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//***************************************************************************** | |
// | |
// adc12_b.h - Driver for the ADC12_B Module. | |
// | |
//***************************************************************************** | |
#ifndef __MSP430WARE_ADC12_B_H__ | |
#define __MSP430WARE_ADC12_B_H__ | |
#include "inc/hw_memmap.h" | |
#ifdef __MSP430_HAS_ADC12_B__ | |
//***************************************************************************** | |
// | |
// If building with a C++ compiler, make all of the definitions in this header | |
// have a C binding. | |
// | |
//***************************************************************************** | |
#ifdef __cplusplus | |
extern "C" | |
{ | |
#endif | |
#include "inc/hw_regaccess.h" | |
//***************************************************************************** | |
// | |
//! \brief Used in the ADC12_B_init() function as the param parameter. | |
// | |
//***************************************************************************** | |
typedef struct ADC12_B_initParam | |
{ | |
//! Is the signal that will trigger a sample-and-hold for an input signal | |
//! to be converted. | |
//! \n Valid values are: | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_SC [Default] | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_1 | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_2 | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_3 | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_4 | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_5 | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_6 | |
//! - \b ADC12_B_SAMPLEHOLDSOURCE_7 | |
uint16_t sampleHoldSignalSourceSelect; | |
//! Selects the clock that will be used by the ADC12B core, and the | |
//! sampling timer if a sampling pulse mode is enabled. | |
//! \n Valid values are: | |
//! - \b ADC12_B_CLOCKSOURCE_ADC12OSC [Default] | |
//! - \b ADC12_B_CLOCKSOURCE_ACLK | |
//! - \b ADC12_B_CLOCKSOURCE_MCLK | |
//! - \b ADC12_B_CLOCKSOURCE_SMCLK | |
uint8_t clockSourceSelect; | |
//! Selects the amount that the clock will be divided. | |
//! \n Valid values are: | |
//! - \b ADC12_B_CLOCKDIVIDER_1 [Default] | |
//! - \b ADC12_B_CLOCKDIVIDER_2 | |
//! - \b ADC12_B_CLOCKDIVIDER_3 | |
//! - \b ADC12_B_CLOCKDIVIDER_4 | |
//! - \b ADC12_B_CLOCKDIVIDER_5 | |
//! - \b ADC12_B_CLOCKDIVIDER_6 | |
//! - \b ADC12_B_CLOCKDIVIDER_7 | |
//! - \b ADC12_B_CLOCKDIVIDER_8 | |
uint16_t clockSourceDivider; | |
//! Selects the amount that the clock will be predivided. | |
//! \n Valid values are: | |
//! - \b ADC12_B_CLOCKPREDIVIDER__1 [Default] | |
//! - \b ADC12_B_CLOCKPREDIVIDER__4 | |
//! - \b ADC12_B_CLOCKPREDIVIDER__32 | |
//! - \b ADC12_B_CLOCKPREDIVIDER__64 | |
uint16_t clockSourcePredivider; | |
//! Selects what internal channel to map for ADC input channels | |
//! \n Valid values are: | |
//! - \b ADC12_B_MAPINTCH3 | |
//! - \b ADC12_B_MAPINTCH2 | |
//! - \b ADC12_B_MAPINTCH1 | |
//! - \b ADC12_B_MAPINTCH0 | |
//! - \b ADC12_B_TEMPSENSEMAP | |
//! - \b ADC12_B_BATTMAP | |
//! - \b ADC12_B_NOINTCH | |
uint16_t internalChannelMap; | |
} ADC12_B_initParam; | |
//***************************************************************************** | |
// | |
//! \brief Used in the ADC12_B_configureMemory() function as the param | |
