I'm trying to get the external interrupt running on a
Nucleo-F030R8
and hit a wall.
Everything is configured and runs just fine in step mode but when I'm connecting my board to another testboard with a simple jumper wire and run the same code, an External Interrupt is triggered even when that testboard (a second
Nucleo-F302R8,
which should only produce a single signal peak that I want to measure with the first) is not turned on.
I'm using a mix of the HAL Library from STM and a bit code of my own.
Has somebody eventually encountered a similar problem?
I'm using the System Workbench for STM32.
Part of the ISR, Interrupthandler is cut
void EXTI0_1_IRQHandler(void)
{
/* USER CODE BEGIN EXTI0_1_IRQn 0 */
if ((EXTI->IMR & EXTI_IMR_MR0) && (EXTI->PR & EXTI_PR_PR0))
{
int_flag_pin.copen = 1;
}
if ((EXTI->IMR & EXTI_IMR_MR1) && (EXTI->PR & EXTI_PR_PR1))
{
int_flag_pin.ma1 = 1;
}
/* USER CODE END EXTI0_1_IRQn 0 */
HAL_GPIO_EXTI_IRQHandler(GPIO_PIN_0);
HAL_GPIO_EXTI_IRQHandler(GPIO_PIN_1);
/* USER CODE BEGIN EXTI0_1_IRQn 1 */
/* USER CODE END EXTI0_1_IRQn 1 */
}
Between setting the Pin low and change rising, the Interrupt triggers.
TEST_GPIO_Port->BSRR = (uint32_t) TEST_Pin;
//HAL_GPIO_WritePin(TEST_GPIO_Port, TEST_Pin, GPIO_PIN_RESET);
TEST_GPIO_Port->BRR = (uint32_t) TEST_Pin;
change_rising(0);
Update:
Could it be that resetting the Pin through BSRR or BRR generates an interrupt?
I'm checking my code step-by-step and everytime the pin is getting resetted the interrupt is generated.
if TEST_Pin is GPIO_PIN_0 or GPIO_PIN_1 pin, you will receive irq legally. EXTI0_1_IRQHandler catches irq from any port but from #0 or #1 pin.
Related
Objective
I am trying to interface a 4x3 matrix keypad and 7 segment LED display to PIC18f4550 microcontroller. When I press buttons on keypad, I want the 7 segment display to show the number accordingly.
What I have done so far
Based on my research, I can either use scanning (continuously polling) or use interrupts to interface the keypad with the MCU. I decided to use interrupts as that way the microcontroller can be free up for other operations.
The following is the connection of keypad to MCU.
I am using RB0-2 as input to MCU and RB4-7 are set as output from MCU. RB4-7 are permanently set high so when the user press on the keypad button, it will trigger the RB0-2(INT0-INT2) interrupt to process.
For simplicity in this post, I will only discuss about the Column 1 of the keypad.
This is how I initialize and setup the registers.
void main(void)
{
OSCCON = 0x72;
TRISD = 0;
LATD = 0;
ADCON1 = 0x0F;
TRISB = 0x07;
LATB = 0xF0;// keep the RB4-7 high
INTCONbits.GIE = 1;
INTCONbits.INT0IF = 0;
INTCONbits.INT0IE = 1;
INTCON2bits.INTEDG0 = 1;
while (1);
}
My interrupt handling is as below:
if(INTCONbits.INT0IF == 1)
{
for(char scan=0x10; scan>=0x80; scan <<= 1) // send 1 to each row starting from RB4 till RB7
{
LATB = scan;
if (PORTBbits.RB0 = 1)
{
if(scan == 0x10)
{
display_number(1);
}
if(scan == 0x20)
{
display_number(4);
}
if(scan == 0x40)
{
display_number(7);
}
}
}
LATB = 0xF0;
INTCONbits.INT0IF == 0;
My problem
When I run the simulation, I noticed that the GIE bit keep toggling very fast between 0 and 1 as soon as I press on any button in Column 1 and no display of any number on 7segment as well. I added the watch window screenshot and highlighted the GIE bit that is toggling.
What have I done wrong? Is my logic of handling interrupt flawed?
UPDATE 1
As DavidHoadley suggested, I have changed to use use unsigned char instead of char.
I have also corrected the for loop condition.
