24F running slow; software or hardware?

[RoGuE_StreaK]

After quite some time of inactivity, I'm moving to a 24F from an 18F; due to other components in the circuit being tight-pitch SMD only devices, I've spent quite some time making a suitable prototype PCB using the cheapie chinese 10 for $10 suppliers, and only now gotten a physical setup that should be right (for the peripherals).

But I've populated the core of the board and written a basic "blinkie" test code, and it seems that it's running at least 4x as slow as it should be? Am I missing the bleeding obvious in something below, or am I likely to have a hidden hardware issue?

PWCHD v4.120
PIC24FJ64, 3.3V power
20MHz crystal with 30pF caps (20pF load capacitance)
programmed via PICKIT2 (Sure Electronics clone)
two RGB LEDs, one on C6,C7,C8 and one on B11,B12,B13

Code base generated by the wizard

24F_blink.h

[Ttelmah]

Start with the fuses.
With the 24F, you have to enable the oscillator, and also select it. 'PR' fuse (to select the primary oscillator).
You also have OSCIO selected. This is only used when you are using an internal clock or EC mode. Fortunately it is ignored when HS is selected, but you are trying to set the oscillator 2 pin for normal I/O use....
Currently with the primary oscillator not selected, it is defaulting to using the RC oscillator with postscaler.

[RoGuE_StreaK]

Thanks Ttelmah, I think I had (and still have) confusion over the OSC2 section; I had interpreted this as meaning the secondary oscillator, as in a slower physical crystal off pins SOSC0 and SOSC1, and I intended using these pins for other purposes as I don't have a secondary crystal?

Oh well, just wrote it with the following fuses and it appears to now to running at the correct speed, I just don't know whether my secondary OSC pins are available or not

[Ttelmah]

The data sheet is your friend.

It does get complex, since the CCS names and the Microchip ones don't always tally. However read the file 'fuses.txt' in the compiler directory, for a description of each CCS fuse, which then allows these to be cross-referenced to the data sheet.

Key in this area, are that the oscillator 'setup', is separate from the 'selection' (hence the need for the PR fuse). Then the OSCIO fuse, is the one the data sheet calls OSCIOFCN, which controls the OSCO pin (not the secondary oscillator). The ones to enable the secondary oscillator are the SOSC fuses you have already found. SOSC_SEC enables it. SOSC_SEC_LP enables it in low power mode, and SOSC selects it. The 'enable' connection in the data sheet (SOSCEN), is in the OSCCON register, not a fuse. It defaults to being turned on, when any device selects the oscillator, which is either if this is selected to boot the chip, or under the control of timer1 otherwise. T1_EXTERNAL_RTC enables it (in setup_timer1), if you are not using it as the clock source, or setup_oscillator(OSC_SECONDARY), to select it as the CPU clock.

Best Wishes

[RoGuE_StreaK]

[temtronic]

Too bad these PICs have MORE fuses than instructions to learn !!

What I do is WHEN I get a set of 'fuses' that actually run the 1Hz LED program, I save them as a file(pictype.fuz). I then # include that file instead of relying on any 'wizard' let alone my grey cells as to what 'should work'.
By having this KNOWN working set of fuses, you have a solid start to carry on from.
I do the same with 'defines' for every I/O pin.A simple ,easily readable file that details every pin (used or not) WITH comments(like actual pin number).
Another 'bonus' is that 'main' is less 'cluttered' with 2-3 pages of fuses and pin defines as these are now just 2 lines !

hth
jay