Series LPE2
Series LPF2
Series FPB1
Series FPC1
Series LSA1
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Series LPE2
This Series LPE2 3D camera offers plug-and-play deployment with no external controller needed. It captures high-precision scans (3,200 X-axis points) at 18 kHz for fast, detailed measurements. Built with HDR, anti-vibration correction, and adaptive algorithms, it handles complex surfaces and backgrounds effortlessly. Fully compatible with OPT’s SmartWorks platform, it enables no-code 3D application setup. Compliant with GigE Vision 2.0, GenICam, EMC, and RoHS, it’s a cost-effective, industrial-grade solution for rapid scanning.
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Series LPF2
The Series LPF2 of the OPT 3D laser profilers operate independently, featuring a Gigabit Ethernet interface (100m range). With high-speed CMOS, they handle various materials and achieve ultra-fast scanning. Equipped with a 3,200-pixel adaptive blue laser, they provide precise contour reconstruction. Factory-calibrated for accuracy, they comply with GigE Vision V2.0, GenICam, EMC, and ROHS standards.
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Series FPB1
The Series FPB1 of the OPT 3D laser profilers operate independently without an external controller, ensuring easy integration. Featuring Gigabit Ethernet (100m range) and high-speed CMOS, they adapt to various materials. A 3,200-pixel blue laser module enables ultra-high-speed scanning. Factory-calibrated for accuracy, they comply with GigE Vision V2.0, GenICam, EMC, and ROHS standards.
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Series FPC1
Factory-calibrated cameras enable quick installation. The built-in chip and FPGA platform deliver fast, accurate 3D point cloud output. DLP chips and structured light projection capture clear images in one shot, boosting throughput. OPT's Smart3 platform offers no-code programming for fast 3D deployment, ensuring high frame rates, precision, and light resistance.
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Series LSA1
This series delivers high-speed imaging, an ultra-wide view, and extended focus range, with strong performance even in low light. It features a built-in processing chip and compact design, working with an FPGA edge computing platform to quickly generate high-precision 3D point clouds for fast, accurate imaging.
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