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C++ CMU_ClockFreqGet函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了C++中CMU_ClockFreqGet函数的典型用法代码示例。如果您正苦于以下问题:C++ CMU_ClockFreqGet函数的具体用法?C++ CMU_ClockFreqGet怎么用?C++ CMU_ClockFreqGet使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了CMU_ClockFreqGet函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。

示例1: main

int main(void) 
{
	
	CHIP_Init();

	if (SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000)) while (1) ;

  BSP_Init(BSP_INIT_DEFAULT);
	BSP_LedsSet(0);

  BSP_PeripheralAccess(BSP_AUDIO_IN, true);
  BSP_PeripheralAccess(BSP_AUDIO_OUT, true);

  RTCDRV_Trigger(1000, NULL);
  EMU_EnterEM2(true);

  initSource();

	setupCMU();
  setupDMA();
  
  //setupADC();
  //setupDAC();

  //setupDMAInput();
  //setupDMAOutput();

	//setupDMASplit();
	//setupDMAMerge();

  ADCConfig();
  DACConfig();

  TIMER_Init_TypeDef timerInit = TIMER_INIT_DEFAULT;
  TIMER_TopSet(TIMER0, CMU_ClockFreqGet(cmuClock_HFPER) / SAMPLE_RATE);
  TIMER_Init(TIMER0, &timerInit);

	Delay(100);
	BSP_LedsSet(3);
	Delay(500);
	BSP_LedsSet(0);
	Delay(100);

	while(1) {
		volatile bool result = test();
		if (result) {
			BSP_LedsSet(0x00FF);
		} else {
			BSP_LedsSet(0xFF00);			
		}
		Delay(1000);
    BSP_LedsSet(0x0);    
    Delay(1000);
	}

}
开发者ID:havardh,项目名称:bitless,代码行数:56,代码来源:memmem.c


示例2: CAN_GetClockFrequency

/***************************************************************************//**
 * @brief
 *   Get the CAN module frequency.
 *
 * @details
 *   There is an internal prescaler of 2 inside the CAN module.
 *
 * @param[in] can
 *   Pointer to CAN peripheral register block.
 *
 * @return
 *   Clock value
 ******************************************************************************/
uint32_t CAN_GetClockFrequency(CAN_TypeDef *can)
{
#if defined CAN0
  if (can == CAN0) {
    return CMU_ClockFreqGet(cmuClock_CAN0) / 2;
  }
#endif

#if defined CAN1
  if (can == CAN1) {
    return CMU_ClockFreqGet(cmuClock_CAN1) / 2;
  }
#endif
  EFM_ASSERT(false);
  return 0;
}
开发者ID:sg-,项目名称:mbed-os,代码行数:29,代码来源:em_can.c


示例3: rtccSetup

/**************************************************************************//**
 * @brief Enables LFECLK and selects clock source for RTCC
 *        Sets up the RTCC to generate an interrupt every second.
 *****************************************************************************/
static void rtccSetup(unsigned int frequency)
{
  RTCC_Init_TypeDef rtccInit = RTCC_INIT_DEFAULT;
  rtccInit.presc = rtccCntPresc_1;

  palClockSetup(cmuClock_LFE);
  /* Enable RTCC clock */
  CMU_ClockEnable(cmuClock_RTCC, true);

  /* Initialize RTC */
  rtccInit.enable   = false;  /* Do not start RTC after initialization is complete. */
  rtccInit.debugRun = false;  /* Halt RTC when debugging. */
  rtccInit.cntWrapOnCCV1 = true;   /* Wrap around on CCV1 match. */
  RTCC_Init(&rtccInit);

  /* Interrupt at given frequency. */
  RTCC_CCChConf_TypeDef ccchConf = RTCC_CH_INIT_COMPARE_DEFAULT;
  ccchConf.compMatchOutAction = rtccCompMatchOutActionToggle;
  RTCC_ChannelInit(1, &ccchConf);
  RTCC_ChannelCCVSet(1, (CMU_ClockFreqGet(cmuClock_RTCC) / frequency) - 1);

