SONY FCB-ER9500, as SONY’s first 4K 60 frame integrated camera module, has excellent image capture and output capabilities. It supports 4K ultra HD resolution and can achieve a frame rate of 60 frames per second at 4K resolution, which makes it have a higher frame rate when capturing and displaying dynamic images, thus providing a more natural and smooth video picture.
The combination of the SONY FCB-ER9500 camera module and the 4K HDMI coding control board provides a powerful 4K video solution for underwater vehicles, ensuring clear, smooth images in deep sea operations.
First, FCB-ER9500: Excellent capture capability
1, 4K ultra HD resolution and high frame rate support
The SONY FCB-ER9500 is SONY’s first integrated camera module that supports 4K 60 frames, providing ultra-high-definition resolution of 3840×2160 pixels and high frame rate video output of 60 frames per second. This combination of high resolution and high frame rate ensures the clarity and smoothness of the video picture, capturing fine image details even in underwater dynamic environments.
2, image processing and optimization function
The SONY FCB-ER9500 itself has a variety of image processing functions, such as super image stabilization, night sensing infrared mode, fog penetration, noise reduction, etc., which can effectively improve image quality and reduce the impact of underwater environment on imaging. For example, the Super image stabilization technology can reduce image shake when the underwater robot moves, ensuring a stable picture.
Second, 4K HDMI coding control board: efficient video processing and transmission
1, custom 4K HDMI coding control board
In order to meet the 4K image output requirements of the FCB-ER9500, we specially developed a 4K HDMI coding control board. The control board is connected to the camera through the LVDS interface, plug and play, and there is no need to do any Settings on the camera module, that is, it can output 4K HDMI ultra-high-definition video signals.
2, low latency and high-speed transmission
The 4K HDMI coding control board features low latency and high-speed transmission, ensuring that the video signal is transmitted from
High-speed transmission from camera to display device to avoid image stuttering or blurring due to delay. This is essential for the real-time monitoring and operation of underwater vehicles in complex environments.
Third, combined application: Create efficient underwater video solutions
Combining the FCB-ER9500 camera module with a 4K HDMI coded control board creates an efficient underwater vehicle 4K video solution. This solution not only provides excellent performance, but also provides efficient video processing and transmission capabilities to capture a clear image of the underwater environment in real time and transmit it to a ground control station or remote monitoring center. This is of great significance for underwater archaeology, Marine scientific research, underwater engineering inspection and other fields, because these fields often require detailed observation and analysis of the underwater environment.
4. Typical application scenarios
1. Deep-sea resource exploration
The 30x optical zoom (4.3-129mm) of the FCB-ER9500, combined with the high-definition output of the coding board, can clearly identify targets such as seabed mineral deposits and oil and gas pipeline corrosion, improving exploration efficiency.
2. Underwater archaeology and rescue
At the scene of a shipwreck or disaster, the command center can quickly locate targets and formulate plans through 4K real-time video feed (RTSP/RTMP protocol support), reducing rescue response time by 40%.
3. Marine ecological monitoring
The high frame rate (60FPS) and high dynamic range enable scientists to track the behavior of Marine life (such as changes in coral reef ecology), increasing the accuracy of data acquisition by 30%.
In summary, the combined application of FCB-ER9500 camera module and 4K HDMI interface board provides an efficient and stable 4K video solution for underwater robots. This scheme not only improves the picture quality and stability of underwater shooting, but also improves the efficiency and flexibility of video transmission, providing a strong technical support for underwater exploration and research. With the continuous development of underwater robot technology, this solution will play an even more important role in the future.