DE1292169B - Circuit arrangement of a field office for the transmission of binary data between a central office and a plurality of these field stations arranged in a message loop - Google Patents

Description

1 2

The invention relates to a circuit arrangement of the received signal at a specific time value a branch office for the transmission of binary exceeds.

Data between a central point and a multi-The messaging system contains a

number of these central points arranged in a message loop and a plurality of remote outstations. 5 assigned branch offices, which are connected to the news

It is about the transmission of data loops are connected. The branch offices are assigned to a plurality of radio or television receivers spatially distant from one another arranged branch offices are reported to a central office, usage data are reported, d. H. the information, preferably to messages about the use of whether the recipient is switched on or off and on one or more radio or television io which channel or station it is tuned to. These recipient. The branch offices can be used at regular intervals be away from each other, for example a distance from the branch offices to the central office averages several hundred kilometers from each other, in which they are then evaluated. the and from the central office. The Central Office sends in at regular intervals asks the connected branch offices of row 15 query or address signal to all branch offices, after from and automatically receives information from them which causes the called branch office to auto over the use of the recipient (s), d. H. automatically send their information to the central office the notification as to whether the recipient is logged out or logged in.

is switched, and the message on which channel the circuit arrangement according to the invention is

or which broadcasting station it is set. The 20 uses impulses (electricity closure impulses or electricity branch offices are verim with the central office by an interrupt pulse of the message loop) Idle state closed message loop of different duration, which contains the binary bits "1" and connected, which represent the branch offices in a series of "0". For example, the presence contains. For the transmission of the messages or or the absence of a signal of a long duration the Data will use pulses of different lengths to represent 25 binary number "1" while presence det, with the impulses from both power supply and the absence of a signal of short duration gen and from power interruptions in the loop represents the binary number "0". If the data is a can exist. Such an arrangement is overridden for certain branch offices at the central office proposed but not to be submitted, the latter sends a published query. 30 signal, which consists of a combination of long and short signals corresponding to the address Arrangement arrives there is a large number of mono-called external office. This query-stable multivibrator with a delayed return signal is used by all branch offices of the message center for applications received within loop. It will be with the in each of the have to work relatively close tolerances. 35 branch offices have saved their own address combinations conditionally comparatively high costs of the nation, but only those due to the location. Address addressed branch office repaired The invention is based on the object that is to transfer your message to the central office To improve arrangement, to simplify mean. The duration of the bits that make up the query and reduce their cost as well as the security 40 signal is composed by a time of the Increase data transmission and control circuit checked by the (in the USA. Provide devices that transmit a false transmission (normal) alternating current of the light line of 60 perilation impede. desolate is controlled. Any binary "1" or "0" that is The essence of the invention is detected when a switch is made by the timer circuit processing arrangement of a branch office for transmission 45 given to the input of a shift register. at of data between a central point and each transition of the message loop from the stream-plurality this state in a message loop to the de-energized state or ordered outposts, with each of the outposts reversed, showing the end of a bit and the beginning by one sent out by the central office means the next, the received bits Address signal is selected and repaired, 50 transferred to the next stage of the shift register, to transmit their message to the central office, in this way at the end of the transmission in wherein the message signals of binary bits in the shift register are a combination of binary Stored in the form of short and long, consecutive bits, which represent the binary values "1" or Signals (current impulses or current interruptions - represent "0" and in their entirety those of the gen) consist in the fact that an address combination, which is known per se, is transferred to the shift register with a plurality of trailing. After the address combinations have been transferred arranged stages including one nation become those in the shift registers of all output stage is provided, the memory content of which is stored in external locations, received addresses by one with each change in the state of the existing in each of the branch offices Message loop generated pulse of a pulse 60 own address compared to see if it encoder advanced by one level and match this.

at the same time the binary bit »0« in the input stage This is only the case with one of the branch offices,

is entered, and that one with the signal source known timer circuit signal with its own address combination overprovised which agrees after a previous 65 has elapsed, the shift register is cleared and the state of the input stage at a certain time - a single bit in succession from the first to the changes so that the memory content of this stage is advanced to the last stage of the shift register. the binary bit "1" is converted when the duration of individual stages of the shift register are working now

3 4

as a controller that sequentially applies a plurality of potentials to the output terminals when the

of stages asks which transistor 22 is conductive in its entirety. The arrangement of the

answer to be transmitted included. During these gears and outputs in the symbol of Fig. 3A

Step-by-step interrogation is a transmission relay of the ant in such a way that the application of a positive signal to the verbal external unit is controlled in such a way that it 5 the output terminal A or B of the relevant part

long and short impulses (power lines or power lines bring the rectangle to earth potential. With others

Interruptions) according to the words in binary form: The application of a positive signal to the

stored response of the external unit to terminal # brings the output terminals to ground

Central office transmitted. After the shift potential. The application of a positive potential

register of the branch office its response signal ends io the input terminal C switches the flip-flop,

has, the remote station is switched to the idle state, the conductive state of the transistors 20 and

returned. 22 and the polarity of the output terminals D

An embodiment of the arrangement according to which and E is reversed.

