Sony’s current mobile sensor lineup is divided between the legacy IMX series and the high-performance LYTIA (LYT) series www.sony-semicon.com Premium LYTIA Series (Flagship Performance) LYTIA mobile lineup
represents Sony's latest advancements in stacked sensor technology and high dynamic range. www.sony-semicon.com Sensor Model Optical Format Key Features 8K video, 17 stops of dynamic range 1-inch class flagship for ultimate low light Hybrid Frame HDR, ultra-low noise UHCG (Ultra High Conversion Gain) technology LYTIA T808 2-layer stacked pixel structure for better light capture Balanced performance for slim flagships All-pixel AF for mid-range main or telephoto Designed for front-facing selfie cameras Classic IMX Series (Mid-Range & Specific Roles)
These sensors are widely used across budget to upper-mid-range devices like the OnePlus 12R vivo T3 5G Sony IMX Sensor Camera Mobile Phones 2025 - Bajaj Finserv
Title: The Glass Eye of the Machine
The resistance fighter, Kael, crouched in the rain-slicked ruins of the old city. In his hand, he held the only thing that mattered: a salvaged Recon-Unit, its chassis cracked, revealing the copper veins beneath. But Kael wasn't interested in the processor or the battery. He was interested in the eye.
He popped the back panel. There, glistening like a dark jewel, sat the sensor.
"Talk to me," Kael whispered, connecting the diagnostic leads to his wrist-comp. "What do you see?" sony imx sensor list for mobile
The screen flickered. Text scrolled down: SENSOR ID DETECTED.
This was the moment of truth. In the age of the Silicon Wars, the difference between life and death wasn't caliber or armor—it was light capture. And the hierarchy of sensors was written in blood and photons.
| Sensor | Resolution | Pixel Size (Native/Binned) | Size (inch) | Typical Usage Era | Flagship Devices | |--------|------------|----------------------------|-------------|-------------------|------------------| | IMX363 | 12.2MP | 1.4µm | 1/2.55" | 2018–2020 | Pixel 3/4, Mi 8 | | IMX586 | 48MP | 0.8µm / 1.6µm | 1/2.0" | 2019–2021 | OnePlus 7 Pro | | IMX686 | 64MP | 0.8µm / 1.6µm | 1/1.73" | 2020–2022 | Realme X50 Pro | | IMX689 | 48MP | 1.12µm / 2.24µm | 1/1.43" | 2020–2021 | OnePlus 8 Pro | | IMX700 | 50MP | 1.22µm / 2.44µm | 1/1.28" | 2020–2022 | Huawei P40 Pro | | IMX766 | 50MP | 1.0µm / 2.0µm | 1/1.56" | 2021–2023 | OnePlus 9/10 Pro | | IMX890 | 50MP | 1.0µm / 2.0µm | 1/1.56" | 2023–present | OnePlus 11, ROG 7 | | IMX800 | 54MP | 1.0µm / 2.0µm | 1/1.49" | 2023–present | Xiaomi 13, Honor 80 | | IMX989 | 50MP | 1.6µm / 3.2µm | 1.0" | 2022–present | Xiaomi 13/14 Ultra | | IMX903 | 48MP | 1.22µm / 2.44µm | ~1/1.3" | 2024–present | iPhone 16 Pro Max |
The Sony IMX sensor lineup for mobile spans:
When selecting a phone, an IMX sensor above IMX6xx (e.g., IMX766, IMX800, IMX989) generally indicates a capable camera, though software tuning (ISP, algorithm) remains equally important.
Report generated: April 2026
Sources: Sony Semiconductor public data, device teardowns (iFixit, TechInsights), and industry camera reviews. Sony’s current mobile sensor lineup is divided between
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 Full List Summary Table (Main Rear Sensors Only)
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.
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).
Sensors that achieved legendary status for reliability and performance.
| Sensor | Resolution | Size | Typical Use | Key Devices | Notes | | :--- | :--- | :--- | :--- | :--- | :--- | | IMX363 | 12.2MP | 1/2.55-inch | Primary (Pixel 3/4/5a) | Pixel 3, Pixel 4, Pixel 5, LG V40 | Dual Pixel PDAF. Relied on Google’s software for years. | | IMX362 | 12.2MP | 1/2.55-inch | Primary | HTC U11, Zenfone 5Z | Dual Pixel. The predecessor to IMX363. | | IMX345 / 355 | 12MP | 1/3.4-inch | Front camera / Depth | Various Samsung mid-rangers | Small, cheap, reliable. | | IMX754 | 48MP | 1/1.95-inch | Telephoto (periscope) | Galaxy S23 Ultra, Galaxy S24 Ultra | Used for 10x optical zoom in Samsung’s Ultra series. | | IMX858 | 50MP | 1/2.51-inch | Telephoto / Ultrawide | Xiaomi 13 Ultra, Xiaomi 14 Pro | The most versatile secondary sensor. Small size, big performance. Supports multi-camera color alignment. |