SU1193601A1 - Resistance-to-voltage converter - Google Patents

Abstract

VOLTAGE CONTAINER CONVERTER B, containing the reference -. a resistor, a voltage source, a summing amplifier, a first inverting amplifier whose input is connected to a reference resistor and one of the terminals for connecting the object to be converted, and the output connected to one of the inputs of a summing amplifier, characterized in that functionality, a digital-analog multiplying converter, a key and a second inverting amplifier are introduced into it, the source of the reference voltage through the key and the second inverting amplifier connected to the second input summing amplifier, whose output is connected to an input of a multiplying digital to analog converter, vtoi swarm vshod, the reference resistor is connected to a source of reference voltage SL and the other terminal is formed for connecting the PRES connected object Svyhodom a multiplying digital to analog converter.

Description

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O5 1 The invention relates to measurement technology and can be used in automatic control systems. The purpose of the invention is to expand the functionality of the impedance transducer into a voltage comprised in the tolerance control of the measured resistance and automatic control of the device. The drawing shows a block diagram of a voltage-to-voltage converter. The block diagram contains the measuring resistor 1, the reference resistor 2, the source 3 of the reference voltage, inverting amplifier 4, terminals 5 and 6 for connecting the measuring resistor, summing amplifier 7, digital-to-analog multiplying converter 8, switch 9, second inverting amplifier H, bus 11 control. The terminal 6 is connected to the input of the inverting amplifier 4 and the first output of the reference resistor 2, the second output of which is connected to the output of the source of the reference voltage, terminal 5 is connected to the output of the digital-analog multiplying converter 8, the analog input of which is supplied from the output of the summing amplifier 7, one whose input is connected via switch 9 and amplifier 10 to the source 3 of the reference voltage, and the other to the output of the operational amplifier 4. The resistance to voltage converter in the absolute conversion mode deleterious resistance value operates as follows. Key 9 is open, the voltage from source 3 is supplied only to resistor R. Output voltage g, from amplifier 4 through amplifier 7, having a gear ratio of 1, goes to a DAC 8, which has N gain ratio K - and produces an inversion of the input signal. Therefore, the voltage at its output U will be equal to the KURLIX ° circuit, consisting of series-connected resistors UnIC, will flow the same current, since the input current of amplifier 4 can be neglected. Because the connection point of resistors RX is connected to the inverse of the input of amplifier 4, and the signal from its output through amplifier 7 and digital-analogue multiplying converter 8 is fed to the other end of Rj (then this circuit will be the negative feedback of amplifier 4. In this case, the input potential of inverting amplifier 4 Uc will be close to zero. Under these conditions and taking into account that the potentials and and the output voltage of the source 3 of the reference voltage U have different polarity relative to the common point, we can write From expression (1) it follows that 1 о L р R. к х Thus, the output voltage is linearly dependent on Ry, since the other values are constant In the mode of conversion of relative deviations, the key 9 is closed. The voltage C, is fed to Amplifier 10, which has a transfer ratio of -1. The voltages are U and Ugj, fed to an amplifier 7, whose transmission coefficient for each input is -1. The analog input of the D / A multiplier converter 8 provides a signal Uj-Ug,. Taking into account the coefficient: transfer C / D 8, voltage and -KCUp-Ug i), the current flowing through R; (, is equal to U (,) x The same current flows from source 3 through the resistor RO, i.e. I - b. Equating both expressions for currents, we find the value of the output voltage. The resistance value RX can be written as (, x (1 + 4Rx / Rox) where RQ is the resistance value; AR is the absolute deviation of the reference. Formula (5) will take the following in Uo ROX / uRv U "R As can be seen from (6), the output voltage depends on the factor. before the DAC 8, i.e. from the code supplied to it. the code that is linearly associated with the nominal impedance ROX, i.e. 1 NR ,,. This code corresponds to the coefficient;, N RO Substituting the transmission K - –g– value K in (6), we obtain BUX Consequently, the output voltage the converter is linearly dependent on the relative deviation of the resistance.

Claims (1)

VOLTAGE RESISTANCE CONVERTER, containing reference -. resistor, reference voltage source, summing amplifier, the first inverting amplifier, the input of which is connected to a reference resistor and one of the terminals for connecting. of the transformed object, and the output is connected to one of the inputs of the summing amplifier, characterized in that, in order to expand the functionality, a digital-analog multiplying converter, a key, and a second inverting amplifier are introduced into it, and the reference voltage source is connected via a key and a second inverting amplifier with the second input of the summing amplifier, whose output is connected to an input of a multiplying digital to analog converter, _a secondary swarm output reference resistor soedi- 5B nen with a source of voltage, and another terminal for connecting the converted object is connected to the output of the digital-to-analog multiplying converter. SU ... 1193601