New Industry Products

125W Infrared Lasers Increase the Range of LiDAR in Autonomous Vehicles

October 18, 2019 by Paul Shepard

OSRAM Opto Semiconductors has introduced the world's first AEC-Q102 qualified four-channel and single-channel pulse lasers. The two new products offer a convincing performance of 125 Watt per channel and an efficiency of up to 33 percent.

The requirements for safety systems in (semi-) autonomous vehicles are complex. They must be reliable, work in all lighting and weather conditions, identify potential hazards and obstacles in time to take appropriate driving decisions. There is now widespread agreement that only a combination of LiDAR, camera & radar is able to fulfill autonomous driving requirements.

Osram introduced the first 905nm laser to the market more than ten years ago. Today it is the most commonly used wavelength in LiDAR solutions. For instance, the 905nm has a significant advantage compared to 1550nm wavelength solutions, especially in terms of total system costs.

A central aspect in terms of safety is the range of the used infrared light source. A powerful laser is required to be able to look as far ahead as possible. Both products showcase an impressive output power of 125 Watt at 40A per channel. Thanks to its particularly low thermal resistance of only 30 K/W for the single-channel-version (SPL S1L90A_3 A01) and 17 K/W for the four-channel device (SPL S4L90A_3 A01), heat is easily dissipated from the component - even at high currents.

The four-channel version features a chip with four emission areas that deliver an outstanding optical power at 480 Watt. The laser enables a much longer detection range, at a size of just 3.35mm x 2.45mm x 0.65mm, making it only slightly larger than the single-channel-version (2.0mm x x 0.65mm).

The SPL S4L90A_3 A01 four-channel laser is the new flagship in Osram's LiDAR laser portfolio.

The two new high-power SMT lasers expand Osram's photonics portfolio for LiDAR applications and offer ease of use for the customer in their system integration.

"Thanks to their higher power and extended duty cycle range of up to 0.2%, our customers can reach a longer detection range in the application and better resolution. Additionally, eye safe system designs can be achieved with these high power 905nm products. Due to its excellent package design, the new products enable short pulse widths of around 2ns," explains Rena Lim, Product Manager at Osram Opto Semiconductors.