Sony Imx Sensor List For Mobile Access

Sony’s IMX sensor lineup for mobile devices is vast, but it follows a clear logic: bigger sensor size + larger binned pixels + modern stacked architecture = better image quality. From the budget-friendly IMX586 to the revolutionary IMX989, Sony continues to dominate the mobile imaging supply chain.

The next frontier is already here: dual-layer transistor sensors (Exmor T) like the IMX888 and IMX903, which promise near-1-inch performance in smaller footprints. As computational photography evolves, the sensor remains the foundation—and Sony IMX is still the gold standard.

This list is accurate as of 2025. Sony occasionally releases OEM-specific variants (e.g., custom IMX for Apple or Samsung), but this guide covers all publicly documented general release IMX sensors for mobile.

Sony's mobile sensor lineup is currently undergoing a massive evolution as the company transitions its high-end smartphone hardware from the classic IMX branding to the newer LYTIA (LYT) series. While IMX remains the standard for many devices, the LYTIA line represents the next generation of "stacked" sensor technology, prioritizing higher dynamic range and superior low-light performance. The "Big Guns": Flagship 1-Inch & High-End Sensors

These sensors are designed for primary "main" cameras in flagship devices, focusing on large physical sizes to capture more light. LYT-900 (The New King)

: A 1-inch type sensor with 50MP resolution and 1.6μm pixels. It is the direct successor to the and is found in elite flagships like the Xiaomi 14 Ultra Go to product viewer dialog for this item. and Vivo X100 Pro Go to product viewer dialog for this item. . IMX989 (The Original 1-Inch)

: The first true 1-inch mobile sensor, famous for its incredible natural bokeh and low-light prowess. Still a top-tier performer in several 2024-2025 flagships.

: High-end 1/1.28" sensors with 50MP. They offer up to 17 stops of dynamic range, aimed at closing the gap between mobile and cinema cameras. LYT-T808 (Pixel-Stacked) sony imx sensor list for mobile

: A 1/1.43" sensor that uses a "Pixel Stacked" architecture to achieve light sensitivity comparable to much larger sensors while maintaining a thinner profile. The Performance All-Stars: Upper Mid-Range & Secondary

These are the workhorses often used for high-quality secondary (telephoto or ultrawide) lenses or as the main sensor in mid-range "flagship killers."

Some common good features among these Sony IMX sensors include:

The Sony IMX & LYTIA Mobile Sensor Guide (2026 Edition) Sony remains the dominant force in smartphone photography, providing the "eyes" for nearly every major flagship and mid-range device on the market. As of 2026, Sony is in the final stages of a major branding transition, moving its legendary series under the new

banner to better align with its mobile-first imaging philosophy. www.sony-semicon.com The 2026 Branding Shift: IMX to LYTIA

Sony is phasing out the "IMX" prefix for smartphone-specific sensors in favour of the "LYT" (LYTIA) brand. This transition aims to differentiate high-performance mobile sensors from industrial or professional camera components. (Formerly IMX989 successor): The current flagship 1-inch type sensor. The rebranded version of the popular The rebranded version of the Core Sensor Categories and Key Models

Sony's mobile sensor lineup is divided into tiers based on sensor size (optical format) and target device performance. realme.com 1. Flagship "1-Inch Type" Sensors Sony’s IMX sensor lineup for mobile devices is

These represent the pinnacle of mobile imaging, offering the largest surface area to collect light and create natural bokeh.

The story of Sony’s IMX mobile sensors is a transition from basic digital eyes to sophisticated, AI-driven "intelligent vision" systems that power nearly 53% of the global market The Early Years: From CCD to CMOS Sony's imaging journey began in the 1970s with CCD (Charge-Coupled Device) sensors. However, the real shift for mobile came in , when Sony pivoted toward CMOS (Complementary Metal-Oxide-Semiconductor)

technology, which consumed less power and allowed for faster data readout—perfect for the burgeoning smartphone market. Sony launched the first CMOS sensor with a Column-Parallel A/D Conversion Circuit , significantly reducing noise. The introduction of Back-Illuminated (BSI)

sensors roughly doubled light sensitivity compared to traditional designs. The Stacked Revolution (2012–2018) , Sony commercialized the stacked CMOS sensor

, which separated the pixel layer from the logic circuit. This allowed for more complex processing power without increasing the physical footprint, leading to features like high-speed video and better low-light performance.

One of the early stacked sensors that brought high-quality 13MP imaging to mobile.

These became the workhorses of mid-to-high-end smartphones like the Google Pixel and early Xiaomi flagships, known for their reliability. A major breakthrough that introduced This list is accurate as of 2025

resolution using a Quad Bayer filter, making high-resolution mobile photography a mainstream standard. The Era of Large Sensors (2020–2024)

As computational photography matured, the race for larger physical sensors began to overcome the limitations of small mobile lenses.

Many manufacturers claim "custom" sensors. Usually, these are Sony IMX chips modified for exclusivity.

Sony Semiconductor Solutions dominates the mobile image sensor market with its IMX (Image Matrix) series. These sensors range from budget 2MP units to flagship 1-inch-type sensors. This report categorizes sensors by resolution, pixel size, and typical use case (primary, ultra-wide, telephoto, front-facing).

| Model | Resolution | Format | Pixel Size | Notes | |-------|------------|--------|-------------|-------| | IMX858 | 50MP | 1/2.51" | 0.7µm | Versatile secondary (ultra-wide, tele, selfie) – used in Xiaomi 13 Ultra | | IMX754 | 50MP | 1/2.8" | 0.7µm | Telephoto (Samsung Galaxy S23 Ultra periscope) | | IMX713 | 12MP | 1/3.4" | 1.0µm | Telephoto (iPhone 15 Pro Max 5x zoom) | | IMX663 | 12MP | 1/2.93" | 1.22µm | Dual-PD, tele/portrait (Xperia PRO-I, Pixel 6 tele) | | IMX351 | 12MP | 1/3.09" | 1.0µm | Ultra-wide (Sony Xperia 1 series) | | IMX355 | 8MP | 1/4.0" | 1.12µm | Budget ultra-wide |

| Model | Resolution | Optical Format | Pixel Size | Notes | |-------|------------|----------------|-------------|-------| | IMX758 | 50 MP | 1/2.51" | 0.7 µm | 2x or 3x tele. Vivo X90 Pro+ (portrait) | | IMX754 | 50 MP | 1/2.8" | 0.8 µm | 3x-10x zoom. Samsung Galaxy S22/S23 Ultra (periscope) | | IMX713 | 12 MP | 1/3.4" | 1.0 µm | Tele/zoom. Pixel 4, iPhone 11 Pro | | IMX520 | 5 MP | 1/5" | 1.12 µm | Dedicated macro or depth | | IMX663 | 12 MP | 1/2.93" | 1.22 µm | Telephoto/portrait. Pixel 6 Pro, Zenfone 9 |

| Sensor | Resolution | Key Feature | Key Devices | Notes | | :--- | :--- | :--- | :--- | :--- | | IMX557 | 12MP | Fast readout | Xperia 1 III, Pro-I | High-speed sensor for burst photos and 4K HDR video. | | IMX213 | 0.3MP | ToF (Time of Flight) | Huawei Mate 20 Pro, Galaxy S20+ | For depth mapping and AR. |