Invention is shown in the drawing. The symbol of a flip-flop for sliding

Figs. 1 and 2, placed side by side, show the 15 registers shown in Fig. 4A. Fig. 4B shows the

Basic circuit of a circuit arrangement according to the circuit carried out. The flip-flop of Figure 4B

of the invention as well as the branch 44, the post is formed essentially in the same way

Richtenschleife 42 and the central office 40; like that of fig. 3 B. It contains two transistors 30

3A and 3B show the symbol and the out and 32 with grounded emitters and crossed circuit of a flip-flop (also called bistable zo connected base and collector-toggle switch or bistable multivibrator). The circuit contains two inputs A as in the basic circuit according to FIG. 1 and 2 and B, which is optionally used with ground potential or for the timer circuit; be connected to a negative potential, and

4 A and 4 B show the symbol and the common pulse input C. An output-guided circuit of a flip-flop, as it is at the terminal E , receives essentially ground potential when shift registers of the circuit according to FIG. 1 and 2 to the transistor 32 becomes conductive, and falls on a more application; negative potential when transistor 30 is conductive

F i g. 5 shows how FIG. 1 and 2 next to each other. An output terminal F receives which are to be placed on the opposite side. Set polarity like terminal E. If one

The representation of the F i g. 1 and 2 uses logic 30 reset terminal D receives a positive pulse, symbols for the individual subcircuits, for example transistor 32 is non-conductive and the mode for a flip-flop. These symbols and the sistor 30 are conductive, so that the flip-flop is in its idle circuits in FIG. 3 A, 3 B, 4 A and position returns.

4 B. The subcircuits shown It is assumed that the input terminals A

are known per se, but should be the complete 35 and B with the output terminals E and F one

are explained below for the sake of convenience. previous stage are connected so that the

The symbol for a control flip-flop is given ground potential in terminal A and terminal B is shown in FIG. 3A, while FIG. 3B shows a negative potential; in this case the led circuit gets shows. The control flip-flop is a diode 34 a blocking potential, and the diode 36 is a bistable multivibrator with two transistors 20 and 40 conductive. If then a positive pulse on the ge-22, which alternately become conductive. The emitter is given to the common input terminal C , he transistors 20 and 22 are forwarded to a reference via the diode 36, connected to the transistor potential, e.g. earth, while 30 is nonconducting and the transistor 32 is conductive to the collectors crossed with make the base electrodes. The application of further input pulses are connected to. It is assumed that the trans- 45 the input terminal C changes the state of the flipsistor 20 is normally conductive, so that in the we-flops only after the potentials of the terminal ground potential to the output terminal E and B are reversed. When these potentials are surrounded. If a positive pulse is applied to the turned, the next makes terminal C terminal A or terminal C, the given pulse makes transistor 32 non-conductive and the base of transistor 20 is positive compared to its 50, transistor 30 is conductive.

Emitter, so that this transistor becomes non-conductive. In the symbol of Fig. 4A, the input

At the same time, the potential of the base of the terminal D becomes the hatched part of the rectangle

sistors22 more negative, so that this transistor, which contains the output terminal F, is connected

becomes conductive. At that time, a negative will be displayed to indicate that this terminal is normal

Potential given to the output terminal E , while 55 leads to earth potential when a positive pulse is applied to the

rend the output terminal D carries ground potential. Terminal D is given. The input terminal C is

If thereupon a positive impulse is connected to the common with both halves of the rectangle. the

if input C or input B is given, output terminal E is marked with the non-hatched one

transistor 22 becomes non-conductive so that the Tran portion of the rectangle is connected to indicate that

sistor 20 becomes conductive. In this state, the 60 inputs this terminal in the rest position of the flip-flop

Flip-flop carries a negative potential to the output negative potential.

Terminal D and ground potential on the output. The schematic circuit diagram of FIG. 1 clamp. The flip-flop will be explained by a 12 volt and 2. The illustrated message battery is powered. Transmission system contains a central point 40, an

In the symbol of FIG. 3A, the hatched part of the rectangle that is connected to a message loop 42 shows the application of a plurality of spatially positive or earth potentials connected in series to the output borrowed more or less remote external locations D and the Creation of a more negative holds, for example a branch 44 as well as the

5 6

Branch office 46, the circuit of which is shown in FIG. 1 and 2 in the long and short signal, which this information individual is shown. Each of the branch offices 44 designated via the message loop 42 to the and 46 contains devices 136 known per se, central point 40 is transmitted. At the next which feed a converter 48 with signals, which transition of the message loop 42 is the in the indicate whether one or more recipients of the 5 shift registers have stored binary "1" on the External unit (radio or television receiver) is transferred to the following stage of the shift register and are in the switched-on state and the next stage of the converter 48 is queried. These the channel or station you are tuned to. The procedure is repeated step by step until the If all of the Informa-44 or 46 are transmitted to the central office 40 via the message loop 42 to the central office should be sent by the central station via the post 40 is transmitted. Once this is done direct loop 42 a query or address signal, the remote station 46 is returned to the rest position Form a combination of long and short led.

