JPH02205120A - Noise reduction device for fm stereo tuner - Google Patents

Abstract

PURPOSE:To eliminate a noise component extending over all the frequency band areas by dividing a stereo differential signal to plural frequency band areas, synthesizing only divided stereo differential signals exceeding a noise level at every divided area, and reproducing L and R signals by a circuit to reproduce a stereo signal. CONSTITUTION:The stereo differential signal (L-R) outputted from a circuit 2 to generate a stereo sum signal and the stereo differential signal is (n)-divided by band-pass filters 7-1-7-n at a noise elimination circuit 3A. Divided stereo differential signals (L-R) are compared with reference level signals Vth1-Vthn at switch control circuits 8-1-8-n. And switch circuits 9-1-9-n are closed only when it is Vth1-Vthn<(L-R)d, then, the divided stereo differential signals (L-R)d can be passed. And the signals are added at an adder 10, and go to a synthetic signal (L-R)', and is sent to a circuit 4 to reproduce the stereo signal.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a noise reduction device for an FM stereo tuner.

[Conventional technology]

Conventionally, an l1l-brend circuit has been known as a circuit for suppressing noise generated when receiving stereo broadcasting (Japanese Patent Publication No. 32282/1982).

In the case of FM stereo broadcasting, this l1l-brend circuit uses a stereo difference signal (L - R
) exists in the demodulated L signal and R signal by N/2 each in opposite phase to each other, and by adding only the high frequency components of the L signal and R signal, N/ The two noise components that exist in opposite phases are canceled out from each other, and the high-frequency component noise that is particularly easy to hear is removed.

[Problem to be solved by the invention]

However, although the conventional old-blend circuit described above exhibits a noise reduction effect on high-frequency signal components, it does not work on middle-low frequency signal components due to its operating principle.

There is a problem in that it is not possible to remove noise over a wide range from low to high frequencies. Furthermore, since the III-brand circuit produces a completely monaural signal in the high range, there is a problem in that the left and right separation deteriorates, making it impossible to obtain a sufficient stereo effect.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a noise reduction device for an FM stereo tuner that can remove noise components over the entire frequency band with almost no deterioration of separation.

[Means to solve the problem]

In order to solve the above problems, the present invention provides a stereo sum signal (
A circuit 2 that generates a stereo difference signal (L+R) and a stereo difference signal (L-R), and a circuit 2 that divides the stereo difference signal (L-R) into a plurality of frequency bands and generates a divided stereo difference signal according to the signal level of each divided band. (L-R) d composite signal (L-R)'
and a noise removal circuit 3 that outputs the composite signal (L-R
)' and a circuit 4 for reproducing the stereo signal (R,L) from the stereo sum signal (L+R).

[Effect]

According to the present invention, the stereo difference signal (L-R) output from the circuit 2 that generates the stereo sum signal (L+R) and the stereo difference signal (L-R) is input to the noise processing circuit 3, and is subjected to noise removal processing. will be applied.

The noise removal circuit 3 extracts a plurality of stereo difference signals (LR) (
n) into frequency bands, and in each subband, each split stereo difference signal (L-R).

split stereo difference signal (L-R) according to the signal level of
A composite signal of those split stereo difference signals (L-R) d, that is,
A composite signal (LR)' with reduced noise components is output.

This composite signal (LR)' is input to a circuit 4 for reproducing a stereo signal.

The circuit 4 that reproduces the stereo signal reproduces a human-generated composite signal (
A stereo signal (L, R) is reproduced using the stereo signal (L-R)' and the stereo sum signal (L+R). The reproduced stereo signals (L, R) have noise removed over the entire frequency band, and since the L and R signals are not combined, deterioration of separation can be prevented.

〔Example〕

Next, embodiments of the present invention will be described based on the drawings.

Since the overall configuration of the present invention is as shown in FIG. 1, the explanation thereof will be omitted, and each embodiment will be described below.

First example FIG. 2 shows a first embodiment of the present invention.

