operative clock problem

[antosci]

hi, i'm trying to blink a led... a simply led blinking, cause i attempted to communicate trough rs232 (ftdi232rl chip) to pc. Messages should arrive to pc with one second delay, instead they arrive with 4 second delay. and the baud rate isn't 9600 as i setted in the firmware. it's 2400.
I understood there is someting wrong with clock.
I'm using led blinking example with delay_ms(1000);
but the led is on for 4 seconds and off for 4 seconds.
i don't understand...

[PCM programmer]

I was able to fix it by adding CPUDIV1 to the #fuses, but I'm not sure why
that works, because the oscillator diagram in the 18F2550 data sheet
does not show the internal oscillator going through the CPUDIV block.

[temtronic]

Could be a compiler version bug where the registers used to configure he clock are wrong? or the selection of internal vs. external is wrong ?
You should post your compiler version, others may know.
it is 'strange' to say the least !



Jay

[antosci]

my version is pcwhd 5.025... and with #FUSES CPUDIV1 it all works.
but i don't understand why !
thank's a lot

[Ttelmah]

I agree you should not need CPUDIV1, but my guess would be that this 'accidentally' makes the compiler write to the OSCCON register.
Normally when using the internal RC, you have to manually force this with the line:

setup_oscillator(OSC_8MHZ);

at the start of your main code.

When using INT_RC mode, the oscillator speed is set in the code _after_ boot, not in the fuses. The chip defaults to waking at 1MHz (surprised it gives 4 seconds, not 8...).

I have to ask, why you are using a USB chip, with the internal oscillator?. Seems a waste of pins, since this chip cannot give USB like this.

[PCM programmer]

When using the INTRC_IO fuse with the 18F4550, if you add this line to
main(), then CPUDIV1 is not needed:

[Ttelmah]

Yes.

This is doubly 'confirmed' by the speed being seen. The default for the INT_RC route, is 1MHz, but if the 8MHz INT_RC is being routed to the CPUDIV divider, the default for this divider, is /4. 8MHz/4, then gives the 2Mhz being seen.
I suspect nobody has noticed, since as you have to have a crystal to use USB, it is more common to only use the RC oscillator for things like sleep operation, where a lower speed is selected.
On chips where the USB can be locked to a PLL off the incoming USB bus, so an accurate oscillator is not needed, this route is instead often used.
An interesting 'missing line' on the published circuit diagram.....

[PCM programmer]

Here is a modified oscillator diagram for the 18F4550:




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Edit: Re-uploaded to imgur for longer preservation.

[Ttelmah]

I suspect the route would be directly from the line joining the 8MHz between the INTOSC postscaler, and the MUX, , not from the output of the MUX. If you look at the other chips where this line is present, it is normally from this point.

Best Wishes

[PCM programmer]

I disagree. If I test it with 1 MHz or 2 MHz, or 31000 Hz, it behaves in
the same way. This means the output of the internal RC divider (mux)
is applied to the CPUDIV block.

[Ttelmah]

If it 'behaves the same way', then it must come from before the Mux.

If it changes, then it'd come from after.

Best Wishes

[PCM programmer]

[Ttelmah]

Look for instance at the 46J50. The internal 8MHz oscillator is taken before the MUX, and this or the primary oscillator can be selected to feed CPUDIV.

[PCM programmer]

OK, I see what you mean now. I modeled my diagram off the 18F45K50.

[Ttelmah]

There seem to be three variants:

1) Takes one branch before the MUX (46J50)
2) Takes multiple branches before the MUX (4620)
3) Takes the output of the MUX (45K50)

Only a sequential test of the speeds achieved with all the combinations, would 'prove' which the chip has.

In my memory, I've seen far more chips doing '1' or '2', than '3'. May be wrong, but I think that is the case.