//Prints the temperatures in a way that's more easily parsed by a Processing app
//Each line starts with '$' and ends with '*'
void rawPrintTemperatures()
{
Serial.print("$");
for(int i = 0 ; i < 64 ; i++)
{
Serial.print(convertToFahrenheit(temperatures[i]));
Serial.print(","); //Don't print comma on last temperature
}
Serial.println("*");
}
//Prints the temperatures in a way that's more easily viewable in the terminal window
void prettyPrintTemperatures()
{
Serial.println();
for(int i = 0 ; i < 64 ; i++)
{
if(i % 16 == 0) Serial.println();
Serial.print(convertToFahrenheit(temperatures[i]));
//Serial.print(irData[i]);
Serial.print(", ");
}
}
/**************************************************************************//**
* @brief Main function
*****************************************************************************/
int main(void)
{
SYSTEM_ChipRevision_TypeDef revision;
char string[8];
int i;
uint32_t temp;
/* Chip revision alignment and errata fixes */
CHIP_Init();
/* Initialize DVK board register access */
BSP_Init(BSP_INIT_DEFAULT);
/* If first word of user data page is non-zero, enable eA Profiler trace */
BSP_TraceProfilerSetup();
CMU_ClockEnable(cmuClock_HFPER, true);
CMU_ClockEnable(cmuClock_ADC0, true);
CMU_ClockEnable(cmuClock_GPIO, true);
/* Initialize LCD controller without boost */
SegmentLCD_Init(false);
SegmentLCD_AllOff();
/* Check for revision after revision B. Chips with revision earlier than */
/* Revision C has known problems with the internal temperature sensor. */
/* Display a warning in this case */
SYSTEM_ChipRevisionGet(&revision);
if (revision.minor < 2)
{
SegmentLCD_Write("WARNING");
RTCDRV_Trigger(2000, NULL);
EMU_EnterEM2(true);
SegmentLCD_Write("REV C+");
RTCDRV_Trigger(2000, NULL);
EMU_EnterEM2(true);
SegmentLCD_Write("REQUIRD");
RTCDRV_Trigger(2000, NULL);
EMU_EnterEM2(true);
}
/* Enable board control interrupts */
BSP_InterruptDisable(0xffff);
BSP_InterruptFlagsClear(0xffff);
BSP_InterruptEnable(BC_INTEN_JOYSTICK);
temperatureIRQInit();
/* Setup ADC for sampling internal temperature sensor. */
setupSensor();
/* Main loop - just read temperature and update LCD */
while (1)
{
/* Start one ADC sample */
ADC_Start(ADC0, adcStartSingle);
/* Wait in EM1 for ADC to complete */
EMU_EnterEM1();
/* Read sensor value */
temp = ADC_DataSingleGet(ADC0);
/* Convert ADC sample to Fahrenheit / Celsius and print string to display */
if (showFahrenheit)
{
/* Show Fahrenheit on alphanumeric part of display */
i = (int)(convertToFahrenheit(temp) * 10);
snprintf(string, 8, "%2d,%1d%%F", (i/10), i%10);
/* Show Celsius on numeric part of display */
i = (int)(convertToCelsius(temp) * 10);
SegmentLCD_Number(i*10);
SegmentLCD_Symbol(LCD_SYMBOL_DP10, 1);
}
else
{
/* Show Celsius on alphanumeric part of display */
i = (int)(convertToCelsius(temp) * 10);
snprintf(string, 8, "%2d,%1d%%C", (i/10), i%10);
/* Show Fahrenheit on numeric part of display */
i = (int)(convertToFahrenheit(temp) * 10);
SegmentLCD_Number(i*10);
SegmentLCD_Symbol(LCD_SYMBOL_DP10, 1);
}
SegmentLCD_Write(string);
/* Sleep for 2 seconds in EM 2 */
RTCDRV_Trigger(2000, NULL);
EMU_EnterEM2(true);
}
}
/**************************************************************************//**
* @brief Main function
*****************************************************************************/
int main(void)
{
uint8_t prod_rev;
uint32_t temp;
uint32_t temp_offset;
float temperature;
/* Initialize DK board register access */
BSP_Init(BSP_INIT_DEFAULT);
/* If first word of user data page is non-zero, enable eA Profiler trace */
BSP_TraceProfilerSetup();
/* Initialize the TFT stdio retarget module. */
RETARGET_TftInit();
printf("\nEFM32 onchip temperature sensor example\n\n");
CMU_ClockEnable(cmuClock_HFPER, true);
CMU_ClockEnable(cmuClock_ADC0, true);
CMU_ClockEnable(cmuClock_GPIO, true);
/* Enable board control interrupts */
BSP_InterruptDisable(0xffff);
BSP_InterruptFlagsClear(0xffff);
