SU968633A1 - Device for measuring temperature difference - Google Patents

Description

The invention relates to temperature measurements and is intended to accurately measure the temperature difference by means of equilibrium tracking instruments complete with nonlinear resistance thermometers.

A device for measuring the temperature difference is known, which contains two thermocouples of resistance, the potential terminals of which are connected to the inputs of one conversion unit, including capacitors and control switches, a second converter, a reohord, a generator, an AC amplifier, a phase-sensitive amplifier, an engine connected to the slide motor, voltage source t The device has the disadvantage of having a significant error in measuring the temperature difference when using and resistance thermoconverters with a non-linear conversion characteristic.

The closest to the invention in its technical essence is a device for measuring the temperature difference, containing a source of constant voltage, the output of which is connected in series with a compensation resistor and two thermal converters of resistance, the first conversion unit, the inputs of which are connected to the potential terminals of the compensation resistor and the first resistance thermocouple, the second conversion unit, the inputs of which are connected to the second resistance thermocouple and audio feedback resistor, a first variable current amplifier having an input coupled to the outputs of the first and second

15 of the conversion unit, and the outputs through a phase-sensitive amplifier are connected to a feedback resistor, the third conversion unit, the inputs of which are connected to potential

20 output resistance thermocouples, the second AC amplifier, the input of which is connected to the output terminal of the third conversion unit, and the output through the second phase-sensitive amplifier

Claims (2)

