The FLIR A6700 MWIR camera is a cutting-edge, science-grade midwave infrared (MWIR) camera designed for precision thermal imaging. With a 640×512 InSb detector and a spectral range of 1.0–5.0 µm, it delivers crisp, high-resolution 327,680-pixel images. Ideal for electronics inspections, scientific research, and non-destructive testing, its fast integration times (480 ns to full frame) and snapshot mode ensure accurate temperature measurements for high-speed thermal events. The camera supports programmable frame rates up to 60 Hz (full window) and offers flexible video interfaces, including Gigabit Ethernet and SDI, for seamless data streaming and recording.
Key Features
- High-Resolution Imaging: 640×512 InSb detector for detailed 327,680-pixel thermal images.
- Wide Spectral Range: Operates in 1.0–5.0 µm, ideal for diverse thermal applications.
- Fast Integration Times: 480 ns to full frame for precise temperature measurements.
- Snapshot Mode: Captures all pixels simultaneously, perfect for fast-moving objects.
- Programmable Frame Rates: Adjustable from 0.0015 Hz to 60 Hz for versatile imaging.
- High Thermal Sensitivity: ≤25 mK NETD for detecting minute temperature differences.
- Flexible Video Interfaces: Simultaneous Gigabit Ethernet and SDI for recording/display.
- Wide Temperature Range: Measures -20°C to 300°C, with optional ranges up to 3000°C.
- Manual Focus Lenses: Available in 25 mm, 50 mm, and 100 mm for application-specific imaging.
- Compact Design: 226x102x109 mm size for easy integration into various setups.
Applications
The FLIR A6700 MWIR camera is a vital tool for defense and aerospace industries. Its high-resolution imaging and fast integration times make it ideal for thermal analysis of missile guidance systems, ensuring accurate performance under extreme conditions. In aerospace, it supports non-destructive testing of composite materials, detecting defects in aircraft components. The camera’s ability to measure temperatures up to 3000°C is perfect for evaluating heat shields and propulsion systems. Its snapshot mode aids in capturing transient thermal events in weapon systems, while Gigabit Ethernet enables real-time data analysis for mission-critical applications, enhancing reliability and safety.
