SU917170A1 - Device for measuring time delay of random signal - Google Patents

Description

(54) DEVICE FOR MEASURING THE DELAY OF A RANDOM SIGNAL

one

. The invention relates to specialized computer equipment used to measure the delay of random signals in time, and can be used in measurement technology in an experimental study of random signals.

A device for measuring a randomized signal containing low-pass filters (LPF), an averaging unit, a control unit, two linear transducers, two multipliers, an adder and subtracting units (l.

The disadvantage of this device is low accuracy and complexity, which is caused by the necessity of implementing 2 2 low-pass filters with impulse responses hr De, two identical. . linear transducers with adjustable conversion factors and two identical multiplication blocks.

The closest in technical terms to the present invention is a device containing a linear 1-converter, a series-connected subtraction unit, an averaging unit, a control unit, the output of which is connected to the linear input of the linear converter, the first multiplier, the second multiplier, connected to the non-inverting input of the subtracting unit connected in series to the first input of the device first and second

10 low-pass filters, connected to the second input of the device, a third low-pass filter, the output of which is connected to the first input of the second multiplier through the high-pass filter, output to

15 of the lowpass filter is connected to the second input of the second multiplier, the first input of the first multiplier is connected to the output of the first lowpass filter, the second input to the output of the third

Claims (2)

20 of the low pass filter, the output of the first multiplier is connected to the inverting input of the subtracting unit via a linear converter. 39 The presence of two multipliers in this device imposes a limitation on the accuracy of measurements, since to ensure the required accuracy, a high identity of their characteristics is required, failure to comply with this condition leads to a decrease in the accuracy of the device as a whole. The aim of the invention is to improve the measurement accuracy. This goal is achieved by the fact that a device for measuring the delay of a random signal, comprising a linear transducer, serially connected averaging unit and a control unit, the output of which is connected to the control input of the linear gdera; the multiplier, the output of which is connected to the signal input of the linear converter, are successively connected first and second filters of the lower frequencies, the input of the first of which is the first input of the device, the third low-pass filter connected in series and the high-pass filter, the input of the third lower filter frequency is the second input of the device, a clock pulse generator and three switches are inserted, the clock pulse output is connected to the control inputs of the switches, the first and second The first inputs of the first switch are connected respectively to the outputs of the first and second low-pass filters, and the output to the first input of the multiplier, the first and second inputs of the second switch are connected respectively to the output of the third low-pass filter and to the output of the high-pass filter, and the output to the second input of the multiplier, the first and second inputs of the third switch are connected respectively to the output of the linear converter and to the output of the multiplier, and the output to the input of the averaging unit. A block diagram of devices for measuring the delay of a random signal is shown in the drawing. The device for measuring the random signal fading contains low-pass filters 1-3, high-pass filter 4, multiplier 5, linear transducer 6 with adjustable conversion coefficient K (-t), block 7-averaging, control block 8, switches 9-11 , 12 clock pulse generator. Between the first input of the device and the second input of the switch 9 0, low-pass filters 1 and 2 are connected in series, and between the second input of the device and the second input of the switch 10 are connected in series the filter 3, low pass and high pass filter 4, To the first input of the switch 9, the output the low-pass filter 1, and the low-pass filter output 3 is connected to the first input of the switch 10. The output of the switch 9 is connected to the first input, and the output of the switch 10 to the second input., Multiplier 5. The output of the multiplier 5 is connected to the second input of the switch Tqpa 11 nbc, and to its first input - linear converter 6. The output of the switch 11 sub-key to the control input of the linear converter 6 through the series-connected averaging block 7 and the control block 8. The output of the generator 12 clock pulses is connected to the alpha inputs of the switches 9 - 11. The device operates as follows. When the first inputs of the switches 9-11 are connected to their outputs (as shown in the drawing), the signals X (-tr and (t) pass through the low-pass filters 1 and 3, the multiplier 5 and the linear generator 6, respectively) form the signal of the negative signal at the input of the averaging unit 7 polarities And equal in magnitude U, (t) -fre-Tx (tT) dt (tt) dt3, where X C-b) and V (i) are centered stationary connected random signals acting respectively on the nqpv and second inputs devices. When connecting the second inputs of switches 9–11 to their outputs, a signal, X (–t), passes filters 1 and 2 lower frequencies and a signal H) - low pass filter 3 and high pass filter 4, and then through the mixer 5, they form an input block 7 averaging positive signal and equal in magnitude. U AG. - “Gyg“ t J 9, l to-a “rliJTl T, | .lt-t; atX .x (tt) dT 591 Generator 12 clock pulses, cp: ravl switches 9-11, it is possible to get on the input of block 7 averaging a variable signal having the form of a mean. core, the amplitude of the positive impulses is equal to U-j, and negative Ujf. At the output of the averaging unit 7, a signal is formed, 1 × 5 is the rational estimation of the expectation of this p-change (signal, which, through a transfer of 8 ffl, changes the coefficients pg of the linear g). AOWATEL 6 is up to ps, as long as the signal is a purely rational evaluation of the mathematical waiting at the output of block 7 averaging will not become zero. At the same time, the Kojffioiente (a) linear gf of Azovatel 6 will perform in KNOCH1esteva (the delay time is equal to ,, | .. -1 JrO Htjtit 2t where T is Tfm Delay; T the duration of the input signals / lMSh is mutual the correlation function of the signals X (t} and 9 (1 Achievement of high precision measurements of deceleration in the proposed device is due to the fact that the intermediate transformations over 1 hlvlami hl) and) are performed by one multiplication. In addition, the multiplier 5 in the proposed device operates in the mode, display yq ddnogo production A device for measuring the amplitude-frequency hcc actor. Invention A device for measuring the output signal of a random signal, followed by a pin converter, followed by a pin-0 BUT connected average block and control block whose output is connected to ) to the linear input of the converter, the multiplier, the output of which is connected to the signal input of the continuous transformer, the first and second low-pass filters connected in series, the first of which is input s - it is the first input device {- p6sleds -. in combination with the third low pass filter and high pass filter, the input of the third low pass filter is the second input of the device, which is, for the purpose of ps improving the accuracy of the measurements, A clock pulse generator and three switches are inserted in it, the clock pulse pulse generator output is connected to the control inputs of all switches, the first and second inputs of the first switch are connected to the first and second low-pass filters, respectively, and the output to the first input of the multiplier, first and wts The second switches of the second switch are connected to the third low-pass filter% ixQt and the output of the filter at each frequency, and the output to the second input of the multiplier, the first and second inputs of the third switch are connected to the output of the linear switch and the output of and the output is to the input of the averaging unit. Sources of information taken into account ggri exp uzise 1. Copyright witness SSHZR N 601968, cl. Q 06 F 15/36, 1978. 2. USSR author's certificate N 587444, cl. G 04 F 10 / OO, .1978.  h "SI