Pulses from which the binary bits "1" and "0" The time-measuring circuits, e.g. B. the time of the address of the addressed branch office, input circuit 49 of the branch office 46, are always included, for example of the branch office 46. The duration in operation and are driven by the alternating current of these bits is determined by the transition from the light guide of 60 periods. The time currentless in the current-conducting state of the transfer circuit 49 contains four stages 52, 54, 56 transmission loop or vice versa. It is all and 58 in the form of flip-flops that are driven by a branch office, for example the branch office 44 20 Schmidt trigger circuit 60. Der and 46, transmitted at the same time. At the transition of the alternating current of 60 periods is connected via a trans message loop 42 to the currentless state, formator 62 and two diodes 64 and 66 'with which the beginning of an extra long sub-input of the Schmidt trigger circuit 60 connected, which As a start, so that this is used effectively by a frequency or control signal, a time 25 doubler is driven and 120 positive judging circuit 49, which receives through the 60periodigen tete pulses per second. It therefore gives an alternating current of the lighting network is driven, in a corresponding number of output signals which are brought to their rest position in order to initiate the time measurement in the input of the first stage 52 of the timer circuit, the external station 46. The branch office is ready to accept the query or address signal at intervals of 8Vs milliseconds, alternating between the work and rest position. The timer circuit 49 operates while it is being brought. The output of stage 52 is given to the end of the extra long interrupt signal in such a way, input of stage 54, so that this in Abdaß it stands with the general reference number 50 of 16Vs milliseconds alternately in the designated shift register in its rest position working and rest position will. The output and that the transition of the message loop 35 passage of the stage 54 is given to the input of the stage 56 42 at the end of the extra long interrupt signal, so that this initiates the time measurement for the first address bit at intervals of 33Vs milli. Seconds alternately in the work and rest-The timer circuit 49 controls a gate position is brought. The output of the stage 46 in connection with the signals that make a transition is given to the right input of the stage 58, the message loop 42 from the closed 40 so that it is in the open state or vice versa ^{after 66 2 A milliseconds} Working position is brought,
The message loop 42 is closed and stage 80 of the shift register 50 is to be used to represent the signals that have a binary bit “1” , which is therefore live, so that the winding of the latter at each transition of the message loop 45 output relay 66 via a full-wave rectifier 68 is advanced by one step. In this way and the normally closed contact 70 α, the shift register 50 with a combination of an output relay 70 receives current. The full range of binary bits "0" or "1" corresponding to the rectifier 68 and the output relay 70 belong to the address transmitted by the central office to the external office 46; each of the other outposts, feeds. 50, for example, the remote office 44, has the same facilities at the end of the transmission of each address. When the input relay 66 receives the contents of the shift register with its own current, its contact 66 a is open.
Addresses stored in the branch office compared. If the central office 40 is one of the branch offices; the branch office whose own address wishes to query the branch office 46, for example, matches the received address, 55 the message loop 42 is first repaired for a response to the central office 40 duration of more than one hundred milliseconds (and to transmit. Es it is assumed that the outside (133Vs milliseconds) opened, whereby the point 46 was selected by the central point 40. In this case, after checking the address sent out by the central office, a circuit for sending the 60 will be received. If the message loop 42 response is activated and a binary bit "1" is interrupted and de-energized, the input to the input stage of the shift register 50 is relay 66 de-energized so that its contact 66 a closes. This bit “1” then becomes the next one. As a result, an inverter 72 becomes non-conductive, so that a stage is transmitted in which an actuation signal, a capacitor 74 with negative potential, is applied to the first stage of the converter 48. The 65 from the inverter 72 begins to charge and the presence of a binary bit “1” or “0”, which positive pulse is given by the capacitor 76 to an OR-ches that the first receiving gate 78 is switched on or off. This positive pulse is represented, controls the circuit in such a way that an on the reset lines of the stages 52, 54, 56

7 8

and 58 of the timer circuit 49 and brings the OR gate 78 to the incremental inputs of these in their rest position. The positive pulse is stages 81 to 91 are of the shift register and on the on the reset input of the input stage 80 reset input of the input stage 80th Since that of the shift register and of the incremental inputs input stage 80 was in its working position, the stages 81 to 91 were given. After 5 has elapsed, in which it stored a "1", this is transferred to stage 81 58Va milliseconds since the positive memory content was received. The impulse stage, which was triggered by the transition of the message 81 of the shift register, now saves the binary loop from the current-carrying to the currentless number "1", while the remaining stages 82 to 91 are in the three stages 52, their rest position remain in which they store the binary 54 and 56 in their working position, so that an io number "0" is stored. The input stage 80 becomes conductive in AND gate 92, which is brought to its rest position when the memory is stored, in which the binary number "1" becomes effective. If the number stores "0". The positive pulse of the OR-AND gate 92 becomes conductive, an inverter 94 gate 78 is also conductive to the reset inputs of the gate and gives a positive pulse to the stages 52, 54, 56 and 58 of the timer circuit 49 left input of the input stage 80 of the Shift 15 given, so that this is brought into its rest position register 50, so that the binary "1" is stored in this and begins to store a new period of time. This bit is part of a control measurement to determine the duration of the power line the postcode, which is then determined and ascertained via the nine stages of the shifting device loop 42, register 50 is incremented and used to determine whether the first bit of the received address is a » 1 «to initiate a check as to whether that from the central office is ao or a» 0 «.