#ifndef INCLUDE_PAL_GPIO_PIN_AUTO_TOGGLE_HW_ONLY
  /* Enable interrupt */
  NVIC_EnableIRQ(RTCC_IRQn);
  RTCC_IntEnable(RTCC_IEN_CC1);
#endif

  RTCC->CNT = _RTCC_CNT_RESETVALUE;
  /* Start Counter */
  RTCC_Enable(true);
}
开发者ID:JeffreyThijs94,项目名称:dash7-ap-open-source-stack,代码行数:35,代码来源:displaypalemlib.c


示例4: main

/**************************************************************************//**
 * @brief  Main function
 *****************************************************************************/
int main(void)
{
  /* 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();

  /* Setup SysTick Timer for 1 msec interrupts  */
  if (SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000))
  {
    while (1) ;
  }

  /* Initialize DK interrupt enable */
  DK_IRQInit();

  /* Initialize GPIO interrupt */
  GPIO_IRQInit();

  /* Turn off LEDs */
  BSP_LedsSet(0x0000);

  while (1)
  {
    /* Wait 5 seconds */
    Delay(5000);
    /* Quick flash to show we're alive */
    BSP_LedsSet(0xffff);
    Delay(20);
    BSP_LedsSet(0x0000);
  }
}
开发者ID:CarmeloRangel,项目名称:EFM32WG_DK3850,代码行数:36,代码来源:joystick.c


示例5: LEUART_BaudrateGet

/***************************************************************************//**
 * @brief
 *   Get current baudrate for LEUART.
 *
 * @details
 *   This function returns the actual baudrate (not considering oscillator
 *   inaccuracies) used by a LEUART peripheral.
 *
 * @param[in] leuart
 *   Pointer to LEUART peripheral register block.
 *
 * @return
 *   Current baudrate.
 ******************************************************************************/
uint32_t LEUART_BaudrateGet(LEUART_TypeDef *leuart)
{
  uint32_t          freq;
  CMU_Clock_TypeDef clock;

  /* Get current frequency */
  if (leuart == LEUART0)
  {
    clock = cmuClock_LEUART0;
  }
#if (LEUART_COUNT > 1)
  else if (leuart == LEUART1)
  {
    clock = cmuClock_LEUART1;
  }
#endif
  else
  {
    EFM_ASSERT(0);
    return 0;
  }

  freq = CMU_ClockFreqGet(clock);

  return LEUART_BaudrateCalc(freq, leuart->CLKDIV);
}
开发者ID:Rajusr70,项目名称:makersguide,代码行数:40,代码来源:em_leuart.c


示例6: rtcSetup

/**************************************************************************//**
 * @brief Enables LFACLK and selects LFXO as clock source for RTC
 *        Sets up the RTC to generate an interrupt every second.
 *****************************************************************************/
static void rtcSetup(unsigned int frequency)
{
  RTC_Init_TypeDef rtcInit = RTC_INIT_DEFAULT;

  palClockSetup(cmuClock_LFA);

  /* Set the prescaler. */
  CMU_ClockDivSet( cmuClock_RTC, cmuClkDiv_2 );
  
  /* Enable RTC clock */
  CMU_ClockEnable(cmuClock_RTC, true);

  /* Initialize RTC */
  rtcInit.enable   = false;  /* Do not start RTC after initialization is complete. */
  rtcInit.debugRun = false;  /* Halt RTC when debugging. */
  rtcInit.comp0Top = true;   /* Wrap around on COMP0 match. */

  RTC_Init(&rtcInit);

  /* Interrupt at given frequency. */
  RTC_CompareSet(0, ((CMU_ClockFreqGet(cmuClock_RTC) / frequency) - 1) & _RTC_COMP0_MASK );

