Samsung’s latest image sensor, the ISOCELL GN1, is a powerful 50-megapixel sensor with 1.2μm pixels. As Samsung’s first image sensor to feature both Tetrapixel* and Dual Pixel technologies, the ISOCELL GN1 has been designed to help users take near-professional grade quality images in any environment with ultra-fast autofocusing comparable to that of DSLR cameras.

The video below introduces how the ISOCELL GN1 takes smartphone photography to the next level with its rapid autofocus, high-resolution detailing, and vivid colors capture – even in low-light conditions.

Staying in Focus

The speed at which a camera can focus on its subject can hugely influence a user’s photo-taking experience. Whether the subject is a furry friend up close or a group shot of a family, fast autofocus can help ensure you never miss a precious moment. In order to provide users with an ultra-fast autofocus experience, the ISOCELL GN1 leverage Dual Pixel technology with 100 million phase detection focus units.

Each pixel on the ISOCELL GN1 consists of two photodiodes, which receive light rays from sides of the micro-lens on top of the pixel. The phase detection autofocus process then creates two ‘copies’ of the image from incoming light, one on each photodiode, which are assessed by the sensor just as human eyes work. The lens elements then adjust until the two images are identical, indicating that the object is in perfect focus in the camera’s view.

Phase detection autofocus is much faster than conventional contrast detection systems which analyze the contrast between edges and move the focus motor until this contrast is at its sharpest. However, the speed of the phase detection autofocus process is dependent on how may phase detection pixels the sensor contains. Many smartphone sensors only feature phase detection-enabled pixels at a capacity of 5-10% of the total pixels – but this is not the case for the ISOCELL GN1. With its Dual Pixel technology, the ISOCELL GN1 embeds two photodiodes in every single pixel, resulting in a faster, more accurate autofocus experience.

Bigger Pixels for Crystal Clear Photos

Pixels capture light and turn it into data. They come in a range of different sizes, which in turn will affect the resolution of an image sensor. Sensors with smaller allow for ultra-high-resolution images with tack-sharp details, while bigger pixels will receive more light and result in improved light sensitivity for shots taken in low-light conditions.

To allow manufactures and consumers a wider choice of pixel sizes – from big to microfine – Samsung has developed a variety of cutting-edge technologies to enhance both detailing and light sensitivity to match any need. The ISOCELL GN1 boasts 1.2μm pixels, almost twice as large as the 0.8μm small pixels featured on other high-resolution sensors, so that users can capture stunning, high-quality photos, even at nighttime.

The sensor also features ISOCELL Plus, Samsung’s innovative pixel isolation technology which uses a physical barrier to isolate pixels, allowing more light to be gathered by the micro-lens and then absorbed by the pixel’s photodiodes. The result is higher color fidelity and improved light sensitivity so users can enjoy bright, color-accurate images in every photo they take.

Higher Resolution for Finer Detailing

The ISOCELL GN1 delivers 50MP resolution at 8,160 pixels by 6,144 pixels thanks to its 1/1.31” sensor size as compared to the 1/2” sensor size 48MP resolution of conventional sensors with smaller 0.8μm pixels. Thanks to its Dual Pixel technology and software algorithms, photos taken with the ISOCELL GN1 can achieve comparable image resolutions of up to 100MP.

The ISOCELL GN1’s 50MP resolution means that the ISOCELL GN1 is able to capture fine details and gives users the power to crop their images without any dramatic loss in image quality. It also gives users the option of downsizing their images in post-processing to further reduce the amount of noise for even more stunning images.

High Quality Photos in Any Lighting Condition

Have you ever taken a photo at night only for it to turn out too dark and blurry or overly grainy? Shooting in low light presents the user with a number of technical hurdles, but thanks to the inclusion of Samsung’s Tetrapixel technology, the ISOCELL GN1 is capable of capturing crystal clear photos in any lighting condition.

Unlike conventional RGB sensors, where pixels with different color filters are arranged in a mosaic pattern, Samsung’s Tetrapixel sensors arrange pixels with the same color filter right next to each other in groups of four. When shooting in low-light conditions, the sensor can treat those groups of four pixels as one big pixel, meaning that more light is let into the sensor for images that are brighter and feature less noise. Given that the ISOCELL GN1 features larger pixels than other sensors, the addition of Tetrapixel provides an even greater image quality boost for shooting in low-light conditions, while in bright lighting conditions the sensor uses a re-mosaic algorithm to rearrange the pixels into a conventional RGB pattern for higher-resolution images.