sent address the desired number of bits Since the first bit of the accepted address is a

contained. The second bit of the control code is "1", the current line of the binary number "0", which is already through the first loop, lasts for about 75 milliseconds. After the switching pulse has elapsed on stage 81 of shift register 58V ₃ milliseconds, stages 52, 54 and 56 have been entered. 25 the timer circuit is in its working position,

After 100 milliseconds have elapsed all and the AND gate 92 is conductive again, so that the inputs of an AND gate 96 is applied, which inverter 94 sends a positive pulse to the left when receiving the extra long interrupt input of the input stage 80 of the shift register signals, ie the start signal, becomes effective, which gives. In the input stage 80 , this means that the first duration is more than 100 milliseconds. Two of the 30 bits "1" of the received address are saved. After inputs of the AND gate 96, the central point opens potentials from the stages 56 and 58 of the timer 40 again the message loop 42, so that this is applied by the negative expiry of the 75 milliseconds. The third input is de-energized and the contact 66 a closes. The output signal of the inverter 72 is applied here, which means that the transmission of the first address bit tends to remain non-conductive, since the contact 66 a is terminated and the transmission of the second bit is included. When the AND gate 96 switches through, which is passed according to the assumed address, an inverter 98 gives a positive pulse via a likewise long signal of about 75 milliseconds, a capacitor 100 and an OR gate 102 and again the binary number »1 «Represents the (left) reset input of a flip-flop 104. When the contact 66 a closes, the supply thereby ensures that this is in its 40 capacitor 76 and the OR gate 78 is again in a rest position. The inverter 98 gives an extra-positive pulse, which is given a positive signal to the reset input stages 81 to 91 of the shift register, of a flip-flop 160 of the output relay 70, in order to ensure that the binary numbers stored therein that this is de-energized and its contact is advanced one step. The positive pulse 70 a is closed. The inverter 98 is about 45 from the OR gate 78 also brings the input out a positive pulse to an OR gate 108 stage 80 of the shift register and the stages 52, 54, and from there to a reset line that goes to each 56 and 58 of the Timer circuit 49 idles stages 81 through 91 of shift register 50; position back.

As a result, all levels of the shift are because the second bit of the address is also a "1"

registers with the exception of the input stage 80 is in its 50, the AND gate 92 becomes conductive again and controls the rest position. The input stage 80 stores the inverter 94 in such a way that a positive pulse now records the binary bit “1”, which was entered by the AND gate 92 under the control left input of the input stage 80. At the end of the extra long interruption signal, and in this again a "1" is stored, the message loop 42 closes at the end of the transmission of the second bit, central station 40, at now 55 the message loop is closed again, so that the address for the desired branch office can be selected. that the contact 66 α opens and the inverter 72 send conductive. It is assumed that the remote station is doing 46, with the result that the capacitor 74 has the address "00110011". The transmission of the one positive pulse via the OR gate 78 to address begins with the last digit. The central switching inputs of stages 81 to 91 and in place 40 first send out a long signal, 60 is the reset input of input stage 80 . The which the (last) binary number "1" of the address levels 81, 82 and 83 are therefore represented in their working. For this purpose, the message position is brought, in which you store the binary number "1" loop 42 for a duration of about 75 milliseconds; the input stage 80 is closed and thus kept energized. When positioned. The stages 85 to 91 remain, the message loop is energized, 65 receives current in its rest position, in which it feeds a "0" to the input relay 66, so that its contact comes off. The pulse of the OR gate 78 also brings about a opens. As a result, the inverter 72 is conductive, the timer circuit 49 in its rest position zuo that the capacitor 74 returns a positive signal.

909 515/1257

9 10

Since the third bit of the address of the external unit 46, both inputs are connected to the left output of the is a “0”, the central station 40 closes the post-stage 90 or with the right output of the stage 89 straightening loop only connected for the duration of 33Vs Milli-. Stage 89 stores the "1" of the second, whereupon the loop interrupted again trollcode. To operate the AND gate 110, must and is made currentless, so that the contact 66 a 5, the stage 90 is always in its rest position and the closes again. At this point in time the stage 89 is in its working position. The AND capacitor 76 and the OR gate 78 a positive gate 110 can only be operated if the tive pulse on the incremental inputs of the stages correct number of bits has been received. Became 81 to 91 and a reset pulse to the time- received a larger number of bits, so would encoder circuit 49 and the input stage 80 of the io the "1" stored in stage 89 is now in the Shift register 50. Since the timer circuit is located during stage 90, and the second input of the AND rend this short signal does not reach the position gate 110 would not receive any actuation potential, could, in which all inputs of the AND gate92 The stage 90 can, however, if it is through a to are supplied with pulses, a large number of address bits are used in their work stage 80 the binary number "1" has not been saved, it has not been returned to the rest position that the delivered by the OR gate 98 can be continued, there is an AND gate 112, which with switching pulse now the binary bit »0« on stage 81 is connected to the right input of stage 90, advances; at the same time, the binary number is given a blocking potential by the flip-flop 104, see above len "1" of steps 81, 83 and 84 by one step so that the incremental pulse does not enter this step advanced. The other stages remain in their 20 rest position. If a wrong retirement, in which you save the value »0«. number of bits received can also Depending on whether the stepping signal at the output of the stage 89, in which the "1" of the control code OR gate 78 is before or after actuating the store, not be in the working position; the AND gate 92 through timer circuit 49, the third input of AND gate 110 would not be appears, an actuation potential is thus obtained in the input stage 80. Levels 89 and 90 binary "1" or a "0" stored. The positive therefore prevent the AND gate from being operated Stepping pulse at the output of the OR gate 78 110 if an incorrect number of address bits is received directly by opening and closing; the top input of the AND message loop 42 controlled. Gate 110 only allows it to be operated

