Exercise 15: EEPROM and Driver Access
Goal:
The goal of this exercise is twofold: First we will learn about an EEPROM, a Electrically Erasable Read Only Memory. These devices are often used in instruments to store calibration values or configuration parameters. EEPROMs can usually be read byte by byte but can be erased and written only in blocks.
The at24c32 EEPROM is mounted together with the DS1307 RTC on the Tiny RTC module (chip on the right). The Tiny RTC module therefore responds to 2
I2C addresses. You find these 2 addresses with the i2cdetect command and you can figure out from the data sheets which of the addresses corresponds to which chip.
Exercise 1: Read the EEPROM
The at24c32 is a 32 kBit device and can therefore store a total of 4096 bytes (4096 * 8 = 32 kBit). Like the DAC it is an
I2C device. To make things easier for you, again a library is supplied.
The documentation of the library is again generated from the source code and can be found at the URL:
https://dcsit.twiki.ucc.edu.gh/html/libDoc/at24c32
This one is an exercise for detectives: There is a secret message hidden in the EEPROM and your job is to uncover the mystery. So… Sherlock Holmes and Dr. Watson: show your talents and find out the contents of the message.
Exercise 2: Write the EEPROM
Prepare a buffer with some data to be written to the EEPROM. Use your previous program to read these data back. Power down the Raspberry Pi, wait a minute and then switch it back on again. Verify that you can still read back the data.
Exercise 3: Write an access library
The full description on how to access
I2C devices through the driver directly is found
here.
Separate out the open, close, read, write … functions into individual files. Rewrite your programs such that you call these generic functions, which can be re-used by other programs.
These are the functions that should be available:
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Uli Raich - 2017-08-21
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