553BTechnical specifications
A.9 Analog signal boards (SBs)
A.9.4.2
Basic operation for a thermocouple
Thermocouples are formed whenever two dissimilar metals are electrically bonded to each
other. A voltage is generated that is proportional to the junction temperature. This voltage is
small; one microvolt could represent many degrees. Measuring the voltage from a
thermocouple, compensating for extra junctions, and then linearizing the result forms the
basis of temperature measurement using thermocouples.
When you connect a thermocouple to the SM 1231 Thermocouple module, the two dissimilar
metal wires are attached to the module at the module signal connector. The place where the
two dissimilar wires are attached to each other forms the sensor thermocouple.
Two more thermocouples are formed where the two dissimilar wires are attached to the
signal connector. The connector temperature causes a voltage that adds to the voltage from
the sensor thermocouple. If this voltage is not corrected, then the temperature reported will
deviate from the sensor temperature.
Cold junction compensation is used to compensate for the connector thermocouple.
Thermocouple tables are based on a reference junction temperature, usually zero degrees
Celsius. The cold junction compensation compensates the connector to zero degrees
Celsius. The cold junction compensation restores the voltage added by the connector
thermocouples. The temperature of the module is measured internally, then converted to a
value to be added to the sensor conversion. The corrected sensor conversion is then
linearized using the thermocouple tables.
For optimum operation of the cold junction compensation, the thermocouple module must be
located in a thermally stable environment. Slow variation (less than 0.1° C/minute) in
ambient module temperature is correctly compensated within the module specifications. Air
movement across the module will also cause cold junction compensation errors.
If better cold junction error compensation is needed, an external iso-thermal terminal block
may be used. The thermocouple module provides for use of a 0° C referenced or 50° C
referenced terminal block.
Selection table for the SB 1231 thermocouple
The ranges and accuracy for the different thermocouple types supported by the SB 1231
Thermocouple signal board are shown in the table below.
Table A- 138 SB 1231 Thermocouple selection table
Thermocouple
Under range
Type
minimum
J
-210.0°C
K
-270.0°C
T
-270.0°C
E
-270.0°C
R & S
-50.0°C
N
-270.0°C
C
0.0°C
736
Nominal
Nominal range
range low limit
high limit
1
-150.0°C
1200.0°C
-200.0°C
1372.0°C
-200.0°C
400.0°C
-200.0°C
1000.0°C
100.0°C
1768.0°C
0.0°C
1300.0°C
100.0°C
2315.0°C
Over range
Normal range
maximum
accuracy @ 25°C
2
1450.0°C
±0.3°C
1622.0°C
±0.4°C
540.0°C
±0.5°C
1200.0°C
±0.3°C
2019.0°C
±1.0°C
1550.0°C
±1.0°C
2500.0°C
±0.7°C
S7-1200 Programmable controller
System Manual, 11/2011, A5E02486680-05
Normal range
3
3,
accuracy
0°C to 55°C
±0.6°C
±1.0°C
±1.0°C
±0.6°C
±2.5°C
±1.6°C
±2.7°C