Dot-Pattern Infrared Illuminator for 3D Stereoscopic Imaging
- High-contrast dot-pattern
- High electro-optical efficiency
- Eye-safety with resistive ITO
- Enables fast and accurate depth sensing
- Low power consumption for mobile and wall-plugged platforms
- Ease of implementation on board a variety of platforms such as mobile, IOT and robotics
- Integrated eye-safety
|Field of Illumination||78*60|
|Nominal Output Power [mW]||250|
BELAGO is a proprietary infrared dot-pattern illuminator for stereoscropic imaging platforms with eye-safety feature. It produces a very high-contrast dot pattern that stereo-matching algorithms can use to address low-texture situations and achieve high-accuracy depth maps. An additional benefit of the dot pattern is a reduction of the computational load required to perform the depth calculation.
The BELAGO dot-pattern illuminator is provided in a miniature package that is compatible with standard lead-free reflow processes. As such, it can be successfully used onboard of a great variety of 3D sensing platforms, from mobile to IoT to robotics.
BELAGO emitters produce approximately 5k dots at 940nm.
This product suits for the following applications:
- Active stereo 3D cameras
- Depth sensing cameras
- Industrial, e.g. access control, secure payment station, etc.
The BELICE dot-pattern illuminator is provided in a miniature package that is compatible with standard lead-free reflow processes. As such, it can be successfully used onboard of a great variety of 3D sensing platforms, from mobile to IoT to robotics.
A pair of BELICE-SD emitters produce approximately 10k dots at 850nm. A 940nm version is currently under development.
Based on fast, efficient VCSEL technology, the PMSILPlus devices are optimized to deliver best-in-class performance in 3D sensing applications on a variety of platforms such as mobile, IoT and robotics. The PMSILPlus module includes resistive ITO for eye-safety.
The PMSILPlus modules produce 1W optical output power (CW) at 940nm and are offered with 76*60 FWHM field of illumination.