Unique Photonic Circuits Power Ommatidia’s Parallel Laser RADAR

29 January 2025

World's First PIC-based Massively Parallel FMWC Laser RADAR brings the long-awaited revolution in vibrometry & 3D metrology

In today’s fast-evolving world of measurement tools, achieving accuracies within tens of microns and efficiently scanning large, complex structures has become essential for industries like automotive, aviation, and civil engineering. To address the growing demand for faster and more precise vibrometers and metrology scanners, Ommatidia has developed the world's first massively parallel FMCW Laser RADAR powered by photonic integrated circuits (PICs).

Photonic Integrated Circuits & Massively Parallel Laser

This patented technology enables Ommatidia's laser radars to measure up to 128 channels simultaneously, representing a dramatic improvement over traditional methods that rely on single-channel systems, such as Laser RADARs, Laser Doppler Vibrometers (LDVs), LiDARs, conventional surveying equipment or optical measurement tools.

Interferometry and Laser Doppler Vibrometry

The mix of photonic integrated circuits and massively parallel Laser RADAR sets a new standard in metrology and measurement tools. Consequently, from frequency response function studies to using vibration analysis to test new equipment, Ommatidia’s technology provides unmatched value. By combining interferometry with laser doppler vibrometer technology in a single tool, the Q-series systems measures vibrations and movements with micrometer-level precision. This unique approach ensures reliable data for uses non-destructive testing (NDT) for structural health monitoring (SHM), condition monitoring, operational modal analysis, and beyond.

Our Q1 and Q2 systems lead the way, giving engineers and researchers tools to tackle challenges in vibration equipment analysis, optical metrology, and beyond. Whether you’re working on aeroelasticity in aerospace or ensuring structural integrity in civil engineering, Ommatidia’s Laser RADAR offers the precision, speed, and adaptability you need.

What Makes Ommatidia’s Laser RADAR Special?

Traditional lidar scanners and laser measuring tools rely on single-beam systems, which, while effective, can be slow and less accurate in tough conditions. In contrary to this traditional approach, Ommatidia’s system utilizes the Massively Parallel Laser RADAR that propagates the FMWC laser via up to 128 parallel laser beams simultaneously enabling collect data over large areas faster than ever. This greatly reduces the time needed for tasks like vibration testing and 3D laser scanning, while keeping high accuracy.

Our advanced technology solves challenges in tasks ranging from 3D laser scanning to structural health monitoring. It offers speed, precision, and flexibility, opening new possibilities for measurement solutions. This post explains the main features, and benefits of our PIC-based Laser RADAR systems, and compares them to traditional 3D scanner, vibration analysis equipment, and laser vibrometers to show relevance.

Why Photonic Integrated Circuits Are Valuable

Photonic integrated circuits (PICs) are a groundbreaking technology that changes how optical systems work in industrial settings. Therefore, here’s why PICs make Ommatidia’s Laser RADAR better:

  1. Compact Design:

    • PICs combine multiple optical parts on one chip, making systems smaller and lighter. This makes them easy to move and set up in tight spaces.

  2. Energy Efficiency:

    • PICs use less power than older systems, making them cost-effective for long-term use. This is especially helpful for remote monitoring jobs like wind turbine maintenance.

  3. High Reliability:

    • Fewer moving parts mean less wear and tear, leading to longer use and fewer repairs.

  4. Faster Data Processing:

    • PICs handle data quickly, giving real-time results that are important for tasks like machine condition monitoring.

  5. Scalability:

    • PICs allow systems to grow in size or capability easily, making them adaptable to various project needs.

 

Why Choose Ommatidia’s Laser RADAR?

1

Non-Contact Measurement: Keeps workers safe in dangerous areas where traditional tools like accelerometer sensors don’t work.

2

Reliable Data: Advanced processing reduces noise for clear insights, perfect for machine condition monitoring.

3

Easy Integration: Works with existing systems like laser trackers and robotic total stations, fitting into current workflows.

4

Future-Ready: Built with PICs, our systems can adapt as industry needs change.


Ommatidia’s Laser RADAR systems are more than tools—they’re solutions designed for today’s industries. 

Revolutionizing Vibration Measurements & 3D Metrology with Photonic Innovation

Contact us to to learn more about Ommatidia’s Laser RADAR technology, its uses, and potential for application in your field. At Ommatidia we push the boundaries of what’s possible in measurement and analysis.