SU1682827A1 - Device for temperature measurements - Google Patents

Description

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(21) 4461549/10 (22) 07.15.88 (46) 07.10.91. Bul №37

(71) Scientific and Production Association Hau

(72) A.V.Surmach and V.N.Nevleva

(53) 536.5 (088.8)

(56) US Patent No. 3921453,

cl. G01 K 7/12, publ. 11.25.75.

Patent of the GDR No. 229893, cl. G 01 K 7/02, published. 11/20/85.

(54) DEVICE FOR TEMPERATURE MEASUREMENT

(57) The invention relates to temperature measurements and improves accuracy.

temperature measurement by reducing the thermal thermopower compensation error of a cold spa thermocouple. The device contains a thermocouple 1, a thermocompensating transistor 3 in the diode switching on, two Current Generators 2 and 6, resistors 4, 5, 7 and 8 and an operational amplifier 9. The voltage drop across the resistor 7 formed when the generator current 6 flows through it module and opposite in sign of the voltage drop on the thermal compensating transistor 3 at an ambient temperature of 0 ° C. 1 il.

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The invention relates to the field of temperature measurements and can be used in the design of thermoelectric thermometers.

The aim of the invention is to improve the accuracy of temperature measurement by reducing the error in compensation of thermopower of a cold thermocouple spa.

The drawing shows a diagram of the proposed device.

The device contains a thermocouple 1, the first current generator 2, a thermocompensating transistor 3 in the diode switching on, the first resistor 4, the second resistor 5, the second current generator b, the third resistor 7, the fourth resistor 8 and the operational amplifier 9.

The positive electrode 10 of the thermocouple 1 is connected via the first resistor A to the non-inverting input of the operational amplifier 9. The negative electrode 11 of the thermocouple 1 is connected to the zero bus 12 of the power supply of the operational amplifier 9.

The collector and the base of the thermal compensating transistor 3 are interconnected and connected via the second resistor 5 to the inverting input of the operational amplifier 9. The emitter of the thermal compensating transistor 3 is connected to the zero bus 12 of the power supply of the operational amplifier 9.

The first current generator 2 is connected between the collector of the thermal compensating transistor 3 and the positive bus 13 of the power supply of the operational amplifier 9. In the mountain, a current generator 6 is connected between the negative bus 14 of the power supply of the operational amplifier 9 and the connection point of one of the third 7 and fourth 8 resistors, the other conclusions which are connected respectively to the zero bus 12 of the power source of the operational amplifier 9 and the inverting input of the operational amplifier 9. In this case, the polarity of the pole of the second generator b, connected to the leads of the third 7 and fourth 8 resistors, is chosen opposite to the polarity of the pole of the first generator 2 of the current connected to the collector of the temperature compensating transistor 3.

The device works as follows.

Thermocompensating transistor 3 is placed in the cold spa (free ends) of thermocouple 1 so that both thermocompensating transistor 3 and the free ends of thermocouple 1 are at the same temperature corresponding to the ambient temperature.

Due to the flow of a stable current of the first generator 2 of the current at the temperature compensating transistor 3 connected in the diode circuit, a positive voltage arises, which decreases in direct proportion to the ambient temperature. This voltage through the second resistor 5 is fed to the inverting input of the operational amplifier 9, where it is added to the reference constant negative voltage that is generated on the third resistor 7 due to the flow through it of a stable current of the second generator 6.

At an ambient temperature of 0 ° C, the positive voltage on the temperature compensating transistor 3 is fully compensated by the negative voltage on the third resistor 7. The voltage at the inverting input of the op amp 9 is zero, and its output voltage is determined by the temperature to be measured. . ,

When the ambient temperature changes in the direction of increasing, the negative voltage at the inverting input of the operational amplifier 9 increases and, accordingly, the positive voltage at the output of the operational amplifier 9 increases, thereby compensating for a decrease in the thermopower of the thermocouple 1 as the ambient temperature rises.

Claims (1)

The invention A temperature measuring device comprising a thermocouple, the positive electrode of which is connected via a first resistor to a non-inverting input of an operational amplifier, and a negative electrode is connected to a zero bus of an op amp power supply, the thermocompensating transistor, whose emitter is connected to a zero bus of an op amp power source, its collector and base are interconnected and connected via the second resistor to the inverting input of the operational amplifier , and the first current generator connected between the collector of the thermocompensating transistor and the positive power supply bus of the operational amplifier, characterized in that, in order to improve the measurement accuracy, the third and fourth resistors and the second current generator are inserted into it, with one pole of the second current generator connected with damn power supply bus by operation — one of the outputs of the third and fourth power amplifier, and the other pole of it, of the resistors, the other outputs of which are connected oppositely with zero bus the polarity of the pole of the first generator of the power supply source of the operational amplifier, connected to the collector of a thermoclem-5 l and the inverting input of the operating-sensing transistor, is connected to an amplifier,