JPH06101760B2 - Telephone terminal - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Outline] A telephone terminal having improved characteristics of a transmitting system, which aims to suppress noise satisfactorily even in high noise and to maintain natural call quality in low noise. , When the input sound pressure level to the transmitter (1) is higher than a predetermined threshold, the gain of the transmitting system is fixed to a constant value at all times, and the input level is equal to the threshold. When it is less than that, the variable attenuator (12) having a value lower than the fixed constant value, the microphone (3) for detecting ambient noise, and the output of the microphone are used to determine the level of the noise. A control means for receiving the signal and controlling the variable attenuator is provided, and when the ambient noise is high, the variable portion of the gain of the transmission system is changed to
When the ambient noise is low, the variable attenuator is controlled so that the variable portion of the gain is close to the fixed constant value when the ambient noise is low.

[Industrial application field]

The present invention relates to a telephone terminal having improved characteristics of a transmission system.

Specifically, in a so-called electronic telephone that has a transmission system composed of a normal microphone with linear switching characteristics and a transmission amplification circuit, noise due to noise that enters the microphone is suppressed in a noisy environment. The present invention provides a telephone terminal which eliminates such an operation in an environment with low noise and realizes natural call characteristics.

[Conventional technology]

The noise suppression effect resulting from the non-linearity of the conversion characteristics of the carbon type handset has been utilized in the transmitting system of the telephone having the carbon type handset which has been widely used in the past.

The carbon type transmitter has a voice input signal (sound pressure level 90 ~ 100d
Sensitivity to B) is about -50 dB However, the sensitivity to ambient noise (sound pressure level of 70 dB or less) is 5 to 10 dB lower than this. Therefore, the noise derived from the noise entering the transmitter is suppressed, and the apparent S / N is 5 to 10d.
B rises.

However, since this effect is derived from the nonlinearity of the carbon powder conversion system, it is accompanied by adverse effects such as signal distortion and voice level instability, and it is impossible to perform fine control of characteristics and management of variations. There were many drawbacks, etc.

On the other hand, in a so-called electronic telephone that uses a microphone (piezoelectric ceramic type, electret capacitor type, etc.) having a linear acoustoelectric conversion characteristic instead of a carbon type transmitter and an amplifier circuit using an IC, the nonlinearity of the transmitting system is used. The signal is swept away and an easy-to-listen signal with less distortion is obtained.

[Problems to be solved by the invention]

However, since the characteristics are completely linear, the noise suppression effect also disappears. Therefore, in a noisy environment, the influence of noise on the transmission signal is larger than that of conventional telephones, so the transmission quality is clearly deteriorated, causing a problem. Has become.

In order to solve this, a transmitter amplifier circuit IC having a non-linear characteristic is commercially available, but it only simulates the non-linearity of a carbon type transmitter, and the drawbacks of the conventional telephone have not been solved.

Because of this situation, submission of a fundamental solution is highly anticipated.

[Means for solving problems]

The present invention firstly provides a detection for detecting an ambient noise level in a telephone terminal including an electronic circuit for transmitting and receiving, and a transmitter and a receiver mounted on a handset and having a substantially linear acoustoelectric conversion characteristic. When the input sound pressure level input from the means and the transmitter is higher than a predetermined threshold value, the transmission system gain is controlled to be fixed regardless of the ambient noise level. If the level is below a predetermined threshold, as the ambient noise level detected by the detection means increases,
Control means for controlling so as to reduce the gain of the transmission system.

Second, the gain of the electronic circuit connected to the handset is controlled so that the gain is close to a predetermined value when the ambient noise level is low, and the gain is controlled when the ambient noise level is high. Is set to a value higher than the predetermined value.

Thirdly, it comprises a loudspeaker reception output means, and controls the gain of an electronic circuit connected to the loudspeaker reception output means so that the gain is close to a predetermined value when the ambient noise level is low. However, when the ambient noise level is high, the gain is controlled to be higher than the predetermined value.

Fourthly, the voice call input means is provided, and the detecting means for detecting the ambient noise level detects the noise level from the input of the voice call input means.

[Action]

The present invention is provided with a microphone for indoor noise detection, which is separate from a microphone (speaker) attached to a handset, and controls the noise suppression effect of a transmission system according to the output from the detection microphone. A good noise suppression effect can be achieved under high noise, and a natural call quality can be achieved under low noise.

〔Example〕

 Hereinafter, a detailed description will be given with reference to the drawings.

FIG. 1 is an embodiment of a telephone showing the basic configuration of the present invention.

In the figure, reference numeral 1 is a microphone (transmitter) for transmission, and 2 is a receiver, which is accommodated in a handset and used for communication. A noise detection microphone 3 is installed on the side of the telephone body opposite to the caller.

FIG. 2 shows a circuit configuration diagram of the embodiment shown in FIG.

The voice signal output from the microphone for transmission 1 is transmitted through the transmission preamplifier 11, the transmission variable attenuator 12, and the transmission amplifier 13,
It is sent from the protection side sound circuit 61 to the line. Reference numeral 62 is a sidetone balanced circuit network for the protection sidetone circuit.

