SU580651A1 - Device for measuring signal-noise ratio in communication channels - Google Patents

Description

one

The invention relates to a radio metering technique and can be used to measure a wide dynamic range of signal-to-noise ratios, as well as to monitor the quality of working communication channels and to estimate the noise immunity of communication channels for various types of signals and interference.

A device is known for measuring the signal-to-nome ratio in communication channels, comprising its antenna with a receiver, the output of which is connected to the input of a matching unit, and an indicator, the inputs of which are connected to the interference power meter directly, and the output of the sum power meter of the signal and interference subtracting the bolk, to the second input of which is connected the output of the power meter interference 1.

However, the known device does not allow measurement with different types of signals and interference and does not provide measurement of small signal-to-nomech ratios (less than 10 db), since the signal is taken as the sum of the signal and interference.

The purpose of the invention is to improve the accuracy and expand the range of signal-to-noise ratio measurement. For this purpose, an instrument for measuring the signal-to-noise ratio in communication channels, comprising an antenna with a receiver, the output of which is connected to the input of a matching unit, and an indicator, to the inputs of which

the power meter is interfered directly, and the output from the power meter of the sum of the signal and interference is through a subtracting unit, to the second input of which you plug the output of the power meter noi, you have entered an additional information channel consisting of an antenna connected in series with an appropriate antenna, low-frequency amplifier,

envelope detector, limiter and averager, as well as gating and blanking units, an inverter and an additional averager, while the output of the matching unit is connected to the input m of the power meter

the sum of the signal and interference and the interference power meter, respectively, through the gate unit and the blanking unit, to the control inputs of which the output of the limiter of the additional information channel is connected, which is simultaneously connected to the control input of the power meter of the signal sum and the noise through the series-connected inverter and additional equalizer, the output of the averager of the additional information channel is connected to the control input of the interference power meter.

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

The device contains a serially connected antenna with an receiver 1, a matching unit 2, a strobe unit 3, a power meter 4 of the sum of the signal and interference, a subtracting unit 5 and an indicator 6, the other input of which is connected to the output of the matching unit 2 via a serially connected blanking unit 7 and meter 8 power number. The device also contains an additional information channel consisting of an additional receiver 9 connected in series with a corresponding antenna, a low-frequency amplifier 10, an envelope detector 11, a limiter 12 and an averager 13, the output of which is connected to the control input of the power meter 8, and the series-connected inverter 14 and additional averager 15, the output of which is connected to the control input of the power meter 4. The output of limiter 12 and one is connected to the control inputs of the strobe unit 3, blanking unit 7 and to the input of the inverter 14. The output of the power meter 8 is connected to the second input of the subtractor unit 5.

The device works as follows.

Through an additional receiver 9 of the additional information channel, the signal without interference enters the low-frequency amplifier 10, then the envelope of this signal is selected and rectangular pulses are generated using limiter 12, the duration of which is determined by the time of the signal's existence. These imiuls control the strobe 3 and blaking 7 blocks. As a result, at the output of the gating unit 3, a stream of pulses occurs containing the signal and interference, and at the output of the blanking unit 7, a stream of pulses containing only interference. Next, a measurement is made of the average power of a stream of pulses containing signal and interference and only interference.

Since in each channel there is a stream of pulses with random durations and random intervals between them, the average power of the sum of the signal and interference will depend on the ratio of the integration time T to the total duration of the impulses.

pulses of 2Gp, taken during this integration time, i.e.

Р Р

 + n)

where Рс + п - Average power of a stream of impulses on an input of a power meter of the sum of a signal and interference.

Interference power depends on the ratio of the total integration time to the total

the duration of the inverted pulses, that is

T

„- Yap,

eleven

where Pn is the average power of the impulse flow at the input of the noise power meter.

Therefore, in order to obtain the exact value of the signal sum and interference power, an adjustable element is introduced into the sum signal and noise power meter, the transmission coefficient of which is:

K -.

Such a transmission coefficient is ensured by using the averaged inverted voltage from the output of the limiter 12 of the additional information channel.

To obtain the exact value of the interference power, an adjustable element is introduced into the interference power meter 8, the transmission coefficient of which is equal to;

Such a transmission coefficient is provided by using the averaged non-injected voltage from the output of the limiter 12 of the additional information channel.

The output of the subtracting unit 5 determines the signal power. The signal and interference are then fed separately to indicator 6, where their ratio is measured.

In comparison with the known device, the proposed device provides a measurement of the signal / interference ratio not only at high signal / interference ratios (more than 10 dB), but also at a signal-to-interference ratio close to one, as well as less than one.

Claims (1)

Invention Formula A device for measuring the signal-to-noise ratio in communication channels, comprising an antenna with a receiver, the output of which is connected to the input of a matching unit, and an indicator, to the inputs of which the power meter is interfered directly, and the output power meter of the sum of siali and interference is through a subtracting unit, To the second input of which the output of the noise power meter is connected, characterized in that, in order to increase the accuracy and extend the measurement range of the signal / ratio interference, an additional information channel is introduced, consisting of a series-connected additional receiver with a corresponding antenna, a low-frequency amplifier, an envelope detector, a limiter and averager, as well as strobe and blanking units, an inverter and an additional averager, while the output of the matching unit is connected to the power meter inputs the sum of the signal and interference and the interference power meter, respectively, through the strobe unit and the blanking unit, to the control inputs of which the outlets are connected one limiter of the additional information channel, which is simultaneously connected to the control input of the signal power meter and interference through successively connected inverter and additional averager, with the output of the averager of the additional information channel connected to the control input of the noise power meter. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 429544, cl. H 04B 3/46, 1970.