JPH0750904B2 - Power consumption and transmission output circuit in telephone - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial field of application> The present invention is directed to a transmitter by keeping a DC voltage component between a circuit line and a transmitter output terminal constant irrespective of a change in current flowing through the circuit. The present invention relates to a power consumption / speech output circuit in a telephone, which has a constant output dynamic range and does not increase power consumption particularly when integrated into a circuit.

<Prior art> The power consumption circuit and the transmission output circuit in the conventional telephone are
It has a structure as shown in FIG.

(L1) and (L2) are input / output terminals connected to the telephone line, (1) is a bridge circuit, (2) is a dial circuit,
(2a) is a push-button dial, (3) is a speech circuit, and its line (VL) is connected to the receiving circuit (3b) via the impedance circuit (ZB).

The output terminal of the transmitting circuit (3a) is connected to the line (VL),
A resistor (R2) is connected between the antiphase output terminal (T0) of the transmitter circuit (3a) and the ground.

A resistor (R1) is connected between the terminal (T0) and the input terminal of the receiving circuit (3b).

Reference numeral (5) is a handset, and a microphone (5a) and a receiver (5b) of the handset are connected to the transmitter circuit (3a) and the receiver circuit (3b), respectively. The line (VL) is grounded via the power consuming circuit (6) and the power consuming resistor (RL).

In the drawing, (7) is a constant voltage circuit, and (8) is a mute logic circuit.

<Problems to be Solved by the Invention> In the above configuration, in Japan, the line current of the telephone line is usually 30 to 90 mA, so the DC voltage (VL ') of the line (VL) is the connection point. The DC voltage (VT0) of (T0) changes as shown by the dotted line in Fig. 3, and the DC voltage component (VL'-VT0) between the line (VL) and the connection point (T0) is the line current ( (IL) changes in proportion to the change.

Therefore, as the line current increases, the transmitter circuit (3
a), the power consumption of the reception circuit (3b) and the power consumption circuit (6) increases. Therefore, when the communication circuit (3) including these circuits is integrated into an IC, the power consumption easily exceeds the allowable power loss of the IC and leads to the destruction of the IC, which makes it difficult to form the IC.

In addition, since the power consumption increases as the line current increases, a large current flows through the transmitter circuit (3a) and the power consumption circuit (6). Therefore, a power consumption transistor and an output transistor with a large allowable power loss must be used. I have to.

Further, in the region where the line current is small, the DC voltage component (VL'-VT0) between the line (VL) and the connection point (T0) becomes smaller in proportion to this line current, so that the transmission circuit (3a) sends the signal. There is a problem that the dynamic range of speech output becomes smaller.

Therefore, in order to solve the above-mentioned conventional problems, the present invention makes the dynamic range of the transmission output constant by setting the DC voltage component between the transmission line and the transmission output terminal constant, and particularly It is an object of the present invention to provide a power consumption / speech output circuit in a telephone that does not increase power consumption when integrated into a circuit.

<Means for Solving the Problem> The structure of the present invention for achieving this object will be described with reference to FIG. 1 corresponding to an embodiment. The present invention is connected to a circuit line (VL), A power consumption / speech output circuit (9) for transmitting a speech output to the circuit line (VL), and a power consumption / speech output circuit (9) connected to the line (VL) and this line (VL). ) Voltage detection circuit (10) for detecting a DC voltage component between the connection point (T0), an amplification circuit (12) for amplifying the output of the transmitter (11), and this amplification circuit (12). An adder circuit (13) for adding the output and the detection output of the voltage detection circuit (10), a voltage comparison circuit (14) for comparing the addition output of the adder circuit (13) with a reference voltage (Es), and The output voltage of the power consumption / transmitting output circuit (9) is controlled so as to be inversely proportional to the voltage comparison output of the voltage comparison circuit (14). By controlling, the DC voltage component between the line (VL) and the connection point (T0) is made constant regardless of the change of the line current (IL).

<Operation> A DC voltage component between the line (VL) and the connection point (T0) of the power consumption / speech output circuit (9) connected to this line (VL) is detected, and this DC voltage component is detected. And the transmission output of the transmitter (11) are added by the addition circuit (13). This addition output is the DC voltage component superposed with the transmission output.

This added output and the reference voltage (Es) are the voltage comparison circuit (14).
Compared by. Therefore, this comparison output is a superposition of the transmission output on the DC voltage component of the difference between the DC voltage component and the reference voltage (Es).

Since the power consumption / speech output circuit (9) is driven by this comparison output, the DC voltage component (the line path (VL) and the connection point (T0) at both ends of the power consumption / speech output circuit (9) is driven. The DC voltage component between) and) changes in inverse proportion to the comparison output. That is, the line (VL) and the connection point (T
The DC voltage component between 0) and 0) is kept constant regardless of the change of the line current (IL).

<Embodiment> A typical embodiment of the present invention will be described below with reference to FIGS.

FIG. 1 is a block diagram showing the basic configuration of the present invention, and FIG. 2 is a diagram showing a concrete circuit example thereof.

(9) is a power consumption / speech output circuit that is connected to the line (VL) and sends the transmission output to this line (VL), and its connection point (T0) is through a DC resistance (RL). Grounded. This power consumption / speech output circuit (9) includes an output transistor (Q1) connected between the line (VL) and the connection point (T0) and this output transistor (Q1) as shown in FIG. ) Driving transistor (Q2), and the voltage between the emitter and collector of the output transistor (Q1) changes in inverse proportion to the input signal input to the base of this driving transistor (Q2). To be done.

