Manufacturer Part Number
DS90CR483VJD
Manufacturer
Texas Instruments
Introduction
The DS90CR483VJD is an interface and serialization device designed for high-speed communication, translating a 48-bit wide parallel bus into 8 serialized LVDS data streams.
Product Features and Performance
High data rate of 5.38Gbps for fast communication
48 CMOS/TTL inputs for wide-ranging compatibility
8 LVDS outputs to minimize interconnect size and reduce EMI
Supports a supply voltage range of 3V to 3.6V
Operable in a temperature range of -10°C to 70°C
Automotive grade build for robust applications
AEC-Q100 qualification, ensuring reliability in automotive conditions
Exposure of data to either serialized or deserialized format
Product Advantages
Simplifies PCB layout with fewer interconnections
Reduces system electromagnetic interference (EMI)
Improves signal integrity over long-distance communication
Tolerates harsh automotive environments
Compatible with various CMOS/TTL logic levels
Space-saving 100-TQFP surface mount package
Key Technical Parameters
Function: Serializer
Data Rate: 5.38Gbps
Number of Inputs: 48
Number of Outputs: 8
Voltage Supply: 3V ~ 3.6V
Operating Temperature: -10°C ~ 70°C
Qualification: AEC-Q100
Package/Case: 100-TQFP
Quality and Safety Features
AEC-Q100 automotive qualification
Operable in a wide temperature range
Compatibility
CMOS/TTL compatible inputs
LVDS output compatible with receiving devices
Application Areas
Automotive infotainment and connectivity systems
High-speed digital communication links
Industrial control and automation systems
Telecommunication infrastructure
Product Lifecycle
Product Status: Obsolete
It is important to seek alternative solutions or consult Texas Instruments for replacement or upgrade options.
Several Key Reasons to Choose This Product
Exceptional data throughput for high-speed applications
Compact design enabling sleek and efficient system architecture
Automotive-grade resilience for reliable operation
Meets industry standards of quality with AEC-Q100 qualification
Flexible operation across various temperature ranges
Transitioning to serial data streams minimizes connections and reduces potential failure points