JPH07107146A - Cordless telephone system using bone conduction earphone microphone - Google Patents

Abstract

PURPOSE:To make a cordless telephone system hand-free, and to prevent the generation of howling by providing an active filter for setting peaks of frequency characteristics of a bone conduction microphone and a speaker for constituting the bone conduction earphone microphone so as not to be overlapped with each other. CONSTITUTION:This system is provided with the bone conduction earphone microphone integrated with a bone conduction microphone 16 and speaker 13, and active filters 19, 20 for setting peaks of frequency characteristics of the bone conduction microphone 16 and the speaker 16 so as not to be overlapped with each other. That is, an acoustic converting circuit 12 is constituted of the bone conduction microphone 16 for inputting a voice signal through the active filter 20, and the speaker 13 for reproducing a signal received through the active filter 19. The speaker 13 can be possessed with the frequency characteristics for suppressing a high frequency, and the microphone 16 can be possessed with the frequency characteristic for suppressing a low frequency. That is, since the frequencies are deviated respectively through the active filters 19, 20, the sum of the frequency characteristics of the speaker 13 and the microphone 16 is made uniform.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cordless telephone device which can be used under noisy conditions, suppresses howling due to the integration of a microphone and a speaker, and is small in size, and capable of hands-free communication.

[0002]

2. Description of the Related Art FIG. 9 is a longitudinal sectional view showing a cordless telephone apparatus using a conventional bone conduction earphone microphone disclosed in Japanese Patent Laid-Open No. 4-172794. In the figure, 38
Is a mounting portion including the earphone portion 44 and the circuit portion 41, 39 is a bone conduction microphone portion, 40 is a mounting portion 38 and the bone conduction microphone portion 3
9 is an elastic member provided at the connection part 9.

The conventional bone conduction earphone microphone is constructed as described above. When this is mounted on the ear, the mounting portion 38 is placed in the space from the auricle (A) to the cartilage external auditory meatus (B), and the bone conduction microphone portion 39 is formed. Enter the space of the external cartilage of the cartilage (B).
At this time, the outer peripheral portion of the mounting portion 38 is supported by the cartilage portion (C), the entrance portion of the cartilage external auditory meatus (B), and the inner surface of the auricle (A). On the other hand, the bone conduction microphone unit 39 is the cartilage external auditory meatus (B).
, And the tip end portion 43 thereof contacts the wall surface of the cartilage external auditory meatus. Therefore, the bone conduction microphone unit 39 can secure a sufficient contact area and contact pressure and can pick up bone conduction voice.
Then, the electrical signal of the bone conduction sound picked up by the bone conduction microphone unit 39 is transmitted from the transmitter to the receiver via the circuit unit 41. The earphone unit 44 makes a signal from the transmitter / receiver from the outside into air vibration and outputs it as a sound from the sound conduit 45 and the opening 46 to the cartilage external auditory meatus (B) and the bone external auditory meatus (D).

[0004]

DISCLOSURE OF THE INVENTION In the cordless telephone device using the conventional bone conduction earphone microphone as described above,
If the sum of the frequency levels of the microphone and the speaker exceeds a certain level, the microphone and the speaker are close to each other, so that the wraparound from the speaker to the microphone becomes large, and resonance occurs, so howling occurs and it becomes difficult to hear the sound and it becomes difficult to hear. Give an obstacle.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a cordless telephone which is hands-free by integrating a microphone and a speaker and does not cause howling. There is.

[0006]

In the cordless telephone according to the present invention, the peaks of the frequency characteristics of the bone conduction earphone microphone in which the bone conduction microphone and the speaker are integrated, the peaks of the frequency characteristics of the bone conduction microphone and the speaker do not overlap with each other. In order to achieve the above, a transmission / reception circuit of a telephone device via a filter is provided.

Further, a plurality of bone conduction earphone microphones in which a bone conduction microphone and a speaker are integrated, and a plurality of the above bone conduction microphones, one of which is a sound transmitted from bone conduction (hereinafter, a sound transmitted from bone conduction is a bone conduction sound). ) And the vibration from the speaker,
The other is a microphone that picks up only the sound of the speaker, and has a microphone that picks up only the bone conduction sound by subtracting each signal with an operational amplifier and suppressing the sound from the speaker.

