indie Semiconductor and SiLC Technologies Partner to Deliver FMCW Lidar

The jointly developed reference platform integrates indie's Surya SoC and SiLC's Eyeonic sensor.

SiLC Technologies

indie and SiLC have reduced FMCW lidar size, power consumption, and cost.
indie and SiLC said their collaboration will yield 10x performance, power, and cost over existing lidar sensors for autonomous vehicles.

indie Semiconductor and SiLC Technologies Inc. today said they have formed a strategic technology partnership to offer integrated frequency modulated continuous wave, or FMCW, lidar sensors. The companies said their jointly developed platform can be used in applications including driver assistance, autonomous mobility, robotics, and industrial automation.

“We are excited to partner with indie to bring industry-leading FMCW-based LiDAR platforms to market,” stated Ralf Muenster, vice president of business development and marketing at SiLC. “Our state-of-the-art FMCW lidar sensor features the highest integration, resolution, precision, and longest range of any other competing approach, while remaining the only commercially available solution to offer polarization information.”

“At CES last year, SiLC showed Eyeonic's 1,250 m [4,101 ft.] range, and this year, we created 3D lidar portraits of our guests with an indie evaluation board,” he told Robotics 24/7. “Eight months later, we're announcing our partnership and have designed boards that can reduce cost, power, and size tenfold.”

How indie and SiLC reference platform works

Components of SiLC and indie's jointly developed platform. Click on image to enlarge. Source: SiLC Technologies

FMCW is superior to ToF, says SiLC

Founded in 2018 by silicon photonics industry veterans, SiLC said it has developed “the industry's only fully integrated FMCW 4D imaging chip.” The Monrovia, Calif.-based startup said its Eyeonic chip integrates all photonics functions needed to enable a coherent vision sensor.

FMCW-based lidar is superior to direct detection-based time-of-flight (ToF) sensors, assserted Muenster. He cited its long-range perception with high precision, immunity to interference, and ability to provide per-point instantaneous velocity and motion measurement.

“Current lidar is suboptimal—it's prone to multi-user interference, needs high wattage, and has a large form factor, so it's not scalable to mass-market deployment,” said Muenster. “We know the limits of ToF, and FMCW is becoming standard. It's the same as with radar, which was first pulsed and is now coherent.”

“SiLC has a unique business model in that we're building a semiconductor, not a lidar box for one application or vertical,” he said. “We're kicking out our 14th generation chip in five years, and our FMCW consumes only 5 watts.”

SiLC added that its machine vision advances are targeted at large-scale adoption in markets including robotics, industrial inspection, and security. The company has raised about $56 million to date from investors including Dell Technology Capital, Sony Innovation Fund by IGV, FLUXUNIT – ams OSRAM Ventures, UMC Capital, Alter Ventures, and Epson.

Potential benefits of FMCW lidar

The compact vision platform promises several benefits to automakers and robot developers. Click on image to enlarge. Source: SiLC Technologies

indie brings integrated vision to automotive market

indie develops high-performance and energy-efficient semiconductors and software platforms for advanced driver-assist systems (ADAS), user experience (UX), and electrification applications. The Aliso Viejo, Calif.-based company added that its mixed-signal system on chips (SoCs) enable edge sensors including radar, lidar, ultrasound, and computer vision.

In addition, indie said its embedded system control, power management, and interfacing systems could transform the in-cabin experience and accelerate increasingly automated and electrified vehicles.

indie and SiLC said they are creating integrated vision systems that “enable an order-of-magnitude improvement in sensing performance, manufacturability, power consumption, form factor, and cost relative to competing systems.”

“With less power cost and four channels, we have a higher processing level and point-cloud density, and scaling is easier,” said Muenster. “Lidar is finally taking off in automotive—not just for autonomous vehicles, but in ADAS, which is currently in more vehicles. Once FMCW is widely available, there's no going back.”

Select automotive OEMs and Tier 1 suppliers are already evaluating reference platforms using SiLC Eyeonic and indie's Surya SoC. The companies said they are also developing new reference platforms to showcase the scalability and flexibility of their combined technologies.

“By combining the software-defined high-performance—but low-power—analog and digital processing and system-control capabilities of Surya, coupled with SiLC’s Eyeonic vision solution, system integrators and OEMs are enabled with 4D FMCW imaging for mass-market deployment into multiple applications,” said Chet Babla, senior vice president for strategic marketing at indie.

indie's mixed-signal SoCs enable edge sensors spanning radar, lidar, ultrasound, and computer vision, while its embedded system control, power management and interfacing systems transform the in-cabin experience and accelerate increasingly automated and electrified vehicles.

About the Author

Eugene Demaitre's avatar
Eugene Demaitre
Eugene Demaitre was editorial director of Robotics 24/7. Prior to joining Peerless Media, he was a senior editor at Robotics Business Review and The Robot Report. Demaitre has also worked for BNA (now part of Bloomberg), Computerworld, and TechTarget. He has participated in numerous robotics-related webinars, podcasts, and events worldwide.
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SiLC Technologies

indie and SiLC have reduced FMCW lidar size, power consumption, and cost.

Robot Technologies