Sony Imx Sensor List For Mobile Free -
Traditional autofocus only detects phase differences horizontally. Sony's advanced autofocus utilizes all pixels to detect phase differences both horizontally and vertically, resulting in near-instantaneous focusing in low light.
The introduction of 48MP sensors changed mobile photography by enabling "pixel-binning" (combining 4 pixels into 1 for a 12MP low-light image). The IMX586 was the catalyst.
| Sensor | Resolution | Optical Format | Pixel Size | 4K Video Recording | | --- | --- | --- | --- | --- | | IMX586 | 12MP | 1/2.55" | 1.4μm | Yes | | IMX557 | 12MP | 1/2.55" | 1.4μm | Yes | | IMX363 | 12MP | 1/2.55" | 1.4μm | Yes | | IMX376 | 12MP | 1/2.55" | 1.4μm | Yes | | IMX355 | 16MP | 1/3.6" | 1.0μm | Yes | | IMX298 | 13MP | 1/3" | 1.12μm | No | | IMX219 | 13MP | 1/3" | 1.12μm | No |
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 sony imx sensor list for mobile
Sony IMX sensors are the undisputed champions of mobile photography. Most flagship smartphones rely on Sony Image Exmor (IMX) hardware to capture stunning images. Understanding the differences between these sensors can help you choose your next smartphone.
Sony's dominance relies heavily on its Stacked CMOS design . By separating the pixel light-gathering section from the logic transistor circuits into two distinct layers, Sony crams massive processing power and light sensitivity into tiny modules. 1. Ultra-Premium & Flagship Tier (1.0-Inch & 1/1.x-Inch)
dominates the mobile imaging industry, supplying camera hardware to over 40% of the world's smartphones. From the ubiquitous Apple iPhone ecosystem to Android flagships by Xiaomi, Vivo, Oppo, and OnePlus, Sony Exmor, IMX, and the newer LYTIA series serve as the gold standard for mobile photography. The IMX586 was the catalyst
| Sensor | Resolution | Size | Pixel Size | Key Devices | Notes | | :--- | :--- | :--- | :--- | :--- | :--- | | | 48MP | 1/2.0-inch | 0.8µm (1.6µm binned) | OnePlus 7 Pro, Xiaomi Mi 9, Honor 20 Pro | The legendary 48MP that enabled lossless zoom via cropping. | | IMX689 | 48MP | 1/1.43-inch | 1.12µm (2.24µm binned) | OnePlus 8 Pro, OPPO Find X2 Pro | Larger pixels than IMX586 for better low-light. | | IMX686 | 64MP | 1/1.72-inch | 0.8µm (1.6µm binned) | Xiaomi Mi 10, ROG Phone 3 | Successor to IMX586, offering higher resolution cropping. |
The classic, highly reliable lineup spanning budget to premium devices.
: Doubles sensitivity and reduces noise compared to older designs [1]. Understanding the differences between these sensors can help
Sony has transitionary branding. While legacy hardware retains the prefix, newer mobile sensors are moving under the LYTIA (LYT) brand name (e.g., LYT-900, LYT-808). LYTIA sensors build directly upon the stacked CMOS infrastructure established by the IMX series. If you want to compare specific sensors, let me know: Which two sensors you want to stack up against each other? What phone model camera specs you are trying to verify?
These sensors offer the largest physical size available in smartphones, delivering DSLR-like background blur, massive dynamic range, and unmatched low-light performance. Resolution: 50 MP Sensor Size: 1.0-inch Pixel Size: 1.6 µm (3.2 µm with 4-in-1 binning)
This was the sensor that changed the war. The IMX766 was famous for its "Fat Pixels"—a massive 1/1.56-inch type that drank in light like a starving beast. With its 1.0µm pixels and dual-native ISO, it could see in the dark. It didn't just capture an image; it inhaled the shadows.