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FLIR T530 User Manual

FLIR T530
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Theory of thermography
36
For highly polished materials ε
λ
approaches zero, so that for a perfectly reflecting material
(i.e. a perfect mirror) we have:
For a graybody radiator, the Stefan-Boltzmann formula becomes:
This states that the total emissive power of a graybody is the same as a blackbody at the
same temperature reduced in proportion to the value of ε from the graybody.
Figure 36.8 Spectral radiant emittance of three types of radiators. 1: Spectral radiant emittance; 2: Wave-
length; 3: Blackbody; 4: Selective radiator; 5: Graybody.
Figure 36.9 Spectral emissivity of three types of radiators. 1: Spectral emissivity; 2: Wavelength; 3: Black-
body; 4: Graybody; 5: Selective radiator.
#T810253; r. AA/42549/42549; en-US
216

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FLIR T530 Specifications

General IconGeneral
Resolution320 x 240 pixels
Thermal Sensitivity< 30 mK
Digital Zoom1-4x continuous
Image ModesThermal, MSX, Picture-in-Picture
StorageSD card
Image Frequency30 Hz
Accuracy±2°C or ±2% of reading
Digital Camera5 MP
Laser Distance MeterYes
Wi-FiYes
Video RecordingYes
Video OutputHDMI
Minimum Focus Distance0.15 m (0.49 ft)
Operating Temperature Range-15°C to 50°C (5°F to 122°F)
Storage Temperature Range-40°C to 70°C (-40°F to 158°F)
Temperature Range0°C to +650°C
Field of View24° × 18°
Display4-inch LCD touchscreen
Battery LifeApprox. 4 hours
FocusContinuous, one-shot contrast, manual
Spectral Range7.5-14 µm
Weight1.3 kg (2.9 lbs)
ConnectivityWi-Fi, USB
Lens Options14°, 24°, 42°

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