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Go beyond your depth. ISOCELL Vizion 63D is the world’s first indirect ToF (Time of Flight) sensor with a built-in ISP, adding rich new layers of depth to mobile photo and video, and bringing stunningly immersive experiences to a new wave of robotics, gaming, and XR devices.

It’s all on the chip

It’s all on the chip

It’s all on the chip

Lower latency, faster processing. ISOCELL Vizion 63D puts an ISP right on the chip where it’s needed most, so it can process images, calculate depth, and deliver data faster with fewer stutters. That leads to up to 40%* drop in system power demand, so you can stay cooler and go longer whether you’re viewing worlds in VR or commanding an assistant robot. Lower latency, faster processing. ISOCELL Vizion 63D puts an ISP right on the chip where it’s needed most, so it can process images, calculate depth, and deliver data faster with fewer stutters. That leads to up to 40%* drop in system power demand, so you can stay cooler and go longer whether you’re viewing worlds in VR or commanding an assistant robot. Lower latency, faster processing. ISOCELL Vizion 63D puts an ISP right on the chip where it’s needed most, so it can process images, calculate depth, and deliver data faster with fewer stutters. That leads to up to 40%* drop in system power demand, so you can stay cooler and go longer whether you’re viewing worlds in VR or commanding an assistant robot. * Performance measured with AP’s 1 big core Arm Cortex-X1 and is subject to variations by the user’s system configuration. * Performance measured with AP’s 1 big core Arm Cortex-X1 and is subject to variations by the user’s system configuration. * Performance measured with AP’s 1 big core Arm Cortex-X1 and is subject to variations by the user’s system configuration.

A sensor that goes the distance

A sensor that goes the distance

A sensor that goes the distance

Far better shots, from farther away. ISOCELL Vizion 63D takes the ability to read distance from camera to subject to a new level, bumping range all the way up to 10m – giving you new worlds of depth sensing. The flexibility of flood and spot illumination options offer the best of both worlds, extracting 3D data with higher resolution or deeper depth map, so you can shape your canvas to your needs. Far better shots, from farther away. ISOCELL Vizion 63D takes the ability to read distance from camera to subject to a new level, bumping range all the way up to 10m – giving you new worlds of depth sensing. The flexibility of flood and spot illumination options offer the best of both worlds, extracting 3D data with higher resolution or deeper depth map, so you can shape your canvas to your needs. Far better shots, from farther away. ISOCELL Vizion 63D takes the ability to read distance from camera to subject to a new level, bumping range all the way up to 10m – giving you new worlds of depth sensing. The flexibility of flood and spot illumination options offer the best of both worlds, extracting 3D data with higher resolution or deeper depth map, so you can shape your canvas to your needs.
So far,
so clear

Taking a quantum leap. ISOCELL Vizion 63D bumps quantum efficiency at 940nm up to 38%, improving the photon-to-electron conversion efficiency by 11% from the previous generation. At the same time, 4-tap pixels mean every pixel can take in data at 0°, 90°, 180°, and 270° in just a single frame. That powerful combination has reduced motion artifact to 4ms, compared to 16ms in the preceding ToF sensor. This leads to smarter bokeh, better night shots, faster autofocus, and clearer spatial mapping for your smartphone camera and 3D devices.

Products that can be implemented using the compact chip ISOCELL Vizion 63D are illustrated. Products that can be implemented using the compact chip ISOCELL Vizion 63D are illustrated. Products that can be implemented using the compact chip ISOCELL Vizion 63D are illustrated.

Small pixels that go big

Small pixels that go big

Small pixels that go big

Same pixel count, at a fraction of the size. ISOCELL Vizion 63D’s 3.5㎛-sized pixels are the world’s smallest among ToF sensors, allowing for high resolution in a compact design. It delivers powerful VGA in a 1/6.4” form factor. And an Application Specific Instruction Set (ASIP) lets ISOCELL Vizion 63D fit flexibly into a variety of worlds – from advanced phone cameras to home appliances and robotics. Same pixel count, at a fraction of the size. ISOCELL Vizion 63D’s 3.5㎛-sized pixels are the world’s smallest among ToF sensors, allowing for high resolution in a compact design. It delivers powerful VGA in a 1/6.4” form factor. And an Application Specific Instruction Set (ASIP) lets ISOCELL Vizion 63D fit flexibly into a variety of worlds – from advanced phone cameras to home appliances and robotics. Same pixel count, at a fraction of the size. ISOCELL Vizion 63D’s 3.5㎛-sized pixels are the world’s smallest among ToF sensors, allowing for high resolution in a compact design. It delivers powerful VGA in a 1/6.4” form factor. And an Application Specific Instruction Set (ASIP) lets ISOCELL Vizion 63D fit flexibly into a variety of worlds – from advanced phone cameras to home appliances and robotics.
Using the MUIC algorithm capability, one of the features of ISOCELL Vizion 63D products, multiple robots can move between tables simultaneously without interference. Using the MUIC algorithm capability, one of the features of ISOCELL Vizion 63D products, multiple robots can move between tables simultaneously without interference. Using the MUIC algorithm capability, one of the features of ISOCELL Vizion 63D products, multiple robots can move between tables simultaneously without interference.

Take interference out of the picture

Take interference out of the picture

Take interference out of the picture

Don't get your signals crossed. Multi-user interference cancellation (MUIC) in ISOCELL Vizion 63D lets multiple VR devices, robots, and gaming devices run simultaneously in the same space, without mixing signals. That’s how it helps devices read depth and distance accurately, for safer, smarter spatial mapping even as device numbers rise. Don't get your signals crossed. Multi-user interference cancellation (MUIC) in ISOCELL Vizion 63D lets multiple VR devices, robots, and gaming devices run simultaneously in the same space, without mixing signals. That’s how it helps devices read depth and distance accurately, for safer, smarter spatial mapping even as device numbers rise. Don't get your signals crossed. Multi-user interference cancellation (MUIC) in ISOCELL Vizion 63D lets multiple VR devices, robots, and gaming devices run simultaneously in the same space, without mixing signals. That’s how it helps devices read depth and distance accurately, for safer, smarter spatial mapping even as device numbers rise.

Specifications

  • Applications
    Mobile, Lifestyle
  • Product Status
    Mass production
  • Depth Resolution
    640 x 480
  • Pixel Size
    3.5 μm
  • Optical Format
    1/6.4"
  • VCSEL Wavelength
    940 nm
  • Distance Range
    0.2 m - 10 m
  • Quantum
    Efficiency (Q.E)
    38% @940 nm
  • Demodulation
    Contrast (D.C)
    96%
  • Modulation
    frequency (fm)
    200 MHz (max.)
  • Depth precision
    <0.1% @Flood Tx,
    <0.2% @Spot Tx
  • Depth accuracy
    <1.0% @indoor,
    <2.0% @outdoor
  • ADC bit resolution
    10-bit
  • Raw image frame rate
    120 fps @4-tap VGA
  • Output interface
    1-lane MIPI CSI-2
  • Power consumption
    175 mW @VGA,
    115 mW @QVGA
    (Sensor only)
  • ※ All functionality, features, specifications and other product information provided in this page including, but not limited to, the benefits, components, performance, availability, and capabilities of the product may be subject to change without notice at Samsung's sole discretion.
  • ※ All images shown are provided for illustrative purposes only and may not be an exact representation of the product or images captured with the product. All images are digitally edited, modified, or enhanced.
  • ※ Samsung reserves the right to change images and specifications at any time without notice. Nonmetric weights and measurements are approximate. All data were deemed correct at time of creation. Samsung is not liable for errors or omissions.