CS257960B1 - Wiring for generating and sensing two-wire telex lines - Google Patents

Abstract

The subject is a circuit with the possibility of connecting a two-wire telex line to devices or systems built from electronic circuits and using digital principles. For the stated purpose, a circuit with separators and sensing circuits for evaluating the received values is used.

Description

BACKGROUND OF THE INVENTION The invention relates to a circuit for generating and sensing states of a two-wire telex line by means of semiconductor elements.

The hitherto known connections for the generation and sensing of two-wire teletype lines use contact switches, respectively. Commutators which, in the rhythm of the transmitted or received markers, connect resistors of adjustable values to the circuit so as to achieve a fine current value for a specified period of time. In the case of connecting a telex line to a system or device with semiconductor elements, it is very difficult to realize the generation and reading of line conditions by means of contact elements.

For the above-described cases, the wiring according to the invention can advantageously be used where the a-wire of the teletype line is connected to an input terminal which is connected to the anode of the first diode and the cathode of the second diode. a diode, the cathode of which is connected both to the terminal used to connect the b-wire of the teletext line, and to the input of the second decoupling sensing circuit, the first output of which is connected to the input of the first forming circuit, whose output terminal serves to indicate a higher line current.

Furthermore, the first output of the second decoupling sensing circuit is connected to the input of the third decoupling sensing circuit, the first output of which is connected to the input of the second forming circuit, the output terminal of which is used to indicate a lower line current. The third forming circuit, the output terminal of which is intended to signal a lower line current, is connected via its input to the second output of the first isolating sensing circuit, the input of which is connected to the first output of the galvanically isolating switching circuit. the circuit and through a resistor with its second output, which is simultaneously connected to the cathode of the first diode and the cathode of the fourth diode, the anode of which is connected to the second output of the second isolating sensing circuit, the input of the first galvanically separating switching circuit is connected to the output the input of the second galvanically isolating switching circuit is connected to the output of the second product gate, the first input of the first product gate being coupled to the input terminal to provide a transmit data select signal.

The first input of the second product gate is coupled to the input terminal for switching the line current, and finally the second inputs of the first and second product gate are connected to each other and connected to the input terminal for supplying the modulation frequency.

By using semiconductor elements instead of electromechanical elements, higher reliability is achieved in generating and sensing teletype conditions and virtually eliminates the need for periodic maintenance and alignment. It will also eliminate other adverse effects occurring in connection with the operation of the electromechanical contact elements in the electronic circuit environment.

The attached figure shows a circuit diagram of the circuit according to the invention. The A-wire of the conduit is connected to the input terminal 7, which is further connected to the anode of the diode 2 and the cathode of the diode 20, the anode of which is connected to the output 31 of the detector. connection of the b-wire of the teletype line, on the one hand to the input 61 of the isolation sensing circuit 6, whose output 62 is connected to the input of the forming circuit 7, whose output terminal serves to indicate a higher line current value a further separation sensing circuit 8, whose output 82 is connected to the input of the forming circuit 2, whose output terminal serves to indicate a lower line current value, and further the forming circuit 10, whose output terminal is intended to signal a lower line current is connected to output 32 a separation sensing circuit 3, whose input 33 is connected to the output 111 of the galvanic isolating switching circuit 11, the second input 112 of which is connected to the output 121 of the galvanic isolating switching circuit 12, and via a resistor 13 to its second output 122, which is simultaneously connected to the cathode

25796D of the diode 2 and the cathode of another diode 14, whose anode is connected to the output 83 of the isolation switching circuit Ά, the input 113 of the galvanically separating switching circuit 11 is connected to the output of the product gate 15 and a second product gate 16, wherein the first product gate 15 input is connected to the input terminal 17 for supplying the select signal and the transmitted data, and the first product gate 16 input is connected to the input input circuit 19 for switching the line current and finally the second product inputs the gates 15 and 16 are connected to each other and connected to an input terminal 18 for connecting a modulation frequency.

With positive polarity on the T-wire, the line current is closed from terminal 1 via diode 2, isolation switching circuit 12 with a resistor 13 connected in parallel, isolation switching circuit 11, isolation switching circuit 34 and diode j4 to terminal 5, connected to b-wire teletype.

