Temperature

Temperature

Used:    It is to be measure hotness and coldness of the body.

Units:

1.       Degree centigrade          (⁰C)

2.       Degree Fahrenheit          (⁰F)

3.       Degree kelvin                    (⁰K)

4.       Degree Rankin                  (⁰R)

Conversion for (⁰C) to (⁰F) and (⁰F) to (⁰C)

Formula

⁰C = ⁰F-32/1.8

⁰F = (⁰C*1.8) +32

E.g.

1000F =? 0C 0C = 0F-32/1.8 0C = 100-32/1.8 0C = 37.770C	1000C =? 0F 0F = (0C*1.8) +32 0F = (100*1.8) +32 0F = 2120F
100F =? 0C 0C = 0F-32/1.8 0C = 10-32/1.8 0C = -12.220C	-400C =? 0F 0F = (0C*1.8) +32 0F = (-40*1.8) +32 0F = -400F

What are the temp sensing elements?

1.       RTD (Resistance Temp Detector)

2.       Thermocouple

3.       Thermistor

1.       RTD (Resistance Temp Detector)

a.       RTD is a temp sensing element

b.      RTD is used for (1000⁰C) temp measurement

c.       Output of RTD is resistance

d.      RTD works on the principle of “change in Resistance”.

e.      When temp changes, Resistance also changes.

f.        When temp increases Resistance also increases so that RTD is called positive temp co-efficient (PTC).

0⁰C----------------- ------------------------- 100Ω

30⁰C----------------------------------------- 111.6Ω

50⁰C----------------------------------------- 119.4Ω

100⁰C----------------- ---------------------- 138.5Ω

150⁰C---------------------------------------- 157.33Ω

200⁰C---------------------------------------- 175.84Ω

300⁰C---------------------------------------- 212.06Ω

Note: -for accuracy used up to 300⁰C only.

Diagram of RTD

What is PT 100?

When temp is 0⁰C then resistance is 100Ω

Formula: -           PT 100

RT = R₀ x (1+αT)

Where

RT = Resistance of temp to be measured.

R₀ = Resistance at 0⁰C = 100Ω.

α = Temp co-efficient = 0.00385

T = Temp to be measured.

1000C =? Ω RT = R0 x (1+αT) RT = 100 x (1+0.00385 x 100) RT = 100 x (1+0.385) RT = 100 x 1.385 RT = 138.5 Ω	300C =? Ω RT = R0 x (1+αT) RT = 100 x (1+0.00385 x 30) RT = 100 x (1+0.1155) RT = 100 x 1.1155 RT = 111.55 Ω
1750C =? Ω RT = R0 x (1+αT) RT = 100 x (1+0.00385 x 175) RT = 100 x (1+0.67375) RT = 100 x 1.67375 RT = 167.375 Ω

Type of RTD:-

1.       Two wire RTD

2.       Three wire RTD

3.       Four wire RTD

1.       Two wire RTD

Diagram

Used for short distance

Distance up to 100 meter

Not accurate for long distance

2.       Three wire RTD

Diagram

Used for long distance

Distance up to 500 meter

Accurate for long distance

Note: -  3^rd wire is used for “compensation” of “resistance” (To cancel the resistance of cable or lead wire)

3.       Four wire RTD

Diagram

Used for very long distance.

Distance up to 1000 meter.

What is calibration?

Comparing measuring value with standard value for its best accuracy.

Temperature transmitter (TT)

TT is used for temperature measurement.

Calibration:-

                Company = Rosemount

                Model no = 244R

                Range = 0 to 200⁰C

                Output = 4 to 20 ma

                Supply = 24vdc

                RTD input PT 100 type.

Diagram

Calibration table:-

	Ma output	Temp in 0C	Resistance in Ω
Zero (Z)	4	0	100Ω
	8	50	119.4Ω
Linearity	12	100	138.5Ω
	16	150	157.33Ω
Span (S)	20	200	175.84Ω

Calibration circuit: -

Diagram

 How to calibrate temp transmitter (RTD input)

1.       Connect 24vdc to transmitter and connect Multimeter in series with 24vdc supply.

2.       Connect resistance source at RTD input terminal.

3.       Apply resistance from resistance source according to range and check zero and span

4.       Check zero (4ma), if it is disturbed then adjust it using zero pot or push button

5.       Checks span (20ma), if it is disturbed then adjust it using span pot or push button.

6.       Check linearity by applying 50% input and check transmitter output should be 12 ma

7.       Transmitter is calibrated ok

Temp transmitter (TT)

Calibration:-

Eample  2

                                Company = Rosemount hart smart family.

                                Model no = 644

                                Range limit = -200 to 850⁰C

Input range = -50 to 150⁰C

Output = 4 to 20 ma

Supply voltage = 24vdc

RTD input PT 100 type

Diagram

Calibration table:-

	Ma output	Temp in 0C	Resistance in Ω
Zero (Z)	4	-50	80.13Ω
	8	0	100Ω
Linearity	12	50	119.4Ω
	16	100	138.5Ω
Span (S)	20	150	157.33Ω

Formula:

     

50

NOTE: URV & LRV is given in input range i.e. -50 to 150

Therefore   URV = upper range value i.e. 150

                      LRV = lower range value i.e. -50

1.       Connect 24vdc to transmitter and connect Multimeter in series with 24vdc supply.

2.       Connect resistance source at RTD input terminal.

3.       Apply resistance from resistance source according to range and check zero and span

4.       Check zero (4ma), if it is disturbed then adjust it using zero pot or push button

5.       Checks span (20ma), if it is disturbed then adjust it using span pot or push button.

6.       Check linearity by applying 50% input and check transmitter output should be 12 ma

7.       Transmitter is calibrated ok