SU649159A1 - Start-stop synchronous system for transmitting and receiving apparatus - Google Patents

Description

Connection establishment, to the inputs of which there are connected the display outputs of the transmitter receiver cycles and the output status display of the decade code generator. The drawing shows a structural electrical circuit of the proposed start-stop-synchronous system for the transmission of discrete signals. A start-stop-synchronous system for transmitting discrete signals contains a transmitter 1, the information input of which is connected to the outputs of channel matching units 2, the inputs of which are connected to the information output of receiver 3, a memory block 4 connected by a write and read circuit to a receiver 3 and transmitter 1, shaper 5 decade code, identifier phase 6 of the connection, the output switch 7 signals, the identifier 8 telegraph code, and the determinant 9 decade code, while the information output of the transmitter 1 connect n to the information inputs of the imaging unit 5 .dekadnogo code, the identifier 8 telegraph code and the output switch 7 signals, to another information input of which the output of the imaging unit 5 of the decade code is connected, the output of the labels of the normal cycle of the transmitter 1 is connected to the corresponding input of the telegraph code 8, the output of which is connected with the first control input of the determinant 9 decade code, the output of which is connected to the control input of the output switch 7 signals, to the information input of the determinant 9 decade the code receiver is connected information output 3 and a second control input connected to additional outputs of channel matching block 2; the ten decade code generator 5, the telegraph code identifier 8 and the decade code determiner 9 are connected to the memory unit 4 by the write and read circuits, and the setup inputs are connected to the corresponding connection identification phase 6 outputs, to whose inputs the transmitter display 1 and receiver outputs are connected 3 and the status indication output of the driver 5 decade code. Consider the operation of a system operating on a switched telegraph network. In the initial state, in both directions, the starting polarity is transmitted along the telegraph channel, hence the regenerators of the transmitter 1 and receiver 3 are set to the operation mode through a shortened cycle. At the same time, signals from the regenerators of the transmitter 1 and receiver 3 are received via the cycle indication circuits, by which the Phase Detector 6 establishes the signals, transmitted through the setting circuits to the determinants 8 and 9 of the regional and decade codes and the former 5 decadal code. With these signals, the determinants of the 8, 9 telegraph and decade codes and the shaper 5 of the decade code are kept in their original state. The decider 9 decade code on the control circuit keeps the signal switch 7 in the state of connecting the information output of the transmitter 1 to the system output. In the n-starting phase of establishing a connection from the corresponding channel matching unit 2, a call signal is sent to the transmitter 1 through the input information circuit - a continuous stop polarity. The transmitter regenerator 1 processes this signal by a shortened cycle and transmits this signal to the system output, and switches to the normal operation cycle itself. The signal of the cycle indication circuit receives the connection establishment phase 6 signal, under the action of which the phase identification 6 removes the prohibition on the operation of the telegraph and decade code detectors 8, 9. The prompts to dial the numbers coming from the system's input to the receiver 3 are processed by the receiver's regenerator 3 over a shortened cycle and transmitted via the output information circuit to the corresponding channel matching unit 2 and to the determinant 9 of the decade code. Following this, signals to the telegraph code are transmitted to the transmitter 1, which are transmitted through the switch 7 signals to the output of the system. The fact of the passage of these signals is recorded in the memory block 4 by means of the telegraph code identifier 8. The determinant 8 prepares the determinant 9 for operation. And when the receiver sends a signal to the dialing number, the qualifier 9 will emit a signal that the switch 7 signals connects to the system output of the driver 5. The system is ready to transfer the dialing numbers in the decade code. When the dialing signals are received in the transmitter in the decade code, they are processed in the following sequence. The first pulse of the extension dial is processed by the normal cycle in the transmitter regenerator 1, and subsequent pulses are processed both by the shortened one and by the normal one. As they are received from the output of transmitter 1 in shaper 5, they are transmitted through the write circuit to memory block 4-. After the first dialing pulse, the number of the regenerator of the transmitter 1 is switched to a shortened cycle, about which a corresponding signal is transmitted to the identifier of the connection establishment phase 6. In order that this does not lead to the installation of the determiner 9 to the initial state, which is equivalent to a malfunction, from the driver 5 to the phase identifier 6 a signal is transmitted along the status indicator circuit of the driver 5,