V-by-One/LVDS Tx IP, Silicon Proven in GF 22FDX
Overview
Based on internal equipment connections, the V-by-One® HS technology aims to transmit video signals at high data rates. The requirements to build a transmitter and receiver are laid out in the V-by-One®HS Standard. The available 8-lane and 16-lane PHYs for Tx and Rx support up to 4Gbps/lane. A transmitter for LVDS with a physical layer IP. Up to 1.5Gbps of data rate is supported by this IP, which comprises of 20-lane (4 x 4D1C) LVDS drivers.
Key Features
- LVDS compliant Tx
- 4 groups of 4-Data
- 1-Clock channels Each lane/group can be turned on/off individually Data/Clock can be assigned to any lane within the group
- Differential polarity can be flip per lane
- Supports from 168Mbps to 1.5Gbps data rate
- Supports reduced swing mode
- X7 Multiplier PLL for serial clock generation
- Configurable analog characteristics
- PLL loop filter
- PLL VCO gain
- Differential voltage Common-mode voltage
- Pre-emphasis strength
- Silicon Proven in GF 22nm FDX
Block Diagram
Deliverables
- Datasheet
- Integration guideline
- GDSII or Phantom
- GDSII Layer map table
- CDL netlist for LVS
- LEF Verilog behavior model
- Liberty timing model DRC/LVS/ERC results
Technical Specifications
Foundry, Node
GF 22FDX
Maturity
In Production
Availability
Immediate
Related IPs
- PCIe 3.0 Serdes PHY IP, Silicon Proven in GF 22FDX
- V-by-One/LVDS Tx Combo PHY, Silicon Proven in 28HPC+
- MIPI D-PHY Tx IP, Silicon Proven in GF 55LP
- DDR3/ DDR3L Combo PHY IP - 1600Mbps (Silicon Proven in UMC 40LP)
- V-by-One/LVDS Rx IP, Silicon Proven in GF 22FDX
- DDR4/ LPDDR4/ DDR3L PHY IP - 3200Mbps (Silicon Proven in TSMC 12FFC)