CS241763B1 - Resistance thermometer linearizer connection - Google Patents

Abstract

Solution ae concerns the connection of analog linearization of the resistance-temperature functional dependence of a platinum resistance thermometer. A divider consisting of the first resistor and a resistance thermometer is connected to the current source. The output of a negative, imitation converter is connected to the voltage terminals of the resistance thermometer, to the input of which a second resistor is connected.

Description

(54) Resistance Thermometer Linearizer Solution ae refers to the wiring of an analog linearization of the resistance-temperature functional relationship of a platinum resistance thermometer. A rare voltage source is connected by a divider consisting of a first resistor and a resistance thermometer. The output of the negative, imitation converter is connected to the voltage terminals of the resistance thermometer, to which the second resistor is connected.

241 765

The invention relates to the connection of a resistance thermometer liner, i.e. the resistance-temperature function of this platinum resistance thermometer.

The currently used method of linearization of the functional dependence of a resistance thermometer is the connection of a diode functional converter, which uses volt-voltage characteristics of the PN junction. This solution is characterized by a strong temperature dependence given to the PN junction properties of the semiconductor diodes used. Another disadvantage is the need to use a large number of semiconductor diodes and very precise resistors to achieve an accuracy of the order of 0.1%. The drawbacks of this solution also include the complexity of setting the desired resulting functional dependence.

The above-mentioned drawbacks are eliminated by the wiring of the linearizer of the resistance thermometer according to the invention. A divider consisting of a first resistor and a resistance thermometer is connected to the reference voltage source. A negative impedance converter output, which has a second resistor connected to its input, is connected to the voltage terminals of the resistance thermometer.

In the accompanying drawing, FIG. 1 shows the principle circuitry of the linearization according to the invention, and FIG.

The reference voltage source χ, via the first resistor 2, supplies a resistance thermometer J, which is connected to the circuit by means of current terminals, b. A negative impedance converter consisting of an operational amplifier 8 and third and fourth is connected to voltage terminals 8, d. resistor 2 »6 · The second resistor X is connected in series with the resistance thermometer 2 at the input of the negative, imitation converter Terminal V serves as the output,

If not ,, overvoltages tovýra terminals C, D connected to the negative immittance converter fourth »j ^e, voltage of the resistance thermometer 2 241 763 intended dividing ratio of the two resistors. Assuming that the value of the first from the pore 2 is substantially higher than the value of the resistance thermometer 2, the voltage at the resistance thermometer 2 follows its functional resistance-temperature dependence. When the output of the negative imitation converter £ is connected to the voltage terminals c, d, the voltage from the resistance thermometer 2 can be directly proportional to the voltage from the pore 7. . 200 to 800 ° C ± 0.1% of maximum temperature. The terminal V serves as an output and it measures the voltage on the resistance thermometer 2 amplified in the ratio of the values of the third resistance 6 and the second resistance

Claims (1)

OBJECT YEAR-NEXT FROM tJ Connection of a resistance thermometer linearizer with a reference voltage source to which a divider consisting of a first resistance and a resistance thermometer is connected, characterized in that a negative imitation converter output (4) is connected to the voltage terminals (c, i) of the resistance thermometer (3). the input of which is connected a second resistor (7)