Manufacturer Part Number
SN65LVDS108DBT
Manufacturer
Texas Instruments
Introduction
High-speed LVDS (Low Voltage Differential Signaling) buffer and multiplexer
Product Features and Performance
LVDS interface technology
High data rate capability up to 400Mbps
Single channel with 1 to 8 multiplexing
Low delay time of 2.8ns
Low input capacitance of 5pF
Supports a supply voltage range from 3V to 3.6V
Typical supply current of 62mA
Surface mount technology for compact design
Operational temperature range from -40°C to 85°C
Product Advantages
Enables high-speed data transmission
Suitable for point-to-multipoint applications
Low power consumption
Minimal signal distortion
Allows for smaller and cost-effective PCB design
Increases system reliability with LVDS technology
Key Technical Parameters
Data Rate (Max): 400Mbps
Number of Channels: 1 x 1:8
Delay Time: 2.8ns
Capacitance - Input: 5 pF
Voltage - Supply: 3V ~ 3.6V
Current - Supply: 62mA
Operating Temperature: -40°C ~ 85°C
Mounting Type: Surface Mount
Package / Case: 38-TFSOP
Supplier Device Package: 38-TSSOP
Quality and Safety Features
Built to Texas Instruments high-quality standards
Designed for industrial temperature ranges
Compatibility
Compatible with other LVDS technology-based components and systems
Mountable on standard surface mount PCBs
Application Areas
High-speed digital communications
Networking equipment
Data storage systems
Signal distribution networks
Computer peripherals
Product Lifecycle
Active status, not nearing discontinuation
Availability of product replacements or upgrades as per Texas Instruments policy
Several Key Reasons to Choose This Product
Support for high data rates making it ideal for bandwidth-intensive applications
1-to-8 signal distribution capabilities allow for multiple data paths from a single source
Low skew ensures accurate timing and synchronization
Robust design facilitates operation in harsh industrial environments
Texas Instruments is a reputable manufacturer with reliable customer support and product traceability
High compatibility with advanced electronic systems requiring minimal signal delay and high-speed data transmission