SU767655A1 - Device for measuring electrical parameters of quadripole - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF ELECTRICAL PARAMETERS OF FOUR-POLES

one

The invention relates to electrical measuring technology and can be used to determine conversion error, harmonic coefficient and noise level of active and 5 passive linear quadrupoles, for example, integrators, large-scale converters and differentiating links.

A device for measuring 10 parameters of a tested quadrupole is known, comprising a generator, an exemplary quadrupole with known parameters and a voltage indicator 1. 15

Its disadvantage is the need for metrological certification of the exemplary quadrupole.

 It is also known a device containing a transformer bridge, one of the arms of which is connected to a quadrupole under investigation, and the other with an operational amplifier, resistors, capacitors, an alternating current generator 25 and a voltmeter 2. Resistors and capacitors form a passive multi-terminal with adjustable modulus and phase transfer coefficient. Adjusting the parameters of the AOR resistors

and a capacitor equilibrium is reached.

The disadvantage of the device is the low measurement performance and the need for metrological verification of the parameters of the operational force.

The aim of the invention is to reduce the conversion error and increase the productivity of measurements.

The goal is achieved by the fact that a device containing an alternating voltage generator, the output of which is connected to the input of a voltmeter, with one of the outputs of a linear passive multi-terminal and with one of the device inputs, is introduced an amplifier that inverts and non-inverting large-scale converters Toifa, a differential amplifier and a second voltmeter, in this case, the second input of the device is connected to the moving contact of the first switch, the first fixed contact of which is through non-inverted The second scale contact is connected to one of the fixed contacts of this expensive switch, and the second fixed contact is connected to the other fixed contact of the second switch through the inverting scale converter, the movable contact of which is connected to the second output of the linear passive multipole, and the third output of the latter is connected to the input an amplifier, the output of which is connected to the first output of the resistor and to one of the inputs of the differential amplifier, the second input of which is connected, with the second output m resistor and a yield compensator AC input Cpd nennogo yield Nogo generator Move to: direct voltage, the output of differential amplifier rendialnogo connected to the input of the second voltmeter FIG. 1 shows a diagram of the proposed device; in fig. 2 - scheme of the multipole. The device contains an alternating voltage generator i, a voltmeter 2 studied four circuits 3, first and second switches 4 and 5, a non-inverting scale converter 6, inverting scale converter 7, a linear multipole 8, points (Connections 9, 10. and 11, first and second bipolar circuits .12 and 13, amplifier 14, AC compensator 15, resistor 16, differential amplifier 17, vol 18, 19 and 20 are the first and second inputs of the device. The device works as follows. - Sine-wave voltage generator 1, to controlled by a voltmeter 2, is fed to the input of the next quadruple circuit 3. If the latter inverts the signal, its output is connected by switches 4 and 5 to the non-inverting scale converter 6. The output of the non-inverting test quadrangle 3 is switched by switches 4 and 5 to the inverting scale converter 7 The use of transducers 6 also allows you to always receive an inverted signal at their output and test the unloaded linear transducer. If necessary, the latter can be loaded with the required resistance. The voltage from the output of the generator 1 and converter 6 (or 7) to the multi-terminal 8 (figure 2), and two-terminal 12 and 13, connected at points 9, 10 and 11 with the output of the generator, 1, switch and input of the amplifier 14, have such resistances X and b, respectively, that their ratio at a given frequency

.2 (J

(1) l (jW)

.),

Claims (2)

1. USSR author's certificate number 287181, cl. G 01 R 17/10, 1971. 2. USSR Author's Certificate No. 503184, cl. G 01 R 17/10, 1976 (prototype). JO 6 // ({/ g. 2