SU168771A1 - - Google Patents

Description

The known methods for measuring the two-pole impedance using harmonic signals proportional to the current and the voltage across them are based on measuring the modulus and phase of the impedance, followed by determining the active and reactive components of the resistance. Devices of this type are complex, since they contain nodes of functional transducers that multiply and divide vectors.

Such devices have low noise immunity and do not allow to perform short-response measurements of the impedance of two-terminal circuits that are in operation.

The proposed low-inertia method of measuring the two-pole impedance, unlike the known ones, involves measuring the phase deviation of a voltage obtained by summing a signal proportional to the current in the two-pole, with a signal proportional to the voltage across it, and the amplitude of the last signal is small compared to the first, and its phase periodically commute between O and 180 ° C with respect to a low frequency with the subsequent determination at this frequency of the sign and magnitude of the active or reactive components of ep emogo resistance.

This method can be implemented in the device, the block diagram of which is shown in the drawing.

From the two-pole network, sensors 1 and 2 are removed through the band-pass filters 3 of the voltage L / i and U-2, which are proportional to the voltage and the current on the two-pole network, respectively. The transmission factors of the sensors are chosen so that the condition (6i) 4C is always fulfilled.

. {Oo).

The voltage Ui is applied to the adder 4 directly when measuring the reactive component Z or through 90 ° to the phase shifter 5 when measuring the active component.

The voltage I-2 is supplied to the adder 4 through the switch 6, step-wisely changing the phase Uz from 0 to 180 ° with the frequency F set by the generator 7. The voltages Ui and the total 1 + 2 are limited in the limiters 3

(Ll is rotated further by 90 ° in phase shifter 9) and is fed to phase detector 10, the output of which is frequency signal F is outputted using a band-pass filter //. After amplification in amplifier 12, this signal

is compared in the adder 13 with the reference signal from the generator 7 and fed to the amplitude detector M, the constant component at the output of which is proportional to the measured component of the complex coprometer F fed to the adder, is chosen equal to O or 180 ° using the phase shifter 15.

The proposed method of measuring the phase angle deviation between the voltage vector Liy, which is proportional to the current, and the total vector t / i -f-, allows one to obtain high performance and noise immunity of the measuring device.

Subject invention

A method of measuring a two-pole impedance in an operating mode using harmonic signals proportional to the current and voltage on this two-pole device, characterized in that, in order to simplify measurements, increase their speed and non-resistance, the voltage phase deviation obtained by summing the signal proportional to the current in the two-pole, with a signal proportional to the voltage on it, and the amplitude of the last signal is small compared to the first, and its phase is periodically switched by me On row 180 ° and relatively low frequency, followed by determination of the sign of this frequency and the value of active or reactive components of the measured resistance.