SU1478162A1 - Device for checking serviceability of radio receivers of multichannel communication systems with redundancy - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to provide the possibility of monitoring radio receivers of a multi-channel communication system with redundancy. To achieve the goal, N-1 working channels 6 were entered, frequency tuning block 26, and memory block 15, demultiplexer 16, frequency tuning block 18, useful signal analyzer 19, control block 20, antenna 22 were entered into control channel 14. Principle The device is based on the sequential replacement of radio receivers in each of the N working channels 6 with the radio receiver of the control channel 14 with simultaneous control of the operability of the replaced radio receiver. 1 il.

Description

The invention relates to radio engineering and can be used in systems for automated monitoring of the technical state of radio receivers of multichannel communication systems with redundancy.

The purpose of the invention is the ability to control radios of a multichannel communication system with redundancy.

The drawing shows a structural electrical diagram of the proposed device.

The device for monitoring the operability of ^ 5 radio receivers of multichannel communication systems with redundancy contains a control unit 1 consisting of a clock generator 2, an input element And 3, a counter 4 and output elements 20 And 5, η working channels 6, each of which consists of antenna 7, first key 8, load element 9, second key 10, control unit 11 and analyzer 12 for the presence of a useful signal 25, also in each working channel is shown a monitored radio receiver 13, a control channel 14, consisting of a memory unit 15, a demultiplexer 16 , containing n + 1 key- 30 cells 17, frequency tuning block 18, useful signal availability analyzer 19, control unit 20, OR element 21, antenna 22 and key 23, a controlled radio 24, pilot signal generator 25, frequency tuning block 26 are also shown , indicator 27.

The device operates as follows. 40

In the initial state, all monitored radios 13 of the working channels 6 are connected through the first and second keys 8 and 10 with inputs to the receiving antennas 7 and outputs to the load ₄₅ elements 9. As the latter, for example, output acoustic devices or elements are used pairing with a communication line.

All monitored radios 13 are tuned to different operating frequencies. In block 15 of the memory of the control channel 14, an address code of the tuning frequency of the monitored radio 13 is recorded for each address. operating channel 6, and at p + 1 of the address, the frequency code is recorded at which the controlled radio 24 is monitored for the control ^{2 of} channel 14. All the monitored radios 13 and 24 are operational, there are no signals at the output of their control blocks 11 and 20, at the output of the OR element 21 there is a low level signal that opens the input element FROM the inverse input. The operation of the device is carried out cyclically, each cycle contains n + 1 cycles, the frequency of which is set by the clock generator 2 of the control unit 1.

From the output of the clock generator 2 through the input element And 3 opened by an inverse input, the first pulse is supplied to the input of the counter 4. Counter 4 is implemented according to the principle of a ring counter. At its first output, a pulse of the first clock cycle is generated, which is fed to the input of the corresponding output element And 5. If at this moment the monitored radio 13, respectively, of the working channel 6 is not connected (i.e., there is no working signal at its output) at the output of the analyzer 12 the presence of a useful signal there is a signal of a low logic level, which opens on the inverse input the first corresponding output element And 5, the output of which appears a logical signal ”1.

The specified signal is fed to the control input of the first key 8, which switches the input of the monitored radio 13 of the corresponding working channel 6 from the antenna 7 to the output of the control signal generator 25; to the control input of the second key 10, which connects the output of the monitored radio 13 of the corresponding working channel 6 to the input of the control unit 11; to the first control input of the demultiplexer 16, the corresponding key 17 of which, closing, connects the load element 12 of the corresponding working channel 6 to the output of the monitored radio receiver 24 of the control channel 14; to the first address input of the memory block 15, at the output of which the tuning frequency code of the corresponding working channel 6 appears, which is input to the frequency tuning block 18, which tunes the monitored radio 24 of the control channel 14 to the working frequency of the corresponding working channel 6. At the same time, the tuning frequency code is received to the input of the frequency adjustment unit 26, which tunes the control signal generator 25 to the frequency of the corresponding working channel 6. Thus, in the first cycle, instead of being controlled of the 13th radio receiver of the corresponding working channel 6, the monitored radio 24 of the control channel 14 is put in communication, and the monitored radio 13 of the working channel 6 is switched to the ed monitoring mode. The monitoring results of the monitored radio 13 of the working channel 6 from the output of its control unit 11 are displayed on the indicator 27. The latter, depending on the area and 20 of the device’s use, can be either a simple indicator with sound and light indication of the fact of failure, or at the same time perform the functions of an automatic system sensor 25 reservation or other hierarchically more complex system.

The second clock pulse of the clock generator 2 terminates the signal at the first output of the counter 4, which results in the return of the monitored radio 13 of the corresponding working channel 6 to its original operating state, and at the same time generates a signal at the second output of the counter 4. In this case, similar processes proceed as a result of which the controlled radio 13 of the other working channel 6 is set to control, and instead, the controlled radio 13 of the other working channel 6 is connected.

