DE1037524B - Control circuit for systems of communication technology - Google Patents

Description

In systems of communication technology are often used to establish connections Signals from a transmitter via one or more wires of a telecommunications line to a receiver transmitted, which evaluates the signals. These signals can be of any type. You can e.g. Am Form certain potential levels are generated in the transmitter. In this case, the recipient will receive the evaluate different potentials in the form of a code if necessary.

However, the signals can also be present as pulses. In any case, the signals that are in the transmitter are a certain information to be transmitted are generated accordingly, from operating data, in particular from the operating voltage in the transmitter. pending. Deviations from the setpoint of the operating data (operating setpoint) therefore influence the different ones Signals. This influence on the signal makes it difficult to evaluate the signals in the signal receiver.

For example, when it comes to signals for establishing a connection in the form of certain potential levels that is tapped in the transmitter with the aid of a keyboard or the like, for example on a chain of resistors the size of the individual potential levels depends on fluctuations in the Resistance chain depending on the operating voltage. This dependency can lead to incorrect evaluations on the receiving side, especially if if the receiver is fed from another operating voltage source. That’s always the one Case when the transmitter and receiver are located in different telecommunications offices.

The operating voltage at the receiving location, which is decisive for signal evaluation, can in turn fluctuate be subject to the opposite of fluctuations in the operating voltages at the transmission location. The probability of incorrect evaluation is in the case of such opposing setpoint deviations even bigger.

The deficiencies described are eliminated with the aid of a control circuit according to the invention in that deviations from an operating setpoint, which influence the different signals at the sending location, are fed as control signals via a further line, in particular the b or c wire of the telecommunications line, to a control element at the receiving location , which influences the operating voltages relevant for the evaluation at the receiving location in such a way that the deviations occurring at the sending location are compensated for at the receiving location.

According to a preferred embodiment of the invention , a transistor amplifier in a collector circuit is provided as a control element at the receiving location, the base electrode of which is connected to the down control circuit for systems
communication technology

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Wittelsbacherplatz 2

Dipl.-Ing, Peter Gerke, Munich-Solln,
has been named as the inventor

deviations in the form of a control voltage transmitting line and on its collector electrode the operating voltage source of the receiver circuit is in such a way that the at the emitter electrode of this Transistors lying, for the evaluation decisive organs of the receiver circuit with an operating voltage are supplied, which are in the same direction with the deviations from the setpoint of the operating voltage changes at the transmission location in such a way that these deviations are compensated for.

The control circuit according to the invention has the advantage that over the further wire of the communication line only the relatively small control current for the transistor or transistors acting as a regulating element while the current required to power the receiver is supplied by the Office battery of the receiving location is supplied.

It is known per se in telecommunications systems to provide control circuits at the receiving location, which Compensate for deviations from an operating setpoint determined at the receiving location. For example a carrier frequency telecommunications system is described in German patent specification 888 116, in which together with the message signals, a pilot signal is sent out as a control signal, which at the receiving location Control circuits influenced, which compensate the occurring changes in the line attenuation. These control circuits are used exclusively to compensate for deviations that occur the transmission path. Deviations, e.g. B. due to fluctuations in the operating voltage that arise directly at the sending point cannot be corrected in this way. Therefor but just the control circuit according to the invention is provided. It is used to compensate for

809 599/126

Signal influences caused by fluctuations in the operating setpoints of the sending station and / or receiving point arise in that their operating setpoints are coordinated with one another.

The invention is explained in more detail below with reference to FIGS. 1 and 2, for example shows

1 shows the use of a regulating transistor for regulating the operating voltage of several evaluation organs Recipient,

2 shows the use of two regulating transistors in a composite circuit for regulating the operating voltages at the recipient.

In the circuit arrangement according to FIG. 1, a transmitter S delivers different signals which are fed via the wire α of a telecommunication line to a receiving circuit with the evaluation elements A1, A2... An. Since the transmitter and evaluation circuit only serve to explain the control circuit according to the invention, it is sufficient to show these organs in a block diagram. A keyboard can serve as a transmitter, for example, with the aid of which different potentials can be tapped on a resistor chain, while the evaluation elements A1 , A2 ... of the receiving circuit can be, for example, flip-flops that respond to the different potentials, or the like. The supply voltage Übe, which can for example be the battery voltage of the receiving office, is fed to the receiving circuit according to the invention via a transistor T1 acting as a control element. This transistor amplifier is operated in the collector circuit known per se.

With the help of the control transistor Tl , fluctuations in the battery voltages in the transmitter 5 are compensated on the receiving side by emitting a voltage at the emitter of this transistor Tl which is dependent on the voltage fed to the base of the transistor Tl via the second wire b of the communication line. The evaluation organs A1, A2. . . The supplied operating voltage is adapted to the voltage fluctuations that affect the different signals in the transmitter, so that these voltage fluctuations are compensated for.

The outputs 1, 2 ... η arise depending on the type of the receiver circuit a certain statement for the transmitted different signals. If necessary, depending on the activation state of certain outputs, the transmitted potentials can be evaluated in the form of a code. However, since it does not belong to the explanation of the invention, it is not described in more detail.

In Fig. 2, a circuit arrangement with the evaluation elements Al, A2 ... An is shown. The evaluation elements are connected to different reference voltages generated by voltage dividers SpI, Sp2 ... Spn. These comparison voltages are decisive for the evaluation of the different signals and are therefore made dependent on voltage fluctuations at the transmission location via the control transistors T2 and T3 in the same way as described with reference to FIG Voltage division at the voltage dividers mentioned, the required supply voltage Übe is fed to the voltage dividers via the control transistors T2 and T3. In order to keep the voltage drop on the line b used for the control signal transmission, which would falsify the comparison voltages at the receiver, as small as possible, two transistors are provided in the circuit according to FIG. The compound circuit results in a current gain that is significantly greater than the current gain of a single transistor. This ensures that the control current on line b remains sufficiently small.

Another advantage of the circuit according to the invention is that the potential on the control signal line b can also be used to provide the receiver when the receiver is not switched on continuously.

Claims (3)

PATENT CLAIM: 1. Control circuit for systems of communication technology, in which certain different signals used to establish the connection are transmitted from a transmitter via one or more wires of a telecommunication line to a receiver, which evaluates the signals, characterized in that deviations from an operating setpoint that occur at the transmission location affect the different signals, as control signals via a further line, in particular the b or c wire of the telecommunication line, are fed to a control element at the receiving location, which influences the operating voltages relevant for the evaluation at the receiving location in such a way that the deviations occurring at the sending location at the receiving location be compensated. 2. Circuit arrangement according to claim 1, characterized in that a transistor amplifier (Tl) is provided in the collector circuit as a control element at the receiving location, the base electrode of which is on the line (b) transmitting the deviations in the form of a control voltage and the operating voltage source for the collector electrode The receiver circuit is located in such a way that the organs of the receiver circuit which are decisive for the evaluation and are located at the emitter electrode of the transistor amplifier are supplied with an operating voltage which changes in the same direction as the deviations from the setpoint at the transmission location in such a way that these deviations are compensated for. 3. Circuit arrangement according to claim 1, characterized in that to reduce the Control current on the control signal line two or more transistors (T2, T 3) in composite circuit are provided. Considered publications:
German patent specification No. 888 116. 1 sheet of drawings © 809 599/126 8.58