(13 intermediate revisions by the same user not shown)
Line 4: Line 4:
 
=Intro=
 
=Intro=
 
{{Box|type=l_green_light|text=In this tutorial we will interface the EEPROM IC 'AT24C16' with 8051. AT24C16 works on '''I2C''' protocol, hence it is recommended to go through the [[I2C/TWI Basics]] tutorial first. AT24C16 has 16K bits of EEPROM Memory. This can be quite useful when your project needs some kind of permanent storage in real time. Say, you want to read some sensor, keep count, time and want these values to be stored, and retrieve them even if the unit is turned off and turn ON back again! You need an EEPROM then, because 8051 does not have on built in! <br\>
 
{{Box|type=l_green_light|text=In this tutorial we will interface the EEPROM IC 'AT24C16' with 8051. AT24C16 works on '''I2C''' protocol, hence it is recommended to go through the [[I2C/TWI Basics]] tutorial first. AT24C16 has 16K bits of EEPROM Memory. This can be quite useful when your project needs some kind of permanent storage in real time. Say, you want to read some sensor, keep count, time and want these values to be stored, and retrieve them even if the unit is turned off and turn ON back again! You need an EEPROM then, because 8051 does not have on built in! <br\>
 +
}}
 
=Schematic=
 
=Schematic=
 +
{{Box|type=l_green_light|text=<br/>
 
The schematic is pretty simple, you could connect the I2C lines to any of the two 8051 port pins, because the 8051 does not have in built hardware to handle I2C communication, we need to 'bit-bang' it.  
 
The schematic is pretty simple, you could connect the I2C lines to any of the two 8051 port pins, because the 8051 does not have in built hardware to handle I2C communication, we need to 'bit-bang' it.  
 
For this tutorial we have made connections as shown in the image below, also notice the character LCD in 4 bit mode.
 
For this tutorial we have made connections as shown in the image below, also notice the character LCD in 4 bit mode.
Line 11: Line 13:
 
[http://exploreembedded.com/wiki/images/e/e2/Schematic_8051_Interfacing_EPROM.pdf '''Schematic''']
 
[http://exploreembedded.com/wiki/images/e/e2/Schematic_8051_Interfacing_EPROM.pdf '''Schematic''']
 
[[File:Schematic 8051 Interfacing EPROM.JPG|680px]]
 
[[File:Schematic 8051 Interfacing EPROM.JPG|680px]]
 +
}}
 
=The AT24C16=
 
=The AT24C16=
 +
{{Box|type=l_green_light|text=<br/>
 
The AT24C16 is one variant of AT24C series others are '''AT24C01, AT24C02,AT24C04,AT24C08,''' the tutorial should hold good for all of these.
 
The AT24C16 is one variant of AT24C series others are '''AT24C01, AT24C02,AT24C04,AT24C08,''' the tutorial should hold good for all of these.
 
Table below show memory arrangement for all of these
 
Table below show memory arrangement for all of these
Line 30: Line 34:
 
|-
 
|-
 
|}
 
|}
 +
{{Box|type=l_green_light|text=
 +
[[File:Memory Table.jpeg|thumbnail|Memory Map: Each page is 256 Bytes]]
 +
Note the following from the memory map.
 +
* Each page requires 8-bits to to access the 256 locations
 +
* Additional 3 bits are required to address 8 pages
 +
* Hence 13 bits are required to address the entire 16K Memory.
 +
When using I2C, we send the device ID first and then the Memory address. Now, if looking at the table below, you could observe the following.
 +
*The first four bits of the Device ID are same for all the ICs '''1010''
 +
*If the next three bits are A2,A1,A0; these are physical pins on the device, which means if multiple ICs can be connected to I2C bus, however if you calculate for all ICs, the max effective memory will only be 16 K bits.
 +
*If the next there bits are P2,P1,P0; they define the page numbers.
 +
}}
 +
{| class="wikitable" style="text-align:center;background-color:#D0D0D0;margin: 1em auto 1em auto;"
 +
|-
 +
!IC||colspan = "8"|Device ID
 +
|-
 +
|AT24C01||1||0||1||0||A2||A1||A0||R/W
 +
|-
 +
|AT24C02||1||0||1||0||A2||A1||A0||R/W
 +
|-
 +
|AT24C04||1||0||1||0||A2||A1||P0||R/W
 +
|-
 +
|AT24C08||1||0||1||0||A2||P1||P0||R/W
 +
|-
 +
|AT24C16||1||0||1||0||P2||P1||P0||R/W
 +
|-
 +
|}
 +
 +
=Code=
 +
{{Box|type=l_green_light|text=
 +
Since we are using AT24C16 for the demo, we will write a program to '''write strings to starting locations of all of the 8 pages'''. The main.c code is shown below, the complete code can be downloaded at the end.
 +
}}
 +
<syntaxhighlight>
 +
/* Reg51.h contains the defnition of all ports and SFRs */
 +
#include <reg51.h>
 +
#include <delay.h>
 +
#include "lcd.h" //User defined LCD library which conatins the lcd routines
 +
#include "eeprom.h" //User defined library which conatins eeprom(At2404) routines
 +
unsigned char cnt;
 +
/* start the main program */
 +
void main()
 +
{
 +
unsigned char eeprom_address=0x00, write_String[] = {"hello world"}, read_string[15];
 +
/* Initilize the lcd before displaying any thing on the lcd */
 +
LCD_Init();             
 +
LCD_GoToLineOne();      // Move the cursor to first line
 +
LCD_DisplayString("EEPROM AT24C16"); 
 +
EEPROM_WriteString(eeprom_address,"P0:hello",0);
 +
EEPROM_WriteString(eeprom_address,"P1:hi",1);
 +
EEPROM_WriteString(eeprom_address,"P2:good",2);
 +
EEPROM_WriteString(eeprom_address,"P3:morning",3);
 +
EEPROM_WriteString(eeprom_address,"P4:how",4);
 +
EEPROM_WriteString(eeprom_address,"P5:is",5);
 +
EEPROM_WriteString(eeprom_address,"P6:your",6);
 +
EEPROM_WriteString(eeprom_address,"P7:day?",7);
 +
  for(cnt =0; cnt<8; cnt++)
 +
  {
 +
  LCD_GoToLineTwo();      // Move the cursor to Second line
 +
  LCD_DisplayString("              ");
 +
  LCD_GoToLineTwo();
 +
  LCD_DisplayString("Rd:"); //Display the message on Second line
 +
  EEPROM_ReadString(eeprom_address,read_string,cnt);
 +
  LCD_DisplayString(read_string);//Display the read String
 +
  delay_sec(2);
 +
  }
 +
    while(1); 
 +
}
 +
</syntaxhighlight>
 +
 +
=Downloads=
 +
[http://exploreembedded.com/wiki/images/0/0e/EEPROM.zip Complete code download]
 +
{{DISQUS}}
 +
 +
=test=