Multiple Exposure Time for More Vivid Photos

In mixed lighting conditions, such as with a low-lit subject against a bright background, it can be difficult for photographers to get the right dynamic range so that both light and dark areas of the image get proper exposure. Conventional HDR technology used to solve this problem by taking multiple images and stacking them together in post-processing to get wider dynamic range in the final image. This same principle underlies the Real-time HDR of the ISOCELL GN1.

Rather than taking sequential photos and stacking them together, the ISOCELL GN1 leverages Tetrapixel technology to deliver better colors and improved detail in shadows, mid-tones, and highlights.

Each pixel in a group of four takes the picture at different exposure times: two pixels take medium exposures, one takes a long exposure, and one takes a short exposure. This allows the sensor to capture light from the scene in front of it with greater precision. The ISOCELL GN1 combines the information from these three exposure levels to produce an HDR image in a single shot in which the user is able to preview immediately.

Letting in Just the Right Amount of Light

Native ISO determines how sensitive an image sensor is to light and is determined by the conversion gain value. This value affects the full well capacity, or how much light the photodiodes can receive, and the noise level. Incorporating a fixed, native ISO into an image sensor limits its ability to adapt to changing light environments.

Traditional image sensors often came with a single, high native ISO. While this is helpful in reducing noise in low light environments, a smaller full well capacity makes these sensors less capable of showcasing highlight areas in bright environments.

The ISOCELL GN1 features an additional low native ISO able to accurately respond to bright environments, and its Smart-ISO technology selects the ideal conversion gain value for each lighting situation. The result is optimal dynamic range and reduced noise across all kinds of shooting conditions.

While shooting portraits at the beach on a sunny day, for example, it will choose the low native ISO to increase full well capacity and extending the dynamic range for bright sections of the scene. If the camera were using a high native ISO in these situations, the signal would be over-amplified, blowing out the bright sections and leaving little to no detail in those areas of the image.

Conversely, when taking selfies with friends at a late-night party, Smart-ISO technology will choose the higher native ISO to produce optimal brightness with less noise and capture more dynamic range in dark sections of the scene, bringing out every detail even in the shadowy areas of your image.

Pro-Grade Photography in the Palm of Your Hand

The ISOCELL GN1 packs a lot of technology into a small sensor. As Samsung’s first image sensor to feature both Dual Pixel and Tetrapixel technology, it equips your smartphone camera with the power to adapt to any environment so that you can capture great photos no matter what lighting condition you are in. With this versatility, you can enjoy a full suite of pro-grade photography tools right from your smartphone.

Please visit ISOCELL’s Twitter and Instagram to learn more.

* Technological term of “Tetrapixel” was updated in July 2022.

Samsung Electronics, a world leader in advanced semiconductor technology, today introduced Samsung ISOCELL GN1, a new 50-megapixel (Mp) image sensor with large 1.2μm-sized pixels. The ISOCELL GN1 is Samsung’s first image sensor to offer both Dual Pixel and Tetrapixel* technologies. Thanks to the relatively larger pixel size, the GN1 brings image sensor performance to a new level with a combination of elevated light sensitivity for stellar low-light photos and DSLR-level auto-focus speeds, optimized for more dynamic picture-taking experiences.

“With innovative pixel technologies, Samsung has been at the forefront of offering high-performance image sensors that closely cater to increasingly diversifying market needs. The ISOCELL GN1 is part of that commitment to deliver stunning images to consumers in any environment,” said Yongin Park, executive vice president of sensor business at Samsung Electronics. “We will continue to introduce image sensor solutions at the cutting-edge that will lead the next trends in mobile photography.”

Creating desirable images is an indispensable element for today’s smartphone users who are well accustomed to visually grasping and cherishing special moments, wherever they are. To address various imaging preferences of the users, some smartphone makers put more emphasis on extremely detailed images with ultra-high resolutions, while some choose bigger pixels for bright results in low-light environments. The new Samsung ISOCELL GN1 fulfills these multiple needs at once with Dual Pixel and Tetrapixel technologies.

The GN1 brings best-in-class auto-focusing with 100 million phase detection auto-focus (PDAF) agents. Samsung’s Dual Pixel technology places two photodiodes side-by-side within a single pixel that can receive light from different angles for phase detection. With all of the sensor’s active pixels working as auto-focusing agents, the GN1 can detect and focus onto a desired still or moving object from every corner in an instant, even in low-light conditions. When capturing images, a single pixel output is created by merging the outputs from the two photodiodes within the pixel. Samsung also provides a software algorithm that takes light information from each photodiode to produce image resolutions comparable to 100Mp.

