A1: calibration reference options, A1.1 internal rh probe reference, Appendix a1 – ROTRONIC Hygrogen2 User Manual

E-M-HG2-S-V2.1

Rotronic AG

Bassersdorf, Switzerland

Document code

Unit

HygroGen2 Humidity and Temperature Generator:

Instruction Manual
Appendix

Instruction Manual for Software

Version 2.1

Document Type

Page 55 of 75

Document title

A1: Calibration Reference Options

Various calibration references can be used with the HygroGen2. These include the internal control

probe, other RH probes, dew point chilled mirrors and platinum resistance thermometers (PRTs).

For traceable calibration, these references are themselves calibrated by accredited laboratories

traceable to national standards.

For more information, please refer to The Guide to Uncertainty of Measurements (GUM) published

by the UK National Physical Laboratory (or equivalent national standards documentation) and ISO/IEC

17025:2005 “General Requirements for the Competence of Testing and Calibration Laboratories”.

Appendix D1

provides examples of uncertainty budgets for the HygroGen2 when using different

calibration references. These are for guidance only and ROTRONIC accepts no liability in relation to

their use.

A1.1 Internal RH Probe Reference

The display values on the HygroGen2 (which are derived from the control probe - as described in

Appendix A2

) can be used as the reference.

Advantages:

• No supplementary instruments are required.

• Fastest response - control is based on the reference value.

• Stability during calibration – the reference is continually optimising the control value.

• The reference probe can be easily replaced with another calibrated probe.

• HygroClip probes have the facility to be adjusted to agree with a calibration reference,

meaning no corrections of the HygroGen2 display value need to be made in routine use.

Disadvantages:

• RH probes can drift over time, so regular checks need to be performed to achieve best

measurement capability and a larger drift component included in an overall uncertainty

calculation.

• Probe characteristics, such as hysteresis or temperature coefficients, must be included within

the overall uncertainty budget.

• RH probes are less accurate than chilled mirrors.

Using the internal probe as your reference provides the most convenient option, but routine checks

of the probe’s stability are required to ensure the quality of the calibration. Interim calibration checks

against a traceable reference (e.g. ROTRONIC non-saturated salt solutions) should be carried out

regularly and the results recorded in a probe calibration history.

© 2014; Rotronic AG

E-M-HG2-S-V2.1