CS257959B1 - Four-wire teleprinter line's condition generating and reading connection - Google Patents

Abstract

The subject is engagement, enabling connecting a four-wire telex leading to facilities or systems built from electronic circuits and using digital principles. For that purpose is used for isolating switching circuits, insulating transmission members and forming circuits.

Description

BACKGROUND OF THE INVENTION The present invention relates to circuitry for generating and sensing states of a four-wire telex line by means of semiconductor devices.

The hitherto known circuitry for the generation and sensing of four-wire teletype lines uses contact switches and / or contact switches. Commutators which, in the rhythm of the transmitted or received markers, connect resistors of adjustable value to the circuit so as to achieve the nominal current value for a specified period of time. In the case of connection of telex lines to systems or devices with semiconductor elements, it is very difficult to realize generation and reading of line conditions by means of electromechanical elements.

For the cases described above, the wiring according to the invention may be advantageously used, wherein the T-wire is connected to a first wiring input terminal which is further coupled to a second output of the first decoupling circuit and a first output of the second decoupling circuit whose second output is coupled to the second output of the fourth decoupling circuit, the first output of which is connected both to the second output of the third decoupling circuit and to the second terminal for connecting the b-wire of the telex line.

The first output of the third decoupling circuit is coupled to the first output of the first decoupling circuit and connected to a positive pole of the line supply voltage via a variable resistor. The first input of the first decoupling circuit is coupled to the first input of the second decoupling circuit and connected to the positive pole of the logic network supply and the second input of the first decoupling circuit is coupled to the first input of the fourth decoupling circuit, the second input of the second decoupling circuit is interconnected. the first input of the third decoupling circuit and the second input of the third decoupling circuit are connected to the output of a first switch whose input is connected to the output of the first product gate, the first input of which is coupled to the fifth terminal; a negative input of the second product gate, the first input of which is connected to the second input of the first product gate and to the sixth input terminal for supplying the modulation frequency and whose output is connected to the input up the fourth isolating switching circuit.

A third input terminal for connecting the d-wire of the telex line is coupled to the anode of the first diode and the cathode of the second second diode, the cathode of the first diode being coupled to the first input of the first insulator. and a fourth input terminal for connecting the c-wire of the teletype line, the second input of which is connected to the anode of the second diode. The second output of the first insulating transfer member is connected to the input of the first forming circuit, and also the second output of the second insulating transfer member is connected to the input of the second forming circuit.

The output of the first shaping circuit is coupled to the first input of the multilpexor and the output of the second shaping circuit is coupled to the fourth input of the multiplexer, the remaining two inputs of the multiplexer are connected and connected to the seventh terminal. through which the processed data signal is routed to other circuits.

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

FIG. 1 shows the wiring of the transmission part. The A-wire of the telephony line is connected to terminal 21, which is further connected to the output 84 of the decoupling circuit 8 and the output of the decoupling circuit 7, the second output 74 of which is connected to the output 54 of the decoupling circuit 5. to the output 64 of the decoupling circuit 6, on the one hand to the terminal 22 used for connecting the b-wire, and the output 63 of the decoupling circuit 6 is connected to the output 83 of the decoupling circuit

8. and via a variable resistor 2 connected to the positive pole of the line supply voltage, the first input 81 of the isolation switching circuit 8 being connected to the first input 71 of the isolation switching circuit 7 and connected to the positive pole of the logic network supply voltage and the second input 82 of the isolation switching circuit. j! is connected to the first input 51 of the isolating switching circuit 5 and finally the input 72 of the isolating switching circuit is connected to the first input 61 of the isolating switching circuit 6, its second input 62 being connected to the first input of the switch 2 »Whose first input is connected to an input 11 for supplying data information in series form and a second negative product gate input 3 whose first input is connected to a second product gate input 1, an input terminal 16 for supplying a modulation frequency and whose output is connected to the input of the switch 8, the output of which is connected to the input 52 of the isolating switching circuit 2;

FIG. 2 shows the wiring of the receiving part. The input terminal 24 for connecting the d-wire of the telex line is connected to the anode of the diode 9 and the cathode of the diode 11, the cathode of the diode 2 ^{and the} cathode of the diode 11 connected to the first input 101 of the insulating transfer member 10. a first input 121 of the insulating transfer member 12 and a terminal 23 for connecting the c-wire of the teletype line, the second input 122 of which is connected to the anode of the diode 11 and the output of the insulating transfer member 10 is connected to the inlet of the forming circuit 13; 12 is connected to the input of the shaping circuit 14, wherein the output of the shaping circuit 13 is coupled to the input 151 of the multiplexer 15 and the output of the shaping circuit 14 is coupled to the input 154 of the multiplexer 15. a terminal 17 for supplying the select / data discrimination signal and finally a mul output The tiplexer 15 forms an output terminal 18 through which the processed data signal is output for processing to other circuits.

