The AM29DL164DB70VF is a 16 Mbit (2M x 8-Bit/1M x 16-Bit) CMOS 3.0 Volt-only, Simultaneous Operation Flash memory device from AMD. It is designed for high-performance, low-power applications requiring fast read access times and simultaneous read/write operations.

Applications

• Embedded Systems: Used for storing firmware and application code in embedded systems such as routers, industrial controllers, and consumer electronics.
• Networking Equipment: Stores boot code and configuration data in network devices.
• Mobile Devices: Suitable for code storage in mobile phones, tablets, and other portable devices where low power consumption is critical.
• Automotive Systems: Used in automotive applications for storing calibration data, firmware updates, and navigation maps.

Features

• 16 Mbit density: Provides ample storage capacity for various applications.
• 3.0 Volt-only operation: Simplifies power supply design and reduces power consumption.
• Simultaneous Read/Write Operations: Allows concurrent read and write operations, improving system performance.
• Sector Erase Architecture: Enables flexible sector-level erasure for efficient memory management.
• 70 ns Access Time: Offers fast read access times for quick program execution.

Benefits

• High Performance: Fast access times and simultaneous operation support demanding applications.
• Low Power Consumption: 3.0V operation reduces power consumption, extending battery life in portable devices.
• Flexible Memory Management: Sector erase architecture allows for efficient memory updates.
• Reliable Data Storage: Non-volatile memory retains data even when power is off.

Additional Details

The AM29DL164DB70VF is available in a variety of packages, including TSOP and BGA. It supports standard JEDEC commands for programming and erasing. The device features a hardware reset pin for reliable system startup. Detailed electrical characteristics, timing diagrams, and application notes can be found in the AMD datasheet for this device. It is manufactured using advanced CMOS technology to achieve high density and low power consumption.