SENSING Launches 12MP MIPI Camera for NVIDIA Jetson Orin Series

SENSING's 4-lane CSI-2 MIPI camera based on NVIDIA Jetson Orin Nano (with SONY 12MP IMX577 image sensor) development kit will provide AI practitioners, development enthusiasts, and eco-partners in various industries with a rapid development platform to build MIPI cameras.

The MIPI camera has the advantages of fast speed, large amount of data transmission, low power consumption and simple adaptation, which can effectively meet this challenge.

SENSING MIPI Camera (4-Lane CSI-2)

Recently, SENSING, with its full-stack technical capability and rich mass production experience in intelligent driving high-quality imaging, combined with the company's industry advantages in intelligent driving and perception imaging, innovatively launched the industry's first high pixel MIPI camera SG12-IMX577C-MIPI module that can be used in machine vision, industrial inspection, assisted driving and aerospace scenarios.

SENISNG MIPI camera module is developed by Senyun independently, using SONY 12MP IMX577 image sensor, 4 Lane MIPI CSI-2 interface, can be equipped with 15/22Pin FPC soft cable, and output uncompressed RAW data, can effectively solve the camera in the complex and changing scene screen to obtain uncompressed high quality high pixel image needs.

SENSING MIPI camera is equipped with SONY IMX577 image sensor with 1/2.3-inch and 1.55µm pixel size, and with Jetson Orin's Onboard ISP module, it can provide customers with high-speed, high-resolution and high-sensitivity images. The camera is capable of capturing images of scenes that were previously difficult to capture at will, such as capturing detailed information with high accuracy and continuity while moving at high speed; and achieving low-noise, high-sensitivity shooting in dim environments.

This outstanding Moriun MIPI camera can be widely used in machine vision, industrial inspection, assisted driving and aviation fields, etc. It can effectively solve the needs of the camera to obtain uncompressed high quality and high signal-to-noise ratio images in complex and changing scenes, as well as flexible and efficient mass data transfer between cameras in various modes. At present, Moriyun's camera modules include models with different fields of view, apertures and focal lengths for customers to choose from, and customization services are also available according to customer needs. The overall size of this MIPI camera is only 20x35x25mm and weighs about 50g, making it very compact and easy to install.

Application of NVIDIA Jetson Orin Nano-based MIPI Camera Development Kit

As a partner of NVIDIA Elite Jetson, SENISNG always ensures deep integration of SENISNG cameras with the Jetson platform by relying on the ISP tuning technology on NVIDIA Jetson. The MIPI camera module is a 12MP SONY IMX577 camera for NVIDIA Jetson Orin Nano. In addition, SENSING's MIPI camera module will also support the full range of official Jetson Orin development kits.

The Jetson Orin Nano development kit serves as a new benchmark for entry-level edge AI and robotics with extremely good arithmetic power, enabling developers to run any type of modern AI model and improve the efficiency of project completion. The kit supports 2 MIPI cameras simultaneously and offers the advantages of high performance, low power consumption and small size.

SENISNG launched the MIPI camera module development kit based on NVIDIA Jetson Orin Nano, mainly to provide AI practitioners, development enthusiasts, and eco-partners in various industries with a development platform to quickly build MIPI cameras and, with the universality and flexibility of the Jetson Orin Nano development kit, make it easy for everyone to develop a variety of suitable applications for their own learning and research.

The development kit meets the vision needs for imaging complex scenes and high-detail images in machine vision, industrial inspection, and other applications. For example, in drone applications, its high-detail image expressiveness, combined with image analysis and inference arithmetic, can ensure the detection, perception and safe flight of drones in various environments; in industrial inspection applications, it can monitor the operation status of equipment, workers' operations, etc., and timely find and deal with equipment failures, workers' operation violations, etc., to improve production efficiency and safety, etc.