SU1597598A1 - Temperature-to-voltage converter - Google Patents

Abstract

The invention relates to thermometry and simplifies the device. The output signal of thermocouple 1 is amplified by amplifier 2 and fed to the input of an analog dividing device 3 and to the input of a large-scale converter 5. The output signal of a large-scale converter 5 is summed with the signal of a reference voltage source 7 and fed to a second input of an analog dividing device 3. To the inputs of a differential amplifier 4 signals from the outputs of the analog dividing device 3 and from the output of the large-scale converter 6 are received; the output of the differential amplifier 4 is a signal proportional to temperature The choice of the conversion factors of the converter elements makes it easy to set up and calibrate the converter. 1 il.

Description

bh

and.

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out

SL

WITH

7

SL O VI SL O O

The invention relates to thermometry and may find application in the creation of standardizing measuring transducers of temperature into a unified DC voltage signal.

The purpose of the invention is to simplify the converter.

The drawing shows a structural diagram of the proposed temperature-to-voltage converter.

The temperature to voltage converter contains a thermocouple 1, an amplifier 2, an analog dividing device 3, a differential amplifier 4, the first 5 and the second b large-scale converters, a source 7 of the reference voltage and an adder 8.:

. Let us denote the conversion factors of amplifier 2, analog dividing device 3, differential amplifier 4, first 5 and second 6 scale converters, respectively, through K2, Kz, K4, KB and KB.

In this case, the output voltage of the amplifier 2 supplied to one of the inputs of the analog dividing device 3 and the input of the large-scale converter 5 will be expressed as

U2 К2Ех, (1)

where ЕХ is the thermocouple output from the thermocouple corresponding to the QX thermocouple to be converted.

After this voltage is converted by the scale converter 5, the voltage UB is formed at its output, which is fed to the first input of the adder 8 and is equal to

, -KsEx. (2)

The second input of the adder 8 is supplied with the output voltage from the output of the source 7 of the reference voltage. Consequently, the output of the adder 8 is a voltage value equal to

UB Uo + Us Uo + K2 Ks Ex. (3) The output voltage Ue of the adder 8 is supplied to the second input of the analog dividing device 3, the first input of which is supplied with the voltage U2 from the output of the amplifier 2. Therefore, after performing the dividing operation, the voltage of the ultrasonic is formed at the output of the analog dividing device 3

Uz Kz Kz

K2EX

Wo + K2 KB E,

 (four)

Voltage Uz is fed to the inverting input of the differential amplifier 4. Since the inverting input of the differential amplifier 4 is supplied with the output voltage Ye, of the scale converter 6, the output voltage

Uvi of the differential amplifier 4, which is the output voltage of the converter, is

Uvih (Uz - Wo) KA. (5) Considering that at the input scale

the converter B receives the output voltage of the voltage source of the source 7 of the reference voltage, the value of the voltage V o is expressed as

U KbU- (6)

Substituting (5) and (7) into equation (6), an expression is obtained for the output voltage of the proposed converter in the form

0

five

OUT -

 K4 (|

Cs

K2E

Kb Uo). (7)

Uo + К2 Кб ЕХ The choice of the values of the coefficients Кз and К4 provides the specified value of the normalized level of the output voltage ALARM. By choosing the values of the coefficients K2 and Kz, the linear dependence of Uyv on the converted temperature Qx in the range Qx minQx max, and

the value of the coefficient Kb provides the necessary value of the bias voltage (UcM KG-UO) to reduce the additive component of the conversion error and to ensure the output voltage level zero () at QX min 0 and, therefore, EX min F (Qx min,

5 0 ° C) Oh, i.e. if the normalized range of the unified signal at the output of the converter is set from 0 to

and output max.

Claims (1)

Invention 0 A temperature to voltage converter comprising a thermocouple connected in series and an amplifier, a reference voltage source, output connected to the first input of the adder, characterized in that, in order to simplify converter, an analog dividing device and a differential amplifier connected in series are entered into it, the first large-scale converter and the second large-scale converter connected by input to the first input of the adder and the output to the inverting input of the differential amplifier, while the output of the amplifier 5 is connected to the first input of the analog dividing device, the second input connected to the output of the adder, and through the first scaler connected to the second input of the adder.