JPH0339966Y2 - - Google Patents

Description

[Detailed description of the invention] It is preferable for the audibility to have a higher noise detection sensitivity for noise removal during stereo reception than in monaural reception.

Figure 1 is a block diagram showing the configuration of a conventional pulse noise removal device for FM receivers. In the figure, 1 is the antenna, 2 is the tuner, 3 is the pulse noise removal device, and 4 is the pulse noise up to the demodulation circuit. The output of the noise removal device, 5 is a noise detection section, 6 is a high-pass filter for detecting pulsed noise, 7 is a noise amplifier,
8 is a switching pulse generation circuit, 9 is a noise amplifier AGC, 10 is a delay low-pass filter,
11 is a gate for noise removal.

The FM signal from tuner 2 is applied to point Q in FIG. The noise detection section 5 extracts pulse noise from this signal using a high-pass filter 6,
After being amplified by the amplifier 7, when the amplitude exceeds a certain predetermined threshold, the switching
A pulse generating circuit 8 generates a pulse for closing the noise removal gate 11. noise amplifier
The AGC 9 is provided to prevent the amplifier 7 from being saturated and to prevent the gate 11 from being turned off continuously. Low pass filter 10
serves as a delay function to prevent pulsed noise from passing through the gate 11 before it is turned off.

Figure 2 is a diagram showing the output level of pulse noise relative to the electric field without a noise removal device. In the figure, curve A is the output level of the audio signal relative to the electric field, and curve B is the FM detection output when FM modulation is not applied. This is a change in the internal audio noise that occurs. Since there is no modulation, it is naturally received in monaural. Curve C is the pulse noise level in the audio band that occurs in the detection output when pulse noise is input to the antenna in an unmodulated state.
Compared to curve B, the S/
The deterioration state of N can be determined. Curve 2 is the pulse noise level in the audio band where only the 19kHz stereo pilot signal is modulated, FM stereo demodulated, and output after stereo operation. A comparison with curve C shows that the influence of pulse noise occurs even in high electric fields. Curve E represents the pulse noise high-frequency component of the detection output, and shows the signal level passed through the high-pass filter in FIG.

In FIG. 2, the following is determined.

(i) Compared to monaural reception, stereo reception is more susceptible to interference even at small pulse noise levels.

(ii) The point on curve B where the audio internal noise begins to be interfered with by pulsed noise is P ₁ for monaural reception and P ₂ for stereo reception. At this time, the level of the high-frequency component of the pulse noise is P′ ₁ for monaural reception and P′ ₂ for stereo reception, and stereo reception is more susceptible to interference even with small pulse noise. This means that during stereo reception,
This is because the bandwidth used by the detection output signal expands from 15kHz during monaural reception to 53kHz.

Therefore, in the case of monaural reception, pulsed noise can only be detected up to the noise level of P′ ₁ ;
There is no need to increase the detection sensitivity any further. If the detection sensitivity is set too high, noise removal is performed even when no noise is audibly perceptible, and signal distortion occurs due to switching of the gate 11. However, in stereo reception, P′ ₂
It is said that it is better for the auditory sense to increase the noise detection sensitivity to a level close to P'2, and the sensitivity is generally set at a level that allows detection of a noise level close to _P'2 .
Therefore, during monaural reception, P ₁ (P′ ₁ )
Noise removal devices are used in such a way that the sound quality deteriorates due to the electric field above.

In this way, noise detection sensitivity has traditionally been fixed regardless of whether it is stereo or monaural, and if the detection sensitivity is adjusted to stereo reception, the sensitivity will be too high for monaural reception, and removing noise will result in an increase in distortion. However, if the sensitivity is adjusted to monaural reception, there will be a drawback that noise removal performance will be insufficient in stereo reception.

An object of the present invention is to provide a pulse noise removal device for an FM receiver that can automatically set noise detection sensitivity to an appropriate state regardless of stereo reception or monaural reception.

In order to achieve the above purpose, the FM according to the present invention
The pulse noise removal device for a receiver has a noise detection circuit that can change the gain of the noise amplifier or the noise detection threshold, and when a signal appears at the stereo reception display terminal during stereo reception, lights up the stereo reception display lamp, and The gist of this invention is to adjust the noise detection circuit to increase its pulse noise detection sensitivity.

Hereinafter, the present invention will be explained in more detail using examples with reference to the drawings, but these are merely illustrative and it is understood that various modifications and improvements may be made without going beyond the scope of the present invention. Of course.

FIG. 3 is a block diagram showing the configuration of a pulse noise removing device for an FM receiver according to the present invention. In the figure, reference numbers common to those in FIG. 1 represent the same ones as in FIG. In the signal demodulation circuit, 13 is a stereo output, 14 is a stereo reception display terminal, 15 is a stereo display lamp, and 16 is a variable attenuator for adjusting sensitivity.

The signal received by the antenna 1 and passed through the tuner 2 is delayed by the delay low-pass filter 10, passes through the noise removal gate 11, and then input to the stereo signal demodulation circuit 12, where it is demodulated into a stereo signal. . The stereo display lamp 15 is of a type that does not light up during forced monaural reception during monaural broadcasting or stereo broadcasting, and therefore lights up only during stereo operation. The attenuator 16 changes the gain of the noise amplifier 4, and operates so that there is no gain loss when the stereo display lamp 15 is lit and stereo reception is being performed. When the stereo display lamp is not lit, monaural reception is performed, and the attenuator 16 creates a gain loss and lowers the noise detection sensitivity. As a result, detection sensitivities suitable for stereo reception and monaural reception are set.

In FIG. 3, the sensitivity is switched by the attenuator 16, but this is not limiting.
Of course, the level may be changed.

As explained above, according to the present invention, the audibly optimal noise detection sensitivity suitable for each of monaural reception and stereo reception is automatically set, and the noise detection sensitivity is too high during monaural reception, resulting in a disadvantageous effect. You get the advantage of not having to worry about anything.

[Brief explanation of the drawing]

Figure 1 is a block diagram showing the configuration of a conventional pulse noise removal device for FM receivers, Figure 2 is a diagram showing the output level of pulse noise with respect to the electric field without a noise removal device, and Figure 3 is a diagram showing the output level of pulse noise with respect to the electric field without a noise removal device. FIG. 1 is a block diagram showing the configuration of a pulse noise removing device for an FM receiver according to the present invention. DESCRIPTION OF SYMBOLS 1...Antenna, 2...Tuner, 3...Pulse noise removal device, 4...Output of the pulse noise removal device leading to the demodulation circuit, 5...Noise detection section, 6...Pulse noise detection height Pass filter, 7... Noise amplifier, 8... Switching
Pulse generation circuit, 9...Noise amplifier AGC, 1
0...Delay low-pass filter, 11...Noise removal gate, 12...Stereo signal demodulation circuit,
13... Stereo output, 14... Stereo reception display terminal, 15... Stereo display lamp, 16...
...Variable attenuator for sensitivity adjustment.

Claims (1)

[Scope of utility model registration request] It has a noise detection circuit with variable noise amplifier gain or noise detection threshold, and the signal appearing at the stereo reception display terminal during stereo reception lights up the stereo reception display lamp and also controls the pulse noise detection sensitivity of the noise detection circuit. A pulse noise removal device for an FM receiver, which is adjustable to increase the noise.