BSP_InterruptEnable(BC_INTEN_JOYSTICK);
temperatureIRQInit();
/* This is a work around for Chip Rev.D Errata, Revision 0.6. */
/* Check for product revision 16 and 17 and set the offset */
/* for ADC0_TEMP_0_READ_1V25. */
prod_rev = (DEVINFO->PART & _DEVINFO_PART_PROD_REV_MASK) >> _DEVINFO_PART_PROD_REV_SHIFT;
if( (prod_rev == 16) || (prod_rev == 17) )
{
temp_offset = 112;
}
else
{
temp_offset = 0;
}
/* Setup ADC for sampling internal temperature sensor. */
setupSensor();
/* Main loop - just read temperature and update LCD */
while (1)
{
/* Start one ADC sample */
ADC_Start(ADC0, adcStartSingle);
/* Wait in EM1 for ADC to complete */
EMU_EnterEM1();
/* Read sensor value */
/* According to rev. D errata ADC0_TEMP_0_READ_1V25 should be decreased */
/* by the offset but it is the same if ADC reading is increased - */
/* reference manual 28.3.4.2. */
temp = ADC_DataSingleGet(ADC0) + temp_offset;
/* Convert ADC sample to Fahrenheit / Celsius and print string to display */
if (showFahrenheit)
{
temperature = convertToFahrenheit(temp);
}
else
{
temperature = convertToCelsius(temp);
}
printf("%d.%d %c\n",
(int) temperature, (int)(10*(temperature-(int)temperature)),
showFahrenheit? 'F' : 'C');
/* Sleep for 2 seconds in EM 2 */
RTCDRV_Trigger(2000, NULL);
EMU_EnterEM2(true);
}
}
/**************************************************************************//**
* @brief Main function
*****************************************************************************/
int main(void)
{
uint8_t prod_rev;
char string[8];
int i;
uint32_t temp;
uint32_t temp_offset;
/* Chip errata */
CHIP_Init();
/* If first word of user data page is non-zero, enable eA Profiler trace */
BSP_TraceProfilerSetup();
/* Enable peripheral clocks */
CMU_ClockEnable(cmuClock_HFPER, true);
CMU_ClockEnable(cmuClock_ADC0, true);
/* Initialize RTC timer. */
RTCDRV_Init();
RTCDRV_AllocateTimer( &xTimerForWakeUp);
/* Initialize LCD controller without boost */
SegmentLCD_Init(false);
SegmentLCD_AllOff();
/* This is a work around for Chip Rev.D Errata, Revision 0.6. */
/* Check for product revision 16 and 17 and set the offset */
/* for ADC0_TEMP_0_READ_1V25. */
prod_rev = (DEVINFO->PART & _DEVINFO_PART_PROD_REV_MASK) >> _DEVINFO_PART_PROD_REV_SHIFT;
if( (prod_rev == 16) || (prod_rev == 17) )
{
temp_offset = 112;
}
else
{
temp_offset = 0;
}
/* Enable board control interrupts */
gpioSetup();
/* Setup ADC for sampling internal temperature sensor. */
setupSensor();
/* Main loop - just read temperature and update LCD */
while (1)
{
/* Start one ADC sample */
ADC_Start(ADC0, adcStartSingle);
/* Wait in EM1 for ADC to complete */
EMU_EnterEM1();
/* Read sensor value */
/* According to rev. D errata ADC0_TEMP_0_READ_1V25 should be decreased */
/* by the offset but it is the same if ADC reading is increased - */
/* reference manual 28.3.4.2. */
temp = ADC_DataSingleGet(ADC0) + temp_offset;
/* Convert ADC sample to Fahrenheit / Celsius and print string to display */
if (showFahrenheit)
{
/* Show Fahrenheit on alphanumeric part of display */
i = (int)(convertToFahrenheit(temp) * 10);
snprintf(string, 8, "%2d,%1d%%F", (i/10), abs(i%10));
/* Show Celsius on numeric part of display */
i = (int)(convertToCelsius(temp) * 10);
SegmentLCD_Number(i*10);
SegmentLCD_Symbol(LCD_SYMBOL_DP10, 1);
SegmentLCD_Symbol(LCD_SYMBOL_DEGC, 1);
SegmentLCD_Symbol(LCD_SYMBOL_DEGF, 0);
}
else
{
/* Show Celsius on alphanumeric part of display */
i = (int)(convertToCelsius(temp) * 10);
snprintf(string, 8, "%2d,%1d%%C", (i/10), abs(i%10));
/* Show Fahrenheit on numeric part of display */
i = (int)(convertToFahrenheit(temp) * 10);
SegmentLCD_Number(i*10);
SegmentLCD_Symbol(LCD_SYMBOL_DP10, 1);
SegmentLCD_Symbol(LCD_SYMBOL_DEGC, 0);
SegmentLCD_Symbol(LCD_SYMBOL_DEGF, 1);
}
SegmentLCD_Write(string);
/* Sleep for 2 seconds in EM 2 */
RTCDRV_StartTimer( xTimerForWakeUp, rtcdrvTimerTypeOneshot, 2000, NULL, NULL);
EMU_EnterEM2(true);
}
}