In FIG. 2, the noise removal circuit 3A includes a plurality of bandpass filters that divide the stereo difference signal (LR) from the circuit 2 that generates the stereo sum signal and the stereo difference signal into a plurality of (n) audible frequency bands. (BPF −BPF
)7. 7□ and the split stereo difference signals (L-R) output from the respective L-band bandpass filters 7-1 to 7-, a switch control circuit (S) outputs switch control signals A1 to An.
WC-5WC)8. ~8-n, and switch circuits 9 to 9 that control passage of the split stereo difference signal (L-R) d based on the switch control signals A1 to Ao.
and an adder 10 that synthesizes the divided stereo difference signals (L-R) that have passed through each of the switch circuits 9-1 to 9-n=1-n and outputs a composite signal (L-R)'. Configured with the necessary features.

The switch control circuits 8-1 to 8- have reference level signals vth1 to Vth corresponding to the noise component levels included in each divided stereo difference signal (L-R), and these reference level signals vth1 to hn and the divided stereo difference signal (L-R), and switch thl only when the divided stereo difference signal (L-R) d exceeds the reference level signal v - ■.
thn Switch control signal A i that closes the switch circuits 9-1 to 9□
-A, is output. Specifically, it is configured using an operational amplifier or the like.

The switch circuits 9-1 to 9-0 use transistor switches or the like.

The adder 10 uses an operational amplifier or the like.

In the above configuration, the switch control circuit 8-1
~8-n and switch circuits 9-1 to 9- form a noise processing circuit.

Next, the operation will be explained.

Circuit 2 for generating stereo sum signal and stereo difference signal
The stereo sum signal (L+R) outputted from the stereo signal is sent as is to the circuit 4 for reproducing the stereo signal, and the stereo difference signal (L-R) is sent to the noise removal circuit 3A.

In the noise removal circuit 3A, the stereo difference signal (L-R
) is divided into n by bandpass filters 7-1 to 7-n. Each split stereo difference signal (L-R) d is converted into a reference level signal V ~ ■ and -n th in each switch control circuit 8-1 to 8-8.
l thn is compared. As a result of the comparison, it is 0 only if v −■ thl thn <(L−R)d
Switch control signals A1 to An having binary values of N-OFF
Output. That is, the case of V~■ thl thn<(LR)d is when the signal component of the stereo difference signal (LR)d is higher than the noise component level in each divided band. The switch circuit 9. ~9-n closes the switch (ON) and passes the split stereo difference signal (L-R) d at that time. Therefore, the stereo difference signal (L-R) d of the divided band having the relationship v ~ V ≧ (L-R) d thl thn is blocked from being output by opening (OFF) the switch circuits 9-1 to 9-n. be done.

Each split stereo difference signal (L-R) passed through.

are added in the adder 10 to produce a composite signal (L-R)
The signal is then sent to a circuit 4 that reproduces a stereo signal.

At this time, since the combined signal (L-R)' consists only of the split stereo difference signal (L-R) with a low noise level, it is output from the circuit 2 that generates the stereo sum signal and the stereo difference signal. The noise component is reduced compared to the stereo difference signal (L-=R).

The composite signal (L-R) with noise components reduced in this way
' and the stereo sum signal (L+R), a circuit 4 that reproduces a stereo signal generates an L signal and an R signal. Therefore, the noise components contained in the generated R signal and R signal can be reduced.

Second example FIG. 3 shows a second embodiment of the present invention.

The feature of this embodiment is that the noise removal circuit 3B adjusts the level of the reference level signal vLhlthn in the switch control circuits 8-1 to 8-n according to the electric field strength level of the location where the FM stereo tuner is installed. The key point is that it is variable controlled.

The difference in FIG. 3 from FIG. 2 is that the field strength level signal SML is introduced from the input terminal 12 and branched into each of the switch control circuits 11-1 to 11-n. Since the other parts are the same as those in FIG. 2, the same reference numerals are given and the explanation thereof will be omitted.

In this embodiment, switch control circuits 11 to 1
1 is the reference level signal V -V-1-n
A field strength level signal SML is input to each of the generators, and a reference level signal ■th□~V corresponding to the electric field strength and level signal SML is used as a reference for the comparing section. The thl is configured so that it can be applied to the input terminal.

