Fujitsu Electronics Europe Factsheet FRAM Stand-Alone Memory Products Non-Volatile Random-Access Memory FRAM (Ferroelectric RAM)
FRAM (Ferroelectric Random Access Memory) Features Applications is a low power non-volatile memory with fast • Fast Overwrite: write cycle time: 150ns • Direct Data logging random access. It combines the benefits of > up to 30k times faster than EEPROM • Parameter storage conventional non-volatile memories (like • High endurance: up to 1013cycles • Back-up memory Flash and EEPROM) and rapid static RAM > 10 million times more than EEPROM. • Real-time data writing (SRAM and DRAM). • Low power consumption in write opera- tion Market segments This universal memory outperforms conven- • Green memory: operating like SRAMs • Metering / Measurement tional non-volatile memories by consuming > with no requirement for battery back-up • Factory automation much less power, writing much faster and • Robust against radiation and magnetic • Motion control having much greater endurance to multiple fields • Sensors read-and-write operations. • IoT / Wearable • Office equipment • Medical Fast • Automotive Write Data Integrity • Billing systems
Secure High Realtime Logging Data Endurance FRAM Energy Efficiency
Best Total Cost Simple Low System Power
Page 1 of 4 Factsheet Fujitsu FRAM Stand-Alone Memory Products
FRAM technology In contrast to the conventional non-volatile sary. As a result, FRAM technology is much memories, Flash and E2PROM, the content of more energy efficient than Flash or E2PROM. an FRAM cell is not stored in the form of charge carriers in a ‘floating gate’. The information – Since FRAM operates based on random access, logically 0 or 1 – is contained in the polarisa- write process can be completed without any tion of the ferroelectric material lead zirconate delay. Write and Read access times are in the titanate, PZT (Pb (ZrTi)O3). This material is 2–3 digit nanosecond range and comparable placed between two electrodes in the form of with those of RAM. As a result, FRAM is able to a thin film, in a similar way to the structure of complete the writing process even at sudden A by-product of this technology is a high a capacitor. power outage, thus ensures data integrity. resistance to radiation because, unlike with floating gate memories, alpha, beta and gam- An FRAM memory cell has the same structure The maximum number of write/delete cycles ma radiation cannot harm the stored data. as a DRAM cell and consists of a transistor and for Flash and E2PROM is between 100,000 and FRAM is therefore very well suited for medical a capacitor, but in this case the FRAM cell con- 1 Million. By comparison with over 10 trillion or space-science applications, or applications tains a capacitor with a ferroelectric dielectric. write/read cycles (1013), the lifetime of FRAM in the food industry in which radiation can be Since no large charge quantities have to be memory is almost unlimited. Writing/reading used for disinfection. displaced, charge pumps, used to generate access could theoretically take place on a cell higher programming voltages, are not neces- for over 300,000 years at one-second intervals.
Comparison of FRAM with other memory devices
FRAM E2PROM Flash SRAM Type Non-volatile Non-volatile Non-volatile Volatile Method writing Overwriting Erase (byte) + write Erase (sector) + write Overwriting Write cycle time 150ns 3ms 1s 55ns Endurance 10 trillion (1013) 1 million (106) 1 million (106) Unlimited
FRAM combines the benefits of Flash/E2PROM SRAM FLASH and SRAM / DRAM FRAM DRAM EEPROM
Fast. Fast. Slow. Random R/W Access. Random R/W Access. ROM (Block Access). Virtually Unlimited Unlimited Accesses. Limited Accesses. Accesses.
Volatile. Non-Volatile. Non-Volatile. Power Required.
