Sony’s 48MP IMX586 sensor delivers greater detail than a conventional 12MP sensor.Sony
</div> </div> <p><span 400">Featuring the highest ever pixel resolution available for a smartphone, Sony’s new IMX586 stacked CMOS image sensor delivers 48 effective megapixels. That’s significantly more pixels than the primary camera in Huawei’s P20 Pro and more even than Sony’s own high-end A7R III mirrorless camera.</span></p> <p><span 400">This high resolution is achieved by creating ultra-compact pixels only 0.8</span><span 400">μm</span><span 400"> wide, allowing the 48MP to fit on a chip only 8mm in diagonal.</span></p> <p> </p>
Sony’s IMX586 image sensorSony
</div> </div> <p><span 400">The main advantage of such a high pixel count is an increased digital zoom capability for both photo and video modes. Alternatively, the camera can save the full 48MP image to allow significant cropping later on while retaining acceptable detail.</span></p>
<p><span 400">Ultra-small pixels do have a significant disadvantage, however, in that smaller pixels are typically less efficient at capturing light than larger ones. This is one reason why some cameras, such as Sony’s A7S range, opt instead for a small number of large pixels in order to achieve better low light performance at the expense of resolution.</span></p> <p><span 400">But excellent low light performance is fundamental to smartphone photography too, so the Sony IM586 implements a ‘Quad Bayer’ color filter array similar to that used by the Huawei P20 Pro. </span></p> <p><span 400">The Sony IM586 can optionally maximize light sensitivity instead of image resolution by grouping 2×2 blocks of adjacent 0.8</span><span 400">μm </span><span 400">pixels into larger logical pixels of 1.6</span><span 400">μm each. In this mode, the sensor will produce better low light images, but at a lower resolution of 12MP.</span></p>
The Quad Bayer array combines adjacent pixels into larger super-pixels for improved light sensitivity at the expense of resolutionSony
</div> </div> <p><span 400">The Quad Bayer array makes grouping possible by arranging these adjacent 2×2 pixel groups with the same colored filter rather than different colors as would be the case with the standard Bayer array.</span></p> <p><span 400">The Sony IM586 also promises superior dynamic range that is four times greater than ‘conventional products’, although the announcement stops short of actually naming any such products.</span></p> <p><span 400">Another disadvantage of ultra-high resolution sensors is that the rest of the smartphone’s specs may also need to be considerably upgraded to handle all the extra image data. For example, if you want to retain the same shooting speeds as a 12MP camera, a 48MP device will need to transfer data at four times the rate and provide about four times the storage. </span></p> <p><span 400">With the IMX586 also capable of capturing 30 full-resolution shots per second and 4K video at 90fps, there’s also a far greater burden on any image processing the phone may need to perform.</span></p> <p><span 400">For this reason, I would expect to see the new sensor performing at its best only in flagship models for now, but these phones are likely to deliver stunning performance especially when configured with multi-camera solutions where the high resolution of the IM586 can be combined with better light sensitivity from secondary camera modules. </span></p> <p><span 400">You can read Sony’s full announcement and key specs </span><a href="https://www.sony.net/SonyInfo/News/Press/201807/18-060E/index.html" target="_blank" data-ga-track="ExternalLink:https://www.sony.net/SonyInfo/News/Press/201807/18-060E/index.html" rel="nofollow"><span 400" data-ga-track="ExternalLink:https://www.sony.net/SonyInfo/News/Press/201807/18-060E/index.html">here</span></a><span 400">.</span></p> <p><strong>More By Me On Forbes</strong></p> <p><a href="http://www.forbes.com/sites/paulmonckton/2018/07/18/oneplus-6-camera-outguns-iphone-x-on-value/" target="_self" data-ga-track="InternalLink:http://www.forbes.com/sites/paulmonckton/2018/07/18/oneplus-6-camera-outguns-iphone-x-on-value/">OnePlus 6 Camera: How It Beats iPhone X On Value</a></p> <p><a href="http://www.forbes.com/sites/paulmonckton/2018/04/04/huawei-p20-pro-camera-how-it-beats-the-galaxy-s9plus-iphone-x/" target="_self" data-ga-track="InternalLink:http://www.forbes.com/sites/paulmonckton/2018/04/04/huawei-p20-pro-camera-how-it-beats-the-galaxy-s9plus-iphone-x/">Huawei P20 Pro Camera: How It Beats The Samsung Galaxy S9 Plus And iPhone X</a></p> <p><a