JP3545596B2 - Loudspeaker intercom system - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a loudspeaker-type intercom apparatus, and more particularly to a loudspeaker-type intercom apparatus having a wider frequency band for speech.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in an intercom apparatus for performing a call between a slave unit installed at an entrance or the like and a master unit provided indoors, a speaker is separately provided in addition to the handset in the master unit, and the slave unit is not taken up. There has been proposed a loudspeaker-type intercom apparatus called a hands-free speakerphone capable of emitting sound transmitted from a speaker provided separately from a speaker.
[0003]
As shown in FIG. 3, the loudspeaker intercom apparatus includes a master unit M51 and a slave unit T51 connected by a line L51.
Master device M51 includes speaker M61 and microphone M62, and speaker M61 and microphone M62 are connected to echo canceller M65 via amplifiers M63 and M64, respectively. The echo canceller M65 is particularly necessary to enable a hands-free call so that the sound input to the microphone M62 of the own station is not emitted from the speaker M61 of the own station, and is used to prevent so-called acoustic echo. This is to add an acoustic echo removal signal to the audio input signal S101 input to the microphone M62. The echo canceller M65 is connected to the codec M66 connected to the line L51. The codec M66 converts the audio input signal S101 of the analog signal input to the microphone M62 into an audio transmission signal S102 of a digital signal and sends it to the slave unit T51 via the line L51, and from the slave unit T51 via the line L51. This is to convert the transmitted digital signal audio transmission signal S202 into an analog signal audio output signal S203.
[0004]
The slave unit T51 has the same configuration as the master unit M51 described above, and includes a speaker T61 and a microphone T62. The speaker T61 and the microphone T62 are connected to the echo canceller T65 via the amplifiers T63 and T64 respectively connected thereto. The echo canceller T65 is connected to the microphone T62 to prevent acoustic echo, similarly to the echo canceller M65 of the master unit M51, so that the sound input to the microphone T62 of the own station is not emitted from the speaker T61 of the own station. This is to add an acoustic echo removal signal to the input audio input signal S201. The echo canceller T65 is connected to the codec T66 connected to the line L51. The codec T66 converts the audio input signal S201 of the analog signal input to the microphone T62 into an audio transmission signal S202 of a digital signal and sends the digital audio transmission signal S202 to the master unit M51 via a line L51, and from the master unit M51 via a line L51. It converts the transmitted digital signal audio transmission signal S102 into an analog signal audio output signal S103.
[0005]
Bidirectional hands-free communication (communication) in such a loudspeaker-type intercom apparatus is performed as follows.
The audio input signal S101 input to the microphone M62 of the master unit M51 is amplified by the amplifier M64, and the acoustic echo canceling signal is added by the echo canceller M65, so that the acoustic echo component due to the sound emission from the speaker M61 is reduced. It is rejected and sent to codec M66. The audio input signal S101 input to the codec M66 is A / D converted to a digital audio transmission signal S102, and transmitted to the slave unit T51 via the line L51. The audio transmission signal S102 transmitted to the slave unit T51 is D / A converted by the codec T66, amplified by the amplifier T63 via the echo canceller T65, and emitted from the speaker T61 as an audio output signal S103.
[0006]
On the other hand, the audio input signal S201 input to the microphone T62 of the slave unit T51 is amplified by the amplifier T64, and the acoustic echo canceling signal is added by the echo canceller T65. The components are eliminated and sent to codec T66. The audio input signal S201 input to the codec T66 is A / D converted to an audio transmission signal S202 of a digital signal, and is transmitted to the parent device M51 via a line L51. The audio transmission signal S202 transmitted to the master unit M51 is D / A converted by the codec M66, amplified by the amplifier M63 via the echo canceller M65, and emitted from the speaker M61 as the audio output signal S203. A two-way hands-free call (communication) has been established between the parent device M51 and the child device T51 via the line L51.
[0007]
[Problems to be solved by the invention]
However, in the conventional loudspeaker-type intercom apparatus, since the voice band in which a call can be made depends on the frequency band in which each of the echo cancellers M65 and T65 of the master unit M51 and the slave unit T51 operate, each of the echo cancellers M65 and T65 is When operating in the telephone band, there is a problem that the voice band in which voice signals can be transmitted and received is limited to the telephone band.
