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A .NET Micro Framework device (ChipworkX in this case) sends a byte through the SPI interface to a PIC18F. Having PIE1bits.SSPIE enabled, the following code is executed on interrrupt:

void high_isr (void)
     PIE1bits.SSPIE = 0;
     PIR1bits.SSPIF = 0; //Clear interrupt flag.
     LATDbits.LATD5 = 1; //Enables LED for high interrupt activity.
     while ( !SSPSTATbits.BF ); //Wait until cycle complete
     red_byte_array[1] = SSPBUF;
     SSPBUF = 0x00;
     LATDbits.LATD5 = 0;
     PIE1bits.SSPIE = 1;

When sending the same byte a few times, the data does not seem to be read consistently. Both master and slave are setup for clock idle low level, and data clocking on rising edge. I don't use the chip select line, because it's direct communictation. Finally, the master sends data at 100 kHz, while the PIC is operating at 8 MHz.

How do I improve and/or fix this code?

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What are your SSPSTAT and SSPCON1 registers set to? Did you also verify that the SCK, SDO, SDI and ~SS pins are properly configured as input or output? Are you using the ~SS pin? – MSumulong Nov 1 '10 at 23:21

On the PIC16F886/7:

If you are not using the /SS, then the data changes on the rising edge and is sampled on the falling edge, for a SCK idling at 0: CKE = 0, CKP = 0 (or 1), SMP = 0.

The byte moving from the shift register to the buffer register causes BF bit and SSPIF the interrupt, so you don't normally loop about in the interrupt waiting for BF.

There should not be any need to disable SSP interrupts (SSPIE = 0), but you probably need to clear the SSPIF before returning from interrupt.

I would guess you should, on SSP interrupt (SSPIF = 1):

red_byte_array[x] = SSPBUF

You may need to check WCOL and SSPOV for errors.

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Given that your PIC only has ( 8 MHz / 100 kHz ) 80 cycles to respond, that Delay1KTCYx() seems rather long.

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That delay was merely used as a status indicator, keep the led on slightly longer for the human eye be able to witness. – Joost Oct 26 '10 at 13:44

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