SU1658402A1 - Noise level meter - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to improve the measurement accuracy. The meter contains a calculator 1 of root-mean-square values (RMS), a logarithm 2, blocks 3, 7 of memory, a functional converter 4, an inverter 5 and an adder 6. The calculator 1 and a logarithm 2 form the offset RMS. For the sample size code stored in block 3, functional converter 4 determines the offset value, which is eliminated in adder 6. According to the signal from inverter 5, an unbiased estimate of the noise level goes to block 7. 1 sludge.

Description

The invention relates to telecommunications and can be used in equipment for monitoring and measuring parameters of communication channels,

The purpose of the invention is to improve the accuracy of measurement.

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

The noise level meter comprises a root mean square calculator 1, a logarithm 2, a first memory unit 3, a functional converter 4, an inverter 5, an adder 6 and a second memory unit 7.

The meter works as follows.

In the initial state, a random process is applied to the information input of the device, and a sample size code is submitted to the parameter input. In block 3, the significant sample size for the current measurement cycle is stored (hereinafter, the word code will be omitted). At the outputs of the functional Converter 4 there is an offset value for the sample size. The calculated offset value is applied to the second group of inputs of the adder 6. The calculator 1 rms values (RMS) performs the calculations for the current measurement cycle. The logical unit is set at the control output of the calculator 1 rms values, and the value of the RMS estimate for the previous measurement cycle is present at the information outputs of the calculator 1 rms values. Block 7 stores the value of the noise level calculated on the previous measurement cycle.

After practicing the current measurement cycle, the calculated value of the RMS estimate is output to the information outputs of the calculator 1 rms values. After a certain time interval necessary for the operation of the logarithm 2, the value of the biased estimate of the noise level appears on its outputs, which is fed to the first group of inputs of the adder 6. The calculated offset value is already present on the second group of inputs of the adder 6. At the outputs of the adder 6, an unbiased estimate of the noise level is formed.

The value of the signal at the control output of the calculator changes from a logical unit to a logical zero. Passing through the inverter 5, this difference initiates the recording of an unbiased estimate of the noise level in the second memory unit 7. According to the inverse signal difference at the control output of the calculator 11 from a logical zero to a logical unit, a new value of the sample size is recorded from the inputs of the parameter to the first memory block 3. RMS calculator 1 starts a new measurement cycle. At the inputs of the parameter, a new value of the sample size for the subsequent measurement cycle can be set.

It should be noted that the delay introduced by the functional converter 4 should not exceed the calculation time of the RMS estimate at the minimum possible sample size at the inputs of the device parameter.

Claims (1)

Claim A noise level meter, comprising a series-connected mean-square value calculator and a logarithm, characterized in that. in order to increase the measurement accuracy, an inverter and a series-connected first memory block, a functional converter, an adder and a second memory block are introduced, while the output of the first memory block is connected to the control input of the RMS calculator, the control output of which is connected to the control input of the first memory block and the inverter input, the output of which is connected to the control input of the second memory block, and the output of the logarithm is connected to the second input of the adder.