The ILLUCO IDS‑9100 dermatoscope is a high‑end skin examination device designed to provide extremely precise visualization of pigmented and vascular structures. Thanks to its LED lighting system combining polarized modes and UV, its x12 optical magnification, and its exceptional color fidelity, it enables reliable dermatological assessment, even for the most subtle lesions. Its full‑metal construction, medical‑grade ergonomics, and smartphone compatibility make it an outstanding tool for dermatologists, general practitioners, and specialists involved in skin‑disease screening.
Main features
Premium professional optics providing accurate observation of superficial and deep skin structures.
Versatile lighting with cross‑polarized, parallel‑polarized, and UV modes, facilitating the diagnosis of pigmented, infectious, or vascular lesions.
High‑fidelity color rendering, ensuring rigorous evaluation of skin tone and contrast.
Simplified digital dermoscopy using a magnetic adapter for smartphone or tablet image capture and archiving.
Professional durability thanks to a full‑metal chassis designed to last.
Optimized autonomy with intelligent power management and charge‑status indicators.
Technical specifications
Optical magnification: x12
Field of view: 20 mm
Resolution: 80 LP
Optical distortion: 4%
Lighting: 16 white LEDs + 4 UV LEDs (365–380 nm)
Brightness levels: 4
Measurement scale: 10 mm integrated
Dimensions: 16.9 × 5.8 × 3.57 cm
Weight: 306 g
Battery: 3,500 mAh lithium‑ion (USB‑C)
Runtime: 214 minutes (≈ 3 h 35)
Medical class: Class I – compliant with MDR 2017/745
The ILLUCO IDS‑9100 is a highly efficient dermatoscope combining optical precision, advanced lighting, robust metal design, and digital compatibility. It represents a reliable and durable investment for professionals seeking a versatile, accurate, and modern dermoscopy solution suitable for clinical dermatology, early detection, and long‑term monitoring of skin lesions.
The ILLUCO IDS-9100 dermatoscope offers 12x magnification, polarized LED and UV illumination, and high-precision optics, enabling reliable and detailed dermatological analysis of skin lesions.