What I observed was, If I keep the loop inside the interrupt routine, the loop will get stuck for some reason.
For now, I have given up trying to use loop inside the interrupt function and instead resort to have a function in main while loop to output high at each row sequentially forever and the interrupt function is only used to check the output using switch statement.
Your for loop end condition looks like the loop will immediately exit. The line:
for(char scan=0x10; scan>=0x80; scan <<= 1)
Should probably be:
for(char scan=0x10; scan<=0x80; scan <<= 1)
Can’t test this - hope it works
It is a normal behaviour for PIC micros. When PIC goes to the interrrupt vector the GIE bit reset by hardware and when it finishes servicing the interrupt, it returns with the RETFIE assembly instruction by setting the GIE bit which is not visible in C code. So there is no fault in your code for this matter, this is not even a matter.
I see in your code you are using only INT0 interrupt to detect presses and the rest of INTx pins are not activated. That's why the PIC micro will be able to detect the changes of the only first column. I suggest you to use interrupt on change (IOC) which features on RB<7:4> bits. This way you can free the INTx pins for other purposes. And you can move the 3 pins to a PORT other than PORTB. Here is the procedure or my suggestion if you interest:
Configure RB<7:4> pins as inputs and enable their IOC feature.
Configure any 3 pins as output of any port.
If you use the positive logic set the 3 pins high otherwise, low.
In your ISR poll the RBIF to know if there is a change on RB<7:4> pins.
If so make a button scan to detect the pressed key.
Unfortunately can't tell you anything for your display issue since you haven't shared the codes and the configuration of display.
I am currently working on a low-power project using the Adafruit Feather M0 microprocessor. A requirement of my project is to be able to sleep the CPU and wake it again using an external interrupt triggered from the MPU6050 accelerometer.
I have tested the following code sample from GitHub - it works successfully! The question that I need answering is how to I alter this sample code to work on Pin 13 of the feather, rather than pin 6.
#define interruptPin 6
volatile bool SLEEP_FLAG;
void EIC_ISR(void) {
SLEEP_FLAG ^= true; // toggle SLEEP_FLAG by XORing it against true
//Serial.print("EIC_ISR SLEEP_FLAG = ");
//Serial.println(SLEEP_FLAG);
}
void setup() {
// put your setup code here, to run once:
Serial.begin(9600);
delay(3000); // wait for console opening
attachInterrupt(digitalPinToInterrupt(interruptPin), EIC_ISR, CHANGE); // Attach interrupt to pin 6 with an ISR and when the pin state CHANGEs
SYSCTRL->XOSC32K.reg |= (SYSCTRL_XOSC32K_RUNSTDBY | SYSCTRL_XOSC32K_ONDEMAND); // set external 32k oscillator to run when idle or sleep mode is chosen
REG_GCLK_CLKCTRL |= GCLK_CLKCTRL_ID(GCM_EIC) | // generic clock multiplexer id for the external interrupt controller
GCLK_CLKCTRL_GEN_GCLK1 | // generic clock 1 which is xosc32k
GCLK_CLKCTRL_CLKEN; // enable it
while (GCLK->STATUS.bit.SYNCBUSY); // write protected, wait for sync
EIC->WAKEUP.reg |= EIC_WAKEUP_WAKEUPEN4; // Set External Interrupt Controller to use channel 4 (pin 6)
PM->SLEEP.reg |= PM_SLEEP_IDLE_CPU; // Enable Idle0 mode - sleep CPU clock only
//PM->SLEEP.reg |= PM_SLEEP_IDLE_AHB; // Idle1 - sleep CPU and AHB clocks
//PM->SLEEP.reg |= PM_SLEEP_IDLE_APB; // Idle2 - sleep CPU, AHB, and APB clocks
// It is either Idle mode or Standby mode, not both.
