SU966929A1 - Multichannel device for converting signals - Google Patents

Description

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The invention relates to a technique of electrical communication and can be used in data transmission systems for various purposes.

A multi-channel device for converting signals is known, containing n channel matching units (where n is the number of channels), whose inputs are connected to the corresponding outputs of the switch-distributor, and the outputs of the channel matching units are connected to the corresponding inputs of the scanning unit, as well as a group signal processing unit containing an interface unit, a modulator and a receiving unit, the output of which is connected to the first input of the interface unit, the first output of which is connected to the jc input of the modulator, as well as the control unit OK, the first output of which is connected to the control inputs of the switch-races, limiter and scanning unit 1.

However, the known device has a great loss of information.

The purpose of the invention is to reduce the loss of information ..

Claims (3)

This goal is achieved by the fact that a multichannel device for converting signals containing n channel matching blocks (where rt is the number of channels) whose inputs are connected to. the corresponding outputs of the switchboard distributor, and the outputs of the channel matching units are connected to the corresponding inputs of the scanning unit, as well as the group signal processing unit containing the interface unit, the modulator and the receiving unit, whose OUTPUT is connected to the first input of the interface unit, the first output of which is connected from the entrance house, as well as the control unit, the first output of which is connected to the control inputs of the switchboard and the scanning unit. 3, an additional signal processing node was added, the first and switching blocks, and the key element and the control text sensor were inserted into the batch processing nodes, and the first input and the first output of the first switching block are connected respectively to the output of the scanning block and the input of the switch distributor, The control inputs of the first and second switching units are connected to the second output of the control unit, the first and second inputs of which are connected respectively to the second outputs of the interface block of the group node second signal processing. and an additional signal processing unit, while the second and third output of the first switching unit are connected respectively to the inputs of the receiving units of the group signal processing unit and the additional node of the gross processing signal J and the second and current inputs of the second switching unit are connected to the outputs of the modulators of the corresponding groups of signal processing, moreover, between the modulator output and the input of the receiving unit of each node of the group signal processing, a key Element is included, whose control input from It is united with the additional output of the interface of the corresponding group of signal processing node, the additional input of the interface blocks of the group of signal processing nodes is connected to the output of the corresponding sensors of the control text, the second inputs and the second outputs of the interface blocks of the group processing signal node and the additional node of group processing The signals are connected respectively to the outputs and inputs of the second switching unit of the unit. The drawing shows the structural electrical circuit of the proposed device. The multichannel device for signal conversion contains p-channel matching blocks Ts-Tr, switch-distributor 2, scanning block 3, control block C, node 5. group signal processing, additional node 6 group signal processing, each of which consists of receiving block 7 of block 8 from 1p, the sensor 9 of the control text, the key element 10, and the modular group 11, the first 12 and the second 13 second key blocks. 9669294. The device works as follows. The transmitted data and control commands with a parallel code with an address feature come from the multichannel data processing equipment through the second switching unit 13 to the interface 8 of the working set of the node 5 of the group signal processing. In conjunction block 8, the control commands are stored by channel addresses, and the parallel data code is converted into a sequential one. In the serial code, data is input to the modulator 11. The modulator 11 generates FM signals in accordance with the transmitted data / for each channel. Group FM signal, compacted in time, from the modulator output through the first switching unit 12 is fed to the input of the switch; 2. In the distribution switchboard 2, a JJ will allocate the channel FM signals from the group FM signal and distribute them across the channel blocks. Channel blocks, produce matching of the transmitted FM signals by level and spectrum with the parameters of the communication channels connected to them. Simultaneously, the signals received from the communication channels in the channel blocks are amplified and limited by the spectrum and amplitude, and then fed to the inputs of the scanning unit. 3. The scanning unit 3, alternately polling the inputs, converts the channel received signals into a group (time-compressed) reception signal, which through the first switching unit 12 enters the input of the receiving unit 7. The operation and synchronization of the switchboard and scanning unit are performed by signals from the control unit. In the receiver unit 7, as a result of the detection, data is extracted from the received signals. The received data in the serial code from the output of the receiver unit 7 is received in block There is an interface, where they are converted into a parallel code. In a parallel code, the received data through the second switching unit 13 is fed to the input of the multi-channel data processing equipment. In channels not occupied by data transmission, a test sequence is fed to the input of the modulator 11 from the sensor E of the control text via the interface 8. At the same time, from the interface unit to the control input of the key element TO, a control signal is received, which closes the key element 10 in such a way that for controlled channels the FM signal from the modulator output through the key element 10 enters the input of the receiving unit 7. In block 8 pairing is performed by element-wise comparison (taking into account the delay in the modulator and the receiving unit) of the transmitted and received test sequences. The match indicates the normal operation of the node 5 group signal processing. If the control unit's input does not coincide from the interface block 8, a signal is received by which the control unit switches the switching blocks 12 and 13, while turning on, additional node 6 of the group signal processing, and the node is turned off. Thus, in the proposed device, a continuous control of the operation is performed - node 5 of the group signal processing, which is achieved by introducing a date of the control text, the key element forming the loop through the free channels. Due to this, the detection of failures in the device is performed automatically, and the detection time does not exceed the duration of the elementary information parcel. The presence of an additional node 6 of group signal processing associated with the main node 5 allows one to automatically eliminate the failure that has occurred, even if the loss of information inLormation fails. (loss of the group of parcels) does not occur, and only a single error appears in the data. The measures taken allow for 2-3 orders of magnitude increase in the reliability of message delivery over those communication networks where the proposed multi-channel device is used to interconnect data communication channels with communication channels. A multichannel device for converting signals containing channel matching units (where n is the number of channels), whose inputs are connected to the corresponding outputs of the switch-distributor, and the outputs of channel matching units are connected to the corresponding inputs of the scanning unit, as well as the group signal processing unit containing the unit interface, modulator and receiver unit, the output of which is connected to the first input of the interface unit, the first output of which is connected to the input of the modulator, as well as control the first block, the first output of which is connected to the control of the inputs of the switchboard distributor and the scanning unit, differing in that, in order to reduce information loss, an additional node of the group signal processing is introduced, the first and second switching blocks, and in the group processing nodes signals, a key element and a sensor of the control text are entered, with the first input and the first output of the first - switching unit being connected respectively to the output of the scanning unit and the input of the distributor commutator, controlling The inputs of the first and second switching units are connected to the second output of the control unit, the first and second inputs of which are connected respectively to the second outputs of the interface unit of the group signal processing unit and the additional signal processing unit, while the second and third outputs of the first switching unit are connected respectively to the inputs receiving units of the group signal processing unit, and an additional grouping signal processing unit, and the second and third inputs of the first switching unit are connected to the output the modulators of the corresponding group signal processing nodes, and between the modulator output and the input of the receiving block of each group of signal processing node is included a key element whose control input is connected to the additional output of the interface block of the corresponding group of signal processing node group signal processing is connected to the output of the corresponding sensors of the control text, with the second inputs and the second outputs of the interface blocks of the group brabotki signals and dopolnitel79669298 node node group processing sipna-Sources of information The catches are connected respectively with the outputs and the inputs of the second switching unit taken into account during the examination. 1. Patent of France I 2078t6l, block. Kl, IO M 11/00, 19b5 (prototype).