SU1117660A1 - Logarithmic generator - Google Patents

Abstract

. LOGAR B1CURRENT CONTAINER, containing two large-scale resistors, a thermistor, a logarithm and thermal stabilizer transistors, a differential operational amplifier whose output is connected through the first large-scale resistor and the thermoreeistor connected in series to the bus of the zero potential connected to the first output voltage of the second and second. The second large-scale resistor, characterized in that, in order to increase the accuracy and prohibit the converter The first output of the input source is connected to the collector and the base of the thermally stabilized transistor connected to the base of the logarithmic transmitter of the transistor and the non-inverting input of the differential operational amplifier, the inverting input of which is connected to the second output of the second large-scale resistor and the collector of the logarithmic transistor whose emitter is connected to a common community, and a community has a common switch. thermistor, a thermostabilizing transistor emitter is connected to the zero potential bus the second terminal of the input source connected to the first terminal of the second-scaling resistor. 1 o m

Description

1. 1 The invention relates to functional converters and can be used in the construction of simple and accurate logarithmic current and resistance converters, for example, in logarithmic photometers. The known logarithmic converter contains two operational amplifiers, an input current source, a logarithm and a thermocompensating transistors lХ. The disadvantages of this logarithmic converter are low accuracy of operation in a large range of input currents and low stability with temperature. The closest to the present invention is a logarithmizer, which contains two large-scale resistors, a thermistor, a logarithm and thermostabilized transistors, a differential operational amplifier, an input source and a source of bias voltage C2 3. The disadvantages of the known logarithmic converter are difficulty to low accuracy . The purpose of the invention is to refine the points and simplify the converter. The goal is achieved in that a logarithm converter containing two large-scale resistors, a thermistor, a logarithm and a thermostabilizing transistor, a differential operational amplifier, the output of which through series-connected first scale resistor and thermistor is connected to a zero potential terminal connected to the first output voltage source, The second pin of which is connected to the first pin of the second large-scale resistor, the first pin of the input source connected to the collector and the base of the thermal stabilizing transistor connected to the base of the logarithming transistor and the non-inverting input of the differential operational amplifier, the inverting input of which is connected to the second output of the second large-scale resistor and the collector of the logarithmic transistor of the emitter of which is connected to the common output of the first resistor and thermistor resistor, and the thermistor resistor; to the potential zero bus, the second output of the input source is below for prison to the first terminal of the second scaling resistor. The drawing shows the functional diagram of the logarithmizer. The log-converter converter contains an input current source 1, two large-scale resistors 2 and 3, a thermistor 4, a di (1) operative operational amplifier 5, a logarithmic transistor 6, a thermal stabilizer transistor 7, and a bias voltage source 8. The logarithm converter operates as follows. In the presence of an input current defined by an input current source, which can be performed on a photodiode or photoresistor, the differential operational amplifier 5 by acting through a divider formed by the first large-scale resistor and thermistor 4 on the emitter of the logarithmic transistor 6 ensures the equality of the potentials of the collector . transistors. As a result, the thermal resistor 4 detects the difference in voltage drops at the zmitter transitions of the two transistors,. IJa V - 3. temperature potential; constant Boltzmann; temperature, elemental charge; Z3 is the current through the thermal stabilizing transistor 7. The output voltage of the logarithmic converter is equal, R When, which is almost always provided, the thermistor 4 compensates for the temperature dependence. When using a photoresistor as an input current source, due to the equipotentiality of the collectors of two transistors, the output voltage is / R, R, RZ emG - (, -) where RF is the resistance of the photoresistor E - voltage.

J11176604

Absolute error is defined,

is made by changing the fall of the stress for R 2;

ki on the emitter junction logarith-way, the invention of the position of the transistor. 6, Ogjjg- because of its improved accuracy by logarithms

under the influence of temperature j conversion about 50 times

and tokapri simultaneous simplification of the scheme.

Claims (1)

. A LOGARITHMIC CONVERTER containing two large-scale resistors, a thermistor, a logarithmic and thermostabilizing transistors, a differential operational amplifier, the output of which is connected through a series-connected first scale resistor and a thermistor ¹ to a zero potential bus connected to the first output of the bias voltage source, the second output of which is connected to the first output of the second large-scale resistor, characterized in that, in order to improve the accuracy and • simplify the converter, connect the output signal source to the collector and base of the thermostabilizing transistor connected to the base of the logarithmic transistor and the non-inverting input of the differential operational amplifier, the inverting input of which is connected to the second output of the second scale resistor and the collector of the logarithmic transistor, the emitter of which is connected to the common output of the first scale resistor and thermistor ,, the emitter of a thermostabilizing transistor is connected to the zero potential bus the second terminal the input signal source is connected to the first output of the second large-scale resistor. J _n . 1117660