SU438937A1 - A method of converting a capacitance-bridged DC resistance to an analog output signal - Google Patents

Description

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The invention relates to methods for measuring DC resistance and can be applied in measurement technology, automation, in particular for measuring high-resistance resistances.

There is a known method of creating a set of instruments for measuring various quantities by converting them into a unified output signal and then measuring it with an output instrument. In this way, a complex of digital instruments for measuring resistances - converting resistances into voltage (current) and its subsequent measurement with a digital voltmeter (ammeter) - can be built. However, if the measured resistance Rx is bypassed by the capacitance Cj and the time constant RxCx is sufficiently long, then the conversion time may be unacceptably long. The proportionality of the settling time with this method of measuring a constant resistance time significantly limits the applicability of its use for measuring high-resistance resistances.

The purpose of the invention is to obtain a direct proportional relationship between the measured resistance and the analog output signal. This is achieved by the fact that the conversion is performed by a push-pull, and the measured resistance is switched on at the first step of the converter input and the current conversion ratio is adjusted until a given level is obtained at the output, and the resulting conversion coefficient value is memorized; and on the second cycle, the measured resistance is switched off, and an analogue output signal is formed by converting the sample signal connected to this unit to an arbitrary regulated current transducer input. The method is explained in the drawing. The circuit contains measurable resistance 1, switch input 2, current transducer 3, output switch 4, setpoint comparator 5, switch 6, memory 7, auxiliary input of converter 8, power source of reference signal generator 9, resistance for generating reference signal 10 and output gauge 11.

The method is carried out as follows. In the first cycle, the switches 2, 4 and b are in the position I. At the same time at the entrance

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current transducer 3 receives a current t.v k-

The output signal of the current transducer 3 by means of the comparator 5 is compared with the reference signal. When they are unequal, a signal is generated at the output of the comparator 5, which, through memory ZTtroy 7, adjusts the conversion coefficient K (Rx} converter 3 so that the equality ix-K (Rx) Uo is observed, from which it follows that 2, 4, and 6 are set to position II. In this case, a sample E is fed to the converter 3 input, the conversion coefficient control signal stored by device 7 is fed to the input to the if signal and the output meter 11 is fed to the input al (Rx} - With the support of the values of gdg and K (Rx) in the expression Z-lfj-K. (Rx} we get Z rm, where m - The transition process in this case is determined by the ratio when converting to current, and its time constant , is equal to the product of the capacitor shunting the resistor RX by the output impedance of the source Ef, -, can be made as small as desired. [0002] Subject of the invention A method for converting a capacitor bypassing the DC resistance to an analog output signal By converting this current to an analog output signal, characterized in that, in order to obtain a direct proportional relationship between the measured resistance and the analog output signal, the conversion is performed two-stroke, and the measured resistance is switched on at the first clock input of the current converter and converting the current to a signal of a given level, the resulting value of the conversion coefficient is memorized, and in the second cycle an analog output signal is formed by applying a model signal to the input of the converter with conversion ratio equal memorized.

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