MIPI D-PHY1.2 CSI/DSI TX and RX
MIPI D-PHY1.2 CSI/DSI TX and RX
The Innosilicon D-PHY supports high-speed and low-speed modes for bidirectional data transfer. It offers both receiver and transceiver solutions, ensuring efficient data transmission in D-PHY mode.

The Innosilicon DSI Controller implements the MIPI DSI-2 protocol, enabling high-speed display communication. It packs and distributes pixel data to the D-PHY, supporting features like pixel/byte packing, low-level protocol, and lane management. The DSI TX transmits data to the display, while the DSI RX reconstructs data streams from the display, ensuring error-free communication. This IP is ideal for mobile devices, AR/VR headsets, and automotive displays, offering high performance and low latency.

The Innosilicon CSI Controller implements the MIPI CSI-2 protocol, facilitating camera-to-processor communication. It packs pixel data for transmission via the D-PHY and reconstructs data streams at the receiver end. The CSI TX/RX supports error detection (ECC/CRC) and lane management, ensuring reliable data transfer. This IP is widely used in smartphones, drones, surveillance cameras, and automotive ADAS systems, providing high-speed, low-power connectivity for image sensors.
MIPI D-PHY Block Diagram
  • Benefits
  • Features
  • Deliverables
  • Applications
  • Low power consumption
  • Fully customizable
  • High speed hub using VLPI low latency
  • Small area
  • Simple integration process
  • Available options include:
  • Test chips and test boards

    FPGA integration support

    Chip level integration

  • Compliant with MIPI Alliance Specification for D-PHY V2.0
  • Compliant with MIPI Alliance Specification for DSI-2 V1.0
  • Compliant with MIPI Alliance Specification for CSI-2 V2.0
  • HS, LP, ULPS modes supported
  • 4.5Gbps maximum data transfer rate per lane on D-PHY mode
  • Asynchronous transfer at low power mode with a bit rate of 10Mbps on D-PHY
  • Unidirectional and bi-directional modes supported
  • Skew-calibration for D-PHY supported
  • ECC and CRC insertion supported
  • Automatic termination control for HS and LP modes
  • Buffers with tunable on-die-termination and advanced equalization
  • Supports BIST logic
  • Supports combo LVDS/TTL IP
  • Combined with DSC1.2A for delivery
  • Databook and physical implementation guides Netlist (Spice format for LVS)
  • Library Exchange Format (LEF)
  • Verilog Models
  • GDSII to Foundry IP Merge
  • Module integration guidelines
  • Silicon validation report (when available)
  • Evaluation board (when available)
  • Consumer Electronics
  • Automotive
  • IoT
  • AR/VR
  • Industrial

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