/***************************************************************************//** * @file * @brief Digital to Analog Converter (DAC) peripheral API for EFM32. * @author Energy Micro AS * @version 2.0.0 ******************************************************************************* * @section License * (C) Copyright 2010 Energy Micro AS, http://www.energymicro.com ******************************************************************************* * * This source code is the property of Energy Micro AS. The source and compiled * code may only be used on Energy Micro "EFM32" microcontrollers. * * This copyright notice may not be removed from the source code nor changed. * * DISCLAIMER OF WARRANTY/LIMITATION OF REMEDIES: Energy Micro AS has no * obligation to support this Software. Energy Micro AS is providing the * Software "AS IS", with no express or implied warranties of any kind, * including, but not limited to, any implied warranties of merchantability * or fitness for any particular purpose or warranties against infringement * of any proprietary rights of a third party. * * Energy Micro AS will not be liable for any consequential, incidental, or * special damages, or any other relief, or for any claim by any third party, * arising from your use of this Software. * ******************************************************************************/ #ifndef __EFM32_DAC_H #define __EFM32_DAC_H #ifdef __cplusplus extern "C" { #endif #include #include "efm32.h" /***************************************************************************//** * @addtogroup EFM32_Library * @{ ******************************************************************************/ /***************************************************************************//** * @addtogroup DAC * @{ ******************************************************************************/ /** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */ /** Validation of DAC register block pointer reference for assert statements. */ #define DAC_REF_VALID(ref) ((ref) == DAC0) /** @endcond */ /******************************************************************************* ******************************** ENUMS ************************************ ******************************************************************************/ /** Conversion mode. */ typedef enum { dacConvModeContinuous = _DAC_CTRL_CONVMODE_CONTINUOUS, /**< Continuous mode. */ dacConvModeSampleHold = _DAC_CTRL_CONVMODE_SAMPLEHOLD, /**< Sample/hold mode. */ dacConvModeSampleOff = _DAC_CTRL_CONVMODE_SAMPLEOFF /**< Sample/shut off mode. */ } DAC_ConvMode_TypeDef; /** Output mode. */ typedef enum { dacOutputDisable = _DAC_CTRL_OUTMODE_DISABLE, /**< Output to pin and ADC disabled. */ dacOutputPin = _DAC_CTRL_OUTMODE_PIN, /**< Output to pin only. */ dacOutputADC = _DAC_CTRL_OUTMODE_ADC, /**< Output to ADC only */ dacOutputPinADC = _DAC_CTRL_OUTMODE_PINADC /**< Output to pin and ADC. */ } DAC_Output_TypeDef; /** Peripheral Reflex System signal used to trigger single sample. */ typedef enum { dacPRSSELCh0 = _DAC_CH0CTRL_PRSSEL_PRSCH0, /**< PRS channel 0. */ dacPRSSELCh1 = _DAC_CH0CTRL_PRSSEL_PRSCH1, /**< PRS channel 1. */ dacPRSSELCh2 = _DAC_CH0CTRL_PRSSEL_PRSCH2, /**< PRS channel 2. */ dacPRSSELCh3 = _DAC_CH0CTRL_PRSSEL_PRSCH3, /**< PRS channel 3. */ dacPRSSELCh4 = _DAC_CH0CTRL_PRSSEL_PRSCH4, /**< PRS channel 4. */ dacPRSSELCh5 = _DAC_CH0CTRL_PRSSEL_PRSCH5, /**< PRS channel 5. */ dacPRSSELCh6 = _DAC_CH0CTRL_PRSSEL_PRSCH6, /**< PRS channel 6. */ dacPRSSELCh7 = _DAC_CH0CTRL_PRSSEL_PRSCH7 /**< PRS channel 7. */ } DAC_PRSSEL_TypeDef; /** Reference voltage for DAC. */ typedef enum { dacRef1V25 = _DAC_CTRL_REFSEL_1V25, /**< Internal 1.25V bandgap reference. */ dacRef2V5 = _DAC_CTRL_REFSEL_2V5, /**< Internal 2.5V bandgap reference. */ dacRefVDD = _DAC_CTRL_REFSEL_VDD /**< VDD reference. */ } DAC_Ref_TypeDef; /** Refresh interval. */ typedef enum { dacRefresh8 = _DAC_CTRL_REFRSEL_8CYCLES, /**< Refresh every 8 prescaled cycles. */ dacRefresh16 = _DAC_CTRL_REFRSEL_16CYCLES, /**< Refresh every 16 prescaled cycles. */ dacRefresh32 = _DAC_CTRL_REFRSEL_32CYCLES, /**< Refresh every 32 prescaled cycles. */ dacRefresh64 = _DAC_CTRL_REFRSEL_64CYCLES /**< Refresh every 64 prescaled cycles. */ } DAC_Refresh_TypeDef; /******************************************************************************* ******************************* STRUCTS *********************************** ******************************************************************************/ /** DAC init structure, common for both channels. */ typedef struct { /** Refresh interval. Only used if REFREN bit set for a DAC channel. */ DAC_Refresh_TypeDef refresh; /** Reference voltage to use. */ DAC_Ref_TypeDef reference; /** Output mode */ DAC_Output_TypeDef outMode; /** Conversion mode. */ DAC_ConvMode_TypeDef convMode; /** * Prescaler used to get DAC clock. Derived as follows: * DACclk=HFPERclk/(2^prescale). The DAC clock should be <= 1MHz. */ uint8_t prescale; /** Enable/disable use of low pass filter on output. */ bool lpEnable; /** Enable/disable reset of prescaler on ch0 