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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 .
The Camera Serial Interface (CSI) is a specification of the Mobile Industry Processor Interface (MIPI) Alliance. It defines an interface between a camera and a host processor. The latest active interface specifications are CSI-2 v4.1 (April 2024), CSI-3 v1.1 (March 2014) and CCS v1.1.1 (April 2023).
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]
RFFE may refer to: RF Front-End Working Group (RFFE) of the MIPI Alliance Escherichia coli (E. coli) rffE strain (rffE), with mutant defective UDP-N-acetylglucosamine 2-epimerase
Pages in category "MIPI Alliance standards" The following 11 pages are in this category, out of 11 total. This list may not reflect recent changes. C. Camera interface;
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.
Motorola's original specification (from the early 1980s) uses four logic signals, aka lines or wires, to support full duplex communication. It is sometimes called a four-wire serial bus to contrast with three-wire variants which are half duplex, and with the two-wire I²C and 1-Wire serial buses.
These PHY technologies are covered in separate MIPI specifications [11] [12] (which are referenced by the UniPro specification. Note that the term UniPort is used to represent the actual port on a chip which conforms to the UniPro specification for its upper layers (L1.5 to 4) and a MIPI PHY specification for L1. As there are two PHY ...