The LVDS I/O is a three-module design (input, output and reference block). The LDP_OU_450_18V_T is a 1400MBit/s LVDS Driver, LDP_IN_450_18V_DN is a 1400MBit/s LVDS Receiver and the LDP_RE_000_18V is the voltage reference and current bias for up to 16 drivers. The LDP_OU_450_18V_T is designed to drive either 50? or 100? differential termination. This cell has been designed to meet the standard SubLVDS specifications (SMIA 1.0 Part 2:CCP2). Currently there is no standard for 50? termination
Using this SubLVDS Pad Set, the system can achieve very high data rates per pin with simple termination requirements and low EMI. The driver has been optimized for speed/power and can be ported to various pure digital CMOS processes from 0.18um down to 28nm technologies. The LDP_OU_450_18V_T has been optimized for 1400MBit/s operations. The receiver has been designed with no hysteresis in order to optimize sensitivity and skew.
The driver design has all the necessary components for transmit of SubLVDS data and a temperature stable internal reference for setting of the SubLVDS signaling voltage and common mode level. This provides user flexibility in deploying multiple SubLVDS transmitters. The reference block is required for the SubLVDS drivers to provide a stable common mode voltage as well as an accurate current reference for the driver source / sink current. Maximum operating frequency is 700 MHz.
subLVDS IO Pad Set
Overview
Key Features
- ? Powered from 1.8V ±10% and 1.1V to 1.2V (±10%) core power supplies
- ? Operates up to 700 MHz (1400Mbps)
- ? Input receive sensitivity of 50mV peak differential (without hysteresis)
- ? Common mode range from 0.4V to 1.4V (limited by Power Supply)
- ? Power-up Sequence Independent
- ? Duty Cycle Distortion (DCD) 50ps typical
- ? Power consumption is 1.8 mW typical and 5 mW maximum
Deliverables
- Physical abstract in LEF format (.lef)
- Timing models in Synopsys Liberty formats (.lib and .db)
- Calibre compatible LVS netlist in CDL format (.cdl)
- GDSII stream (.gds)
- Behavioral Verilog (.v)
- Layout Parasitic Extraction (LPE) SPICE netlist (.spice)
- Databook (.pdf)
- Library User Guide - ESD Guidelines (.pdf)
Technical Specifications
Foundry, Node
GLOBALFOUNDRIES, 40nm
Maturity
Silicon Proven
Availability
Available Now
GLOBALFOUNDRIES
Silicon Proven:
40nm
LP