For ultimate low-light photography, the GN1 adopts Tetrapixel technology, a pixel-merging technique that improves the pixels’ capacity to capture and process more light. By binning four pixel signals into one, Tetrapixel doubles the image sensor’s pixel size to 2.4μm and quadruples the light sensitivity to take brighter 12.5Mp photographs. With improved light sensitivity combined with a powerful auto-focusing solution, the GN1 is able to focus on an object quickly even in extreme low-light environment to deliver both brighter and sharper results.

In addition to Dual Pixel and Tetrapixel technologies, the GN1 comes with Smart-ISO that intelligently selects the optimal ISO, real-time HDR that captures the scene in multiple exposures simultaneously, and gyro-based electronic image stabilization (EIS) that takes sharp images and video even when in motion. For premium video quality, the image sensor supports video recording at up to 8K resolution at 30 frames-per-second (fps).

Samsung ISOCELL GN1 started mass production this month.

* Technological term of “Tetrapixel” was updated in July 2022.

Samsung Electronics, 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 Nonapixel** 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 Nonapixel 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 Nonapixel technology, which delivers brighter images in low-light settings. In 2017, Samsung introduced Tetrapixel,** a pixel-binning technology with a special two-by-two array that merges four neighboring pixels to work as a single large pixel. Nonapixel is an enhanced version of Tetrapixel with a three-by-three pixel structure. In the HM1, Nonapixel merges nine neighboring 0.8μm pixels to mimic a large 2.4μm pixel, more than doubling Tetrapixel’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 Nonapixel 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 Nonapixel 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-million 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.

* 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.

** Technological terms of “Nonapixel” and “Tetrapixel” were updated in July 2022.

Accordingly, Samsung has released its 108-megapixel (Mp) ISOCELL Bright HMX, the industry’s first mobile image sensor to exceed 100 million pixels. Boasting a resolution similar to that of a medium format expert-grade camera, this new image sensor not only enables the user to capture extremely sharp photos, but also allows them to do so in a wide range of adverse lighting conditions. Check out the video below to see the ISOCELL Bright HMX’s features and user benefits in-depth.

Bringing Professional-grade Quality to the Smartphone Camera

Following in the footsteps of Samsung’s expansion of its 0.8μm image sensor range, the ISOCELL Bright HMX delivers 108Mp – 108 million effective pixels – in each individual image. This pixel-count allows the camera to deliver extremely well-defined images that remain sharp even when zoomed in or cropped. The image sensor achieves this by utilizing 0.8μm-sized pixels, and is the first mobile image sensor in the industry to feature a larger 1/1.33-inch size. These features enable the ISOCELL Bright HMX to absorb more light in low-lit environments, allowing the sensor to ‘see’ more when formulating a photograph. In better-lit conditions, having a high-quality image sensor allows for sharper textures and better overall color accuracy.

Samsung’s ISOCELL Plus technology is another key component underpinning the ISOCELL Bright HMX. This advanced pixel isolation technology minimizes optical loss and prevents each 0.8μm pixel from being contaminated by the colors of the ones adjacent to it. Placing a barrier around each pixel, this technology represents a vast improvement on the previous backside illuminated (BSI) sensors, which were susceptible to quality degradation due to pixel crosstalk. Engineers also tried introducing a physical barrier between neighboring pixels, isolating them and allowing more light to be gathered by the micro-lens and absorbed by the photodiode, but this also led to optical loss. ISOCELL Plus technology replaces a metal barrier with an innovative new material that minimizes optical loss and light reflection. It also allows the photodiode to absorb more light, resulting in superb pixel performance, even with smaller pixel sizes.

The evolution of Samsung’s ISOCELL Plus pixel isolation technology

Sensor Technology for Best Performance in All Lighting Conditions

When pixels receive light information, that information is then subjected to analog gain or signal amplification before being converted into a digital signal by the analog digital convertor (ADC). ‘Native ISO’ is the baseline setting that a camera is set to that allows it to get the most detail out of an image, deviation from which can result in unwanted amplification or reduction of the sensor’s sensitivity to light. But with just a single native ISO, over-amplification can occur when conditions are very bright and unwanted noise can appear when an environment is low-light.

With the ISOCELL Bright HMX, Samsung has created a solution to mitigate these issues by incorporating Smart-ISO technology (including one low and one high amplification ISO) into the new mobile image sensor. The inclusion of this technology allows the sensor to intelligently select amplification levels according to how the scene is lit, optimizing light-to-electric signal conversation and making cameras more versatile across a range of lighting environments.

