USB 3.2 Gen2/Gen1 PHY

M31 USB 3.2 Gen2 (support x1/x2) transceiver IP provides a complete range of USB 3.2 Gen2 host and peripheral applications up to 10x2Gbps. It is compliant with the PIPE4.0 and UTMI+ specifications. The USB 3.2 Gen2 IP integrates high-speed mixed signal circuits to support Gen2 and Gen1 traffic and is backward compatible with 480Mbps high-speed, 12Mbps full-speed, and 1.5Mbps low-speed data rates. To support USB Type-C connectors, the USB 3.2 Gen2 IP also integrates the active switch to support the bi-directional plug-in and the specific functions (USB attachment cable orientation detection and VBUS configuration) through the CC1/CC2 pins defined in Type-C connector.

Block Diagram
RX Jitter Tolerance for USB3.2 Gen2x1 Device with the Type-C Connector
  • IP Product Lists
  • USB 3.2 Gen2 Features
  • USB 3.2 Gen1 Features
  • USB3.2 Gen2 x2-lane, Dual-Role PHY, TSMC N6, 1.8V, N/S orientation, type-C
  • USB3.2 Gen2 x2-lane, Dual-Role PHY, TSMC N7, 1.8V, N/S orientation, type-C
  • USB3.2 Gen2 x2-lane, Dual-Role PHY, TSMC 28HPC+, N/S orientation, type-C
  • USB3.2 Gen2 x1-lane, Dual-Role PHY, TSMC N5, 1.2V, N/S orientation, type-C
  • USB3.2 Gen2 x1-lane, Dual-Role PHY, TSMC N6, 1.8V, N/S orientation, type-C
  • USB3.2 Gen2 x1-lane, Dual-Role PHY, TSMC N7, 1.8V, N/S orientation, type-C
  • USB3.2 Gen2 x1-lane, Dual-Role PHY, TSMC 12FFC, N/S orientation, type-C
  • USB3.2 Gen2 x1-lane, Dual-Role PHY, TSMC 16FFC, N/S orientation, type-C
  • USB3.2 Gen2 x1-lane, Dual-Role PHY, SMIC 14FF, N/S orientation
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC N6, 1.8V, N/S orientation, type-C (ASIL-B)
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC N7, 1.8V, N/S orientation, type-C (ASIL-B)
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 12E, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 12FFC, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 16FFC, N/S orientation, type-C (ASIL-B)
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 22ULL 1.8V, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 22ULL 2.5V, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 22ULP 1.8V, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 22ULL 2.5V, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 28HPC+, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 40LP
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, TSMC 55LP
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, UMC 22ULL 1.8V, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, UMC 28HPC+, N/S orientation, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, UMC 40LP, type-C
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, SMIC 14FF, N/S orientation
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, SMIC 28HKC+, N/S orientation
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, SMIC 40LL
  • USB3.2 Gen1 x1-lane, Dual-Role PHY, SMIC 55LL
More
  • Worldwide smallest USB 3.2 Gen2 PHY IP (e.g. IP size @28HPC+ is smaller than 0.7mm²)
  • Fully compliant with Universal Serial Bus (USB) 3.2 Gen2 and 2.0 electrical specifications
  • Supports clock inputs from 10/12/19.2/24/25/27/30/40MHz crystal oscillator and external clock sources from the core
  • Supports 3-Tap FIR Equalization for TX and CTLE+1-Tap DFE for RX
  • Integrates an active switch to support the orientation-less connection with USB Type-C connectors
  • Provides an auxiliary CC module IP to support USB Type-C related functions
  • Supports both Wire-bond and flip-chip package types
  • Supports internal loop back and BIST functions for mass production testing
  • Worldwide smallest USB 3.2 Gen1x1 PHY IP (e.g. IP size @28HPC+ is smaller than 0.5mm²)
  • Fully compliant with Universal Serial Bus USB 3.2 Gen1x1 and 2.0 electrical specifications
  • Compliant with PIPE4.0 and UTMI+ specification (Super-Speed, High-Speed, Full-Speed and Low-Speed functions)
  • Supports clock inputs from 25MHz crystal oscillator or external 25MHz clock source
  • Provides plenty of register controls for TX, RX, SSCG-PLL and CDR electrical parameters
  • Silicon proven and mass production IP records