[0008]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and has a loudspeaker interphone capable of transmitting and receiving voice (voice signal) in a frequency band higher than the telephone band, even if the system includes an echo canceller operating in the telephone band. It is intended to provide a device.
[0009]
[Means for Solving the Problems]
In order to achieve such an object, a loudspeaker intercom apparatus according to the present invention is a loudspeaker intercom apparatus in which a master unit and a slave unit are connected by a line, and the master unit and the slave unit are connected to a predetermined line connected to a line. A first bandpass filter that passes a band, a second bandpass filter that passes a frequency band higher than a predetermined band, and an echo canceller to which an output from the first bandpass filter is input. A microphone is connected to the input side of the echo canceller, a first speaker is connected to the output side of the echo canceller, and a second speaker is connected to the output side of the second bandpass filter.
[0010]
Further, the loudspeaker intercom apparatus according to the present invention is a loudspeaker intercom apparatus in which a master unit and a slave unit are connected by a line, wherein the master unit and the slave unit are connected to a codec connected to the line and an output side of the codec. A first band-pass filter that passes the set telephone band, a second band-pass filter that passes a frequency band higher than the telephone band, an echo canceller to which an output from the first band-pass filter is input, An audio switch to which an output from the second band-pass filter is input, a microphone connected to the input side of the echo canceller, a first speaker connected to the output side of the echo canceller, and an output side of the audio switch Is connected to a second speaker.
[0011]
The microphone is connected to each input side of a third bandpass filter that passes a predetermined band and a fourth bandpass filter that passes a frequency band higher than the predetermined band. The output side of the filter is connected to the echo canceller, and the output side of the echo canceller and the output side of the fourth band pass filter are connected to the mixer.
[0012]
According to such a loudspeaker-type intercom apparatus, of the audio signals transmitted between the parent device and the child device via the line, the audio signal in the telephone band passes through the first and third bandpass filters and the echo canceller. Sound is emitted from the first speaker, and audio signals of frequencies higher than the telephone band are controlled by an audio switch via second and fourth band-pass filters, respectively, from the separately provided second speakers. By emitting sound, not only audio signals in the telephone band limited by the echo canceller but also audio signals in higher frequency bands can be transmitted and received, and audio signals in the telephone band are higher than full-duplex communication and higher than the telephone band. The audio signal of the frequency range can be a half-duplex communication.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a preferred embodiment of a loudspeaker-type intercom apparatus according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the loudspeaker-type intercom apparatus includes a master unit M1 and a slave unit T1 connected by a line L1.
[0014]
The master unit M1 includes a microphone M12 and a first speaker M11. The microphone M12 is on the input side via an amplifier M14 and a third bandpass filter M23, and the first speaker M11 is on the output side via an amplifier M13. An echo canceller M15 to be connected is provided. Further, the third band-pass filter M23 transmits only the signal component of the frequency of the telephone band shown in FIG. 2 out of the audio input signal S1 input to the microphone M12, and transmits the signal as the audio signal S11.
[0015]
The echo canceller M15 is particularly necessary to enable a hands-free call so that the voice input signal S1 input to the microphone M12 is not emitted from the speaker M11 of the own station, and is used to prevent so-called acoustic echo. This is to add an acoustic echo removal signal to the audio signal S11 through the third bandpass filter M23. On the output side of the echo canceller M15, a codec M16 connected to the line L1 via a mixer M25 described later is provided. Further, a fourth bandpass filter M24 whose input side is connected to the microphone M12 is connected to the mixer M25, and the fourth bandpass filter M24 includes, among the audio input signals S1 input to the microphone M12 described above, The mixer M25 transmits only a signal component having a frequency higher than the telephone band shown in FIG. 2 and transmits it as an audio signal S12. The mixer M25 transmits the audio signal S11 via the echo canceller M15 and the fourth band-pass filter M24. The mixed audio signal S12 is transmitted to the codec M16 as an audio mixed signal S13.
