Calibration, 1 when is calibration necessary, Calibration -1 – Yokogawa EXA DC402 Dual-Channel Conductivity Analyzer User Manual

IM 12D08E02-01E

Calibration 6-1

6. CALIBRATION

6-1 When is calibration necessary?

Calibration of conductivity/resistivity instruments is normally not required, since Yokogawa delivers a

wide range of sensors, which are factory calibrated traceable to NIST standards. The cell constant

values are normally indicated on the top of the sensor or on the integral cable. These values can be

entered directly in service code 03 (section 5-3-1).

If the cell has been subjected to abrasion (erosion or coating) calibration may be necessary. In the next

section two examples are given. Alternatively calibration may be carried out with a simulator to check the

electronics only.

NOTE:

During calibration the temperature compensation is still active. This means that the readings are

referred to the reference temperature as chosen in service code 20 (section 5-3-3, default 25 °C).

Calibration is normally carried out by measuring a solution with a known conductivity value at a known

temperature. The measured value is adjusted in the calibration mode. On the next pages the handling

sequence for this action is visualized.

Calibration solutions can be made up in a laboratory. An amount of salt is dissolved in water to give

a precise concentration with the temperature stabilized to the adjusted reference temperature of the

instrument (default 25 °C). The conductivity of the solution is taken from literature tables or the table on

this page.

Alternatively the instrument may be calibrated in an unspecified solution against a standard instrument.

Care should be taken to make a measurement at the reference temperature since differences in the type

of temperature compensation of the instrument may cause an error.

NOTE:

The standard instrument used as a reference must be accurate and based on an identical

temperature compensation algorithm. Therefore the Model SC72 Personal Conductivity Meter of

Yokogawa is recommended.

Typical calibration solutions.

The table shows some typical conductivity values for sodium-chloride (NaCl) solutions which can be

made up in a laboratory.

Table 6-1. NaCl values at 25 °C

Weight %

mg/kg

Conductivity

0.001

10

21.4 µS/cm

0.003

30

64.0 µS/cm

0.005

50

106 µS/cm

0.01

100

210 µS/cm

0.03

300

617 µS/cm

0.05

500

1.03 mS/cm

0.1

1000

1.99 mS/cm

0.3

3000

5.69 mS/cm

0.5

5000

9.48 mS/cm

1

10000

17.6 mS/cm

3

30000

48.6 mS/cm

5

50000

81.0 mS/cm

10

100000

140 mS/cm

NOTE:

For resistivity measurement the standard

resistivity units of the calibration solution can

be calculated as follows:

R = 1000/G (kΩ•cm if G = µS/cm)

Example:

0.001% weight

R = 1000/21.4 = 46.7 kΩ•cm