Fig. 3 shows the possibility of connecting the isolating switching circuit according to the invention.

The pulse transformer input winding terminals 311, 312 are intended to provide an excitation signal, and the first pulse transformer output winding terminal 313 is coupled to the anode of a rectifier diode 32, the output of which is coupled via a filter capacitor 33 to the second pulse transformer output winding terminal 314. the output of resistor 35, emitter of switching transistor 36 and output terminal 364 and second output terminal 363 is connected to the collector of switching transistor 36, the base of which is connected to the node of resistors 34 and 35, the other end of resistor 34 connected to the cathode rectifiers diodes 32.

The two-state information to be transmitted to the DATA OUT is sampled at the modulation frequency applied to terminal 16 by two product gates 1. and .3, whose outputs via switches 2 and 4, according to the state of the input data signal, switch suitable isolating switching circuits 5 to J3. Thus, a suitable line voltage polarity is connected to terminals 21 and 22, and a line current value can be set by adjusting the variable resistor. After detecting and evaluating the line current and converting it to a two-state logic signal, it is connected to the input terminals 23 and 24 of a pair of insulating transducers 10 and 12 via two opposite polarized diodes 2 ^and H, so transmission members.

The output terminal of one or the other, depending on the instantaneous communication mode (i.e. one polarity in the case of dialing and the other in the case of data receiving), is then fed through one of the two formers 13 and 14 and the multiplexer 15 to the output terminal 18 DATA IN.

The wiring enables generation and sensing of four-wire telex lines in systems or devices with semiconductor electronic elements without the need to install electromechanical elements and their control circuits and to cope with negative manifestations of their operation, such as interference, sunburn, etc. Using the circuitry of the invention reliability increases significantly and maintenance and repair work is significantly reduced.

Claims (1)

A circuit for generating and sensing states of a four-wire telex line, characterized in that the telex line a-wire is connected to a terminal (21) which is further connected to the output (84) of the isolation switching circuit (8) and the output (73) of the isolation switching circuit. (7), whose second output Π4Ι is connected to the output (54) of the decoupling circuit (5), whose first input (53) is connected both to the output (64) of the decoupling circuit (6) and to the terminal (22), serving for connecting the b-wire and further the output (63) of the isolating switching circuit (6) is connected to the output (83) of the isolating switching circuit (8) and via a variable resistor (19) is connected to the positive pole of the line supply voltage; (81) of the isolating switching circuit (8) is connected to the first input (71) of the isolating switching circuit (7) and connected to the positive pole of the supply voltage of the logic sieve and the second input upstream of the isolating switching circuit (8) is coupled to the first isolating switching circuit input (51) and finally the second isolating switching circuit input (72) is coupled to the isolating switching circuit input (61) of the first input (61) and its second input (62) is connected to the output of the switch (2), the input of which is connected to the output of the product gate (1), the first input of which is connected to the input (11) for supplying data information in serial form and a second negative input of the product gate (3), the first input of which is coupled to the second input of the product gate (1) and the input terminal (16) for supplying the modulation frequency and whose output is connected to the input of the switch with an input (52) of the isolating switching circuit (5), the input terminal (24) for connecting the d-wire of the teletype line is connected to the anode of the diode (9) and the cathode of the diode (11), and a diode (9) is connected to the first input (101) of the insulating transfer member (10), the second input (102) of which is connected to the first input (121) of the insulating transfer member (12) and the terminal (23) the wires of the teletype line, the second input of which is connected to the anode of the diode and the output of the insulating transfer member is connected to the inlet of the forming circuit, and the output of the insulating transfer member is connected to the diode. an inlet of the shaping circuit (14), the outlet of the shaping circuit (13) being coupled to the inlet (151) of the multiplexer (15) and an outlet of the shaping circuit (14) to the inlet (154) of the multiplexer (15), (153) and inverse (152) are coupled to terminal (17) for supplying the select / data discrimination signal and finally the multiplexer output forms the output terminal (18), while the first terminal (311) of the input winding of the pulse transformer is connected to the anode of a rectifier diode (32), the input of which is connected via a filter capacitor (33) to a second terminal (314) of the pulse transformer output winding (31), one resistor terminal (35), switching transistor emitter (36) and output terminal The wiring output and the second wiring output terminal (363) is connected to the collector of the switching transistor (36) whose base is connected to the resistor node (34, 35), the other end of the resistor (34) being connected to the cathode of the rectifier diode.