SU1337822A1 - Device for measuring impedances - Google Patents

Abstract

The invention relates to a measurement technique and provides improved measurement accuracy and a wider range of frequencies. The device contains r-1, measuring line 2, test load 3, sensors 4, software-controlled switch 5, ADC 6, processing and program control block 7, r-8 sensor location code, calculator 9 of the distribution function in line 2, g. 10 code of five variable parameters, a controllable .11 switch and an information output unit 12. 1 il. ЕК) At cl 00 from 00 o N3

Description

The invention relates to a measurement technique and can be used to measure the impedance of bipolar components, including active ones, in a wide frequency range.

The aim of the invention is to improve the accuracy of measurements and the expansion of the frequency range.

The drawing shows the structural electrical circuit of the device for measuring total consensus.

Device for measuring impedances contains generator 1, measuring line 2, test load 3, sensors 4, software-controlled switch 5, analog-to-digital converter 6, processing and program control unit 7, sensor location code generator 8, distribution function calculator 9 voltage in the measuring line 2, the generator 10 of the code of five variable parameters, the controlled switch 11 and the unit 12 of the information output.

A device for measuring the impedances works as follows.

From generator 1, a sinusoidal signal enters measuring line 2, to the output of which load 3 is investigated. From sensors 4 located along measuring line 2, voltage is removed, which is fed through program-controlled switch 5 to analog-to-digital converter 6, the signal from which the output of the measuring line of the processing and program control system 7 is fed to and from the inputs of the block 40. The other input of block 7 receives a signal generated by the calculator 9 in accordance with the formula

and (x) C1 (, (CGS-, + J C, s / b) x (c / 4 + jC (V)

Nshfvc + jc, / L) x,

the information about the coordinates is supplied through the code generator 8 by the output for connecting the load under investigation, in order to improve the measurement accuracy and expand the frequency range, the serially connected sensor location code generator and the distribution function calculator are entered into it voltage in the measuring line,

the sensors are located, and the generator 10 receives the values of five variable parameters "il; where CC, is the load plane voltage; d d, loss in measuring line 2; electric line length active part of the measured load resistance; the reactive part of the measured load resistance; L is the length of the line.

3378222

In the processing and software control unit 7 for each selected value, the measured and calculated signals are compared, squared and the error is calculated by summing the result obtained with the previous one. After interrogating all the sensors, the obtained error value 10 is checked for the condition of the end of the measurement process, if this error is not fulfilled, the error value zeroes out, and the drive 15

20

reducing the error, and the process is repeated. The condition for ending the measurement process is a reduction in the total error below a predetermined level. In this case, the signal from block 7 to the input of controlled switch 11 controls the output of data from generator 10 to block 12 of information output.

5 Formula of invention

A device for measuring impedances containing a generator, to the output of which a measuring line 5 is connected with sensors located along it, to which a program-controlled switch is connected, one of the outputs of which is connected to the first input of the processing and program control unit through an analog-to-digital converter, the first the output of which is connected to the control input of the software-controlled switch, the information output unit, with

0

five

In this case, the output of the measuring line ow -

An output for connecting the test load, which is different from the fact that, in order to improve measurement accuracy and expand the frequency range, sequentially connected sensor location code generator and the calculator of the voltage distribution function in the measuring line are entered into it,

connected between another output of the software-controlled switch and the second input of the processing and program control unit, connected in series to a five-code generator

variable parameters and a controllable switch connected between the second output of the processing and program control unit and the input of the information output unit, the second

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the output of the code generator is five variable; and the second input of the controlled switch парамет parametron is connected to the second input of the bodies connected to the third output of the computer block of the distribution function of the processing and software control of the voltage in the measuring line, no.

Claims (1)

Claim A device for measuring impedances, containing a generator, the output of which is connected to a measuring line with sensors located along it, to which a program-controlled switch is connected, one of the outputs of which is connected via an analog-to-digital converter to the first input of the processing and program control unit, the first output which is connected to the control input of a program-controlled switch, an information output unit, while the output of the measuring line is an output for connecting load, which is characterized by the fact that, in order to increase the accuracy of measurements and expand the frequency range, a series-connected sensor location code generator and a voltage distribution calculator for the measurement line are connected between the other output of the program-controlled switch and the second input the processing unit and program control, series-connected code generator of five variable parameters and a controllable switch connected between the second output of the processing unit and ogrammnogo control unit and the input information output, the second output of the code generator five changeable parameters is connected to the second input of the voltage evaluator distribution function in the measuring line and the second input of Tell managed change-over switches connected to the third output of the processing unit and software control.