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License: MIT GitHub release PlatformIO Registry

FRAM_I2C

Arduino library for I2C FRAM.

Description

FRAM is a library to read from and write to (over I2C) an FRAM module. Since 0.5.0 the library provides four classes:

  • FRAM for 16 bit address devices.
  • FRAM32 for 32 (17) bit address devices.
  • FRAM11 for 11 bit address devices.
  • FRAM9 for 9 bit address devices.

Currently only the MB85RC1MT is known to use 32 bit. FRAM32 can also address 16 bit devices although there is some overhead in footprint.

FRAM stands for Ferroelectric RAM - https://en.wikipedia.org/wiki/Ferroelectric_RAM

FRAM memory is much faster than EEPROM and almost as fast as (Arduino UNO) RAM. Another important feature FRAM has in common with EEPROM is that FRAM keeps its content after a reboot as it is non-volatile, even for years. That makes it ideal to store configuration or logging data in a project.

Last but not least FRAM allows much more write cycles than any EEPROM. Typical FRAM allows 10^12 write cycles (see datasheet) where an ATMEGA328 (UNO) supports 10^5 write cycles (https://docs.arduino.cc/learn/built-in-libraries/eeprom). That is a factor of 10 million more write cycles.

Fujitsu

Types of FRAM tested with this library:

TYPE SIZE TESTED NOTES uses ref
MB85RC04 512 Y no deviceID register FRAM9 #35
MB85RC16 2 KB Y no deviceID register FRAM11 #28
MB85RC64T 8 KB Y FRAM
MB85RC64V 8 KB Y no deviceID register FRAM #38
MB85RC128A 16 KB N no deviceID register FRAM
MB85RC256V 32 KB Y FRAM
MB85RC512T 64 KB Y FRAM
MB85RC1MT 128 KB Y FRAM32 #19

MB85RC128A and MB85RC64V have no size / deviceID, clear() will not work correctly, unless one calls setSizeBytes(16 * 1024) or setSizeBytes(8 * 1024) to set the size manually.

For the FRAM9 and FRAM11 the size problem is solved (hard coded) in their class.

Ramtron / Cypress / Infineon

Types of FRAM tested with this library:

TYPE SIZE TESTED NOTES uses ref Notes
24CL16B 2 KB N no deviceID register FRAM11 #28
FM24C256-G 32 KB Y no deviceID register FRAM #45 test with ESP32
FM24V10 128 KB Y FRAM32 #49

Codes on the chip - Fujitsu

The datasheet - MB85RC04_DS501_00057_1v0_E-2329111.pdf - page 20 - provides meaning to the markings on the FRAM devices. The meaning of Environment code is unclear.

RC04:   Product name
E11900: E1 (Environment code) + 1900 (Year and Week code)
300:    3 (Factory code) + 00(Trace code)

Notes

  • Not all types of FRAM are tested. Please let me know if you have verified one that is not in the list.
  • If there is no deviceID getSize() will not work correctly.
    • ==> fixed for FRAM9 and FRAM11 by hardcoding the size.
  • Address = 0x50 (default) .. 0x57, depends on the lines A0..A2.
  • MB85RC1MT uses even addresses only as it uses the next odd one internally. So 0x50 uses 0x51 internally for the upper 64 KB block. This latter will not be shown on an I2C scanner (to be tested).
    Not tested: expect the MB85RC1MT can be addressed with 2 instances of FRAM too with adjacent addresses.

Related

Interface

#include "FRAM.h"

Constructors

  • FRAM(TwoWire *wire = &Wire) Constructor with optional Wire interface.
  • FRAM32(TwoWire *wire = &Wire) Constructor with optional Wire interface, specific for MB85RC1MT type of device, 17 bit address.
  • FRAM11(TwoWire *wire = &Wire) Constructor with optional Wire interface, specific for devices with 11 bit address e.g. Cypress/Infineon 24CL16B.
  • FRAM9(TwoWire *wire = &Wire) Constructor with optional Wire interface, specific for devices with 9 bit address e.g. MB85RC04.

Begin

The user has to call Wire.begin() before FRAM.begin()!

  • int begin(uint8_t address = 0x50, int8_t writeProtectPin = -1) address and writeProtectPin is optional. Note the MB85RC1MT only uses even addresses.

Write & read

Support for basic types and two calls for generic objects, use casting if needed.
In the FRAM32 class these functions have an uin32_t memAddr.