Between the line (VL) and the connection point (T0), a DC voltage component between the line (VL) and the connection point (T0), that is, both ends of the power consumption / speech output circuit (9). A voltage detection circuit (10) for detecting the DC voltage component of is connected. This voltage detection circuit (10) consists of a pair of transistors (Q3a), (Q3b)
It is composed of a current mirror circuit consisting of a transistor (Q3a) and a pair of transistors (Q3a) and (Q3b). ) To the connection point (T0) and the other transistor (Q3
The collector of b) is grounded through a resistor (Rb) and the collector of the one transistor (Q3a) is connected to the line (V
L) -To obtain a collector current (Ia) proportional to the DC voltage component between the connection point (T0), and to obtain the same collector current (Ib) as the collector current (Ia) in the collector of the other transistor (Q3b). Thus, a voltage proportional to the DC voltage component between the line (VL) and the connection point (T0) is obtained across the resistor (Rb).

Even if the AC component is superimposed on the current (Ia), the AC component is bypassed by the capacitor connected between the terminal (CL) and the line (VL), so the current (Ib) is the current (Ia). Only the DC component of is extracted.

That is, the voltage of the line (VL) is VL and the voltage of the terminal (T0) is V
If T0, Ia = [(VL-VT0) -VBE] / Ra Ia = Ib, where VBE: base-emitter voltage of the transistor (Q3a).

Therefore, the voltage V across the resistor (Rb) becomes V = Ib.Rb = Ia.Rb = (Rb / Ra). [(VL-VT0) -VBE], which is the above-mentioned line (VL) -connection. The voltage is proportional to the DC voltage component between points (T0).

This collector current (Ib) and the output of the transmitter output of the transmitter (11) amplified by the amplifier circuit (12) adder circuit (13)
Add by This addition output is the DC voltage component superposed with the transmission output.

Then, the added output and the reference voltage (Es) are compared by the voltage comparison circuit (14), and the comparison output outputs the transmission output to the DC voltage component of the difference between the DC voltage component and the reference voltage (Es). It will be a superposition. The voltage comparison circuit (14) is composed of a pair of transistors (Q4a) and (Q4b) by a differential amplifier circuit, and the comparison output is output via the current mirror circuit (14a).

This comparison output is input to the drive transistor (Q2) of the transmission output amplifier circuit (9), and the voltage between the emitter and collector of the output transistor (Q1) is changed in inverse proportion to this input, and the line path is changed. Make the DC voltage component between (VL) connection point (T0) constant.

Therefore, the DC voltage VL of the line (VL) changes as shown by the solid line in FIG. 3 with respect to the DC voltage (VT0) of the connection point (T0), and the line (VL) -connection point (T0) The direct-current voltage component (VL-VT0) between them holds a constant voltage with respect to changes in the line current.

Although the examples considered to be typical of the present invention have been described above, the present invention is not necessarily limited to only the configurations of these examples, and includes the constituent features referred to in the present invention and referred to in the present invention. The invention can be carried out by appropriately modifying it within a range that achieves the object and has the following effects.

<Effects of the Invention> As is apparent from the above description, the present invention is directed to the DC voltage component (VL-VT) between the line (VL) and the connection point (T0).
0) is held at a constant voltage with respect to changes in line current,
Even if the line current increases, the power consumption of the circuit portion including the power consumption / speech output circuit (9) is kept constant, and the power consumption does not increase unlike the conventional case. When the circuit part including the circuit (9) is made into an IC, the power consumption can be made equal to or less than the allowable power loss of the IC, which is extremely advantageous for making the IC. Also, the power consumption / speech output circuit (9) Since both functions of the conventional transmitting circuit and the power consuming circuit are realized, that is, the transmitting circuit and the power consuming circuit (6) share the power consuming transistor and the output transistor with large allowable power loss, the semiconductor device Can be reduced and the cost can be reduced.

Furthermore, even in the area where the line current is small,
Since the DC voltage component (VL-VT0) between the (L) -connection point (T0) is kept constant, a large dynamic range of the transmission output can be obtained.

Furthermore, there is a remarkable practical effect that the DC resistance value of the transmission output circuit can be easily changed by the resistance (RL).

[Brief description of drawings]

FIG. 1 is a block diagram showing the basic configuration of a typical embodiment of a transmission output circuit in a telephone of the present invention, FIG. 2 is a diagram showing the same concrete circuit example, and FIG. 3 is the same line current. (IL)
FIG. 4 is a block diagram showing the configuration of a transmission output circuit in a conventional telephone, showing a change in DC voltage (V). In the figure, (9) is a power consumption / speech output circuit, (10) is a voltage detection circuit, (11) is a transmitter, (12) is an amplification circuit, (13) is an addition circuit, and (14) is a voltage comparison circuit. Circuit, (VL) is the circuit,
(T0) is the connection point.

Claims (1)

[Claims] 1. A circuit line (VL) connected to this circuit line (V
A power consumption / speech output amplifier circuit (9) for sending a speech output to L), a power consumption / speech output circuit (9) connected to the above line (VL) and this line (VL) A voltage detection circuit (10) that detects a DC voltage component between the power consumption resistance (RL) and the connection point (T0), an amplification circuit (12) that amplifies the output of the transmitter (11), and An adder circuit (13) that adds the output of the amplifier circuit (12) and the detected output of the voltage detection circuit (10), and a voltage comparison that compares the added output of this adder circuit (13) with the reference voltage (Es). And a circuit (14) for controlling the output voltage of the power consumption / transmitting output circuit (9) in inverse proportion to the voltage comparison output of the voltage comparison circuit (14). Power consumption / sending output circuit in a telephone.