Introduction to NS-3600
Featuring a compact, table-top design, the NS-3600 strikes a perfect balance between superior performance and cost-effectiveness. It is ideal for both R&D laboratories and industrial quality control. Developed with Nanoscope Systems' core technology, it delivers crystal-clear 3D imaging even on challenging samples like high-transparency glass or low-reflectivity materials.
Key features
- Non-Destructive 3D Measurement: Contact-free measurement ensuring sample integrity.
- Real-Time Confocal Imaging: High-speed scanning provides instant, high-contrast images.
- Dual Observation Mode: Simultaneous viewing of 2D Bright-field and 3D Confocal images.
- Surface Roughness Analysis: Accurate measurement of Ra, Rz parameters in compliance with ISO standards.
- Intelligent Algorithms: Automatic inclination compensation and auto-gain search.
- Stitching Capability: Automatically merges multiple images for large-area surface analysis.
Typical applications
The NS-3600 is the ultimate solution for measuring microstructures in various industries:
- Semiconductors: IC pattern, Bump height, and CMP process inspection.
- Flat Panel Displays (FPD): Touch screen panels, ITO patterns, and LCD spacers.
- MEMS Devices: 3D structure analysis and surface roughness.
- Materials Science: Tooling inspection, wear analysis, and crack detection.
Technical specifications
| Feature | Detailed Specification |
|---|---|
| Optical System | Pinhole Confocal Optical System |
| Laser Source | Red Laser (638nm) / Violet (Optional) |
| Display Resolution | 0.001 µm |
| Frame Scanning Rate | 20 Hz - 160 Hz |
| Repeatability | σ < 0.010 µm (with 100x lens) |
Frequently asked questions (FAQ)
1. Can the NS-3600 measure transparent materials?
Yes. Thanks to its Confocal technology, the NS-3600 filters out-of-focus light, allowing for sharp 3D reconstruction of glass and transparent polymers.
2. What is the advantage over standard optical microscopes?
The NS-3600 provides precise 3D data such as height and volume, which standard 2D microscopes cannot achieve due to limited depth of field.
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