#ifndef INCLUDE_PAL_GPIO_PIN_AUTO_TOGGLE_HW_ONLY
  /* Enable interrupt */
  NVIC_EnableIRQ(RTC_IRQn);
  RTC_IntEnable(RTC_IEN_COMP0);
#endif
  RTC_CounterReset();
  /* Start Counter */
  RTC_Enable(true);
}
开发者ID:JeffreyThijs94,项目名称:dash7-ap-open-source-stack,代码行数:35,代码来源:displaypalemlib.c


示例7: OS_CPU_SysTickClkFreq

/***************************************************************************//**
 *                         OS_CPU_SysTickClkFreq()
 * @brief      Get system tick clock frequency.
 *
 * @param[in]  none
 * @exception  none
 * @return     Clock frequency (of system tick).
 *
 ******************************************************************************/
CPU_INT32U  OS_CPU_SysTickClkFreq (void)
{
  CPU_INT32U  freq;

  freq = CMU_ClockFreqGet(cmuClock_HFPER);
  return (freq);
}
开发者ID:AndreMiras,项目名称:EFM32-Library,代码行数:16,代码来源:bspos.c


示例8: main

/**************************************************************************//**
 * @brief  Main function
 *****************************************************************************/
int main(void)
{
  /* Chip revision alignment and errata fixes */
  CHIP_Init();

  /* 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();

  /* Setup SysTick Timer for 1 msec interrupts  */
  if (SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000))
  {
    while (1) ;
  }

  /* Blink forever */
  while (1)
  {
    /* Blink user leds on DVK board */
    BSP_LedsSet(0x00ff);
    Delay(200);

    /* Blink user leds on DVK board */
    BSP_LedsSet(0xff00);
    Delay(200);
  }
}
开发者ID:AndreMiras,项目名称:EFM32-Library,代码行数:32,代码来源:blink.c


示例9: RTC_Setup

/***************************************************************************//**
 * @brief
 *	Enables LFACLK and selects LFXO as clock source for RTC
 *
 * @param osc
 *	Oscillator
 ******************************************************************************/
void RTC_Setup(CMU_Select_TypeDef osc)
{
  RTC_Init_TypeDef init;

  rtcInitialized = 1;

  /* Ensure LE modules are accessible */
  CMU_ClockEnable(cmuClock_CORELE, true);

  /* Enable osc as LFACLK in CMU (will also enable oscillator if not enabled) */
  CMU_ClockSelectSet(cmuClock_LFA, osc);

  /* Use a 32 division prescaler to reduce power consumption. */
  CMU_ClockDivSet(cmuClock_RTC, cmuClkDiv_32);

  rtcFreq = CMU_ClockFreqGet(cmuClock_RTC);

  /* Enable clock to RTC module */
  CMU_ClockEnable(cmuClock_RTC, true);

  init.enable   = false;
  init.debugRun = false;
  init.comp0Top = false; /* Count to max before wrapping */
  RTC_Init(&init);

  /* Disable interrupt generation from RTC0 */
  RTC_IntDisable(_RTC_IF_MASK);

  /* Enable interrupts */
  NVIC_ClearPendingIRQ(RTC_IRQn);
  NVIC_EnableIRQ(RTC_IRQn);
}
开发者ID:ketrum,项目名称:equine-health-monitor-gdp12,代码行数:39,代码来源:rtc.c


