Manufacturer Part Number
EDW4032BABG-60-F-D
Manufacturer
Micron Technology
Introduction
The EDW4032BABG-60-F-D is a high-speed graphics double data rate version 5 (GDDR5) Synchronous Graphics RAM designed by Micron Technology for high-performance applications.
Product Features and Performance
High-bandwidth GDDR5 SGRAM technology
4Gbit memory size for substantial storage capacity
Organized as 128M x 32 for efficient data handling
Parallel memory interface enabling quick data transfer
Clock frequency of 1.5 GHz for fast access times
Surface mount 170-TFBGA package for compact integration
Product Advantages
GDDR5 technology provides higher bandwidth compared to earlier memory generations
Enhanced graphics rendering capabilities for gaming and high-definition video applications
Broad operating temperature range ensures reliability across various environments
Key Technical Parameters
Memory Type: Volatile
Memory Format: RAM
Technology: SGRAM GDDR5
Memory Size: 4Gbit
Memory Organization: 128M x 32
Memory Interface: Parallel
Clock Frequency: 1.5 GHz
Voltage Supply: 1.31V ~ 1.65V
Operating Temperature: 0°C ~ 95°C (TC)
Package / Case: 170-TFBGA
Quality and Safety Features
Robust operating temperature range from 0°C to 95°C
Rigorous manufacturing standards adhered to by Micron Technology
Compatibility
Compatible with applications and systems requiring high-speed GDDR5 memory
Interface and form factor designed for direct integration with PCBs
Application Areas
Advanced graphics processing units (GPUs)
Gaming consoles
High-performance computing applications
Advanced driver-assistance systems (ADAS)
Product Lifecycle
Product Status: Obsolete
Users should consider future-proofing by seeking replacement models or considering upgrades
Several Key Reasons to Choose This Product
Micron's reputation for producing high-quality memory components
The 4Gbit size and high clock speed fit for demanding applications
The technology enables better graphical processing for enhanced visual experiences
Wide operating temperature range ensures stable performance under stress
Though obsolete, it may still be sought after for repair or maintenance of legacy systems