OmniVision Technologies, Inc. announced its 1.3MP OX01E10 SoC, providing automotive designers with the industry’s best imaging performance for entry-level rearview cameras (RVC) across a wide range of challenging lighting conditions, along with the most compact form factor and lowest power consumption. In a single, 1/4” optical format package, the OX01E10 integrates a 3 micron image sensor and an advanced image signal processor (ISP), enabling designers to achieve a small form factor with excellent low-light performance, ultra-low power and reduced cost while improving reliability by using only one printed circuit board (PCB). Additionally, the OX01E10 provides two onscreen display overlay layers for driver guidelines, as well as distortion correction to straighten any curved edges from lenses with a wide viewing angle.
In addition to the regulatory requirements driving growth in rearview cameras, car buyers have come to expect them. Yole Développement estimates that 42 million image sensors were shipped for RVC applications in 2019, and they forecast a 5 year CAGR of 7% (1).
The OX01E10 features power consumption that is over 35% lower than competitors’ and significantly reduces temperature. In fact, this is the only imaging device for entry-level RVC that does not require a metal heat sink, allowing for the use of plastic camera module bodies to reduce costs. With its compact package size, it also enables smaller cameras that can fit in much tighter spaces. In addition, by integrating both the image sensor and ISP into a single chip, designers can save on both cost and space by eliminating the second PCB in typical two-chip implementations.
OmniVision’s dual conversion gain (DCG) technology is employed in this SoC to achieve a high dynamic range (HDR) of 120dB with only two captures, as opposed to three required by the competition, which minimizes motion artifacts while reducing power consumption and boosting low-light performance. Its integrated ISP further enables superior image quality with a number of advanced features, such as:
● Lens chromatic aberration correction
● Advanced noise reduction and local tone mapping
The OX01E10’s image sensor is built on the PureCel Plus pixel architecture, which is renowned for its low-light sensitivity and provides the industry’s best SNR performance. As a result, the OX01E10 performs better than the competition across challenging lighting conditions, eliminating unnatural halos from LEDs and providing better contrast on bright days.
This SoC provides 1.3MP resolution and a 1340×1020 array size at 30 fps, which offers ample resolution for calibration. It also enables output flexibility with both 2-lane MIPI and 10-bit DVP interfaces.
The OX01E10 SoC is AEC-Q100 Grade 2 certified and samples are available now, with mass production expected in Q3 2020.