Notably, Samsung’s ISOCELL Bright HMX helps users manage the age-old question in photography of – how best to capture photographs in low-light conditions. While taking pictures with smaller pixels allows for better resolution, utilizing larger pixels is the best way to improve the sensor’s ability to absorb light. Thus, it has been necessary to find some kind of middle ground in which good quality photos can be captured in poorly lit environments. That’s where Samsung’s Tetrapixel* Technology comes in. In the ISOCELL Bright HMX, an advanced algorithm rearranges pixels according to lighting condition, merging clusters of four pixels into single pixels and allowing 0.8μm pixels to be transformed into 1.6μm ones. Even after merging of pixels, by having over 100 million pixels to start with, ISOCELL Bright HMX still ensures incredibly high 27Mp resolutions for great low-light photography.

As well as offering users advanced lighting condition management technology, the ISOCELL Bright HMX also features Super-PD autofocus for fast and accurate autofocus capabilities. Users can capture crisp, clear photos with precise focus of both still and moving objects, even in low-light environments.

Conventional autofocus capabilities require the processor to find the areas of highest contrast and employ a trial and error method to achieve an optimal focus. However, phase detection autofocus enabled by Super-PD technology means that mobile image sensors which feature PD pixels can quickly calculate how far away an object is and automatically optimize focus for the shot.

With the low-light, bright-lit and auto-focused movement photography capabilities offered by the ISOCELL Bright HMX image sensor, users will be able to capture those special moments in outstanding quality, no matter what the conditions may be.

For more information on how the ISOCELL image sensors are empowering users to capture moments with near-true-to-life mobile photography, check out the video below:

* Technological term of “Tetrapixel” was updated in July 2022.

Samsung Electronics, a world leader in advanced semiconductor technology, today introduced the industry’s first 0.7-micrometer (μm)-pixel image sensor, the 43.7-megapixel (Mp) Samsung ISOCELL Slim GH1. Thanks to advanced ISOELL Plus technology, the new ultra-high-resolution GH1 image sensor embraces 43.7-million 0.7μm-sized pixels in a super-small package, providing the optimum solution for slim full-display devices.

“Samsung has been stepping up in pixel technology innovation from the industry’s first 1.0μm-pixel image sensor, to most recently, 0.8μm ultra-high-resolution sensors at 64Mp and 108Mp,” said Yongin Park, executive vice president of the sensor business at Samsung Electronics. “We are pleased to deliver yet another breakthrough with the industry’s first 0.7μm pixel image sensor, the ISOCELL Slim GH1 that will enable sleeker and more streamlined designs as well as excellent imaging experiences in tomorrow’s smartphones.”

The ISOCELL Slim GH1 is the industry’s first mobile image sensor to adopt the smallest pixel size in the industry at 0.7μm. By utilizing ISOCELL Plus, Samsung’s latest pixel isolation technology that minimizes color cross-talk and optical loss, the tiny 0.7μm pixels are able to absorb sufficient light information to produce bright and vivid photographs. In low-light environments, the GH1 makes use of pixel-merging Tetrapixel* technology that enables higher light sensitivity equivalent to that of a 1.4μm-pixel image sensor.

For video recording at 4K (3,840×2,160) resolutions, the ISOCELL Slim GH1, with a high resolution of 7,968×5,480, is able to take 4K videos with minimum loss in field of view (FoV), while most high-resolution image sensors crop or scale down full image resolutions that result in a reduced FoV. Using Tetrapixel technology, the GH1 is converted down to 3,984×2,740, a resolution that snugly covers the 4K (3,840×2,160) resolution, allowing users to capture more detailed backgrounds when recording high-resolution videos or selfies at 60T frames per second (fps).

For sharper photographs and video, the GH1 supports a gyro-based electronic image stabilization (EIS) and a high-performing phase detection auto-focus technology, Super PD, allowing fast and accurate autofocus. In addition, the real-time high dynamic range (HDR) feature delivers more balanced exposure and richer color even in mixed-light environments.

The Samsung ISOCELL Slim GH1 is expected to be in mass production by the end of this year.

* Samsung first announced its ISOCELL technology in 2013, which reduces color cross-talk 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.

* Technological term of “Tetrapixel” was updated in July 2022.

With over 100 million effective pixels enabling extremely sharp photographs rich in detail, the ISOCELL Bright HMX also produces exceptional photos even in extreme lighting conditions. Being the first mobile image sensor to adopt a large 1/1.33-inch size, the HMX can absorb more light in low-lit settings than smaller sensors and its pixel-merging Tetrapixel* technology allows the sensor to imitate big-pixel sensors, producing brighter 27Mp images. In bright environments, the Smart-ISO, a mechanism that intelligently selects the level of amplifier gains according to the illumination of the environment for optimal light-to-electric signal conversion, switches to a low ISO to improve pixel saturation and produce vivid photographs. The mechanism uses a high ISO in darker settings that helps reduce noise, resulting in clearer pictures. For advanced filming, the HMX supports video recording without losses in field-of-view at resolutions up to 6K (6016 x 3384) 30-frames-per-second (fps).