示例10: GUI_X_Delay

/***************************************************************************//**
*     @brief
*        is used to stop code execution for specified time
*     @param[in] ms
*        contains number of miliseconds to suspend program. Maximum allowed
*        value is 10000 (10 seconds).
*     @details
*        This routine could enter into EM1 or EM2 mode to reduce power
*        consumption. If touch panel is not pressed EM2 is executed, otherwise
*        due to fact that ADC requires HF clock, only EM1 is enabled. This
*        function is also used to handle joystick state and move cursor
*        according to it. In addition it could also reinitialize LCD if
*        previously Advanced Energy Monitor screen was active.
 ******************************************************************************/
void GUI_X_Delay(int ms)
{
  volatile uint32_t now;
  uint32_t startTime, waitTime;

  if ( BSP_RegisterRead( &BC_REGISTER->UIF_AEM) != BC_UIF_AEM_EFM)
  {
    /* Switched to Advanced Energy Monitor, LCD will need to be reinitialized */
    aemMode = true;
  }
  else if( aemMode )
  {
    /* Switched back from Advanced Energy Monitor, reinitialize LCD  */
    aemMode = false;
    PLOT_DisplayInit();
  }

  if ( ms > 0 )
  {
    waitTime = ms * (CMU_ClockFreqGet(cmuClock_CORE) / 1000);

    /* Enable DWT and make sure CYCCNT is running. */
    CoreDebug->DEMCR |= CoreDebug_DEMCR_TRCENA_Msk;
    DWT->CTRL        |= 1;

    startTime = DWT->CYCCNT;
    do
    {
      now = DWT->CYCCNT;
    } while ( ( now - startTime ) < waitTime );
  }
}
开发者ID:AndreMiras,项目名称:EFM32-Library,代码行数:46,代码来源:GUI_X.c


示例11: ADC_TimebaseCalc

/***************************************************************************//**
 * @brief
 *   Calculate timebase value in order to get a timebase providing at least 1us.
 *
 * @param[in] hfperFreq Frequency in Hz of reference HFPER clock. Set to 0 to
 *   use currently defined HFPER clock setting.
 *
 * @return
 *   Timebase value to use for ADC in order to achieve at least 1 us.
 ******************************************************************************/
uint8_t ADC_TimebaseCalc(uint32_t hfperFreq)
{
  if (!hfperFreq)
  {
    hfperFreq = CMU_ClockFreqGet(cmuClock_HFPER);

    /* Just in case, make sure we get non-zero freq for below calculation */
    if (!hfperFreq)
    {
      hfperFreq = 1;
    }
  }
#if defined(_EFM32_GIANT_FAMILY) || defined(_EFM32_WONDER_FAMILY)
  /* Handle errata on Giant Gecko, max TIMEBASE is 5 bits wide or max 0x1F */
  /* cycles. This will give a warmp up time of e.g. 0.645us, not the       */
  /* required 1us when operating at 48MHz. One must also increase acqTime  */
  /* to compensate for the missing clock cycles, adding up to 1us in total.*/
  /* See reference manual for details. */
  if( hfperFreq > 32000000 )
  {
    hfperFreq = 32000000;
  }
#endif
  /* Determine number of HFPERCLK cycle >= 1us */
  hfperFreq += 999999;
  hfperFreq /= 1000000;

  /* Return timebase value (N+1 format) */
  return (uint8_t)(hfperFreq - 1);
}
开发者ID:andachen07,项目名称:HRSCeres,代码行数:40,代码来源:em_adc.c


示例12: TimerInit

/************************************************************************************//**
** \brief     Initializes the timer.
** \return    none.
**
****************************************************************************************/
void TimerInit(void)
{
  /* configure the SysTick timer for 1 ms period */
  SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000);
  /* reset the millisecond counter */
  TimerSet(0);
} /*** end of TimerInit ***/
开发者ID:x893,项目名称:OpenBLT,代码行数:12,代码来源:timer.c


