SU743216A1 - Device for monitoring group channels of multichannel system of information transmitting and receiving system with time-division of channels - Google Patents

Description

one

The invention relates to radio engineering and can be used in information transmission systems.

A device for monitoring group channels of a multichannel system for transmitting and receiving information with time division channels is known, comprising on the transmitting side a group of transmission equipment and serially connected test signal generator, a switching unit and a coding unit, and on the receiving side an indication unit, a group node the reception equipment and the decoding unit, the output of which is connected, 5 to the second input of the switching unit of the transmitting side 13.

However, the known device is applicable only for transmitting analog information and, moreover, the control accuracy is low, since only the fact of communication failure is detected, but it is not possible to determine the location of the fault.

The purpose of the invention is to improve the accuracy of control when transmitting both analog and discrete information.

Claims (3)

To do this, in a device for monitoring group channels of a multichannel system for transmitting and receiving information with time division channels, contains on the transmitting side a group of transmission equipment and a series-connected test signal generator, switching unit and coding unit, and on the receiving side an indication unit, group node. the receiving equipment and the decoding unit, the output of which is connected to the second input of the switching unit of the transmitting side, a signal analyzer is inserted on the transmitting side and a baud rate converter whose inputs are connected respectively to. the outputs of the signal analyzer and the coding block, the auxiliary output of which is connected JK. the input of the signal analyzer, the output of which is connected to the first input of the block, is initialized, while the output of the transmission speed converter is connected to the node of the group transmission equipment node, and the receiving speed converter and the signal analyzer are inputted to the decoder output of the decoding unit, the first and second inputs of which are connected respectively to the outputs of the signal analyzer and the reception speed converter, to the inputs of which the output of the test signal generator is connected fishing, the second output of switch unit transmitting side and the output Wela group receiving equipment, wherein the signal output analyzer is connected to the second input of the indication unit. The imp is a structural circuit of the proposed device. The device for monitoring group channels contains a 1. test signal generator, switching unit 2, coding unit 1 3, node 4 of group transmission equipment, node 5 group receiving casing, coding unit 6, display indicator-1n 7, transfer rate converter 8 , a transmission signal analyzer 9, a reception speed converter 10, a reception signal analyzer 11. The device works as follows. One of the channel inputs of the switching unit 2, made in ll-tl) states (h is the number of information channels), is supplied with a test signal from generator 1. This signal is inputted as a control signal to the input of the unit coding 1-sh 3. In coding block 3, it processes incoming signals according to the received algorithm, and a group binary signal is generated. In the group signal, in the time division of the channels, the information signal of each individual source of information has permanent places. The signal analyzer 9 reads the information located at the locations reserved for. additional control source, and analyzes it. An additional control channel is formed by executing a block of switching 2 in () states, where the () state corresponds to the additional channel. If the information obtained by the signal analyzer 9 does not coincide with the set one, then the signal analyzer 9 9 generates a control signal, which is fed to the input of the transmission rate converter 8. The baud rate converter serves to rewrite the group signal at a lower speed. The new rate is selected: - in such a way that the output group signal arriving at node 4 of the group transmission equipment does not contain control information. Thus, only useful information enters the communication channel. The control signal generated by the signal analyzer 9, when a failure of group switching and coding units is detected, sets the pulses, corresponding to individual channels in the group signal, to a certain state. The items received by this information at the receiving station are thus notified about the malfunction of the kataloobrazuyuschey equipment, and, therefore, about the unreliability of the information they receive; The output signal of the signal analyzer 9 is also fed to the input of the display unit 7, notifying the staff about the malfunction at the transmitting station. The work of the reception center is carried out as follows. A group binary signal from the output of the primary communication channel through the node 5 of the group reception equipment is inputted to the reception speed converter 10. In the receive rate converter, the group signal is rewritten at a higher rate. As a result, in the group signal, service places are added to which the test signal from generator 