USART with PLL turned on baudrate problem

[maria100]

Hello, I`m running a 18f14k50 With the following test program:

[RF_Developer]

If you are having "random" errors that probably means your clockrate is outside the serial specification. You are using internal clock, that is a big source of clock error. Also at higher baudrates the error tends (but is not always) to be higher due to the division ratios not being good.

PIC baud rate calculator V2.1 says that if you are using the hardware UART then at 32MHz processor clock, the best you can get for 57600 with BRGH = 0 is 55555 baud, or -3.55% which is only just about OK with a good clock source such as a crystal. This is a fixed error. The recommended maximum error is +/-4%, best to keep within +/-3%. This is not the only source of baudrate error. The internal clock has a fair bit, something like +/-1% or so over the operating temperure range and the PLL will add some clock jitter of its own. So add in the error of the internal clock source and PLL and it won't work all the time

With BRGH = 1 the situation is better, 57124 baud, or -0.79% which is OK, and may work satisfactorily with internal oscillator as long as you don't let your PIC get too hot. The compiler should set BRGH for you for the best result.

With software UARTs the problem is worse This is becuase the timing is done by inserting delays, which are single processor cycles which are 4 times slower than the clock. This means that the timing is worse ad the errors larger. I don't know for sure, as CCS don't publish any way to calculate actual software UART timing, that you are unlikely to be able to get anything better than the -3.55% figure for the worse of the two hardware timings. It may be worse.

So, for higher UART speeds you must use a hardware UART AND a crystal/crystal oscillator clock source.

I have got a serial link to operate with the sending end working fairly reliably at this sort of speed on internal clock. I did it by selecting a non-standard baudrate that was easy for the PIC to generate wth zero error. So the only error was the internal clock error and the crystal error at the receiving end.

Internal clock is only suitable for the simplest of applications that don't require even reasonably accurate timing. Its not good for anything that sends asynchronous data. SPI is OK, I2C is OK, serial is not USB may or may not be: I don't have enough info on the clock tolerances to be able to comment.

RF Developer

[asmboy]

[maria100]

I tried even a hardware uart now, and is working the same...did i configure the PLL wrong? ...

[asmboy]

without knowing your list of fuses etc --
it is hard to see precisely where it has gone wrong

but perhaps you can simplify further :

try using 8mhz clock with NO PLL and just 9600 baud

prove first that you can do it properly at a low baud - then
try faster clocks - then the PLL and lastly your highest baud rate

isolate what is wrong through simplifying.

walk slow :: then learn to run

if it still does not work - post your best shot at the simplest
program you can write that still does not work

[maria100]

the program is here in the thread at the begining ( the fuses that i set also).
The program runs fine with 8, 16 Mhz ( NO PLL) with all baud rates.

[Ttelmah]

Your setup oscillator line is wrong.
You need:

setup_oscillator(OSC_32MHZ | OSC_INTRC);

Otherwise using this line turns off the internal oscillator....

Best Wishes

[maria100]

Thanks Ttelmah ..i changed it but is working the same....:(

[maria100]

I have "ported" the code to a 18f25k22 for testing and is working fine with the PLL ON.....i just wish PICs were a bit more standard..still..have to make the 14k50 running..:|

[Ttelmah]

OK.
I took the time to compile the code, and test it on a chip, with a digital scope testing the timings of the bits.
Code I ran, was:

[maria100]

Thank Ttelmah for your time , unfortunately i have a not so old compiler ( Version 4.124) . You have a newer one? Other chip ( 18f25k22 ) runs just fine ..so 14k50 is the problem somehow. Can you please post the .LST file where is shows how the OSC is set up with PLL ACTIVE? Thanksss

[Ttelmah]

You had not said what compiler version, so wondered if that might be the problem. Yes on a real 14K50.
Only differences are that I turn off FCMEN, snce this can 'mislead' you, if your oscillator is not working, falling back to a default setting, and then giving the wrong rate, and that I didn't use setup_oscillator, letting the compiler do the settings. Had checked already, and the fuses generated are correct for 32MHz operation.

Best Wishes

[maria100]

The Compiler is 4.124 , That what is says in "Compiler Version" . I asked for the .LST to check if my compiler does the same thing like yours when it comes to setting up the Internal Oscilator . Thanks

[maria100]

SOLVED!!!!! Setting the fuses like you did Ttelmah and not setting the setup_oscillator line did the trick..dont know exactly each one ( fuses or setup_oscillator ) was to blame but now is working! Is possible to have something to do with the CPUDIV fuse?

[Ttelmah]

Possibly.
It depends what the defaults are.
If you study these chips, when you select the PLL, the clock instead of going straight across through the multiplexer, and feeding to the CPU, goes up and joins the USB settings, where the PLL is selected, to feed the USB/CPU, and this clock is then fed into the CPU divider, and back into the final multiplexer for the CPU. Because I wanted to be sure the divider was set to '1', I selected it. The default on most registers/fuses is for bits to be '1' unless selected, and this would give CPUDIV = 4....
Since this is a fuse setting, I'd guess this was what was going wrong.
A quick compile _without_ selecting the CPUDIV fuse, confirms it does default to /4..

Best Wishes