//! parameter. | |
// | |
//***************************************************************************** | |
typedef struct ADC12_B_configureMemoryParam | |
{ | |
//! Is the selected memory buffer to set the configuration for. | |
//! \n Valid values are: | |
//! - \b ADC12_B_MEMORY_0 | |
//! - \b ADC12_B_MEMORY_1 | |
//! - \b ADC12_B_MEMORY_2 | |
//! - \b ADC12_B_MEMORY_3 | |
//! - \b ADC12_B_MEMORY_4 | |
//! - \b ADC12_B_MEMORY_5 | |
//! - \b ADC12_B_MEMORY_6 | |
//! - \b ADC12_B_MEMORY_7 | |
//! - \b ADC12_B_MEMORY_8 | |
//! - \b ADC12_B_MEMORY_9 | |
//! - \b ADC12_B_MEMORY_10 | |
//! - \b ADC12_B_MEMORY_11 | |
//! - \b ADC12_B_MEMORY_12 | |
//! - \b ADC12_B_MEMORY_13 | |
//! - \b ADC12_B_MEMORY_14 | |
//! - \b ADC12_B_MEMORY_15 | |
//! - \b ADC12_B_MEMORY_16 | |
//! - \b ADC12_B_MEMORY_17 | |
//! - \b ADC12_B_MEMORY_18 | |
//! - \b ADC12_B_MEMORY_19 | |
//! - \b ADC12_B_MEMORY_20 | |
//! - \b ADC12_B_MEMORY_21 | |
//! - \b ADC12_B_MEMORY_22 | |
//! - \b ADC12_B_MEMORY_23 | |
//! - \b ADC12_B_MEMORY_24 | |
//! - \b ADC12_B_MEMORY_25 | |
//! - \b ADC12_B_MEMORY_26 | |
//! - \b ADC12_B_MEMORY_27 | |
//! - \b ADC12_B_MEMORY_28 | |
//! - \b ADC12_B_MEMORY_29 | |
//! - \b ADC12_B_MEMORY_30 | |
//! - \b ADC12_B_MEMORY_31 | |
uint8_t memoryBufferControlIndex; | |
//! Is the input that will store the converted data into the specified | |
//! memory buffer. | |
//! \n Valid values are: | |
//! - \b ADC12_B_INPUT_A0 [Default] | |
//! - \b ADC12_B_INPUT_A1 | |
//! - \b ADC12_B_INPUT_A2 | |
//! - \b ADC12_B_INPUT_A3 | |
//! - \b ADC12_B_INPUT_A4 | |
//! - \b ADC12_B_INPUT_A5 | |
//! - \b ADC12_B_INPUT_A6 | |
//! - \b ADC12_B_INPUT_A7 | |
//! - \b ADC12_B_INPUT_A8 | |
//! - \b ADC12_B_INPUT_A9 | |
//! - \b ADC12_B_INPUT_A10 | |
//! - \b ADC12_B_INPUT_A11 | |
//! - \b ADC12_B_INPUT_A12 | |
//! - \b ADC12_B_INPUT_A13 | |
//! - \b ADC12_B_INPUT_A14 | |
//! - \b ADC12_B_INPUT_A15 | |
//! - \b ADC12_B_INPUT_A16 | |
//! - \b ADC12_B_INPUT_A17 | |
//! - \b ADC12_B_INPUT_A18 | |
//! - \b ADC12_B_INPUT_A19 | |
//! - \b ADC12_B_INPUT_A20 | |
//! - \b ADC12_B_INPUT_A21 | |
//! - \b ADC12_B_INPUT_A22 | |
//! - \b ADC12_B_INPUT_A23 | |
//! - \b ADC12_B_INPUT_A24 | |
//! - \b ADC12_B_INPUT_A25 | |
//! - \b ADC12_B_INPUT_A26 | |
//! - \b ADC12_B_INPUT_A27 | |
//! - \b ADC12_B_INPUT_A28 | |
//! - \b ADC12_B_INPUT_A29 | |
//! - \b ADC12_B_INPUT_TCMAP | |
//! - \b ADC12_B_INPUT_BATMAP | |
uint8_t inputSourceSelect; | |
//! Is the reference voltage source to set as the upper/lower limits for | |
//! the conversion stored in the specified memory. | |
//! \n Valid values are: | |
//! - \b ADC12_B_VREFPOS_AVCC_VREFNEG_VSS [Default] | |
//! - \b ADC12_B_VREFPOS_INTBUF_VREFNEG_VSS | |
//! - \b ADC12_B_VREFPOS_EXTNEG_VREFNEG_VSS | |
//! - \b ADC12_B_VREFPOS_EXTBUF_VREFNEG_VSS | |
//! - \b ADC12_B_VREFPOS_EXTPOS_VREFNEG_VSS | |
//! - \b ADC12_B_VREFPOS_AVCC_VREFNEG_EXTBUF | |
//! - \b ADC12_B_VREFPOS_AVCC_VREFNEG_EXTPOS | |
//! - \b ADC12_B_VREFPOS_INTBUF_VREFNEG_EXTPOS | |
//! - \b ADC12_B_VREFPOS_AVCC_VREFNEG_INTBUF | |
//! - \b ADC12_B_VREFPOS_EXTPOS_VREFNEG_INTBUF | |
//! - \b ADC12_B_VREFPOS_AVCC_VREFNEG_EXTNEG | |
//! - \b ADC12_B_VREFPOS_INTBUF_VREFNEG_EXTNEG | |
//! - \b ADC12_B_VREFPOS_EXTPOS_VREFNEG_EXTNEG | |
//! - \b ADC12_B_VREFPOS_EXTBUF_VREFNEG_EXTNEG | |
uint16_t refVoltageSourceSelect; | |
