The EGA2000 flood illuminators are designed to help industrial manufacturers develop new and innovative applications for robots, cobots, autonomous guided vehicles, and smart devices that perform 2D and 3D optical sensing. The new EGA2000 flood illuminators, says the company, provide a uniform, tightly controlled and high-output power illumination that is essential for evolving applications using ranging, object detection, and face recognition, which use 2D and even the more sophisticated 3D sensing techniques based on Time-of-Flight (ToF) or Stereo Vision (SV).
"The rate of innovation in markets such as logistics and warehousing, home and building automation, and Industry 4.0 is remarkable," says Markus Luidolt, Senior Marketing Director for 3D Sensing Modules and Solutions at ams. "A mass market is emerging for new product categories such as home cleaning robots, cobots to assist human factory operators, and AGVs to replace conventional forklift trucks in warehouses."
"The superior optical performance of the EGA2000 family and the range of options which it provides will help industrial companies to achieve more reliable ranging and depth mapping, speeding the go-to-market with fewer design iterations and less system debugging," says Luidolt. "Furthermore, to support customers' R&D investments in industrial products serving a wide range of challenging applications, the EGA product family is designed for long-term availability."
The implementation of 3D sensing, says the company, is now emerging in the industrial mass market as a successful technique for applications such as:
- Object dimension detection in robotics
- 3D mapping of the environment supporting the operation of autonomous guided vehicles (AGVs), including automatic vacuum cleaners and lawnmowers
- Face recognition in industrial systems such as e-payment kiosks and smart locks
- Night vision cameras
Matching the micro-optics to suit the characteristics of the VCSEL emitter, the EGA2000 illuminators produce a uniform beam, which has a homogeneous rectangular profile. This tightly controlled illumination profile and Field of Illumination (FoI) match the field of view of the IR image sensors used in 2D and