Latest revision as of 18:21, 12 August 2014

Video Tutorial

Intro

In this tutorial we will interface the EEPROM IC 'AT24C16' with 8051. AT24C16 works on I2C protocol, hence it is recommended to go through the I2C/TWI Basics tutorial first. AT24C16 has 16K bits of EEPROM Memory. This can be quite useful when your project needs some kind of permanent storage in real time. Say, you want to read some sensor, keep count, time and want these values to be stored, and retrieve them even if the unit is turned off and turn ON back again! You need an EEPROM then, because 8051 does not have on built in! <br\>

Schematic


The schematic is pretty simple, you could connect the I2C lines to any of the two 8051 port pins, because the 8051 does not have in built hardware to handle I2C communication, we need to 'bit-bang' it. For this tutorial we have made connections as shown in the image below, also notice the character LCD in 4 bit mode. So what we do in this tutorial is write some strings to the EEPROM and read them back.

Schematic Schematic 8051 Interfacing EPROM.JPG

The AT24C16


The AT24C16 is one variant of AT24C series others are AT24C01, AT24C02,AT24C04,AT24C08, the tutorial should hold good for all of these. Table below show memory arrangement for all of these

IC Memory Size Page Numbers
AT24C01 1K Bits(128 Bytes) 0
AT24C02 2K Bits(256 Bytes) 0
AT24C04 4K Bits(512 Bytes) 0 to 1
AT24C08 8K Bits(1024 Bytes) 0 to 3
AT24C16 16K Bits(2048 Bytes) 0 to 7
Memory Map: Each page is 256 Bytes

Note the following from the memory map.

  • Each page requires 8-bits to to access the 256 locations
  • Additional 3 bits are required to address 8 pages
  • Hence 13 bits are required to address the entire 16K Memory.

When using I2C, we send the device ID first and then the Memory address. Now, if looking at the table below, you could observe the following.

  • The first four bits of the Device ID are same for all the ICs '1010
  • If the next three bits are A2,A1,A0; these are physical pins on the device, which means if multiple ICs can be connected to I2C bus, however if you calculate for all ICs, the max effective memory will only be 16 K bits.
  • If the next there bits are P2,P1,P0; they define the page numbers.
IC Device ID
AT24C01 1 0 1 0 A2 A1 A0 R/W
AT24C02 1 0 1 0 A2 A1 A0 R/W
AT24C04 1 0 1 0 A2 A1 P0 R/W
AT24C08 1 0 1 0 A2 P1 P0 R/W
AT24C16 1 0 1 0 P2 P1 P0 R/W

Code

Since we are using AT24C16 for the demo, we will write a program to write strings to starting locations of all of the 8 pages. The main.c code is shown below, the complete code can be downloaded at the end.

/* Reg51.h contains the defnition of all ports and SFRs */
#include <reg51.h> 
#include <delay.h>
#include "lcd.h" //User defined LCD library which conatins the lcd routines
#include "eeprom.h" //User defined library which conatins eeprom(At2404) routines
unsigned char cnt;
/* start the main program */
void main() 
{
unsigned char eeprom_address=0x00, write_String[] = {"hello world"}, read_string[15];
/* Initilize the lcd before displaying any thing on the lcd */
LCD_Init();              
LCD_GoToLineOne();      // Move the cursor to first line
LCD_DisplayString("EEPROM AT24C16");  
EEPROM_WriteString(eeprom_address,"P0:hello",0);
EEPROM_WriteString(eeprom_address,"P1:hi",1); 
EEPROM_WriteString(eeprom_address,"P2:good",2);
EEPROM_WriteString(eeprom_address,"P3:morning",3);
EEPROM_WriteString(eeprom_address,"P4:how",4);
EEPROM_WriteString(eeprom_address,"P5:is",5);
EEPROM_WriteString(eeprom_address,"P6:your",6);
EEPROM_WriteString(eeprom_address,"P7:day?",7);
  for(cnt =0; cnt<8; cnt++)
  {
  LCD_GoToLineTwo();       // Move the cursor to Second line
  LCD_DisplayString("               ");
  LCD_GoToLineTwo();
  LCD_DisplayString("Rd:"); //Display the message on Second line
  EEPROM_ReadString(eeprom_address,read_string,cnt); 
  LCD_DisplayString(read_string);//Display the read String
  delay_sec(2);
  }
    while(1);  
}

Downloads

Complete code download

test