Scope app decodes and debugs MIPI M-PHY

August 05, 2016 // By Graham Prophet
A triggering and decoding option, RTO-K44, for Rohde & Schwarz’ RTO2000 oscilloscopes offers support to developers during startup and debugging of devices and components containing M-PHY interfaces.

Defined as a physical layer, M-PHY serves as the basis for a number of protocol standards that have been optimized for rapid data transmission in mobile devices. For example, M-PHY is used together with CSI-3 in cameras and with UFS in memory components for multimedia applications. With DigRF Rev.4, UniPort or LLI, the interface is used in chip-to-chip communications.

With the RTO-K44 triggering and decoding option, says R&S, manufacturers of compatible processors and communications ICs as well as memory components for mobile phones, tablets and cameras have a reliable solution for designing, verifying and debugging their products. Integrated circuit designs for high-performance mobile devices such as smartphones, for example, often exhibit problems due to the close proximity of fast digital interfaces and sensitive functional blocks such as radio modules. The R&S RTO-K44 helps designers find the sources of errors related to M-PHY-based interfaces.

The option gives users dedicated access to protocol results in the lowest M-PHY physical layer. The R&S RTO-K44 additionally supports the higher protocol layers of the UniPro standard, which was also defined by the MIPI Alliance. This gives users a great deal of flexibility in selecting an appropriate decoding level for targeted debugging.

Targeted acquisition of protocol data is possible thanks to the wide variety of available protocol-based trigger events such as start of frame, data bursts, line control commands (LCC) or various protocol data units (PDU). This data can then be analyzed in detail. The decoded protocol elements are displayed with colour coding in a trace diagram or in a table.