SU1010568A1 - Device for converting voltage to current - Google Patents

Abstract

DEVICE FOR CONVERTING VOLTAGE VETEK, containing two operational amplifiers, non-inverting inputs of which are connected to control voltage sources, the first transistor, the base of which is connected to the output of the first operational amplifier, and the emitter - with its inverting input and the first current generation “1M resistor, load” connected by one of the terminals to the second terminal of this resistor and a zero-potential bus, a power source connected by one of the terminals to the collector of the first transistor, m, that, in order to improve the accuracy of the transformations, the second test set was entered into it11 | The 1st resistor and the second transistor, the base of which is connected to the 1st input of the second operational amplifier, its extter is connected to the second operational amplifier directly by inverting it, and its second resistor to the zero potential bus, its collector is connected to the second terminal of the power source, and the second -, the load press is connected to the connection terminal of the power supply, the power supply, and the second load terminal is connected to the power supply / collector terminal and the collector of the first transistor. sl, o) 00

Description

The invention relates to electrical measuring equipment and can be used, in particular, when checking means of measuring current. A voltage-to-current converter is known, which contains two conversion stages covered by feedback circuits and large-scale resistors. Til The disadvantage of the known device lies in its complexity. Closest to the proposed technical entity is a device for converting voltage into current, containing two operational amplifiers connected to the source. power supply, a resistive voltage divider, one of the extreme terminals of which is connected to the connection point of the non-inverting input of the first operational amplifier and the output of the second operational amplifier, and the middle output to the inverting input of the second operational amplifier, the voltage divider consisting of the load and the resistor connected to the other extreme output of the resistive voltage divider, as well as the transistor and a secondary power source, and the base of the transistor is connected to the output of the first operational amplifier , em is ter to the common point of the two voltage dividers, and the collector is to one of the additional power supply terminals, the other terminal of which is connected to the zero potential bus through the load. However, in such a device, if it is necessary to work with small currents in the load, a significant conversion error occurs due to initial currents and nonlinearity (using 4llx transistors as regulating elements) when they operate at low currents, which leads to disruption of the linear dependence between changes the magnitude of the regulating voltage and current in. UeJib's invention increases conversion accuracy. The goal is achieved by the fact that a device for converting voltage to current, containing two operational amplifiers, non-inverting inputs of which are connected to control voltage sources, the first transistor, the base of which is connected to the analog input of the first operational amplifier, and the emitter with its inverting the input and the first current resistor Erom, the load connected by one of the terminals to the second output of the current resistor and the potential-free bus, a power source connected by one of the terminals to the collector the second transistor and the second transistor, the base of which is connected to the output of the second operational amplifier, its emitter is connected to the inverting input of the second operational amplifier directly, and to the zero potential bus through the second current supply resistor, its collector is connected to the second power source, and a second load terminal is connected to the connection terminal of the power supply and the collector of the first transistor. The drawing shows a circuit diagram of a device for converting a voltage g to a current. The device contains the first and second operational amplifiers 1 and 2, the first and second transistors 3 and U, the first and second current resistors 5 and 6 (R 1, R 2, respectively), the power source 7 and the load 8 (RH). The device works as follows. The current 12 flowing through the power supply 7 is determined by the voltage applied to the inverting input of the operational amplifier 2, as well as the value of the second current-setting resistor 6 connected to the emitter of the second control transistor C. This current is distributed between two circuits : i. through the first transistor 3 and in through the load 8. In this case, since the current L is determined by the voltage U and the first current supply resistor 5e connected to the feedback circuit of the operational amplifier 1, the current through the load is equal to the difference between the currents flowing through the first and second transistors, and does not depend on the size of the flux 8 (FL) Ug Ui RX P. If the currents through the transistors t and 3 are equal, the current through the load ii will be equal to zero. The maximum value of the current through the load is determined by the value 10 of the source voltage 7 and the maximum permissible voltages on the collectors of the transistors. Thus, the proposed device for converting voltage into current, which uses the method of forming small currents in the form of a difference of two currents of such magnitude 0568 ... 4, which combine linear current dependence through the regulator Equal to km5 voltage, allows 5 to convert voltage-current when working with low currents with a higher accuracy compared with the known devices.

Claims (1)

DEVICE FOR VOLTAGE CONVERTER TO CURRENT, containing two operational amplifiers, non-inverting inputs of which are connected to control voltage sources, a first transistor, the base of which is connected to the output of the first operational amplifier, and an emitter with its inverting input and the first current-carrying resistor, a load connected by one from the terminals with the second output of this resistor and a bus of zero potential, a power source connected by one of the terminals to the collector of the first transistor, with the fact that, with In order to increase the conversion accuracy, a second current-reducing resistor and a second transistor are introduced into it, the base of which is connected to the output of the second operational amplifier, its emitter is connected to the inverting input of the second operational amplifier, and through the second potential-connecting resistor through the bus of zero potential, its collector is connected to the second the power supply terminal, and the second load clamp is connected to the source connection terminal. power supply, and the second load clamp is connected to the connection terminal of the power source and the collector of the first transistor.