SU960639A1 - Complex resistance component meter - Google Patents

Description

The invention relates to electrical measuring equipment, namely to the field of measurements of active and reactive components of the complex resistance of the object under study, and can be used to measure the relative increment of one component and the ratio of components of the complex resistance of the object under study.

The closest to the technical essence of the invention is a quasi-balanced AC bridge, containing a power source, a measured quantity branch connected to it, composed of a link with an adjustable transmission coefficient and a measurement object connected at its output, and a high-power amplifier the gain and the feedback branch, whose input is connected to the algebraic sum node of the output values of the mentioned paths that are connected to the output of the amplifier indicator, are you:) ( one of which is connected to a controllable input of a link with an adjustable transmission coefficient, and a meter (voltage converter proportional to the ratio of the components of the measured complex value p. We take the transfer coefficient of a link with an adjustable transmission coefficient equal to

K p

HmU + KR)

where is the set value with the target's K;

a constant coefficient, the sign of which is determined by the sign of the deviation of the measured component from the set value;

Claims (2)

P is an adjustable value, the value of which after the establishment of a quasi-equilibrium is proportional to the measured relative deviation. 396 The purpose of the invention is to improve the speed and accuracy of measurement of the device. This goal is achieved by having an impedance component meter containing a power source connected to. there is a measured value branch composed of a link with an adjustable transmission coefficient and an object of measurement to be connected at its output, and a branch of an exemplary value, a high gain amplifier and a feedback branch, the input of which is connected to the algebraic summation unit of the output quantities of said branches, a master oscillator, a modulator, a pulse amplitude meter, a minimum signal indicator, a shaper of short square pulses, an electronic key, shapers of positive and negative rectangular pulses, a zero-organ, a measuring device, an integrator, the master oscillator being connected via a modulator to a control input of a link with an adjustable peer coefficient, and an amplifier output connected; simultaneously to the meter (a pulse amplitude converter proportional to the ratio of the components of the measured complex value, via an electronic key and to the output of the minimum signal indicator, the output of which is simultaneously connected to the input of the short square pulse generator, the output of which is connected to the control input of the electronic key, and with the input of a negative rectangular pulse generator equal in amplitude to positive rectangular pulses, the output of the master oscillator is also below the key via the zero-organ to the input of the positive rectangular pulse generator and to the second negative negative pulse generator input, the outputs of both positive and negative square pulse drivers are connected via an integrator to the measuring device of the relative deviation of the measured parameter from its set In this case, the transmission coefficient of a link with an adjustable transmission coefficient is equal to karccosccosuut) 3 where Hz is the set value co. maker; K is a constant coefficient whose sign is determined by the sign of the deviation of the measured component from the set value; variable linear function This makes it possible to eliminate the mechanical connection between the link with an adjustable transmission coefficient and the equilibrium indicator on the output of which a change in the regulated value P occurs, which leads to an increase in the measurement speed, and the conversion of the relative deviation of the measured value to the time interval exceeds the measurement accuracy (time -pulse conversion) .. In FIG. 1 shows a structural diagram of the meter; in fig. 2 - output voltage diagrams showing the operation of the meter: a - master oscillator; b - null organ; c —former of positive rectangular pulses; g - amplifier with high gain; e — Former of short rectangular pulses; e —former of negative rectangular pulses; g - integrator; h - electronic key; and - meter pulse converter. The device contains a power source 1, a measuring circuit of one magnitude connected to it, a link 2 with adjustable variable transmission coefficient with a driving generator 3 connected to its control input through a modulator H and an object 5 of measurement connected at its output, and an exemplary branch values with a standard two or four-column 6, the output values of which are summed up in block 7 of algebraic summation, amplifier 8 with high gain and feedback branch 9, the output of amplifier 8 is connected simultaneously It is connected to the meter 10 (converter) pulse amplitude