JPH0331302B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to sidetone balancing circuits in subscriber telephones.

The sidetone balancing circuit controls the amount of your own voice signal that you hear when you put the receiver to your ear, and this return signal is called sidetone. That is, the side-done balancing circuit feeds back the signal back to its natural state so that the speaker's voice does not become intrusive in order to maintain normal conversation (see Mostek Communication Elements Handbook). A conventional sidetone balancing circuit is shown in FIG. This sidetone balancing circuit is implemented as an integrated circuit. In Figure 1,
V _T is the current output of the transmitting amplifier, V _R is the input of the receiving amplifier, Ra and Rb are resistances, Z is external impedance, and Z _L is the impedance of the subscriber's telephone line. V _L is the signal side terminal, and GND is the ground side terminal. This conventional sidetone balancing circuit is a bridge type, and when the equation Rb x Z _L = Ra x Z holds true, the receiving amplifier input becomes zero and you cannot hear your own voice, but when this formula does not hold, I make sure my voice is heard. A case where this equation does not hold is when the impedance Z _L of the subscriber's telephone line is not constant depending on the partner station. By the way, if the degree to which this equation does not hold is too large, your own voice will become audible, and conversely, if this equation holds true, you will not be able to hear your own voice. However, there is a problem in that it is very difficult to maintain a balance so that one's own voice can always be heard at a constant level because the impedance Z _L of the subscriber's telephone line varies.

The present invention makes it possible to cancel the amount of signal of one's own voice, that is, to prevent one's own voice signal from being heard as a sidetone on the handset side when transmitting a voice, while also reducing the influence of canceling the voice signal. The purpose of the present invention is to make it possible to clearly hear the reception signal without receiving the signal, and as a result, to make it possible to send and receive calls smoothly.

Hereinafter, the present invention will be explained in detail based on the embodiment shown in FIG.

FIG. 2 is a circuit diagram of this embodiment. The sidetone balancing circuit of this embodiment has a portion constituted by an integrated circuit IC as surrounded by a broken line.
This sidetone balancing circuit includes a transmitting amplifier _A1 and a receiving amplifier _A2 . Transmitting amplifier A ₁
The output from the telephone's microphone M is connected to the terminal.
Given via TIN. The transmitting amplifier _A1 outputs the output in response to the output of the microphone M to a constant current power supply G.
It is designed to drive this by giving. In response to the output of the constant current power supply G, the first
-Sixth transistors _TR1 to _TR6 are operated. Here, the output of the fifth transistor _TR5 and the sixth transistor
The output of the transistor _TR6 is in an opposite phase relationship with respect to the output of the transistor TR6. In this way, the output of the transmitting amplifier A ₁ is given to the line terminal VL of the integrated circuit IC via the fifth transistor TR ₅ , and the internal impedance Z _I of the integrated circuit IC and the impedance Z _L of the subscriber telephone line are reduced to its load. It is said that Furthermore, the first DC cut capacitor is connected to this line terminal VL via an impedance _ZC for frequency characteristic adjustment.
C ₁ and the first gain adjustment resistor R ₁
is given to circuit A. In addition, the output of the transmitting amplifier _A1 is connected to the integrated circuit through the sixth transistor _TR6 .
The signal is applied to a terminal ST of the IC, and is further applied via this terminal ST to a second circuit B comprising a second DC cut capacitor _C2 and a second gain adjustment resistor _R2 . The outputs of the first and second circuits A and B are summed at addition point C, and then returned to the terminal RIN of the integrated circuit IC.
is applied to the negative phase side input section of the receiving amplifier _A2 . However, since the outputs of the first and second circuits A and B are in an antiphase relationship with each other, the above-mentioned addition reduces the output level and applies it to the receiving amplifier _A2 . In other words, the voice of the speaker is heard as a sidetone from the speaker connected to the output side of the receiving amplifier _A2 , but the magnitude of the sidetone is determined by the first and second circuits _A1 ,
The outputs of A ₂ are in antiphase with each other, which lowers the level and prevents it from becoming too loud. Further, the magnitude of sidetone is given by the following equation.

V _OUT = V ₁ (1/ZC + R ₁ −α/R ₂ ) R _f However, V ₂ = −αV ₁ Here, V _OUT is the output of the receiver amplifier A ₂ , and V ₁ is the output of the first circuit A ₁ . , V ₂ is the output of the second circuit B,
α is a constant, Z _C is an impedance for frequency characteristic adjustment, R ₁ and R ₂ are the resistance values of the resistors R ₁ and R ₂ , and R _f is the return resistance value of the receiving amplifier A ₂ . As is clear from this equation, the output V _OUT of receiving amplifier A ₂ during transmitting is:
The value becomes smaller by the value of the second term on the right-hand side, and the output V _OUT of the receiver amplifier A ₂ when receiving a call increases because the value of the second term on the right-hand side becomes zero.

Note that in this embodiment, the first and second resistors
If R ₁ and R ₂ are variable resistors, the magnitude of sidetone can be set freely.

As described above, according to the present invention, one circuit A receives the transmission signal from the microphone M, which is one phase.
Give vo and the reception signal vi from the line terminal VL,
The second circuit B is given only the sending signal vs from the terminal ST which is the other phase, and the first circuit A is connected to the receiving amplifier A2 after adjusting the gain of the sending signal vo and the receiving signal vi. In the second circuit B, the transmitting signal vs is gain adjusted (vs=
(R1/R2) x vo) and then commonly applied to the input side of receiver amplifier A2 and added, the outputs of both the first and second circuits A and B are sent to receiver amplifier A2 with only the transmit signal. As a result, the transmitting signal as a sidetone can be almost completely canceled by canceling the transmitting signal vo and giving only the receiving signal vi. Because it is given to the other party through
There is no inconvenience, and since the level of the receiving signal vi of the other party is not reduced in any way by canceling the sending signal, smooth transmission and reception can be achieved.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a conventional example, and FIG. 2 is a circuit diagram of an embodiment of the present invention. A ₁ ...Tx amplifier, A ₂ ...Receive amplifier, A...
...first circuit, B...second circuit.

Claims (1)

[Claims] 1. A transmitting amplifier A1, a receiving amplifier A2, transistor circuits TR1 to TR6, and a first circuit A.
The transistor circuits TR1 to TR6 have one phase output to the line terminal VL and the opposite phase output to the terminal ST, corresponding to the amplified output of the transmitting amplifier A1. The first circuit A is provided between the line terminal VL and the input side of the receiver amplifier A2, and has a gain adjustment resistor. The second circuit B is provided between the terminal ST and the input side of the receiver amplifier A2, and has a gain adjustment resistor R2. A sidetone balancing circuit in a subscriber telephone set.