“For ISOCELL Bright HMX, Xiaomi and Samsung have worked closely together from the early conceptual stage to production that has resulted in a groundbreaking 108Mp image sensor. We are very pleased that picture resolutions previously available only in a few top-tier DSLR cameras can now be designed into smartphones,” said Lin Bin, co-founder and president of Xiaomi. “As we continue our partnership, we anticipate bringing not only new mobile camera experiences but also a platform through which our users can create unique content.”

“Samsung is continuously pushing for innovations in pixel and logic technologies to engineer our ISOCELL image sensors to capture the world as close to how our eyes perceive them,” said Yongin Park, executive vice president of sensor business at Samsung Electronics. “Through close collaboration with Xiaomi, ISOCELL Bright HMX is the first mobile image sensor to pack over 100 million pixels and delivers unparalleled color reproduction and stunning detail with advanced Tetrapixel and ISOCELL Plus technology.”

Mass production for Samsung ISOCELL Bright HMX will begin later this month.

* Samsung first announced its ISOCELL technology in 2013, which reduces color-cross talk 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 0.9-pixel sensor in 2017. In June 2018, Samsung introduced an upgraded pixel isolation technology, the ISOCELL Plus

* Technological term of “Tetrapixel” was updated in July 2022

Samsung Electronics, a world leader in advanced semiconductor technology, today introduced two new 0.8-micrometer (μm) pixel image sensors – the 64-megapixel (Mp) Samsung ISOCELL Bright GW1 and 48Mp ISOCELL Bright GM2. With the addition, Samsung expands its 0.8μm image sensor lineup, the smallest pixel size currently available in the market, from existing 20Mp to ultra-high 64Mp resolutions.

“Over the past few years, mobile phone cameras have become the main instrument for recording and sharing our everyday moments,” said Yongin Park, executive vice president of sensor business at Samsung Electronics. “With more pixels and advanced pixel technologies, Samsung ISOCELL Bright GW1 and GM2 will bring a new level of photography to today’s sleekest mobile devices that will enhance and help change the way we record our daily lives.”

ISOCELL Bright GW1 is a 64Mp image sensor that features the highest resolution in Samsung’s 0.8μm-pixel image sensor lineup. With pixel-merging Tetrapixel technology^** and remosaic algorithm^***, GW1 can produce bright 16Mp images in low-light environments and highly-detailed 64Mp shots in brighter settings. To take pictures resembling the way the human eye perceives its surroundings in a mixed light environment, GW1 supports real-time high dynamic range (HDR) of up to 100-decibels (dB) that provides richer hues. In comparison, the dynamic range of a conventional image sensor is at around 60dB, while that of the human eye is typically considered to be around 120dB.

GW1 is equipped with a Dual Conversion Gain (DCG) that converts the received light into an electric signal according to the illumination of the environment. This allows the sensor to optimize its full well capacity (FWC), utilizing the collected light more efficiently especially in bright environments. Sharper results can be delivered through Super PD, a high-performance phase detection auto-focus technology, and full HD recording at 480 frames-per-second (fps) is supported for smooth cinematic slow motion videos.

ISOCELL Bright GM2 is a 48Mp image sensor that also adopts Tetrapixeltechnology in low-light environments and a remosaic algorithm in well-lit settings, bringing highly-detailed pictures with natural and vivid colors. GM2, like GW1, adopts DCG as well for added performance and Super PD for fast autofocus.

Samsung ISOCELL Bright GW1 and GM2 are currently sampling and are expected to be in mass production in the second half of this year.

^*Samsung first announced its ISOCELL technology in 2013, which reduces color-cross talk 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 0.9-pixel sensor in 2017. In June 2018, Samsung introduced an upgraded pixel isolation technology, the ISOCELL Plus.

^**Tetrapixel technology merges four pixels into one so that users can achieve high quality images in all light conditions.

^***In bright environments, Tetrapixel uses a re-mosaic algorithm to produce full resolution images.

* Technological term of “Tetrapixel” was updated in July 2022

Samsung Electronics, a world leader in advanced semiconductor technology, today introduced its smallest high-resolution image sensor, the ISOCELL Slim 3T2. While being the industry’s most compact image sensor at 1/3.4 inches (approximately 5.1-millimeters diagonally), the 0.8μm-pixel ISOCELL Slim 3T2 delivers 20-megapixel (Mp) resolution for both front and back cameras in today’s sleekest mid-range smartphones.

“The ISOCELL Slim 3T2 is our smallest and most versatile 20Mp image sensor that helps mobile device manufacturers bring differentiated consumer value not only in camera performance but also in features including hardware design,” said Jinhyun Kwon, vice president of System LSI sensor marketing at Samsung Electronics. “As the demand for advanced imaging capabilities in mobile devices continue to grow, we will keep pushing the limits in image sensor technologies for richer user experiences.”

With 20-million active 0.8μm-sized pixels, the ISOCELL Slim 3T2 not just provides excellent clarity and detail. It also offers high color fidelity by adopting Samsung’s ISOCELL Plus technology that enables sensors to capture and absorb more light information for accurate color reproduction even with sub-micrometer-sized pixels.

In order to support smartphones with the latest display features such as the ‘hole-in display’ or ‘notch design,’ front-facing image sensors need to minimize their size while being able to capture high-quality images. The 1/3.4-inch 3T2 snuggly fits into a tiny module making more space for the display. In addition, Samsung’s Tetrapixel* technology, which merges four pixels to work as one, lets the 3T2 take brighter and sharper pictures in low-light settings as the color filter array’s light sensitivity increases to that of a 1.6μm-pixel image sensor at 5Mp resolution.

When applied in rear-facing multi-camera settings for telephoto solutions, the 3T2 adopts an RGB color filter array instead of Tetrapixel technology. The small size of the image sensor also reduces the height of the tele-camera module by around seven percent when compared to Samsung’s 1/3-inch 20Mp image sensor, allowing more elegant smartphone designs. Compared to a 13Mp sensor with the same module height, the 20Mp 3T2 retains 60-percent higher effective resolution at 10x digital zoom that presents clearer and more accurate results.

The Samsung ISOCELL Slim 3T2 is expected to be in mass production in the first quarter of this year.

* Technological term of “Tetrapixel” was updated in July 2022

“Demand for ultra-small, high-resolution image sensors are growing as smartphones evolve to deliver new and more exciting camera experiences for users,” said Ben K. Hur, vice president of System LSI marketing at Samsung Electronics. “With the introduction of our cutting-edge 0.8μm-pixel Samsung ISOCELL Bright GM1 and GD1 image sensors, we are committed to continue driving innovation in image sensor technologies.”

As cameras are becoming a key distinguishing feature in today’s mobile devices, smartphone makers are faced with the challenge to fit multiple cameras into the sleek designs of their latest flagships. At a reduced pixel size, the new sensors provide greater design flexibility, enabling camera module manufacturers to build smaller modules or pack more pixels into existing designs, and consequently allowing smartphone makers to maximize space utilization in slim, bezel-less smartphones.

The GM1 and the GD1 sensors are based on the company’s latest pixel isolation technology – the ISOCELL Plus* – which optimizes performance especially for smaller-dimension pixels, making them the ideal solution for today’s super-resolution cameras. In addition, thanks to Tetrapixel** technology, where four pixels are merged to work as one to increase light sensitivity, the GM1 and GD1 can deliver light sensitivity equivalent to that of a 1.6μm-pixel image sensor at 12Mp and 8Mp resolution, respectively. The sensors also support Gyro-based electronic image stabilization (EIS) for fast and accurate image capture.

A real-time high dynamic range (HDR) feature is added to the GD1 to deliver more balanced exposure, richer color and detail when filming selfie-videos or streaming live video content even in low-light, high-contrast environments.

The Samsung ISOCELL Bright GM1 and GD1 are expected to be in mass production in the fourth quarter of this year.

* Samsung first announced its ISOCELL technology in 2013, which reduces color-cross talk 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 0.9-pixel sensor in 2017. In June 2018, Samsung introduced an upgraded pixel isolation technology, the ISOCELL Plus.

** Technological term of “Tetrapixel” was updated in July 2022

MWCS is Asia’s leading tech industry event, taking place this year at the Shanghai New International Expo Center from June 27 – 29. This year over 100 countries are represented, with 550 companies attending. As the scale of MWCS is continually expanding, the event provides the perfect platform for Samsung to showcase its latest groundbreaking semiconductor technologies.

Attendees explore the Samsung Electronics experience zone at MWCS 2018

A Samsung promoter introduces the ISOCELL range to a large crowd of interested MWCS attendees

S.LSI has been participating in MWCS since last year, recognizing the growing importance of the Chinese presence in the global technology market.  Highlighted at MWCS this year are S.LSI’s ISOCELL, Exynos, NFC and smart speaker ranges, with a variety of solutions – including the new ‘ISOCELL Plus’ – on show for customers from all around the world including China.