The central office 40 now sends the remaining 30 when the message loop ends five bits of the address, namely the bits "00110" of the transmission of the address signal closed (to be read from the back). These are in the described and live.

benen way stored in shift register 50. If the next eight inputs of the AND gate 110

the message loop 42 is closed for the last time - according to the address of the branch office 46 sen and thereby the last incremental pulse 35 with the left or right output of the stages 81 is generated, the "0" of the control code is linked to 88. Because the address of the branch office Stage 90 and the "1" of the control code in stage 89 46, the circuit of which is shown in FIG. saved; the input stage 80 is located in the »001100111«, the right outputs are the Rest position, and the stages 81 to 88 store the stages 88, 87, 84 and 83 and the left outputs Address signal »00110011«. The branch office 46 connects 40 of the steps 86, 85, 82 and 81 with the inputs of the remains in this position until the live AND gate is connected. The two lower one-state of the message loop 42 during a course of the AND gate 110 are with the left off time duration of 58V3 milliseconds has passed the steps 56 and 58 of the timer At the end of this period, the AND gate 92 is linked so that the gate 110 only switches through when again conductive and controls the inverter 94 so, 45 when the closed state of the messages that the input stage 80 of the shift register again loop 42 for the duration of 100 milliseconds her working position is brought so that it has stood.

the binary number "1" is saved. After expiry If the AND gate 110 switches through, a

from 100 milliseconds, stages 56 and 58 inverters 114 are conductive and give a positive pulse the timer circuit is in its working position. 50 to the right input of the flip-flop 104, the This initiates a test in which this brings it into its working position. This will The address of all external addresses, stored in the shift register, is advanced by a blocking potential from an AND gate 116 is compared with its own address in order to determine which one corresponds to the stepping input of the To determine which of the branch offices is called, flip-flops 160 are connected. If the flip-flop to transmit their answer to the central office. 55 104 is brought into its working position, is also By the setting of the timer circuit 49, a holding potential of the six diodes 118, 120, removed the AND gate 96 for the extra long interrupt 122, 124, 126 and 128 (Fig. 2) to signal, however, not activated, since the right input shows the desired mode of operation of the converter this gate of the conductive inverter 72 a control by the shift register 50 to enable blocking potential receives. 60 loaned. In the working position of the flip-flop 104

The address stored in the shift register 50 also becomes a capacitor 130 (Fig. 1) in all stages at the same time through an AND gate controls that it receives a positive pulse via an AND with 13 inputs checked, which gate 134 is switched to the (left) reset input of a flip, that it stores the address of the remote station 46. Flops 132. In the working position of the flip-flop The top input of this gate receives an actuation 65 104 the AND gate 112 is also partially unlocked supply potential, since the message loop is closed and the AND gate 92 is blocked, so that the timer and the contact 66 ″ is open, so that this circuit 49 no longer has the position of the input input receives a negative potential. The next level 80 controls; this level now saves a "1".

