Nederlands

Tower and Fortsense have announced the launch of their highly advanced 3D imager for LiDAR

904
2023-09-14 14:59:31
Bekijk vertaling

Recently, Gaota Semiconductor announced the successful development of an advanced 3D imager based on dToF technology for LiDAR applications. The newly developed product FL6031 is based on Tower's 65nm Stacked BSI CIS platform and has pixel level hybrid bonding function. It is the first in a series of products aimed at meeting the needs of numerous deep sensing applications in the automotive, consumer, and industrial markets. 

According to Yole Group's data, the 3D imaging, sensor, and system market is expected to grow at a compound annual growth rate of 13% to reach $170 by 2028.

Tower's advanced 65nm Stacked BSI CIS platform enables a unique pixel-level hybrid bonding between SPAD arrays and high-performance logic, enabling strategic advantages including high-speed on-chip data processing and small chip size, both essential for high-resolution dToF sensors.

These capabilities, combined with Tower's extensive capabilities in pixel design and customization, have made possible the development of a new family of Fortsense products for applications that require sufficient range measurement and depth mapping to enable fast camera autofocus, 3D scanning, and liDAR.

Michael Mo, CEO of Fortsense, said: "We selected Tower as our strategic partner to develop 3D imager dToF products based on their versatile and skilled CIS platform offerings. The collaboration of the expert teams of both companies, coupled with Tower's extensive experience in the field of imaging, has resulted in several successful developments over the past few years.

We are excited to expand our collaboration to bring new, advanced 3D sensing technologies to market." Solutions that address the growing needs of strategic markets."

Avi Strum, PhD, Senior vice President and General Manager of Tower Semiconductor's Sensor and Display Business unit, said: "Partnering with Fortsense to develop an optimized 3D imager based on dToF sensor technology demonstrates both parties' commitment to driving innovation and delivering superior sensors to the 3D imaging market. We look forward to continuing to work together to develop additional products in this family to deliver advanced solutions that drive mutual growth and success."

Source: Sohu

Gerelateerde aanbevelingen
  • Q.ANT Secures $18 Million in Refinancing for Photonic AI

    Q.ANT, a developer of artificial intelligence and high-performance computing (HPC) photonic processing systems, announced the completion of the second round of its Series A financing, reportedly valued at $18 million. The investment was led by Duquesne Family Office LLC, the investment firm of Stanley F. Druckenmiller. The increase brings Q.ANT’s total funding to US$80 M – claimed to be the larges...

    een dag geleden
    Bekijk vertaling
  • Shanghai Optics and Machinery Institute has made progress in the development of picosecond reflectors based on composite materials

    Recently, the High Power Laser Element Technology and Engineering Department of the Shanghai Institute of Optics and Mechanics, Chinese Academy of Sciences, has made progress in the research of picosecond reflectors based on composite materials. The relevant research results are titled "Hybrid material based mirror coatings for picosecond laser applications" and published in Optics and Laser Techn...

    2024-06-12
    Bekijk vertaling
  • This innovation will significantly improve the sensitivity of gravitational wave detectors

    In 2017, the detection of gravitational waves generated by the merger of binary neutron stars marked a significant breakthrough in physics. These waves reveal important information about the universe, from the origin of short gamma ray bursts to the formation of heavy elements.However, capturing gravitational waves from the merged residue remains a challenge as these waves avoid the detection rang...

    2024-04-17
    Bekijk vertaling
  • Rapid and convenient preparation of small-sized metal nanoparticles using microchip lasers

    Liquid pulse laser ablation is a reliable and versatile technique for producing metal nanoparticles in solution. Its advantages include no reducing agent, simple operation, high purity, no need for purification steps, and environmental processing conditions, making it the preferred method for traditional metal NP preparation.The widespread adoption of PLAL in scientific and industrial research has...

    2024-01-30
    Bekijk vertaling
  • Shanghai Optical Machinery Institute has made progress in laser assisted connection of metal carbon fiber composite heterojunction materials

    Recently, the research team of Yang Shanglu from the Laser Intelligent Manufacturing Technology R&D Center of the Chinese Academy of Sciences Shanghai Institute of Optics and Fine Mechanics has made new progress in the laser assisted connection of metal carbon fiber composite heterostructure joints.The team used an adjustable flat top rectangular semiconductor laser as a heat source to achieve...

    2023-09-01
    Bekijk vertaling