Thermal Resolution
All articles filed under Thermal Resolution — 9 articles.
How Much Does an Infrared Camera Core Cost?
Infrared camera core cost depends on detector type, resolution, pixel pitch, lens, algorithms, and volume. See 2026 price ranges and buying tips.
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Why Can Two 640 Infrared Cores Deliver Very Different Image Quality?
Why a 640 infrared core can vary widely in image quality, from NETD and pixel pitch to optics, NUC, image processing, and thermal design.
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Does a Longer Infrared Lens Focal Length Always See Farther?
Infrared lens focal length alone does not define range. Learn how IFOV, pixel pitch, F-number, resolution, atmosphere, target size shape imaging.
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How Big Is the Difference Between a 640 Infrared Core and a 1280 Infrared Core?
640 infrared core vs 1280 infrared core: compare pixels, field detail, optics, bandwidth, AI detection, cost, and when each choice makes sense.
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640×512 vs 1280×1024 Thermal Camera Cores
Compare 640×512 vs 1280×1024 thermal camera cores for OEM imaging, including pixel count, optics, data rate, SWaP, and use cases.
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What Pitfalls Should You Avoid When Buying Infrared Camera Cores?
Infrared camera core procurement guide covering resolution, NETD, frame rate, interfaces, calibration, drift, delivery, and lifecycle risks.
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What Specifications Matter When Buying an IR Camera Core?
IR camera core buying guide: 5 key parameters covering waveband, resolution, NETD sensitivity, frame rate, interface, and cooled vs. uncooled trade-offs.
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How to Choose a Thermal Camera Core for OEM Integration
Select the right thermal camera core for OEM integration: compare LWIR vs MWIR, resolution, pixel pitch, cooling trade-offs, and interface requirements.
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How to Select the Right Infrared Detector Format for Your System
A practical guide to choosing infrared detector resolution, pixel pitch, and format for EO/IR system designers — from 320×256 to 1280×1024.
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