CZ214992A3 - Circuit arrangement for transfer of metering pulses - Google Patents

Abstract

The circuit arrangement consists of the transmitter (V) circuit connected in the circuits (01, 02) of the feeding bridge of the switchboard. The receiver (P) is connected on the side of the participant device (U) and captures, assesses and registers impulses sent from the generator (G) by change in the size of current of the common node of the feeding bridge without the need of their usual modulation to a frequency of 16 kHz, which is found above the transfer band of the voice call connection.<IMAGE>

Description

The invention is in the field of telecommunications and relates to circuitry enabling transmission of tariff pulses from a telephone exchange to a subscriber device such as a fax machine, a telephone exchange, and without the need for their usual frequency modulation at a frequency of 15 kHz.

BACKGROUND OF THE INVENTION

Upon reaching a call connection, a plurality of services running at the same time, for example bidirectional control signal transmissions, are deleted by two subscriber devices and after subscriber malfunctions outside said call connection. One such signal, complementing the basic telecommunications service, is the transmission of a tariff pulse from the telephone exchange to the subscriber equipment (telephone, telefax, private branch exchange). For this purpose, a signal modulated in the outgoing feeder at a frequency of 15 kHz is used. Both the simple pulse counting in the local telecommunications and the multiple pulse counting during the call connection achieved by the master control panel connection are performed in the feeders by the logic components DX and DY and forwarded to the control panel c input wire. Charging pulses are generated either by increasing the instantaneous value of the current flowing through conductor c or by short-term change of its polarity. Another possibility is to use a separate conductor (for example d) of the PBX input for this purpose only. Upon generating a charging pulse in any of the above methods, the signal is modulated at 15 kHz as previously described, and the modulated pulse is transmitted by the subscriber input wiring conductors to the subscriber station where the pricing pulse receiver is located to serve the subscriber's needs, including counter.

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The methods used so far to transmit tariff pulses to the subscriber equipment are either technically complex and do they currently require?

also high demands on the quality of the connection lines of the terminal equipment or otherwise cause short-term interruptions of the speech signal, which is particularly problematic for subscribers using telecommunication networks to transmit digital and / or digitized signals (for example, computer-to-computer communication). A further disadvantage is the need to deploy a separate tariff pulse transmitter on each subscriber input of the PBX where this service is required, as well as other technical problems associated with deriving reliable sensing of the tariff pulses from the master subscriber counter circuit in the PBX registration circuits.

These drawbacks are eliminated by the circuitry for transmitting tariff pulses from the subscriber input of the exchange to the subscriber device according to the invention, which is characterized in that the tariff pulses are transmitted by a transmitter located in the outgoing power supply of the exchange. The charging pulse is transmitted as a DC pulse, symmetrical for both local loop conductors. The whole connection according to the invention is realized in that two poles of the station battery are connected by two inputs of the transmitter, two outputs of which are connected to the PBX subscriber input, terminated on the subscriber side by the subscriber device to which a grounded node of two high impedance resistors is connected in parallel. to the center of which is connected a charging pulse receiver consisting of an evaluation circuit and a charging pulse counter. The tariff pulse transmission is achieved by sending a DC pulse from the tariff pulse transmitter circuit. In order to increase the reliability of the identification, it is also possible to modulate the charging pulse in essentially any manner. On the side of the receiver of the tariff pulses, this impulse causes the middle point of the supply path to be moved, which is captured, evaluated and registered by the evaluation circuit by changing the counter state. Since this impulse is symmetrical for both wires of the PBX subscriber input, the quality of the subscriber's ongoing call connection does not interfere with it. This connection simultaneously reduces the number of required transmitters to approximately one fifth of the originally required number? at the same time, there is no need to modulate the tariff pulse to the over-frequency of the speech band transmission band.

The charging pulse emitter circuit is connected so that both poles of the station battery are connected in parallel with a pulse generator with associated switching device, which switches the pulse generator of the selected waveform to the PBX input. A capacitor with a charge current limiter consisting of a parallel connected resistor and a semiconductor diode is connected in parallel to the two terminals of the pulse generator. Both wires of the PBX input are connected to a specific supply bridge. Another advantage of the circuitry according to the invention is that the counter located at the subscriber device in the receiver is independent of the status and operation of the beacon pulse receiver in the PBX registration circuits and its errors and errors caused by receiving beacon pulses from the PBX receiver .

