DE737122C - Arrangement for displaying and / or correcting replication errors in hybrid circuits - Google Patents

Description

Arrangement for displaying and / or correcting replication errors in hybrid circuits The invention relates to hybrid circuits for the transition from one Two-wire line, e.g. B. a # gewöhulichenn telephone line, on the transmitter and the receiver of a wireless intercom.

For the transition from two-wire to four-wire messaging systems: is a fork is required as an intermediate link. An essential part of such Gabel is a line replica, an artificial circuit, the wave resistance the two-wire line according to amount and phase, and if possible for all Frequencies; within the frequency band to be transmitted. The replica of one The given two-wire line is empirically determined in telephony by the calibration meter made in conjunction with a replica seeker. ' The magnitude of the replica is known for the line types in question. Is it different To connect two-wire lines via the same fork with a four-wire system (e.g. at long-distance offices), the fork receives a fixed replica and the wave resistance The various two-wire lines are supplemented by the value of the replica adapted as possible. An adjustment through additions requires cumbersome measurements, especially if the frequency range to be transmitted is extensive. Accordingly is this method only for permanently installed lines. certain lengths, so known Characteristic impedance, suitable.

There are procedures for the automatic balancing of a hybrid circuit known, in which the response of a control device by longer lasting interference voltages is effected on the two-wire line (whistling). So the control device occurs only in action if the adjustment error is so great that the Whistle point has already been reached. In the case of adjustment errors that are not yet a whistle lead, but echo interference already occurs due to reflections in the forks. on. In the case of the echo disturbances, however, it is only a matter of voltages of the duration of the Speech vibrations to which the control device must not respond because they otherwise it would respond to the transmitted speech vibrations themselves.

It is also known in wire transmission systems, the replication error to correct itself depending on the signal currents. Such an arrangement is quite useful for pure wire transmission and fulfills the requirements there Task. However, the situation changes considerably when it comes to wireless Transmission systems. With such systems can by shrinkage phenomena the transmission signals may disappear completely, so that a device which works with the signal currents to correct certain errors, does not would fulfill its function.

Furthermore, there are measuring circuits working with a test voltage became known that the measurement of the Allow replication error. However, this measurement cannot be performed during operation take place because it would affect the voice frequency band to be transmitted.

In contrast, the invention relates to an arrangement for display and / or correction of replication errors during operation in hybrid circuits for the transition from a two-wire telephone line to the transmitter and the receiver a wireless intercom using a test signal voltage that avoids the disadvantages of the known circuits in accordance with the invention in that the fork through a transformer with the two-wire system and through another Transformer is coupled to the line simulation, whose corresponding the Fork associated winding on. their ends with the ends of those associated with the fork Winding of the coupling with the incoming branch of the Vierdra.htleitung mediating Transformer is connected through equal resistances, and that between the center of the winding of this transformer and the centers of the windings of the former Transformers the test signal voltage is applied in such a way that in the event of a mismatch the line simulation at the terminals of the outgoing branch of the four-wire system Voltage from the test signal frequency occurs. With the new arrangement, a correct, appropriately automatic change of the replica achieved. Here the fork receives a fixed replica that is suitable for the type of line in question (overhead line, Cable, etc.) contains mean setpoints with regard to magnitude and phase and the frequency response is adapted. From a voltage of a certain frequency that is fed separately to the fork partial tension is generated in the fork. which is proportional to the adjustment error is. This is a disruption of the traffic on your two-wire and four-wire system avoided by this measuring frequency. An actuation of the control arrangement is also possible Avoided by speaking strings in any direction. The one caused by the mismatch The resulting partial voltage is, if necessary, after appropriate amplification and Rectification can be used to reduce the adjustment error according to size and direction to display or to operate a suitable control element that controls the simulation changes in a corrective sense.

The arrangement according to the invention is in itself suitable for the adjustment error Determine zti according to amount and phase and compensate for it with a controller. It is but in most cases it is not necessary to correct the phase of the replication, if more amount is regulated, because of the adjustment errors caused by the differences in the frequency response of the attenuation of the line and the simulation are usually far are greater than those caused by the phase error.

