Manufacturer Part Number
AT25SF161-MHD-T
Manufacturer
Renesas Electronics America
Introduction
The AT25SF161-MHD-T is a 16Mbit SPI flash memory device featuring a quad I/O interface.
Product Features and Performance
Non-Volatile FLASH memory
SPI - Quad I/O interface facilitates high-speed data transfer
Clock Frequency up to 104 MHz allows for quick read/write operations
Memory Size of 16Mbit provides ample storage for firmware and data
Integrated 2M x 8 Memory Organization for efficient addressing and data management
Write Cycle Time - 5µs for Word, 5ms for Page supports rapid programming
Product Advantages
Compatible with various microcontrollers and processors due to SPI - Quad I/O
Reliable storage over a wide voltage range, 2.5V ~ 3.6V
Non-volatile memory retains data without power
Operational in extreme temperature conditions from -40°C ~ 85°C
Key Technical Parameters
Memory Type: FLASH - NOR
Memory Size: 16Mbit
Memory Organization: 2M x 8
Clock Frequency: 104 MHz
Voltage - Supply: 2.5V ~ 3.6V
Operating Temperature Range: -40°C ~ 85°C
Quality and Safety Features
Robust design ensuring data retention and endurance
Operational across a wide temperature range ensuring reliability in various environmental conditions
Compliance with industry-standard safety and quality specifications
Compatibility
Designed for use in systems requiring high-speed, reliable data storage and retrieval
SPI interface compatible with a broad range of microcontroller architectures
Application Areas
Firmware storage for embedded systems
Data logging devices
Consumer electronics
Industrial automation
Networking equipment
Product Lifecycle
Status: Obsolete
Availability of replacements or upgrades to be determined by Renesas
Several Key Reasons to Choose This Product
Highly reliable SPI flash solution for data storage needs
High clock speed enhances performance for data-heavy applications
Suitable for a wide range of industrial and commercial applications
Stable operation ensured by robust quality and safety features
Backed by Renesas, a leader in semiconductor solutions