The reception signal flowing in from the line is applied to the reception device 2 from the protection side sound circuit 61 via the reception preamplifier 21, the reception variable attenuator 22, and the reception amplifier 23.

Since the noise detection microphone 3 is installed at a position far from the caller (in the embodiment of FIG. 1, the back surface of the housing),
The input sound includes room noise and transmitted voice, but the level of transmitted voice is usually stronger. Therefore, the signal of the detection microphone is applied to the rectification integrator 32 having a relatively long time constant via the detection preamplifier 31 to suppress the audio signal having a large envelope change, and only the noise signal having a small envelope change is applied. Take it out.

The rectified and integrated noise signal is applied to the controller 63, and the attenuators 12 and 22 are adjusted according to the level of the signal.

A method of controlling the variable attenuator 12 is shown in FIG.

In a noisy environment where the noise level is above a certain value L _N , the sound pressure level input to the microphone 1 for transmission is a specified value.
If more than P _H is to operate the overall sensitivity of the transmission system as a specified value K _T, transmission systems by increasing the attenuation of the variable attenuator 12 when the input sound pressure level is lower than P _H Reduce the sensitivity of. If the input sound pressure level is lower than the specified value P _L , insert the maximum attenuation k _T.

When the noise level is lower than the above-mentioned constant value L _N , the maximum attenuation amount is made smaller than k _T to suppress the non-linear effect. In a quiet environment where the noise level is L _Q or less, the value of the variable attenuator 12 is kept constant, and the sensitivity of the transmitting system is kept at the specified value K _T regardless of the input sound pressure level, and a completely linear system is obtained.

Similar control can be performed for the receiving system. Second
A method of controlling the combustible attenuator 22 shown in the figure is shown in FIG.

In a quiet environment where the noise level is below a certain value L _Q ,
Keep the total sensitivity of the receiving system at the specified value K _R.

When the noise level is higher than the constant value L _Q , the variable attenuator 22 is decreased to increase the overall sensitivity, and the caller hears a large received sound to prevent the call quality from being deteriorated. In a noisy environment where the noise level is L _N or higher, the total sensitivity of the receiving system is increased by k _R.

Also for the receiving system, it is possible to give non-linearity according to the input signal level of the receiving system. However, in receiving input, the call signal level may change significantly depending on the distance and the line noise may be high and the S / N may be poor. It is impossible to classify.

Therefore, in the present telephone line, as shown in FIG. 4, it is advantageous to make the receiving system overall sensitivity constant regardless of the receiving system input signal level.

It should be noted that the upper limit of the increase amount k _R of the reception system gain is usually determined by the howling margin.

For example, the values of the parameters shown in FIGS. 3 and 4 should be determined according to the usage conditions of each system, assuming the following values.

(A) The noise level L _Q should be selected to be about 45 dB.

(B) The noise level L _N should be about 60 dB.

(C) The input sound pressure level P _H should be selected to be 80 to 90 dB.

(D) It is recommended that the input sound pressure level P _L be 65 to 70 dB.

(E) It is recommended that the maximum change amount k _T of the total sensitivity of the transmission system be 5 to 10 dB.

(F) It is preferable to select the maximum amount of change k _R of the total sensitivity of the receiving system in the range of 5 to 10 dB so that the howling margin can be secured.

(G) The integration time constant of the rectifying integrator 32 is several seconds (for example, 4
Seconds) is good. However, the shorter the reset time is, the better (eg 0.1 seconds).

Next, a second embodiment of the present invention will be described.

Recent electronic phones are often equipped with a loudspeaker reception system. FIG. 5 shows a circuit configuration when the present invention is applied to such a telephone.

In the figure, in the loud-speaking reception state, the reception signal is transmitted through the selector switch SW ₁ to the reception-speaking preamplifier 51 and the reception-speaking attenuator
2. The signal is applied to the speaker 5 through the loudspeaker receiving amplifier 53. The output signal of the controller 63 is applied to the attenuator 52, and the attenuator 52 is configured to operate similarly to the attenuator 22.

When receiving a loud voice, it is common to disconnect the transmission system with a switch (SW ₂ ) to prevent howling.

If there is no problem in characteristics, the preamplifiers 21 and 51 may be moved to a stage before the changeover switch and shared. Further, if the constants such as the attenuation amount are the same, the attenuation cutoffs 22 and 52 may be shared by moving to the previous stage of the switch.

Note that part of the output of the speaker 5 is the detection microphone 3
Since the sound is received by, the operation tends to be unstable. It is necessary to consider the mounting configuration so as to reduce the acoustic coupling between the speaker and the microphone as much as possible.

Further, a third embodiment of the present invention will be described.

In recent years, an increasing number of electronic telephones have a hands-free call function as well as a handset call function. A circuit that changes the threshold level of a voice switch circuit used in a loud voice communication system according to the level of ambient noise is widely called NOGAD. The noise detection microphone 3 described above can be used for this purpose when using a voice communication system. An example of the device configuration in this case is shown in FIG. In the figure, reference numeral 4 denotes a microphone for transmission in a voice call, and reference numeral 5 denotes a speaker for voice reception.

