SU702339A1 - Digital device for measuring dispersion characteristics of a delay line - Google Patents

Description

(54) DIGITAL DISPERSION MEASURING CHARACTERISTICS; - .. DELAY line

7023 59

Claims (2)

3 The structural electrical circuit of the device is shown in the drawing. The device contains the measuring signal generator 1, the SbtrMK 2 blbK, the spectrum conversion unit of the delayed radio pulse 3, the delay measurement unit 4, which includes detectors 5 and b, the selector 7, the counter 8 and the counting pulse generator 9, frequency divider 10, key 11 and reversive counter 12. The device operates as follows. The original measuring radio pulse from the output of the generator of measuring signals 1 is detected by the detector 5 and opens the selector 7, and the radio pulse decelerated in the delay unit 2 after tecting with the detector b closes it. The selector 7 is open for a time T ,, which is equal to the group delay time of the delay line under study. During T n the output of the selector 7, the counting pulses of the following frequency F are received from the generator of counting pulses 9. If D1 / the performance characteristic of the investigated delay line of the block 2 is close to linear, then it is necessary to write: dt.-pW). . - (5 - “Crp. AtVpCsV where - r - Velocity change and group delay time” dispersion characteristic deviation or difference dispersion characteristic. Then the number of counting pulses at the output of the selector 7, corresponding to the required discreteness (accuracy) value tfpff), equal to oi (- "CQH n" where; K is the coupling coefficient with the crucible dispersion characteristic; tf y, (.f) is the difference dispersion characteristic in a discrete form. The counting pulses are delivered to the counter 8, and also on the summation of the Vhbd reversible counter i.2 and from the output of the generator of counting pulses 9, the counting pulses arrive at the frequency divider 10 with a variable division factor, which remains constant in the process of measuring the characteristics of one DLS. The frequency delimiter 10 forms a strobe, the duration is N racs, h T Key 11 opens the gate T rac And the reference impulses with the following frequency f, which coincides with the selected carrier frequency of the generator of measuring signals 1, are received at the subtracting input of the reversible changer 12. The number of reference pulses for the duration p The calculated interval T j at the output of the key 11 is equal to P (-Y -vT (-F-f calc-nach -T opacM f- aM and linearly Depends on the carrier frequency f. The reference pulses are written off in the reversible counter 12, the number () pre-recorded in it. At the output of the reversible counter 12 there will be a difference number corresponding to the value of the difference dispersion characteristic for the selected carrier frequency f agnz, ll - the calculation reversible counter of the 12th number, equal to the deviation of the measured value of the dispersion characteristic of the investigated DLZ block 2 from the linear one, two conditions should be met: o After the substitution in (6) the expression (2) (6) is converted to type N Thus, the coincidence of the calculated characteristic slope with the average slope of the investigated DLZ is given that the division factor N of the frequency divider 10 is proportional to the velocity of the measured dispersion characteristic. G of the tested DLE. The output is obtained by setting the initial number in the reversible counter 12. Measuring the absolute and different dispersion characteristics is performed in the following sequence. Pre-set the carrier part of the generator of measuring signals 1 in the operating range of the DLZ unit 2; The frequency of the research F of the pulse generator 9 selects the required accuracy (discreteness) of reference. The value of the division factor N of the frequency divider 10 is set according to expression (7). By selecting an initial number, the reversible counter 12 is reset. Digital meter ready for operation. Tuning the carrier frequency f of the measuring signal generator 1 in the working range of the unit 2 being investigated by the DLZ receive samples of absolute (from the output of counter 8) and differential (from the output of the reversible counter 12) dispersion characteristics in square form. Thus, the use of a key frequency divider and a reversible counter in the proposed device allows automated removal of the difference dispersion characteristics of the DLZ under study with high accuracy. Claims 1. A digital meter for the dispersion characteristics of delay lines, containing in series a measuring signal generator and / iOK spectrum conversion of a delayed radio pulse, connected in parallel to the delay unit, so that, in order to increase Accuracy measurements, due to the possibility of direct measurement of differential dispersion characteristics, a frequency divider, a reversible counter and a key connected by one of the inputs to the frequency divider are entered into it The other is connected to the output of the measuring signal generator and the input of the spectrum conversion unit of the delayed radio pulse, while the key output is connected to the negative input of the reversible counter. 2. A digital meter according to claim 1, characterized in that the node measuring the delay is made in the form of two detectors, the outputs of which are connected to a selector, a generator of counting pulses connected by one of the outputs to the selector, and the other to the frequency divider and counter j whose counting input connected to the output of the selector and to the summing bypass of the reversible counter. Sources of information taken into account in the examination 1; USSR author's certificate 517000, cl. G 04 F 10/04.