The specified process is sequentially repeated for all η working channels 6.

With the arrival of the counter of the 4 (n + 1) th pulse from the output of the clock 2, the signal appears on the (p + 1) th output of the counter 4, from which it arrives at the control input of key 23, which connects to the input monitored radio 24 of the control channel 14 output of the generator 25 of the control signal; to the (n + 1) th input of the demultiplexer 16, the last key of which 17 connects the output of the monitored radio 24 of the control channel 14 to the input of its control unit 20; to the (n + 1) th address input of the memory block 15, the output of which is generated the control channel tuning frequency code, through which the frequency tuning block 18 tunes the controlled radio 24. At the same time, the control signal generator 25 is tuned to the same frequency using the tuning block 26 frequency. The tuning frequency of the control channel 14 is selected different from all frequencies of the working channels 6 to exclude the possibility of creating interfering influences.

Thus, in step +1, the technical state of the control radio 15 of the control channel 14 is monitored, the results of which from the output of its control unit 20 are also displayed by the indicator 27.

If in the process of sequential polling of the working channels the monitored radio 13 of the interrogated channel is in communication, the output of its analyzer 12 of the presence of the useful signal is a logical 1 signal, which closes the corresponding output element And 5 via the inverse input. This blocks the possibility of transferring the monitored radio receivers to the monitoring mode connected to avoid the possibility of interruption of communication sessions.

In case of failures of the monitored radio 24 of the control channel 14, a logical 1 signal appears at the output of its control unit 20, which closes the inverse input element And 3 through the OR element 21, preventing the passage of pulses from the And 2 clock generator through it, thereby disconnecting the control system as a whole . A similar process occurs at the moments of substitution of the control channel 14 of any of the working channels 6 and the implementation at this point in the communication session. In this case, at the output of the monitored radio receiver 24 of the control channel 14, a working signal appears that comes from the antenna 22, which is recorded by its analyzer 19 of the presence of a useful signal. At the output of the latter, a logical 1 signal appears, which, acting through the OR element 21 on the inverse input of the input element of the FROM, · blocks the monitoring system for the period of the communication session in that working channel 6, instead of the moment it is included in channel 14.

Claims (1)

A device for monitoring the health of radio receivers of multichannel communication systems with redundancy, containing a control signal generator, a control unit, an indicator, a working channel consisting of an antenna connected via the normally closed contact of the first key to the input of the controlled radio of the working channel, a control unit whose input is through a normally open contact the second key is connected to the output of the controlled radio of the working channel, and the output of the control unit is the first output of the working channel a and is connected to the first input of the indicator, the analyzer of the presence of the useful signal, the input of which through the normally closed contact of the second key is connected to the output of the monitored radio of the working channel, and the load element connected to the input of the analyzer of the presence of the useful signal, the normally open contact · of the first key is the test input the signal of the working channel and is connected to the output of the control signal generator, and the control inputs of the first and second keys are combined and are the control input of the working to anal and connected to the first output of the control unit, a control channel consisting of an element. OR, the output of which is the output of the control channel and connected to the control input of the control blog, the normally open contact of the key is the input of the test signal connected to the control of the role of the role of the channel is connected to the normally closed contact of the key, characterized in that, in order to provide control control channel and the output of the signal generator, the input of the counterradio receiver kont50 1478162 6 diode receivers of a multi-channel communication system with redundancy, p-1 working channels were introduced, the test signal inputs of which are combined and connected to the output of the control signal generator, the control inputs η-l. working channels are connected with the corresponding outputs of the control unit, and the first, second and third outputs of all working channels are connected respectively with the corresponding η inputs of the indicator, with the corresponding η information inputs of the control unit and with the corresponding information inputs of the control channel, the frequency adjustment unit, the output of which is connected to control input of the control signal generator, anspa is introduced into the control channel, connected through a normally closed key contact with the input we control of the control channel radio receiver, a frequency tuning unit whose output is connected to the control input of the controlled channel control radio receiver, an analyzer of the presence of a useful signal, the input of which is the output of the controlled 'control channel radio receiver, and the output is connected to the first input of the OR element, the output of which is connected to n + 1 by an indicator input, a demultiplexer, n + 1 inputs of which are connected to the input of the analyzer of the presence of a useful signal, n + 1 control inputs of the demultiplexer are control inputs of the control channel and are connected to the corresponding n + 1 outputs of the control unit, η outputs of the demultiplexer are information inputs of the control channel and are connected to the corresponding third outputs of the working channels, the control unit, the input and output of which are connected respectively to the n + 1 output of the demultiplexer and the second input , the house of the OR element, a memory block, n + 1 inputs of which are connected to the corresponding control inputs of the demultiplexer, and the output of the memory block is connected to the control input of the frequency tuning block, S THE managing the pilot channel output and is connected to the unit control frequency adjustment input.