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The MIPI CSI-2 v1.0 specification was released in 2005. It uses either D-PHY or C-PHY (Both standards are set by the MIPI Alliance) as a physical layer option. The protocol is divided into the following layers: Physical Layer (C-PHY/D-PHY) Lane Merger Layer. Low Level Protocol Layer. Pixel to Byte Conversion Layer; Application Layer
M-PHY is a high speed data communications physical layer protocol standard developed by the MIPI Alliance, PHY Working group, and targeted at the needs of mobile multimedia devices. [1] The specification's details are proprietary to MIPI member organizations, but a substantial body of knowledge can be assembled from open sources.
A typical Camera Interface would support at least a parallel interface although these days many camera interfaces are beginning to support the Mobile Industry Processor Interface (MIPI) Camera Serial Interface (CSI) interface.
A GMSL serializer receives video from a standard digital video interface such as HDMI, DisplayPort, Camera Serial Interface (CSI-2) or Display Serial Interface (DSI) and can transmit it over a cable of up to 15 m in length. [5] The data is received by a GMSL deserializer that can output it on another standard digital video interface.
Camera Link is a serial communication protocol standard [1] designed for camera interface applications based on the National Semiconductor interface Channel-link.It was designed for the purpose of standardizing scientific and industrial video products including cameras, cables and frame grabbers.
In mobile-telephone technology, the UniPro protocol stack [1] follows the architecture of the classical OSI Reference Model. In UniPro , the OSI Physical Layer is split into two sublayers: Layer 1 (the actual physical layer) and Layer 1.5 (the PHY Adapter layer) which abstracts from differences between alternative Layer 1 technologies.
FOR IMMEDIATE RELEASE: CONTACT: Wednesday, September 9, 2009 Susan Weinstock (202) 387-6121 Jack Gillis (202) 737-0766
The initiative to develop the UniPro protocol came forth out of a pair of research projects at respectively Nokia Research Center [1] and Philips Research. [2] Both teams independently arrived at the conclusion that the complexity of mobile systems could be reduced by splitting the system design into well-defined functional modules interconnected by a network.