Calibration; Why Calibrate; When To Calibrate; Determining The Cell Constant (Calibration In Control Standard) - Xylem YSI MultiLab 4010P-1 Operation Manual

Conductivity
56
8.3

Calibration

8.3.1 Why calibrate?

Aging slightly changes the cell constant, e. g. due to coatings. As a result, an
inexact measured value is displayed. The original characteristics of the cell can
often be restored by cleaning the cell. Calibration determines the current value
of the cell constant and stores this value in the meter.
Thus, you should calibrate at regular intervals.

8.3.2 When to calibrate?

 After connecting a sensor
 Routinely within the framework of the company quality assurance
 When the cleaning interval has expired

8.3.3 Determining the cell constant (calibration in control standard)

You can determine the actual cell constant of the IDS conductivity sensor by
calibrating with the control standard in the following range:
-1
(e.g. 4310, nominal cell constant 0.475 cm
0.450 ... 0.500 cm
The cell constant is determined in the control standard, 0.01 mol/l KCl.
In the delivery condition, the calibrated cell constant of the IDS sensor is set to
-1
(conductivity measuring cell, 4310).
0.475 cm
For this calibration procedure, the Type setting must be set to cal. Proceed as
follows to determine the cell constant:
1. Connect the conductivity sensor to the meter.
2. In the measured value display, select the conductivity parameter with
<M>.
3. Start the calibration with <CAL>.
The cell constant that was calibrated last is displayed.
0.475
03.04.2013
1/cm
25.0
°C
08:00
MultiLab 4010-1
-1
)
ba76141e03 03/2014