[0016]
The codec M16 converts the audio mixed signal S13 sent from the mixer M25 into a digital audio transmission signal S14 by A / D conversion, transmits the digital audio transmission signal S14 to the slave unit T1 via the line L1, and transmits the digital audio signal to the slave unit T1 via the line L1 described later. The digital audio transmission signal S24 transmitted from the device T1 is D / A converted into an analog audio transmission signal S25 and transmitted. The codec M16 is connected to the line L1, and the output side thereof is connected to the input sides of the first band-pass filter M21 and the second band-pass filter M22.
[0017]
A first band-pass filter M21 whose output side is connected to the input side of the echo canceller M15 is a signal of a frequency in the telephone band shown in FIG. 2 among the voice transmission signals S25 that are D / A converted and transmitted by the codec M16. Only the component is passed and transmitted as an audio output signal S26, and sound is emitted from the first speaker M11 via an amplifier M13 connected to the output side of the echo canceller M15. A second band-pass filter M22 to which an audio switch M19 is connected on the output side has a higher frequency band than the telephone band shown in FIG. 2 among the audio transmission signals S25 that are D / A converted and transmitted by the codec M16. The second speaker is a second speaker that emits the audio output signal S27 through an amplifier T18 connected to the output side of the audio switch M19, passing only the signal component of the frequency and transmitting the audio output signal S27. Speaker M17 is connected. Further, the above-mentioned voice switch M19 is a background noise monitor including an attainer, a level detector, a control algorithm, an amplifier, etc., and filters a voice signal of a frequency higher than a telephone band, for example, a 60 Hz noise of a receiving channel. It is possible to eliminate the output of the audio input signal S1 input to the microphone M12 of the own station and to enable half-duplex communication by incorporating a two-wire drive amplifier .
The slave unit T1 has the same configuration as the master unit M1 described above, and includes a microphone T12 and a first speaker T11. The microphone T12 is connected to an input side via an amplifier T14 and a third band-pass filter T23, An echo canceller T15 is provided in which the speaker T11 is connected to the output side via an amplifier T13. Further, the third bandpass filter T23 passes only the signal component of the frequency in the telephone band shown in FIG. 2 out of the audio input signal S2 input to the microphone T12, and transmits the signal as the audio signal S21.
[0018]
The echo canceller T15 is particularly necessary to enable a hands-free call so that the voice input signal S2 input to the microphone T12 is not emitted from the speaker T11 of the own station, and is used to prevent so-called acoustic echo. An acoustic echo removal signal is added to the audio signal S21 through the third bandpass filter T23. On the output side of the echo canceller T15, a codec T16 connected to the line L1 via a mixer T25 described later is provided. In addition, a fourth bandpass filter T24 whose input side is connected to the microphone T12 is connected to the mixer T25, and the fourth bandpass filter T24 is included in the audio input signal S2 input to the microphone T12. Only a signal component having a frequency higher than the telephone band shown in FIG. 2 is passed and transmitted as an audio signal S22. Further, the mixer T25 mixes the audio signal S21 passed through the echo canceller T15 and the audio signal S22 passed through the fourth bandpass filter T24, and sends out the mixed audio signal S23 to the codec T16.
[0019]
The codec T16 converts the audio mixed signal S23 sent from the mixer T25 into a digital audio transmission signal S24 by A / D conversion, transmits the digital audio transmission signal S24 to the parent device M1 via the line L1, and transmits the digital signal to the parent device M1 via the line L1. The digital audio transmission signal S14 transmitted from the apparatus M1 is D / A converted into an analog audio transmission signal S15 and transmitted. The codec T16 is connected to the line L1, and the output side thereof is connected to the input sides of the first bandpass filter T21 and the second bandpass filter T22.
[0020]
The first band-pass filter T21, to which the input side of the echo canceller T15 is connected to the output side, is a signal of a frequency in the telephone band shown in FIG. Only the component is passed, transmitted as an audio signal S16, and emitted from the first speaker T11 via an amplifier T13 connected to the output side of the echo canceller T15. The second bandpass filter T22, to which the voice switch T19 is connected on the output side, is used to output a voice transmission signal S15 that is D / A converted by the codec T16 and transmitted out of the telephone band shown in FIG. The second speaker is a second speaker that emits the audio output signal S17 through an amplifier T18 connected to the output side of the audio switch T19, passing only the signal component of the frequency and transmitting the audio output signal S17. Speaker T17 is connected. Further, the above-described voice switch T19 is a background noise monitor including an attenuator, a level detector, a control algorithm, an amplifier, and the like, and filters a voice signal of a frequency higher than a telephone band, for example, a 60 Hz noise of a reception channel. It can eliminate the output of the audio input signal S2 input to the microphone T12 of its own station, and can perform half-duplex communication by incorporating a two-wire drive amplifier .