SCB->SCR |= SCB_SCR_SLEEPDEEP_Msk; // Enable Standby or "deep sleep" mode
SLEEP_FLAG = false; // begin awake
// Built-in LED set to output and high
PORT->Group[g_APinDescription[LED_BUILTIN].ulPort].DIRSET.reg = (uint32_t)(1<<g_APinDescription[LED_BUILTIN].ulPin); // set pin direction to output
PORT->Group[g_APinDescription[LED_BUILTIN].ulPort].OUTSET.reg = (uint32_t)(1<<g_APinDescription[LED_BUILTIN].ulPin); // set pin mode to high
Serial.println("Setup() Run!");
}
void loop() {
// put your main code here, to run repeatedly:
if (SLEEP_FLAG == true) {
PORT->Group[g_APinDescription[LED_BUILTIN].ulPort].OUTCLR.reg = (uint32_t)(1<<g_APinDescription[LED_BUILTIN].ulPin); // set pin mode to low
Serial.println("I'm going to sleep now.");
__WFI(); // wake from interrupt
SLEEP_FLAG = false;
Serial.println("Ok, I'm awake");
Serial.println();
}
//Serial.print("SLEEP_FLAG = ");
//Serial.println(SLEEP_FLAG);
PORT->Group[g_APinDescription[LED_BUILTIN].ulPort].OUTTGL.reg = (uint32_t)(1<<g_APinDescription[LED_BUILTIN].ulPin); // toggle output of built-in LED pin
delay(1000);
}
As per the pinout diagram and Atmel datasheet, I am struggling to work out which changes to make to allow pin 13 to operate in the same way as pin 6.
Atmel Datasheet
The obvious solution is to change the following lines...
#define interruptPin 13
EIC->WAKEUP.reg |= EIC_WAKEUP_WAKEUPEN1; // Set External Interrupt Controller to use channel 4 (pin 6)
I suspected channel 1 (WAKEUPEN1) due to the ENINT^1 next to pin 13 on the pinout diagram. But this didn't work, the code pin operation did not exhibit the same behaviour as the pin 6 setup.
I would be very grateful for any suggestion of how to implement this code working on Pin 13. Many thanks for your support.
I'm not an authority here, and your code looks correct to me.
Except, the pin out shows Pin 13 is the built-in LED line, and you manipulate LED_BUILTIN several places in your code. That's almost certainly conflicting with your attempts to use 13 as an interrupt line.
I have set up a project using a 16-bit Microcontroller called Thunderbird12, similar to the 9s12/Freescale 68HC12 family. It does a few things but mainly turn on an external water pump. Everything works fine except I need to implement an interrupt. I want to be able to stop the motor using an interrupt through a push button.
I have set up the button which sets pin 0 of port P to high when pressed. Using C, I have initialized the hardware and written the code but the flag is not called. Please see code below.
// Interrupt function
int interruptFlag;
void interrupt 56 WaterPumpRoutine() {
if ((PIFP & 0x01) == 0x01) { // check if pin 0 of port p is high (when button is pressed)
interruptFlag = 1; // set the flag to 1
}
// Main
void main() {
DDRP = 0x00; // set port P as input
PIEP = PIEP | 0x01; // enable interrupts on port P, pin 0
PERP = PERP | 0x01; // enable pull-up/down on port P, pin 0
if ( interruptFlag == 1)
PORTB = (PORTB & 0x00) // Here I'm turning off all the pins in Port B, which includes the pump.
}
If I put this code PORTB = (PORTB & 0x00) inside the WaterPumpRoutine() function, it works fine, but I need to be able to call the flag anywhere. I'm not sure what I'm missing. Any help would be appreciated!
Assuming that the interrupt call works fine..
Change the variable int interruptFlag; to volatile int interruptFlag;. This is to avoid optimizing away the if condition in main by the compiler.
In main you need to reset the interruptFlag on some condition. This is program dependent. Maybe you can do it like this.
if ( interruptFlag == 1)
{
PORTB = (PORTB & 0x00) // Here I'm turning off all the pins in Port B, which includes the pump.
interruptFlag = 0;
}
If you are using a push button, you should introduce a debounce mechanism to avoid detecting multiple inputs.
You need to add the if condition in main inside a while(1) loop as the interrupt can come at any time.
while(1)
{
if(interruptFlag == 1)
{
...
