demodulation of a television audio multiplex broadcast. In particular, the present invention relates to separation control of a main channel signal and a sub channel signal.

[Prior Art] Audio multiplex broadcasting added to television broadcasting is composed of a main audio and a sub-audio. The main audio is, for example, Japanese and the sub-audio is broadcast in a foreign language. There are stereo broadcasts that use sub-audio.

The frequency spectrum of the multiplexed signal of such audio multiplex broadcasting is established as shown in FIG. That is,
S ₁ is the main channel signal, S ₂₀ is the subcarrier, S ₂₁ is the subchannel signal for bilingual broadcasting, S ₂₂ is the subchannel signal for stereo broadcasting, S ₃ is the control channel signal, S ₃₀ control signal subcarrier, S ₃₁ and S ₃₂ are control signal sidebands. In stereo broadcasting of multiple signals, the left and right signals L,
The R sum signal (L + R) and the difference signal (LR) of the sub channel signal are transmitted.

A receiving apparatus that demodulates a stereo broadcast in such audio multiplex broadcasting is provided with an audio multiplex demodulating circuit as shown in FIG.

As shown in FIG. 4, in this audio multiplex demodulation circuit, a main circuit section 2 composed of a semiconductor integrated circuit and its additional circuit are provided. The multiplexed composite signal 6 is added via the demodulation circuit and the stereo demodulation circuit.

This multiplex composite signal 6 is applied to a low pass filter 8 and a high pass filter connected to filter terminals 10 and 12.
The main channel signal (L + R) that is added to 14 and passed through the low pass filter 8 is added to the matrix circuit 16, and the main channel signal (L + R) is added to the high pass filter 14.
The multiplexed signal excluding R) is a sub-channel signal (L-
R) is added to the demodulation circuit 18.

The demodulation circuit 18 includes a voltage controlled oscillator 20 and a phase comparator 22.
And a phase-locked loop (PL
L) is used and in this phase locked loop the voice subcarrier S ₂₀
FM demodulation synchronized with the sub-channel signal (LR)
The frequency deviation of is taken out. In this case, the terminals 26, 28 provided on the voltage controlled oscillator 20 are connected to the reference oscillation frequency 3
Capacitor with capacitance and resistance to obtain 1.5kHz
30 and resistor 32 are connected. Further, between the low-pass filter 24 and the voltage controlled oscillator 20, a feedback for feeding back the control voltage obtained according to the frequency deviation of the sub-channel signal (LR) obtained by the phase comparator 22. A circuit 34 is provided, a smoothing capacitor 38 is connected to a terminal 36 provided on the output side of the low-pass filter 24, and a resistor 40 as a feedback element is connected between the terminals 28 and 36. ing. Therefore, the main channel signal (L +
When multiplex signal R) has been removed is added to the phase comparator 22 in synchronization with the sub-channel signal in sub-carriers S ₂₀ (L-
R) is detected, and the detected output is applied to the matrix circuit 16 from the low pass filter 24 via the buffer amplifier 42.

The matrix circuit 16 is controlled in an operating state by a control signal Sc from an audio multiplex demodulation mode detection circuit (not shown), and is separated by the operation of the main channel signal (L + R) and the sub channel signal (LR). The signal L and the right signal R are individually taken out from the output terminals 44 and 46.

[Problems to be solved by the invention]

In such an audio multiplex demodulation circuit, the main channel signal (L + R) is added to the matrix circuit 16 via the low pass filter 8, and its level depends on the multiplex signal level applied to the input terminal 4. On the other hand, since the sub-channel signal (LR) is demodulated by the demodulation circuit 18, a signal level corresponding to the demodulation gain is obtained, and it is generally higher than the multiplexed signal level applied to the input terminal 4. Is. As a result, the levels of the main and sub channel signals (L + R) and (LR) applied to the matrix circuit 16 become non-uniform, and the stereo separation deteriorates.

For this reason, conventionally, the terminals on the input side of the matrix circuit 16
48 is provided and a variable resistor is connected between this terminal 48 and a bias.
50 is externally attached, and the level of the main channel signal to the matrix circuit 16 is adjusted by adjusting the value of the variable resistor 50 to correct the stereo separation.

However, such adjustment of the main channel signal level has a drawback that the main circuit section 2 composed of a semiconductor integrated circuit requires a terminal 48 for that purpose and a variable resistor 50 for level adjustment.

Therefore, an object of the present invention is to provide a voice multiplex demodulation circuit in which such terminals are reduced to facilitate IC implementation, a variable resistor for level adjustment is unnecessary, and external parts are reduced. To do.

[Means for solving problems]

In the audio multiplex demodulation circuit of the present invention, as illustrated in FIG. 1, a frequency setting element for oscillating a reference frequency is connected to a demodulation circuit for demodulating a sub-channel signal from an audio multiplex decompression signal, and a control input is provided. The voltage-controlled oscillator whose oscillation frequency is controlled by the voltage-controlled oscillator, and the reference signal oscillated by the voltage-controlled oscillator, together with the audio multiplex composite signal, and phase comparison between the two to discriminate the sub-channel signal from the audio multiplex composite signal. A phase comparator, a low-pass filter that extracts the sub-channel signal obtained by the phase comparator, and a feedback circuit that adds the sub-channel signal extracted from the bottom-pass filter to the voltage controlled oscillator as the control input. A voice multiplex demodulation circuit using a phase-locked loop including: a voltage control circuit to which the control input is applied. A variable resistor connected to the feedback circuit for the oscillator, this variable resistor, characterized in that by adjusting the said control input and to adjust the demodulation level of the sub-channel signal.