In the idle state, the switching circuit 12 is in the open state and the switching circuit 11 is in the closed state - terminals 111 and 112 are connected, so that a smaller line current called supervisory current, given by resistor 13, flows in the teletype. , a signal determining the line current value is applied to the input terminal 19. ί

By applying a higher logic signal to this terminal, the modulation frequency is passed through the gate 16 to the input 123 of the switching circuit 12, bringing the switching circuit to the closed state - the output terminals 121 and 122 are connected and the resistor 13 is bypassed. current than before. A decimal dial signal and transmitted data are applied to the input terminal 17. By applying a lower logic signal to this terminal, the modulating gate 15 prevents the modulation frequency from passing to the input terminal 113 of the switching circuit 11, thereby bringing the switching circuit to the open state - terminals 111 and 112 open, thereby interrupting the line current.

By alternating the higher and lower values of the logic signal at the wiring terminal 17, a decimal selection or data transmission is performed.

If the polarity b-wire is positive, the line current is closed from terminal 5 via the decoupling sensor circuit 16, the decoupling circuit her, the diode 14, the decoupling circuit 12 and the resistor 13 connected in parallel, the decoupling circuit 13, the decoupling circuit 3 and a diode 20 to a terminal 10 connected to the a-wire of the teletype line.

The forming circuits 10, 7 and 9 are connected to the outputs of the separating scanning circuits Q, 6 and jj, from whose outputs the signals determining the status of the teletype line are taken.

The sensing circuit 2 evaluates the presence of a lower line current, i.e., with a positive polarity on the α-wire, the supervisory current and the next prompt for selection. The sensing circuit evaluates the presence of a lower line current with positive polarity on the b-wire of the teletype line, ie the incoming call signal and the conclusion from the control panel. The sensing circuit Q evaluates the presence of a higher line current with positive polarity on the b-wire of the teletype line, i.e. an incoming signal of interconnection with the opposite station, occupation of the opposite station, received data and a conclusion from the opposite station.

The circuitry of the present invention allows generation and sensing of two-wire telex lines in systems or devices with semiconductor electronic elements without the need to install electromechanical elements and their control circuits and to deal with negative effects such as interference, contact burns, etc. significantly increases reliability and significantly reduces maintenance and repair.

Claims (1)

OBJECT OF THE INVENTION Wiring for generating and sensing two-wire teletype conditions, characterized in that the teletext a-wire is connected to an input terminal (1) which is further coupled to a diode anode (2) and a diode cathode (20) whose anode is connected to an output (31) of the decoupling transducer circuit (3) and an anode of the diode (4), the cathode of which is connected both to the terminal (5) used to connect the b-wire of the telex line, whose output (62) is coupled to the inlet of the forming circuit (7), whose output terminal serves to indicate a higher line current value, and the output (63) of the decoupling sensing circuit (6) is coupled to the inlet (81) of another decoupling sensing circuit (8) whose output (82) is connected to the input of the forming circuit (9), whose output terminal is used to indicate a lower line current value, and further the forming circuit (10), whose output terminal is determined for signaling a lower line current, its input is connected to the output (32) of the isolation sensing circuit (3), whose input (33) is connected to the output (111) of the galvanically isolating switching circuit (11), whose second input (112) is connected to the output (121) of the galvanically separating switching circuit (12) and via a resistor (13) to its second output (122), which is simultaneously connected to the cathode of the diode (2) and to the cathode of another diode (14) the output (83) of the isolating sensing circuit (8), the input (113) of the galvanically separating switching circuit (11) is connected to the output of the product gate (15) and the input (123) of the galvanically separating switching circuit (12) is connected to the output of the second a product gate (16), wherein the first product gate input (15) is coupled to an input terminal (17) for supplying a select signal and transmitted data, and the first product gate input (16) is coupled to an input terminal a circuit-breaker (19) for switching the line current and finally the second inputs of the product gates (15, 16) are connected to each other and connected to an input terminal (18) determined for the modulation frequency connection.