5 emissivity ε, 6 transmittance, 7 emiautofind – LumaSense Technologies IGA 320/23-LO User Manual

IGA 320/23-LO Operating Manual

Settings / parameter descriptions 20

4.5 Emissivity

For a correct measurement, it is necessary to adjust the emissivity. This emissivity is the

relationship between the emission of a real object and the emission of a blackbody radiation
source (this is an object which absorbs all incoming rays and has an emissivity of 100%) at the
same temperature. Different materials have different emissivities ranging between 0% and
100% (settings at the pyrometer between: 10 and 100%). As such, the emissivity is also
dependent on the surface condition of the material, the spectral range of the pyrometer, and

the measuring temperature. The emissivity setting of the pyrometer has to be adjusted
accordingly. Typical emissivity values of various common materials for the spectral range of the
instrument are listed below. The tolerance of the emissivity values for each material is mainly
dependent on the surface conditions. Rough surfaces have higher emissivities.

Measuring object

Emissivity [%]

(at 2.3 µm)

Measuring object

Emissivity [%]

(at 2.3 µm)

“Black body furnace“

100

Steel, molten

20 to 30

Extruded Aluminum

13

Nickel

15 to 20

Brass

18

Titanium, non-oxidized

50

Brass oxidized (tarnished)

65 to 70

Titanium, oxidized

75 to 80

Copper

5

Molybdenum

10

Copper, oxidized

70 to 80

Molybdenum, oxidized

75 to 80

Inconel

30

Black Carbon

95

Inconel, oxidized

85

Graphite

80 to 90

Oxidized Iron

85 to 90

Stoneware, glazed

60

Steel rolling scale

80 to 88

Porcelain rough

80 to 90

4.6 Transmittance

Measurements through windows slightly attenuates the measuring signal (due to the
transmittance). To obtain correct measuring results, the transmission of the window must be
compensated. Alternatively, the emissivity can be adapted.

4.7 EmiAutoFind

If the true temperature of the measured object is known, you can calculate the emissivity of the
measured object using the Emi: AutoFind function.

4.8 Response time / exposure time (t90)

The exposure time is the time the measured temperature has to be present
after an abrupt change so that the output value of the pyrometer reaches a

given measurement value. The time taken is to reach 90% of the recorded
temperature difference. In the “min” position, the device operates using its
time constant.
The dynamic exposure time adjustment prolongs the exposure time at the
lower range limit, also if t

90

is set to a lower value.

If the maximum value storage is selected and the measuring object has a low emissivity and the

measuring temperature is at the beginning of the range, a higher exposure time must be chosen
to prevent measurement errors. Longer exposure times can be used for the measurement of
objects which have rapidly fluctuating temperatures to achieve constant temperature reading.

Settings:

min

0.01 s
0.05 s
0.25 s

1 s
3 s

10 s