The reason for this configuration is as follows. The noise components in each subband included in the stereo difference signal (LR) differ depending on the electric field strength. When the electric field strength is low, the noise level is relatively high compared to the stereo difference signal (LR), and vice versa when the electric field strength is high. Therefore, considering the electric field strength and reception conditions in the area, -
If the reference level signal vthlthn is set to a certain value, the noise removal effect may be insufficient. Therefore, as in this embodiment, the reference level signal v is set according to the electric field strength level.
-■ By automatically controlling thl thn , it becomes possible to remove noise using an appropriate reference level signal "tht~vthn."

Next, the operation will be explained.

The electric field strength level signal SML is given to each switch control circuit 11-1 to 11□. - The switch control circuits 11-1 to 11-n set a reference level signal V - V according to the manually input field strength level signal SML, and compare it with the divided stereo difference signal thl thn (L - R) d. and switch control signals A1 to An are connected to circuits 9-1 to 9.
The divided stereo difference signal (L-R,) is output only when d is high to obtain a composite signal (L-R)'.

Third embodiment Next, FIG. 4 shows a third embodiment of the present invention.

The feature of this embodiment is that in the noise removal circuit 3C, the second
Switch control circuits 8-1 to 8 in the figure. 0
Instead of outputting a binary switch control signal of N-OFF, A1 to An, a control signal corresponding to the amount of deviation between the reference level signal V to V and the split stereo difference signal thl thn (L-R) is used. 81
Control circuit 15-1 configured to output ~Bn
~15-n, and the switch circuits 9-1 to 9-n are not switch circuits, but are bell adjustment circuits (Vol.
stage Controlled Aspjef'ler
etc.) 13-1 to 13-n. Since the other parts are the same as those in FIG. 1, the same reference numerals are given to them, and the explanation thereof will be omitted.

In this way, the signal level of the split stereo difference signal (L-R) passing through the control circuits 15-1 to 15-n and the variable level adjustment circuits 13-1 to 13-n is adjusted.
By continuously and variablely controlling the split stereo difference signal (
The level of L-R) d does not become extreme, and the unnatural feeling of audible separation can be reduced.

Fourth example Next, FIG. 5 shows a fourth embodiment of the present invention.

The feature of this embodiment is that in the noise removal circuit 3D, the fourth
Based on the third embodiment shown in the figure, and as in the second embodiment, the level of the Lti P level signal v -■ in the control circuits 15-1 to 15-1 is set to thl th
n: In order to enable variable setting according to the electric field strength of the place where the FM stereo tuner is installed, a field strength level signal SML is introduced from the input terminal 12, and each control circuit] 6-1 to 16 -o is branched manually. Since the other parts are the same as those in FIG. 4, the same reference numerals are given and the explanation thereof will be omitted.

With this configuration, it is possible to continuously control the divided stereo difference signal (L-R) according to the amount of deviation between the noise component level included in each divided band and the divided stereo difference signal (L-R) d. In addition, the basic level signal v according to the electric field strength
It becomes possible to set V to thl thn, and smooth control becomes possible.

Fifth example Next, FIG. 6 shows a fifth embodiment of the present invention.

The feature of this embodiment is that, in the noise removal circuit 3E, a dynamic expander 14 is interposed between the output end of the adder 10 and the circuit 4 for reproducing a stereo signal. The other parts are the same as those in the first embodiment shown in FIG. 2, and the same parts are given the same reference numerals and the explanation thereof will be omitted.

The reason for intervening the dynamic expander 14 as in this embodiment is as follows.

When noise is removed in the noise removal circuit 3A, the split stereo difference signal (L-R) in the split band where the signal level is low is not output, and therefore at least it is not passed. The signal level of the split stereo difference signal (L-R) is attenuated by the signal level of the split stereo difference signal (L-R), and the signal level of the composite signal (L-R)' is equal to the stereo signal level at the output of the circuit 2 that generates the stereo sum signal and the stereo difference signal. The signal level is lower than that of the difference signal (LR).

Therefore, by interposing the dynamic expander 14 like the noise removal circuit 3E, the synthesized signal (L
-R)' signal level to the original stereo difference signal (L-R
), it is possible to remove noise components and compensate for deterioration of separation, and it is possible to increase the spread of the stereo feeling.

Note that intervening the dynamic expander 14 is applicable not only to the first embodiment but also to the second to fourth embodiments, and the same effect can be achieved, so this embodiment The examples are not limited.

