The Intel DT28F160F3T95 is a 16 Mbit (2 MB) Flash Memory device. It's organized as 2M x 8 or 1M x 16, offering flexibility in data storage applications. This flash memory is designed for embedded systems requiring non-volatile storage with fast access times.

Applications:

• Embedded Systems: Used for storing firmware, boot code, and application data in embedded systems.
• Industrial Control: Employed in industrial control systems for storing configuration parameters and operating system images.
• Networking Equipment: Found in routers, switches, and other networking devices for storing boot code and configuration files.
• Automotive Electronics: Used in automotive control units (ECUs) for storing calibration data and software updates.
• Medical Devices: Used in medical devices for storing program code and patient data.

Features:

• 16 Mbit (2 MB) Density: Provides ample storage capacity for embedded applications.
• x8 or x16 Bus Width: Supports both 8-bit and 16-bit data bus interfaces.
• Fast Access Time: Enables quick data retrieval and execution of code stored in flash memory.
• Sector Erase: Allows for selective erasure of memory sectors, improving efficiency.
• Low Power Consumption: Designed for low power operation, extending battery life in portable devices.
• Endurance: Specified for a certain number of erase/write cycles.

Benefits:

• Non-Volatile Storage: Data is retained even when power is removed.
• Fast Read Access: Enables quick execution of code and retrieval of data.
• In-System Programmability: Can be programmed while installed in the system.
• Reliability: Provides reliable data storage for critical applications.
• Flexibility: Supports various memory organizations and programming methods.

Additional Details:

The DT28F160F3T95 is commonly available in surface-mount packages. It operates over a specified voltage range, typically 2.7V to 3.6V. Refer to the Intel datasheet for detailed electrical characteristics, timing specifications, and programming algorithms. The operating temperature range varies depending on the specific grade of the device. Programming is often performed using specialized flash memory programmers or through in-system programming interfaces. The device is organized into multiple sectors that can be individually erased and reprogrammed.