// TI File $Revision: /main/1 $
// Checkin $Date: December 1, 2004 17:04:36 $
//###########################################################################
//
// FILE: DSP280x_SWPrioritizedDefaultIsr.c
//
// TITLE: DSP280x Device Default Software Prioritized Interrupt Service Routines.
//
//###########################################################################
//
// $TI Release: DSP280x V1.30 $
// $Release Date: February 10, 2006 $
//###########################################################################
#include "DSP280x_Device.h" // DSP280x Headerfile Include File
#include "DSP280x_Examples.h" // DSP280x Examples Include File
#include "DSP280x_SWPrioritizedIsrLevels.h"
// Connected to INT13 of CPU (use MINT13 mask):
// Note CPU-Timer1 is reserved for TI use, however XINT13
// ISR can be used by the user.
#if (INT13PL != 0)
interrupt void INT13_ISR(void) // INT13 or CPU-Timer1
{
IER |= MINT13; // Set "global" priority
EINT;
// Insert ISR Code here
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
#endif
// Connected to INT14 of CPU (use MINT14 mask):
#if (INT14PL != 0)
interrupt void INT14_ISR(void) // CPU-Timer2
{
IER |= MINT14; // Set "global" priority
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
#endif
// Connected to INT15 of CPU (use MINT15 mask):
#if (INT15PL != 0)
interrupt void DATALOG_ISR(void) // Datalogging interrupt
{
IER |= MINT15; // Set "global" priority
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
#endif
// Connected to INT16 of CPU (use MINT16 mask):
#if (INT16PL != 0)
interrupt void RTOSINT_ISR(void) // RTOS interrupt
{
IER |= MINT16; // Set "global" priority
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
#endif
// Connected to EMUINT of CPU (non-maskable):
interrupt void EMUINT_ISR(void) // Emulation interrupt
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
// Connected to NMI of CPU (non-maskable):
interrupt void NMI_ISR(void) // Non-maskable interrupt
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void ILLEGAL_ISR(void) // Illegal operation TRAP
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER1_ISR(void) // User Defined trap 1
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER2_ISR(void) // User Defined trap 2
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER3_ISR(void) // User Defined trap 3
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER4_ISR(void) // User Defined trap 4
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER5_ISR(void) // User Defined trap 5
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER6_ISR(void) // User Defined trap 6
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER7_ISR(void) // User Defined trap 7
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER8_ISR(void) // User Defined trap 8
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER9_ISR(void) // User Defined trap 9
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER10_ISR(void) // User Defined trap 10
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER11_ISR(void) // User Defined trap 11
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
interrupt void USER12_ISR(void) // User Defined trap 12
{
EINT;
// Insert ISR Code here.......
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
// -----------------------------------------------------------
// PIE Group 1 - MUXed into CPU INT1
// -----------------------------------------------------------
// Connected to PIEIER1_1 (use MINT1 and MG11 masks):
#if (G11PL != 0)
interrupt void SEQ1INT_ISR( void ) // ADC
{
// Set interrupt priority:
volatile Uint16 TempPIEIER = PieCtrlRegs.PIEIER1.all;
IER |= M_INT1;
IER &= MINT1; // Set "global" priority
PieCtrlRegs.PIEIER1.all &= MG11; // Set "group" priority
PieCtrlRegs.PIEACK.all = 0xFFFF; // Enable PIE interrupts
EINT;
// Insert ISR Code here.......
// Restore registers saved:
DINT;
PieCtrlRegs.PIEIER1.all = TempPIEIER;
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}
#endif
// Connected to PIEIER1_2 (use MINT1 and MG12 masks):
#if (G12PL != 0)
interrupt void SEQ2INT_ISR( void ) // ADC
{
// Set interrupt priority:
volatile Uint16 TempPIEIER = PieCtrlRegs.PIEIER1.all;
IER |= M_INT1;
IER &= MINT1; // Set "global" priority
PieCtrlRegs.PIEIER1.all &= MG12; // Set "group" priority
PieCtrlRegs.PIEACK.all = 0xFFFF; // Enable PIE interrupts
EINT;
// Insert ISR Code here.......
// Restore registers saved:
DINT;
PieCtrlRegs.PIEIER1.all = TempPIEIER;
// Next two lines for debug only to halt the processor here
// Remove after inserting ISR Code
asm (" ESTOP0");
for(;;);
}