DE3635514A1 - Circuit arrangement for controlling the feed current for a telecommunications terminal - Google Patents

Abstract

This terminal (3) is connected to a direct-voltage source (U). The voltage dropped across a resistor (4) is supplied to a control amplifier (6) to which a reference voltage (UREF) is applied as nominal value. The output potential of the control amplifier (6) is raised to the potential of the base of the transistor (1), for example by a zener diode (12). <IMAGE>

Description

The invention relates to a circuit arrangement to regulate the feed current for one to one voltage source connected telecommunications Terminal.

Such a circuit arrangement can be used, for example, to implement a power source for a telephone set in the "PCM 2" method used by the German Bundespost, in which two spatially neighboring subscribers of the public telecommunications network are jointly connected to the office via a connecting line. The further explanations - representative of all possible other applications of the invention - are made for this system. The letters "PCM" stand for the well-known pulse code modulation method with which telecommunications signals are transmitted as digital signals.

With the PCM 2 process, the analog signals are in office digitized and given on the connecting line. At the end a device is installed in the connecting line through which  the incoming digital signals back into analog signals be implemented. Of course, this also applies to the Opposite direction. The two participants are on the device Connection lines connected. In the device are ver different active elements or circuits with differences tasks that are powered have to. For this, the device has a power supply part, connected to the outside line and from there at for example with a supply voltage of 93 V. For example, the power supply part provides a DC voltage of 20 V and a lower voltage of ± 5 V for Operation of all active elements of the device and external ver need. Such a consumer is, for example Telephone, for the operation of which a constant supply current be is required.

The invention has for its object a circuit to specify arrangement with which one of a constant current source fed by a direct voltage source can be realized.

According to the invention, this object is achieved by

• - That the rows parallel to the DC voltage source circuit from the current path of a transistor of the end device and an ohmic resistor is connected,
• - That a rule between the terminal and the resistor amplifier with an input connected via a second input to the setpoint of the feed current corresponding reference voltage is supplied, and
• - That between the output of the control amplifier and the Control electrode of the transistor at least one off potential of the control amplifier to the potential the control electrode of the transistor lifting resistance stand element is switched on.

Advantageous embodiments of the invention are shown in the Sub-claims emerge.  

This circuit arrangement is particularly noteworthy due to its simple structure with only a few parts. It is particularly good when there is only a small lengthways chip waste is functional. The accuracy of the scheme will depend essentially on the accuracy of the reference voltage determined. The control amplifier can with lower Supply voltage operated because between his Output and the control electrode of the transistor the opp stand element, through which the output potential of the control amplifier is raised so that the same one only has to deliver a low output voltage.

Embodiments of the subject matter of the invention are in shown the drawings.

Show it:

Fig. 1 shows the circuit arrangement according to the invention in a basic representation.

Fig. 2 to 4 different configurations of the circuit arrangement with respect to the resistance element.

In the following description the circuit arrangement representative of all other devices using the example of Terminal "telephone" explained. Instead of the word "phone apparatus "the shorter word" telephone "is used.

The series circuit comprising the current path of a transistor 1 , a diode 2 in the forward direction, the telephone 3 and an ohmic resistor 4 is connected to a DC voltage source indicated by the arrow U. This series connection is parallel to the DC voltage source. The diode 2 is required in the case of a telephone as a protective diode against too high voltages, which can be caused, for example, by the alarm voltage. If such an increased voltage cannot occur, the diode 2 is not required. A control amplifier 6 with an input is connected between telephone 3 and resistor 4 . At the output of Regelver amplifier 6 is a resistance element 7 , which is connected on the other side to the control electrode (base) of transistor 1 . The resistors 8 and 9 serve to stabilize the circuit arrangement. The transistor 1 is preferably designed as a bipolar transistor. However, it can also be designed as a field-effect transistor, for example as a MOSFET.

The control amplifier 7 is supplied with a voltage of 5 V, for example. A reference voltage UREF is supplied to the same via a second input as the setpoint, which corresponds to the voltage drop across the resistor 4 as the actual value when the supply current flows via the telephone 3 at a predetermined level to be regulated.

The circuit arrangement can also include a comparator 10 , which is used for loop current detection and, if so, can be connected to a supply voltage of 5 V. The comparator 10 is also connected with an input between the telephone 3 and resistor 4 . Via a second input, a reference voltage UREF 2 is fed to it , which is lower than the reference voltage UREF of the control amplifier 6 . The digital output signal of the comparator 10 is fed to an evaluation which is indicated by a dash-dotted line 11 .

The circuit arrangement according to FIG. 1 works as follows:

It is assumed that the DC voltage source supplies 20 V and that a voltage of 15 V drops across the resistance element 7 . The control amplifier 6 is to be operated with a voltage of 5 volts.

