SU618066A3 - Device for compensating coincidence of transitions for synchronous digital system of discrete information transmission - Google Patents

Claims (1)

Exclusive OR 3; trigger 4, and the second element is Exclusive OR 5, the spring of which is connected to the control input of the output switch 2, and the inverse output of trigger 4 is connected to one of the inputs of the first element Exclusive OR- 3. To the second inputs of the first and second elements Exclusive OR 3 and 5 corresponding sync signals are given, and 4 information signals from remote stations are sent to the second trigger input (not shown). The device works as follows. Dzuhfaznye, data from the switch or system switch is fed to the linear shaper 1 signals to form a signal suitable for transmission to the telephone system on the wire of the output line 6, the linear shaper is sensitive to the coincidence of the phase of the two-phase data frequency of 64 kHz with a local clock signal, which is supplied wire 7 Two-phase data synchronously transmitting to the output line 6 at a speed twice the normal system synchronization rate. The frequency of the local clock pulses on wire 7 is 64 kHz, so the two-phase data synchronously arrives on the output line 6 at a frequency of 128 kHz. A 128 kHz clock signal is generated in the local clock generator and fed to wire 8, after which it passes to trigger 4, intended for switching data from linear driver 1 to output line 6. Linear driver contains a D-trigger 9 and an XOR 10 logic element, The data sent to the switch or switch from the remote telephone is in the input trunk line 11 and synchronously transmitted in a switch. Every 15.6 times the ISS interval formed by the synchronization system rangefinders June 4 kHz. Triggers 4 and Exclusive OR elements 3 and 5 are the detection and compensation schemes for the transitions. Trigger 4 is transferred to plus its sync input 12 is connected to input connecting line 11. All current positive transitions of incoming data: x on line 11 cause trigger 4 to be synchronized by a signal,; appearing on its input data wire 13. 6 64: The signal on the input wire 13 is a special clock or strobe signal, which can be received either directly from the system clock generator or indirectly from a switch. A special timing signal is a pulse that varies in time so as to have a large amount on the input wire 13 of the trigger 4 immediately before, during and after the interval of uncertainty at the input of the switch. The time of uncertainty depends on the applied input device of the switch. As an input device, for example, a shift register with parallel transfer can be applied, the installation time of which is 10 no. D low power trigger, which is also suitable for use as a detection device, does not have an installation time of 30. For this reason, reliable detection of any transition to the input connector line 11 that takes place during the uncertainty interval equal to 10 is ensured by the fact that the plus transition of a special synchronizing signal starts on the input wire 13 of trigger data 4 no later than 30 before the beginning of the interval of uncertainty (the duration is 1O not, therefore, 40 not before the time when the synchronizing signal of the switch changes its mind). The repetition frequency of a special synchronizing signal can be quite small, but in the maximum variant it is equal to 64 kHz synchronization divided by the maximum number of binary ones: the delay discharge obtained taking into account the maximum resynchronization time of the synchronization scheme of the telephone communication system. It is theoretically enough that a special synchronization signal for wils on a wire is 13 times, namely, at the first use of the equipment. The eON | Timed signal appears on wire 14 and feeds trigger 4 through a two-input Exclusive OR 3. The other input 15 of the element exclusive OR 3 is connected to the reset output of trigger 4. The direct output 16 ipurrepa 4 is connected to one of the inputs of the second Exclusive OR element 5. The second input of the Exclusive OR element 5 is the receiver of a 128 kHz clock signal received via wire 8, and the output of the Exclusive OR 5 element transmits a clock signal to synchronize the output data to the output line. July 6. All positive data signal transitions in the switch on the input trunk 11 drive because the trigger 4 is synchronized with a signal on its input wire 13. This signal is a special synchronizing signal described in detail previously. A special sync signal; l is high when trigger 4 is synchronously switched with a positive transition in the incoming data. With a preliminary zero (dropped) state of trigger 4 at its direct output 16, the signal is zero, and with a single state of trigger 4, the signal at its direct output changes its state to the opposite. At the same time, the inverse output goes to the zero state. In the original state, i.e. the reset state of trigger 4, a strobe truth signal appears on its input wire 13, but after a change in the J state, it is inverted due to the influence of the Exclusive OR 3 element, Trigger 4 changes its state again. with the next occurrence of a plus transition in the input data coinciding with a special synchronizing pulse. However, such a match is prevented by the XOR or 5 element, which inverts the 128 kHz clock signal, causing a data output delay to 39 me. For this reason, the output of the telephone system is additionally delayed by 3.9 ISS. In this case, the phone resynchronizes with the specified data, and after taking all the delays into account, the data is returned to the output switch 2 with a shift of 3.9 Ns. Thus, the next match can take place only with an increase in the delay in the passage, for example, as a result of a change in the length of the line. Using the invention provides a significant simplification of the device. Claims A device for compensating transitions for a synchronous digital system for transmitting discrete information between central and remote end stations, comprising a series-connected linear signal conditioner and an output switch, wherein a sync signal is supplied to the control input of the linear signal conditioner, characterized in that simplify the device, the first element Exclusive OR, the trigger and the second element Exclusive OR, which are output It is connected to the control input of the output switch, and the inverse output of the trigger is connected to one of the inputs of the first element, Exclusive OR, and corresponding signals of the second inputs of the first and second elements Exclusive OR are fed to the second input of the trigger signals. Sources of information: taken into account in the examination; 1. US patent: 374680О, cl. 178-69.5, 1973.