through the electronic key 11, and to the input of the indicator 12 of the minimum signal, the output of which is simultaneously connected to the input of the driver of 13 short rectangular pulses connected to the control input of the electronic key 11 and with the input of the generator of 1A negative rectangular pulses, the output of the master oscillator 3 is also connected via the null organ 15 to the input of the generator 16 positive rectangular pulses and to the second input of the pulse former, the outputs of both the formers 14 and 16 square pulses are connected to the measuring device 17 through the intrator 18. The device works as follows. The signal from power source 1 simultaneously arrives at the branch of the measured value and at the branch of exemplary value. In the branch of the measured value, the signal passes through the link with an adjustable variable transfer volume coefficient, is modulated in amplitude and phase by master oscillator 3 through modulator k (resistance or capacitance of link 2 | and passes through the measurement object 5, simultaneously testing together signal, branch of exemplary value, passed through exemplary two-way or quadrupole 6, and signal of branch E of feedback from amplifier 8 to block 7 of algebraic summation. The summed signal from block 7 is fed to the input of amplifier 8 with a high coefficient m gain and with the feedback branch is amplified and fed simultaneously to the minimum signal indicator 12 and to the meter 10 (converter) pulse amplitude, recording the ratio of the components of the measured complex value (for example l tg b) via the electronic key 11. Indicator 12 generates a short pulse that simultaneously starts the driver of 13 short square pulses, controlled by an electronic key 11 and controls the driver of l4 negative square pulses at the moment of minimum output The signal from amplifier B. The output from the master oscillator 3 also enters the nullorgan 15, which produces a short pulse, which simultaneously controls the shaper of 16 positive square pulses and resets (sets to the initial position) the shaper T of negative square pulses, thereby production of synchronization, which ensures the unambiguity of registration of the sign of the relative deviation of another measurable quantity - the component of the impedance of the measurement object 5 (e.g. hydrochloric moiety - capacity). The signals from the two drivers 16 and k pulses simultaneously go through the integrator 18 to the measuring device 17, which records the value of the relative deviation of the variable value from its set value, the sign of which is determined by the sign of the deviation of the measured component from its set value. Claims 1. An impedance component meter comprising. a power source, a measured value branch connected to it, a component of a link with adjustable transmission coefficient and an object of measurement connected at its output, and a branch of exemplary value j, a high gain amplifier and a feedback branch, whose input is connected to an algebraic summation block the output values of the branches mentioned, -o tl ish and with the fact that, in order to increase the speed and accuracy of measurement of the device, it is equipped with a master oscillator, modulator, amplitude meter pulses, an indicator of the minimum signal, a shaper of short rectangular pulses, an electronic key, a positive and negative rectangular pulse former, a null organ, a measuring device, an integrator, the master oscillator connected via a modulator to the control input of the link with an adjustable transmission coefficient, and the output the amplifier is connected simultaneously to a meter (converter) of the amplitude of the pulses, proportional to the ratio of the components of the measured complex value, through an electronic key and to the input of the minimum signal indicator, the output of which is simultaneously connected to the input of a short rectangular pulse former whose output is connected to the control input of the electronic key, and to the input of a negative rectangular pulse former of equal amplitude to positive rectangular pulses, the master oscillator is also connected via a null-organ to the input of a shaper of positive rectangular pulses and to the second input of a shaper of negative rectangular impulses sov, the outputs of both generators of positive and negative rectangular pulses is connected via an integrator to the measuring priboruregistratsii relative deviation of the measured parameter from its set value. 2. The device according to Claim 1, that is, that the ratio: NT 9 98 of the link with an adjustable transfer ratio is equal to PG .Y it-Kav-ccosCcos u; t) -established component value; - a constant coefficient, the sign of which is determined by the sign of the deviation of the measured component from the a1 value set qrcco5 "variable linear function. co5 and L / Sources of information taken into account during the examination 1. USSR Author's Certificate No. 367388, class C. 01 R 17 / Y,. 1973, (prototype). . I s k II F