DD205797A1 - ELECTRONIC PARTICIPANT CONNECTION - Google Patents

Abstract

ELECTRONIC PARTNER CONNECTION FOR USE IN DIGITAL TELEPHONE TRANSMISSION AND TRANSMISSION SYSTEMS FOR VOLTAGE-CONTROLLED DC POWER SUPPLY OF TERMINAL DEVICES AND FOR NF-2 WIRE / 4-WIRE IMPLEMENTATION. An ecONOMICALLY GOOD CIRCUIT ARRANGEMENT SHOWN, THROUGHOUT THE CIRCUIT STRUCTURE IMPROVED RELIABILITY AND INCREASED LIFE IS OBTAINED. IT IS ESTABLISHED THAT THE EQUIVALENT LOSS CHARGES AND THE LF-2 WIRE / 4-WIRE IMPLEMENTATION ARE EFFECTIVELY IMPLEMENTED BY THE COMMON USE OF INPUT CIRCUIT CONNECTION WITH SIMPLE CIRCUIT BREAKERS, SO THAT THE APPLICATION IS POSSIBLE IN MONOLITHIC TECHNOLOGY. THE VOLTAGE REGULATION IS MADE BY A SWITCHING CONTROLLER, THE NF-2 WIRE TRANSMISSION IS USED BY A SURGERY OPERATOR CONTROLLED BY VOLTS MASS-RELATED SO THAT FORCED TRANSMITTERS AND COUPLING CAPACITORS MAY DEPOSIT.

Description

Berlin, June 18, 1982 mr-scht 29170 / r ^

Applicant Dipl.-Ing. Ingomar Krahl Dipl.-Ing. Gerhard Krause Dipl.-Ing. Ulrich Manicke

Electronic subscriber line switching field of application of the invention

The invention relates to an electronic subscriber line circuit for digital Pernsprechvermittlungs- and iibertragungsanlagen for voltage-controlled DC power supply of Pernsprechapparaten and KP-2 wire / 4-wire ümsetzung.

In order to ensure the basic functions of the telephone for security reasons, independent of the power supply network, the Pernsprechendapparate be powered by a battery in the central office. The DC power is supplied via a two-wire subscriber line from a subscriber line circuit, the u. a. also has the task, the HP information from and

241356

to transfer to the participant. In modern Yermittlungs- and transmission systems subscriber line circuits are increasingly implemented as integrated circuits, which allow a high packing density, as long as the power consumption can be kept low · The power consumption in the supply circuit is in v es ents of Endapparatewiderstand, the length of the subscriber line and the Supply voltage dependent. At a maximum line resistance Rmax = 1.5 kA ^ and a terminal resistor Ra = 30Oj ^ results in a typical supply current I = 25 mA, an output voltage of the subscriber line circuit U = 45 Y. In the majority of practical cases, however, the line resistance R < : 1000X1-, so that an important task is to adjust the supply voltage to the subscriber line lengths to avoid increased power conversion at short line lengths in the subscriber line circuit. Furthermore, the aim is to combine the individual modules of the subscriber line circuit, in particular also for the ID-2-wire / 4-wire Uissetzung, by integrable components to a highly integrated circuit complex ·

Characteristic of the known technical solutions

It is known to carry out the DC power supply of the terminal apparatus via constant-current bipoles and to regulate the Yersorgungsspannung via transverter and thus adapt to the line length, see. DE-OS 3,043,907, H 04 M - 19/00. This circuit includes only the DC power supply, while the HP-2 wire / 4-wire conversion is done independently by means of transformer fork. A disadvantage of the use of transverters is the use of complex winding products and the condition to be processed by the wide power range

241356 O

poor efficiency. In addition, the transformer fork does not allow circuit integration. Furthermore, it is possible to adapt the supply voltage to the line resistance by switching different battery voltages, for example 30 7, 48 V, cf. DE-AS 2 551 916, H 04 M-19/00. Again, the IIP-2-wire / 4-wire conversion takes place in a separate circuit part. The disadvantage is the required different battery voltages in the center and necessary for switching high circuit complexity.

