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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
MIPI Alliance Debug Architecture provides a standardized infrastructure for debugging deeply embedded systems in the mobile and mobile-influenced space. The MIPI Alliance MIPI Debug Working Group has released a portfolio of specifications; their objective is to provide standard debug protocols and standard interfaces from a system on a chip (SoC) to the debug tool.
The Camera Interface block or CAMIF is the hardware block that interfaces with different image sensor interfaces and provides a standard output that can be used for subsequent image processing.
The MIPI Alliance was formed in 2003, aiming to establish standards in mobile industry components. The first version of the MIPI DSI, version 1.0 was released in 2005. MIPI DSI v1.1 was released in 2007, and added features such as "Command Mode" for directly sending commands and data to display modules using the display controller. [1]
MIPI Alliance is a global business alliance that develops technical specifications for the mobile ecosystem, particularly smart phones but including mobile-influenced industries. MIPI was founded in 2003 by Arm , Intel , Nokia , Samsung , STMicroelectronics and Texas Instruments .
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.
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.
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.