SU794749A1 - Device for testing serviceability of multichannel radio systems - Google Patents

Description

The invention relates to radio engineering, can be used for periodic monitoring of the health of multi-channel frequency-selective systems, in particular for automated periodic monitoring of the health of systems of parallel analysis of the spectrum of radio signals.

A device for monitoring the operability of multichannel radio systems is known, which comprises a control signal generator, N keys, a receiving side, V keys, a signal shaper, an element for comparing the levels of output responses of the channels with the reference ones, an indicator, and a generator frequency synchronization block control signal with switching reference levels | [1].

However, in the known device, the health of multichannel systems is monitored alternately on all channels, which leads to a long monitoring time.

The purpose of the invention is the reduction of control time.

For this, the device for monitoring the operability of multichannel radio systems contains a control signal hector, N keys, on the receiving side .V keys, an element for comparing signal levels, the output of which is connected to the indicator input, on the transmitting side, on the 5th side, the frequency conversion unit, at the output of the control signal generator is connected to the input of the frequency conversion unit and connected to the inputs of N / 2 keys, the output of the frequency converter is connected to the combined inputs of other Λ72 keys on the other side, the outputs of some JV / 2 keys are combined and connected to one of the inputs of the signal level comparison element, the other input of which is connected to the other Λ72 keys combined by the output.

The drawing shows a structural electrical diagram of the device.

The device contains on the transmitting side a control signal generator 1, keys 2, a frequency conversion unit 3, on the receiving side - keys 4, an element 5 for comparing signal levels, indicator 6, channels 7 of the monitored radio system.

The device operates as follows.

During the monitoring of the system’s operability, keys 2 and 4 are closed, providing · * connecting channels 7 of the system to the device for monitoring and their parallel connection to the inputs and outputs in two groups. In this case, the number of channels in the groups is the same, and the frequency difference between the settings of the frequency response (amplitude-frequency characteristics) of the channels having the same serial numbers in the groups is always constant.

The control signal of the generator 1 with a frequency that varies in the range of input frequencies of one of the groups of channels 7 of the system through the corresponding keys 2, is fed to the inputs of the channels 7 of this group. At the same time, the inputs of another group of channels 7 through the corresponding keys 2 are supplied with the same signal as the first group, but transferred by the frequency conversion unit 3 to the range corresponding to its input frequencies. Thus, the signals of the same level formed at the inputs of both groups of channels 7, synchronously changing their frequencies, pass from channel to channel and retain the same relative detuning in the channels occupied by them.

In a workable system, the output responses of channels 7 to such input signals will be equal to each other due to the same shape of the frequency response of healthy channels. To compare the response levels at the outputs of the electoral channels of both groups, they are supplied through element 4 to element 5 (each group has its own input). The difference signal of the compared responses comes from element 5 to indicator 6. The appearance of the difference signal on indicator 6 indicates a malfunction of a single channel, and, accordingly, of the entire system. It is assumed that the probability of a simultaneous failure of the two compared channels, leading to identical changes in the shape of their frequency response, is quite small.

The practical implementation of the proposed device with the breakdown of the channels of the controlled system into more than two compared groups using the corresponding number of conversion units and comparison elements with the corresponding number of inputs is possible. At 10, the duration of monitoring the entire system will be further reduced, and the reliability of the results will increase.

Claims (1)

Connection of system channels 7 to the monitoring device and their parallel connection to the inputs and outputs in two groups. At the same time, the number of channels in the groups is the same, and the difference in the frequency of tuning the frequency response (amplitude-frequency characteristics) of channels that have the same sequence numbers in the groups is always constant. The control signal of generator 1 with a frequency varying in the range of input frequencies of one of the groups of channels 7 of the system through the corresponding keys 2 is fed to the inputs of channels 7 of this group. At the same time, the inputs of another group of channels 7 through the corresponding keys 2 are given the same signal as the first group, but transferred by the frequency conversion unit 3 to the range corresponding to its input frequencies. Thus, the signals of the same level formed at the inputs of both groups of channels 7 synchronously change their frequencies, pass from channel to channel and maintain the same relative detuning in the channels they occupy. In a workable system, the output responses of channels 7 to such input signals will be equal to each other due to the uniformity of the shape of the frequency response of the healthy channels. To compare the response levels at the outputs of the election channels of both groups, they are fed to the element 5 through each key 4 (each group to its own input). The difference signal of the compared responses comes from element 5 to the indicator 6. The appearance of the difference signal on the indicator 6 indicates a malfunction of the single channel and, accordingly, the entire system. In this case, it is assumed that the probability of a simultaneous failure of the two compared channels. resulting in identical changes in the shape of their frequency response, is quite small. Possible practical implementation of the proposed device with a breakdown of the channels of the controlled system in more than two compared groups using the appropriate number of conversion blocks and comparison elements with the corresponding number of inputs. In this case, the duration of monitoring the entire system will be further reduced, and the reliability of the results will increase. Claims An apparatus for monitoring the health of multi-channel radio systems comprising a pilot signal generator on the transmitting side. L keys, on the receiving side N keys, the element of comparison of the signal levels, the output of which is connected to the indicator input, characterized in that, in order to reduce the monitoring time, the frequency conversion unit is inserted on the transmitting side, while on the transmitting side the output of the control signal generator is connected to the input of the frequency conversion unit and to the combined on the inputs L72 keys, the output of the frequency converter is connected to the combined on the inputs of other L / 2 keys, on the receiving side the outputs of one yV / 2 keys are combined and connected to one of the inputs of comparing the signal levels of the element, the other input of which is connected with the combined output of the other N / 2 switches. Sources of information taken into account in the examination 1. Baumgart V.F. Automation of the control of radio receivers, M., “Link, 1976,. 69 (prototype).