start. */ bool ch0ResetPre; /** Enable/disable output enable control by CH1 PRS signal. */ bool outEnablePRS; /** Enable/disable sine mode. */ bool sineEnable; /** Select if single ended or differential mode. */ bool diff; } DAC_Init_TypeDef; /** Default config for DAC init structure. */ #define DAC_INIT_DEFAULT \ { dacRefresh8, /* Refresh every 8 prescaled cycles. */ \ dacRef1V25, /* 1.25V internal reference. */ \ dacOutputPin, /* Output to pin only. */ \ dacConvModeContinuous, /* Continuous mode. */ \ 0, /* No prescaling. */ \ false, /* Do not enable low pass filter. */ \ false, /* Do not reset prescaler on ch0 start. */ \ false, /* DAC output enable always on. */ \ false, /* Disable sine mode. */ \ false /* Single ended mode. */ \ } /** DAC channel init structure. */ typedef struct { /** Enable channel. */ bool enable; /** * Peripheral reflex system trigger enable. If false, channel is triggered * by writing to CHnDATA. */ bool prsEnable; /** * Enable/disable automatic refresh of channel. Refresh interval must be * defined in common control init, please see DAC_Init(). */ bool refreshEnable; /** * Peripheral reflex system trigger selection. Only applicable if @p prsEnable * is enabled. */ DAC_PRSSEL_TypeDef prsSel; } DAC_InitChannel_TypeDef; /** Default config for DAC channel init structure. */ #define DAC_INITCHANNEL_DEFAULT \ { false, /* Leave channel disabled when init done. */ \ false, /* Disable PRS triggering. */ \ false, /* Channel not refreshed automatically. */ \ dacPRSSELCh0 /* Select PRS ch0 (if PRS triggering enabled). */ \ } /******************************************************************************* ***************************** PROTOTYPES ********************************** ******************************************************************************/ void DAC_Enable(DAC_TypeDef *dac, unsigned int ch, bool enable); void DAC_Init(DAC_TypeDef *dac, const DAC_Init_TypeDef *init); void DAC_InitChannel(DAC_TypeDef *dac, const DAC_InitChannel_TypeDef *init, unsigned int ch); /***************************************************************************//** * @brief * Clear one or more pending DAC interrupts. * * @param[in] dac * Pointer to DAC peripheral register block. * * @param[in] flags * Pending DAC interrupt source to clear. Use a bitwise logic OR combination of * valid interrupt flags for the DAC module (DAC_IF_nnn). ******************************************************************************/ static __INLINE void DAC_IntClear(DAC_TypeDef *dac, uint32_t flags) { dac->IFC = flags; } /***************************************************************************//** * @brief * Disable one or more DAC interrupts. * * @param[in] dac * Pointer to DAC peripheral register block. * * @param[in] flags * DAC interrupt sources to disable. Use a bitwise logic OR combination of * valid interrupt flags for the DAC module (DAC_IF_nnn). ******************************************************************************/ static __INLINE void DAC_IntDisable(DAC_TypeDef *dac, uint32_t flags) { dac->IEN &= ~(flags); } /***************************************************************************//** * @brief * Enable one or more DAC interrupts. * * @note * Depending on the use, a pending interrupt may already be set prior to * enabling the interrupt. Consider using DAC_IntClear() prior to enabling * if such a pending interrupt should be ignored. * * @param[in] dac * Pointer to DAC peripheral register block. * * @param[in] flags * DAC interrupt sources to enable. Use a bitwise logic OR combination of * valid interrupt flags for the DAC module (DAC_IF_nnn). ******************************************************************************/ static __INLINE void DAC_IntEnable(DAC_TypeDef *dac, uint32_t flags) { dac->IEN |= flags; } /***************************************************************************//** * @brief * Get pending DAC interrupt flags. * * @note * The event bits are not cleared by the use of this function. * * @param[in] dac * Pointer to DAC peripheral register block. * * @return * DAC interrupt sources pending. A bitwise logic OR combination of valid * interrupt flags for the DAC module (DAC_IF_nnn). ******************************************************************************/ static __INLINE uint32_t DAC_IntGet(DAC_TypeDef *dac) { return(dac->IF); } /***************************************************************************//** * @brief * Set one or more pending DAC interrupts from SW. * * @param[in] dac * Pointer to DAC peripheral register block. * * @param[in] flags * DAC interrupt sources to set to pending. Use a bitwise logic OR combination * of valid interrupt flags for the DAC module (DAC_IF_nnn). ******************************************************************************/ static __INLINE void DAC_IntSet(DAC_TypeDef *dac, uint32_t flags) { dac->IFS = flags; } uint8_t DAC_PrescaleCalc(uint32_t dacFreq, uint32_t hfperFreq); void DAC_Reset(DAC_TypeDef *dac); /** @} (end addtogroup DAC) */ /** @} (end addtogroup EFM32_Library) */ #ifdef __cplusplus } #endif #endif /* __EFM32_DAC_H */