The Samsung Electronics Exhibition Hall, filled with numerous local and global visitors

ISOCELL

The Samsung Electronics S.LSI ISOCELL booth at MWCS 2018. The ISOCELL products on display showcase the latest in high resolution photography solution

The ISOCELL series, first launched at MWCS 2017, is named after the patented Samsung ISOCELL technology which offers solutions for devices that require ultra-slim designs with high quality cameras.

Visitors learn more about the image quality comparison (1.12um 13Mp vs 1.0um 16Mp) of the ISOCELL Slim 3P9 at the Samsung Electronics booth

Among the cutting-edge developments to the ISOCELL series presented at MWCS is the ISOCELL Slim 3P9 with Plug and Play solution for rear camera modules. The Plug and Play solution simplifies the camera module development and optimization process by providing a turnkey module, made up of an ISOCELL sensor and other primary elements from preferred partners, pre-tuned for VCX-standard image quality. Manufacturers can simply plug the module into a device, saving up to four months of development time.

The ISOCELL Plus, a new pixel isolation technology from Samsung, replaces the metal grid formed over the photodiodes with an innovative new material minimizing optical loss and light reflection. The ISOCELL Bright, harnessing Tetrapixel* technology, merges four pixels into one so that users can achieve high quality images in all light conditions. The ISOCELL Fast utilizes Dual Pixel technology for faster, more accurate auto focus – even in low light conditions.

Exynos

The Exynos series, the system-on-a-chip processors featured in Samsung’s own line of mobile devices, presents the latest in performance, efficiency and connectivity options.

Visitors watch a demonstration of the Exynos 7 Series 9610 and its object detection capabilities at the Samsung Electronics booth

The Exynos Series 7 9610 is a S.LSI’s high-end application processor that was introduced earlier this year, with enhanced image processing capabilities to support DSLR-like camera functions with AI-powered image processing. It is also the industry’s first SoC to offer 480fps filming for super slow-motion videos. Thanks to its patented vision-image processing DSP(digital signal processor), users can harness its object detection feature for various AI-powered applications, picture gallery classification and device security.

A Samsung smartphone is used to model the Exynos 7 Series 9610 at the Samsung Electronics booth. The Exynos 7 Series 9610 includes a special DSP, vision-image processor, for object identification of 20 kinds of objects at up to 30fps

The Exynos Series 7 9610 is the first mobile SoC to offer 480fps filming for super slow-motion videos. The only limit to how long a user can record for, at FHD resolution, is the device’s storage capacity

Also introduced this year, the Exynos 9810 is a premium processor, with Samsung’s 3^rd-generation CPU core for enhanced AI and multimedia capabilities. The Exynos 7885 is a high-mid tier processor launched at the end of 2017, and the 7872 is the first to adopt a big CPU core in the volume-zone segment. Offering optimized performance and improved power efficiency, the Exynos processors provide for an incredible user experience.

Samsung promoters showcase the Galaxy S9+, powered by Exynos 9 9810 solution, to an attendee

NFC & Smart Speaker: The Latest in Contactless and Smart Home Technology

Visitors to MWCS can observe applied demonstrations of SLI’s new semiconductor technology; flagship Samsung mobile devices here showcase the NFC contactless power transfer (left) and NFC contactless POS payments technologies (right)

NFC Mobile POS and NFC Power Transfer exhibits the latest in contactless technology. With the Mobile POS, a mobile device can be used to replace a POS reader for virtual payments, and with the Power Transfer, a mobile phone can transfer power to mobile accessories utilizing NFC RF radiation.

The AKI range is a collection of children’s watches powered by Samsung’s Exynos Dual 7270 and NFC technologies

The smart speaker reference platform stand, part of the Samsung experience zone, waits ready for MWCS visitors to experiment with its features – including voice & face recognition as well as personal assistant capabilities

The smart speaker is a great personal assistant for answering questions, playing your favorite music and controlling connected home devices. Based on various Samsung ICs, including Exynos AP, RF, PMIC, image sensor and secure element. Samsung’s smart speaker reference platform helps manufacturers reduced development time and a faster time-to-market.

* Technological term of “Tetrapixel” was updated in July 2022

Samsung Electronics, a world leader in advanced semiconductor technology, today introduced a new 16-megapixel (Mp) ISOCELL Slim 3P9 image sensor along with a Plug and Play solution, a pre-optimized turnkey camera module made up of an ISOCELL image sensor and preferred partner components to help expedite time-to-market.