In a further known circuit arrangement, cf. Although US-PS 4,272,656, H 04 B - 1/58, the EF-2 wire / 4-wire implementation is solved electronically and is part of a larger integrated circuit, but the DC power is controlled by constant-current bipoles, so that at the practically occurring in the majority of short · subscriber lines the power not required for the power supply in the constant current dipoles must be converted into heat. Thus, the desired large packing density of the integrated subscriber line circuits is limited by the overtemperatures that occur.

Object of the invention

It is the object of the invention to provide an economically favorable circuit arrangement, wherein the circuit structure improved reliability and increased life is achieved with increased application area.

Explanation of the essence of the invention

The invention has for its object to provide a subscriber line circuit, which is both a DC

2413 56

Power supply with low power dissipation in different connection conditions, such as subscriber tmgs length and battery voltages in the center, as well as a 10? -2-wire / 4-wire implementation waives coupling capacitors and forklift transformer. According to the invention, this object is achieved in that a series circuit consisting of a first resistor and a first current mirror circuit and a second Konstantstromzweipol to a first constant current dipole between a wire of the subscriber line and negative pole of a supply voltage source B-wire of the subscriber line and ground is a series circuit of a second resistor and a second current mirror circuit connected in parallel and that the output of the second current mirror circuit to the input of a third current mirror circuit and a first output of the first current mirror circuit on the one hand to a first output of the third current mirror circuit and on the other connected to the input of an evaluation and control circuit and that a second output of the first current mirror circuit both to a second output of the third current mirror circuit is also connected to the inverting input of an operational amplifier, which is also a resistor with a compensation voltage source and in parallel via another resistor to the output of the operational amplifier, which is simultaneously output of the electronic EF-2 wire / 4-wire conversion, is connected and that the output of the evaluation and control circuit is connected to the control input of a switching regulator whose input is connected to the negative pole of a battery in the Vermittlungsζentrale, and whose output is negative pole of the supply voltage source of the supply circuit.

2413 56 o

The first and third current mirror circuits are designed as dual-current sources with npn transistors, the second current mirror circuit consists of two pnp transistors. The control and evaluation circuit provided for the control consists essentially of a series connection of two comparators. The switching regulator is used as a step-down regulator for large battery voltages in the central office, and as an up-controller for low battery voltages. In both variants, it consists essentially of switching transistor, freewheeling diode, choke and storage capacitor.

The operation of the inventive solution is based on that measured with a balanced measuring circuit in the input of the subscriber line circuit, the DC and AC voltage across the lying in the a / b wires of the subscriber line Konstantstromzweipolen, summed and two separate equal outputs. Thus, advantageously, the measuring circuit, which consists of three current mirror circuits, provides both an input voltage for the Aus-value andvAnsteuerschaltung the switching regulator and for the RF-2-wire / 4-wire implementation. In the nominal state, the input voltage for the evaluation and control circuit is at ground potential, as is the! JP voltage ground-related ,, available, so that can be realized integration-friendly circuit without a fork transformer and coupling capacitors.

embodiment

The subscriber line circuit, its mode of action and its possible further embodiment will be explained in more detail below using an exemplary embodiment.

mm Q mm

241356

In the accompanying drawing show:

Pig. 1 shows a subscriber line circuit with DC power supply, N3-2-wire / 4-wire conversion and switching regulator as a buck regulator,

Pig. 2 a switching regulator as an upward regulator.

