NeoPhotonics debuts laser and amplifier modules for LiDAR

Created September 15, 2021
Technologies and Products

NeoPhotonics Corporation has launched a tuneable high-power frequency-modulated continuous-wave (FMCW) laser module and high-power semiconductor optical amplifier (SOA) chips. Both components are optimised to enable long range automotive LiDAR and high-resolution industrial sensing applications. The FMCW Laser is C-band tuneable and can be directly modulated to provide >21dBm (126mW) fibre coupled power and a narrow linewidth FMCW optical signal. The SOA chip is designed for integration with Photonic Integrated Circuit (PIC) LiDAR engines and provides >23dBm optical output power.

NeoPhotonics says the new high output power SOAs and FMCW lasers are based on the company’s photonic integration platform and improve sensitivity and range, which enables automotive LiDAR systems to “see” considerably farther than 200 meters, allowing for enhanced safety. Both products operate in the 1550 nm band, which is believed to be more “eye safe”, and are currently being sampled to key customers. In addition, tuneable FMCW laser sources enable LiDARs with configurable operating wavelength thus further enhancing the immunity of coherent LiDARs to external light interference.

Coherent LiDAR, also called FMCW LiDAR, uses coherent technology to greatly increase range and sensitivity by measuring the phase of the reflected light instead of relying only on intensity measurements. Coherent technology was pioneered by NeoPhotonics for communications applications and implemented in PICs using NeoPhotonics Indium Phosphide and Silicon Photonics integration platforms. Coherent LiDAR systems require similar chip-scale manufacturing to reduce costs and enable high volume.

Coherent detection, whether for LiDAR or Communications applications, uses photonic integrated circuits (PICs) to extract phase and amplitude information from the optical signal. Narrow linewidth and low phase noise lasers are required for precise phase measurements and high optical power is required to compensate for optical loss in the Silicon Photonics optical chips and to provide a sufficient return signal from distant objects for efficient detection. NeoPhotonics narrow linewidth laser and SOA can be used together or separately to optimise the LiDAR module performance.

“We are excited to apply our high-volume photonic integration coherent technology, which we have honed for over a decade, to the adjacent market of LiDAR and autonomous vehicles,” said Tim Jenks, Chairman and CEO of NeoPhotonics. “The benefits of coherent technology and the physics enabling it mean we can bring the same benefits to customers in these new markets that we have brought to communications customers for many years,” concluded Jenks.

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This article was written
by Peter Dykes

Peter Dykes is a independent telecoms and technology journalist who has over that last 30 years written for a wide range of B2B publications and companies. A former BT engineer, he specialises in networks and associated support systems. He is currently Editor of Optical Connections.