8 | Operation
LCO304
22 / 29
B-H87.0.02.DB201-1.0
T.SL
0.00
No gradient correction
-5.00 .. 5.00
Gradient correction in %
Gradient correction for the conductivity value
T.SL
1.000
No gradient correction
0.800 .. 1.200
Multiplier for the gradient correction
Formula
Zero point correction:
Displayed value = measured value –
T.OF
Gradient correction °C:
Display = (measured value –
T.OF
) * (1 +
T.SL
/ 100)
Gradient correction °F:
Display = (measured value – 32 °F –
T.OF
) * (1 +
T.SL
/ 100) + 32 °F
Gradient correction γ:
Display = measured value /
T.SL
Example calculation
Temperature
– Zero point correction
T.OF
to
0.00
– Gradient correction
T.SL
to
0.00
– Display unit
UNIT
to °C
– Display in ice water -0.2 °C
– Display in ice water setpoint
T.OF
= 0.0 °C
– Display in water bath 36.6 °C
– Display in water bath setpoint
T.SL
= 37.0 °C
–
T.OF
= display zero point correction – setpoint zero point
–
T.OF
= -0.2 °C – 0.0 °C = -0.2 °C
–
T.SL
= (setpoint gradient correction / (display gradient correction –
T.OF
) – 1) *100
–
T.SL
= (37.0 °C / (36.6 °C – (-0.2)) -1) *100 = 0.54
Conductivity
– Gradient correction
S(L
to
1.000
– Temperature compensation
TCORR
to
OFF
– Control solution GKL 101 as reference
– Display in GKL 101 at 25 °C, setpoint = 84 µS/cm
– Display = 82.5 µS/cm
–
S(L
= setpoint / display value
–
S(L
= 84 µS/cm / 82.5 µS/cm = 1.018
NOTE
The most precise results can be achieved when the control solution temperature is ad-
justed to 25 °C. With different temperatures, the table value of the corresponding tem-
perature must be used as a setpoint.
Outcome of an action
The changed value is saved and the
Configuration
menu is closed.
