DC-ME9-01-C

DC-ME9-01-C Application Field and Working Principle

Introduction

DC-ME9-01-C is an embedded hardware module used for Machine Vision applications that are based on multi-core processors. It enables the efficient transfer and real-time processing of large amounts of data from a wide range of sensors connected to a second system, such as a vision processor, robotic controller, etc. The module combines the power of embedded processing and advanced vision technologies, with high-performance, distributed architecture. It is suitable for a number of industrial and non-industrial applications.

Application Field

DC-ME9-01-C module is widely used in machine vision applications in industrial sectors such as automatic measurement, guidance, inspection, and machine vision control systems. It is also used in non-industrial fields, including security, surveillance, image processing, pattern recognition, and autonomous robots.

DC-ME9-01-C module is well suited for applications in various demanding environments. It supports various camera links and is capable of sending and receiving data from a range of bandwidths and resolutions. It is resistant to vibration, shock, and temperature changes, allowing it to cope with harsh industrial environments. It also supports a wide range of operating systems, allowing it to be deployed in a variety of applications from motion control systems to embedded vision.

Working Principle

DC-ME9-01-C works on the principle of data transfer between systems with camera links. It supports a wide range of camera links including Camera Link, GigE Vision, CoaXPress, and USB3 Vision. It connects to the host computer via a serial interface, allowing data to be transferred quickly and reliably.

The module communicates with a vision processor through an MIPI interface. It provides the vision processor with the data from the camera link. This data is then processed by the vision processor to produce a desired result. The module also supports image processing algorithms for applications such as object classification and feature extraction.

Once the data is processed by the vision processor, the module transfers the results back to the host computer. This results in a vast amount of data being exchanged between the two devices. The data is transferred in real time, allowing for precise machine control and accurate decisions.

DC-ME9-01-C also supports a wide range of embedded operating systems such as Linux, Windows, and RTOS. This allows users to develop custom applications quickly and easily, without having to modify existing hardware and software. The module also supports Ethernet, allowing users to remotely access the machine vision system.

Conclusion

DC-ME9-01-C is an embedded hardware module used for machine vision applications. It is able to efficiently transfer large amounts of data from a wide range of sensors connected to a second system. It supports various camera links and is capable of sending and receiving data from a range of bandwidths and resolutions. DC-ME9-01-C is also resistant to vibration, shock, and temperature changes, allowing it to be used in harsh industrial environments. Additionally, it supports a wide range of embedded operating systems, allowing users to develop custom applications quickly and easily.