Special Camera
| Cat | Products Name | Price |
|---|---|---|
| AIMRSE-RV-IC-163 | High Frame Rate Area Scan Vision Device | |
| AIMRSE-RV-IC-164 | High Definition Area Scan Vision Device | |
| AIMRSE-RV-IC-165 | High Speed 3D Linear Imaging Device | |
| AIMRSE-RV-IC-166 | Ultra High Speed 3D Linear Imaging Device | |
| AIMRSE-RV-IC-167 | Professional 3D Linear Imaging Device | |
| AIMRSE-RV-IC-168 | Single Projection Structured Light 3D Unit |
Introduction
Specialty Industrial Cameras are engineered to address imaging challenges that fall outside the capabilities of standard visible-light area or line scan sensors. These cameras utilize advanced sensor materials and optical filtering to capture data in the non-visible spectrum (SWIR, UV, Thermal) or to analyze specific physical properties of light, such as polarization. Designed for complex inspection environments, specialty cameras enable manufacturers to detect sub-surface defects, identify material compositions, and eliminate glare in high-precision robotics and automated quality control systems.
Operational Specializations
1. Spectral Filtering
Utilizes specialized sensor substrates like InGaAs for SWIR or UV-optimized coatings to capture wavelengths between 200nm to 2500nm, invisible to standard CMOS.
2. Polarization Analysis
On-chip directional polarizers (0°, 45°, 90°, 135°) detect light orientation to calculate Stokes parameters, removing reflections or identifying internal stress.
3. Thermal Mapping
Microbolometer sensors detect Long-Wave Infrared (LWIR) radiation, converting thermal energy into temperature-accurate 2D visual maps for heat analysis.
4. Event-Based Triggering
Neuromorphic sensors capture only pixel-level intensity changes asynchronously, enabling ultra-low latency response for high-speed tracking.
Key Technical Specifications
-
InGaAs Sensor Core (SWIR)
High-sensitivity Short-Wave Infrared sensors (900nm - 1700nm) capable of "seeing" through silicon, plastics, and dense vapor. -
On-Pixel Polarizing Filters
Integrated wire-grid polarizers eliminate the need for external rotating filters, enabling real-time stress and scratch detection on transparent surfaces. -
UV Sensitivity Enhancement
Back-illuminated sensors with specialized coatings to detect 200nm - 400nm wavelengths for semiconductor mask and wafer inspection. -
Radiometric Accuracy
Precision calibration for thermal cameras providing +/- 2°C accuracy for industrial fire prevention and electronics heat-cycle testing. -
Harsh Environment Housing
Options for IP67/IP69K stainless steel or nitrogen-purged enclosures for operation in explosive, cryogenic, or high-temperature zones. -
Multispectral Capability
Simultaneous capture of multiple discrete spectral bands to identify chemical signatures in food sorting and pharmaceutical verification.
Typical Applications
Semiconductor & SWIR
Utilizing InGaAs sensors to "see" through silicon wafers for internal crack detection, alignment, and sub-surface defect inspection invisible to standard CMOS sensors.
Polarization Analysis
Detecting internal stress in glass and plastics while eliminating blinding surface reflections, essential for high-precision inspection of transparent or highly reflective parts.
Thermal & Heat Mapping
Precision radiometric imaging for predictive maintenance and electronics testing, identifying critical hot-spots with accurate 2D temperature distribution maps.
Engineering Excellence
We master the invisible through advanced spectral engineering. By leveraging specialized sensor substrates and precision optical filtering, our specialty cameras unlock data in the UV, SWIR, and Thermal bands, solving the most complex imaging challenges beyond the visible spectrum.
Interface & Environmental Standards
Our specialty cameras are designed for integration into both laboratory research and rugged factory environments:
- Transmission: GigE Vision (Long-distance facility monitoring), USB3 (Scientific research), and CXP (Deterministic high-speed).
- Precision: EMVA 1288 certified sensors ensuring consistent signal-to-noise ratios and quantum efficiency in low-light spectral bands.
Advanced Software & Consultation
Beyond standard imaging, we provide the tools needed to interpret non-visible data and the physical properties of light:
- Custom SDKs for spectral signature identification and radiometric thermal trend analysis.
- Direct compatibility with professional vision libraries like HALCON and VisionPro for multi-spectral data fusion.
- One-on-one consultation with applications engineers for unique optical and spectral challenges.
Related Products
Technical data represent typical values. As applications vary, we recommend consulting our technical team to ensure the best fit for your specific requirements.
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