The MF28F008-10 is an 8 Mbit (1M x 8) Flash memory device manufactured by Rochester Electronics. This device is designed for high-performance, low-power applications requiring non-volatile storage. As a Flash memory, it provides in-system electrical erasure and programmability, allowing for flexible and efficient data management.

Applications

• Embedded systems requiring non-volatile data storage
• Industrial control equipment
• Networking devices such as routers and switches
• Telecommunications equipment
• Data logging systems

Features

• 8 Mbit (1M x 8) organization
• Fast access time: 100ns
• Single 5V power supply
• Sector Erase Architecture
• Erase Suspend Capability
• Automatic Write Timing
• Low power consumption
• CMOS process technology
• Available in various package options including PLCC and TSOP

Benefits

• Reliable Data Storage: Flash memory ensures data retention even when power is lost, making it ideal for critical data storage applications.
• Fast Access Time: The 100ns access time allows for quick data retrieval, enhancing the performance of embedded systems.
• In-System Programmability: The ability to erase and program the memory in-system provides flexibility for firmware updates and data modifications without removing the device.
• Low Power Consumption: Reduces the overall power consumption of the system, making it suitable for battery-powered devices.
• Simplified System Design: Single 5V power supply simplifies the power management requirements and reduces system cost.

The MF28F008-10 utilizes advanced CMOS technology to achieve high performance and low power consumption. It features a sector erase architecture, allowing for selective erasure of memory blocks, and erase suspend capability, which enables the system to interrupt the erase process to perform other operations. This Flash memory is available in various package options to accommodate different system design requirements. It's a suitable choice for applications that demand reliable, non-volatile storage with fast access times and low power consumption.