In the loudspeaker intercom apparatus having such a configuration, a bidirectional hands-free call (communication) between the master unit M1 and the slave unit T1 via the line L1 will be described below.
[0021]
When the audio input signal S1 is input to the microphone M12 of the master unit M1, it is amplified by the amplifier M14 and is input to the third band-pass filter M23 and the fourth band-pass filter M24, respectively. The third band-pass filter M23 passes only the signal component of the frequency in the telephone band out of the input voice input signal S1, and sends it out to the echo canceller M15 as the voice signal S11. The audio signal S11 is added with an acoustic echo removal signal by an echo canceller M15, and is transmitted to a mixer M25. In addition, the fourth band-pass filter M24 passes only the signal component of a frequency higher than the telephone band in the input audio input signal S1, and sends the signal to the mixer M25 as the audio output signal S12.
[0022]
The mixer M25 mixes the input audio signals S11 and S12, and sends out the mixed audio signal S13 to the codec M16. The audio mixed signal S13 is A / D converted by the codec M16, transmitted as a digital signal audio transmission signal S14 to the slave unit T1 via the line L1, and D / A converted by the codec T16 to transmit an analog signal audio. The signal S15 is input to the first band-pass filter T21 and the second band-pass filter T22.
[0023]
The first band-pass filter T21 passes only the signal component of the frequency in the telephone band out of the input voice transmission signal S15 and sends out the same as the voice output signal S16. This audio output signal S16 is amplified by the amplifier T13 via the echo canceller T15, and is emitted from the first speaker T11. Further, the second band-pass filter T22 passes only a signal component of a frequency higher than the telephone band out of the input voice transmission signal S15 and transmits the signal as a voice output signal S17. The audio output signal S17 is input to the audio switch T19, whereby the audio switch T19 is turned on, amplified by the amplifier T18, and a sound in a higher frequency band than the audio output signal S16 is emitted from the ceramic speaker T17. You.
[0024]
On the other hand, when the audio input signal S2 is input to the microphone T12 of the slave unit T1, it is amplified by the amplifier T14 and is input to the third band-pass filter T23 and the fourth band-pass filter T24, respectively. The third band-pass filter T23 passes only the signal component of the frequency in the telephone band out of the input audio input signal S2, and sends it out to the echo canceller T15 as the audio signal S21. This audio signal S21 is added with an acoustic echo removal signal by an echo canceller T15, and transmitted to a mixer T25. Further, the fourth band-pass filter T24 allows only the signal component of the frequency higher than the telephone band in the input audio input signal S2 to pass and sends it to the mixer T25 as the audio signal S22.
[0025]
The mixer T25 mixes the input audio signals S21 and S22 and sends out the mixed audio signal S23 to the codec T16. The audio mixed signal S23 is A / D converted by the codec T16, transmitted as a digital signal audio transmission signal S24 to the master unit M1 via the line L1, D / A converted by the codec M16, and transmitted as an analog signal. The signal is input to the first band-pass filter M21 and the second band-pass filter M22 as a signal S25.
[0026]
The first band-pass filter M21 passes only the signal component of the frequency in the telephone band out of the input voice transmission signal S25, and transmits the signal as a voice output signal S26. This audio output signal S26 is amplified by the amplifier M13 via the echo canceller M15, and is emitted from the first speaker M11. Further, the second band-pass filter M22 transmits only a signal component having a frequency higher than the telephone band in the input voice transmission signal S25 and transmits the signal as a voice output signal S27. The audio output signal S27 is input to the audio switch M19, whereby the audio switch M19 is turned on, amplified by the amplifier M18, and a sound in a higher frequency band than the audio output signal S26 is emitted from the ceramic speaker M17. You.
