Call./V. Dusen Coeff. R0; Call./V. Dusen Coeff. A, B And C; Polynomial Coeff. R0; Polynomial Coeff. A, B - Endress+Hauser iTEMP TMT162 Operating Instructions Manual
Temperature field transmitter
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Also See for iTEMP TMT162:
- Operating instructions manual (160 pages) ,
- Brief operating instructions (52 pages) ,
- Technical information (25 pages)
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iTEMP TMT162
Call./v. Dusen coeff. R0
Navigation
Prerequisite:
Description
User entry
Factory setting
Call./v. Dusen coeff. A, B and C
Navigation
Prerequisite:
Description
Factory setting
Polynomial coeff. R0
Navigation
Prerequisite:
Description
User entry
Factory setting
Polynomial coeff. A, B
Navigation
Endress+Hauser
Expert → Sensor → Sensor n → Linearization → Call./v. Dusen coeff. R0
The RTD platinum (Callendar/Van Duse) option is enabled in the Sensor type parameter.
Use this function to set the R0 Value only for linearization with the Callendar/Van Dusen
polynomial.
40.000 to 1 050.000
100.000 Ohm
Expert → Sensor → Sensor n → Linearization → Call./v. Dusen coeff. A, B, C
The RTD platinum (Callendar/Van Duse) option is enabled in the Sensor type parameter.
Use this function to set the coefficients for sensor linearization based on the
Callendar/Van Dusen method.
• A: 3.910000e-003
• B: -5.780000e-007
• C: -4.180000e-012
Expert → Sensor → Sensor n → Linearization → Polynomial coeff. R0
The RTD poly nickel or RTD copper polynomial option is enabled in the Sensor type
parameter.
Use this function to set the R0 Value only for linearization of nickel/copper sensors.
40.000 to 1 050.000 Ohm
100.00 Ohm
Expert → Sensor → Sensor n → Linearization → Polynomial coeff. A, B
Operating menu and parameter description
97
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