When the handset is picked up on the telephone 3 , a current flows through the transistor 1 , the diode 2 , the telephone 3 and the resistor 4 . It generates a voltage drop across resistor 4 . The transistor 1 is fully current-permeable after switching on, since its base is at a correspondingly low voltage, which is determined by the output voltage of the control amplifier 6 and the resistance element 7 . The voltage drop across the resistor 4 is fed to the control amplifier 6 and compared by the same with the reference voltage UREF . As the supply current increases, the voltage drop across resistor 4 increases. At the output of the control amplifier 6 is therefore a corresponding, rising voltage, through which, in cooperation with the opposing element 7 , the voltage at the base of the transistor 1 increases. The current permeability of the transistor 1 is thereby increasingly reduced to a permeability corresponding to the feed current to be controlled. With this circuit arrangement, the supply current is regulated with great accuracy even with a low longitudinal voltage drop. The accuracy depends essentially on the accuracy of the reference voltage UREF and also on the accuracy of the resistor 4 and the offset voltage of the amplifier 6 amplifier.

The resistive element 7 can of FIG. 2 may be constructed as a Zener diode 12 to which a constant voltage of 15 V at the pitch decreases. The Zener diode 12 is connected in the lying embodiment with its cathode to the base of the transistor 1 . The potential at the base of the transistor 1 is thereby pushed ver according to the voltage at the output of the control amplifier 6 .

It is also possible according to FIG. 3 to realize the resistance element 7 by means of a voltage divider consisting of the resistors 13 and 14 , at the dividing point of which the base of the transistor 1 is connected. In this embodiment, the potential at the base of the transistor 1 is changed accordingly to the ratio of the resistors 13 and 14 when the voltage at the output of the control amplifier 6 changes.

In a preferred embodiment, the resistance element 7 according to FIG. 4 consists of a Zener diode 12 and a voltage divider in series with the same from resistors 13 and 14 . The operation of the circuit arrangement according to FIGS . 2 to 4 is the same as that of the circuit arrangement according to FIG. 1.

If the polarity of the voltage source is reversed compared to that selected in the circuits shown, another transistor 1 must be used and the diode 2 and the Zener diode 12 would have to be reversed in their forward direction.

Claims (9)

1. A circuit arrangement for regulating the feed current for a remote signaling terminal connected to a DC voltage source, characterized in that

• - That parallel to the DC voltage source, the series circuit from the current path of a transistor ( 1 ), the terminal ( 3 ) and an ohmic resistor ( 4 ) is connected,
• - That between the terminal ( 3 ) and the resistor ( 4 ), a control amplifier ( 6 ) is connected with an input to which a reference voltage (UREF) corresponding to the nominal value of the feed current is supplied via a second input, and
• - That between the output of the control amplifier ( 6 ) and the control electrode of the transistor ( 1 ) at least one of the output potential of the control amplifier ( 6 ) to the potential of the control electrode of the transistor ( 1 ) is switched on lifting resistance element ( 7 ).

2. Circuit arrangement according to claim 1, characterized in that between the output of the control amplifier ( 6 ) and the control electrode of the transistor ( 1 ) as a resistance element a Zener diode ( 12 ) is turned on, the cathode of which is connected to the control electrode. 3. Circuit arrangement according to claim 1, characterized in that between the output of the control amplifier ( 6 ) and the DC voltage source as a resistance element, a voltage divider ( 13 , 14 ) is turned on, at the dividing point, the control electrode of the transistor ( 1 ) is connected. 4. Circuit arrangement according to claim 1, characterized in that between the output of the control amplifier ( 6 ) and the DC voltage source as a resistance element, the series circuit comprising a Zener diode ( 12 ) and a voltage divider ( 13 , 14 ) is turned on, at the divider point Control electrode of the transistor ( 1 ) is connected. 5. Circuit arrangement according to one of claims 1 to 4, characterized in that between the transistor ( 1 ) and terminal ( 3 ) a diode ( 2 ) is switched on. 6. Circuit arrangement according to one of claims 1 to 5, characterized in that between the terminal ( 3 ) and resistor ( 4 ), a comparator ( 10 ) is connected with an input to which a reference voltage (UREF 2 ) is supplied via a second input, which is lower than the reference voltage (UREF) of the control amplifier ( 6 ). 7. Circuit arrangement according to one of claims 1 to 6, characterized in that the transistor ( 1 ) is designed as a bipolar transistor. 8. Circuit arrangement according to one of claims 1 to 6, characterized in that the transistor ( 1 ) is designed as a field effect transistor. 9. Circuit arrangement according to one of claims 1 to 6, characterized in that the transistor ( 1 ) is designed as a MOSFET.