  • void write8(uint16_t memAddr, uint8_t value) uint8_t
  • void write16(uint16_t memAddr, uint16_t value) uint16_t
  • void write32(uint16_t memAddr, uint32_t value) uint32_t
  • void write64(uint16_t memAddr, uint64_t value) uint64_t
  • void writeFloat(uint16_t memAddr, float value) float
  • void writeDouble(uint16_t memAddr, double value) double
    • For boards that have an 8 byte double.
  • void write(uint16_t memAddr, uint8_t * obj, uint16_t size) other types / sizes.
    • typical used for structs or text.
  • uint8_t read8(uint16_t memAddr)
  • uint16_t read16(uint16_t memAddr)
  • uint32_t read32(uint16_t memAddr)
  • uint64_t read64(uint16_t memAddr)
  • float readFloat(uint16_t memAddr)
  • double readDouble(uint16_t memAddr)
    • For board that have 8 byte double.
  • void read(uint16_t memAddr, uint8_t uint8_t * obj, uint16_t size)
    • One needs to allocate memory as the function won't.
  • uint32_t clear(uint8_t value = 0) clears the whole FRAM by writing value to all addresses
    • default value is all zero's.
    • Returns the number of bytes written.
    • clear() does not work for MB85RC128A unless setSizeBytes() is used.

Template functions

See issue #13, #42

  • uint16_t writeObject(uint16_t memAddr, T &obj) writes an object to memAddr (and following bytes).
    • Returns memAddr + sizeof(obj) to get the next address to write to.
  • uint16_t readObject(uint16_t memAddr, T &obj) reads an object from memAddr and next bytes.
    • Returns memAddr + sizeof(obj) to get the next address to read from.

ReadUntil, readLine

Experimental 0.5.1, see issue #30

  • int32_t readUntil(uint16_t memAddr, char * buffer, uint16_t bufferLength, char separator) Reads FRAM from an address into buffer until separator is encountered. The separator is replaced by an '\0' - end of char array. ReadUntil() returns the length of the buffer. To get the address of the next "field" one must add memAddr += (length + 1).
    If the separator is not found after bufferLength characters the function returns -1. However the buffer does contain the data read, which might be useful. Handle with care as buffer has probably no '\0' end char.
  • int32_t readLine(uint16_t memAddr, char * buffer, uint16_t bufferLength) Similar to readUntil(), reads a line from FRAM including the '\n'. This '\n' is mandatory as end separator!. Note: The buffer needs one extra char for the delimiting '\0' end char. To get the address of the next "field" one must add memAddr += length. This is an minor but important difference with readUntil(). Note: the returning buffer contains the '\n' so one need to take care when printing the buffer.

ReadUntil

readUntil() can be used to read lines and/or fields from an FRAM filled with text. For example logging written with the FRAM_logging.ino example. Note: if memAddr + bufferLength >= size of FRAM, memory address wrapping may occur. The library does not check, so the user should.

Note: internally readUntil() reads bufferLength bytes to fill the buffer. Then it searches for the separator. This is chosen to optimize performance for relative small buffers that are used most. For large buffers this fetching of the whole buffer will take much time. This can results in less responsiveness. Increasing the I2C bus speed might compensate this a bit.

Finally the FRAM_readUntil.ino sketch has a readUntil() implementation that uses a per byte fetching.

Write-protect

Will work only if a writeProtectPin was defined in begin()

  • bool setWriteProtect(bool b) make the FRAM write-protected by pulling the WP line HIGH or LOW.
    • Returns true if a writeProtectPin was defined in begin(). Otherwise the FRAM cannot be write protected.
  • bool getWriteProtect() get current write protect status.
    • returns status (true/false).
    • Returns false if the writeProtectPin was not defined.

Metadata

These may not work for devices that have no deviceID register.
So use with care.

  • uint16_t getManufacturerID() see table below. Returns 0x0FFF means getMetaData() had a read error.
  • uint16_t getProductID() idem. Proprietary. Returns 0x0FFF means getMetaData() had a read error.
  • uint16_t getSize() returns the size in kiloBYTE. If the FRAM has no device ID register, the size cannot be read.
    • FRAM9 will return 0 as it is less than 1 KB. use GetSizeBytes() instead.
  • uint32_t getSizeBytes() returns the size in BYTES.
    • Useful for iterating over the whole memory, or testing the upper boundary.
  • void setSizeBytes(uint32_t value) sets the size in bytes for getSizeBytes(). To be used only if getSize() cannot determine the size. As far as known this is for the MB85RC128A and MB85RC64V only. See also remark in Future section below. Can also be used to "virtually" reduce the size, e.g. to speed up clear() if the FRAM is used only partial.

