Unit of measurement:
Options:
J.TC
K.TC
R TC
S TC
T.TC
C.TC
D.TC
PT2.TC = Pt20Rh / Pt40Rh thermocouple
INFR1
INFR2
INFR3
INFR4
PT100
PT.LIM = Pt 100 limitated resistance thermometer
JTP10
60MV
20MA
4-20M
10V
2-10V
5V
1-5V
1V
0.2-1V
C.RTD = RTD sensor with user calibration
C.60MV = 0...60 mV sensor with user calibration
C.20MA = 0...20 mA sensor with user calibration
C.4-20 = 4...20 mA sensor with user calibration
C.10V
C.2-10 = 2...10 V sensor with user calibration
C.5V
C.1-5V = 1...5 V sensor with user calibration
C.1V
C.0.2-1 = 0,2...1 V sensor with user calibration
4.7.2.
Lin - Selecting linearization type
Acronym
Lin
CUSTOM LINEARIZATION
The parameter sets linearization for the selected sensor type.
The function corrects any linearity and proportionality errors in the correlation between the value sent by the input and
the actual value of the physical quantity measured.
This correction can be made with two different algorithms: 32-step linearization and 4-point linearization. Values are set (33 for 32-step
linearization and 4 for 4-point linearization) with the LINRZ submenu parameters.
For an explanation of 4-point linearization, see paragraph "5.4. 4-point input correction page 141.
Unit of measurement:
Options:
NONE
32.STP = 32-step linearization
4.POIN = 4-point linearization
80208G_MHW_650-1250-1350_01-2017_ENG
-
= J thermocouple
= K thermocouple
= R thermocouple
= S thermocouple
= T thermocouple
= C thermocouple
= D thermocouple
= IR sensor type 1
= IR sensor type 2
= IR sensor type 3
= IR sensor type 4
= Pt100 resistance thermometer
= JPT100 resistance thermometer
= 0...60 mV sensor
= 0...20 mA sensor
= 4...20 mA sensor
= 0...10 V sensor
= 2...10 V sensor
= 0...5 V sensor
= 1...5 V sensor
= 0...1 V sensor
= 0,2...1 V sensor
= 0...10 V sensor with user calibration
= 0...5 V sensor with user calibration
= 0...1 V sensor with user calibration
Scrolling message
T
-
= No linearization
Ideal
correlation
correlation
of input
4. CONFIGURATION
Submenu
I.MAIN
V
Attributes
R W
65