88001K NEWPORT ELECTRONICS, 88001K Datasheet - Page 64

Manufacturer Part Number

88001K

Description

Test Probe

Manufacturer

NEWPORT ELECTRONICS

Datasheet

1.TRIPOD.pdf (78 pages)

Test Probe Functions

Temperature

For Use With

OS530, OS520 Series Handheld Infrared Thermometer

Lead Free Status / RoHS Status

Appendix: How Infrared Thermometry Works

Thermal Radiation

Heat is transferred from all objects via radiation in the form of

electromagnetic waves or by conduction or convection. All objects

having a temperature greater than absolute zero (-459°F, -273°C,

0 K) radiate energy. The thermal energy radiated by an object

increases as the object gets hotter. Measurement of this thermal

energy allows an infrared thermometer to calculate the object’s

temperature if the emissivity (blackness) is known. Generally, it is

convenient to measure the amount of radiated energy in the

infrared part of an object’s radiation spectrum.

Figure A-1 shows a block diagram of an infrared radiation

thermometer. Energy from the object is focused by the lens onto the

detector. As the detector heats up, it sends out an electrical signal,

which in turn is amplified and sent to the circuitry of the

thermometer. The thermometer software then calculates the

temperature of the object.

LENS

OBJECT

AMPLIFIER

DETECTOR

THERMOMETER

CIRCUITRY AND

DISPLAY

SIGNAL OUTPUT TO SERIAL PRINTER

OR PERSONAL COMPUTER

Figure A-1. Infrared Thermometer Block Diagram

A-1