FRAM: Ferroelectric Random Low Power. Access Memory
Page 2 of 4 Product Line-up – FRAM Standalone Under development and planning Serial I2C Parallel I/F Serial SPI
Density (bit) 1.8V 3V 5V 1.8V 3V 1.8V 3V 5V
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Density Operating Write cycle Operating Write/read Part number Availability Data retention Package (Word length) voltage time temperature endurance MB85R8M2T Available now 8Mbit (16bit) 1.8 - 3.6V 150ns -40° to +85°C 10^13 10 years at 85°C FGBA-48 MB85R4M2T Available now 4Mbit (16bit) 1.8 - 3.6V 150ns -40° to +85°C 10^13 10 years at 85°C TSOP-44 MB85R4001A Available now 4Mbit (16bit) 3.0 - 3.6V 150ns -40° to +85°C 10^10 10 years at 55°C TSOP-48 MB85R4002A Available now 4Mbit (16bit) 3.0 - 3.6V 150ns -40° to +85°C 10^10 10 years at 55°C TSOP-48 MB85R1001A Available now 1Mbit (8bit) 3.0 - 3.6V 150ns -40° to +85°C 10^10 10 years at 55°C TSOP-48 MB85R1002A Available now 1Mbit (16bit) 3.0 - 3.6V 150ns -40° to +85°C 10^10 10 years at 55°C TSOP-48 SOP-28 MB85R256F Available now 256kbit (8bit) 2.7 - 3.6V 150ns -40° to +85°C 10^12 10 years at 85°C TSOP-28
SOP-28 (7.6x17.75mm) TSOP-28 (11.8x8mm) TSOP-44 (10.16x18.41mm) TSOP-48 (12x12.4mm) FBGA-48 (8x6mm)
Page 3 of 4 Factsheet Fujitsu FRAM Stand-Alone Memory Products
Serial interface (SPI) Operating Operating Operating Write/read Part number Availability Density Data retention Package voltage frequency (max) temperature endurance MB85RS4MT Available now 4Mbit 1.8 - 3.6V 40MHz -40° to +85°C 10^13 10 years at 85°C SOP-8* Quad SPI - MB85RQ4ML Available now 4Mbit 1.7 - 1.9V -40° to +85°C 10^13 10 years at 85°C SOP-16 108MHz SOP-8 MB85RS2MTA Available now 2Mbi 1.8 - 3.6V 33 / 40MHz -40° to +85°C 10^13 10 years at 85°C DIP-8 SOP-8 MB85RS1MT Available now 1Mbit 1.8 - 3.6V 25 / 30 / 40MHz -40° to +85°C 10^13 10 years at 85°C WLP-8 MB85RS512T Available now 512kbit 1.8 - 3.6V 25 / 30 / 40MHz -40° to +85°C 10^13 10 years at 85°C SOP-8 MB85RS256B Available now 256kbit 2.7 - 3.6V 25 / 33MHz -40° to +85°C 10^12 10 years at 85°C SOP-8 MB85RS256TY Available now 256kbit 1.8 - 3.6V 33MHz -40° to +125°C 10^13 10 years at 85°C SOP-8 MB85RS128B Available now 128kbit 2.7 - 3.6V 25 / 33MHz -40° to +85°C 10^12 10 years at 85°C SOP-8 MB85RS128TY Available now 128kbit 1.8 - 3.6V 33MHz -40° to +125°C 10^13 10 years at 85°C SOP-8 SOP-8 MB85RS64T Available now 64kbit 1.8 - 3.6V 10MHz -40° to +85°C 10^13 10 years at 85°C SON-8 SOP-8 MB85RS64TU Availabe now 64kbit 1.8 - 3.6V 10MHz -55° to +85°C 10^13 10 years at 85°C SON-8 MB85RS64V Available now 64kbit 3.0 - 5.5V 20MHz -40° to +85°C 10^12 10 years at 85°C SOP-8 SOP-8 MB85RS64VY Available now 64Kbit 2.7 - 3.6V 25/33MHz -40° to 125°C 10^13 10 years at 85°C SON-8 10^12 SOP-8 MB85RS16N Available now 16kbit 2.7 - 3.6V 20MHz -40° to +95°C 10 years at 95°C 10^10 SON-8 16kbit with MB85RDP16LX Available now 1.65 - 1.95V 7.5 / 15MHz -40° to +105°C 10^13 10 years at 105°C SON-8 counter
Serial interface (I2C) Part number Availability Density Operating Operating Operating Write/read Data retention Package voltage frequency (max) temperature endurance MB85RC1MT Available now 1Mbit 1.8 - 3.6V 1MHz / 3.4MHz -40° to +85°C 10^13 10 years at 85°C SOP-8 MB85RC512T Available now 512kbit 1.8 - 3.6V 1MHz / 3.4MHz -40° to +85°C 10^13 10 years at 85°C SOP-8 SOP-8 MB85RC256V Available now 256kbit 2.7 - 5.5V 1MHz -40° to +85°C 10^12 10 years at 85°C SOP-8* MB85RC128A Available now 128kbit 2.7 - 3.6V 1MHz -40° to +85°C 10^12 10 years at 85°C SOP-8 SOP-8 MB85RC64TA Available now 64kbit 1.8 - 3.6V 1MHz / 3.4MHz -40° to +85°C 10^13 10 years at 85°C SON-8 MB85RC64V Available now 64kbit 3.0 - 5.5V 1MHz -40° to +85°C 10^12 10 years at 85°C SOP-8 SOP-8 MB85RC16 Available now 16kbit 2.7 - 3.6V 1MHz -40° to +85°C 10^12 10 years at 85°C SON-8 MB85RC16V Available now 16kbit 3.0 - 5.5V 1MHz -40° to +85°C 10^12 10 years at 85°C SOP-8 MB85RC04V Available now 4kbit 3.0 - 5.5V 1MHz -40° to +85°C 10^12 10 years at 85°C SOP-8
SOP-16 (7.5x10.3mm) SOP-8 (150mil) (3.9x5mm) SOP-8* (209mil)(5.3x5.24mm) DIP-8 (9.4x6.35mm) SON-8 (2x3mm) WLP-8 (2.3x3.1mm) You can download the datasheets under the link below:http://www.fujitsu.com/uk/products/devices/semiconductor/memory/fram/standalone/
All company and product trade marks and registered trade [email protected] marks used throughout this literature are acknowledged as http://emea.fujitsu.com/fram the property of their respective owners.
FEEU-C29-12NOV18