示例13: USBTIMER_Init

/***************************************************************************//**
 * @brief
 *   Activate the hardware timer used to pace the 1 millisecond timer system.
 *
 * @details
 *   Call this function whenever the HFPERCLK frequency is changed.
 *   This function is initially called by HOST and DEVICE stack xxxx_Init()
 *   functions.
 ******************************************************************************/
void USBTIMER_Init( void )
{
  uint32_t freq;
  TIMER_Init_TypeDef timerInit     = TIMER_INIT_DEFAULT;
  TIMER_InitCC_TypeDef timerCCInit = TIMER_INITCC_DEFAULT;

  freq = CMU_ClockFreqGet( cmuClock_HFPER );
  ticksPrMs = ( freq + 500 ) / 1000;
  ticksPr1us = ( freq + 500000 ) / 1000000;
  ticksPr10us = ( freq + 50000 ) / 100000;
  ticksPr100us = ( freq + 5000 ) / 10000;

  timerCCInit.mode = timerCCModeCompare;
  CMU_ClockEnable( TIMER_CLK, true );
  TIMER_TopSet( TIMER, 0xFFFF );
  TIMER_InitCC( TIMER, 0, &timerCCInit );
  TIMER_Init( TIMER, &timerInit );

#if ( NUM_QTIMERS > 0 )
  TIMER_IntClear( TIMER, 0xFFFFFFFF );
  TIMER_IntEnable( TIMER, TIMER_IEN_CC0 );
  TIMER_CompareSet( TIMER, 0, TIMER_CounterGet( TIMER ) + ticksPrMs );
  NVIC_ClearPendingIRQ( TIMER_IRQ );
  NVIC_EnableIRQ( TIMER_IRQ );
#endif /* ( NUM_QTIMERS > 0 ) */
}
开发者ID:EnergyMicro,项目名称:usb,代码行数:35,代码来源:em_usbtimer.c


示例14: USART_BaudrateSyncSet

/***************************************************************************//**
 * @brief
 *   Configure USART operating in synchronous mode to use a given baudrate
 *   (or as close as possible to specified baudrate).
 *
 * @details
 *   The configuration will be set to use a baudrate <= the specified baudrate
 *   in order to ensure that the baudrate does not exceed the specified value.
 *
 *   Fractional clock division is suppressed, although the HW design allows it.
 *   It could cause half clock cycles to exceed specified limit, and thus
 *   potentially violate specifications for the slave device. In some special
 *   situations fractional clock division may be useful even in synchronous
 *   mode, but in those cases it must be directly adjusted, possibly assisted
 *   by USART_BaudrateCalc():
 *
 * @param[in] usart
 *   Pointer to USART peripheral register block. (Cannot be used on UART
 *   modules.)
 *
 * @param[in] refFreq
 *   USART reference clock frequency in Hz that will be used. If set to 0,
 *   the currently configured reference clock is assumed.
 *
 * @param[in] baudrate
 *   Baudrate to try to achieve for USART.
 ******************************************************************************/
void USART_BaudrateSyncSet(USART_TypeDef *usart, uint32_t refFreq, uint32_t baudrate)
{
  uint32_t clkdiv;

  /* Inhibit divide by 0 */
  EFM_ASSERT(baudrate);

  /*
   * We want to use integer division to avoid forcing in float division
   * utils, and yet keep rounding effect errors to a minimum.
   *
   * CLKDIV in synchronous mode is given by:
   *
   * CLKDIV = 256 * (fHFPERCLK/(2 * br) - 1)
   * or
   * CLKDIV = (256 * fHFPERCLK)/(2 * br) - 256 = (128 * fHFPERCLK)/br - 256
   *
   * The basic problem with integer division in the above formula is that
   * the dividend (128 * fHFPERCLK) may become higher than max 32 bit
   * integer. Yet, we want to evaluate dividend first before dividing in
   * order to get as small rounding effects as possible. We do not want
   * to make too harsh restrictions on max fHFPERCLK value either.
   *
   * One can possibly factorize 128 and br. However, since the last
   * 6 bits of CLKDIV are don't care, we can base our integer arithmetic
   * on the below formula without loosing any extra precision:
   *
   * CLKDIV / 64 = (2 * fHFPERCLK)/br - 4
   *
   * and calculate 1/64 of CLKDIV first. This allows for fHFPERCLK
   * up to 2GHz without overflowing a 32 bit value!
   */

