Xylem 6-Series Multiparameter User Manual

Sondes

Section 2

YSI Incorporated

Environmental Monitoring Systems Operations Manual

2-80

Calibration Using mg/L – 1-Point

Place the sensor in a container which contains oxygen of a known concentration of dissolved oxygen in

mg/L AND THAT IS WITHIN +/- 10% of AIR SATURATION as determined by one of the following

methods:



Winkler titration



Aerating the solution and assuming that it is saturated, or



Measurement with another instrument.

CAUTION: Carrying out DO mg/L calibrations at values outside the range of +/- 10 % of air

saturation is likely to compromise the quoted accuracy specification of the 6150 Optical DO Sensor.

Wait approximately 10 minutes before proceeding to allow the equilibration of the temperature and oxygen

sensors.

Select ODO mg/L and then 1-Point to access the mg/L calibration procedure. Calibration of your optical

dissolved oxygen sensor using the DO mg/L procedure also results in calibration of the ODOsat % mode

and vice versa.

Enter the known mg/L concentration and press Enter. The current values of all enabled sensors will

appear on the screen and change with time as they stabilize. Observe the readings under ODO mg/L and,

when they show no significant change for approximately 30 seconds, press Enter. The screen will indicate

that the calibration has been accepted and prompt you to press Enter again to return to the Calibrate menu.

2-Point Calibrations

By selecting either ODOsat % and then 2-Point or ODO mg/L and then 2-Point from the appropriate

menus, you will be able to calibrate your sonde at zero oxygen and in water-saturated air or air-saturated

water (if you select ODO%) or at zero oxygen and a known concentration of oxygen within +/-10% of air-

saturation (if you select ODO mg/L). These two-point calibrations should be done ONLY if you suspect

that your 6150 Optical DO sensor is less accurate than you require at low oxygen values. The key to

performing a 2-point calibration is to make certain that your zero oxygen medium (probably either nitrogen

gas or an aqueous solution of sodium sulfite at a concentration of approximately 2 g/L) is truly oxygen-free

as described in the tips below:



If you use nitrogen gas for the zero point calibration, you should make certain that the vessel you

use has a SMALL exit port to prevent back diffusion of air and that you have completely purged

the vessel before confirming the calibration.



If you use sodium sulfite solution for the zero point calibration, you should make up the solution

at least 2 hours prior to use and keep it sealed in a bottle which does not allow diffusion of oxygen

through the sides of the container. You should also transfer the sodium sulfite solution rapidly

from its container to the sonde calibration cup, fill the cup as full as possible with solution to

minimize head space, and seal the calibration cup to the sonde to prevent diffusion of air into the

vessel.

To implement the 2-point calibrations, place the 6150 and the temperature sensor in a zero oxygen medium.

Then select either ODO% and then 2-Point or ODO mg/L and then 2-Point from the Calibrate|Optic T

Dissolved Oxy menu. For either calibration routine, you MUST ENTER ZERO at the first prompt asking

for ODO in mg/L. Then view the readings in real time and when they are stable, press Enter to confirm

the zero point calibration.

CAUTION: Be certain that you wait at least 10-12 minutes and until the readings are stable for at

least 2 minutes before confirming the zero point calibration entry.