SU767986A1 - Digital data transmission system - Google Patents

Description

(54) DIGITAL INFORMATION TRANSFER SYSTEM

one

This invention relates to a rasmotehnika and can be used in digital backbone information transmission systems.

The digital transmission system of information is known, which contains on the transmitting side a generator of control signals, a device for connecting a reserve path on the transmitting side, n + 1. transmitting code converters, 10 the first input of each of which is connected to the output of one of the n + 1 scramblers, respectively, and on the receiving side a fault localization device, an error detection device 15, a backup path connecting device on the receiving side and n + 1 receiving code converters and receiving sides are interconnected by working 20 paths and one n + lM backup path I.

However, the known digital system has insufficient accuracy of information transfer. 25

The purpose of the invention is to improve the accuracy of information transfer.

For this purpose, in a digital information transmission system, containing on the transmitting side, the control-AO generator

Claims (1)

signals, a backup path connecting device, on the transmitting side, n + 1 transmitting code converters, the first input of each of which is connected to the output of one of the n + 1 scramblers, respectively, and on the receiving side - a fault localization device, an error detection device, a connecting device backup path on the receiving side and n + 1 receiving code-. converters, the transmitting and receiving sides are interconnected by p working paths and one n + 1-M backup path, the output of each of n + 1 transmitting code converters is connected to the corresponding input of the backup path connecting device on the transmitting side, n + 1 outputs of which through n working and n + 1th backup paths are connected respectively to n + 1 inputs of the device connecting the backup path on the receiving side, each of the n + 1 outputs of which are connected respectively to the inputs n + 1 of the receiving code converter d. At the same time, the output of the pilot signal generator is connected to the second input of the n + 1th transmitting code converter, the first output; the n + lth receiving code converter is connected to the input of the error detection device, and the second output n + 1-fo of the receiving code converter is connected to the input of the device fault localization. The drawing shows a structural, electrical circuit of the proposed digital system. The digital information transmission system contains on the transmitting side n + 1 inputs 1, n + 1 transmitting code converters 2, a generator of 3 control signals, n + 1 scramblers 4 and a device 5 connecting the backup path on the transmitting side, n working paths 6, the backup path 7 and on the receiving side - n + 1 outputs n + 1 receiving code converters 9, an error detection device 10, a fault localization device 11 and a backup path connecting device 12 on the receiving side. Digital information transmission system works as follows. The n inputs of the system on the transmitting side receive n high-speed digital information streams, and the n + 1 th input 1 receives the digital stream generated at the output of the generator 3. Next, all (n + 1) are scrambled in the transmitting codex x 2. digital streams, i.e. the logical addition of each of the streams with pseudo-random sequences generated respectively at the outputs of scramblers 4. From the outputs of the transmitting code 2, the scrambled digital streams are fed to the (n + 1) inputs of the device 5, in which alternate switching occurs, with a certain frequency following each j-ro from n high-speed digital information streams to the input of the backup cable 7, simultaneously, while the digital stream from the output of the (n + 1) -th transmitting code converter 2 conn chaets to the input of the J-ro n working paths used. Similarly, the device 12 at the receiving side works by alternately electrically switching the output of the backup path to each j-th of the n receiving codec drivers 9, while simultaneously connecting the output of the j-ro working path 6 to the input of the (n + 1) -th receiving code converter 9 Devices 5 and 12 detect the switching of working 6 and backup 7 paths synchronously with one and the same tracking frequency. In the receiving code converters 9, the transmitted digital streams are descrambled, after which they arrive at the outputs 8 of the system. Detection and fault localization operations are performed by devices 10 and 11, respectively, whose inputs receive a pseudo-random sequence of pulses and a control signal, respectively, for localizing the fault generated at the outputs of the (n + 1) -th receiving code converter 9. Continuous alternating switching of each of the working paths 6, the reserve is made before any of them breaks down. After detecting a fault in any of the working path 6, further alternate switching of the working paths 6 stops until the fault in the work path 6 is eliminated. Which remains connected between the output of the (n + 1) -th transmitting code converter 2 on the transmitting side and the output of the (n + 1) -th receiving code converter 9 on the receiving side. A digital information transmission system containing a transmitting Storbne control signal generator, a backup path connecting device on the transmitting side, n + 1 transmitting code converters, the first input of each of which is connected to the output of one of the n + 1 scramblers, respectively, and on the receiving side - a fault localization device, an error detection device, a backup path connecting device at the receiving side and n + 1 receiving code converters, i, the transmitting and receiving The sides are interconnected by p working paths and one n + 1 st backup path, which is different from the fact that, in order to increase the accuracy of information transfer, the output of each of the n + 1 transmit code converters is connected to the corresponding input of the backup path connecting device to the side, n + 1 outputs of which through n working and n + 1-nd backup paths are connected respectively to n + 1 inputs of the device connecting the backup path La to the receiving side, each of n + 1 outputs of which are connected respectively to inputs n + 1 when many code-converters, the output of the control signal generator is connected to the second "at the input P + 1-G transmitting code-converter, the first output P + 1-G receiving code-converter is connected to the input of the device hapykeHKH bounce to the input of the fault localization device. Sources of information based on the examination 1. Jap. Journal of Kankyu Dzitsuke Hokon, 1976, v. 25, 1, p. 1-12, 51-75 (prototype).