SU813320A1 - Pulse signal shape factor meter - Google Patents

Description

The invention relates to electrical engineering and can be used in systems for assessing the quality of multichannel long-distance lines, in computer oscilloscope graphs.

Closest to the invention in technical essence is a pulse shape factor meter comprising three integral transducers, two ratio determining units, a multiplication unit and an indication unit [1J.

The disadvantage of this device is a narrow range of metrological characteristics - low sensitivity and a narrow range of durations of the studied signals.

The goal is to expand the range of metrological characteristics.

The goal is achieved by the fact that the meter of the shape factor of the pulsed signals, containing three integrated converters, the inputs of which are combined and connected to the bus of the signal under study, two units for determining the ratio, the outputs of which are connected to the inputs of the multiplication unit, the output associated with the input of the display unit, is equipped with two blocks subtraction, by the adder and the unit of normalization of amplitudes, the input of which is connected to the output of the third g of the integral transducer, and the output to the second input of the second unit for determining the ratio and the second input of the second subtraction unit, the output of which is connected to the second input to the first unit for determining the ratio, and the first input to the output of the adder, the first input of which is connected with the output of the first integral converter and the first input of the first subtraction unit, and the second input with the output of the second integral transducer and the second input of the first subtraction unit, the output of which is connected about the first inputs of the relationship determination units.

the drawing shows a structural electrical diagram of a meter of the coefficient of shape of the pulse signals.

The device diagram consists of integral converters 1-3, subtraction blocks 4 and 5, adder b, ratio determining blocks 7 and 8, amplitude normalization block 9, multiplication block 10, and indication block 11. Integrated converters3 and 1 are made on. nonlinear elements with exponential current-voltage characteristics, and integral converter 3 - on a linear element.

The device operates as follows.

The inputs of integrated converters 1-3 are pulses of a rectangular shape. From the outputs of the integrated converters 1 and 2, the inputs of the subtraction unit 4 and the adder 6 receive signals of exponential shape, the amplitudes of which are equal

• Uc -I ~ t and (€ 3) I, (J)

Is-g'bI £ *) / C24 where tu is the duration of the input signal;

X = Ao;

χ. - the steepness parameter of the nonlinear element;

Ogi is the amplitude of the input signal. The expanded pulse at the output of the subtraction unit 4 has a value that varies proportionally to the square of the amplitude of the pulses at the inputs of the integral converters 1 and 2, which follows from the difference of the expressions (1) and ('2)' when the power fractions are expanded in a Maclaurin series and limited to 3 terms decomposition. At the same time, the pulses from the outputs of the integrated converters 1 and 2 are fed to the adder bis of its output - to the subtraction unit 5, to the second input of which the signal from the output of the integrated converter 3, the amplitude of which is equal to:

L "cj ~ .tu Um"

At the output of adder 6, the signal amplitude is: Uc = AtuU _w L2 + ^ X% ^ xV ..] 'Mu [A + ^{+ А} 1 иА 3 and hf] f ^where А и = eoH5t (n = 0,1,2).

After subtracting the linear term proportional to X = .AUm _r Ha the output of block 5 of subtraction, we obtain UcK = Uc-KUe3 ^? Btu U ^J m, where c = const.

Extended signals whose amplitudes vary according to linear, quadratic and cubic laws from the outputs of blocks 4, 5 and 9 are sent to blocks 7 and 8 of the ratio determination. The output signals of blocks 7 and 8 are multiplied in block 10. A signal proportional to the shape factor is displayed in block 11.

The present invention allows to measure the shape factor of pulses with a duration of tens of picoseconds, increase sensitivity at a given measurement error, increase measurement accuracy at large ranges of amplitudes and durations of the studied signals, simplify the design and reduce the amount of adjustment work.

Claims (1)

(54) MEASURING THE COEFFICIENT OF THE FORM OF PULSE SIGNALS 1 and 2 are made on. nonlinear elements with exponential volt1mpernymi characteristics, and the integral transducer 3 - on the linear element. The device works as follows. The inputs of the integrated converters 1-3 are pulses of a rectangular shape, from the outputs of the integrated converters 1 and 2 to the inputs of the block 4 of the subtraction and the adder b signals of the exponential form are received, the amplitudes of which are: Uc-, tu (H) ,, O) Uc2 -tuH-tM, where iru is the duration of the input sig X. X is the steepness parameter of the nonlinear element; Um - input signal amplitude The extended pulse at the output of block 4 of the subtraction has a value that is proportional to the square of the amplitude of the pulses at the inputs of the integral transducers 1 and 2, which follows from the difference of the expressions (1 and (2) when decomposing power fractions in Maclaurin's series and limitation by the 3rd decomposition terms. Simultaneously, pulses from the outputs of integral converters 1 and 2 are fed to an ad bis output of its output - to subtraction unit 5, to the second input through an amplitude normalization unit 9 with gain factor K p a signal is output from the integral converter 3, the amplitude of which is equal to: Cc Um At the output of the adder 6, the signal amplitude is equal to: uc tuUmI2-t-§ xЧ, .- otulA, u. + Ail MV iUnfl - .., D .st ( , 2, ..). After subtracting the linear term proportional to, at the output of subtraction unit 5, we get UCK UC-kUez Btu and w, where "const. Enhanced signals whose amplitudes vary linearly, quadratic and cubic laws from the outputs blocks 4, 5 and 9 arrive at ratio blocks 7 and 8. The output signals of blocks 7 and 8 are multiplied in block 10. A signal proportional to the shape factor is indicated in block 11. The present invention makes it possible to measure the pulse ratio with a duration of ten picoseconds, to increase the sensitivity at a given measurement error, to increase the measurement accuracy at large ranges of amplitudes and durations of the investigated signals, simplify the design and reduce the amount of adjustment work. Invention The pulse waveform coefficient meter contains three integral converters, the inputs of which are combined and connected to the bus of the signal under study, two ratio determination units, the outputs of which are connected to the inputs of the multiplication unit, the output connected to the input of the display unit, T-BATTERY and that, in order to expand the range of metrological characteristics, it is equipped with two subtraction units, an adder and an amplitude rationing unit, the input of which is connected to the output of the third integral about the converter, and the output with the second input of the second ratio determination unit and the second input of the second subtraction unit, the output of which is connected to the second input of the first ratio determination unit, and the first input to the output of the adder, the first input of which is connected to the output of the first integral converter and the first input of the first subtraction unit, and the second input with the output of the second integral converter and the second input of the first subtraction unit, the output of which is connected to the first inputs of the ratio determination units. Sources of information taken into account in the examination 1. USSR author's certificate in accordance with application 2553792/21, class G 01 B 29/02, 1977 (prototype).