In addition, a plurality of speakers may be provided, one of which converts a signal sent from the receiving circuit to sound as it is, and the other outputs the vibration instead of the sound by inverting the phase of the signal sent from the receiving circuit. Is canceled by the bone conduction microphone so that the sound of the speaker is not picked up.

Further, a plurality of bone conduction microphones and a plurality of speakers are provided. One of the bone conduction microphones, X, picks up the bone conduction sound and the vibration from the speaker, and the other bone conduction microphones Y, only the sound of the speaker. . Also, one of the speakers X
Means that the signal sent from the receiving circuit is converted into sound as it is, and the other speaker Y inverts the phase of the signal sent from the receiving circuit and outputs not vibration but vibration, so that the speaker sound in the bone conduction microphone. Offset so as not to pick up. Then, the gain of the speaker Y is controlled by the magnitude of the output of the microphone Y, and the microphone X is controlled so as to pick up only the bone conduction sound even if the usage situation changes.

[0010]

According to the present invention, the bone conduction microphone and the speaker are integrated to enable hands-free use, and howling caused by the integration is prevented.

[0011]

EXAMPLES Example 1. FIG. 1 is a circuit configuration diagram of an embodiment of a cordless telephone device according to the present invention. In FIG. 1, reference numeral 1 denotes a cordless telephone device fixing unit, which is composed of a telephone line 2, a network control circuit 3, a wireless transmission circuit 4, a wireless reception circuit 7, a control circuit 6, and an antenna 5. Reference numeral 8 denotes a portable unit of the cordless telephone device, which is operated by key input to the wireless receiving circuit 10, the receiving circuit 11, the wireless transmitting circuit 18, the transmitting circuit 17, the active filters 19 and 20, the operating unit 14, and the operating unit 14. It is composed of a control circuit 15 for controlling and an antenna 9. Reference numeral 12 is an acoustic conversion circuit, which is composed of a bone conduction microphone 16 for inputting a voice signal from bone conduction and a speaker 13 for reproducing a reception signal passed through an active filter 19.

FIG. 2 is a vertical sectional view showing the acoustic conversion circuit 12 of FIG. 1, and FIG. 3 is a front view. In the figure, 22 is a microphone housing to be inserted into the ear canal, and 24 is an earphone housing,
The microphone housing 22 and the cushioning material 21 are integrated. The microphone housing 22 has a sound path 28 balanced with the microphone element 16.
And is semi-fixed by the microphone fixing portion 23.
The speaker 13 is built in the earphone housing 24, and the speaker cavity 26 formed by incorporating the speaker 13 is sealed. Then, the wiring fixing portion 25 is attached from the sealing portion.

Next, the operation of the first embodiment will be described. 1, 2, and 3, the cordless telephone device fixing portion 1
The voice of the other party is input through the telephone line 2. The input voice is input to the wireless transmission circuit 4 via the network control circuit 3, FM-modulated for a predetermined carrier frequency, and transmitted from the antenna 5. The control circuit 6 sets the transmission / reception frequencies of the wireless transmission circuit 4 and the wireless reception circuit 7 at this time. Antenna 5 on the cordless telephone mobile unit 8
A high frequency signal is transmitted from the antenna and received by the antenna 9. The received signal is converted into a voice signal by FM demodulation in the radio circuit 10, the voice signal is adjusted to a predetermined frequency characteristic and level in the reception circuit 11, and then the frequency characteristic is shifted through the active filter 19 to eliminate howling from the speaker 13. Reproduce. Next, the voice signal of the caller on the cordless telephone portable unit 8 side is input to the bone conduction microphone 16 and the frequency characteristic is shifted through the active filter 20,
The transmission circuit 17 amplifies the signal to a predetermined level, and the wireless transmission circuit 18 FM-modulates the carrier signal to transmit it from the antenna 9. In addition, the control circuit 15 in the cordless telephone portable unit 8
With respect to, the control of the reception of the wireless reception circuit 10 and the reception circuit 11 and the control of the transmission of the transmission circuit 17 and the wireless transmission circuit 18 are performed according to the key input to the operation unit 14.

