The IS93C66-2GRLI is a 16K-bit (2048 x 8) serial Electrically Erasable Programmable Read-Only Memory (EEPROM) manufactured by Integrated Silicon Solution, Inc. (ISSI). It is designed for applications requiring non-volatile data storage with low power consumption and a simple serial interface.

Applications:

• Consumer electronics
• Industrial controls
• Medical devices
• Automotive applications
• Identification and security systems

Features:

• 16K-bit (2048 x 8) EEPROM
• Serial interface (Microwire compatible)
• Low voltage operation: 1.8V to 5.5V
• Low power consumption
• Self-timed write cycle
• Write protect feature
• Endurance: 1 million erase/write cycles
• Data retention: 100 years

Benefits:

• Non-volatile data storage ensures data is retained even when power is off.
• Simple serial interface reduces pin count and simplifies system design.
• Low voltage operation minimizes power consumption.
• High endurance ensures long-term reliability.
• Write protect feature prevents accidental data corruption.

Additional Details:

The IS93C66-2GRLI EEPROM utilizes a Microwire serial interface for communication with a microcontroller or other host device. It operates over a wide voltage range from 1.8V to 5.5V. This EEPROM offers a self-timed write cycle, simplifying the programming process. The device also features a write protect function, preventing accidental modification of the memory contents. With an endurance of 1 million erase/write cycles and a data retention of 100 years, the IS93C66-2GRLI provides reliable non-volatile data storage for a variety of applications. The device is available in a range of package options to suit different application requirements. This EEPROM is ideal for storing configuration data, calibration parameters, identification codes, and other critical information that must be retained even when power is removed. Its low power consumption and small size make it particularly well-suited for portable and battery-powered applications. The IS93C66-2GRLI provides a cost-effective and reliable solution for non-volatile memory requirements.