//! Indicates that the specified memory buffer will be the end of the | |
//! sequence if a sequenced conversion mode is selected | |
//! \n Valid values are: | |
//! - \b ADC12_B_NOTENDOFSEQUENCE [Default] | |
//! - \b ADC12_B_ENDOFSEQUENCE | |
uint16_t endOfSequence; | |
//! Sets the window comparator mode | |
//! \n Valid values are: | |
//! - \b ADC12_B_WINDOW_COMPARATOR_DISABLE [Default] | |
//! - \b ADC12_B_WINDOW_COMPARATOR_ENABLE | |
uint16_t windowComparatorSelect; | |
//! Sets the differential mode | |
//! \n Valid values are: | |
//! - \b ADC12_B_DIFFERENTIAL_MODE_DISABLE [Default] | |
//! - \b ADC12_B_DIFFERENTIAL_MODE_ENABLE | |
uint16_t differentialModeSelect; | |
} ADC12_B_configureMemoryParam; | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the clockSourceDivider | |
// parameter for functions: ADC12_B_init(); the param parameter for functions: | |
// ADC12_B_init(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_CLOCKDIVIDER_1 (ADC12DIV_0) | |
#define ADC12_B_CLOCKDIVIDER_2 (ADC12DIV_1) | |
#define ADC12_B_CLOCKDIVIDER_3 (ADC12DIV_2) | |
#define ADC12_B_CLOCKDIVIDER_4 (ADC12DIV_3) | |
#define ADC12_B_CLOCKDIVIDER_5 (ADC12DIV_4) | |
#define ADC12_B_CLOCKDIVIDER_6 (ADC12DIV_5) | |
#define ADC12_B_CLOCKDIVIDER_7 (ADC12DIV_6) | |
#define ADC12_B_CLOCKDIVIDER_8 (ADC12DIV_7) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the clockSourceSelect | |
// parameter for functions: ADC12_B_init(); the param parameter for functions: | |
// ADC12_B_init(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_CLOCKSOURCE_ADC12OSC (ADC12SSEL_0) | |
#define ADC12_B_CLOCKSOURCE_ACLK (ADC12SSEL_1) | |
#define ADC12_B_CLOCKSOURCE_MCLK (ADC12SSEL_2) | |
#define ADC12_B_CLOCKSOURCE_SMCLK (ADC12SSEL_3) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the clockSourcePredivider | |
// parameter for functions: ADC12_B_init(); the param parameter for functions: | |
// ADC12_B_init(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_CLOCKPREDIVIDER__1 (ADC12PDIV__1) | |
#define ADC12_B_CLOCKPREDIVIDER__4 (ADC12PDIV__4) | |
#define ADC12_B_CLOCKPREDIVIDER__32 (ADC12PDIV__32) | |
#define ADC12_B_CLOCKPREDIVIDER__64 (ADC12PDIV__64) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the param parameter for | |
// functions: ADC12_B_init(); the sampleHoldSignalSourceSelect parameter for | |
// functions: ADC12_B_init(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_SAMPLEHOLDSOURCE_SC (ADC12SHS_0) | |
#define ADC12_B_SAMPLEHOLDSOURCE_1 (ADC12SHS_1) | |
#define ADC12_B_SAMPLEHOLDSOURCE_2 (ADC12SHS_2) | |
#define ADC12_B_SAMPLEHOLDSOURCE_3 (ADC12SHS_3) | |
#define ADC12_B_SAMPLEHOLDSOURCE_4 (ADC12SHS_4) | |
#define ADC12_B_SAMPLEHOLDSOURCE_5 (ADC12SHS_5) | |
#define ADC12_B_SAMPLEHOLDSOURCE_6 (ADC12SHS_6) | |
#define ADC12_B_SAMPLEHOLDSOURCE_7 (ADC12SHS_7) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the internalChannelMap | |
// parameter for functions: ADC12_B_init(); the param parameter for functions: | |
// ADC12_B_init(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_MAPINTCH3 (ADC12ICH3MAP) | |
#define ADC12_B_MAPINTCH2 (ADC12ICH2MAP) | |
#define ADC12_B_MAPINTCH1 (ADC12ICH1MAP) | |
#define ADC12_B_MAPINTCH0 (ADC12ICH0MAP) | |
#define ADC12_B_TEMPSENSEMAP (ADC12TCMAP) | |
#define ADC12_B_BATTMAP (ADC12BATMAP) | |