[0027]
As described above, by controlling an audio signal of a frequency higher than the telephone band to be emitted from a separately provided speaker by controlling the audio switch, the audio signal is limited to the telephone band limited by the echo canceller. Instead, it is possible to transmit and receive audio signals of a high frequency range. In addition, voice signals in the telephone band can perform full-duplex communication, and voice signals in frequencies higher than the telephone band can perform half-duplex communication.
[0028]
Further, as another embodiment of the loudspeaker intercom apparatus of the present application, the line L1 is transmitted and input by the second band-pass filters M22 and T22 without providing the audio switches M19 and T19 in the parent device M1 and the child device T1. The same effect as in the above embodiment can be obtained by selecting an audio signal having a frequency higher than the telephone band among the audio signals and outputting the sound from the ceramic speakers M17 and T17 as the second speakers.
[0029]
In the above embodiment, a digital intercom apparatus using a codec has been described. However, the present invention is not limited to this, and can be applied to an analog intercom apparatus using a hybrid circuit, and the second speaker is a ceramic speaker. The present invention is not limited to this, and the audio switch is not limited to this, and other control methods can be applied.
[0030]
【The invention's effect】
As is apparent from the above description, according to the loudspeaker intercom apparatus of the present invention, of the audio signals transmitted and received between the parent device and the child device via the line, the audio signals in the telephone band are the first and second audio signals. And a sound signal of a frequency higher than the telephone band is controlled by a sound switch through second and fourth band pass filters. In addition to the above configuration, the second speaker is separately provided, so that not only the audio signal in the telephone band limited by the echo canceller but also the audio signal in a higher frequency band can be transmitted and received. Audio signals in the band can perform full-duplex communication, and audio signals in frequencies higher than the telephone band can perform half-duplex communication.
[Brief description of the drawings]
FIG. 1 is a block diagram showing one embodiment of a loudspeaker-type intercom apparatus according to the present invention.
FIG. 2 is an explanatory diagram showing the operation of the loudspeaker-type intercom apparatus according to the present invention.
FIG. 3 is a block diagram showing a conventional loudspeaker-type intercom apparatus.
[Explanation of symbols]
........ , T17 ... second speaker, T19 ... voice switch, T21 ... first bandpass filter, T22 ... second bandpass filter, T23 ... ... Third bandpass filter, T24... Fourth bandpass filter, T25.

Claims (3)

A loudspeaker-type intercom apparatus in which a master unit (M1) and a slave unit (T1) are connected by a line (L1),
The master unit and the slave unit include a first band-pass filter (M21, T21) that passes a predetermined band connected to the line and a second band-pass filter that passes a frequency band higher than the predetermined band. A filter (M22, T22) and an echo canceller (M15, T15) to which an output from the first band-pass filter is input, respectively.
A microphone (M12, T12) is connected to the input side of the echo canceller, and a first speaker (M11, T11) is connected to the output side of the echo canceller;
A loudspeaker-type intercom device, wherein a second speaker (M17, T17) is connected to an output side of the second bandpass filter. A loudspeaker-type intercom apparatus in which a master unit (M1) and a slave unit (T1) are connected by a line (L1),
The master unit and the slave unit include a codec (M16, T16) connected to the line, a first bandpass filter (M21, T21) for passing a telephone band connected to the output side of the codec, and a telephone band. A second band-pass filter (M22, T22) for passing a higher frequency band; an echo canceller (M15, T15) to which an output from the first band-pass filter is input; Voice switches (M19, T19) to which the output from the pass filter is input, respectively.
A microphone (M12, T12) is connected to the input side of the echo canceller, and a first speaker (M11, T11) is connected to the output side of the echo canceller;
A loudspeaker-type intercom apparatus, wherein a second speaker (M17, T17) is connected to an output side of the voice switch. The microphone is provided on each input side of a third bandpass filter (M23, T23) for passing a predetermined band and a fourth bandpass filter (M24, T24) for passing a frequency band higher than the predetermined band. Connected, the output side of the third bandpass filter is connected to the echo canceller, and the output side of the echo canceller and the output side of the fourth bandpass filter are connected to a mixer (M25, T25). The loudspeaker-type intercom apparatus according to claim 1 or 2, wherein:

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