1 fits. Places where the control information should fit into the input input are determined by channel pulses arriving at the forward input of the receiving speed converter 10 from the switching unit 2. The converted group signal the signal is fed to the input of decoding unit 6, in which the decoding of the group signal is performed. The reception signal analyzer 11 reads the information recorded in the field reserved for the additional control information and analyzes it. If the information received by the reception signal analyzer 11 does not correspond to the set one, the reception signal analyzer outputs a fault signal to the receiving part of the display unit 7, as well as the control signal to the decoding unit 6. The control signal sets the group signal pulses to a certain state. The receivers of the individual channels that received this information are thus alerted to the malfunction of the cocoa-forming apparatus. Thus, a separate continuous monitoring of the transmitting and receiving stations is achieved (which improves the accuracy of control) and the notification of this to subscribers. Since an additional control channel exists only outside the primary communication channel, the bandwidth costs for monitoring are not required. Consider the implementation of a multichannel system for a particular case in which it was used - in the case of the transmission of discrete signals. In this system for coding discrete signals from information sources, pulse-code modulation using the sliding index method with acknowledgment (CIP, L5) and the other-purpose purpose of the primary communication channel is used. The essence of the CIP method is that the binary premise is tested by a series of short pulses. The interval between the sampling pulses is divided into several smaller intervals (zones). The front of the premise (the transition from O to O or O to 1) is transmitted by a short pulse, the polarity of which coincides with the direction of the front. In addition, the number of the zone into which the front has hit is determined. This number is coded by two pulses. Thus, a combination of three impulses carries complete information about the fronts of the premise (their direction and position in time). If the polarity of the binary signal does not change with, then after this combination, only the test pulses of the parcel are transmitted, while in the binary signal again there is no potential transition. In the coding unit 3, simultaneous coding of information coming from all sources using the CIP method and its distribution in time occurs. The generated group signal arrives at the primary communication channel. At the reception, the reverse process of recovering binary packages and the distribution of information on the users of the incisual channel channels occurs. In such a system, the generator 1 test signals in. Signal analyzers 9 and 11 can be implemented fairly simple. Generator 1 is a sensor for O and I signals that are alternately input to the Auxiliary channel in the switching unit. 2. Moreover, it is forcibly synchronized so that the input potential transitions fall exactly into the first coding zone. Therefore, signal analyzer 9 is a state analyzer all zeros or all ones. This is sufficient to verify the correct operation of the transmitting part of the switching unit 2 and the coding unit 3. The reception signal analyzer 11 analyzes the appearance at an appropriate time in the additional front channel of the binary parcel that falls into the first zone between the sampling pulses. This is sufficient for determination. the health of the receiving part of the switching unit 2 and the decoding unit 6. Formula of the invention A device for monitoring group channels of a multi-channel system for transmitting and receiving information with time division channels, comprising on the transmitting side a node of group transmission equipment and serially connected test signal generator, and on the receiving side - an incepting unit, a group of receiving group equipment and a decoding unit, the output of which is connected to the gateway of the switching unit ne The receiving side, characterized in that, in order to increase the control accuracy in the transmission of both analog and discrete information, a signal analyzer and a transmission rate converter, whose inputs are connected respectively to the outputs of the signal analyzer and coding block, are introduced on the transmitting side. Connected to the input is an alarm jam, the output of which is connected to the first input of the induction unit, while the output of the baud rate converter is connected to the input of the group equipment node transmitters, and a receiving speed converter and a signal analyzer, whose input is connected to the decorator's output, are entered on the receiver's phone, the first and second inputs of which are connected to the signal analyzer and the receiving speed converter, to the inputs of which the test signal generator is connected the second output of the switching unit of the transmitting side and the output 7 6 of the node of the group receiving equipment, the output of the signal analyzer connected to the second input of the display unit, Isto Information taken into account during the examination 1. USSR Author's Certificate No. 457181, cl. H 04 J 3/14, 1973 (prototype). gp rush t. "Guy St. horse / a Howl channel