Appendix g: current vs. dewpoint – COSA Xentaur Xentaur HDT User Manual

HDT User’s Manual

page 28

Appendix G: Current vs. Dewpoint

The current being drawn by the HDT, varies with the dew-
point being measured by the HDT. To use the current to cal-
culate the value of the dewpoint measurement, one must
know the settings of the low and high ends of the analog
output range, then:

where:

I = current drawn by HDT loop in mA.
H = value of High end of Analog Output range

converted to selected engineering units

L = value of Low end of Analog Output range

converted to selected engineering units

D = dewpoint measured by instrument in selected

engineering units.

A HART communicator is required to check and set the
Analog Output low and high ranges; the factory default set-
tings are -100°C and +20°C respectively.
For example a unit with factory default settings, drawing
12mA is computed to be measuring a dewpoint of -40°C:

Note that the computation is such that the current is linear to
the selected engineering units. Hence, ordering a HDT with
ppmV or LBS or G/M3 units, will cause the analog output
to be linearly proportional to those units (approximately
logarithmically proportional to dewpoint), refer to the graph
that follows. Naturally selecting °C or °F will cause the ana-
log output to be linearly proportional to dewpoint.
When monitoring in ppmV or LBS or G/M3, the analog
output low & high ranges may have to be adjusted to pro-

D

I

4

–

(

)

H

L

–

(

)

×
16

----------------------------------------

L

+

=

12

4

–

(

)

20

100

–

(

)

–

(

)

Ч

16

------------------------------------------------------------

100

–

(

)

+

40

–

=