SU1112329A1 - Device for checking meters of group lag time - Google Patents

Abstract

A DEVICE FOR TESTING OF MEASURING GROUPS OF LAGGING TIME, containing two modulators, the first of which is connected to the output of the reference delay line by the second input and the first terminal to connect the measuring channel input to the output, the first amplitude detector is connected to the output of the first filter, the first filter, the second modulator is connected via an output through a second amplitude detector connected in series and a second filter to a second terminal to connect the input of the reference channel to be measured; measure l, characterized in that, in order to improve the accuracy of calibration of meters in the high and ultrahigh frequency ranges, high and low frequency generators, two adders, two amplitude detectors, two filters and two amplifiers with adjustable gain factors, and a high amplifier the output frequency is connected simultaneously to the first inputs of the first and second modulators, the output of the low-frequency generator is connected nep (directly to the first inputs of the first and second adders, the output of the first adder is connected to in the model delay line, as well as through the third amplitude detector and the third filter connected in series to the control input of the first amplifier with adjustable gain, the signal input is connected (/) to the output of the first filter, and the output to the second input of the first adder, input the first amplitude detector is connected to the first terminal for connecting the input of the measuring channel of the meter being turned, and the output of the second adder is connected to the second input of the second modulator, as well as through Quarterly connected quarters amplitude detector and a fourth filter to the control input of the second amplifier with adjustable gain, a signal input connected to the second terminal to connect the reference channel of the meter being turned, and the output to the second input of the second adder.

Description

The invention relates to a measurement technique and can find wide practical application for the calibration of group lag time meters. A device for verification of group delay time meters is known, which contains segments of a coaxial cable of normal or special design and a number of adjustable resistances and ijn ijn. A disadvantage of this device is the low calibration accuracy, due to the difficulty of matching the cable and the load in a wide frequency range. It is also known a device containing a variable lag time group meter first connected in series through a first amplitude detector, a first filter and an exemplary delay line to one of the inputs of the first modulator, a second input of the second modulator connected to BTOIJBIM, and the second the output of a rotatable meter group delay time, the output of the first modulator is connected to the first terminal for connecting the input of the measuring channel of the meter being turned, the third output is that is connected to the first input of the second modulator, in turn connected through a second amplitude detector and a second filter connected in series to a second terminal for connecting the input of the reference channel of the tester 2, a disadvantage of the known devices is the occurrence of additional error in the high and ultrahigh frequency ranges due to by fluctuating the frequency irregularity of the group delay time of the nodes entering the device. The aim of the invention is to increase the accuracy of the calibration of the group lag time meter in the High and Ultrahigh Frequency Range. The set target is achieved by the fact that the device for calibrating the group lag time meter contains two modulators, the first of which is connected to the output of the exemplary delay line by the second input and the first terminal to connect the input of the measuring channel of the measuring meter, the first amplitude the detector is connected to the input of the first filter by the output, the second modulator is connected to the output through a second amplitude detector connected in series and a second filter to the second terminal for connecting the input tunable meter, high and low frequency generators, two adders, two amplitude detectors, two filters and two amplifiers with adjustable gain factors, the high frequency generator connected simultaneously to the first inputs of the first and second modulators, the low frequency generator output connected directly to the first inputs of the first and second cym: atops, the output of the first adder is connected to the input of the model delay line, as well as through a third amplitude detector connected in series and a third filter to the control input of the first amplifier with adjustable gain, signal input connected to the output of the first filter, and output to the second input of the first adder, the input of the first amplitude detector is connected to the first terminal to connect the input of the measuring channel of the meter being turned, and the output of the second adder is connected to the second input of the second modulator, and also through the fourth connected amplitude detector and the fourth filter connected in series to the control input of the second amplifier L variable gain amplification signal input connected to a second terminal for connecting a reference channel power metal emogo meter, and the output - to the second input of the adder. The drawing shows a block diagram of a device for calibrating lag time rpyjinoaoro meters. The device contains a high frequency generator 1, a first modulator 2, a low frequency generator 3, a first adder 4, an exemplary delay line 5 with a switching unit, and a terminal 6 for connecting the input of the measuring channel of the meter being turned.

