The Phantom KT810 features the latest back side illuminated (BSI) sensor technology at 1280 x 832-pixel resolution, ensuring optimal response in light-starved conditions. These features make it ideal for advanced high-speed techniques like DIC and industrial material analysis applications.
190 ns* *With FAST option export controlled Min. Exposure
Precision Imaging for High-Speed Research
Engineered for advanced scientific imaging, the KT810 captures 1-Mpx resolution at high frame rates — ideal for analyzing fine details and fast-moving fragments. Its compact 3.2-kg build reduces setup complexity, making it perfect for tight lab spaces and intricate experimental configurations.
Seamless integration: Programmable I/O capabilities let you customize triggering and synchronization precisely to your research needs.
Premium features: Capture remarkable detail with Extreme Dynamic Range (EDR) that effectively manages pixel saturation for luminous events.
Streamlined workflow: Save time with image-based auto-trigger (IBAT), multi-Cine partitions and continuous recording through PCC software.
Features to Enable Advanced Scientific Applications
Phantom KT-Series cameras come equipped with features that enable portability for remote field work and the connectivity required for both simple and advanced scientific applications in a laboratory or research environment.
Operate remotely in the field: Alternatively, use the camera’s on-camera control interface and save to removable CF-Express cards for a standalone, untethered workflow.
Standard 10Gb Ethernet: Reliably control and efficiently download via PCC software.
Designed for scientific imaging: The KT810 performs exceptionally in advanced scientific applications with limited available light, including stress, strain and impact analysis, material analysis experiments, product drop tests and vibration FFT studies.
Next-Gen Sensor Performance
The KT810’s proprietary sensor technology features a stunning 1280 × 832-pixel resolution BSI sensor where photons have direct access to photodiodes for optimal response in light-starved conditions.
BSI sensor architecture: Achieves a QExFF (Quantum Efficiency × Fill Factor) of 84.6% (mono).
Binned mode: Combines pixels for a frame rate boost and improved aspect ratio at 640 × 384 and below.
Unrivaled performance standards: Comprehensive test reports following the EMVA 1288 standard provide clear verification of the sensor’s superior performance, highlighting the exceptional pixel response in challenging light conditions.