SU883798A1 - Panoramic s-parameter meter - Google Patents

Description

(54) PANORA1 "1TH S-PARAMETER METER

I

The invention relates to a measurement technique and can be used in panoramic meters Spar 1 meter.

A panoramic S-parameter meter is known. It contains a controlled attenuator in the measuring channel, two synchronous detectors SD1 and SD2 are connected in parallel to the output, and a serially connected attenuator, a controlled phase shifter and a synchronous detector SDZ in the reference channel, and from the output of the controlled phase detector the control signal is removed for the SD2, SDZ and through the phase shifter — for SD1j the voltage of which is proportional to the measured signal is removed from the output of which the voltage is removed from the output of the SDZ, proportional to reference signal. From the output of the CD2, a voltage is removed through the DC amplifier, which is proportional to the phase difference of the measured and

reference signal, which, in addition, is fed to the control output of the controlled phase shifter 1.

The disadvantage of this meter is the error introduced by the unidentified. accuracy of the amplitude and phase characteristics of the measuring and reference signals, and the complexity of the circuit as a whole.

Claims (2)

Also known is a panoramic 5-parameter meter containing an electrically controlled attenuator, to the output of which in parallel are connected the inputs of two synchronous detectors in the measuring channel and the electrically controlled attenuator connected in series and a synchronous detector in the reference channel, phase shifter 90, switch, analog-digital, converter, microprocessor, digital-to-analog converter and oscillographic indicator. From the microprocessor, the common bus is controlled by an electrically controlled attenuator, switch, and digital-digital converter, and a digital-to-analog converter J. measuring channel. The purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that two switches are connected to the meter containing the switch, the universal attenuator, the output connected to one of the inputs of the syncron detector, the phase shifter by 90 and the series-connected analog-to-digital converter, the microprocessor, the digital-to-analog converter and the oscillographic indicator and the shock excitation circuit, herewith. two inputs of the switch are connected to the corresponding measuring and reference inputs of the meter, and the switch output is connected to the input of a controlled attenuator, the output of which through the second switch is connected to the input of the shock circuit, driving the output connected to one of the third switches of the third switch and the phase shifter 90 with the second input of the third switch, the output of which is connected to the second input of the synchronous detector, the output connected to the input of the analog digital audio converter, and the control e inputs latter three switches and tsifroanapogo8OGO-converter connected to the corresponding control buses E kroprotsessora. The drawing shows a structural diagram of the meter. The meter contains a controlled attenuator 1, a synchronous detector 2, a second 3 and a third 4 commutator, a loop 5 percussion exciter, a 6-to-90 speed converter, a first commutator 7, an analog-to-digital converter 8, a digital-to-analog converter 10 and an oscillographic indicator 11. The meter works as follows. The microprocessor 9 sets the switches so that the reference signal goes through the first switch 7 to the electrically controlled attenuator and the synchronous detector 2, and from the output of the electrically controlled attenuator 1 through the second switch 3. The shock excitation circuit 5 and the third switch 4 to the control switch synchronous detector input 2. From the output of the synchronous detector 2, the voltage goes to the analog-digital converter 8 and the microprocessor 9. Then the microprocessor 9 sets the switch so that the signal from the measuring input through the first switch 7 receives the electrically controlled attenuator 1 and the synchronous detector 2, The second switch 3 opens, however, loop 5 of the shock; the excitation continues to form an oscillation with the frequency and phase of the reference signal with attenuation determined by the parameters of the circuit, which through the third switch 4 goes to the control input of the synchronous detector, 2, whose voltage, proportional to the sine component of the measured signal, goes to the analog input - digital converter 8 and microprocessor 9, which switches the third switch 4 so that oscillations from the shock excitation circuit 5 are fed through the phase shifter 6 to the control input of the synchronous detector and 2 ,. from the output of which the voltage proportional to the cosine component of the measured signal is fed to the analog-to-digital converter 8 and the microprocessor 9. The microprocessor 9 processes the data and the results through the digital-to-analog converter 10 is outputted to an oscillographic indicator P, The measurement error is reduced twice. The constructive implementation of the meter is simplified. Claims of the invention A panoramic S-parameter meter comprising a switch, an attenuator controlled, an output connected to one of the inputs of a synchronous detector, a phase shifter of 90 and a series-connected analog-to-digital converter, a microprocessor, a digital-to-analog converter, and an oscillographic indicator, In order to improve the measurement accuracy, two switches and a percussion excitation loop are introduced into it, with two inputs of the switch being connected to an appropriate meter The input and reference inputs of the meter, and the switch output is connected to the input of a controlled attenuator, the output of which through the second switch is connected to the loop of the excitation, the output connected to one of the inputs of the third switch not directly, and through the phase switch on the 90 switch to the second sxo house of the third switch whose output is connected to the second input & K.U3ft. biop IF f eight YU V4 IF IF / t- Tl 8 of a synchronous detector, connected to the input of an analog-digital converter, the control inputs of the latter, three switches and a digital-analog converter are connected to the corresponding microprocessor control buses. Sources of information taken into account in the examination 1. Technical description Measuring instrument for complex coefficients RF-P transmissions, USSR, 2.Technical description Measuring coefficient for the RFX-36 transmission coefficient, USSR (prototype).