According to Pig. 1 consists of a subscriber line circuit of a first circuit part for the voltage-controlled DC power supply consisting of two constant current dipoles Ia and Ib, a receiving circuit with the current mirror circuits S1, S2 and S3 and an evaluation and control circuit AS, which consists of two comparators 72 and 73, and a Switching regulator SR with driver transistor T2, switching transistor T1, Preilaufdiode D1, inductor L1 and storage capacitor C1. The second circuit part sur UP-2-wire / 4-wire conversion consists of an operational amplifier 71 and the resistors R4, R5 and Rö «

To measure the voltage on the subscriber line TL, the voltages between the a-wire and the negative pole of the supply voltage source -o and between the b-wire and ground are converted by the resistors E1 and R2, which are in each case in parallel, in the current mirror circuits S1 and S2 into currents. By interposing the current mirror circuit S3, the currents are summed, and the resistor R3 located at the output of the current mirror circuit is selected so that approximately ground potential occurs at this resistor in the nominal state as the input voltage Ue1 of the evaluation and control circuit AS.

During the control process, the input voltage Ue1 at the inverting input of the comparator 72 is compared with ground and the deviation is compared with a 7erstärkungs-

RT factor 7 ^ 4 amplified and the comparator 73 zug-

241356

leads. There, this voltage is compared with an estern supplied sawtooth voltage Us constant frequency, and the comparator V3 thus provides at the output a pulse width modulated voltage Ur. It serves as an input voltage to the switching regulator SR and is supplied via a driver transistor T2 to the switching transistor T1, which forms a buck regulator with the pre-peak diode D1 and the inductor L1. The storage capacitor C1 is used to smooth the output voltage -Ubo of the switching regulator. Due to the different duty cycle of the pulse width modulated input voltage Ur of the switching regulator SR, the battery voltage -Ub is controlled so that the supply circuit is adapted to the respective line resistance supply voltage -Ubo available. The efficiency of the switching regulator SR is at. optimal dimensioning ¹ ^ = 80 ... 90%, so that a low-loss DC power supply is possible. The use of a cheap, geometrically small coil as inductor L1 also the circuit complexity for the switching regulator SR is low. So that the EP input voltage does not affect the switching regulator SR, the comparator V2 is connected to an integration capacitor C2.

By doubling the outputs of the current mirror circuits S1 and S3, which are connected to a positive voltage + Ub1 via a resistor R4, it is possible to provide the HP receive voltage at the inverting input Ue2 of the operational amplifier V1 operating as an inverting amplifier on a ground basis, and advantageously the HP 2-wire / 4-wire implementation without fork transformer and coupling capacitors to realize. Via the resistor R5, the operational amplifier V1 is supplied with the compensation voltage Uk. The compensation voltage Uk is derived from the HP voltage sent to the subscriber and has the task of this HP voltage at the input of the operational amplifier V1 to

241356 O

compensate, so that at the output of the operational amplifier V1 only the RF voltage sent by the participant appears and thus a feedback is excluded. By selecting the resistor R6, the Yerstärkungseinstellung. Starting from a fixed rest voltage across the constant current dipoles Ia and Ib, for example, each U = 3Y, depending on the line resistance between the a / b wires, the supply voltage -Ubο set such that both the input voltage Ue1 the evaluation and control circuit AS and the Input voltage Ue2 of BP-2-wire / 4-wire converter circuit have approximately ground potential and thus achieved that on the one hand the supply voltage -Ubo only the minimum size required and on the other hand with simple circuit means the UP-2-wire / 4-wire implementation without coupling capacitors and windings. Thus, a realization of both circuit Koniplese in monolithic technology is possible.

According to FIG. 2, a switching regulator SR as a boost regulator consists of a switching transistor T1, a choke L1, a freewheeling diode D1 and a storage capacitor C1.

This circuit variant is used when there is a low battery voltage -üb in the control panel. The switching transistor T1 is driven directly by the pulse width modulated output voltage Ur of the evaluation and control circuit AS. The further mode of action corresponds to that according to FIG. 1.

