DE2130082C3 - Circuit arrangement for the transmission of direct current telegraphic characters and data signals - Google Patents

Description

The invention relates to a circuit arrangement for a terminal of a transmission link that has a Contains transmitter and a receiver, the transmitter output resistance and the receiver input resistance are practically dimensioned arbitrarily, for the transmission of direct current telegraphic characters and Data signals in full duplex operation via galvanically connected two-wire lines, eight of which are real Resistors are connected in series to form a closed circuit, so that their connection points form corner points of an octagon and in one Diagonals of the transmitter, the receiver in the diagonal perpendicular to it and the other two Diagonals the line simulation and the line are switched on. For full duplex operation over Two-wire connections must be used hybrid circuits with a line simulation. Included The line simulation consists of a complex resistance that extends over a wide frequency range should correspond as closely as possible to the complex input resistance of the line, so that the fork transition attenuation becomes as large as possible.

A resistor bridge is used for the transmission of direct current signals; a known suitable bridge circuit (Maron 1864) is shown in FIG. Two branches of this bridge circuit connected to one another by a node each consist of a resistor R, these two resistors are of the same size. A third branch contains the simulation N and the fourth branch is formed by the input resistance W of the line L. In the example shown, the transmitter is connected in parallel to the series circuit made up of a resistor R and the simulation N ; the receiver is parallel to the series circuit made up of the two resistors R. Such a circuit arrangement is located at each end point of a transmission line.

The line simulation in each terminal must be adjustable so that it corresponds to the value of the input resistance the respective line can be adjusted, because the fork transition damping assumes its greatest possible value only when the value of the replica and the value of the Input resistance of the line exactly match. It is also disadvantageous that this comparison is carried out several times alternately on the two Endpoints of the line must be made because the change to the line simulation one end point of the line influences the line input resistance measured at the other end point Time-consuming adjustments are therefore required. This disadvantage is particularly important then very difficult if frequent line changes are made and then each time a new adjustment is made must be done. .

In the case of the in FIG. 1 it can be seen immediately that this difficulty can be avoided by making the output resistance of the transmitter extremely low for a given value for the input resistance of the line. In this case, the input resistance of the circuit arrangement , viewed from the terminals for the line L , is determined practically only by the one resistance R ; changes in the simulation N no longer have any effect on it. This measure has the disadvantage that it represents a very significant limitation in relation to the size of the output resistance of the transmitter. Special measures must then be taken to make it so extremely low-resistance.

From the DT-OS 17 62 072 a transmitting and receiving device for transmitted in full duplex mode is Single or double current signals known on two-wire lines to which the line and the Line simulation symmetrically, the transmitter and the receiver are asymmetrically connected. This Arrangement consists of a bridge circuit, in each of which four resistors have high resistance and the others four resistors are low-resistance. In this laid-open specification, although the problem of mutual Adjustment of the line simulation not addressed, but also with the dimensioning specified here influenced, as with the bridge circuit according to Maron, the value of the line simulation of one terminal the value of the line input resistance of the other Terminal.

The invention is based on the object of specifying a circuit arrangement which can be used without restrictions allowed by the transmitter output resistance and the receiver input resistance, the Line simulation of one end point without influencing the one measured at the other end point Line input resistance.

This object is achieved according to the invention in that the values of the resistors are the same and regardless of the value of the transmitter output resistance, the receiver input resistance and the Resistance of the transmission line are dimensioned.

The invention and its advantages are to be described and explained in more detail below with reference to FIG will.

2 shows the basic representation of the circuit arrangement according to the invention. Eight resistors R are connected one behind the other to form a self-contained circuit, with the connection points of the resistors being able to be viewed as corner points of an octagon according to the illustration in the drawing. All eight resistances are real and equal. In a diagonal of this octagon is the

Transmitter switched on, symbolized by its output resistance S. The receiver, which is symbolized by its input resistance E , is located on the diagonal perpendicular to it. The line L with d ; m input resistance W and the line simulation jV are connected to the other two diagonals. The dimensioning of the transmitter output resistance and receiver input resistance is not subject to any particular restrictions, and their values do not need to be the same as one another. Furthermore, they are dimensioned independently of the size of the resistors R, their value likewise not being subject to any particular restrictions in accordance with the invention and only being selected in a manner known per se after transmission technology conditions. The input resistance of this resistor network at the terminals connected to line L is approximately 2 R. the line simulation when calibrating to the value of a line that has just been connected has no effect on the line resistance measured at the other end point.

The circuit arrangement according to the invention also has the advantage that special measures for the maintenance of a certain very high or very low value for one of these two resistances or need not be hit for either.

1 sheet of drawings

Claims (1)

Claim: Circuit arrangement for an end point of a transmission link, which contains a transmitter and a receiver, the transmitter output resistance and the receiver input resistance being of practically any size, for the transmission of direct current telegraphy characters and data signals in full duplex operation via galvanically connected two-wire lines, with eight real resistors being connected in series to form a closed circuit , so that their connection points form corner points of an octagon and the transmitter is switched on in a diagonal, the receivers in the diagonal perpendicular to it and the line simulation and the line are switched on in the two further diagonals, characterized in that the values of the resistors (R) are equal and are dimensioned independently of the value of the transmitter output resistance, the receiver input resistance and the resistance of the transmission line.