Product Introduction | ATH6100 Portable Hyperspectral Imaging System

Bulky equipment, complex deployment and calibration?

High professional requirements for operators, difficult to get started quickly?

Different application scenarios require different configurations, leading to high repeated investment costs and low efficiency?

Optosky introduces the ATH6100 Built‑in Push‑broom Portable Hyperspectral Imaging System. With a highly integrated design that consolidates optics, sensing, and processing units, it achieves ready‑to‑use deployment, lowering the barrier to professional imaging. Combining a lightweight body with laboratory‑grade imaging quality, it makes hyperspectral analysis more efficient and accessible, suitable for scientific research, industry, cultural heritage conservation, agriculture, and more.

01   Product Performance and Advantages

• Integrated Built‑in Push‑broom Design: Truly Portable Hyperspectral Application

Utilizing a built‑in push‑broom imaging structure, it highly integrates the scanning mechanism, spectral imaging, and control system, enabling hyperspectral scanning without complex external devices, greatly simplifying deployment and suitable for rapid application in both laboratory and field environments.

• High‑Resolution Imaging: Simultaneous Spatial and Spectral Information

Balancing high spatial resolution and high spectral resolution, it captures both morphological information and compositional characteristics of the target in a single image, providing a reliable data foundation for detailed analysis and differentiation.

• Stable and Reliable Optical System: Ensuring Data Consistency and Repeatability

Based on high‑transmittance optical design and low‑noise detectors, the ATH6100 maintains stable output even under complex lighting conditions, significantly improving data repeatability and long‑term operational reliability, meeting the demands of scientific research applications.

• Modular Band Configuration: Flexible Adaptation to Various Application Needs

Supports multiple band configurations including visible and near‑infrared, with expansion capabilities, allowing flexible selection according to different research directions and application scenarios, reducing repeated procurement investment and improving equipment utilization efficiency.

• Intelligent Software Platform: Lowering the Barrier, Improving Analysis Efficiency

The accompanying software supports automatic calibration, real‑time preview, and visual analysis. With an intuitive interface and streamlined design, it reduces reliance on the operator's professional background, enabling quick start and efficient use.

02 Configurable Options Covering Different Spectral Ranges

No.	Specification	ATH6100	ATH6100-17	ATH6100-25	ATH6100-4-17
1	Spectral Range	400~1000nm	900~1700nm	1200~2500nm	400~1700nm
2	Spectral Resolution	Better than 1.3nm	Better than 4.5nm	Better than 8nm	Vis-NIR: Better than 1.3nm SWIR: Better than 4.5nm
3	Max. Spatial Channels	1200	512	512	1200
4	Max. Spectral Channels	1920	640	640	2560
5	Dynamic Range	12bit	16bit	16bit	Vis-NIR: 12bit SWIR: 16bit
6	Imaging Lens*¹	Manual focus (auto-focus optional)	IR-enhanced lens (auto-focus optional)	IR-enhanced lens (auto-focus optional)	IR-enhanced lens (auto-focus optional)
7	Li-ion Battery Life	>3h	>2.5h	>2.5h	>2.5h
8	Data Interface	USB3.0
9	Power Supply	24VDC, 5A
10	Visible Camera Resolution	>8.0 MP
Notes： *1: The standard imaging lens has a focal length of 35mm; other focal lengths are available as options. *2: This product is independently developed by Optosky. The parameters in the table are for reference only, and other parameters can be customized.

03 Product Parameters

• Built‑in high‑capacity lithium battery, suitable for field work

• Maximum spectral range: 400–2500 nm (multiple ranges optional)

• Hyperspectral resolution: ≤1.3 nm

• Wide field of view: 23.5°@f=25mm (depends on objective lens)

• Optional autofocus system

• Built‑in high‑resolution visible light camera

• Can be controlled via smartphone, iPad, laptop, etc.

• Spatio‑temporal radiation intensity correction technology for improved radiometric calibration accuracy

• Line light source design matched to the linear field of view for maximum light energy utilization

• Automatic integration time recommendation based on sample reflectance

04 A Professional Hyperspectral Imaging Tool for Non‑Destructive Cultural Heritage Analysis

The ATH6100 Built‑in Push‑broom Portable Hyperspectral Imaging System is specifically designed for non‑contact, non‑destructive testing needs in cultural heritage conservation and research. It captures high‑precision spatial and spectral information without damaging the artifacts, providing reliable support for artifact research and restoration work.

 

For more information, please contact:

Email: optoskyphotonics@gmail.com

Web: www.optosky.net