SU432399A1 - QUASI-ADVANCED MOSTVTPBFOND tsht - Google Patents

Description

one

The invention relates to electrical measuring equipment, and more specifically, to the field of measurement (non-transformation) of parameters of complex values of GI can be used to simultaneously measure three parameters of such magnitudes, three one, m adjustable parameter and to build converters of these parameters B active values.

A quasi-balanced bridge with one HHi .M adjustable parameter for simultaneous measurement (conversion) of three complex parameters is known, containing a power source, a link with a coefficient of leredach proportional to the measured complex value, connected to its output, an exemplary link with transmission coefficients adjustable by signal and the output of the equilibrium indicator, and two gauges (transducer), one of which is switched on; at the output of the reference signal, and the other at the input of the equilibrium indicator. After the quasi-equilibrium state of the measuring circuit is established by adjusting one parameter, this bridge will allow you to get three .you.time scalar values, for example, two active, proportional to one component of the complex value and the ratio of components, and passive, proportional to the other component.

The disadvantage of such a bridge is associated with the peculiarity of the structure of its measuring circuit, which contains an amplifier with a high gain factor encompassed by a link of communication with varying transmission coefficients. A significant change in the magnitude of the feedback in the amplifier makes it difficult to realize a high; gain, idle, to reduce the methodological

fissuring, requires special measures to stabilize the chain, leading to its complication.

In the proposed bridge to simplify the circuit and improve measurement accuracy, the output

the reference link is connected to the input of the link with the transmission coefficient, proportional measure о and ич, and the reference link, i.e. the reference link with adjustable transmission coefficient forms the feedback circuit of the link with

The transmission coefficient is proportional to the measured value, and not an amplifier with a high coefficient of success.

FIG. Figure 1 shows the structural scheme of the proposed bridge. The quasi-equilibrated bridge contains a power source /, link 2 with a transmission coefficient proportional to the size of my comlex magnitude, model link 3 with a transmission coefficient adjusted by the signal at the output of the equilibrium indicator 4, for example, quadrature

or common-mode phase-sensing detector. At the outputs of links 2 and 5, there are gauges (converters) 5, 6, which can be alternating-voltage voltmeters, transducers of alternating current into constant current, etc., etc. The output of the 5-link link to the input of link 2 is such that link 2 receives the algebraic sum of the source of the pi.ta.ni Lp source and the output signal / 1 d of the exemplary w-3.

(After adjusting the transmission coefficient of the reference link 3 to obtain a zero signal at the output of the equilibrium indicator 4, i.e., after the circuit is brought into quasi-equilibrium state by adjusting one parameter, the bridge provides three output

values: active value A at the input of the indicator pa1B; NOESI (at the output of link 2), which is proportional to one remaining (x or y) measured complex quantity 5, -, y A4 - ///; the active value of L., at the output of the image link 3, which is proportional to the ratio EO of the components of the measure of the change value (y / x); the passive value is the transfer coefficient of the link 3, which is proportional to the second component.

The transmission ratio / l of link 2 (/ (2) should be inversely proportional to the measured complex magnitude B, y, i.e.

  / d6,., „, pdg a - incomplex. coefUlUiciST of proportionality. 1 oeff shch11gg transfer exemplary animal should also be pex-mplex | M. Depending on the state of the quasi-equilibrium that is being set, the role of the active or reactive component of the signal L "at the input of the pavniewicz indicator is relative to the voltage or current, i.e., O or

the nature of the transfer coefficient of the model link and the coefficient of proportionality, l, it is possible to ensure a different character of the termination of the output: the bridge from the component of the measured value of the complex value. FIG. 2 shows an embodiment of the measuring circuit of a quasi-unescaped bridge for measuring the parameters of capacitive comT1. Is modified with a successive replacement circuit. Link 2 with the transfer ratio is inversely proportional to the measurement. My value is made in the visual operational amplifier, whose direct circuit iB includes the measured object with capacitance Cx and resistance RX, and the feedback resistor is exemplary. Ra- The exemplary unit 3 is an inductive divider for example. The power source is connected to the primary winding T1p "of the transformer 5, the equilibrium indicator and the meter of one of the output active values to the terminal Ki, and the meter of the second output active value -

to the Kz class after the quasi-equilibrium state has been established in such a circuit

 - About we have Lv - / LpshS / o S

Hell: - / LpshSd. tgO LC X D)

,

and the transfer coefficient of the separator, where A „a1 is the voltage on the secondary winding of the transformer 5.

The chain (fig. 2) can also be used for

measurements of inductance parameters by a sequential replacement circuit. With STOCVI, inductance is turned on instead of capacitance, and sample inductance is turned on instead of reference resistor.

It should be noted that in order to ensure the stable operation of the bridge, it is necessary to adjust the transmission coefficient of the link 3. Always start from one of the extreme values in order to always approach the state of equilibrium from ONE side.

Subject invention

A bridging bridge for simultaneous measurement (conversion) of three parameters of a complex value, containing 1 SOURCE. To power, a link with a transfer coefficient, a proportional measured complex value, connected to its output, an example link with a Transfer coefficient adjusted by the signal at the output of the equilibrium indicator , and two meters (converters), one of which is included at the output of the reference link, and the other at the input of the equilibrium indicator, characterized in that, in order to simplify and increase it chnosti | IZ | Merényi in .nem exemplary output 3 (Vienna connected to an input link to the transmission coefficient proportional to the measured zelichine ..

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