DE1276081B - Combined transmission and reception circuit for electronic teleprinters for the mutual generation and transmission or reception and evaluation of binary telex code characters - Google Patents

Description

Combined transmission and reception circuit for electronic teleprinters for the mutual generation and transmission or reception and evaluation of binary Teletype code characters Electronic teleprinters usually contain implementation of the binary code characters of parallel sequences in serial sequences and vice versa Shift register, d. that is, because of the separate structure of the transmitter and receiver Such a teleprinter can send and receive at the same time with a 4-wire connection. In the telex network, however, the local line is only switched with two wires, so that counter-write traffic not possible. The use of alternate writing allows you to write your own Write down the shipment. That is why it is obvious that the one in the transmitting and receiving part an electronic teleprinter separately contained assemblies of the same Art to be used jointly for both processes. Components can thus be saved will. A suitable electronic device must be available for switching the machine from sending and receiving, and vice versa.

Combinations of transmitting and receiving circuits for an electronic Teleprinters that generate binary telex code characters with m steps alternately and send or receive and evaluate by switching to automatic of the required state »send« or »receive« control elements are used to switch on the »Send« state by pressing the type key generated impulse and used for taking on the state of "receiving", which only consists of the rest position of the machine is possible, the potential of the received start-up step is evaluated with a monostable multivibrator are known. This will the use of the shift register and the pulse generator in common for both States enabled.

It is the object of the invention, the transmitting and receiving part of an electronic To combine the teletypewriter with little effort on building blocks.

The invention is characterized in that the starting pulse the Switching of the bistable toggle switch of the send status control element causes whereby the associated monostable multivibrator and thus also the pulse generator triggered and at the same time the switching potential of the two in the two lines from the input lying conjunctions is switched off and thus the machine can no longer accept any characters via the receiving terminals, and moreover the potential at the input of the conjunctive link is removed and thereby the Decoupling circuits take effect, which means that before the transmission has ended of the code character no further character can be generated while the new Switching state of the toggle circuit, the transmission output circuit for outputting the code steps to the transmission terminals and the conjuncture for counting (m + 2) pulses prepared by the counter, whereby the shutdown after counting of the machine in the »Send« state after a blocking step time of 30 ms and the transition is guaranteed in the rest position, during the of the monostable receive flip-flop The generated pulse means that the can only be taken when the machine is at rest The "receiving" state is caused by the fact that, in addition to the delay element (10 ms) when the pulse generator is started, the bistable flip-flop switch is switched over of the receiving state control element is caused, so that the potential at the input of the business cycle link is missing and so the decoupling circuits are effective, which means that on the one hand a transmission prevents and on the other hand the reception of the incoming code character steps in the memory flip-flops before completion of the Reception process is prevented while the new position of the bistable flip-flop the binary counter over the conjuncture for counting m pulses from the Pulse generator and thereby the shutdown of the pulse generator, the resetting of the Counter and the application of switching potential to the inputs of the decoupling circuit and thus would take over the contents of the stages of the shift register in m latch circuits initiated and also caused by the delay element (30 ms) after expiry the locking step time the resetting of the flip-flop takes place, whereby the machine returns from the "receiving" state to the rest position. the Circuit works according to the illustration as follows: Sending process via the to The decoupling circuit 28 belonging to the transmission matrix and the pressed type key are the identification steps of the code character once in the flip-flops of the common Shift registers 29 are stored, on the other hand, they are transferred to the receiving matrix associated decoupling circuit 30 is switched through to the five bistable flip-flops 31 and stored there as well. At the inputs E2 of the conjunctiva of the decoupler circuits 28 and 30 is through-going potential. This potential comes from the output A of a Business cycle element 32, whose two inputs E1 and E 2 from the bistable flip-flops of the two control members 33, 33a and 34, 34a receive their through-connection potential. The starting line switches the flip-flop 33a. The machine is set to "Send" switched and at the same time by removing the through-connection potential at the conjunctiva 39 of input E, the receiver input is blocked. At input E2 of the conjunctive link 32 is now also missing the potential and thus also at its output A. The inputs E2 of the two decoupling circuits 28 and 30 no longer have any through-connection potential, d. i.e. the transmission matrix cannot transmit any further earth potentials in its columns, and the inputs of the five memory flip-flops 31 are blocked. Via the reception matrix the printing process is now initiated. In this way the character to be sent can be recorded. After the printout has taken place, the flip-flops 31 are over the extinguishing line brought back to the rest position from the printing unit.

