SU1315832A1 - Instrument transducer of temperature - Google Patents

Abstract

The invention can be used in temperature measurement and control systems. The purpose of the tool is to improve the accuracy of the conversion by improving the noise immunity of the converter. In the presence of capacitive and inductive connections between the resistance thermometer 1 and closely spaced high-current lines and magnetic fields, as well as in the presence of interference from the pulsed power supply and an abrupt change in current when switched on, the resistance thermometer 1 and the compensation resistor 13 will flow alone and the same currents. Since the resistances of thermometer 1 and the compensation resistor 13 are equal, the voltages arising on them, caused by interference, which the amplifiers 10 and 11 pass through, will be subtracted in su | F1ator 12, and the device will not exit the interference signal. 1 il. r (/) I and I i and L-T.J L ..

Description

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The invention relates to instrument making and can be used in temperature measurement and control systems.

The aim of the invention is to improve the conversion accuracy by improving the noise immunity of the converter.

The drawing shows the electrical circuit of the proposed device.

The converter contains a resistance thermometer 1 with terminals 2 and 3, electrical wires 4-7 of the communication line, a zero bus current generator 8, a differential amplifier 10, an inverting amplifier 11, an adder 12 and a compensation resistor 13.

A resistance thermometer 1 through wires 5 and 7 of the communication line is connected in series with a compensation resistor in the power supply circuit of the current generator 8 between its potential and zero buses, and is also connected via wires 4 and 6 to the inverter and non-inverting inputs of the differential amplifier 10 whose output is. connected to the inverting input of the adder 12. To the non-inverting input of the adder 12 is connected to the output of an inverting amplifier 1I, in parallel to the input of which is a compensation resistor 13.

As a compensation resistor 13, depending on the specific purpose of the converter and the circuit of the indicator or recording unit included at its output (output of the adder 12), fixed or variable resistors, resistance box, etc. can be used. If the transmitter is used in a temperature control circuit, then the resistance of the resistor 13 should be chosen equal to the resistance of the thermometer 1 at a given temperature of thermostatting. To measure the temperature, the compensation resistor 13 is made variable, and its resistance coincides with the resistance of the thermometer over the entire range of monitored temperatures. The required change in resistance of the compensation resistor 13 can be easily carried out manually by the operator or automatically using zero.

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indicator included at the output of the adder 12.

The Converter operates as follows.

5 The current from the generator 8 flows through. a resistance thermometer 1 and a compensation resistor 13. The voltage drop across the resistance thermometer 1 is fed to the input of differential amplifier 10, and the voltage drop across the compensation resistor 13 is fed to the input of inverting amplifier 11. The output signal from amplifier 10 is fed to the inverting input of adder 12 , the non-inverting input of which receives a signal from the output of amplifier 11. At the output of adder 12, a signal is generated that is proportional to the difference of the two signals arriving at its inputs. When the deviation of the resistance value of thermometer 1 due to a change in temperature from the resistor 13 at the output

. The adder 12 generates an error signal (. when the resistances of thermometer 1 and resistor 13 are equal and the transmission coefficients of the amplifiers 10 and P are equal, the output signal of the adder is zero), which can be sent to the actuator in the automatic temperature control system temperature In the first case, the actuator returns the adjustable temperature to the set value, and in the second case, the actuator equalizes the resistance of the resistor 13, for example, by turning the potentiometer slider with the resistance of the thermometer 1 changed. In the latter case, the measured temperature is .f laziness of resistor 13 based on the calibration characteristic of the thermometer. In the presence of capacitive or inductive connections between a resistance thermometer and closely spaced high-current lines and magnetic

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In the case of fields, as well as in the presence of interference from a pulsed power supply and an abrupt change in current, the same currents flow through the series-connected resistance thermometer 1 and the compensation resistor 13. Since the resistances of thermometer I and resistor 13 are equal, the arising on them

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the voltages caused by interference, which, the passage of the amplifiers 10 and P, are subtracted in the adder 12, i.e. at the output of the adder 12 (the output of the Converter) signal interference is absent.

Claims (1)

Invention Formula A temperature measuring transducer containing a resistance thermometer, a four-wire communication line, a current generator and a differential amplifier, the inverting and non-inverting inputs of which are connected to the terminals of a resistance thermometer through two wires of a communication line, one of which is connected to a potential generator bus through a third wire current. Or O. Yurkovetska 2352/44 Compiled by V.Golubev Tehred A. Kravchuk Co Po Circulation 776 VNIIPI USSR State Committee on inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 24 characterized in that, in order to improve the accuracy of the conversion by improving the noise immunity, an inverting amplifier is introduced with gain equal to the gain of the differential amplifier, the adder and the compensation resistor connected by the fourth wires of the communication line in series with a resistance thermometer between its second output and zero current generator bus; the input of the inverting amplifier is connected in parallel to the compensation resistor, and its output is connected to the non-inverting input of the adder, the inverting input of which is connected to the output of the differential amplifier. Proofreader I.Myska Subscription