Replacement Solution for FRAM GX85RS2MC in Portable Medical Devices against FM25V20A/MB85RS2MT

As technology continues to advance, consumer, portable medical devices are becoming more powerful and sophisticated, dramatically improving accuracy, reliability, connectivity, and ease of use, as well as ensuring the security of user health information.

These new advanced features require greater processing power, security and connectivity, and the growing complexity requires hardware/software scaling, and also raises the memory requirements of data storage systems. These enhancements, increase the power budget of the system, while compact form factor portable medical devices require ultra-long battery life and reduced power consumption. The ferroelectric memory GX85RS2MC is benchmarked against the FM25V20A/MB85RS2MT, and its features of non-volatility, high-speed read/write, high durability, low power consumption, hardware encryption, and small package show excellent application potential in the field of portable medical equipment.

1. Reliable Data Storage Guarantee 

The non-volatile and high-speed read/write (1E11 read/write operations) characteristics of the GX85RS2MC play a key role in the data acquisition process of portable medical devices. When the ECG monitor monitors the patient‘s 24-hour dynamic ECG monitoring, it needs to collect and store the ECG signal data several times per second, and the GX85RS2MC can quickly store these data and will not lose the stored data when the device runs out of power or encounters other unforeseen circumstances when the power is cut off.

2. Enhance device life and stability 

Portable medical devices often rely on battery life. The low power consumption of the GX85RS2MC (4.5 mA, standby power consumption of only 1 microamp) reduces the energy consumption of the device, for example, in portable sleep monitoring devices, which need to record sleep data for a long period of time. The GX85RS2MC allows the device to continue to work for a longer period of time after a single charge without the need for frequent recharging, avoiding the need to recharge the device due to the lack of power and the need to recharge it frequently. The GX85RS2MC enables the device to continue to work for a longer period of time after a single charge, eliminating the need for frequent charging and avoiding interruptions in data collection caused by charging.

3. Helping equipment miniaturization design 

The miniaturization design of portable medical equipment has become a trend. The GX85RS2MC‘s small SOP8 150 mil and SOP8 208 mil packages help to reduce the overall size and weight of the device, making it more convenient for patients to carry.