Figure 26, Control parameters and polarization current – Metrohm 899 Coulometer User Manual

10.4 Control parameters and polarization current

￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭￭

96

￭￭￭￭￭￭￭￭

899 Coulometer

Water / µg

Measur

ed value / mV

Endpoint

Control range

I = 30 µA

pol

I = 2 µA

pol

I = 5 µA

pol

I = 10 µA

pol

I = 20 µA

pol

Figure 26

Control parameters and polarization current

The diagram shows Karl Fischer titration curves at different polarization
currents (Reagent Coulomat AD). It is clear to see that the position of the
endpoint varies with the polarization current. The curves have different
slopes, i.e. the dynamics must also be adapted. Polarization currents < 10
µA are not suitable for this application. The following table gives you an
idea of the optimal control parameters for various polarization currents.

Table 7

Optimum control parameters at different polarization currents

I(pol) (polari-
zation cur-
rent)

10 µA

20 µA

30 µA

Endpoint at

50 mV

100 mV

150 mV

Dynamics

70 mV

100 mV

120 mV

Max. rate

Default value

Default value

Default value

Min. rate

Default value

Default value

Default value

Stop drift

Default value

Default value

Default value

The indicator electrode is activated after a certain period of use in the
same reagent, i.e. the titration curve becomes steeper. If the titration
curve is too steep, then slowly fluctuating drift values could occur during
conditioning. You can solve this problem by setting the endpoint lower.
Endpoints that have been set too low could however prolong the titration.
This could have unfavorable effects on the measuring error.