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I want to store a number to PIC18 then retain it even if the power is lost or the unit is reset. I think my writing code portion looks fine, just the reading portion of it looks strange after the unit is reset.

I am using the following code which I got from Microchip.


unsigned int value;
unsigned int DEEdata = 1;
unsigned int  DEEaddr = 0x04;

dataEEFlags.val = 0;

value = DataEERead(DEEaddr);

The ouput: 1

However when I reset the unit and only use the reading code I always get 255.

Code to read:

value = DataEERead(DEEaddr);

The output: 255

Why is this happening? I am assuming maybe the value is not being saved or the reading portion is incorrect. Thank you!

share|improve this question
is there a eeprom available in your setup? if your are geting 255(0xFF) it was either erased and never written to or you are performing an erase on startup. The EE on functon calls hint that its writing to eeprom. what is the part number of your device? – Koushik Shetty May 14 '13 at 6:38
I have pic18f87j11 – Ammar May 14 '13 at 14:40
@Ammar If you don't find the answer here (although I see there are some promising replies), you can check the Microchip forum . I have found them helpful in the past. – Peter L. May 14 '13 at 23:39
up vote 0 down vote accepted

Some PIC18 micros have an internal EEPROM in addition to the internal flash. The 18F87J11 does not have this so you have 2 options:

1) Write to the flash memory - this is where your program is stored. make sure the number of write/read cycles is ok for your application.

2) Use an external i2c or spi memory for your configuration settings

The DataEEWrite you are using are from an 'eeprom emulation' library from microchip (linked in the comments below. There are a couple of things to be careful of:

  • Watch out when reprogramming the flash! you might overwrite your settings
  • Remember it isn't really eeprom! The write cycles are limited and you have to erase big sections of memory - you can't erase a single byte
share|improve this answer
I would really appreciate some kind of example about writing to flash memory using C language, I think this is my best option for now. For the DataEEWrite() - I got it from the following link, Thanks @Will. – Ammar May 15 '13 at 18:18
I still can't get it to work :( – Ammar May 16 '13 at 16:38
OK Now I understand, you are using an emulation library. This lets you use the flash as a kind of pretend EEPROM. You need to set up some constants for this and call the init function before you try to read or write. It is all on the checklist on page 14 of this document: – Will May 16 '13 at 17:06
Thank you for the constant help. I will give it a try. Before I continue, with this method I should be able to write to flash memory, correct? – Ammar May 16 '13 at 17:15
I used the DataEEInit() function before the read and write function, but I still get the same results as described on my thread. – Ammar May 16 '13 at 17:33

The device you're using doesn't have internal non-volatile memory apart from its Flash, generally used for storing code.

You have two options that I can see:

  1. Use some external Flash or EEPROM and interface it to the External Memory Bus that's available on this PIC (see page 97 of the Family Datasheet).
  2. Remap the internal Flash to reserve a small portion that can be used for storing your data (so that it doesn't interfere with the memory area used exclusively for code) and write your data into this region (page 87).

I haven't worked with PICs for years, so can't offer you much in the way of implementation detail but I suspect there are many examples you can source from Microchip's website.

In essence, the reason your code doesn't work is because you're trying to access memory that isn't there. If it is there, then the interface is not correct.


I've had a look through the code examples page for the PIC18 on Microchip's website and can't find any C examples for writing to the program memory. Unfortunately, it looks like you'll have to implement it in assembler. I don't know the semantics for the MPLAB compiler but, generally, it'll be something like this if you're going to do it inline:

void my_assembler_function(void)
    // Inline assembler code, actioned via C.
    asm("MOV x y");
    asm("MOV y z");

Alternatively, many C compilers for microprocessor's allow you to call an external .s file with a C function call, saving you from doing it inline.

I think you can follow the example I found here to actually implement the functionality you're after.

share|improve this answer
I want to try option 2 for now and then if necessary I will switch to option 1, an example for option 2 would complete your answer. – Ammar May 14 '13 at 19:38
What compiler are you using? – Ed King May 14 '13 at 19:41
I use MPLAB IDE C18 – Ammar May 14 '13 at 19:45
It doesn't look like you even have to do any mapping yourself. Follow section 6.5 in the datasheet, it looks like it's all there for you, albeit in assembler. I haven't got access to the MPLAB IDE, but if there are example code snippets, you're looking for "Program Memory Flash Write". – Ed King May 14 '13 at 19:57
I didn't find any example code using C. – Ammar May 16 '13 at 16:40

SRAM can not be used to store Non-volatile data...

SRAM will loose data during power cycle...

Options: 1. Use internal EEPROM if available. 2. External EEPROM through I2C or SPI. 3. PIC18 Data Emulation Library.

share|improve this answer

To retain the values on power cycle, SRAM memory should be used. Please confirm if you have SRAM memory available first.

share|improve this answer
I honestly don't know at this moment, but I asked someone and I should get a response soon. Sorry for the inconvenience. Is this the only problem you suspect? – Ammar May 7 '13 at 16:46
Yes. Unless you have provision to write into Flash memory(which I suspect you don't have-I might be wrong), using SRAM is the only way to retain values in a power cycle. You can always interface SRAM with your micro-controller – CatchMeIfYouTry May 7 '13 at 16:50
You might find this info useful, I have pic18f87j11. – Ammar May 7 '13 at 16:51

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