: Uses single-ended signaling for control and power saving.
Used for the heavy lifting—the actual image or video data. It uses differential signaling (typically ~200mV) over two wires (Dp and Dn). This mode allows data rates up to 2.5 Gbps per lane (and up to 4.5 Gbps in newer revisions). : Uses single-ended signaling for control and power saving
For most mainstream applications, due to its maturity, ease of implementation, and broad ecosystem support. This mode allows data rates up to 2
: Uses low-swing differential signaling for fast data transfer (originally 500 Mbps, but modern versions support up to 9 Gbps per lane). Tektronix DPO/MSO Series ) and specialized
. Most professional D-PHY reports follow a standardized structure focused on physical layer (PHY) electrical characteristics or protocol-level decoding. Below is a professional report draft template based on industry-standard compliance and characterization procedures. MIPI D-PHY Characterization & Compliance Report Project Information Project Name: [Insert Project Name] Date: April 9, 2026 Author: [Your Name/Team] DUT (Device Under Test): [e.g., Application Processor / Display Driver IC / Camera Sensor] D-PHY Specification Version: [e.g., v1.2, v2.1, or v3.1] Operating Data Rate: [e.g., 2.5 Gbps per lane] 1. Executive Summary Provide a high-level overview of the test objectives. State whether the DUT passed or failed the overall conformance test suite (CTS) and highlight any critical margins or timing issues observed. 2. Test Configuration & Setup Equipment: List tools such as high-bandwidth real-time oscilloscopes (e.g., Tektronix DPO/MSO Series ) and specialized