SU1107069A1 - Resistance-to-voltage converter - Google Patents

Abstract

A VOLTAGE RESISTANCE CONVERTER containing a reference voltage source connected through a current supply resistor to the inverting input of the first operational amplifier, characterized in that, in order to reduce the conversion error, two additional operational amplifiers are introduced with two series-connected resistors connected between the output and the inverting the input of additional operational amplifiers, common terminals of the resistors are connected to the terminals for connecting the transformed p ican. Two circuits of series-connected power supplies, in parallel with which power voltage dividers are connected, made in series of one resistor, adjustable resistor and another resistor, and the common output of the power sources of both circuits is connected via limiting resistors with non-inverting inputs, respectively, to the other. amplifiers, a third pins of one and the other adjustable resistors, respectively, are connected to non-inverting} 1 the inverting inputs of another additional operational amplifier, the input of the first operational amplifier is connected to the non-inverting input of one additional operational amplifier, and the output of the first operational amplifier is connected to the non-inverting input of another additional operational amplifier and is the output of the converter. 05 WITH

Description

The invention relates to electrical measuring equipment and can be used in digital resistance meters. A resistance to voltage converter is known, which contains a reference voltage source, a current-generating resistor and an operational amplifier with parallel negative feedback for voltage P. A disadvantage of the known device is the conversion error caused by the presence of an RJ junction, circuits, connection convertible impedance with input and output of the op amp. This error can be significant when the transformed resistance is comparable to or less than R, the purpose of the invention is to reduce the conversion error. The goal is achieved by introducing a twenty-complementary operational amplifier with two series-connected resistors connected between the output and the inverting input of an additional operating voltage to the voltage containing the source of the reference voltage, the resistor connected to the resistor with the inverting input of the first operating amplifier, through the current converter. of the amplifiers, the resistor terminals are connected to the terminals for connecting the transforming resistor two circuits from a series-connected source power supplies, in parallel with which power voltage dividers are connected, in the form of series-connected one resistor, adjustable resistor and another resistor, the common output of the power sources of both circuits connected through limiting resistors with the non-inverting input of one and the other additional operational amplifiers and the third pins of the one and the other adjustable resistors are respectively connected to the non-inverting and inverting inputs of the other additional operational The first amplifier, the input of the first operation of the amplifier, is connected to the non-inverting input of one additional operational amplifier, and the output of the first operational amplifier is connected to the non-inverting input of the other additional operational amplifier and is the output of the converter. The drawing shows a functional electrical circuit of the proposed converter. The converter contains the first operational amplifier 1, in parallel with which the source 2 of the reference voltage is connected through a current-setting resistor 3 (RQ), one additional operational amplifier 4, another additional operational amplifier 5, the transformed resistor 6 (R), series-connected power sources 7 and 8, series-connected power sources 9 and 10, resistors 11-14 (), resistors 15-17 () and resistors 18-20 (Rg-R) of the power supply voltage dividers and resistors 21 and 22 (R, -R, p. Pole A convertible resistor 6. included in the circuit feedback of the additional operational amplifier 4, and the non-inverting inputs of the additional operational amplifiers 4 and 5 are connected respectively to the input and output of the operational amplifier 1. The converter operates as follows. The operational amplifier 1 converts an impedance between its inverting input and The key inverting inputs of operational amplifiers 4 and 5 are connected to the inverting input and output of operational amplifier 1. Operational amplifiers 4 and 5 provide echivayut pole circuit A and the non-inverting inputs of the operational amplifiers 4 and 5. The inclusion Neiiventiruyuik- e dopolniteln1h operational amplifiers 4 and 5 is provided a compound of the non-inverting inputs with common points sootvetstvuyusch15mi power source through resistors 21 and 22. The closure of the terminals A and B to the inverting input and output of the operational amplifier 1 is compensated by adjusting the direct current with the help of resistors 18–20 / voltage supply voltage of one of the additional operational amplifiers i- and 5, No pre-shunting. The resistor 6 to be connected through the additional reference amplifiers 4 and 5 is provided by selecting individual power sources for them. Compensation of leakage currents between the non-inverting inputs of the additional operational amplifiers 4 and 5 is achieved with large convertible resistors using resistors 15-17 of the power supply voltage divider of one of the additional operational amplifiers 4 and 5 to the non-inverting input of the other. Due to the non-identity of the additional operational amplifiers and their power sources, between the non-inverting inputs of the additional operational amplifiers, a potential difference arises (with the operating force 1 disconnected) causing a conversion error. To eliminate this error, two adjustments are introduced. The installation of a zero voltage between the non-inverting inputs of the complement s :: operational amplifiers 4 and 5 is made by adjusting the inverting input of one of the additional operational amplifiers 4 or 5 of the bias voltage, removed from sources 7 or 8 of the power supply of this operational amplifier (compensation by a sequential source ). Balancing the converter at Rj 7 O, i.e. setting the zero voltage with non-inverting inputs of additional operational amplifiers 4 and -5 is made by applying to the non-inverting input of one of the additional operational amplifiers 4 and 5 of an adjustable voltage 9 or C of the voltage divider of the power source 9 and 10 of another additional operational amplifier 5 (compensation in parallel source). The drawing shows the connection of the non-inverting input of the operational amplifier 5 through a voltage divider on the resistors 15-17 with the power supply sources 7 and 8 of the operational amplifier 4. The converter is adjusted as follows. The required proportionality ratio is set by the converted resistor 6 and the output voltage by selecting U and R. By adjusting the inverting input of the additional operational amplifier 4, when R О, the voltage between the non-inverting inputs of the additional operational amplifiers 4 and 5 is equal to zero (when the operational amplifier is off 1), and by adjusting the non-inverting input of an additional op amp 4 at R o the voltage between the non-inverting inputs of the additional op-amp x amplifiers 4 and 5, equal to zero. Operational amplifier 1 is connected to additional operational amplifiers and the converter is ready for operation. When the converted resistance is switched on according to the proposed scheme, the output voltage of the converter will remain the same as when it is directly connected to the op amp.

Claims (1)

A VOLTAGE RESISTANCE CONVERTER comprising a reference voltage source connected through a current-sensing resistor to an inverting input of a first operational amplifier, characterized in that, in order to reduce a conversion error, two additional operational amplifiers are introduced into it with two series-connected resistors connected between the output and the inverting the input of additional operational amplifiers, the common terminals of the resistors are connected to the terminals for connecting the convertible resistor , 'two circuits from serially connected power supplies, parallel to which power voltage dividers are connected, made in the form of one resistor, an adjustable resistor, and another resistor connected in series, and the common output of the power supplies of both circuits is connected through limiting resistors respectively to the non-inverting input of one and the other additional operational amplifiers, and the third conclusions of one and the other adjustable resistors are respectively connected to a non-inverting d invert the inputs of the other additional operational amplifier, the input of the first operational amplifier is connected to the non-inverting input of one additional operational amplifier, and the output of the first operational amplifier is connected to the non-inverting input of another additional operational amplifier and is the output of the converter. >