}
}
If u still can't get interrupt to fire , after things that other suggested, you should check if you got global interrupts or interrupt for specific part (GPIO) enabled since in most uc setting GPIO to generate interrupts doesn't enable interrupts
i have a tiva c micro controller the tm4c123gxl and i have been trying for a while now to use the I2C module on the board with a digital accelrometer with no result , i have been trying to set the MDR register with a certain value to send but it stays as 0
here is the code i am using for intialization till reaching part where i set the MDR register im using step by step debugging i run the code initially to the assignment step of I2C3_MDR_R = 0x2D;
void PortDInit(void)
{
volatile unsigned long delay=0;
SYSCTL_RCGCI2C_R|=0x8; //1-set clock of I2C of module 3
delay = SYSCTL_RCGC2_R; //2-delay to allow clock to stabilize
SYSCTL_RCGC2_R |= 0x00000008; //3-port D clock
delay = SYSCTL_RCGC2_R; //4-delay to allow clock to stabilize
GPIO_PORTD_AFSEL_R |= 0x03; //5-alternate function set for I2C mode
GPIO_PORTD_DEN_R |=0x03; //6-enable digital functionality for PA6 and PA7
GPIO_PORTD_ODR_R|=0x02; //7-enable open drain mode for I2CSDA register of port A
GPIO_PORTD_PCTL_R = 0x00000033; //8-set PCTL to I2C mode
I2C3_MCR_R= 0x00000010; // 9-intialize the i2c master
I2C3_MTPR_R = 0x00000007; // 10-number of system clock cycles in 1 scl period
I2C3_MSA_R = 0x3A // set slave address and read write bit
I2C3_MDR_R = 0x2D; // data to be sent BREAK POINT HERE using single step here yields MDR with same value = 0
I2C3_MCS_R = 0x00000003; // follow transmit condition
while(I2C3_MCS_R &= 0x40 == 1); // wait bus is busy sending data
if(I2C3_MCS_R&=0x04 ==1)
{
//handle error in communication
}
else
{
//success in transmission
}
what i have done to reach this code
carefully understood the I2C protocol how it works etc.
check the data sheet and follow the initalization steps mentioned there step by step which got me to this code
i know i should use tivaware library which will be easier but using
the registers helps me understand more of how everything is working ,
im still a student
at first i didnt have the digital enable line as it wasnt mentioned
to be activated for the I2C but its only logical it should be there
as we are using digital values i tried with both yielded the same
output mdr=0
i am using keil 4 as my IDE and im viewing the values of registers of
I2C module 3 to know whether data is placed in MDR or not
hope any one helps
thanks.
This is a long shot, but here goes:
in your comments, step 6 says
//6-enable digital functionality for PA6 and PA7
but it appears you are working on GPIO_PORTD...
maybe its a comment typo (you meant PD6 and PD7)
but just double check you are looking at the right pins...
Good luck!
I know that this topic (DMA & SPI) has already been talked about on numerous threads in the microchip forum, actually i've read all the 15 pages in result of the search with keyword "dma" and read all the topics about dma & spi.
And I am still stuck with my problem I hope someone can help me :)
Here is the problem.
My chip is a PIC32MX775F512H.
I am trying to receive (only receive) data using SPI via DMA.
Since you cannot "just" receive in SPI, and that the SPI core starts toggling the SPI clock only if you write into the SPIBUF (SPI1ABUF for me) I am trying to receive my data using 2 DMA channels.
DMA_CHANNEL1 for the transmitting part.
DMA_CHANNEL2 for the receiving part.
I copy pasted the code from http://www.microchip.com/forums/tm.aspx?tree=true&high=&m=562453&mpage=1#
And tried to make it work without any luck. It only receives several bytes (5 or 6).
I've set the Event Enable Flags to DMA_EV_BLOCK_DONE for both dma channels, no interrupt occurs.
Do you have any idea ?