Similarly, in the cordless telephone device fixing unit 1, the high frequency signal transmitted from the antenna 9 is transmitted to the antenna 5.
, And the wireless reception circuit 7 performs FM demodulation into an audio signal,
It is transmitted to the telephone line 2 via the network control circuit 3. This enables bidirectional simultaneous (demodulation) communication.

By the above operation, as shown in FIG. 4, the speaker 13 can have the frequency characteristic in which the high frequency band is suppressed, and the microphone 16 can have the frequency characteristic in which the low frequency band is suppressed. That is, since the frequencies are respectively shifted via the active filters 19 and 20, the sum of the frequency characteristics of the speaker 13 and the microphone 16 becomes uniform, the howling margin becomes constant, and howling is prevented.

Example 2. 2 and 6 are a circuit configuration diagram of a bone conduction earphone microphone cordless telephone device and a detailed diagram of an acoustic conversion circuit 12 showing another embodiment of the present invention.
Reference numeral 18 is exactly the same as the device of the first embodiment. Two
Reference numeral 9 is a microphone unit that does not pick up bone conduction sound but only sound from the speaker 13, 30 is a gain adjustment circuit that adjusts the gain of the signal picked up by the bone conduction microphone 16, and 31 is gain adjustment of the signal that is picked up by the microphone unit 29. A circuit, 32 is a subtraction circuit for subtracting the respective signals output from the gain adjustment circuits 30 and 31.

Next, the operation will be described. In FIG. 6, in order to keep the sum of the levels of the speaker and the microphone constant, only the bone conduction sound should be picked up by the bone conduction microphone 16, but the input signal should be not only the bone conduction sound but also the signal output from the speaker 13. As a result, wraparound will occur and howling will occur. Therefore, the microphone unit 29 is provided to pick up only the sound from the speaker and detect the frequency component output from the speaker 13. And this microphone unit 29
The signal picked up by is input to the gain adjustment circuit 31, and the signal of the bone conduction sound picked up by the bone conduction microphone 16 is input by the gain adjustment circuit 30.
Input to and adjust the gain. Then, by subtracting each in the subtraction circuit 32, the sound input to the transmission circuit 17 is canceled by the sound from the speaker, and only the bone conduction sound is input. Therefore, howling is prevented.

Example 3. 5 and 7 are a circuit configuration diagram of a bone conduction earphone / microphone cordless telephone device showing still another embodiment of the present invention and a detailed view of the acoustic conversion circuit 12 of FIG. 5, and 1 to 18 are of the first embodiment. It is exactly the same as the device. Reference numeral 33 is a vibration unit that generates only vibration, not sound, 34 is a phase inversion circuit that inverts the phase of the signal sent from the receiving circuit 11, 35 is a gain adjustment circuit that adjusts the gain of the output signal of the phase inversion circuit 34, 36 Is the receiving circuit 11
It is a gain adjustment circuit that adjusts the gain of the signal sent from.

Next, the operation will be described. In FIG. 7, since the bone conduction microphone 16 picks up only the bone conduction sound and outputs it to the transmitting circuit 17, the vibration of the speaker 13 is not picked up. In order to eliminate the vibration caused by the speaker 13, a vibration unit 33 that generates only vibration, not sound is provided. In this case, the phase inversion circuit 34 inverts the phase of the signal coming from the receiving circuit 11 to generate it from the vibration unit 33. At that time, the gain adjusting circuits 35 and 36 respectively adjust the signal from the receiving circuit 11 and the output signal from the phase inverting circuit 34 to be equal in the bone conduction microphone 16. As a result, the vibration signals generated by the speaker 13 and the vibration unit 33 cancel each other out, the sound output from the speaker 13 is not input to the bone conduction microphone 16, no howling is generated, and the bone conduction sound is not generated. Can only pick up.

