Tip / Sign in to post questions, reply, level up, and achieve exciting badges. Know more

Knowledge Base Articles

E2PROM - Usage Notes – KBA182882

100 likes received 50 likes received 25 likes received

E2PROM - Usage Notes – KBA182882

Version: **

Translation - Japanese: E2PROM-使用上の注意 – KBA182882 - Community Translated (JA)


What are the important factors to remember while using the E2PROM User Module?


The E2PROM User Module is a very handy user module for emulating an E2PROM in the Flash program memory. Here are some key points to remember while using the E2PROM User Module.

User Module Parameters:

Starting Block: This specifies the flash block number where the E2PROM begins. Always place the E2PROM in the last blocks of the flash. For example, in a 32K device, a 256-byte (4 blocks) E2PROM should be placed in blocks 508 to 511. Therefore, the first block should be 508. This ensures that maximum space is available for the code memory and prevents a clash between code memory and E2PROM.

Remember to modify the flashsecurity.txt file and set the protection level of the flash blocks to “U” or “R”

w  w  w w  w   w   w   w w   w   w w   w   w w   w ;    Base Address 7800

w  w  w w  w   w   w   w w   w   w w   u   u u   u ;    Base Address 7C00

; End 32K parts

Length: This parameter sets the size of the E2PROM in bytes. For the above example, the length parameter will be 256.

E2PROM Write Function:

To write data to the E2PROM, use the E2PROM_bE2Write function. The prototype of the function is

char E2PROM_bE2Write(WORD wAddr, BYTE *pbData, WORD wByteCount, char Temperature);

wAddr: This is the location in the E2PROM where you will write the data. A common mistake people make is to enter the physical address of the flash location. The value should be relative to the location in E2PROM, not in flash. For the example mentioned above, to write data to the first location in the E2PROM, the value of wAddr should be 0x0000, not 0x7F00.

*pbData: This is the pointer to the buffer that holds the data you want to write to the E2PROM. If the data is not in a char buffer, then you use typecasting. For example, to write a structure MyStruct, typecast the pointer to (char*) & MyStruct.

wByteCount: This is the number of bytes to be written to the E2PROM.

Temperature: The Temperature parameter is used by the E2PROM API to calculate the flash write pulse width. At higher temperatures, the flash must be written with a smaller pulse width and at lower temperatures with a longer pulse width. The flash will meet its maximum endurance and write cycles if it is written with the correct pulse width. If the device is going to operate within a temperature range of 0 to 50 degrees, it is fine to pass the value of 25 for temperature. But for operation over the full temperature range, use the FlashTemp User Module and pass the correct die temperature. If this is not done, either the data retention or the flash endurance will be compromised. If the temperature value passed is less than the operating temperature, the flash will be written with a longer pulse width than required. This will reduce the flash endurance. On the other hand, if the temperature value passed is higher than the operating temperature, the flash will be written with a lower pulse width than required. While this does not affect the endurance, the data retention will be less than the guaranteed 10 years.

The bE2Write function returns the status of the write operation. A return value of 0x00 means the write was successful. -1 means error in writing, which could be because the flash is write-protected. -2 means stack overflow. Always check the return value in your program to make sure that the write was successful.

Full Block Write versus Partial Write

E2PROM writes always take place in 64-byte blocks.  When you write less than 64 bytes of data, it is called a partial write. The flash write API first reads all the 64 bytes from the flash block into RAM, modifies the desired bytes and writes back the 64 bytes of data to Flash. This results in a heavy RAM overhead requiring 103 bytes of stack space, whereas a full block write takes only 32 bytes of stack. In devices with only one RAM page, the global variables and stack share the 256 bytes. If the RAM usage of the globals is high, this can lead to stack overflow errors while performing partial writes. Under such conditions, it is always advisable to perform a 64-byte write. Even if you are writing 10 bytes of data, set the ByteCount to 64. The first 10 bytes will be the actual data followed by data from subsequent RAM locations. Check the “Efficient Memory Usage” section in the E2PROM User Module datasheet  for more details.

Initializing the E2PROM with data:

You can use the E2PROM to store calibration data or any other system-related data, where you load the E2PROM with some initial values while the device is programmed. Use the following method to achieve this:

In C: Use the #pragma abs_address directive. For example, if the E2PROM is placed in the last flash block in a 32K device, and if you want to initialize the first 10 bytes with some value, enter the following:

#pragma abs_address 0x7FC0

const char InitialValues[] = {0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09};

#pragma end_abs_address

In assembly:

area eeprom(rom, abs)

org 0x7FC0

db 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09

Storing and Retrieving a Structure

Let us look at a practical E2PROM use where a calibration structure is stored, read, and written in the E2PROM.

Create a typedef for the structure:

typedef struct CAL_STRUCT


    int Offset;

float Scale;


RAM variable to store the calibration values

CAL_STRUCT CalValuesRam;

Initialize the E2PROM with initial values:

#pragma abs_address 0x7FC0

const CAL_STRUCT CalValuesEeprom = {

0x0023, // Initial value for offset

  1. 2.5456 // Initial value for scale


To read the value from the E2PROM to the RAM, you can use either the E2PROM_Read function:

E2PROM_E2Read(0x0000, char* &CalValuesRam, sizeof(CalValuesRam));


CalValuesRam = CalValuesEeprom;

To write the values from the RAM to E2PROM

  E2PROM_bE2Write(0x0000,(char*)&CalValuesRam, 64, 25);

Version history
Revision #:
1 of 1
Last update:
‎Oct 11, 2017 02:24 AM
Updated by: