Ultra Low-Light MIPI Camera solution for NVIDIA Jetson AGX Xavier developer kit

Ultra-lowlight | High sensitivity | Full HD @ 60fps| Sony STARVIS IMX327

e-con Systems announced the launch of its e-CAM220_CUMI327_MOD Full HD MIPI CSI-2 ultra-lowlight camera module and e-CAM22_CUXVR camera evaluation kit leveraging the powerful Image Signal Processor (ISP) of NVIDIA Jetson edge AI platform. This full HD camera module is based on 2MP Sony STARVIS IMX327 CMOS sensor with 2.9-µm pixel size. This camera is empowered with ultra-low light sensitivity, higher signal to noise (SNR) ratio, and uncompressed Full HD streaming at 60 fps.

This high-sensitivity low-light camera has the capability of capturing both visible and near-infrared images with very low noise even at extremely low lighting conditions or even no light (nearly 0 lux) conditions. It has an s-mount lens holder which allows customers to choose and use the lens according to their applications. Its high dynamic range delivers stunning images even in varying outdoor lighting conditions.

Fig:1 e-CAM220_CUMI327_MOD

Fig 2: e-CAM22_CUXVR – camera with NVIDIA Jetson Xavier

As part of our continuous efforts to bring out the best of imaging technologies to our customers, we are launching our cameras with IMX327 sensor from Sony’s STARTVIS family. We support this latest IMX327 sensor on our Hyperyon USB2.0 cameras and MIPI camera modules for NVIDIA Jetson family.” said Ashok Babu, President of econ Systems, Inc.

To speed up the development process of various applications and to evaluate e-CAM220_CUMI327_MOD camera module’s capabilities, e-con Systems offers e-CAM22_CUXVR camera evaluation Kit, that plugs into the NVIDIA Jetson AGX Xavier developer kit. This Jetson AGX Xavier camera evaluations are as easy as plug and play with gstreamer support for streaming and recording functionalities.



Customers interested in evaluating e-CAM220_CUMI327_MOD camera module with NVIDIA Jetson AGX Xavier developer kit can purchase the e-CAM22_CUXVR from e-con Systems’ online store.