Example 4. 5 and 8 are a circuit configuration diagram of a bone conduction earphone / microphone cordless telephone device and a detailed diagram of the acoustic conversion circuit 12 of FIG. 5, showing still another embodiment of the present invention. The apparatus 33 is the same as that of the apparatus No. 3, and 33 to 36 are the same as those in the third embodiment. Reference numeral 29 is a microphone unit for picking up only the sound from the speaker, and 37 is a control control for adjusting the detection value of the microphone unit 29.

Next, the operation will be described. In FIG. 8, the vibration unit 33 is provided, and the phase of the signal received from the reception circuit 11 is inverted by the phase inversion circuit 34 so that the vibration unit 33 generates it. At that time, the gain adjusting circuits 35 and 36 adjust the signal from the receiving circuit 11 and the output signal from the phase inverting circuit 34 to be equal in the bone conduction microphone 16. This allows the bone conduction microphone 16 to output only the bone conduction sound to the transmitting circuit 17. Up to this point, the procedure is the same as in the third embodiment. In the fourth embodiment, the value detected by the microphone unit 29 that picks up only the sound from the speaker 13 in the gain adjustment circuit 35 is
If the output level does not match the predetermined set value, adjustment is performed by the control control 37. As a result, the output of the speaker 13 and the vibration signal of the vibration unit 33 cancel each other out, and the sound output from the speaker 13 is not input to the bone conduction microphone 16, and howling does not occur. This is to prevent howling even if the binding conditions are changed.

[0022]

As described above, according to the present invention, since the microphone and the speaker are integrated with each other, hands-free communication is possible, and by using the active filter, howling due to wraparound can be prevented.

By providing a subtraction circuit and subtracting the signal of the bone conduction microphone and the signal of the speaker, howling can be prevented.

By providing the phase inverting circuit and the gain adjusting circuit, howling can be prevented by canceling out the received signal and the signal obtained by inverting the phase of the received signal.

[Brief description of drawings]

FIG. 1 is a circuit configuration diagram of a bone conduction earphone microphone cordless telephone device according to a first embodiment of the present invention.

FIG. 2 is a front view of the acoustic exchange circuit 12 of the bone conduction earphone / microphone cordless telephone device according to the first embodiment of the present invention.

FIG. 3 is a front view of the acoustic exchange circuit 12 of the bone conduction earphone microphone cordless telephone device according to the first embodiment of the present invention.

FIG. 4 is a frequency characteristic of a speaker and a microphone inside the bone conduction earphone / microphone cordless telephone device according to the first embodiment of the present invention.

FIG. 5 is a circuit configuration diagram of a bone conduction earphone microphone cordless telephone device according to Embodiments 2, 3, and 4 of the present invention.

FIG. 6 is a vertical cross-sectional view of the acoustic conversion circuit 12 of the bone conduction earphone microphone cordless telephone device according to the second embodiment of the present invention.

FIG. 7 is a vertical sectional view of an acoustic conversion circuit 12 of a bone conduction earphone microphone cordless telephone device according to a third embodiment of the present invention.

FIG. 8 is a vertical sectional view of an acoustic conversion circuit 12 of a bone conduction earphone microphone cordless telephone device according to a fourth embodiment of the present invention.

FIG. 9 is a vertical cross-sectional view showing a conventional cordless telephone device using bone conduction.

[Explanation of symbols]

 1 cordless telephone device fixed part 2 telephone line 3 network control circuit 4,18 wireless transmission circuit 5,9 antenna 6,15 control circuit 7,10 wireless reception circuit 8 cordless telephone device portable part 11 reception circuit 12 acoustic conversion circuit 13 speaker 14 Operation part 16 Bone conduction microphone 17 Transmitting circuit 19,20 Active filter 21 Buffer material 22 Microphone housing 23 Microphone fixing part 24 Earphone housing 25 Wiring fixing part 26 Speaker cavity 27 Sealing part 28 Sound path 29 Microphone unit 30, 31, 35, 36 Gain Adjustment Circuit 32 Subtraction Circuit 33 Vibration Unit 34 Phase Inversion Circuit 37 Control Control

[Procedure amendment]

[Submission date] November 12, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0016