  /* HFPERCLK used to clock all USART/UART peripheral modules */
  if (!refFreq)
  {
    refFreq = CMU_ClockFreqGet(cmuClock_HFPER);
  }

  /* Calculate and set CLKDIV with fractional bits */
  clkdiv  = 2 * refFreq;
  clkdiv += baudrate - 1;
  clkdiv /= baudrate;
  clkdiv -= 4;
  clkdiv *= 64;
  /* Make sure we don't use fractional bits by rounding CLKDIV */
  /* up (and thus reducing baudrate, not increasing baudrate above */
  /* specified value). */
  clkdiv += 0xc0;
  clkdiv &= 0xffffff00;

  /* Verify that resulting clock divider is within limits */
  EFM_ASSERT(clkdiv <= _USART_CLKDIV_MASK);

  /* If EFM_ASSERT is not enabled, make sure we don't write to reserved bits */
  clkdiv &= _USART_CLKDIV_DIV_MASK;

  usart->CLKDIV = clkdiv;
}
开发者ID:rolandvs,项目名称:network_tester,代码行数:86,代码来源:em_usart.c


示例15: delayUs

/**************************************************************************//**
 * @brief Microsecond delay function
 * @param[in] usec Delay in microseconds
 *****************************************************************************/
static void delayUs( uint32_t usec )
{
  uint64_t totalTicks;

  totalTicks = (((uint64_t)CMU_ClockFreqGet(cmuClock_CORE)*usec)+500000)/1000000;

  delayTicks( totalTicks );
}
开发者ID:AndreMiras,项目名称:EFM32-Library,代码行数:12,代码来源:main.c


示例16: initClocks

/* Initialize clock settings */
void initClocks(void) 
{
  /* Configure for 48MHz HFXO operation of core clock */
  CMU_ClockSelectSet(cmuClock_HF, cmuSelect_HFXO); 

  /* Enable SysTick interrupt, used by GUI software timer */
  if (SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000)) while (1);
}
开发者ID:AndreMiras,项目名称:EFM32-Library,代码行数:9,代码来源:multibuf.c


示例17: timer_init

int timer_init(tim_t dev, unsigned long freq, timer_cb_t callback, void *arg)
{
    TIMER_TypeDef *pre, *tim;

    /* test if given timer device is valid */
    if (dev >= TIMER_NUMOF) {
        return -1;
    }

    /* save callback */
    isr_ctx[dev].cb = callback;

    /* get timers */
    pre = timer_config[dev].prescaler.dev;
    tim = timer_config[dev].timer.dev;

    /* enable clocks */
    CMU_ClockEnable(cmuClock_HFPER, true);
    CMU_ClockEnable(timer_config[dev].prescaler.cmu, true);
    CMU_ClockEnable(timer_config[dev].timer.cmu, true);

    /* reset and initialize peripherals */
    EFM32_CREATE_INIT(init_pre, TIMER_Init_TypeDef, TIMER_INIT_DEFAULT,
        .conf.enable = false,
        .conf.prescale = timerPrescale1
    );
    EFM32_CREATE_INIT(init_tim, TIMER_Init_TypeDef, TIMER_INIT_DEFAULT,
        .conf.enable = false,
        .conf.clkSel = timerClkSelCascade
    );

    TIMER_Reset(tim);
    TIMER_Reset(pre);

    TIMER_Init(tim, &init_tim.conf);
    TIMER_Init(pre, &init_pre.conf);

    /* configure the prescaler top value */
    uint32_t freq_timer = CMU_ClockFreqGet(timer_config[dev].prescaler.cmu);
    uint32_t top = (
        freq_timer / TIMER_Prescaler2Div(init_pre.conf.prescale) / freq) - 1;

    TIMER_TopSet(pre, top);
    TIMER_TopSet(tim, 0xffff);

