Samsung’s 108Mp ISOCELL Bright HM1 Delivers Brighter Ultra-High-Res Images with Industry-First Nonacell Technology
on Feb 12, 2020
Enhanced pixel-binning technology, Nonacell, features 3x3 pixel structure for maximum light absorption
SEOUL, Korea – Feb. 12, 2020 –
Samsung Electronics Co., Ltd., a world leader in advanced semiconductor technology, today introduced its next-generation 108-megapixel (Mp) image sensor, Samsung ISOCELL Bright HM1. With a spectrum of light-enhancing technologies spanning from Nonacell and Smart-ISO to real-time HDR, ISOCELL Bright HM1 allows brighter and more detailed 108Mp photographs and crystal-clear 8K videos at 24 frames per second (fps), even under extreme lighting conditions.
“To capture meaningful moments in our lives, Samsung has been driving innovations in pixel and logic technologies that enable ISOCELL image sensors to take astounding photographs even when lighting conditions aren’t ideal,” said Yongin Park, executive vice president of the sensor business at Samsung Electronics. “By adopting Nonacell and Smart-ISO technologies, the 108Mp ISOCELL Bright HM1 helps take vivid high-resolution pictures across a wide range of lighting environments.”
At a 1/1.33” scale with 108-million 0.8μm pixels, the ISOCELL Bright HM1 features the industry's first state-of-the-art Nonacell technology, which delivers brighter images in low-light settings. In 2017, Samsung introduced Tetracell, a pixel-binning technology with a special two-by-two array that merges four neighboring pixels to work as a single large pixel. Nonacell is an enhanced version of Tetracell with a three-by-three pixel structure. In the HM1, Nonacell merges nine neighboring 0.8μm pixels to mimic a large 2.4μm pixel, more than doubling Tetracell’s light absorption.
As the number of adjoined cells increase, so does color interference, making pixel-binning technologies more challenging. While such difficulties had limited Nonacell to a theory, the HM1 was able to realize the method by adopting Samsung’s ISOCELL Plus technology, which dramatically reduces crosstalk and minimizes optical loss as well as light reflection.
For ultimate results under any lighting condition, the HM1 supplements Nonacell with several other advanced pixel technologies. For example, the HM1’s Smart-ISO technology produces vivid and vibrant images by intelligently selecting the optimal ISO. High ISOs are used in darker settings while low ISOs are better for brighter environments to control light saturation.
In challenging mixed-light environments for photo-taking, the HM1’s real-time HDR technology optimizes exposures, producing more natural looking videos and still photographs. By assigning the most appropriate exposure lengths to each pixel, the HM1 is able to capture scenes in multiple exposures simultaneously, generating HDR images in real-time for both preview and capture modes. For sharper results, the HM1 supports a gyro-based electronic image stabilization (EIS) and Super-PD, an advanced phase detection technology for fast and accurate auto-focus.
The HM1 allows users to preview and capture full shots and close-ups of the subject at up to 3x lossless zoom, preserving the quality of the image. This is made possible by the sensor directly converting the pixels using an embedded hardware IP, rather than having the task delegated to the mobile processor. With 108-miillion pixels, the sensor is also able to produce images up to 3x zoom at a 12Mp resolution without upscaling.
Samsung ISOCELL Bright HM1 is currently in mass production.
About Samsung Electronics Co., Ltd.
Samsung inspires the world and shapes the future with transformative ideas and technologies. The company is redefining the worlds of TVs, smartphones, wearable devices, tablets, digital appliances, network systems, and memory, system LSI, foundry and LED solutions. For the latest news, please visit the Samsung Newsroom at http://news.samsung.com.
* Samsung first announced its ISOCELL technology in 2013, which reduces color crosstalk between pixels by placing a physical barrier, allowing small-sized pixels to achieve higher color fidelity. Based on this technology, Samsung introduced the industry’s first 1.0um-pixel image sensor in 2015 and a 0.9-pixel sensor in 2017. In June 2018, Samsung introduced an upgraded pixel isolation technology, the ISOCELL Plus.