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Thermocouples are
temperature sensors suitable for use with any make of instrument designed
or programmed for use with the same type of thermocouple. Thermocouples
are based on the principle that when two dissimilar metals are joined
a predictable voltage will be generated that relates to the difference
in temperature between the measuring junction and the reference junction
(connection to the measuring device). The selection of the optimum thermocouple
type (metals used in their construction) is based on application temperature,
atmosphere, required length of service, accuracy and cost. When a replacement
thermocouple is required, it is of the utmost importance that the type
of thermocouple type used in the replacement matches that of the measuring
instrument. Different thermocouple types have very different voltage
output curves. It is also required that thermocouple or thermocouple
extension wire, of the proper type, be used all the way from the sensing
element to the measuring element. Large errors can develop if this practice
is not followed.
Wire
Size of Thermocouple:
Selecting the wire size used in the thermocouple sensor depends upon
the application. Generally, when longer life is required for the higher
temperatures, the larger size wires should be chosen. When sensitivity
is the prime concern, the smaller sizes should be used.
Length of Thermocouple Probe: Since the effect of conduction
of heat from the hot end of the thermocouple must be minimized, the
thermocouple probe must have sufficient length. Unless there is sufficient
immersion, readings will be low. It is suggested the thermocouple be
immersed for a minimum distance equivalent to four times the outside
diameter of a protection tube or well.
Location of Thermocouple: Thermocouples should always
be in a position to have a definite temperature relationship to the
work load. Usually, the thermocouple should be located between the work
load and the heat source and be located approximately 1/3 the distance
from the work load to the heat source.
Thermocouple
Type |
Names
of Materials |
Useful
Application Range |
B |
Platinum30% Rhodium
(+) |
2500 -3100F |
| Platinum 6% Rhodium
(-) |
1370-1700C |
C |
W5Re Tungsten
5% Rhenium (+) |
3000-4200F |
| W26Re Tungsten
26% Rhenium (-) |
1650-2315C |
E |
Chromel (+) |
200-1650F |
| Constantan (-)
|
95-900C |
J |
Iron (+) |
200-1400F |
| Constantan (-)
|
95-760C |
K |
Chromel (+) |
200-2300F |
| Alumel (-) |
95-1260C |
N |
Nicrosil (+) |
1200-2300F |
| Nisil (-) |
650-1260C |
R |
Platinum 13% Rhodium
(+) |
1600-2640F |
| Platinum (-) |
870-1450C |
S |
Platinum 10% Rhodium
(+) |
1800-2640F |
| Platinum (-) |
980-1450C |
T |
Copper (+) |
-330-660F |
| Constantan (-)
|
-200-350C |
Glossary
of Terms
Cold Junction
or Reference Junction - The junction generally at the measuring
device that is held at a relatively constant temperature.
Cold Junction Compensation - Measures the ambient temperature
at the connection of the thermocouple wire to the measuring device.
This allows for accurate computation of the temperature at the hot junction
by the measuring device.
Dual Element - Two thermocouple elements housed within
one thermocouple hardware assembly.
Extension Wire - Wires which connect the thermocouple
itself to a reference junction, i.e. controller, receiver, recorder,
etc. Extension wire must be of the same type as the thermocouple. Special
plugs and jacks made of the same alloys as the thermocouple should be
used if a quick disconnect is required for the application.
Grounded Junction - The internal conductors of this
thermocouple are welded directly to the surrounding sheath material,
forming a completely sealed integral junction.
Ungrounded Junction - Although the internal thermocouple
conductors are welded together they are electrically insulated from
the external sheath material and are not connected to the sheath in
any way. Ungrounded junction thermocouples are ideal for use in conductive
solutions or wherever circuit isolation is required. Ungrounded junctions
are required where the measuring instrumentation does not provide channel
to channel isolation.
Exposed Junction - The thermocouple junction or measuring
point is exposed without any protection assembly or tube. Exposed junction
thermocouples due to their design, offer the user the fastest response
time.
Hot Junction - The measuring junction.
Immersion Length - The portion of the thermocouple
which is subject to the temperature which is being measured.
Measuring Junction - The junction in a thermocouple
which actually measures the temperature of the object. Often referred
to as the Hot Junction.
Protection Tube - A tube like assembly in which the
thermocouple is installed in order to protect the element from harsh
environments.
RTD - Abbreviation for Resistance Temperature Detector.
It is a sensor which operates on the principle that the resistance increases
with an increase in temperature at a specific rate. Commonly manufactured
using a platinum resistance element. More accurate and more linear than
most thermocouples and generally much more costly and slower responding.
Thermocouple - A temperature sensor based on the principle
that a voltage is produced when two dissimilar metals. The junction
produces a voltage in proportion to the difference in temperature between
the measuring junction and the reference junction.
Thermowell - A threaded or flanged closed end tube
which is mounted directly to the process or vessel, designed to protect
the thermocouple from the process surroundings.
Thermocouple Color Codes
Thermocouple wiring is color coded by thermocouple types. Different
countries utilize different color coding. Jacket coloring is sometimes
a colored stripe instead of a solid color as shown.
United
States ASTM:
British BS1843: 1952:
British BS4937: Part 30:
1993:
French NFE:
German DIN:
Copensating Table:
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