Sony Imx519 Datasheet [2025]
Last updated: 2025 (for historical and technical reference).
However, the datasheet also hints at the sensor’s Achilles’ heel: the lack of on-chip phase detection for all pixels (2x2 OCL). It relied on fewer masked PDAF pixels, which worked adequately in good light but caused focus hunting in dim scenes—a flaw that engineers attempted to mask with laser assist modules in the system design.
The Sony IMX519 image sensor is widely used in various applications, including: sony imx519 datasheet
In the rapidly evolving world of mobile imaging, sensors often become the unsung heroes behind a great photograph. While high-end flagship sensors like the Sony IMX789 or IMX989 grab headlines, mid-range sensors quietly power millions of reliable, everyday smartphone cameras. One such sensor is the .
The IMX519 is controlled via (or sometimes CCI – Camera Control Interface) using a register set that follows Sony’s family pattern. Common registers include: Last updated: 2025 (for historical and technical reference)
If you are a commercial entity designing a product with the IMX519, here are legitimate paths:
From a 2025 perspective, the IMX519 datasheet reads as a document of intelligent trade-offs. It was never designed to beat the Sony IMX378 (1.55µm pixels) in pure low-light sensitivity, nor the IMX400 (with DRAM layer) in extreme slow motion. Instead, its genius was balance . It offered 80% of the flagship speed at 60% of the power and cost. The Sony IMX519 image sensor is widely used
The IMX519 uses a triple or quadruple-speed readout mode combined with on-chip memory stacking. Instead of reading all pixels continuously, the sensor dumps frames into a temporary DRAM layer (stacked die) and then reads them out at a slower rate to the ISP. This is why 960fps recording is typically limited to short bursts (0.25 to 0.5 seconds).
When evaluated by third-party labs (e.g., DxOMark on the OnePlus 6), the IMX519 scored favorably for its time:
