Microchip Technology AT17LV010A-10QC EEPROM

The AT17LV010A-10QC from Microchip Technology is a high-performance EEPROM (Electrically Erasable Programmable Read-Only Memory) device designed to store configuration data for FPGA (Field-Programmable Gate Array) devices. This non-volatile memory module provides a reliable and flexible solution for system configuration tasks and is particularly well-suited for applications where the configuration data must be loaded quickly and securely upon system power-up.

Key Features of AT17LV010A-10QC

• Memory Capacity: The device offers a 1 Mbit storage capacity, which is ample for storing complex configuration data for a wide range of FPGA devices.
• Speed: With an access time of 10 ns, the AT17LV010A-10QC ensures rapid retrieval of data, contributing to a swift system start-up and reconfiguration processes.
• Interface: It features a simple serial interface, which minimizes the number of I/O pins required on the FPGA, thereby simplifying the overall design and reducing costs.
• Programming Support: The device is supported by industry-standard programmers, making it easy to integrate and program within various development environments.
• Security: The EEPROM is equipped with security features that prevent unauthorized access to the configuration data, ensuring the integrity and security of the system.
• Package: The AT17LV010A-10QC is available in a 20-lead PLCC (Plastic Leaded Chip Carrier) package, which provides a compact footprint and robust physical protection for the memory chip.

Applications

The AT17LV010A-10QC is ideal for use in a broad spectrum of applications, including but not limited to:

• Telecommunications infrastructure
• Networking equipment
• Industrial control systems
• Aerospace and defense electronics
• Medical devices

With its reliability and ease of use, the AT17LV010A-10QC EEPROM from Microchip Technology stands out as a superior choice for designers looking to ensure their FPGA-based systems can be confidently configured and reconfigured as needed, with minimal delay and maximum security.