NVIDIA

Mobile

  • Lens Design

    We have design technology of over 108 million pixels using aspherical surfaces.

  • D-cut Lens Technology

    We have double-sided cutting lens mold, injection, and correction technology suitable for mobile optical systems.

  • Flare Reduction Technology

    We have the technology to reduce the flare phenomenon by applying black painting, black coating, and ultra-low reflective coating to the product.

  • Free-form Surface Lens

    We have free-form surface lens design, mold manufacturing, evaluation, and correction technology, and are researching and developing for various applications such as low distortion.

  • Ultra-wide Angle

    You can take more pictures than a regular lens.

    Related Model Specifications

    Grade Sensor format Structure EFL Fno FOV TTL
    5M 1/5" 1.12um 6P 1.13mm 2.2 123° 3.8mm
    8M 1/4" 1.12um 6P 1.42mm 2.2 122.8° 4.58mm
    12M 1/3.4" 1.12um 6P 1.74mm 2.2 124.4° 4.83mm
    12M 1/2.6" 1.4um 6P 2.22mm 2.2 120° 5.90mm

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  • Wide Angle

    This is useful when taking pictures of architecture, landscapes, and portraits that are difficult to photograph from a distance.

    Related Model Specifications

    Grade Sensor format Structure EFL Fno FOV TTL
    10M 1/3.2" 1.2um 6P 3.28mm 2.2 79.8° 4.27mm
    40M 1/2.8" 0.7um 6P 3.77mm 2.2 79.8° 4.9mm
    50M 1/2.5" 0.7um 6P 4.09mm 1.6 80.9° 5.0mm
    64M 1/1.73" 0.8um 6P 5.22mm 1.8 81.4° 5.95mm
    108M 1/1.52" 0.7um 7P 5.7mm 1.8 84° 6.9mm

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  • Telescopic

    You can shoot distant subjects without image degradation.

    Related Model Specifications

    Grade Sensor format Structure EFL Fno FOV TTL
    10M 1/3.2" 1.2um 5P 8.93mm 2.4 35° 7.76mm
    13M 1/3.4" 1.0um 6P 6.0mm 2.2 45° 5.42mm

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  • Continuous Zoom

    We have periscopic inner zoom technology, which allows shooting of natural images depending on the magnification.

    Related Model Specifications

    Grade Sensor format Structure EFL Fno FOV TTL
    12M 1/3" 1.22um 8P 13.4mm / 28.51mm 2.7 / 4.4 26° / 12° 24.5mm

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  • TOF LENS

    By measuring the time the light sent to the subject is reflected and returned using Time-of-Flight technique, it is possible to implement 3D recognition (3D sensing) technology that uses images containing distance information to identify the three-dimensional shape, movement, and distance.

    Related Model Specifications

    Grade Sensor format Structure EFL Fno FOV TTL
    ToF 1/4.5" 4P 2.58mm 1.0 72° 3.95mm

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  • Video