〔Effect of the invention〕

As described above, according to the present invention, a stereo difference signal generated by a circuit that generates a stereo sum signal and a stereo difference signal is divided into a plurality of frequency bands, and a split stereo difference signal exceeding the noise level for each divided band is provided. Since the R signal is reproduced by a circuit that synthesizes only the R signal and reproduces the stereo signal, it is possible to remove noise components over the entire frequency band with almost no deterioration of separation, improving sound quality with a natural stereo feeling. Good F
M stereo broadcasting can be played back.

[Brief explanation of the drawing]

FIG. 1 is a schematic block diagram of the present invention, FIG. 2 is a block diagram of a first embodiment of the present invention, FIG. 3 is a block diagram of a second embodiment of the present invention, and FIG. 4 is a block diagram of a third embodiment of the present invention.
FIG. 5 is a block diagram of a fourth embodiment of the present invention, and FIG. 6 is a block diagram of a fifth embodiment of the present invention. 1... Input terminal 2... Circuit that generates a stereo sum signal and stereo difference signal 3. 3A, 3B, 3C, 3D, 3E... Noise removal circuit 4... Circuit that reproduces a stereo signal 5. ...Output terminal 6...Output terminal 7-1 to 7-n...Band pass filter 8-1 to 8-
n...Switch control circuit 9-1 to 9-n...
・Switch circuit 10...Adder 11-1 to 11-n...Switch control circuit 1
2... Input terminals 13-1 to 13-n... Variable level adjustment circuit 14...
・Dynamic expander 15, ~15-n...control circuit 16-1~1
6-n...Control circuit (L+R)...Stereo sum signal (L-R)...Stereo difference signal (L-R)...Divided stereo difference signal (L-R)'...
...Synthetic signal V -V ...Reference level signal tht
thn SML...Field strength level signal 80~A...Switch control signal Bl-Bn...Control signal

Claims (6)

[Claims] 1. A circuit that generates a stereo sum signal and a stereo difference signal in an FM stereo tuner, and a circuit that divides the stereo difference signal into a plurality of frequency bands and outputs a composite signal of the divided stereo difference signals according to the signal level of each divided band. A noise reduction device for an FM stereo tuner, comprising: a noise removal circuit; and a circuit for reproducing a stereo signal from the composite signal and the stereo sum signal. 2. The noise reduction device for an FM/stereo tuner according to claim 1, wherein the noise removal circuit includes: a plurality of bandpass filters that divide the stereo difference signal into a plurality of frequency bands; and a divided stereo difference signal in each of the divided bands. a noise processing circuit that compares the divided stereo difference signal with a certain reference level and outputs the divided stereo difference signal only when the divided stereo difference signal has a signal level higher than the reference level; A noise reduction device for an FM stereo tuner, comprising: an adder for synthesizing and outputting the synthesized signal; 3. 3. The noise reduction device for an FM stereo tuner according to claim 2, wherein the noise processing circuit compares the divided stereo signal output from the bandpass filter with a certain reference level, and determines that the divided stereo difference signal is equal to the reference level. An FM stereo tuner comprising: a switch control circuit that outputs a control signal that allows the split stereo difference signal to pass only when the level exceeds the level; and a switch circuit that allows the split stereo difference signal to pass according to the control signal. Noise reduction device. 4. 3. The noise reduction device for an FM stereo tuner according to claim 2, wherein the noise processing circuit operates according to a deviation level between a reference level corresponding to a noise component level included in the divided stereo difference signal and a signal level of the divided stereo difference signal. a control circuit that outputs a control signal, and a variable level adjustment circuit that adjusts the output level of the split stereo difference signal according to the control signal. Device. 5. 5. The noise reduction device for an FM stereo tuner according to claim 3 or 4, wherein the noise processing circuit is configured such that its reference level can be variably controlled in accordance with the input electric field strength of the FM tuner.
Stereo tuner noise reduction device. 6. 6. The noise reduction device for an FM stereo tuner according to claim 1, 2, 3, 4 or 5, wherein a dynamic expander circuit is interposed between the noise removal circuit and the stereo signal reproducing circuit. Stereo tuner noise reduction device.