The first ammunition detector 7, the first filter 8, the first amplifier 9 with adjustable cozf (}) gain center, the second amplitude detector 10, the second filter 11, the second adder 12, the second modulator 13, the third amplitude detector 14, the third filter 15, the second terminal 16 for connecting the input of the reference channel of a rotatable meter for group lag time, a second amplifier 17 with an adjustable gain factor, a fourth impedance detector 18 and a fourth filter 19.

The high-frequency generator 1 is connected to one of the inputs of the modulator 2, the second input of which is connected to the output of the low-frequency generator 3 through the first adder 4 and the exemplary delay line 5 connected to the output of the modulator 2 through the serially connected terminal 6 for connecting the measuring channel input the calibrated meter, the first detector 7 and the first filter 8 are connected to the signal input of the first amplifier 9 with adjustable gain, the output of which is connected to the second input of the first total 4, the output connected via a third detector 14 and a third filter 15 connected in series to the control input of the first amplifier 9 with an adjustable gain factor, the second adder 12 by the first input connected to the output of the low frequency generator 3, and the output to one of the inputs of the second modulator 13, the second input of the high frequency generator 1 connected to the output, the output of the second modulator 13 through the second detector 10 connected in series, the second filter 11 and the second terminal 16 for connecting the reference channel input meter is connected to the signal input of the second amplifier 17c variable gain, to output torogo-i connected to the second input of the second adder 12 output is connected via a series-connected fourth detector 18, and a fourth filter 19 to the control | input of the second amplifier 17c regulijpyeMbiM gain coefficient.

The principle of the verification device is as follows.

1124294

The high-frequency signal from the output of the high-frequency generator 1 is fed to the first input of the modulator 2. As a modulating function of the high-frequency signal, a signal is fed to the second input of the modulator 2 from the output of the low-frequency generator 1 through the first adder 4 and the exemplary delay line 5, Output 10 The modulator 2 signal can be represented as.

 you t, b «5 n Ql -qio + q), t SZC Wt

(one)

From expression (1) it follows that the envelope of the test signal, in addition to the initial phase shift c and the delay time introduced by the exemplary delay line 5, also contains an additional phase shift

20 (,, introduced by modulator 2, which is caused by the non-uniformity of its phase-frequency characteristic. This leads to the fact that when calibrating meters in the high and ultra-high frequencies, a significant fluctuation of the frequency non-uniformity of the group lag time of the test signal appears. To stabilize this, not. uniformity and its reduction, the test signal is fed to the input of the detector 7, the output of which with the help of filter 8 produces the first harmonic of the envelope. Since the fluctuation of the frequency

5 the non-uniformity of the group lag time manifests itself in a change in the phase of the envelope relative to the phase Cfo of the modulating signal, the selection envelope on the filter 8 of the envelope goes through the amplifier 9 with adjustable gain to the second input of the adder 4, the output. the voltage of which, taking into account the inversion of the envelope at the output of the amplifier 9, can be represented as

II II Li -L U, s; nCc, -q of; zt n

UdUSin mt-afctrf-rr-T: - / 2V

 L Uo-U, co5Cq,) J.

Taking into account that (p - q) jj «1 and taking 0 at the initial time 2 - O, expression (2) can be represented in. the form

U4 (4, -cf),

5, where U is the amplitude of the output voltage of the adder 4, which is constant when the phase of the modulating signal Cp-j changes.

The output voltage of the adder 4 is fed through the exemplary delay line 5 to the second input of the modulator 2,.

as well as directly to the input of the detector 14, at the output of which a constant voltage is extracted by means of the filter 15, which serves as a regulating voltage and is fed to a control input of an amplifier 9 with an adjustable gain factor.

When the amplitude O of the output voltage of the adder 4 is changed, the phase of the voltage 1) at the output of the amplifier 9 with an adjustable gain output gain will change

Uc ,, - q) o -Oo5inUbqo) -ij, 5m (at + q) J.

The initial phase of the modulating signal Cf Oh, we get

1 and.i, /

q, arct - sincf ,.

