Sending(and receiving) multiple i2c bytes

[joshkeys]

Hi there, i am still having problems with i2c communication and am going to go crazy soon!

I can easily send and receive i2c info from master to slave and vice versa, but only if i do it one byte at a time (i.e. start, address, byte, stop).. as soon as i try to do consecutive writes or reads it just freezes. It seems as if it just doesn't work right at all. should it not be as easy as creating a while(1) loop in the master and issuing a start command, address, two data bytes consecutively and then a stop? I tried this by sending a 4 followed by a 5 from the slave to the master. What i get is one of the three combinations

4 and 4
5 and 4
5 and 5

which is not right.. looking at the oscilloscope it seems as if there is almost a timing issue.. i see sometimes the first byte attempts to make a five, but the LSB goes high then low before the clock can pulse. therefore only a four is read. it is very strange.

From what i understand, if i want to read two or more bytes from the master i need to issue my first i2c_read(1) and the second i2c_read(0) to ACK the first and NACK the second (or last).. and with the slave i can just use the i2c_write(data) over and over because it will wait for the clock.

Also before i broke it down to the basics of just sending two, i was finding that the block was being held low after the first byte of four bytes was being sent from the slave to the master. Here was the code for that:

[treitmey]

This is what I do on a multiread to a fram.
This is for FM24C256. ((( Not able to handle chip crossing)))
I'll put all code in code library.

[joshkeys]

Thanks for the code, but i am having problems on the slave side of things. My master seems to function properly, it is the slave PIC that causes me problems. THe code i posted earlier was from my slave PIC. If you have any info on that i would appreciate it.

Thanks

Josh

[treitmey]

Sorry, my slave is always the FRAM. No code for that.

[rnielsen]

Here's a bit of code from an ISR that I use. It belongs to a PIC16F87. The registers are defined as the same names as the spec sheet calls them.

[Ttelmah]

The problem is that the slave, needs to wait for the first byte to send before writing the second. You can do this, by clearing the interrupt bit, and then looping testing this, or do the second write in the next interrupt. All the I2C_write command does in a slave, is transfer the byte into the buffer, it does not wait for the byte to complete transmission.

Best Wishes

[joshkeys]

Ok, this is the ASM for the i2c_write() command

[Ttelmah]

To my mind, if I2C_WRITE, waits for BF to clear, after transferring a byte, it is faulty for use in an interrupt, since the whole 'point' of using an interrupt driven approach, is to not waste time waiting for bytes to transfer. I must admit the last time I looked at it was probably about a hundred compiler versions ago, and at that time it was not checking the status properly. I therefore gave up on it...
This probably explains the slow performance on I2C, that some people have at times reported.
What it should do, is check that BF is clear, _before_ transferring the byte, since this way, in normal interrupt use, the routine can then return immediately. As it stands, it means that an interrupt driven slave receiver, will give appalling performance.
Personally, I have just copied the MicroChip application notes for I2C transfers, and my slave only ever sends one byte on an interrupt, and the transfers are done using the macros I posted some time ago for doing SSP. Slave works fine like this, transferring a 16byte packet.
Given that they do test the BF flag, it should work as posted. However I'd add a diagnostic, and see if the WCOL bit is set after the second transfer.
How is clock stretching configured on the slave?. Remember that you need to prevent the master from initiating the next transfer, till the byte is already loaded on the slave. Hence the sequence should be to hold the clock low, load the byte, and then release the clock.

Best Wishes