/* Set/Clear SCT control register */
void Chip_SCT_SetClrControl(LPC_SCT_T *pSCT, uint32_t value, FunctionalState ena)
{
if (ena == ENABLE) {
Chip_SCT_SetControl(pSCT, value);
}
else {
Chip_SCT_ClearControl(pSCT, value);
}
}
int execute_SCT_match_test( LPC_SCT_T *pSCT, CounterWidth counter_width, CHIP_SCT_MATCH_REG_T match_register,
uint32_t match_count, SCTClock sct_clock, SCTInputEdge sct_input_edge) {
uint32_t cfg = 0, evt_ctrl = 0;
int i;
/* Custom Initialization */
Chip_SCT_Init(pSCT);
switch (counter_width) {
case kCounterWidth16Bits:
cfg |= SCT_CONFIG_16BIT_COUNTER;
break;
case kCounterWidth32Bits:
cfg |= SCT_CONFIG_32BIT_COUNTER;
break;
}
switch (sct_clock) {
case kSystemClock:
cfg |= SCT_CONFIG_CLKMODE_SYSCLK;
break;
case kPrescaledSystemClock:
cfg |= SCT_CONFIG_CLKMODE_PRESCALED_SYSCLK;
break;
case kSCTInput:
cfg |= SCT_CONFIG_CLKMODE_SCT_INPUT;
break;
case kPrescaledSCTInput:
cfg |= SCT_CONFIG_CLKMODE_PRESCALED_SCT_INPUT;
break;
}
if ((sct_clock == kSCTInput) || (sct_clock == kPrescaledSCTInput)) {
switch (sct_input_edge) {
case kRisingInput0:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_0;
break;
case kFallingInput0:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_0;
break;
case kRisingInput1:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_1;
break;
case kFallingInput1:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_1;
break;
case kRisingInput2:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_2;
break;
case kFallingInput2:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_2;
break;
case kRisingInput3:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_3;
break;
case kFallingInput3:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_3;
break;
case kRisingInput4:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_4;
break;
case kFallingInput4:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_4;
break;
case kRisingInput5:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_5;
break;
case kFallingInput5:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_5;
break;
case kRisingInput6:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_6;
break;
case kFallingInput6:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_6;
break;
case kRisingInput7:
cfg |= SCT_CONFIG_CKSEL_RISING_IN_7;
break;
case kFallingInput7:
cfg |= SCT_CONFIG_CKSEL_FALLING_IN_7;
break;
}
}
Chip_SCT_Config(pSCT, cfg);
/* The match/capture REGMODE defaults to match mode */
/* Set the match count */
Chip_SCT_SetMatchCount(pSCT, match_register, match_count);
/* Set the match reload value */
Chip_SCT_SetMatchReload(pSCT, match_register, match_count);
/* Setup so that a match in the match_register when in State 0 causes Event 0.
* Setup so Event 0 causes a Limit condition
*/
evt_ctrl |= SCT_EV_CTRL_MATCHSEL(match_register) | SCT_EV_CTRL_HEVENT_L |
SCT_EV_CTRL_COMBMODE_MATCH;
Chip_SCT_EventControl(pSCT, 0, evt_ctrl);
Chip_SCT_EventStateMask(pSCT, 0, (1UL << 0));
Chip_SCT_Limit(pSCT, (1UL << 0));
/* Setup to toggle all outputs on match */
for (i = 0; i < CONFIG_SCT_nOU; i++) {
LPC_SCT->OUT[i].SET = (1UL << 0);
LPC_SCT->OUT[i].CLR = (1UL << 0);
Chip_SCT_SetConflictResolution(LPC_SCT, i, 0x3);
}
/* Enable an Interrupt on the Match Event */
Chip_SCT_EnableEventInt(pSCT, SCT_EVT_0);
/* Enable the IRQ for the SCT */
NVIC_EnableIRQ(SCT_IRQn);
/* Start the counter */
if (counter_width == kCounterWidth32Bits) {
Chip_SCT_ClearControl(pSCT, SCT_CTRL_HALT_L);
}
else {
// TODO deal with 16 bit counter mode
}
return 0;
}