[Correction method] Change

[Correction content]

Example 2. 5 and 6 are a circuit configuration diagram of a bone conduction earphone / microphone cordless telephone device showing another embodiment of the present invention and a detailed view of the acoustic conversion circuit 12 of FIG. It is exactly the same as the device. 29 is a microphone unit that does not pick up the bone conduction sound but only the sound from the speaker 13, 30 is a gain adjustment circuit for the signal picked up by the bone conduction microphone 16, 31 is a gain adjustment circuit for the signal picked up by the microphone unit 29, and 32 is It is a subtraction circuit that subtracts the respective signals output from the gain adjustment circuits 30 and 31.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0019

[Correction method] Change

[Correction content]

Next, the operation will be described. In FIG. 7, the bone conduction microphone 16 does not pick up the vibration of the speaker 13 but picks up only the bone conduction sound and outputs it to the transmission circuit 17. Therefore, in order to eliminate the vibration caused by the speaker 13, the vibration unit 33 that generates only vibration, not sound is provided. In this case, the phase inversion circuit 34 inverts the phase of the signal coming from the receiving circuit 11 to generate it from the vibration unit 33. At that time, the gain adjusting circuits 35 and 36 respectively adjust the signal from the receiving circuit 11 and the output signal from the phase inverting circuit 34 to be equal in the bone conduction microphone 16. As a result, the vibration signals generated by the speaker 13 and the vibration unit 33 cancel each other out.
The sound output from the speaker 13 is not input to the bone conduction microphone 16, no howling occurs, and only the bone conduction sound can be picked up.

[Procedure 3]

[Document name to be amended] Statement

[Name of item to be corrected] Figure 2

[Correction method] Change

[Correction content]

FIG. 2 is a vertical sectional view of the acoustic conversion circuit 12 of the bone conduction earphone microphone cordless telephone device according to the first embodiment of the present invention.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] Explanation of code

[Correction method] Change

[Correction content]

[Explanation of Codes] 1 cordless telephone device fixed part 2 telephone line 3 network control circuit 4,18 wireless transmission circuit 5,9 antenna 6,15 control circuit 7,10 wireless reception circuit 8 cordless telephone device portable part 11 reception circuit 12 acoustics Conversion circuit 13 Speaker 14 Operation part 16 Bone conduction microphone 17 Transmission circuit 19,20 Active filter 21 Buffer material 22 Microphone housing 23 Microphone fixing part 24 Earphone housing 25 Wiring fixing part 26 Speaker cavity 28 Sound path 29 Microphone unit 30, 31, 35, 36 Gain adjustment circuit 32 Subtraction circuit 33 Vibration unit 34 Phase inversion circuit 37 Control control

Claims (4)

[Claims] 1. A master unit connected to a telephone line, a slave unit connected to the master unit by a radio circuit, a bone conduction earphone microphone in which a bone conduction microphone and a speaker are integrated, a bone conduction microphone and a speaker. A cordless telephone device comprising an active filter for setting the peaks of the frequency characteristics of the above so as not to overlap each other. 2. A base unit connected to a telephone line, a slave unit connected to the base unit by a wireless circuit, and a bone conduction earphone microphone in which a bone conduction microphone and a speaker are integrated. A cordless telephone device characterized in that the bone conduction earphone microphone is provided with a microphone unit that picks up only sound from a speaker, and a subtraction circuit that subtracts signals of sounds picked up by the bone conduction microphone and the microphone unit, respectively. 3. A base unit connected to a telephone line, a slave unit connected to the base unit by a wireless circuit, and a bone conduction earphone microphone in which a bone conduction microphone and a speaker are integrated, A cordless telephone device characterized in that a vibration unit that generates only vibration is provided in the bone conduction earphone microphone, and a phase inversion circuit that inverts one phase of a signal as vibration generated by the speaker and the vibration unit is provided. . 4. The bone conduction earphone microphone is provided with a microphone unit for picking up only the sound from the speaker, and a control control for controlling the vibration unit according to the output level of the sound picked up by the microphone unit. Item 3
Cordless phone as described.