Here is the code I am using :
int Spi_recv_via_DMA(SPI_simple_master_class* SPI_Port, int8u *in_bytes, int16u num_bytes2)
{
DmaChannel dmaTxChn=DMA_CHANNEL1;
DmaChannel dmaRxChn=DMA_CHANNEL2;
SpiChannel spiTxChn=SPI_Port->channel;
int8u dummy_input;
DmaChnOpen(dmaTxChn, DMA_CHN_PRI3, DMA_OPEN_DEFAULT);
DmaChnOpen(dmaRxChn, DMA_CHN_PRI3, DMA_OPEN_DEFAULT);
DmaChnSetEventControl(dmaTxChn, DMA_EV_START_IRQ_EN | DMA_EV_START_IRQ(_SPI1A_RX_IRQ));
DmaChnSetEventControl(dmaRxChn, DMA_EV_START_IRQ_EN | DMA_EV_START_IRQ(_SPI1A_RX_IRQ));
DmaChnClrEvFlags(dmaTxChn, DMA_EV_ALL_EVNTS);
DmaChnClrEvFlags(dmaRxChn, DMA_EV_ALL_EVNTS);
DmaChnSetEvEnableFlags(dmaRxChn, DMA_EV_BLOCK_DONE);
DmaChnSetEvEnableFlags(dmaTxChn, DMA_EV_BLOCK_DONE);
//SpiChnClrTxIntFlag(spiTxChn);
//SpiChnClrRxIntFlag(spiTxChn);
DmaChnSetTxfer(dmaTxChn, tx_dummy_buffer, (void *)&SPI1ABUF, num_bytes2, 1, 1);
DmaChnSetTxfer(dmaRxChn, (void *)&SPI1ABUF, in_bytes, 1, num_bytes2, 1);
while ( (SPI1ASTAT & SPIRBE) == 0)
dummy_input = SPI1ABUF;
SPI1ASTAT &= ~SPIROV;
DmaRxIntFlag = 0;
DmaChnEnable(dmaRxChn);
DmaChnStartTxfer(dmaTxChn, DMA_WAIT_NOT, 0);
while(!DmaRxIntFlag);
return 1;
}
with those two interrupt handlers :
// handler for the DMA channel 1 interrupt
void __ISR(_DMA1_VECTOR, ipl5) DmaHandler1(void)
{
int evFlags; // event flags when getting the interrupt
//LED_On(LED_CFG);
INTClearFlag(INT_SOURCE_DMA(DMA_CHANNEL1)); // acknowledge the INT controller, we're servicing int
evFlags=DmaChnGetEvFlags(DMA_CHANNEL1); // get the event flags
if(evFlags&DMA_EV_BLOCK_DONE)
{ // just a sanity check. we enabled just the DMA_EV_BLOCK_DONE transfer done interrupt
DmaTxIntFlag = 1;
DmaChnClrEvFlags(DMA_CHANNEL1, DMA_EV_BLOCK_DONE);
}
// LED_Off(LED_CFG);
}
void __ISR(_DMA2_VECTOR, ipl5) DmaHandler2(void)
{
int evFlags; // event flags when getting the interrupt
INTClearFlag(INT_SOURCE_DMA(DMA_CHANNEL2)); // acknowledge the INT controller, we're servicing int
evFlags=DmaChnGetEvFlags(DMA_CHANNEL2); // get the event flags
if(evFlags&DMA_EV_BLOCK_DONE)
{ // just a sanity check. we enabled just the DMA_EV_BLOCK_DONE transfer done interrupt
DmaRxIntFlag = 1;
DmaChnClrEvFlags(DMA_CHANNEL2, DMA_EV_BLOCK_DONE);
}
}
So I end up waiting forever at the line : while(!DmaRxIntFlag);
I have put breakpoints in the interrupt vectors, they are never called.
This is the state of several registers during the ever lasting wait :
DMACON 0x0000C800
DMASTAT 0x00000001
I am using SPI1A port, so SPI1ABUF and _SPI1A_RX_IRQ
DCH1SPTR 0x5
DCH1SSIZ 0x2B
DCH2DPTR 0x6
DCH2DSIZ 0x2B
DCH2CON 0x00008083
DCH2ECON 0x1B10
DCH2INT 0x00800C4
DCH2SSA 0x1F805820
DCH2DSA 0x00000620
Channel 1 is used to transmit
Channel 2 is used to receive
You are missing these:
INTEnable(INT_SOURCE_DMA(dmaTxChn), INT_ENABLED); // Tx
INTEnable(INT_SOURCE_DMA(dmaRxChn), INT_ENABLED); // Rx
rigth before
DmaRxIntFlag = 0;
DmaChnEnable(dmaRxChn);
DmaChnStartTxfer(dmaTxChn, DMA_WAIT_NOT, 0);
Good luck!
Are you using the SPI in slave mode? or you are on master mode, trying to read some response for a command?
Have you check the silicon errata for this chip? The dspic 33fj family had an issue where SPI slave mode simply didn't work.
Other than that, I don't think it is a good idea to busy wait for DmaRxIntFlag change. You should configure the DMA transfer and continue with your main loop. The DMA will trigger the interrupt handler.
Hope this helps.