    /* enable interrupts for the channels */
    TIMER_IntClear(tim, TIMER_IFC_CC0 | TIMER_IFC_CC1 | TIMER_IFC_CC2);
    TIMER_IntEnable(tim, TIMER_IEN_CC0 | TIMER_IEN_CC1 | TIMER_IEN_CC2);

    NVIC_ClearPendingIRQ(timer_config[dev].irq);
    NVIC_EnableIRQ(timer_config[dev].irq);

    /* start the timers */
    TIMER_Enable(tim, true);
    TIMER_Enable(pre, true);

    return 0;
}
开发者ID:basilfx,项目名称:EFM2Riot,代码行数:58,代码来源:timer.c


示例18: main

/**************************************************************************//**
 * @brief  Main function
 *****************************************************************************/
int main(void)
{
  uint16_t *frameBuffer;
  bool     redraw;

  /* Configure for 48MHz HFXO operation of core clock */
  CMU_ClockSelectSet(cmuClock_HF, cmuSelect_HFXO);

  /* Setup SysTick Timer for 1 msec interrupts  */
  if (SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000))
  {
    while (1) ;
  }

  /* Initialize EBI banks (Board Controller, external PSRAM, ..) */
  BSP_Init(BSP_INIT_DEFAULT);

  /* If first word of user data page is non-zero, enable eA Profiler trace */
  BSP_TraceProfilerSetup();

  /* Indicate we are waiting for AEM button state enable EFM32GG */
  BSP_LedsSet(0x8001);
  while (BSP_RegisterRead(&BC_REGISTER->UIF_AEM) != BC_UIF_AEM_EFM)
  {
    /* Show a short "strobe light" on DK LEDs, indicating wait */
    BSP_LedsSet(0x8001);
    Delay(200);
    BSP_LedsSet(0x4002);
    Delay(50);
  }

  /* Set frame buffer start address */
  frameBuffer = (uint16_t *) EBI_BankAddress(EBI_BANK2);

  /* Loop demo forever */
  while (1)
  {
    redraw = TFT_DirectInit(&tftInit);
    if (redraw)
    {
      /* Inidicate that we are in active drawing mode */
      BSP_LedsSet(0x0000);

      /* Update frame buffer */
      TFT_DrawScreen(frameBuffer);

      /* Wait slightly before next update */
      Delay(100);
    }
    else
    {
      /* Sleep - no need to update display */
      BSP_LedsSet(0x8001);
      Delay(200);
    }
  }
}
开发者ID:AndreMiras,项目名称:EFM32-Library,代码行数:60,代码来源:lines.c


示例19: clock_init

void clock_init( )
{
	u_long nirq_Priority = 0;
	current_clock = 0;
	/* Setup SysTick Timer for 1 msec interrupts  */
	if (SysTick_Config(CMU_ClockFreqGet(cmuClock_CORE) / 1000)) while (1) ;
	nirq_Priority = NVIC_EncodePriority(INT_SYSTICK_nIRQ_GROUP, INT_SYSTICK_nIRQ_PREP, INT_SYSTICK_nIRQ_SUBP);
	NVIC_SetPriority(SysTick_IRQn, nirq_Priority);
}
开发者ID:zoulincheng,项目名称:stm32chip_project,代码行数:9,代码来源:clock.c


示例20: setupTIMER

void setupTIMER( void )
{
	TIMER_Init_TypeDef init = TIMER_INIT_DEFAULT;

	init.mode = timerModeUpDown;

	TIMER_TopSet( TIMER0, CMU_ClockFreqGet(cmuClock_HFPER) / 22050 );
	TIMER_Init( TIMER0, &init );

}
开发者ID:havardh,项目名称:bitless,代码行数:10,代码来源:fpga.c



注:本文中的CMU_ClockFreqGet函数示例整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。


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C++ CMU_ClockSelectSet函数代码示例发布时间:2022-05-30
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