25 is connected to a motor mechanically connected to the reichord engine whose current output is connected to the earth bus, and the potential terminals and the reichord engine are connected to the input of the fourth conversion unit whose output terminal is connected to the earth bus, the generator whose outputs are connected to the control inputs of conversion units, each of which includes memory capacitors and keys 2. A disadvantage of the known device is the considerable measurement error of the temperature difference. These resistances (RQ) differ from the nominal values. The aim of the invention is to improve the accuracy of measuring the difference in temperature. The goal is achieved in that the device has two additional conversion units and two variable resistors whose potential outputs are respectively connected to the inputs conversion units, with the first variable resistor connected between the second thermal converter and the resistance, the second variable resistor is connected between p the return coupling and the connection point of the first alternating resistor and reichord, the output of the first additional conversion unit are connected in series with the outputs of the third conversion unit, the output terminals of the second additional conversion unit are connected respectively to the inputs of the second amplifier and the fourth conversion unit, and the control The inputs of the additional conversion units are connected to a generator. FIG. 1 is a block diagram of the device; in fig. 2 is a schematic of a conversion unit. The device contains two platinum thermal converters 1 and 2 resistors connected in series, connected by a four-wire communication line, a compensation resistor 3, the first variable resistor 4, the scale of which is calibrated in the deviations of both thermal converters 1 and 2, the rheochord 5, respectively the first, second, second, third and fourth conversion blocks 6-9, two additional conversion blocks 10 and 11, a second variable resistor 12 with a scale calibrated in deviations of parameters of thermal converters 1 and 2, a resistor 13 connection, the first AC amplifier 14, the first phase-sensitive amplifier 15, the motor 16, the shaft of which by mechanical coupling 17 is connected to the rheochord engine 5, the second AC amplifier 18, the second phase-sensitive amplifier 19, voltage source 20, generator 21 Each conversion block 6-11 contains (Fig. 2) four pairs of controllable keys 22-29. Condensate memories {1 30 and 31 are connected between the common points of the keys. Input signals are supplied to the free terminals of the keys 22 and 24, 26 and 28. The terminals of the keys 25 and 29 are interconnected, and the terminals of the keys 23 and 27 serve as the output of the conversion unit control inputs the keys 22 and 24, 26 and 28 are connected to one output of the generator 21, and the control inputs of the keys 23 and 25, 27 and 9 to the other output of the generator 21. The conversion unit operates in two cycles. In the first half-period of the generator voltage 21, the keys 22 to 24.26 and 28 are open, and the keys 23 and 25.27 and 29 are open. CondenseCupfetJO and 31 are charged to the values of the input voltages connected to the conversion inputs. In the second half-period of the voltage of the generator 21, the keys 22 and 24, 26 and 28 f open, and the keys 23 and 25, 27 and 29 open and the voltage difference connected to the output of the conversion unit, the capacitors 30 and 31 being charged in the first tact The output voltages of the conversion units are respectively: block 8 Ug HRi-Ri); CD block 10,) W) block 11 Cg-C1% -1 4; W. Block 9 and, Wt-iK) av-i) R5i And. where 1 is the current of the voltage source 20; output current of the phase-sensitive amplifier; 1, i (R + Ri) -K; K - coefficient of proportionality; ViVifVi are the relative displacements of the engines, respectively, of variable resistors 4, 12, and a reohord 5. Rectangular pulses with amplitudes equal to the sum and IJ, + UQ, respectively, are alternately shifted by half a period to the input of amplifier 18. The variable component of the input signal of the amplifier, equal to the difference of the amplitudes of these pulses, is amplified by amplifiers 18 and 19 and fed to divider 16, the shaft of which starts to rotate the two wires of the relay 5 in a certain direction until the variable voltage at the input of amplifier 18 becomes zero, i.e. 8 + H ,. From expression (5), taking into account expressions (1) - (4), one can obtain the equation of the scale of the device, -HR.) V2X, -lb / T1K4K + K) -K (2U, -1). (b) Thus, the device allows to obtain a linear scale of the device with non-linear characteristic of thermal converters (in the denominator of expression (6) there is a correction term / proportional to the sum of absolute temperatures at the thermometer placement points R. and Rj) and manually correct the systematic deviations of the parameters of thermometers RP and / Rp from nominal values by setting the position of the engines of variable resistors 4 and 12 to the scale marks according to the results of the calculation. .A2L1, "where (f. - relative values. Exposed on scales of resistors 4 and 12; cmr ai AiLg eU1C1t thermal relative deviations, taken with its own sign, respectively RQ and R OO / RO ratio of thermometers 1 and 2 The maximum error in measuring the temperature difference caused by the maximum deviations of the parameters of platinum thermometers of the second class for the ranges of measurements of iSO C is respectively ± 10.09% and 1.25%. Introducing the correction of deviations of the parameters of the thermometers used in the device circuit allows reducing this composition The total error is up to 0.14%. The application of the proposed device provides high accuracy of measuring the temperature with a set consisting of sensors and a device, by eliminating systematic deviations of the parameters of resistance thermometers, high accuracy and sensitivity of measurement due to the use of a compensation measurement method, as well as eliminates the effect of line resistance c; in relation to measurement accuracy. Claims of the invention — A device for measuring 1 € and a temperature difference / containing a constant voltage source and / or to the output of which are connected in series a compensation resistor and two resistance thermocouples, a first conversion unit, the inputs of which are connected to potential terminals of a compensation resistor and a first resistance thermometer, a second conversion unit, whose inputs are connected to a second resistance thermocouple and feedback resistor , the first AC amplifier, whose input is connected to the output from the first and second conversion units, and the output through a phase-sensitive amplifier is connected to a feedback resistor, a third conversion unit, the inputs of which are connected to the potentials of resistive temperature transducers, a second AC amplifier, whose input is connected to the output terminal of the third conversion unit, and an output connected to a motor mechanically connected with a reohord engine, the current output of which is connected to the ground bus, and potential leads and a reojord engine are connected to the inputs of the fourth busbar conversion, the output terminal of which is connected to the 1L bus, a generator, the outputs of which are connected to the control inputs of the conversion units, each of which includes storage capacitors and keys, which, in order to improve the accuracy of measuring the temperature difference , two additional conversion units and two variable resistors are introduced into it, the outputs of which are respectively connected to the inputs of additional conversion units, the first variable resistor being connected between the second one A transducer, about 1 resistance and a resistor, a second variable resistor is connected between the feedback resistor and the connection point of the first variable resistor and a reichord, the output of the first additional conversion unit of the third conversion unit,. the output terminals of the second additional conversion unit are connected respectively to the inputs of the second amplifier and the fourth conversion unit, and the control inputs of the additional conversion units. nor connected to the generator. Sources of information taken into account in the examination 1. The author's certificate of the USSR. According to the application W 2807838, cl. G 01 K 7/16, 1979. 2. USSR author's certificate for W 29580.66,. cl. G 01 K 7/16, 1980 (prototype).