DE3241185A1 - Circuit arrangement for adjusting attenuation in telecommunications connection paths, in particular telephone connection paths - Google Patents

Abstract

For adjusting attenuation in telecommunications connection paths in each case comprising two one-way and two-way transmission paths, little expense is incurred if one multiplexer comprising 2 x n channels is used for both transmission paths, to which multiplexer resistors of the amplification-defining resistance network are connected in conjunction with an operational amplifier. For selection, the selection inputs and an input provided to activate the multiplexer are digitally activated by different combinations of binary signals.

Description

Circuit arrangement for setting the attenuation in telecommunications

de-, in particular telephone connection routes The invention relates to a circuit arrangement of the type mentioned in the preamble of claim 1. It can preferably be used in subscriber connection circuits for level adjustment at different levels Connection line lengths are used.

For digitally controllable attenuators in subscriber line circuits Op-amps with negative feedback and resistor networks are already used in which resistors can be short-circuited by means of selectable electronic switches are. For example, a chain of two is created for each transmission link uses a resistor-coupled and counter-coupled operational amplifier, where this coupling resistance and the negative feedback resistances by respectively an electronic switch can be short-circuited. There is thus a number Attenuation levels depending on the various possible combinations of the digital controllable electronic switch.

Such a circuit arrangement has the disadvantage that relatively lots of resistors and for the op amps and the electronic switches a number of integrated circuits are required. Also are the volume resistances the electronic switch is not defined, so there are no tightly tolerated attenuations can be adjusted.

The object of the invention is to provide a circuit arrangement of the type mentioned to create that with a lesser one Effort.

This object is achieved with the features of claim 1. The invention has the advantage that only two integrated circuits and one relatively a small number of resistors are required.

A multiplexer with 2 by 4 channels is preferably used.

A preferred arrangement of the resistor network and the multiplexer is apparent from claim 3.

According to claim 4 can be provided for the activation of the multiplexer Input to form the coded selection commands can also be used. Therefore, for example with a multiplexer of 2 by 4 channels a damping network with 2 by 5 damping levels being constructed.

The invention will now be explained in more detail using an exemplary embodiment.

The figure shows a circuit arrangement for adjusting the damping shown in a subscriber line circuit. The transmission path A-A 'lies in the outgoing four-wire path, while the transmission link B-B 'in the incoming Vierwrahtweg lies. In the course of the first transmission path there is a resistor R2 and an operational amplifier V is arranged, which is fed back by means of a resistor R1 is. The resistor R2 is connected to the negative input of the operational amplifier V connected, the positive input of which is grounded. The output of the operational amplifier V is denoted by A '. Parallel to Resistor R2 is optional One resistor each of resistors R3 to R6 can be switched by means of a multiplexer M. These resistors are connected to four useful signal inputs, the data inputs D1 to D4, connected to the multiplexer. Between a selected data input and the A connection is established internally with the associated data output DA. this happens by applying H and L signals to the selection inputs S1, S2 of the multiplexer M. in different combinations. In addition, a further damping level can be achieved Control of an input EN provided for activating the multiplexer, too Called Enable input.

In an analogous manner, there are data inputs D1 'to D4' and a data output DA ', which is also controlled by the selection inputs S2, S2 and the input EN will. Resistors R1 'to R6' and an operational amplifier V 'are in one analog arrangement.

If there is an H signal at the EN input, the multiplexer is located in the inactive state. In this case, none of the resistors R3 to R6 is the resistor R2 connected in parallel (the same goes for the dash side), and it is the damping stage set with the highest damping. For all other combinations, the Input EN an L signal.

The data input D1 is connected to the data output DA if both Selection inputs receive L signals, so that then, for example, the next lowest Attenuation level is set. Resistor R4 becomes effective in a corresponding manner switched when the selection input S1 has an H signal and the selection input S2 is on L signal received.

Resistor R5 is activated when there is an L signal at the selector corridor S1 and an H signal at the selection input S2. The attenuation level with the lowest attenuation value is achieved when H signals are present at the selection inputs S1, S2 are present and the resistor R6 is connected in parallel to the resistor R2 will. The bottom side is controlled in a corresponding manner.

The operational amplifiers V, V 'can preferably be components of a single integrated circuit, so that overall a simple and cheap one Attenuator is present.

Claims (4)

Circuit arrangement for setting the attenuation in telecommunications, in particular Telephone connection paths Claims 1. Circuit arrangement for setting the attenuation in telecommunications, in particular telephone connection paths from two simple and opposing transmission links with at least one counter-coupled operational amplifier per transmission link, in its gain-determining resistance network at least a resistor effective or ineffective by means of a selectable electronic switch it is switchable, that is, that for both transmission paths a multiplexer (M) of 2 times n channels is provided that determines the gain Resistance network from differently sized and connected to the useful signal inputs (D1-D4; D1'-D4 ') of the multiplexer connected resistors (R3-R6; R3'-R6') is formed and that the selection inputs (S1; S2) of the multiplexer depending on the setting Receive encoded selection commands. 2. Circuit arrangement according to claim 1, d a d u r c h g e -k e n It is noted that the multiplexer (M) has 2 by 4 channels. 3. Circuit arrangement according to claim 1 or 2, d a d u r c h G e k e n n n n n e i c h n e t that the input (-) of the operational amplifier (V; V ') Via the resistors (R3-R6; R3'-R6 ') with the useful signal inputs of the multiplexer and via a further resistor (R2; R2 ') to the negative input of the operational amplifier (V; V ') is connected and that the associated multiplexer output (DA, DB) to the negative operational amplifier input is connected. 4. Circuit arrangement according to one of claims 1 to 3, d a d u r c h g e k e n n n z e i c h n e t that a provided for the activation of the multiplexer Input (EN) is also used to form the coded selection commands.