Manufacturer Part Number
PC28F640P30BF65A
Manufacturer
micron-technology
Introduction
The PC28F640P30BF65A is a high-density, parallel interface, Flash memory device from Micron Technology's StrataFlash™ series. Suited for code and data storage, it combines performance, reliability, and ease of use.
Product Features and Performance
Memory Type: Non-Volatile
Memory Format: FLASH NOR
Memory Size: 64Mbit
Memory Organization: 4M x 16
Memory Interface: Parallel
Clock Frequency: 52 MHz
Write Cycle Time Word, Page: 65ns
Access Time: 65 ns
Voltage Supply: 1.7V ~ 2V
Operating Temperature: -40°C ~ 85°C (TA)
Mounting Type: Surface Mount
Package / Case: 64-TBGA
Product Advantages
High-density storage solution ensuring ample space for complex applications.
Rapid access and programming times enhance system performance.
Wide operating temperature range suitable for varied environments.
Reliable non-volatile memory retains data without power.
Key Technical Parameters
Clock Frequency: 52 MHz
Access Time: 65 ns
Voltage Supply Range: 1.7V ~ 2V
Operating Temperature: -40°C to 85°C
Quality and Safety Features
Designed and manufactured by Micron Technology, a leader in memory and semiconductor technology, ensuring high standards of quality and reliability.
Compatibility
Compatible with systems requiring high-speed, parallel interface NOR Flash memory.
Application Areas
Used in a broad range of applications including embedded systems, automotive electronics, telecommunications, and industrial instruments.
Product Lifecycle
Status: Obsolete
Note: As this product is listed as obsolete, consider checking for modern replacements or upgrades.
Several Key Reasons to Choose This Product
High capacity (64Mbit) meets the needs for intensive memory requirements.
Fast access and write times support efficient operation.
Broad compatibility and easy mounting facilitate integration into numerous systems.
Built by Micron Technology, guaranteeing a reliable and quality product.
Despite its obsolescence, it’s an excellent option for maintaining or repairing existing systems that depend on this specific memory module.