Hello,
I'd like an example project or a document that shows how to read precision adc channels in scan mode and
when a conversion finishes it calls an interrupt routine using processor expert.
Thanks in advance
Regards
João Paulo
解決済! 解決策の投稿を見る。
Hi,
lines from the attached file
void ADC1_EOC_IRQHandler(void)
{
uint32_t len = ADC_DRV_GetConvResultsToArray(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL, &result, 1u);
DEV_ASSERT(len == 1u); /* only one value should be read from hardware registers */
(void)len;
ADC_DRV_ClearStatusFlags(INST_ADCONV1, ADC_FLAG_NORMAL_ENDCHAIN);
if (result > ADC_THRESHOLD)
{
PINS_DRV_ClearPins(LED_PORT, (1 << LED));
}
else
{
PINS_DRV_SetPins(LED_PORT, (1 << LED));
}
}
/*!
\brief The main function for the project.
\details The startup initialization sequence is the following:
* - startup asm routine
* - main()
*/
int main(void)
{
/* Write your local variable definition here */
/*** Processor Expert internal initialization. DON'T REMOVE THIS CODE!!! ***/
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/*** End of Processor Expert internal initialization. ***/
/* Initialize and configure pins */
PINS_DRV_Init(NUM_OF_CONFIGURED_PINS, g_pin_mux_InitConfigArr);
/* Initialize clocks */
CLOCK_SYS_Init(g_clockManConfigsArr, CLOCK_MANAGER_CONFIG_CNT,
g_clockManCallbacksArr, CLOCK_MANAGER_CALLBACK_CNT);
CLOCK_SYS_UpdateConfiguration(0U, CLOCK_MANAGER_POLICY_AGREEMENT);
/* Initialize ADC */
ADC_DRV_Reset(INST_ADCONV1);
ADC_DRV_DoCalibration(INST_ADCONV1);
ADC_DRV_ConfigConverter(INST_ADCONV1,&adConv1_ConvCfg0);
ADC_DRV_EnableChannel(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL, ADC_CHAN_NUM);
ADC_DRV_EnableInterrupts(INST_ADCONV1,ADC_FLAG_NORMAL_ENDCHAIN);
INT_SYS_SetPriority(ADC1_EOC_IRQn,1);
INT_SYS_EnableIRQ(ADC1_EOC_IRQn);
ADC_DRV_StartConversion(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL);
/* Start a loop to read converted values and blink an LED */
while(1)
{
}
BR, Petr
Hello,
This demo doesn't uses interrupts.. it holds the software on a while until the conversion finishes, is it possible to have an interrupt routine that is called when the adc conversion is completed?
If I enable the chain configuration
do I still need to call
ADC_DRV_EnableChannel(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL, ADC_CHAN_NUM); ?
whant changes if I initialize clocks with these code lines
CLOCK_SYS_Init(g_clockManConfigsArr, CLOCK_MANAGER_CONFIG_CNT,g_clockManCallbacksArr, CLOCK_MANAGER_CALLBACK_CNT);
CLOCK_SYS_UpdateConfiguration(0U, CLOCK_MANAGER_POLICY_AGREEMENT);
or with this one
CLOCK_DRV_Init(clockMan1_InitConfig0); ?
considering the demo project.
The mcu clock is set to 160MHz, isn't it?
On converter configuration tab, if I set the Clock Input to Input clock is Bus clock.
Which frequency is it? 160MHz or 80 MHz?
When I use ADC_DRV_DoCalibration(INST_ADCONV1); do this function automatically changes the adc clock to 40MHz and after the calibration changes back to the clock that was set before?
On converter configuration tab, the higher the sample duration the higher the precision of the measurement?
Thanks,
Regards
João Paulo
Hi,
yes, that example does not use interrupt, but can be modified to have it. Did you refer to the code I attached? Probably not.
If you enable chain configuration then ADC_DRV_EnableChannel is not needed but you should call ADC_DRV_ChainConfig.
Not sure about clock config.
System clock is set to 160MHz, the ADC clock source is FS80 (80MHz). The ADC can reduce the source clock to generate a 40 MHz clock, using MCR[ADCLKSEL] bit.
ADC_DRV_DoCalibration save MCR, clears MCR[ADCLKSEL] and finally restore MCR, so frequency during calibration is 40MHz.
Sample duration specify how long the sample capacitor is charged from the source, so it affects precision but also other aspects influence this (input signal, source resistance, filters, etc).
BR, Petr
Hello,
I refered to "adc_swtrigger_mpc5748g" demo example.
Could you tell me what functions/routines should I use to use add interrupt feature?
Thanks
Hi,
lines from the attached file
void ADC1_EOC_IRQHandler(void)
{
uint32_t len = ADC_DRV_GetConvResultsToArray(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL, &result, 1u);
DEV_ASSERT(len == 1u); /* only one value should be read from hardware registers */
(void)len;
ADC_DRV_ClearStatusFlags(INST_ADCONV1, ADC_FLAG_NORMAL_ENDCHAIN);
if (result > ADC_THRESHOLD)
{
PINS_DRV_ClearPins(LED_PORT, (1 << LED));
}
else
{
PINS_DRV_SetPins(LED_PORT, (1 << LED));
}
}
/*!
\brief The main function for the project.
\details The startup initialization sequence is the following:
* - startup asm routine
* - main()
*/
int main(void)
{
/* Write your local variable definition here */
/*** Processor Expert internal initialization. DON'T REMOVE THIS CODE!!! ***/
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/*** End of Processor Expert internal initialization. ***/
/* Initialize and configure pins */
PINS_DRV_Init(NUM_OF_CONFIGURED_PINS, g_pin_mux_InitConfigArr);
/* Initialize clocks */
CLOCK_SYS_Init(g_clockManConfigsArr, CLOCK_MANAGER_CONFIG_CNT,
g_clockManCallbacksArr, CLOCK_MANAGER_CALLBACK_CNT);
CLOCK_SYS_UpdateConfiguration(0U, CLOCK_MANAGER_POLICY_AGREEMENT);
/* Initialize ADC */
ADC_DRV_Reset(INST_ADCONV1);
ADC_DRV_DoCalibration(INST_ADCONV1);
ADC_DRV_ConfigConverter(INST_ADCONV1,&adConv1_ConvCfg0);
ADC_DRV_EnableChannel(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL, ADC_CHAN_NUM);
ADC_DRV_EnableInterrupts(INST_ADCONV1,ADC_FLAG_NORMAL_ENDCHAIN);
INT_SYS_SetPriority(ADC1_EOC_IRQn,1);
INT_SYS_EnableIRQ(ADC1_EOC_IRQn);
ADC_DRV_StartConversion(INST_ADCONV1, ADC_CONV_CHAIN_NORMAL);
/* Start a loop to read converted values and blink an LED */
while(1)
{
}
BR, Petr