Velodyne’s H800 LiDAR: Noteworthy Progress in Integration Practices, Based on VCSEL and Laser Technologies

This market research report was originally published at the Yole Group’s website. It is reprinted here with the permission of the Yole Group. Compact enough to be integrated into the cabin of a car – such as within the windshield –  Velodyne’s Velarray H800 is the first lidar system that integrates two illumination modules for … Velodyne’s H800 LiDAR: Noteworthy Progress in Integration Practices, Based on VCSEL and Laser Technologies Read More + The post Velodyne’s H800 LiDAR: Noteworthy Progress in Integration Practices, Based on VCSEL and Laser Technologies appeared first on Edge AI and Vision Alliance.

May 10, 2023 - 10:04
Jan 28, 2024 - 09:38
 0
Velodyne’s H800 LiDAR: Noteworthy Progress in Integration Practices, Based on VCSEL and Laser Technologies
Techatty All-in-1 Publishing
Techatty All-in-1 Publishing

This market research report was originally published at the Yole Group’s website. It is reprinted here with the permission of the Yole Group.

Compact enough to be integrated into the cabin of a car – such as within the windshield –  Velodyne’s Velarray H800 is the first lidar system that integrates two illumination modules for both short- and long-range measurements in the same unit.

Launched in 2020, the H800 combines velodyne’s micro-lidar array (MLA) with a VCSEL-based near illumination module to cover distances from 10 centimetres to 200 metres – all within a device measuring just 180 x 55 x 90mm and marketed at $500. This achievement demands cutting edge innovation and clever integration, which Yole Group experts explore in their latest report.

Talk to Techatty
Talk to Techatty

Therefore, this article is based on the latest LiDAR analysis proposed by Yole SystemPlus, part of Yole Group: Velodyne Short and Long Range Lidar with VCSEL and EEL. The report, provides physical analysis and cost estimations for the MLA and near-illumination modules, and details the following components: EELs, photodiodes, MEMS beamsplitter, lens, GaN driver IC, PCB and ceramic substrate, and assembly of the MLA module.

Long range detection with the micro lidar array

The measurement of obstacles at long range, up to 200m, is enabled by Velodyne’s MLA engine. The MLA measures just 14.1mm x 8.9mm x 2.05mm and contains eight edge emitting lasers (EELs), eight photodiodes and optical elements that are all assembled on the same substrate.

The EPC2715, a gallium nitride (GaN) lidar driver, generates the pulse of current for two EELs that transfer the electricity into light pulses. The power GaN transistors and the monolithic gate drivers are integrated onto the same die, which negates the need for an additional electrical component to control two lasers. This technology is specific to EPC, which designs the GaN die that is manufactured by Episil Technologies Inc.

The GaN transistor is also beneficial as it allows the generation of ultra short pulses, which is highly necessary because of the minimal space between the GaN lidar driver and other optical components – and much more difficult to achieve using silicon.

The light pulse generated by the lasers is then sent through a MEMS based beam splitter that allows the light to pass. The beamsplitter is an innovative Velodyne-specific component based on MEMS technology that enables integration at a very close distance to the lasers, lens and photodiodes.

A dual axis oscillating mirror integrated outside of the illumination module deflects the laser beam through an emitting lens, and receives the returned echoes through a condenser lens. The dual-axis mirror is the first such mirror to be used in an automotive lidar system and is smaller than the more commonly seen rotating mirrors. The returned light is then sent towards the mirror side of the beam splitter, which directs the light toward the silicon avalanche photodiode (APD) where the light is converted to electrical current. The duration between the pulse transmission and the detection gives the distance between the lidar and the obstacle.

Talk to Techatty
Talk to Techatty

VCSEL-based near illumination module

While Velodyne’s integration within the long-range illumination module is highly innovative, the true cutting-edge element exists within the near-field illumination module. The system employs similar technology as seen in Apple’s facial recognition software, but at much higher powers, and is the first VCSEL-based system to exist in an automotive setting.

The VCSEL-based module sits on a PCB above the long-range illumination module. It overcomes the difficulties in detecting obstacles at short range with traditional EEL-based systems and allows measurements from 10cm to 20m.

The VCSEL pulses are generated by four VCSEL dies assembled in parallel on a PCB. A diffractive optical element (DOE), the similar component used in Apple’s iPhone lidar, creates a structured light dot pattern. The returned echo pulses received by the dual axis oscillating mirror are then sent towards the photodiodes in the MLA. The same eight photodiodes are used to detect the echo from the EELs and the VCSELs, requiring extremely precise alignment of the optical elements.

To generate the high-power light needed to emit light further than VCSELs used in smartphones, the VCSEL dies use a five-junction emission structure – the first company to adopt this design. In general, VCSELs generate light from a single layer, but stacking multiple junctions allows VCSELs to better amplify optical power, increasing gain. This is because fewer distributed Bragg reflector layers need to be deposited on the VCSEL to trap light and enable laser gain. Fewer layers lower the internal resistance, and subsequently boosts efficiency. This, in turn, reduces the electrical power needed to attain a particular optical power.

Velodyne uses the OSRAM 5J multijunction VCSEL 905nm, which uses dies from US-headquartered Vixar, the first company to commercialise multi-junction VCSEL technology and a subsidiary of OSRAM. The dies measure 0.78mm x 0.78mm x 0.11mm.

Multi-junction VCSEL technology has only recently become available because it requires epitaxially fabricating low resistance, low optical loss tunnel junctions that connect each junction. But as demand for higher power, more efficient VCSELs increased, Ams Osram built this capacity.

This innovative technology opens the doors for creating much more powerful illumination profiles at a reduced size, which could have implications for other applications. Will we see this technology within smartphones in the future?

As vehicle manufacturers demand smaller, aesthetic systems that match the sleek look of their cars, lidar manufacturers are demanding innovative components while finding new ways to integrate them. A more efficient dual-axis oscillating mirror, a MEMs-based beam splitter, multijunction VCSEL dies, and the same photodiode detection of light from both illumination systems are just a few of the innovations that have enabled Velodyne to take a massive step in this direction. In the near future, we could see Velodyne branch out into other applications where size and aesthetic are important, such as robotics.

Download Yole SystemPlus’s report to determine the structure and manufacturing processes of these components through a more detailed physical analysis, including teardown, cross-sectional analysis, circuit delayering, and scanning electron microscopy.

Yole SystemPlus and Yole Group are following the latest innovations and deliver their vision through a wide range or articles and interviews.

Stay tuned with the coming Technical Insights!

Sylvain Hallereau
Principal Technology and Cost Analyst, Yole SystemPlus (part of the Yole Group)

Pierrick Boulay
Senior Technology and Market Analyst, Photonics and Sensing Division, Yole Intelligence (part of the Yole Group)

The post Velodyne’s H800 LiDAR: Noteworthy Progress in Integration Practices, Based on VCSEL and Laser Technologies appeared first on Edge AI and Vision Alliance.

Techatty Connecting the world of tech differently! Read. Write. Learn. Thrive. Make an informed decision without distractions. We are building tech media and publication networks to connect YOU and everyone to reliable information, opportunities, and resources to achieve greater success.
Web and Cloud LLC - talk to us and let's discuss your needs.
Let's help transform your business