11 12

The positive blocking direction appearing at the output of the inverter 114 as a result of through 120, 122, 124, 126 and 128 a bias voltage in the circuit of the AND gate 110 , the desired mode of operation of the pulse is also transmitted via an OR gate 108 to the associated stages accordingly to enable the setting of the right inputs of the stages 81 to 91 of the shift switching devices 136 , register is applied. When these steps are all in their 5 The transmission of the response from the external unit rest position, the switching potentials are 46 starts at the central point 40 when the flip-flop of the inputs of the AND gate is brought to its working position 110 fortgenom- 104 of. To this men, so that the time supplied by the inverter 114 , all inputs of the AND gate 116 have a positive pulse is ended. As a result of the speed actuation potential, and the inverter 114 gives in the speed with which the stages 81 to 91 are brought back a positive pulse to the rest position in their io-described manner, the in-stepping input of the flip-flop 160 delivers. The latter verter 114 a positive pulse of relative- is thereby brought into its working position, so of a moderately short duration, in the order of magnitude that the winding of the output relay 70 receives current for a few microseconds. and this appeals. If the relay 70 responds, the remote station 46 is now ready, its response to 15, the contact 70a is opened and the messages to the central station to transmit. This answer is looped 42 interrupted. This causes the de-energized to keep the desired information about the loading of the relay 66, so that its contact 66a uses one or more receiving devices, which the closes. By closing the contact 66 a, external locations are assigned, ie the communication as to whether the OR gate 78 switches the relevant receiver off or on in the manner described, so that a positive pulse is applied to the progression, as well as the information which channel or inputs of levels 81 to 91 and the reset transmitter it is set to. This message is given by the input of the input stage 80 of the shift register ge switching devices 136 , which is given in on the right. This pulse switches the in the Ein-Fig. 2 are shown in rectangular shape. Such a binary number "1" stored in the gear stage 80 on the switching devices, which proceed with a receiving device 25, the next stage 81. The positive pulse at which are coupled out are known per se and, for example, the operation of the OR gate 78 also brings the timer circuit described in US Pat. No. 2 881417 back to its idle position. Thereby practicing. The switching devices 136 give, for example, if one of the inputs of the AND gate 116 is blocked, a low alternating current potential is applied so that the inverter 141 becomes non-conductive. As a result of this, converter 48, when the receiver is switched off, 30, however, does not change the position of flip-flop 160 and a higher AC potential when it changes.

Receiver is switched on. When the stage 81 of the shift register is also activated, the switching devices 136 emit an incremental signal (caused by the response of a combination of high and low alternating values of the output relay 70 and the de-energization of the current potential, which has the binary values "1", "2", 35 Input relay 66) brought into their working position "4" and "8" represent the coded response to is generated by stage 81 via a diode 142 of the converter. A high AC potential converter 48, which is assigned to stage 81, indicates a binary "1", while a low positive pulse represents a binary "0" for the duration of the first of the AC potential. Bits transmitted to the central office. The converter 48 contains a number of stages for controlling 40. When the first receiver is turned on, they are equal among themselves. Only the lowest two is capacitor 138 is on a high negative stages of the converter are shown in FIG. 2 circuit potential charged, so that of the stage 81 shown moderately. They contain storage capacitors - outgoing impulses which make diode 142 non-conductive, capacitors 138 and 140, which depending on the type of transmission - If the receiver is switched off, however, the information is set to a high or low negative potential. Capacitor 138 is set to a low negative potential Potential to be charged. The capacitor is tially charged so that the positive pulse can make the diode 138 non-conductive to a high negative 142, for example. It is assumed that the potential is charged if the associated receiver is the case. The pulse is therefore further switched on, and passed to a low negative and has the effect that a potential is located via a diode 144 if it is given a positive pulse to a terminal 146 in the switched-off state 50. When the capacitor 140 is charged to a high terminal 146 with the lower input of a negative potential, this represents an OR gate 148 (above the converter 48) connecting "1", while a low negative is connected. This positive impulse means a »0« via the OR potential. Similarly, gate 148 to the right input of the flip-flop 132 work the other stages of the converter 48, the 55 given. The flip-flop 132 is thereby brought into its working position by the switching device representing a matrix, so that a blocking potential lines 136 are controlled. applied to one of the inputs of the AND gate 116

The diodes 118, 120, 122, 124, 126 and 128 that will.

connected to the outputs of the flip-flop 104. The AND gate 116 therefore remains blocked until they prevent the charge of the con 60 stage 58 of the timer circuit is brought into its working capacitors 138 and 140 during the operation of the shift position . This is done 66 ² / s millisecond register 50 while the address is being recorded. After the point in time at which the output capacitors of the converter, which are actuated to stages 87 to relays 70, are assigned to contact 70 a to 91 of the shift register, open and interrupt the message loop, sufficient time to reach its full charge again, 65 If the stage 58 of the timer circuit is in its before it is interrogated so that such working position is brought for it, the Kon protection diodes are not required. In the working capacitor 150 and the AND gate 134 a positive position of the flip-flop 104 , the diodes 118 receive a pulse on the reset input of the flip-flop 132

given so that it returns to its rest position. Since the stage 54 is in its rest position at this time, the gate 116 is fully unlocked and makes the inverter 141 conductive, so that the position of the flip-flop 160 is changed, whereby it returns to its rest position. In the rest position of the flip-flop 160 , the winding of the output relay 70 receives no more current, so that the contact 70a closes and the message loop

first stage of the converter. When the stage 82 is brought into its operative position, a negative signal is applied to the diode 152. When the storage capacitor 140 is charged to a low negative potential (which represents a binary "0"), the diode 152 becomes conductive and no output signal is generated. However, if the capacitor 140 is charged to a high negative potential (representing a binary "1"), the diode 152 is not activated by the

is also closed. The remote station 46 has made io negative impulse conductive, so that this Im now converted a long interrupt signal of puls and sent a nega-66 ² / s millisecond via the diode 154 to indicate that the tive impulse is given to a terminal 156 , the the first receiver of the branch office is connected to the input of an inverter 158 . switched! State. This negative pulse makes the inverter 158 conduc-