Manufacturers ID

Name ID Notes
Fujitsu 0x00A
Ramtron 0x004 shared
Cypress 0x004 shared
Infineon 0x004 shared
getMetaData read error 0xFFF See #38

Additions for manufacturers ID's are welcome.

Sleep

(0.3.6 added - experimental)

  • void sleep() puts the FRAM in sleep mode so it uses less power. Still needs a power test for several types of FRAM.
  • bool wakeup(uint32_t trec = 400) tries to wake up the device with a default recovery time of 400 microseconds. Returns true if connected after the call.

According to the data sheets there are only three FRAM devices support the sleep command. So use with care.

TYPE SIZE SLEEP (datasheet) CURRENT CONFIRMED NOTES
MB85RC04 512 not supported - N
MB85RC16 2 KB not supported - N
MB85RC64T 8 KB Y Page 11 4.0 uA* N
MB85RC128A 16 KB not supported - N
MB85RC256V 32 KB not supported - Y
MB85RC512T 64 KB Y Page 12 4.0 uA* N
MB85RC1MT 128 KB Y Page 12 3.6 uA Y See #17
FM24C256-G 32 KB not supported Y See #45

current with * are from datasheet

Current

Indicative power usage in uA in three modi (if supported).

TYPE SIZE STANDBY WRITE SLEEP NOTES
MB85RC04 512 -
MB85RC16 2 KB -
MB85RC64T 8 KB 4.0 uA
MB85RC128A 16 KB -
MB85RC256V 32 KB 10.22 uA 93.48 uA -
MB85RC512T 64 KB 4.0 uA
MB85RC1MT 128 KB 11.7 uA 46-721 uA 3.6 uA See #17
FM24C256-G 32 KB 100 uA See #45

FRAM_RINGBUFFER

Since version 0.4.2 a separate class FRAM_RINGBUFFER is added to this repo. Its interface is straightforward and described in FRAM_RINGBUFFER.md. The FRAM_ringbuffer.ino examples shows how the class can be used.

FRAM_MULTILANGUAGE

Since version 0.5.2 the FRAM_ML class is added. Its purpose is to store tables of strings in FRAM. Its interface is described in FRAM_MULTILANGUAGE.md.

See examples.

FRAM32

Since version 0.8.0 the FRAM32 internal readBlock() and writeBlock() guard for memory addresses that are out of range. This prevents interference with valid address ranges. These will just be ignored for now and no error flag whatever is set.

FRAM11 + FRAM9

  • 0.5.0 added, see issue #28
  • 0.5.3 redo FRAM9 and FRAM11, see #35

Experimental support for smaller FRAM's with 11 and 9 bits addresses.

  • FRAM11 e.g. Cypress/Infineon 24CL16B (see #28)
  • FRAM9 e.g. MB85RC04 (see #35) Note getSize() will return 0 as it is only 0.5 KB and rounded down. Use getSizeBytes() to get 512.

Future

Must

  • improve documentation
  • test more types of FRAM (continuous action)
    • FRAM11 / FRAM9
    • other people might provide input.

Should

  • FRAM32 invalid memory address handling.
    • user should be notified of success / failure? how?
    • bool validAddress(uint32_t memAddress) as preventive strategy.
    • or setting an error flag? return value? (impact in class hierarchy).
  • Improve getSize() to have clear() working properly.
    • MB85RC128A only (hard code fall back?).
    • getSize() scanning FRAM like EEPROM library?
  • investigate a faster strategy for readUntil()
    • readUntil() calls read() which reads per 24 bytes.
    • search for separator per block (e.g. 24 bytes) in read (copy code).

Could

  • improve FRAM32 that can write over the 64 KB border without problems.
    • Would need extra checking ==> overhead.
    • now it is responsibility of the user.
    • do we want/need this?
  • write() and writeBlock() might write beyond the end of FRAM
    • now it is responsibility of the user.
    • range check would degrade performance
    • error flag ?
  • extend examples
    • FRAM (8x) concatenated as one continuous memory.
      • a wrapper class?
  • fill power usage table (documentation)
    • is in data sheet.
  • improve comments where needed.
  • move the device address parameter to the constructor so it becomes " "? would break the interface (even more).

Wont

  • extend current clear() with partial clear(begin, end, value)?
    • can be done by writeBlock() calls by user too
    • would need more complex end checking
    • ==> wont for now
  • dump(stream) or printable interface?
    • Print interface? expensive in performance per char..
    • see example FRAM_hexdump.ino
  • remember last written address? why?
  • do we need a write(memAddr, char * buffer) for completeness?
    • it is just a wrapper

Support

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Thank you,