88013K NEWPORT ELECTRONICS, 88013K Datasheet - Page 67
88013K
Manufacturer Part Number
88013K
Description
Test Probe
Manufacturer
NEWPORT ELECTRONICS
Datasheet
1.TRIPOD.pdf
(78 pages)
Specifications of 88013K
Test Probe Functions
Temperature
For Use With
OS530, OS520 Series Handheld Infrared Thermometer
Lead Free Status / RoHS Status
na
Optics Field of View
A-4
A
Appendix: How Infrared Thermometry Works
Accurate measurement of temperature via infrared means depends
strongly on the size of the object and the distance between the
thermometer and the object. All optical devices (e.g. cameras,
microscopes, infrared thermometers) have an angle of vision,
known as a field of view or FOV, within which they see all objects.
In particular, the thermometer will measure a fixed proportion of
the energy radiated by all objects within its FOV. The user must
guarantee that the distance between the thermometer and the object
is defined so that only that object fills the FOV of the instrument.
Referring to Figure A-3, Objects “X” and “Y” are within the FOV of
the thermometer. The measured temperature would fall somewhere
between the actual temperatures of the two objects. In order to
measure the temperature of Object “X” accurately, Object “Y”
would need to be removed. In order to measure the temperature of
Object “Y” accurately, the user would need to move closer to Object
“Y” until it completely filled the FOV of the thermometer.
Alternatively, the user could measure the temperature of Object “Y”
with a thermometer with a smaller FOV.
The distance-to-spot size ratio (
Thus, a
distance of 10 feet. For accurate spot size values, refer to the Field of
View diagrams shown in Figures 2-4 through 2-6.
D
⁄
S
Figure A-3. Field of View of a Thermometer
= 10 gives you approximately a 1 foot spot size at a
ANGLE
FOV
DISTANCE
D
⁄
S
) defines the field of view (FOV).
OBJECT "Y"
SPOT
SIZE
OBJECT "X"