Let it be again the operation of the first stage 15 tend, so that the OR gate 148 considers a positive of the converter 48 and this time delivers an assumed pulse that the flip-flop 132 in its Arbeitsmen that the first receiver is switched on, so position brings. As mentioned, the capacitor 138 is charged to a high negative position of the flip-flop 132, an input of an AND potential. The positive pulse that blocks the gate 116 so that the position of the flip is generated by the fact that the binary number "1" on the ao flops 160 cannot be changed by the relay stage 81 of the shift register being advanced 70 actuating before 66 ^2/3 milliseconds has elapsed in this case testifies to no positive pulse in the are and the stage 58 of the timer circuit 49 in converter. The flip-flop 132 is therefore not brought into its working position. It is therefore brought into its working position in which there is a long power line signal which applies a binary “1” blocking potential to the AND gate 116 . The 25 represents, transmitted to the central office. If there AND gate 116 is not blocked, and the opposite of the stage of inverter 141 assigned to stage 82 remains conductive, so that no negative pulse is applied to terminal 156, stepping input of flip-flop 160 , at the setter . is, the flip-flop 132 is not in its work-If the timer circuit 49 is brought a position creation, and the stage 54 of the timer reaches, in which the stage 54 controls the AND gate 116 and the inverter after the end of the circuit 16 ² / s milliseconds brought 141 into their working position in such a way that the flip-flop 160 is after expiration of, an input of the AND gate 116 is blocked
and the inverter 141 non-conductive, so that the charging of the coupling capacitors (F i g. 3 B) of the
Flip-flops 160 starts. After another 35
16 ^2/3 milliseconds, ie 33Ve milliseconds in total, the stage 54 returns to its rest position.
The AND gate 116 therefore switches through, and the
Inverter 141 becomes conductive, so that a positive pulse

is placed on the flip-flop 160 . The latter 40 is, the flip-flop 160 in its working position now returns to its rest position, so that brought, so that the relay 70 receives power and output relay 70 is de-energized and its contact opens its contact 70 a, whereby the messages -70c closes. A short interrupt loop 42 was interrupted again and the transmission signal (33V3 milliseconds) was sent out in order to end the second response bit. At this time show that the receiver is switched on 45, the relay 66 is de-energized and closes its Kon state. The external station 46 thus transmits clock 66 a, so that a signal via the OR gate 78 is a short interrupt signal, which is a binary one, which the timer circuit 49 represents in "0", to the central station when the receiver returns to its rest position and the stored ger is on, and a long interrupt "1" from stage 82 of the shift register to stage signal, which represents a binary "1" when the 50 83 advances. If the stage 83 in its working receiver is in the off state. set position, the next stage of the changeover is The duration of the actuation of the output relay 70 is set 48 interrogated and the next binary bit is transmitted to the central office due to the different operation of the flip response signal. Flops 132 determined. The binary bit "1" is then sequentially over

If the message loop 42 after completion 55 the steps 84 to 91 advanced to the remaining transmission of the first response bit closed Benden response bit by appropriate actuation, the relay 66 is actuated again, so that its output relay 70 to the central office via contact 66 a opens and the OR gate 78 in the determine. The unlocking of the AND gate 112 by the written manner supplies an incremental signal. The flip-flop, which is in its working position, is reset by the timer circuit 49. 60 104 enables the stages 90 and 91 to be brought back and the stored "1" from the shift register to its stage in the usual way 81 switched to step 82 of the shift register - working position or brought into its rest position. When the step 82 is in its working position.

is brought, the second stage of the translator after completion of the transfer of the eleventh or

interrogated to determine whether the next response ß ₅ last response bits, which is shown in the drawing as the binary value "0" or the value "1" as an empty bit, closes the output relay. 70 his contact and thus the message loop,

The mode of operation here is the same as that which causes all stages of the sliding

33Va milliseconds brought into its working position to send out a short power line signal that represents the binary value "0".

After either the long period of time, which means a "1" and is controlled by the flip-flop 132 brought into its operative position, or the short period of time, which represents a "0" and is controlled by stage 54 of the timer circuit

registers 50 are returned to their rest position. Since the advanced via the shift register Bit "1" is stored in the last stage 91 when this is returned to its starting position, a capacitor 160 'gives a positive pulse to the OR gate 102 to put the flip-flop 104 in its Starting position. As a result, a blocking potential is applied to the AND gate 116, the Holding diodes 118,120,122,124,126 and 128 will be made effective again and the AND gate 112 is disabled; the flip-flop 132 is in its initial position returned and the AND gate 92 is partially unlocked. The branch is now in yours Normal or rest position returned and ready to receive a new address.