[Action]

Therefore, according to the present invention, the demodulation level of the sub-channel signal is adjusted by adjusting the feedback amount of the phase-locked loop so as to match the level of the main-channel signal and obtain the highest stereo separation. .

〔Example〕

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

FIG. 1 shows an embodiment of a voice multiplex demodulation circuit of the present invention, and the same parts as those of the voice multiplex demodulation circuit of FIG. 4 are designated by the same reference numerals.

As shown in FIG. 1, in this audio multiplex demodulation circuit, the audio multiplex demodulation circuit shown in FIG. 4 is a main channel signal (L + R).
While the level of the sub-channel signal (LR) is adjusted by adjusting the feedback amount of the feedback circuit 34 of the phase-locked loop which constitutes the existing demodulation circuit 18, the level of the sub-channel signal (LR) is adjusted. It is the one. That is, in the circuit shown in FIG. 4, a fixed resistor 40 is installed between the terminals 26 and 28 as a feedback element of the feedback circuit 34, whereas a variable resistor 41 is installed and the feedback amount is adjusted by adjusting the resistance value. Is adjusted.

According to such a configuration, the main channel signal (L + R)
The sub-channel signal (L-R) demodulation level is adjusted, and each signal (L +) added to the matrix circuit 16 is added.
R) and (LR) can be adjusted for the best stereo separation by matching the relative ratios.

In this case, the phase-locked loop can be regarded equivalently as an amplifier having a feedback circuit, and its gain depends on the feedback amount of the feedback circuit 34. In this embodiment, the feedback amount is adjusted depending on the value of the variable resistor 41 inserted in series in the feedback circuit 34. This feedback amount determines the gain, and as a result, the level of the sub-channel signal is adjusted. As a result of this level adjustment, the level of the sub-channel signal can be matched with the level of the main-channel signal, and the stereo separation can be optimized.

FIG. 2 shows the output level of the sub-channel signal (LR) with respect to the frequency deviation in this case. The amount of feedback of the feedback circuit 34 to the voltage controlled oscillator 20 is adjusted by the resistance value of the variable resistor 41. If the slope of the S-shaped characteristic at a specific resistance value is θ ₁ , it can be changed to, for example, θ ₂ by increasing the resistance value, and the demodulation output level with respect to the frequency deviation of the sub-channel signal (LR) can be changed. Can be increased.

In this way, the existing resistance 40 is changed to the variable resistance 41, and the value is adjusted only by adjusting the demodulation level of the sub-channel signal (LR) according to the level of the main channel signal (L + R). Can be adjusted and the stereo separation can be adjusted to the maximum value.

〔The invention's effect〕

As described above, according to the present invention, the demodulation level of the sub-channel signal can be adjusted to achieve the level matching with the main channel signal, and the stereo separation can be maximized by adjusting the demodulation gain of the existing phase locked loop. Since the value can be set, the terminal for the adjustment is not required
Since it is easier to realize, and the resistance that was installed in the conventional feedback circuit is changed to the variable resistance, the level of the sub-channel signal can be adjusted, so conventionally it was necessary only for level adjustment. The variable resistor becomes unnecessary, and the cost can be reduced by simplifying the configuration.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a voice multiplex demodulation circuit of the present invention, FIG. 2 is an explanatory diagram showing its operating characteristics, FIG. 3 is an explanatory diagram showing a frequency spectrum of a multiple signal, and FIG. 3 is a block diagram showing the audio multiplex demodulation circuit of FIG. 18 …… Demodulator 20 …… Voltage controlled oscillator 22 …… Phase comparator 24 …… Low pass filter 34 …… Feedback circuit 41 …… Variable resistance

Claims (1)

[Claims] 1. A voltage controlled oscillator in which a frequency setting element for oscillating a reference frequency is connected to a demodulation circuit for demodulating a sub-channel signal from an audio multiplexed composite signal, and an oscillation frequency is controlled by a control input, A phase comparator for discriminating the sub-channel signal from the voice multiplex composite signal by receiving the voice multiplex composite signal together with the reference signal oscillated by the voltage controlled oscillator and comparing the phases of the two signals are obtained by this phase comparator. A voice multiplex using a phase-locked loop including a low-pass filter for extracting the sub-channel signal, and a feedback circuit for adding the sub-channel signal extracted from the low-pass filter to the voltage controlled oscillator as the control input. A demodulation circuit, wherein a variable resistance is provided to the feedback circuit to the voltage controlled oscillator to which the control input is applied. Connect, by the variable resistor, the sound multiplex demodulation circuit which is characterized in that by adjusting the said control input and to adjust the demodulation level of the sub-channel signal.