Microchip Technology 24LC64FT-I/SN EEPROM

The 24LC64FT-I/SN is a high-performance, 64-Kilobit serial Electrically Erasable Programmable Read-Only Memory (EEPROM) device from the renowned manufacturer Microchip Technology. This integrated circuit is designed for a wide range of applications that require non-volatile memory storage. With its small footprint and low power consumption, it is particularly suitable for modern electronic systems where space and power are at a premium.

Key Features

• Memory Size: 64 Kbits (8,192 x 8-bit organization), providing ample storage for configuration parameters, serial numbers, calibration data, and more.
• Interface: I²C (2-wire) serial interface for simple connection to microcontrollers and other digital systems, supporting a 100 kHz (standard mode), 400 kHz (fast mode), and 1 MHz (fast mode plus) data transfer rates.
• Operating Voltage: Ranges from 2.5V to 5.5V, making it compatible with both 3.3V and 5V systems.
• Temperature Range: Industrial-grade with an operating temperature range from -40°C to +85°C, ensuring reliable performance under extreme conditions.
• Packaging: Available in an 8-pin SOIC (SN) package, offering a compact solution for space-constrained applications.
• Write Protect: Features a hardware write-protect pin for preventing inadvertent writes to the memory array, enhancing data security.
• Endurance: High reliability with a write endurance of 1 million write cycles and a data retention period of over 200 years.

Applications

The 24LC64FT-I/SN is versatile and can be used in a variety of applications, including:

• Industrial and automotive systems
• Consumer electronics
• Smart cards and identification systems
• Medical devices
• Networking and telecommunications equipment

Microchip's commitment to quality ensures that the 24LC64FT-I/SN EEPROM provides the reliability and performance required for sophisticated electronic systems. Whether you're developing a new product or upgrading an existing one, this EEPROM is an excellent choice for your non-volatile memory needs.