To address the explosive growth in the mobile industry, the Mobile Industry Processor Interface (MIPI®) Alliance was created to define and promote open standards for interfaces to mobile application processors. D-PHY is the physical layer specified for several of the key protocols within the MIPI® family of specifications.
Arasan offers industry’s broadest portfolio of foundry and process technology support for MIPI D-PHY. The MIPI D-PHY analog IP is available in foundry processes spanning 28nm to 180nm. Arasan specializes in porting Analog Transceiver IP Cores to new foundry processes.
Arasan’s MIPI D-PHY Analog Transceiver IP Core is fully compliant to the D-PHY specification version 1.2. It supports the MIPI® Camera Serial Interface (CSI-2) and Display Serial Interface (DSI) protocols at speeds up to 2.5Gbps per lane. It is a Universal PHY that can be configured as a transmitter, receiver or transceiver. The D-PHY consists of an analog front end to generate and receive the electrical level signals, and a digital back end to control the I/O functions.
The Arasan D-PHY provides a point to point connection between master and slave or host and device that comply with a relevant MIPI® standard. A typical configuration consists of a clock lane and 1-4 data lanes. The master/host is primarily the source of data and the slave/device is usually the sink of data. The D-PHY lanes can be configured for unidirectional or bidirectional lane operation, originating at the master and terminating at the slave. It can be configured to operate as a master or as a slave. The D-PHY link supports a high speed (HS) mode for fast data traffic and a low power (LP) mode for control transactions. In HS mode, the low swing differential signal is able to support data transfers from 80 Mbps to 1500 Mbps per lane without deskew calibration and up to 2500 Mbps with deskew calibration. In LP mode all wires operate as a single ended line capable of supporting 10 Mbps asynchronous data communications.
The Arasan D-PHY Analog Transceiver IP core implements the PPI interface recommended by the MIPI® working groups to easily interface to the required protocols.