Scientific Cameras

The interface is flexible, balancing high-speed data transmission and compatibility. It has a full-well capacity of 45000e- and a quantum efficiency of 95%@560nm, with strong weak light detection capability.

It is suitable for scenarios with high requirements for interface flexibility and weak light detection, such as life science microscopic imaging and quantum physics experiments, and can also be integrated into multi-interface optical detection systems.

Large pixel size, outstanding single-photon-level weak light detection capability, good cooling effect, and low dark current noise.

It is mainly used for imaging in extremely weak light environments such as astronomical observation and dark-field microscopy, such as deep-space celestial detection and single-molecule fluorescence detection.

It has a large photosensitive area (22.5mm × 22.5mm), a full well capacity of 80000e⁻, and excellent dynamic range performance. It supports dual optical interfaces and has strong adaptability.

It is suitable for scenarios with high requirements for photosensitive area and interface compatibility, such as semiconductor inspection and industrial vision inspection, including wafer defect detection and large-field imaging.

Supports fan shutdown, suitable for quiet scenarios such as laboratories; 320GB high-speed RAM ensures the data security of long-time recording.

It is applicable to high-precision and high-frame-rate demand fields such as military observation, semiconductor inspection, and top-level PIV experiments.

It achieves a good balance between performance and cost, with strong universality. It supports multi-interface expansion such as 10 Gigabit Ethernet, SDI/HDMI, etc., enabling convenient connection to various scientific research experimental platforms and industrial automation production lines, with excellent integration.

It can be used in scenarios such as analysis of thermal runaway processes of new energy batteries, observation of micro-vibration responses of components in automobile collision tests, and mid-range fluid mechanics turbulence research.

It has an IP64 protection rating and military standard EMC protection, enabling stable operation in complex environments such as industrial sites.

It is suitable for scenarios such as the display of high-speed phenomena in teaching demonstrations, high-speed sorting and identification in basic industrial production lines, and preliminary observation of cell dynamics in the biomedical field.

The fan can be turned off, suitable for quiet scenarios, with 10 Gigabit Ethernet for high-speed data transmission.

It is applied in military testing, semiconductor micron-level detection, and high-end scientific research.

It has outstanding cost performance, multiple interfaces for easy integration, and balances high speed and storage.

It is applied in new energy battery analysis, automobile collision testing, and mid-end scientific research.

Affordable price, long recording duration, and strong environmental adaptability.

Applied in fluid mechanics research, industrial inspection, and basic scientific research.

The lowest price in the series, the longest recording duration, and a low operation threshold.

It is applied to teaching demonstrations, basic industrial testing, and entry-level scientific research.