“Samsung’s ISOCELL image sensors take advantage of various technologies to deliver innovative imaging experiences in mobile devices,” said Ben K. Hur, vice president of System LSI marketing at Samsung Electronics. “The ISOCELL Plug and Play solution will help reduce time-to-market for set makers and offer a quality-assured camera solution to end-users.”

The Samsung ISOCELL Slim 3P9 is a 1.0μm 16Mp image sensor with Tetrapixel* technology that allows bright and vivid pictures in today’s sleekly designed smartphones. With Tetrapixel, a technology that merges four neighboring pixels, the 3P9 can function as a 2.0μm image sensor for front-facing cameras that can take brighter pictures in low-lit environments.

For faster auto-focusing, the 3P9 adopted an advanced phase detection auto-focus (PDAF) with doubled auto-focus agent density than that of conventional PDAF sensors. In addition, the sensor significantly stabilizes pictures and videos taken while in motion with a gyro-synchronizer that syncs frame exposure time from the sensor with movement data from the device’s gyroscope. Once the data is synced, the mobile processor can simply adjust the frames based on movement rather than rigorously analyzing each frame to detect and compensate for angular movement.

For easier camera optimization while accelerating time-to-market, Samsung also offers an ISOCELL Plug and Play solution for the 3P9 in a rear camera module. Optimizing a camera module, made up of parts from different providers, with the mobile processor can be an arduous and lengthy task for smartphone makers. Samsung’s ISOCELL Plug and Play solution simplifies this process by offering a turnkey ISOCELL sensor module tuned for Valued Camera eXperience (VCX)-grade image quality, along with other components, including lenses and actuators from preferred partners.

Since the optimization and reliability tests are done beforehand at the module-level rather than on the sensor alone, manufacturers can simply plug the camera module onto their device, saving up to four months of development time.

The Samsung ISOCELL Slim 3P9 with Plug and Play solution is currently available.

* Technological term of “Tetrapixel” was updated in July 2022

Samsung ISOCELL image sensors fall into four categories—Fast, Slim, Bright and Dual—depending on their key attributes. As market demand for sleeker smartphones with advanced features increases, ISOCELL Fast 2L9 and Slim 2X7 both offer high resolution image sensors in small chip packages, delivering detailed pictures in low-light environments without a camera bump.

ISOCELL Fast 2L9

With Dual Pixel technology, the ISOCELL Fast 2L9 delivers ultra-fast auto-focus at a reduced pixel size from the previous Dual Pixel sensor’s 1.4μm to 1.28μm. Dual Pixel technology employs two photodiodes in each and every pixel of the sensor instead of only one. With 12 million focus detecting pixels, the sensor is able to not only quickly focus on small still objects, but also lock on and track moving objects without losing focus, even in low-light environments. With smaller pixel size, the ISOCELL Fast 2L9 can fit into slimmer camera modules, enabling bump-less designs for smartphones. Dual Pixel technology especially allows depth-of-field effect for taking bokeh, or aesthetically out-of-focused photographs, through a traditional single lens camera.

ISOCELL Slim 2X7

At 0.9μm, the ISOCELL Slim 2X7 is the first sensor in the industry to have the pixel size below 1.0μm. Even with such a small pixel size, the Slim 2X7 is able to provide high color fidelity with less noise due to the improved ISOCELL technology’s deeper DTI (deep trench isolation) that reduces color crosstalk and expands the full-well capacity to hold more light information. In addition, the small 0.9μm pixel size enables a 24Mp image sensor to be fitted in a thinner camera module, allowing premium smartphones to offer high resolution cameras in a very slim and elegant design.

The ISOCELL Slim 2X7 is also packed with Tetrapixel technology, which lets the sensor take brighter photographs in the dark and more detailed ones in well-lit environments. Tetrapixel improves performance in low-light situations by merging four neighboring pixels to work as one to increase light sensitivity. In bright environments, Tetrapixel uses a re-mosaic algorithm to produce full resolution images. This enables consumers to use the same front camera to take photos in various lighting conditions.

“Samsung ISOCELL Fast 2L9 and ISOCELL Slim 2X7 are new image sensors that fully utilize Samsung’s advanced pixel technology, and are highly versatile as they can be placed in both front and rear of a smartphone,” said Ben K. Hur, Vice President of System LSI Marketing at Samsung Electronics. “Samsung plans to further develop the Dual Pixel and 0.9μm-pixel product categories, and expand applicable devices for ISOCELL image sensors that can enhance photographing experiences for consumers.”

* Technological term of “Tetrapixel” was updated in July 2022