The Thermal 320 is a professional-grade radiometric Long-Wave Infrared (LWIR) thermal camera engineered for precision thermography and systems integration. The system’s visual identity is defined by a minimalist "P" logo centered within a sunburst pattern. From a hardware perspective, the unit is distinguished by four orange quadrant markers on the lens bezel, which serve as a functional visual identifier for the Radiometric Version of the system. At its core, the device integrates the Teledyne FLIR Boson 320 Radiometric Thermal Camera Core, a high-performance imaging engine that enables per-pixel temperature data extraction.
2. Imaging Performance and Sensor Specifications
The Thermal 320 utilizes a high-resolution focal plane array designed to provide the high-spatial resolution required for localized temperature attribution and detailed thermal analysis.
* Resolution: 320x256 pixels.
* Pixel Density: 81,920 active pixels of calibrated thermal data.
* Sensor Type: Uncooled 12 µm pixel pitch VOx (Vanadium Oxide) microbolometer.
* Frame Rate: Up to 60 frames per second (fps) for fluid motion capture and real-time monitoring.
3. Optical and Thermal Measurement Capabilities
The system is engineered for thermal stability across a broad scene temperature envelope. As a radiometric-grade instrument, the Thermal 320 captures absolute temperature data for every pixel in the array, justifying its application in critical inspection and research environments.
Extreme Temperature Range: The system is capable of measuring scene temperatures ranging from -10°C to +400°C.
This specific configuration is the Short Lens Version, featuring high-quality optics with the following parameters:
* Focal Length: 4.5mm (physically engraved on the lens bezel alongside the "FLIR" manufacturer mark).
* Horizontal Field of View (HFoV): 50°.
The Thermal 320 is a professional-grade radiometric Long-Wave Infrared (LWIR) thermal camera engineered for precision thermography and systems integration. The system’s visual identity is defined by a minimalist "P" logo centered within a sunburst pattern. From a hardware perspective, the unit is distinguished by four orange quadrant markers on the lens bezel, which serve as a functional visual identifier for the Radiometric Version of the system. At its core, the device integrates the Teledyne FLIR Boson 320 Radiometric Thermal Camera Core, a high-performance imaging engine that enables per-pixel temperature data extraction.
2. Imaging Performance and Sensor Specifications
The Thermal 320 utilizes a high-resolution focal plane array designed to provide the high-spatial resolution required for localized temperature attribution and detailed thermal analysis.
* Resolution: 320x256 pixels.
* Pixel Density: 81,920 active pixels of calibrated thermal data.
* Sensor Type: Uncooled 12 µm pixel pitch VOx (Vanadium Oxide) microbolometer.
* Frame Rate: Up to 60 frames per second (fps) for fluid motion capture and real-time monitoring.
3. Optical and Thermal Measurement Capabilities
The system is engineered for thermal stability across a broad scene temperature envelope. As a radiometric-grade instrument, the Thermal 320 captures absolute temperature data for every pixel in the array, justifying its application in critical inspection and research environments.
Extreme Temperature Range: The system is capable of measuring scene temperatures ranging from -10°C to +400°C.
This specific configuration is the Short Lens Version, featuring high-quality optics with the following parameters:
* Focal Length: 4.5mm (physically engraved on the lens bezel alongside the "FLIR" manufacturer mark).
* Horizontal Field of View (HFoV): 95°.
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