Claims (5)

241356 claim for invention 1. Electronic Teilnehmeranschlußschaltimg for digital Pernsprechvermittlungs- and transmission systems for voltage-controlled direct current supply of Ferasprechendapparaten means of Konstantstromzweipolen via two-wire subscriber lines and the electronic HF-2-wire / 4-wire conversion, characterized in that a first constant current dipole (Ia) between a- Core of the subscriber line (TL) and negative pole of a supply voltage source (-Ubo) a series circuit of a first resistor (R1) and a first current mirror circuit (S1) and to a second constant current dipole (Ib) between the b-core of the subscriber line (TL) and Massepol the supply voltage source is a series circuit of a second resistor (R2) and a second current mirror circuit (S2) connected in parallel and that the output of the second current mirror circuit (S2) to the input of a third current mirror circuit (S3) and a first output of the first current mirror circuit (S1) a On the other hand connected to the input of an evaluation and control circuit (AS) and that further comprises a second output of the first current mirror circuit (S1) both to a second output of the third Strom- _: mirror circuit ( S3) and to the inverting input of an operational amplifier (71), which also has a resistor (R5) with a compensation voltage source (Uk) and via another resistor (R6) to the output of the operational amplifier (71), the output simultaneously (Ua) the electronic KF-2-wire / 4-wire conversion is connected, and that the output of the evaluation and control circuit (AS) to the control input (Ur) of a switching regulator (SR) is connected, the input of which nega- 241356 U tive pole of a battery (-Ub) is connected in the Terraittlungszentrale and whose output is negative PoX the supply voltage source (-Ubo) of the supply circuit. 2 · Electronic subscriber line connection: Item 1, characterized in that the first current mirror circuit (S1) as a dual-current source consists of npk transistors, in that the second current mirror circuit; (S2) consists of pnp QIransistoren and third current mirror circuit (S3) as Zweufach rain *; source of npn-transistors is _f , whose negative pole is a voltage source (-des and whose dual outputs are separated by a, resistor (R3, E4) at the positive pole, voltage source (^ GbI) ·, ""'- ? ^: 3 * E! BeilnehmeraimchluBsclialtuiig na item 1, characterized / DAB € ie Anateuersciialtung .aes {j in -wesentlichen, AIIS the connection of two comparators CV2, Tr3 ") besteh% wa ,. the circuit input Cöet) äeT: inverting the first. Soaparators and ₅ Sc5iaXtungsaua (2?) - '% gang XlJr) _t output of the second Ssmpasators (J3) that the output of the first .Kos ^ ai ^ ^ tcäis Cir ^) xcit vertierendezi .Eingang the iweitezt'lTDapfiraitoi'S "(" 73 ) bunden'ist and that ä.e ^ nichtiaVertierende längaag'desv first Kos ^ arators- (¥ 2) to ground, vuäc ^ & se.jdn s Somparators (O) at-a 'saw tooth ^^ Bsmgsquelle * {\ peeled% is twsL that between "inyeriiareiideza""" xm & exit ² * ties' first Soiaparatsrs ^Ä XY2) ^ ^ CB ~, C2). ^: , 241356 4. Electronic subscriber line circuit according to points 1 and 3, characterized in that for the purpose of application of the switching regulator (SR) as a step-down regulator, the base of a switching transistor (T1) whose emitter is at the negative pole of the regulated battery voltage (-Ub), with the collector a driver transistor (T2), its emitter grounded and its base connected to the output of a comparator (Y3), and the collector of the switching transistor (T1) connected in series with a choke (L1) to the negative pole of the supply voltage source (-Ubo) is connected to the supply circuit, wherein before the choke (L1) at the collector of the switching transistor (T1) a freewheeling diode (D1) in the reverse direction to ground and behind the throttle (L2) a storage capacitor (C1) is also connected to ground. 5 · Electronic subscriber line circuit according to points 1 and 3, characterized in that for the purpose of using the switching regulator (SR) as a step-up regulator, the base of a SchaIttransistors (T1) whose emitter is connected to ground, to the output of a comparator (73) and in that the collector in series with a choke (11) to the negative pole of the battery voltage to be regulated (-üb) and in parallel with a freewheeling diode (D1) whose cathode is at the collector of the switching transistor (T1), to the negative Pol the supply voltage source (-Ubo) is connected to the supply circuit and that between the anode of the freewheeling diode (D1) and ground, a storage capacitor (C1). For this 2 pages drawings,