FRAM GX85RS2MC is fully compatible with FM25V20A to help smart agriculture

Among them, the ferroelectric memory can use GXSC GX85RS2MC. With the high-speed read/write function, the recorder can record on-site data online in real time and can transmit bi-directional information to the upper computer through Ethernet communication, which can meet the requirements of intelligent agricultural environment remote recorder for high-capacity storage, scalability and real-time data transmission.

 

The difference between Cypress FM25V20A and GXSC GX85RS2MC is introduced:

Cypress FM25V20A is the first non-volatile ferroelectric memory and GX85RS2MC is the first non-volatile new ferroelectric memory of GXSC. Both memory chips have fast read and write, low power consumption, power failure storage and other characteristics, storage capacity of 2M, and all support industrial-grade temperature range of -40 ℃ to 85 ℃, using the SOP-8 package, so that you can do completely compatible with the replacement; In addition, the FM25V20A can be read and write up to one million times, the GXSC GX85RS2MC read and write the same one million times, the two chips of the The operating frequency of both chips can be done 25MHz, in practical applications basically do not need to read and write waiting time.

 

From the production process, Cypress FM25V20A core technology is ferroelectric crystal material, GXSC GX85RS2MC is formed through the ferroelectric process and silicon gate CMOS process technology materials, making both chips have both random access memory (RAM) and non-volatile storage product characteristics. The difference is that traditional ferroelectric storage uses materials that contain lead (which is polluting.) The GXSC GX85RS2MC uses new materials that do not contain lead, enabling cost reduction.

 

In terms of power consumption, the Cypress FM25V20A operates from 2.7V to 3.6V with a sleep power consumption of 3uA, while the GXSC GX85RS2MC operates from 2.7V to 3.6V and sleeps with a power consumption of 3uA. This shows that both chips can help system devices save power and run for longer periods of time when the device‘s power supply is limited.