CS264682B1 - Connection for direct current impulses joining to one conductor from line - Google Patents

Abstract

) The solution relates to wiring for connection DC pulses to one of the wires a line that transmits AC signals, for example for multiple counting with different pulse rates during a phone call. Its essence It is that between the driver carrying DC pulses with ohmic resistance and the negative pole of the DC voltage source is connected a fifth resistor in series with emitter-collector transition the first transistor. On its basis is connected to the anode of the Zener diode the cathode is connected to a conductor carrying DC pulse and fourth resistor. Its other end is connected via parallel connected third resistor and capacitor to the second pole of the DC voltage source second, through the collector-emitter transition of the other transistor and a second resistor connected in series to the first pole of the DC voltage source, wherein the second transistor is connected the anode the first of two series connected diodes connected by the cathode of the second of these diodes to the first DC power supply pole. Instead of this a Zener diode can be used in a serial combination in the opposite direction of permeability. Next to this base connected via the first resistor generator pulses. The wiring is particularly suitable for telecommunications a device for adjusting the shape of counting pulses broadcast over the telephone line.

Description

The invention relates to a circuit for connecting DC pulses to one of the conductor wires which transmits alternating signals, for example when counting at different pulse rates multiple times during a telephone call, when negative potential pulses are connected to the b-wire asymmetrically to the ground.

The transmission of these pulses along the line generates a disturbing signal, which not only deteriorates the quality of the transmission of its own speech signal, but can also penetrate other lines. As the proportion of automatic operation increases, the number of counting pulses in the telephone network and thus the sources of possible interference increases. At the same time, the proportion of transmission lines with non-speech signals is increasing, where interference by individual pulses can be critical. Efforts to minimize this interference are therefore not increasingly serious.

Since the amount of disturbance is determined in addition to the transmission line meter, also by the shape of the transmitted imiulse, its face and the rear, it has been suggested that the shape of the pulse affects the inductance of the series coupled targets. In order to achieve the desired effect, an inductance of the value of Henry units is required, and so this solution is increasingly less applicable to the coil size and the technology of its production.

The purpose of the invention is to overcome the above-mentioned disadvantages of connecting a DC pulse source to one of the line conductors which transmits AC signals, in particular to a telephone line.

According to the present invention, a fifth resistor is connected in series with the emitter-collector transition of the first transistor, on the one hand of which the anode of the Zener diode is connected, the cathode of which is connected to the first transistor. a second resistor is connected to the other end via a parallel connected third resistor and a capacitor and second through a collector-emitter of the second transistor and a second connected resistor in series to the first pole, with an anode connected based on the second transistor the first of the two series-connected diodes connected by the cathode of the second of these diodes to the first pole, and first through the series-connected first resistor to the pulse generator. The two diodes in series connected between the base of the second transistor and the first pole can be replaced by a Zener diode in the opposite direction of transmittance.

The wiring for connecting the DC pulses to one of the conductors of the line according to the invention makes it possible to achieve the shape of the transmitted pulse to suppress the interference, without using large coils. This simplifies the production technology and contributes to the miniaturization of the plant by reducing its weight and space requirements.

An example of a wiring according to the invention is further described in the accompanying drawing in which they are SUBJECT

Wiring for connecting DC pulses to one of the line wires that are labeled with wires and with ohmic resistor Rva abs and ohmic resistor Rvb of the telephone line with line capacitors C1 and C2 and call line U1 and line capacitors C1 and C4 and. 1,2 on the called party U2. On the calling subscriber side 11a a relay P for receiving counting pulses is indicated, on the called subscriber side U2 a pulse source in the circuit according to the invention.

A fifth resistor R5 is connected in series with the emitter-collector transistor T1 between the ohmic resistor conductor b and the negative pole - B. Zener diode Z is connected between the base of transistor T1 and the resistor conductor bvb Rvb. The base of the first transistor T1 is connected via a fourth resistor R4 on the one hand with a parallel combination of capacitor C with the third resistor R3. whose emitter is connected to the negative pole - B through the second resistor R2. Between the base of the second transistor T2 and the negative pole - B ZSN is connected a pair of diodes formed by the serial connection of the first diode D1 and the second diode D2. the base of the second transistor T2 and the cathode to the anode of the second diode D2. A pulse generator G is also connected to the base of the second transistor T2 via a first resistor R1.

The first transistor T1, connected as an emitter follower, is used as a voltage-controlled switch on capacitor C and at the same time as a current limiter in the pulse-carrying circuit. Resistors R4 and F5 are selected so that at the maximum resistor Rvb of wire b, the current is not limited by the switch and the current is sufficient to draw the receiving relay P. At lower resistances Rvb of wire b the switch current is limited to almost independent of the resistance value Rvb and the amplification factor of the first transistor T1. At the beginning of the transmitted pulse, capacitor C is charged from a high internal resistance and low voltage drop current source consisting of a second transistor T2, a second resistor R2 and a pair of the first diode D1 and the second diode D2 in series. The function of the current source is the same when this pair of diodes is replaced by a Zener diode in the opposite direction of transmission. At the end of the transmitted pulse, the capacitor discharges through the fourth resistor R4 in series with the transformed resistor in the emitter circuit of the first transistor T1, connected in parallel to the third resistor R3 discharges capacitor C even in the event of wire break b.

This circuit according to the invention is particularly suitable for telecommunication devices for modifying the shape of counting pulses transmitted over a telephone line.

Claims (1)

It is characterized by the fact that a fifth resistor (R5) is connected in series with the emitter-collector transition of the first transistor (Tl) on the basis of which it is connected between the conductor (b) and the first pole (—B) of the DC voltage source. an anode of a Zener diode (Z) whose cathode is connected to a conductor (b) and a fourth resistor (R4), the other end of which is connected via a parallel connected third resistor (R3) and a capacitor (C) to the other pole through the collector-einitor transition CS 264 682 B1 4 of a second transistor (T2) and a series-connected second resistor (R2) to the first pole (-B) of the DC power supply, whereby on the basis of the second transistor (T2) These diodes (L) 2) are connected to the first pole (—B) of the DC voltage source or the series-connected first resistor (R1) with the pulse generator (G).