By switching the flip-flop 33 a potential is also applied to an input of the conjuncture element 35 and thus prepares its connection. The transmit output circuit 41 also receives a potential via this line which enables it to short-circuit the terminals S when a pulse from the register 29 arrives. At the same time, the monostable multivibrator 33 is triggered. The single output pulse causes the pulse generator 36 (generator of constant phase position) to start up, which pushes the identification steps stored in the register 29 through to the output circuit 41 via the shift line. After 7 pulses, the prepared conjuncture link 35 responds, stops the generator 36 and switches the counter 38 back to the rest position. The deletion of the flip-flops of the register 29 takes place via the delay element of 30 ms, whereby the end of the blocking step is also marked with. The same extinguishing pulse also switches the flip-flop 33a back, which means that switching potential is again applied to the conjunctive elements 39 at the input E, also to the input E2 of the conjunctive element 32 and thus also to the decouplers 28 and 30. The machine is again in the rest position.

Receiving process The output terminals S and the input terminals E are located parallel. The conjunctive links 39 behind the terminals E are permeable in the rest position and remain so during the receiving process, since the trigger stage is prevented from being 33 a switches over during this. This also prevents the output circuit 41 short-circuit terminals S (and therefore also terminals E because of the parallel connection) can.

The start-up step of the received code character leaves the monostable Trigger switch 40. This initially causes this with its output pulse the switching of the flip-flop 34a. The machine is thus switched to "receive". As a result, the potential at the input E1 of the conjuncture element 32 is removed, whereby the two decoupling circuits 28 and 30 are blocked. At the same time will the conjuncture 37 prepared for the connection. The monostable multivibrator 34 is also triggered and, to be on the safe side, sends a delay element of 2 ms a clear pulse to the bistable multivibrators of the shift register and to the flip-flop 33a.

The start-up step also comes via a delay element from 10 ms to the pulse generator 36, which in connection with a conjuncture 42 initiates the blanking of the identification steps and their storage in the register 29. After five shift pulses, the binary counter takes over the previously prepared conjunctive term 37 the shutdown. The switch-off pulse is also sent to inputs E2 of the decoupler circuit 30 placed. The five memory circuits 31 can now read the content of the shift register take over. The further course up to the imprint was explained in the explanation of the transmission process already described.

After a period of 30 ms (blocking step duration), the flip-flops of the shift register are cleared via the delay element of 30 ms and the flip-flops 33 a and 34 a are brought into their starting position. The machine is ready to receive the next code character, while the printing process may still be in progress and will inevitably be terminated before the next code character has been completely saved.

Claims (3)

Claims: 1. Combined transmission and reception circuit for electronic teleprinters for the alternate generation and transmission or reception and evaluation of binary telex code characters with m steps using a shift register and control elements to automatically switch on the "send" state by a pulse generated when the type keys are pressed and for the automatic assumption of the "receiving" state by evaluating the potential of the received start-up step with a monostable multivibrator, characterized by the fact that the starting pulse causes the bistable multivibrator (33a) of the transmit state control element to be switched over, whereby the associated monostable multivibrator ( 33) and thus also the pulse generator (36) and at the same time the switching potential of the two conjunctive elements (39) in the two lines from the input (E) is switched off and thus the machine via the receiving terminals (E) no signs can absorb more, with the potential at the input (E2) of the conjuncture element (32) also being removed and the decoupling circuits (28 and 30) becoming effective, which means that no further characters can be generated before the end of the transmission of the code character the new switching state of the flip-flop (33 a) the transmission output circuit (41) for the delivery of the code steps to the transmission terminals (S) and the conjunctural element (35) for counting (m -f- 2) pulses prepared by the counter (38), whereby After counting, the shutdown of the machine in the "Send" state after a blocking step time of 30 ms and the transition to the rest position is guaranteed, while the impulse generated by the monostable receive trigger circuit (40) ensures that the state can only be assumed from the rest position of the machine "Receiving" has the effect that, in addition to the initiation of the pulse generator (36) via the delay element (10 ms), the switching of the b istable flip-flop (34 a) of the receiving state control element is caused, so that the potential at the input (E1) of the conjunctive element (32) is absent and thus the decoupling circuits (28 and 30) are effective, which means that once a transmission is prevented and for other the recording of the incoming code character steps in the memory flip-flops (31) is prevented before the end of the receiving process, while the new position of the bistable flip-flop (34 a) the binary counter (38) via the conjuncture element (37) for counting m pulses from the pulse generator ( 36) and then the shutdown of the pulse generator, the resetting of the counter (38) and the application of switching potential to the inputs (E 2) of the decoupling circuit (30) and thus taking over the contents of the stages of the shift register (29) in m flip-flops (31 ) and also, caused by the delay element (30 ms), the resetting of the flip-flop (34a ) takes place, whereby the machine returns from the "receiving" state to the rest position. 2. Electronic circuitry according to claim 1, characterized in that a monostable multivibrator (34), which is triggered by switching the bistable multivibrator (34 a), one Deletes the erase pulse to the (m -I-1) stages of the shift register (29). 3. Electronic Circuit arrangement according to Claim 1, characterized in that also during the transmission process the identification steps of the telex code characters in the m memory flip-flops (31) can be stored so that the character sent is also recorded. Into consideration Printed publications: German Auslegeschriften No. 1067 468, 1075142.