Compatible with MB85RS2MT, the FRAM GX85RS2MC can be used in medical infusion pumps and ventilators.

As medical devices become increasingly powerful and sophisticated, they greatly improve accuracy, reliability, connectivity, and usability while ensuring the security of user health information. These new advanced features require stronger processing power, security, and increased memory requirements for data storage systems.

Currently, traditional EEPROM and flash memory have limited write cycle endurance, yet some medical devices require reliable storage of continuously updated data logs, such as medical infusion pumps and ventilators. The storage cells of the FRAM GX85RS2MC can withstand 1 million read/write cycles, with data retention of 10 years at 85°C (200 years at 25°C). This level of endurance enables these medical devices to record more user data.

Additionally, instant non-volatility is another key feature of GX85RS2MC technology, allowing these medical systems and other battery-powered systems to completely shut down power or quickly switch to low-power standby mode (maximum power consumption of 5mA, standby current as low as 7μA). Reduced operating time and current consumption significantly extend the battery life of the system. Furthermore, in applications with precise timing requirements, they help enhance data reliability as they are unaffected by power failures.

The GX85RS2MC adopts a space-saving SOP8 small package, supports an SPI serial interface, and operates within a temperature range of -40°C to 85°C. Its performance is fully compatible with the MB85RS2MT (Fujitsu) and FM25V20A (Cypress), enabling it to meet the demands of these medical devices with optimal performance.

Summary: The GX85RS2MC‘s key features—non-volatility, data reliability, low power consumption, and compact form factor—make it an ideal choice for portable and implantable medical devices.