SU1236334A1 - Versions of differential microcalorimeter - Google Patents

Abstract

The invention relates to thermal measurements, to quantitative thermal analysis. The purpose of the invention is to increase the measurement accuracy by reducing the nonlinearity of the output signal of the microcalorimeter. Mouth-; The device contains a reference 1 and a working 2 cells with measuring 3 and 4 compensatory 5 and 6 thermopiles, amplifier 7, resistors 8 and 10, recorder 9, potentiometer 11 and differential amplifier 12. The ratio of currents of the compensation thermopile 5 and 6 is set with a potentiometer 11 , the KOTofJoro slider is connected to the inverting input of amplifier 12. The current ratio established at the same time does not depend on changes in the ohmic resistances of compensatory 5 and 6 thermopiles caused by the change in their temperature, which allows operation in wide temperature range without adjustment. Presents options for the device. In all cases, the output signal of the differential cycrocalorimeter is detected by the voltage drop across the resistor 8 and is fed to the input of the recorder 9. 3 ps. f-ly, 3 ill. Q L S

Description

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The invention relates to the field of thermal measurements, in particular to the quantitative thermal analysis.

The purpose of the invention is to improve the measurement accuracy by reducing the nonlinearity of the output signal of the micro calorimeter,

FIG. 1–3 show block diagrams of variants of the differential microcalorimeter.

The differential microcalorimeter contains a reference 1 and a working 2 cells with measuring 3 and 4 and compensating 5 and 6 thermocouples, the first amplifier 7, the first resistor 8, connected to the input of the recorder 9, the second resistor 10, a variable resistor or potentiometer 11 and the second differential amplifier 12 ,

Differential microcalorimeter of the first embodiment (Fig. 1) works as follows.

Yrie release (absorption) of heat in the working cell 2 difference thermo EMF of measuring thermopile 3 and 4 turned on is amplified by amplifier 7. Compensatory thermopiles 5 and 6, connected according to and connected to the output of amplifier 7, are flowing through and heat is absorbed (released) a compensating thermopile 6 of the working cell 2 and the release (absorption) of heat by a compensatory thermopile 5 of the reference cell 1. At the same time, the output of the amplifier 7 sets a voltage depending on the power of the heat process, In a working cell 2. With a large transfer ratio of amplifier 7 or with its static voltage applied at the input of amplifier 7, it is practically zero, and the measured power is a function of the compensation thermopile current and the parameters of the calorimetric cells. In order for the microcalorimeter to operate, the effect of the Joule heat generated in the compensating thermocouple x on the thermocouple measuring batteries was the same. Under such conditions, the measured power and current of the compensation thermopile 6 of the working cell 2 are in a linear relationship. The required current ratio of compensation thermopiles 5 and 6 is set by changing363342

of the resistor 11 connected between the compensation thermopile 5 and the common input of the amplifier 7. The established ratio of currents, depending on the 5 ohmic resistance of the compensation thermopile, is constant in a narrow temperature range of the microcalorimeter, t

JP According to the second variant (Fig. 2), the ratio of currents of the compensation thermopile is set by means of a potentiometer 11, the slider of which is connected to the Wto inverting input,. 12. The current ratio established in this case does not depend on changes in the ohmic resistances of compensatory thermopiles caused by a change in their temperature,

2 (1 allows operation in a wide temperature range without adjustment.

According to the third variant (Fig. 3), the presetting using a potentiometer 11 is achieved 25 from the fact that during operation of the microcalorimeter the residual nonlinearity resulting from the nonidentity of the parameters of the calorimetric cells is compensated by the signal from the second

pogo amplifier 12 and potentiometer 11; In all cases, the output of the microcalorimeter is detected by the voltage drop across the resistor 8 and is fed to the input of the recorder 9.

Claims (2)

Invention Formula 1 "Differential microcalorimeter. Containing a working and reference calorimetric cells, equipped with thermometers connected to the input of the amplifier, connected to counter amplifiers, and compensation thermometers, one of which is connected through a recorder with a resistor to the common input of the amplifier, that, in order to improve the measurement accuracy, the second and variable resistors are introduced into it, and the compensation thermometers, connected according to, are connected by a connection point to the output of the amplifier, to the isolated whose input is connected the measuring .termobatare reference cell, wherein A compensated thermopile of the working cell is connected to the recorder via a second resistor, and the compensated thermopile is a reference 31 The cells are connected to the common input of the amplifier through a variable resistor. 2. Differential microcalorimeter containing working and reference calorimetric cells equipped with measuring thermometers connected to the amplifier input, counter-connected, and compensation thermometers, one of which is connected through a recorder with a resistor to the common amplifier input, characterized in that, in order to improve the accuracy measurement, 1 it introduced a second resistor, a potentiometer and a second amplifier, the output of which is connected through the compensation cell of the reference cell and a potentiometer to the common input Do the first amplifier, the output of which is loaded by a working cell .kompensatsionnuyu thermopile connected to the noninverting input of the second amplifier and through a second resistor - to the DVR, wherein the potentiometer is connected to the inverting input of the second amplifier. 2363344 3, Differential microcalorimeter, working s onopHjno J calorimetric cells fitted with measuring thermometers connected to the amplifier's input, counter-connected, and compensation thermometers, also connected countering and connected through a recorder with a resistor to the common input of the amplifier that distinguishes 10 In order to improve measurement accuracy, a second resistor, a potentiometer and a second amplifier are inserted into it, the inverting input of which is connected via a resistor to the potentiometer slider, and the output is connected to a compensation thermocouple of the working cell, the measuring thermometer of which is connected to a non-inverting output the second amplifier, and the other with the measuring thermopile of the reference cell and the isolated input of the first amplifier loaded on the potentiometer. figure 1 YU // fig.Z Editor A. Koeorie Compiled by V. Bazdyrev Tehred G. Gerber Order 3081/44 Circulation 778 Subscribed VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 Corrector S.Cherni