Microchip Technology's AT17C256-10PI EEPROM

The AT17C256-10PI is a high-performance, serially programmable Read-Only Memory (EEPROM) device from Microchip Technology, designed to store configuration data for FPGA (Field Programmable Gate Array) devices. This EEPROM is an integral component for systems that require flexible, non-volatile memory solutions with a robust feature set.

Key Features

• Memory Size: The AT17C256-10PI offers a substantial storage capacity of 256Kb, which is sufficient for holding complex configuration data for a variety of FPGA designs.
• Speed: With an access time of 10ns, this EEPROM provides rapid data retrieval, ensuring that the FPGA can be configured quickly upon power-up or during reconfiguration sequences.
• Interface: It utilizes a simple serial interface for communication, making it easy to integrate with most FPGA architectures without the need for complex wiring or additional interface hardware.
• Programming Support: The device supports a wide range of programming voltages and can be programmed using industry-standard programmers, which simplifies the design and development process.
• Package: Encased in a durable 8-pin PDIP (Plastic Dual In-line Package), the AT17C256-10PI is designed for through-hole mounting, providing a stable and reliable mechanical connection.
• Temperature Range: It operates reliably across an industrial temperature range, ensuring consistent performance even under extreme conditions.

Applications

The AT17C256-10PI is ideal for use in systems that require high-density, non-volatile memory storage. Its fast access time and ease of integration make it particularly well-suited for applications such as:

• Configuration storage for FPGA-based systems
• Complex digital logic circuits
• Embedded systems requiring on-the-fly reconfiguration
• Industrial control systems
• Telecommunications infrastructure

With its robust design and versatile features, the AT17C256-10PI from Microchip Technology is a reliable choice for designers and engineers looking to enhance the capabilities of their FPGA-based systems. Its ability to retain configuration data securely and to be reprogrammed as needed adds a layer of flexibility that can significantly reduce development time and increase system reliability.