href="http://Samsung%20Galaxy%20S9%20Plus%20Camera:%20How%20It%20Beats%20The%20iPhone%20X" target="_blank" data-ga-track="ExternalLink:http://Samsung%20Galaxy%20S9%20Plus%20Camera:%20How%20It%20Beats%20The%20iPhone%20X" rel="nofollow">Samsung Galaxy S9 Plus Camera: How It Beats The iPhone X</a></p> <p><a href="https://www.forbes.com/sites/paulmonckton/2018/04/28/gopro-hero-vs-hero6-black-whats-the-difference/" target="_self" data-ga-track="InternalLink:https://www.forbes.com/sites/paulmonckton/2018/04/28/gopro-hero-vs-hero6-black-whats-the-difference/"><span 400" data-ga-track="InternalLink:https://www.forbes.com/sites/paulmonckton/2018/04/28/gopro-hero-vs-hero6-black-whats-the-difference/">GoPro Hero Vs Hero6 Black: What’s The Difference?</span></a></p> <p><a href="https://www.forbes.com/sites/paulmonckton/2018/04/12/gopro-hero-vs-gopro-hero5-session-whats-the-difference/" target="_self" data-ga-track="InternalLink:https://www.forbes.com/sites/paulmonckton/2018/04/12/gopro-hero-vs-gopro-hero5-session-whats-the-difference/"><span 400" data-ga-track="InternalLink:https://www.forbes.com/sites/paulmonckton/2018/04/12/gopro-hero-vs-gopro-hero5-session-whats-the-difference/">GoPro Hero Vs GoPro Hero5 Session: What’s the Difference?</span></a></p>”>
Sony’s image sensors form the core imaging technology behind many leading cameras, and today the company has announced a world-first product which could dramatically improve the quality of smartphone photography.
Sony’s 48MP IMX586 sensor delivers greater detail than a conventional 12MP sensor.Sony
Featuring the highest ever pixel resolution available for a smartphone, Sony’s new IMX586 stacked CMOS image sensor delivers 48 effective megapixels. That’s significantly more pixels than the primary camera in Huawei’s P20 Pro and more even than Sony’s own high-end A7R III mirrorless camera.
This high resolution is achieved by creating ultra-compact pixels only 0.8μm wide, allowing the 48MP to fit on a chip only 8mm in diagonal.
Sony’s IMX586 image sensorSony
The main advantage of such a high pixel count is an increased digital zoom capability for both photo and video modes. Alternatively, the camera can save the full 48MP image to allow significant cropping later on while retaining acceptable detail.
Ultra-small pixels do have a significant disadvantage, however, in that smaller pixels are typically less efficient at capturing light than larger ones. This is one reason why some cameras, such as Sony’s A7S range, opt instead for a small number of large pixels in order to achieve better low light performance at the expense of resolution.
But excellent low light performance is fundamental to smartphone photography too, so the Sony IM586 implements a ‘Quad Bayer’ color filter array similar to that used by the Huawei P20 Pro.
The Sony IM586 can optionally maximize light sensitivity instead of image resolution by grouping 2×2 blocks of adjacent 0.8μm pixels into larger logical pixels of 1.6μm each. In this mode, the sensor will produce better low light images, but at a lower resolution of 12MP.
The Quad Bayer array combines adjacent pixels into larger super-pixels for improved light sensitivity at the expense of resolutionSony
The Quad Bayer array makes grouping possible by arranging these adjacent 2×2 pixel groups with the same colored filter rather than different colors as would be the case with the standard Bayer array.
The Sony IM586 also promises superior dynamic range that is four times greater than ‘conventional products’, although the announcement stops short of actually naming any such products.
Another disadvantage of ultra-high resolution sensors is that the rest of the smartphone’s specs may also need to be considerably upgraded to handle all the extra image data. For example, if you want to retain the same shooting speeds as a 12MP camera, a 48MP device will need to transfer data at four times the rate and provide about four times the storage.
With the IMX586 also capable of capturing 30 full-resolution shots per second and 4K video at 90fps, there’s also a far greater burden on any image processing the phone may need to perform.
For this reason, I would expect to see the new sensor performing at its best only in flagship models for now, but these phones are likely to deliver stunning performance especially when configured with multi-camera solutions where the high resolution of the IM586 can be combined with better light sensitivity from secondary camera modules.
You can read Sony’s full announcement and key specs here.
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