SU896635A1 - Logarithmic current-to-voltage converter - Google Patents

Description

(54) LOGARIFMIC VOLTAGE CONVERTER

I

The invention relates to a transducer of electrical signals according to a logarithmic law and can be used in analog computers.

Known logarithmic Converter containing an operational amplifier, between the inverting input and the output of which is included logarithmic diode 1.

The disadvantage of the device is low accuracy at high levels of the input signal.

Closest to the present invention, there is a logarithmic current-voltage converter containing an operational and scaling amplifiers and a logarithmic diode 2.

The disadvantage of such a device is relatively low precision of operation at high operating current levels due to the influence of the bulk resistance of the logarithm diode.

The purpose of the invention is to improve the accuracy of work.

This goal is achieved by the fact that in a known logarithmic current-to-voltage converter containing

and scaling amplifiers and a logarithm diode, one electrode of which is connected to a non-inverting input of an operational amplifier, is an input of a logarithushic current-voltage converter, the output of which is an output of an operational amplifier, the inverting input of which is connected to a zero-potential bus, the output of an operational amplifier is connected to an input scaling amplifier

The output is connected to the second electrode of the logarithm diode, and the scaling amplifier contains the first, second, third, fourth and fifth scaling resistors and the operational amplifier, the first S terminal of the first scaling resistor being the input of the scaling amplifier, the second output of the first scaling resistor connected to the first output of the second scale resistor and with an inverting input

Claims (2)

20 operational amplifier, to the output of which the first terminals of the third and fifth scale resistors are connected, the second terminal of the third large-scale resistor is connected to the non-inverting input of the operational amplifier and the first terminal of the fourth large-scale resistor, the second terminal of which is connected to the zero potential bus connected to the second output of the fifth, scale resistor, and is the output of the scaling amplifier. The drawing shows a functional diagram of a logarithmic current-voltage converter. The device contains operative and scaling amplifiers 1 and 2, a logarithm diode 3, a bus 4 of zero potential, input 5 and output 6 of a logarithmic current converter to voltage, first, second, swarm, third, fourth and fifth scaling resistors 7-11, operational amplifier 1 The logarithmic current-to-voltage converter operates as follows. The input current to input 5 is processed by the operating and mastaging amplifier 1 and 2, and the output of the scaling amplifier 2 produces an output voltage such that the input current flows through a logarithmic diode 3. In this case, the voltage at the output of the second amplifier 2 is equal to i.Ch./p.g, j (j с And where тt - temperature potential; input input 5; 3 (3 is the reverse current of the logarithmic diode 3; Y is the volume resistance of the base of the log of the rhyming diode 3. The output voltage of the scaling amplifier 2 and output 6 are related by dependency) C and .and „.. Wi4vi)) 4 t . 1 resistances of the first, second, third, fourth, and fifth mass resistor 7-11, respectively. When the condition RjiVO is fulfilled, that) V) Cli S k From expression (4) it follows that the voltage at output 6 does not depend on the value 4 of the volume resistance of the logarithmic diode 3. Thus, the proposed log-to-current converter is has a higher accuracy of work in the field of large input currents due to the almost complete compensation of the volume resistance of the logarithmic Daud 3. Claim 1. Logarithmic current-to-voltage converter containing operational and masht an ablating amplifier and a logarithm diode, one electrode of which is connected to a non-inverting input of an operational amplifier, is the input of a logarithmic current-voltage converter, the output of which is an output of an operational amplifier, the non-inverting input of which is connected to a zero potential bus, characterized in that With precision, the output of the superconversion amplifier is connected to the input of a scaling amplifier, the output of which is connected to the second electrode of a logarithmic diode. 2. The converter according to claim 1, wherein the automation amplifier comprises first, second, third, fourth, and fifth scale resistors and an operational amplifier, the first output of the first scale resistor being the input of a scaling input. the amplifier, the second pin of the first large-scale resistor is connected to the first pin of the second large-scale resistor and to the inverting input of the operational amplifier, to the output of which the first pins of the third and fifth scale resistors are connected, the second pin of the third large the first resistor is connected to the noninverting input of the operational amplifier and the first terminal of the fourth masschtabnogo resistor, a second terminal which is connected to tsshne zero potential, the second terminal of the second scaling resistor connected to the second terminal of the fifth resistor and the scale is the output of scaling amplifier. Sources of information taken into account in the examination 1. Handbook of nonlinear schemes. Ed. D. Sheingold. World, 1977, p. 182, FIG. 3.1.1. 2. USSR author's certificate in application N 2767789, cl. G 06 G 7/24, 1979 (prototype).  BUT