Difference between revisions of "POS calibration"
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DatLab converts the [[raw signal]] to oxygen concentrations by applying conversion factors determined during a POS calibration comprising an [[air calibration]] and a [[zero calibration]]. For each [[Gain (O2 channel) | gain]] a different set of calibration values is necessary. Frequently, assumed hardware problems turn out to be a simple calibration problem. This can easily be detected by observing the [[Raw signal]]. | DatLab converts the [[raw signal]] to oxygen concentrations by applying conversion factors determined during a POS calibration comprising an [[air calibration]] and a [[zero calibration]]. For each [[Gain (O2 channel) | gain]] a different set of calibration values is necessary. Frequently, assumed hardware problems turn out to be a simple calibration problem. This can easily be detected by observing the [[Raw signal]]. | ||
Please see [[http://www.oroboros.at/index.php?id=o2k-o2calibration MiPNet12.08]] | Please see [[http://www.oroboros.at/index.php?id=o2k-o2calibration MiPNet12.08]] | ||
'''Dynamic POS calibration''' = Calibration of the sensor response time. | |||
'''Static POS calibration''' Two-point calibration of the polarographic oxygen sensor. | |||
Revision as of 14:07, 14 September 2010
DatLab converts the raw signal to oxygen concentrations by applying conversion factors determined during a POS calibration comprising an air calibration and a zero calibration. For each gain a different set of calibration values is necessary. Frequently, assumed hardware problems turn out to be a simple calibration problem. This can easily be detected by observing the Raw signal. Please see [MiPNet12.08]
Dynamic POS calibration = Calibration of the sensor response time.
Static POS calibration Two-point calibration of the polarographic oxygen sensor.
