C200 SOFTWARE
Instruction Manual C200 Part2 A1.doc
optek Danulat GmbH • D-45356 Essen • Germany
page 93
6.2 Calibration conductivity
Notes.
• The analyzer is calibrated by the Company prior to dispatch and the Factory Settings pages are protected by
an access code.
• Routine recalibration is not necessary – high stability components are used in the analyzer's input circuitry
and, once calibrated, the Analog-to-Digital converter chip self-compensates for zero and span drift. It is
therefore unlikely that the calibration will change over time.
• Do Not attempt recalibration without first contacting optek.
• Do Not attempt recalibration unless the input board has been replaced or the Factory Calibration tampered
with.
• Prior to attempting recalibration, test the analyzer's accuracy using suitably calibrated test equipment – see
Sections 6.2.1 and 6.2.2.
6.2.1 Equipment Required
a) Decade resistance box (conductivity cell input simulator): 0 to 100kΩ (in increments of 0.1Ω), accuracy ±0.1%.
b) Decade resistance box (Pt1000/3K Balco temperature input simulator): 0 to 10kΩ (in increments of 0.1Ω), accuracy
±0.1%.
c) Digital milliammeter (current output measurement): 0 to 20mA.
Note. Resistance boxes have an inherent residual resistance that may range from a few mΩ up to 1Ω. This value must
be taken into account when simulating input levels, as should the overall tolerance of the resistors within the boxes.
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