DETAILED DESCRIPTION OF THE INVENTION AND BRIEF DESCRIPTION OF THE DRAWINGS

The circuitry for transmitting the charging pulses to the subscriber device according to the invention is described in more detail in the illustrated embodiment. The negative terminal V of the station battery is connected to the first input 8 of the transmitter V and to the positive terminal + U of the station battery is connected the second input of the transmitter V, the first output of which is connected to the first terminal of the power bridge circuit. is connected in parallel to the first terminal of the capacitor G _o and the first ^- terminal of the resistor Ra is connected in parallel via the conductor and the subscriber line ^{- the} first terminal of the subscriber device U. The second terminal 6 of the transmitter 7 is connected to the first terminal of the supply bridge circuit ₂ ; parallel to the first capacitor terminal G through _the conductor and b of the subscriber line is connected in parallel with the second terminal of resistor R₁ and a second terminal, the subscriber terminal equipment first razistoru U. R., pin receivers? and the first condenser outlet G are connected to each other.

The second inlet of the decoupling capacitor G is coupled to;

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Internal connection of the first input 6, the second switched contact of the transmitter circuit connected with the switched 12 is made so that the contact of the switch 3 is connected to the first output of the pulse generator G, the second output of which is connected in parallel to the second input.

2 and anode of the diode The cathode is connected to the second output 4 and the second capacitor C ₄ , the first terminal of which is connected to a charge current limiter whose second terminal forms a parallel connection of the second terminal of the resistor R ^{and the} cathode of the diode D4. associated with the first ^- razistoru terminal R, forms a first terminal of the charging current limiter, connected in parallel to the central switch contact and to the first output s 3 ..

In the circuit diagram of the invention shown schematically, the contacts of the switch 5 are shown in a position where a generator G is connected to the subscriber input of the control panel; from which a current pulse of defined parameters is sent. At the time of sending the tariff pulse (approx. 80 ms), the subscriber loop is supplied with capacitor C ₄ . After the wires a, b of the local loop, the charging pulse is applied to the receiver P, where it is evaluated and processed. The node of the two resistors R R ^R 2 ^{0 ν Υ 3θ} θ ^ impedance (in the hundreds of kilohms) is adapted parametric values allowable for the data logger, and in all modes of local input panel has a voltage level approximately half the voltage station. Values of RR 2 resistors? ^ro decimal switches are suitable in the range of approximately 1 MOhm; this value is also satisfactory also in terms of parallel resistance to other leads on the line.

Claims (2)

A circuit for transmitting tariff pulses from a subscriber input of a control panel to a subscriber apparatus comprising a transmitter and a receiver of a tariff pulses, characterized in that the first input (1) of the transmitter (V) is connected to the negative terminal (-U) of the station battery and to the positive terminal (+ U) of the station battery is connected the second input of the charging pulse transmitter (V), the first output (3) of which is connected to the first terminal of the supply bridge circuit (0 ^). capacitor (C ₂ ) and connected via a first line (a) of the subscriber line parallel to the first terminal of the subscriber device (U) and the first terminal of the resistor () t whose second terminal is connected to the node with the first terminal of the capacitor (); P) tariff pulses and a first resistor terminal (), the second terminal of which is connected in parallel with the second terminal of the and via a second line (b) of the subscriber line with a first condenser outlet () and a first terminal of the supply bridge circuit ( ₂ ), the second outlet of which is connected to a second output (4) of the tariff pulse transmitter (V); the second condenser outlet (C _n ) is grounded. The tariff pulse transmission circuit according to claim 1, characterized in that the internal connection of the tariff pulse transmitter (V) is such that a first changeover contact of the switch (3) is connected to the first input (1), the second changeover contact of which is connected a first terminal of the charging pulse generator (G), the second terminal of which is connected in parallel to the second input (2) and the diode anode (D ₂ ), the cathode of which is connected in parallel to the second output (4) and the first capacitor (C ₄ ) whose second terminal is connected in parallel to the diode anode (0 _Ί ) and the first terminal of the resistor (), the second terminal of which is connected in parallel to the first output (3), the cathode of the diode (3-,) and the middle contact of the switch (3).