Further, FIG. 7 shows a circuit configuration corresponding to the device configuration of FIG. 41 is a loudspeaker transmission preamplifier, 42 is a voice transmission circuit voice attenuator, and 43 is a loudspeaker speech amplifier. Also
Reference numeral 51 is a loudspeaker reception preamplifier, 52 is a voice switch circuit reception attenuator, and 53 is a loudspeaker reception amplifier.

When using a microphone and loudspeaker for listening
The switches SW ₁ and SW ₂ are switched, and the attenuators 42 and 52 of the voice switch circuit are controlled by the comparator 64. Therefore, the ambient noise level information is obtained by the rectifier / integrator 32 and the comparator 64.
Sent to.

In the above embodiment, the configuration of the present invention can be applied not only to the handset communication system but also to the voice communication system.

However, in the voice call system, the distance between the caller and the microphone is more likely to change than in the handset call system, and therefore the input sound pressure level of the microphone 4 is more unstable than in the handset call system. It is difficult to apply to the system.

On the other hand, controlling the output of the loudspeaker speaker in the same manner as in the case of the handset receiving system is significant for improving the call quality.

In this case, it is necessary to select the maximum value of the sensitivity of the speaker system in a range that does not cause howling.

The circuit configuration of the fourth embodiment of the present invention is shown in FIG.

In FIG. 6, the distances from the caller are not so different between the voice call microphone 4 and the noise detection microphone 3.
Also, at relatively low frequencies (1 KHz or less), the shadow effect of the housing is small. Therefore, in the frequency range of 100 to 600 Hz, which is important for noise detection, one microphone can be used as the microphones 3 and 4.

An embodiment constructed based on this concept is shown in FIG. The detection microphone 3 is omitted, and the voice communication microphone 4 is used as the detection microphone.

Therefore, the microphone 4 needs to be operating during a handset call.

FIG. 9 shows an example of the equipment configuration of the above embodiment.

The circuit configuration of the fifth embodiment of the present invention is shown in FIG.

In FIG. 8, the functions of the controller 63 and the comparator 64 are similar. Therefore, if a circuit having a sufficient signal processing capability can be used, the integration becomes possible. If a variable attenuator having a sufficient dynamic range can be used, the attenuators 12 and 42 and the attenuators 22 and 52 can be integrated respectively.

FIG. 10 shows an embodiment in which these synthesis is executed. This structure is particularly useful when the internal control and processing are digitized by a computer.

〔The invention's effect〕

As described in detail above, the present invention detects ambient noise, automatically adjusts the non-linearity of the transmitting system according to the level of the noise, and, if necessary, the total gain of the receiving system. Since automatic adjustment is also performed at the same time, and it is particularly well-matched with the voice communication system, it has great practical value.

[Brief description of drawings]

1 and 2 are diagrams showing an embodiment of the present invention, FIG. 3 is a control chart of the total sensitivity of the transmitting system in the present invention, FIG. 4 is a control chart of the total sensitivity of the receiving system in the present invention, and FIG. Shows a second embodiment of the present invention, FIGS. 6 and 7 show a third embodiment of the present invention, FIGS. 8 and 9 show a fourth illustration of the present invention, FIG. 10 shows It is a 5th Example figure of this invention. 1 ... handset call transmitter, 2 ... handset call receiver, 3 ... ambient noise detection microphone, 4 ... loud-speaking microphone, 5 ... loud-speaking speaker, 12 ... sending system Variable attenuator, 22 …… Variable attenuator for receiving system, 32 …… Rectifier / integrator, 63 …… Controller.

Claims (4)

[Claims] 1. A transmission / reception electronic circuit, a telephone terminal comprising a transmitter and a receiver mounted on a handset and having substantially linear acoustoelectric conversion characteristics, and detection means for detecting an ambient noise level, When the input sound pressure level input from the transmitter is higher than a predetermined threshold value, the input sound pressure level is controlled to be fixed such that the transmission system gain is fixed regardless of the ambient noise level. If the ambient noise level detected by the detection means becomes larger,
And a control unit that controls the transmission system gain so as to be reduced. 2. The gain of an electronic circuit connected to the handset is controlled so that the gain is close to a predetermined value when the ambient noise level is low, and the gain is controlled when the ambient noise level is high. Claim 1 wherein the gain is a value higher than the predetermined value.
The telephone terminal described in the section. 3. A loudspeaker reception output unit is provided, and the gain of an electronic circuit connected to the loudspeaker reception output unit is set to a value close to a predetermined value when the ambient noise level is low. The telephone terminal according to claim 2, wherein the gain is controlled to be higher than the predetermined value when the ambient noise level is high. 4. A loudspeaker call input means, wherein the detecting means for detecting the ambient noise level detects the noise level from the input of the loudspeaker call input means. The listed telephone terminal.