Arising - in this case the frequency non-uniformity of the group delay time can be represented as

l h uu ...

   (I)

Since Cf "1 and the ratio C / SI 1, the expression (3 takes the form

it

(Iv)

gr

where o is the absolute value of the group time of the test signal forming node's lagging time.

From expression (4) it follows that with a certain choice of the amplitudes of the voltages U and the UQ of the input nodes that form the automatic control system, along with stabilization, the frequency non-uniformity of the group lag time of the test signal generating unit LI is also reduced (j / UU pa3 compared to its absolute value of 2.

To compensate for the resulting frequency irregularity of the group delay time, the output signal of the high-frequency generator 1 is fed to the first input of the modulator 13, as a modulating function of which is the output signal of the low-frequency generator 3 fed to the second input of the modulator 13 through the first input of the adder 12. Formed at the output of the modulator 13, the test signal has

A view similar to signal (1) in co-iOpoM also exhibits fluctuations in the frequency unevenness of the group latency. In order to stabilize it and reduce the output

the modulator 13 signal is fed to the input of the detector 10, the output voltage of which, after filtering by filter 11, is applied simultaneously to terminal 16 to connect the input of the reference channel of the meter being turned, and to the signal input of the amplifier 17 with adjustable gain is fed to the second input of the adder 12, the output voltage of which

after being detected by the detector 18 and filtered by the filter 19, it is fed to the control input of the amplifier 17 with adjustable gain. Since the nodes introduced in the second channel of the verification device form an automatic control system, identical in technical characteristics to the automatic phase shift control system

in the first channel, then in this channel — along with stabilization — the frequency non-uniformity of the group lag time is also simultaneously reduced compared to its absolute value in the table

Same time as in the first channel. ; When the generated signals are fed to the inputs of a calibrated meter, their frequency irregularities of group time are compensated

delay, and therefore the accuracy of verification is determined only by the accuracy of the model delay line 5.

A comparative analysis of the proposed device with a known technical parameters shows that the verification of the group lag time meters of the known device in the high and ultrahigh frequency ranges leads to the frequency irregularity of the group lag time of the order of ± 10 n, which corresponds to a relative calibration error of 2%. The introduction of additional units into the proposed device creates two identical highly stable automatic control systems with the help of which they are implemented: the frequency imbalances of the group delay time in (Each of the controlled channels and its reduction to the order of ± .1 НС, which leads to to a relative verification error of 0.5%. 9 8 Thus, ensuring stabilization and reduction of the fluctuation of the frequency irregularity of the group lag time of the test sig This makes it possible to increase the accuracy of pores.

Claims (1)

DEVICE FOR CHECKING GROUP TIME DELAY METERS, containing two modulators, the first of which is connected to the output of the model delay line by the second input and to the first terminal for connecting the input of the measuring channel of the calibrated meter, the first amplitude detector is connected to the input of the first filter by the output, the second modulator the output is connected through a second amplitude detector and a second filter connected in series to the second terminal for connecting the input of the reference channel of the calibrated meter, This is because, in order to increase the accuracy of calibration of the meters in the high and ultra-high frequency range, high and low frequency generators, two adders, two amplitude detectors, two filters and two amplifiers with adjustable amplification factors are introduced into it, and the high-frequency generator is connected with an output simultaneously to the first inputs of the first and second modulators, the output of the low-frequency generator is connected directly to the first inputs of the first and second adders, the output of the first adder is connected to the input of the model delays, as well as through a third amplitude detector and a third filter connected in series, to the control input of the first amplifier with an adjustable gain, a signal input connected to the output of the first filter, and an output to the second input of the first adder, the input of the first amplitude detector is connected with the first terminal for connecting the input of the measuring channel of the calibrated meter, and the output of the second adder is connected to the second input of the second modulator, as well as through four connected in series the fourth amplitude detector and the fourth filter - to the control input of the second amplifier with adjustable gain, a signal input connected to the second terminal for connecting the reference channel of the meter being calibrated, and 'output - to the second input of the second adder .. SU „„ I12329