Jenway 3510 User Manual
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3.9 Millivolt Mode
Absolute Millivolts
When this mode is selected the unit will display the actual voltage developed by the electrode when it
is immersed in a solution containing ions to which the electrode is sensitive.
The electrode may be a combination type or a suitable sensing/reference pair, depending on the
specific test being carried out.
pH, Redox and Ion Selective electrodes can all be used in this mode. Most of these determinations will
require the preparation of calibration curves or other analytical methods to enable the mV reading to
be converted to a concentration unit. For further information on these determinations refer to the
electrode instructions, which will normally give details of calibration solutions, interferences and the
limits of the methodology.
A very useful application of the Absolute mV range is for monitoring the performance of standard pH
electrodes. Using accurate and fresh buffers at a constant temperature, the millivolt output of the
electrode should be noted and compared to the theoretical ideal. As the electrode ages, becomes
contaminated or dirty, these values will drift, indicating that corrective action should be taken.
Recording these values as part of a routine Quality Control program can give a good indication of the
condition of the electrode.
351 050/REV B/09-06
Relative Millivolts
This mode is suitable for determinations using Redox and Ion Selective Electrodes and has the
additional benefit of being able to zero any offset voltage developed by the electrode in a blank solution,
i.e; a solution that has none of the ions to be measured, but has all the other characteristics of the
unknown samples. A blank solution would normally have its ionic strength and pH adjusted as required
for the electrode in use.
As the display is zeroed automatically when the Relative millivolt mode is selected, it is necessary to
immerse the electrode in the blank solution with the Absolute mV mode selected. When the reading
has stabilised the Relative mV mode should then be selected. The display will be set to zero, thereby
removing any offset voltage.
Sample measurement is then carried out by using a variety of well tried analytical methods; from
simple calibration curves through titrations, to single and multiple addition methods.
Select the mV mode using the Up/Down arrows which toggle between pH and mV modes.
The CAL/CLR key switches between Absolute and Relative mV. Relative mV is indicated by REL on
the display.
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