The remote station 46 also includes an arrangement controlled by the timer circuit 49 which ensures that the output relay 70 does not inadvertently remain in the actuated position, in which contact 70 ″ and thus message loop 42 is open. When the timer circuit 49 has reached a state in which the steps 56 and 58 are in their working position, i. H. after a period of 100 milliseconds has elapsed, and when the message loop 42 is interrupted is, so that the inverter 72 is non-conductive, the AND gate 96 is made fully effective. The AND gate 96 then gives a pulse to the inverter 98, so that a reset pulse is given to the flip-flop 160 will. This is therefore brought into its rest position, whereby the relay 70 is de-energized and its contact 70 α closes as soon as the message loop is open for more than 100 milliseconds. If during the transmission of the response signal there is an interruption in the message loop from this Duration occurs, the timer circuit 49 operates the flip-flop 160 in the same way, whereby the The message loop closes and the transmission of the response is interrupted to indicate that an incorrect answer was submitted.

Claims (12)

Patent claims: 1. Circuit arrangement of a branch office for the transmission of data between a central office and a plurality of said remote locations arranged in a message loop, wherein each of the branch offices is selected by an address signal sent from the central office and is repaired to transmit its message to the central office, the message signals of binary bits in the form of short and long, consecutive signals (current pulses or current interruptions), characterized in that a known shift register (50) with a A plurality of stages (80 to 91) arranged one behind the other, including an input stage (80) is provided, the memory content of which is replaced by a change in the state of the Message loop (42) generated pulse of a pulse generator (contact 66 a, inverter 72, OR gate 78 etc.) is incremented by one level and at the same time the binary bit "0" is entered in the input level (80) is entered, and that one connected to the signal source is known per se Timer circuit (49) is provided which, after a predetermined time has elapsed, the state of the input stage (80) changes so that the memory content of this stage is converted into the binary bit "1" when the duration of the received signal exceeds a certain time value. 2. Circuit arrangement according to claim 1, characterized in that with the individual Stages of the shift register (50) the inputs of an AND gate (110) according to the Address of the branch office (46) are connected, so that the AND gate (110) only connects when the address stored in the intended stages of the shift register (50) with the Address of the branch office (46) matches, this through-pulse transmitting the Initiate response from the branch office. 3. Circuit arrangement according to claim 1 and 2, characterized in that in addition a control code is entered into the shift register (50) to store the address, so that the AND gate (110) only switches through if it is in the appropriate steps (89, 90) of the shift register appears. 4. Circuit arrangement according to claim 1 and 2, characterized in that the change of the memory content of the input stage (80) of the shift register after a predetermined Time an AND gate (92) is provided, which is controlled by the timer circuit (49) will. 5. Circuit arrangement according to claim 4, characterized in that the AND gate (92) to change the memory content of the input stage (80) connected to a flip-flop (104) Has input that is provided after switching through the address check AND gate (110) is blocked. 6. Circuit arrangement according to one of claims 2 to 5, characterized in that the AND gate (110) provided for the address check has additional inputs which are connected to corresponding Stages (56, 58) of the timer circuit (49) are connected in such a way that the AND gate only connects when the message loop closes after receiving the last Address bits has lasted for a predetermined time. 7. Circuit arrangement according to claim 6, characterized in that when switched through of the AND gate (110) provided for the address check via suitable intermediate elements (inverter 114 and OR gate 108) with a pulse on the reset inputs of all stages (81 to 91) Except for the input stage (80) of the shift register (50) is given. 8. Circuit arrangement according to one of claims 2 to 7, characterized in that the Output pulse of the AND gate (110) provided for the address check is a flip-flop (104) controls which via suitable intermediate elements (AND gate 116, inverter 141, flip-flop 160) controls an output relay (70) in such a way that its contact (70 a) opens and the message loop (42) interrupts to initiate the transmission of the response. 9. Circuit arrangement according to claim 8, characterized in that the storage and comparing the address combination provided shift registers (50) simultaneously for the transmission of the answer is used, in 909 515/1257 which a binary "1" is entered into the initial stage (80) of the shift register (50), which is the Transmission of each response bit is advanced by one level and is used for the individual stages of a converter (48) or the like. To query the response bits in electrical Contains shape saved. 10. Circuit arrangement according to claim 9, characterized in that the interrogation pulse of the shift register in the stage in which the binary value "1" is in each case, forwarded depending on the type of response bit to be transmitted will or not, and in the former case it is set to a flip-flop via an OR gate (148) (132) is given, which is thereby brought into its working position and an AND gate (116) for controlling the output relay (70) blocks until the flip-flop (132) falls below Control by a stage (58) of the timer circuit (49) after the duration of an ao long signal is brought to its rest position, while in the other case the flip-flop (132) remains in its rest position so that the gate (116) is controlled by a step (54) the timer circuit is actuated after the duration of a short signal has elapsed. 11. Circuit arrangement according to one of claims 1 to 10, characterized in that an AND gate (96) is provided, the first input of which through the open message loop (42) and the other inputs through corresponding stages (56, 58) of the timer circuit ( 49) are acted upon in such a way that the AND gate (96) switches through after a predetermined time has elapsed when the message loop is open and the output relay (70 ) de-energizes so that its contact (70 a) closes, which ensures that the loop is closed when the response transmission is terminated or an error occurs in the message transmission. 12. Circuit arrangement according to claim 11, characterized in that the output pulse of the AND gate (96) simultaneously the shift register (50) and the timer circuit (49) in returns to their rest position. 1 sheet of drawings