SU1129533A1 - Voltage-to-current converter - Google Patents

Abstract

CURRENT VOLTAGE CONVERTER containing the first operational amplifier, the inverting input of which is connected to its own output, the non-inverting input to the first input terminal, and the output through the first resistor is connected to the second input terminal of the converter, characterized in order to improve accuracy and sensitivity , a second operational amplifier, second and third resistors and a voltage regulator are introduced into it, the non-inverting input of the second operational amplifier is connected to the second input terminal of the device The inverting input is connected via a third resistor to the output of a voltage regulator, which is connected via a second resistor to the second input terminal of the converter, inputs i (About a voltage regulator connected to the power bus of the operational amplifiers, the output of the second operational amplifier is connected to the first output terminal, and the inverting input - to the second output terminal of the converter, 1C to sd oo

Description

The invention relates to measuring equipment and automation and can be used, for example, in instrument-making industry. A voltage-to-current converter is known, which contains two operational amplifiers, the non-inverting inputs of which are connected to the common bus, the inverting input of the first amplifier through the first resistor is connected to the output of the first amplifier, through the second resistor to the output of the second amplifier, and through the third resistor to the input device, the output of the first amplifier through the fourth resistor. connected to the output of the device, between the output of the second amplifier and the device output is included resistive voltage divider inverting input of the second ilitel connected to the output of a resistive voltage divider Cl. The disadvantages of this device are its complexity, due to the large number of precision resistors that determine the accuracy of the conversion, as well as the low input resistance of the device. The closest in technical essence to the invention is a voltage-to-current converter containing an operational amplifier, the inverting input of which is connected to its own output, the non-inverting input to the first input terminal, and the output through a resistor connected to the Second input and to the first output terminals, the second output terminal is connected to the common bus of the C2 device. The disadvantages of this device are low accuracy and sensitivity, due to the fact that to ensure high accuracy it is necessary to increase resistance of the resistor, which leads to a proportional decrease in sensitivity and vice versa. The purpose of the invention is to improve the accuracy and sensitivity of the device. The aim is to achieve a converter into a voltage-to-current converter containing the first operational amplifier, the inverting input of which is connected to its own output, the non-inverting input to the first input terminal, and the output the first resistor is connected to the second input terminal of the converter; the second operational amplifiers are introduced; the second and third resistors and a voltage regulator; the non-inverting input of the second operational force of the bodies is connected to the input terminal of the device, and the inverting input through the third resistor is connected to the outputs of the stabilizer ;; voltage voltage, which through the second resistor is connected to the second input terminal of the converter, the voltage regulator inputs are connected to the power buses of the operational amplifiers, the output of the second operational terminal the amplifier is connected to the first output terminal, and the inverting 1st input to the second output terminal of the converter. The drawing shows a schematic diagram of the proposed converter. The device contains a bi-polar power supply 1, the inputs of a voltage regulator 2, the first and second operational amplifiers 3 and 4 are connected to the outputs, the first one. the second and third, resistors 5, 6 and 7 (R5, R6, R7), power supply terminals of operational amplifiers 3 and 4 are connected to the output of power supply 1, the inverting input of amplifier 3 is connected to the output of amplifier 3 and through a resistor 5 to the non-verifying input of amplifier 4, output of stabilizer 2 is connected via resistor 6 to non-inverting input of amplifier 4, and through resistor 7 to inverting input of amplifier 4. Input voltage source 8 is connected between non-inverting inputs of amplifiers 3 and 4, load resistor 9 {R9 1 is connected between. output and inverting input of the amplifier 4. The device operates as follows. Stabilizer 2 sets the midpoint of the converter power supply. When an input voltage source 8 is connected to the device, the resistors 5 and 6 flow through the current defined by the ratio Rb () Rfi + Rb where the amplifier gain is 3. The current flowing through the resistor 9 (R9) is determined by the ratio (((where Kg amplification of amplifier 4; c) 1 input voltage of the converter When changing the load resistance of the converter in a wide range, the largest component error of the converter is s amounting to 1 cf due to the change in load resistance, 4R () their values of the coefficients K and K, the equation (1 will take the VID and R5R7 334 Therefore, the sensitivity of the converter rt R4 R5R7 From equations (21 and (G) it follows that the sensitivity of the converter can be set sufficiently large by reducing the resistance of the resistor 5, and With the conversion error does not depend on the value of the resistor 5, and therefore, when the load resistance of the converter changes in a wide range, high accuracy and sensitivity of the conversion will be provided.

Claims (1)

A CURRENT VOLTAGE CONVERTER containing a first operational amplifier whose inverting input is connected to its own output, the non-inverting input to the first input terminal, and the output through the first resistor is connected to the second input terminal of the converter, characterized in that, in order to increase accuracy and sensitivity, a second operational amplifier is introduced into it, a second and third resistors and a voltage stabilizer, the non-inverting input of the second operational amplifier is connected to the second input terminal of the device, and the inverting input through the third resistor is connected to the output of the voltage stabilizer, which is connected to the second input terminal of the converter through the second resistor, the voltage stabilizer inputs are connected to the power buses of the operational amplifiers, the output of the second operational amplifier is connected to the first output terminal, and the inverting input is connected to the second output converter terminal. ·