SU649145A1 - Optical range signal retranslator - Google Patents

Description

one

The invention relates to telecommunications and can be used in optical communication lines with signal retransmission.

A repeater of optical range signals is known, which contains a series-connected receiving unit, a gating unit and a storage unit, the control output of which is connected to the analyzing input of the gate response unit, the serially connected valve block and the transmitting unit, as well as a software-timeframe whose outputs to the inputs of the gating unit, the storage unit and the valve unit 1.

However, accuracy is insufficient in the known repeater.

The purpose of the invention is to increase the accuracy of retransmission.

For this purpose, an optical band signal repeater containing a series-connected receiving unit, a strobe unit and a storage unit, the control output of which is connected to the analyzing input of the strobe unit, are connected in series

the block and the transmitting block, as well as the program-time block, the inputs of which are connected to the control inputs of the strobe block, the storage block and the valve block, are entered the service signal generator and the switching block connected between the information output of the memory block and the information input of the valve block, The control output of the gating unit is connected to the control input of the switching unit, and the output of the service signal generator is connected to the additional information input. its block, and the control output of the strobe block is connected to the control input of the transmitter block.

The drawing shows a structural electrical circuit of the proposed transponder.

The repeater of the optical range signals contains a series-connected receiving unit 1, a strobe unit 2 and a storage unit 3, the control output of which is connected to the analyzing input of the strobe unit 2, the valve unit 4 connected in series and the transmitting unit 5, as well as the program-time unit 6, the outputs of which are connected to the control inputs of the strobe unit 2, the storage unit 3 and the valve unit 4, the service signal generator 7 and the switching unit 8 connected between the information output the repeating unit 3 and the information input of the valve unit 4, the control output of the strobe unit 2 is connected to the control input of the switching unit 8, and the output of the service signal generator 7 is connected to the auxiliary information input of the switching unit 8, and the control output of the strobe unit 2 is connected to the control input of the transmitting unit 5.

The device works as follows.

The receiving unit 1 receives the information signal and sends it to the input of the gateway unit 2. The time and software unit 6 generates a signal that from its first output goes to the control input of the gateway unit 2 and opens it for passing the information signal from the output of the receiving unit to the storage unit 3, consisting of a group of similar storage elements, with the strobe unit 2 sending an information signal only to that regular storage element from which the analyzing input of the strobe unit 2 stumbles signal indicating the absence of information in the memory element.

At regular intervals, the software-time unit 6 generates a control signal to read information from the storage unit 3 and transmit it to the recipient using the transmitting unit 5. This control signal from the second output of the software-time unit 6 is fed to the input of the storage unit 3, control here, by reading the information, and to the control input of the valve unit 4, which in this case passes the information to the input of the transmitting unit 5. The switching unit 8 is in the normal state, i.e. when information is available in the storage unit 3, connects the output of the storage unit 3 to the input of the valve unit 4. The transmitting unit 5 generates an information signal of the optical range and emits it to the recipient of information. When there is no information in the storage unit 3, the analyzing output of the storage unit 3 is sent to the analyzing input of the strobe unit 2, indicating that the storage unit 3 is completely unoccupied. In this case, the strobe unit 2 generates a signal that arrives To the control input of the switching unit 8, which disconnects the output of the memory unit 3 from the input of the valve unit 4, connects the output of the service signal generator 7 to the input of the valve unit 4.

In order to increase the economy of the signal transponder, it has been proposed to use for the mode of operation of the transmitting unit 6:

a) with rated power for transmitting information signals;

b) with reduced capacity for signaling overhead.

The mode of operation of the transmitting unit 5 is controlled by the signal from the control output of the strobe unit 2 connected to the control input of the transmitting unit 5. When there is no information in the storage unit 3, the control output of the strobe unit 2 is transmitted to the transmitting unit 5 In operation mode with reduced power. Due to this, the reduction of energy consumption during information transfer is achieved.

Thus, the introduction into the known device of the generator 7 of the overhead signals and the switching unit 8 provides for the emission of either informational or overhead signals, so that it is possible to track the repeater and direct the receiving antenna of the information receiver to it. As a result, the reliability of information transmission by the repeater increases.

Since service signals usually have a narrower band than the information signal, to transmit them with a given signal-to-noise ratio, a smaller radiation power is required at the output of the transmitting unit.

Claims (2)

1. Repeater signals of the optical range, containing a series-connected receiving unit, strobe. a block and a storage unit, the control output of which is connected to the analyzing input of the gating unit, a serially connected valve block and a transmitting unit, as well as a program-time unit, the outputs of which are connected to the control inputs of the gating unit, the storage unit and the valve block, that, in order to improve the accuracy of retransmission, a service signal generator and a switching unit, connected between the information output of the storage unit and the information input In this case, the control output of the strobe unit is connected to the control input of the switching unit, and the output of the service signal generator is connected to the auxiliary information input of the switching unit. 2. A device according to claim 1, characterized in that the control output of the gating unit is connected to the control input of the transmission unit. Sources of information taken into account in the examination 1. US patent No. 3925604, cl. 178-6.6, 1976.