SU900203A1 - Device for measuring narrow-band signal fluctuation characteristics - Google Patents

Description

(54) DEVICE FOR MEASURING THE FLUCTUAL CHARACTERISTICS OF UZKOPOZPOSNOGO SIGNALS

one

This invention relates to radio measurements.

A known device for measuring the fluctuation characteristics of signals, containing a mixer, on one input of which a signal is fed directly, and on the second input through a tunable delay line, and an amplitude detector whose input is connected to the output of a mixer SP.

The disadvantages of this device are low speed and the need for additional computational operations.

The closest to the proposed technical essence and the achieved result is the device containing the first multiplier, the inputs of which receive the signal under investigation and the reference signal, the second and the third multipliers, the first inputs of which are connected to the output of the first multiplier whose outputs through filters are connected to the inputs of the blocks calculating derivatives whose outputs and inputs are connected to the inputs of a frequency calculating unit whose output is connected to the C2 / inpicator.

However, the device does not provide ilocTa accuracy.

The purpose of the invention is to improve accuracy.

Claims (2)

The goal is achieved by the fact that the device for measuring the fluctuation characteristics of narrow-band signals, containing two units for calculating the derivative, two multipliers, ne {) the input one of which is connected to the input bus, the unit for calculating the frequency, the output of which is connected to the input of the indicator, has been entered delays, two quadrants, a square-root extraction unit and an adder, one input of which is across the first quadrant connected to the input of the first calculation block of the derivative and the input bus, and the second input of the accumulator The second quadrant is connected to the first input of the second multiplier and the input of the second calculating unit of the SRI derivative, and the output of the adder is connected to the first input of the frequency calculating unit directly, and to the second input of the indicator via the quad-root root extraction block, by which the input of the second calculating derivative unit is connected to the input bus through the delay line, the outputs of the derivative calculation blocks are cross-connected to the second inputs of the multipliers, the outputs of which are connected to the second and third inputs of the frequency calculation block . In addition, the frequency calculation block contains a cp block and a subtractor, the inputs of which are connected to the second and third inputs of the block, and the output of which is connected to the first input of the comparison unit, the second input of which is connected to the first input of the frequency calculation block whose output is connected to the output of the cpa block . The drawing shows a structural electrical circuit of the proposed device. The device contains the delay line 1 for a quarter of the signal period, blocks 2 and 3 for calculating the derivative, varieties 4 and 5, quadrants b and 7, sum of torus 8, block 9 for calculating the frequency, consisting of unit 10 for voltage comparison and subtractor 11, the square root calculation unit 12 and the indicator 13. The input signal is fed to the input bus 1. The device operates as follows. The test signal, A (t) cosCUot f (t), is fed to the input of delay line 1, which delays it by a quarter of the carrier frequency period, resulting in a V oscillation at its output (at A (i) s and CoJo ft 3. Signals can be uniquely determined by the amplitude and instantaneous frequency in the form of AU) / U (t) V (t) ,, h «u (t) -jp. Therefore, the studied signal U (t) is squared by a quad 7 and in the form and (t) is fed to the second input of the adder 8, and the signal V (t) delayed by the delay line 3 is raised to 3 square by the quad squared V (t) the first input of the cy-1 mathor 8, as a result of this, the voltage at the output of the adder 8 is proportional to the value and (t) + and (t). Next, it enters the root extraction unit 12, the output voltage of which is proportional to the amplitude of the signal A (t) VlFIt) VH. The voltage from the output of block 12 is fed to the second input of indicator 13, IB of which calculates the fluctuation characteristics of the signal amplitude. At the same time, the signal under study is fed to the input of block 2 for calculating the derivative, the output voltage of which is proportional to the value (W is fed to the second input of multiplier 5, and to the first input of the second multiplier 4. Delayed signal / (t} is fed to the input of block 3, output voltage is proportional to the value of V (t) is fed to the input of multiplier 4, and to the input of multiplier 5.i As a result, the output voltage of multiplier 4 is equivalent to the value U (t) V (h enters the input of the subtractor 11, and the output voltage varies resident 5 is proportional to the value (1) V ({) is fed to the second input of the subtractor 11. The output voltage of the subtractor 11 is proportional to the value UCt) V (t) -U UjVlO is fed to the first input of the block 1O, the second input of which receives the voltage proportional to the value of (t) V (hours from the output of the adder 8. Therefore, the output voltage of the unit Yu is proportional to the instantaneous frequency of the signal utt) vu) –uttlt) comes to the input U (t) J Ct) of indicator 13, in which fluctuation frequency characteristics are recorded. Claim 1. Device for measuring fluctuation characteristics of narrow-band signals, containing two units for calculating the derivative, two multipliers, the first input of one of which is connected to the input bus, a frequency calculation unit, the output of which is connected to the indicator input, which is different in that precision, it introduced delay lines, two quadrs, a square root extraction unit and an adder, one input of which is connected through the first quadrant to the input of the first derivative calculation unit and to the input bus, and the second input of the adder via the second quad is connected to the first input of the second multiplier and the input of the second calculator of the derivative, and the output of the accumulator is connected to the first input of the frequency calculator, and to the second input of the indicator through the square root extraction, and the input The second derivative calculation block is connected to the input bus through a delay line; the outputs of the derivative calculation blocks are cross-connected to the second inputs of the multipliers, whose outputs are connected to the second and third inputs them calculating unit. frequency. 2. The device of claim 1, wherein the frequency calculating unit comprises a comparison unit and a subtractor, the inputs of which are connected to the second and third inputs of the unit, and the output of which is connected to the first input of the comparison unit, the second input of which is connected to the first input of the frequency calculation unit, the output of which is connected to the output of the comparison unit. Sources of information taken into account in the examination 1. Bert1tein I. L. Fluctuations of the amplitude and phase of a lamp generator. Izv. Academy of Sciences of the USSR, ser. Physical, 1950, 14, p. 145. 2. Radio engineering and electronics. T. XXW, 1979, N9 5p p. 962 R