The controller for the Ohin's component of the simulation can, for example be a three-electrode tube, the internal resistance of which is changed without power and through a transformer is transformed to the required size. However, it can get through the control voltage also a mechanical switching mechanism, z. B. a, motor or a stepping mechanism, operated, which drives a rheostat. In the first case when using it a tube whose internal resistance is changed, the control voltage must be permanent on the fork, in the second case of a mechanical regulator, the control voltage be switched off after adjustment.

In, Fig. I, an embodiment of the subject matter of the invention is shown. With this arrangement, the test signal voltage is avoided in the two-wire system and in the outgoing branch of the four-wire system, even if its frequency is within the range to be transmitted. Signal frequency band. The two-wire system a, h, whose characteristic impedance is denoted by Z, the line simulation N and the branch of the four-wire system arriving via the terminals e, f are coupled to the fork via the transformers -T "72 and T3. The windings belonging to the fork of the transformers ″ are connected to one another via the resistors R1, R2, R3, R4 in the manner shown. The centers of these transformer windings @ are connected to one another via the secondary windings of transformer T4. The test signal frequency of U, is fed to the primary winding of the transformer T4 in such a way that the same test voltage is induced between the centers of T3 and T1 or T3 and T2. If the resistors R1, R2, R3, R4 are equal to one another, a completely symmetrical fork arrangement is produced, in which, in the case of matching between N and Z, none of the terminal pairs a, b and c, d and, e, f have a voltage of the test signal frequency occurs. Step in case of mismatch. as a result of the flow of equalizing currents across the branches of the bridge between terminals A, C and C, B, span, voltages, the direction of which depends on the sense of the mismatch. Directed to these two voltages in separate rectifiers same, as shown in Fig. A schematic, and switches the outputs of the rectifier Gll and Gl, against each other, we obtain a Gleichspannun 'g U,., The direction of- the Direction of mismatch is determined. This DC voltage can now be used. Display of the mismatch according to size and direction can be used in a pointer. The output voltage of the rectifier can, however, also be used to operate an automatic control element which corrects the mismatch indicated by the direct voltage occurring in terms of magnitude and direction.

The one created at the resistors R and R2 from the two-wire line The resulting speech tension is now also present. the inputs of the rectifier Gll and GL_. These rectifiers are advantageously only permeable to the frequencies the test signal voltage. It could therefore occur in the brief periods of chance At this frequency the rectifiers generate DC voltages in the speech voltage, the difference of which could operate the controller. It could be considered (> an undesirable Response of the controller. To avoid this, the controller must therefore or the rectifier received a corresponding time constant, thus short-term The impulses of the measuring sequence, as they can occur in the speech voltage, do not cause the controller to respond.

Claims (3)

PATENT CLAIMS: r. Arrangement for the display and / or adjustment of Replication errors during operation with a hybrid connection to the transition of a two-wire telephone line, the transmitter and the receiver of a wireless one Intercom system using a test signal voltage, characterized in that that the fork through a transformer (TI ') with the two-wire system and through another transformer (T2) is coupled to the line simulation, whose corresponding winding associated with the fork at their ends with the ends of the Fork associated winding of the coupling with the incoming branch of the four-wire line intermediary transformer (T3) via mutually equal resistors (R1, R 2, R3, R4) is connected and that between the center of the transformer winding of (T3) and the centers of the windings of (T1) and (, T2) the test signal voltage in such a way is applied so that in the event of a mismatch of the line simulation at the terminals (A, B) the outgoing branch of the four-wire system a voltage of the test signal frequency occurs. : 2.- arrangement according to claim r, characterized in that parallel to the one in series bridging the outgoing branch of the four-wire system Resistors (R1, R2) each have a rectifier, possibly with one connected upstream Pass filter for the test signal frequency and / or an amplifier is placed, whose outputs are switched against each other. 3. Arrangement according to claim: 2, characterized characterized in that the output voltage of the two rectifiers to the control device of the fork adjustment acts in a correcting sense. Arrangement according to claim 2, characterized in that the time constant of the rectifier or the regulator is so large that short-term impulses of the measuring frequency, which are in the speech voltage may contain,, the controller does not respond.