#define ADC12_B_NOINTCH (0x00) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the clockCycleHoldCountLowMem | |
// parameter for functions: ADC12_B_setupSamplingTimer(); the | |
// clockCycleHoldCountHighMem parameter for functions: | |
// ADC12_B_setupSamplingTimer(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_CYCLEHOLD_4_CYCLES (ADC12SHT0_0) | |
#define ADC12_B_CYCLEHOLD_8_CYCLES (ADC12SHT0_1) | |
#define ADC12_B_CYCLEHOLD_16_CYCLES (ADC12SHT0_2) | |
#define ADC12_B_CYCLEHOLD_32_CYCLES (ADC12SHT0_3) | |
#define ADC12_B_CYCLEHOLD_64_CYCLES (ADC12SHT0_4) | |
#define ADC12_B_CYCLEHOLD_96_CYCLES (ADC12SHT0_5) | |
#define ADC12_B_CYCLEHOLD_128_CYCLES (ADC12SHT0_6) | |
#define ADC12_B_CYCLEHOLD_192_CYCLES (ADC12SHT0_7) | |
#define ADC12_B_CYCLEHOLD_256_CYCLES (ADC12SHT0_8) | |
#define ADC12_B_CYCLEHOLD_384_CYCLES (ADC12SHT0_9) | |
#define ADC12_B_CYCLEHOLD_512_CYCLES (ADC12SHT0_10) | |
#define ADC12_B_CYCLEHOLD_768_CYCLES (ADC12SHT0_11) | |
#define ADC12_B_CYCLEHOLD_1024_CYCLES (ADC12SHT0_12) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the multipleSamplesEnabled | |
// parameter for functions: ADC12_B_setupSamplingTimer(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_MULTIPLESAMPLESDISABLE (!(ADC12MSC)) | |
#define ADC12_B_MULTIPLESAMPLESENABLE (ADC12MSC) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the param parameter for | |
// functions: ADC12_B_configureMemory(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_DIFFERENTIAL_MODE_DISABLE (0x00) | |
#define ADC12_B_DIFFERENTIAL_MODE_ENABLE (ADC12DIF) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the param parameter for | |
// functions: ADC12_B_configureMemory(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_NOTENDOFSEQUENCE (!(ADC12EOS)) | |
#define ADC12_B_ENDOFSEQUENCE (ADC12EOS) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the param parameter for | |
// functions: ADC12_B_configureMemory(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_VREFPOS_AVCC_VREFNEG_VSS (ADC12VRSEL_0) | |
#define ADC12_B_VREFPOS_INTBUF_VREFNEG_VSS (ADC12VRSEL_1) | |
#define ADC12_B_VREFPOS_EXTNEG_VREFNEG_VSS (ADC12VRSEL_2) | |
#define ADC12_B_VREFPOS_EXTBUF_VREFNEG_VSS (ADC12VRSEL_3) | |
#define ADC12_B_VREFPOS_EXTPOS_VREFNEG_VSS (ADC12VRSEL_4) | |
#define ADC12_B_VREFPOS_AVCC_VREFNEG_EXTBUF (ADC12VRSEL_5) | |
#define ADC12_B_VREFPOS_AVCC_VREFNEG_EXTPOS (ADC12VRSEL_6) | |
#define ADC12_B_VREFPOS_INTBUF_VREFNEG_EXTPOS (ADC12VRSEL_7) | |
#define ADC12_B_VREFPOS_AVCC_VREFNEG_INTBUF (ADC12VRSEL_9) | |
#define ADC12_B_VREFPOS_EXTPOS_VREFNEG_INTBUF (ADC12VRSEL_11) | |
#define ADC12_B_VREFPOS_AVCC_VREFNEG_EXTNEG (ADC12VRSEL_12) | |
#define ADC12_B_VREFPOS_INTBUF_VREFNEG_EXTNEG (ADC12VRSEL_13) | |
#define ADC12_B_VREFPOS_EXTPOS_VREFNEG_EXTNEG (ADC12VRSEL_14) | |
#define ADC12_B_VREFPOS_EXTBUF_VREFNEG_EXTNEG (ADC12VRSEL_15) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the param parameter for | |
// functions: ADC12_B_configureMemory(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_INPUT_A0 (ADC12INCH_0) | |
#define ADC12_B_INPUT_A1 (ADC12INCH_1) | |
#define ADC12_B_INPUT_A2 (ADC12INCH_2) | |
#define ADC12_B_INPUT_A3 (ADC12INCH_3) | |
#define ADC12_B_INPUT_A4 (ADC12INCH_4) | |
#define ADC12_B_INPUT_A5 (ADC12INCH_5) | |
#define ADC12_B_INPUT_A6 (ADC12INCH_6) | |
#define ADC12_B_INPUT_A7 (ADC12INCH_7) | |
#define ADC12_B_INPUT_A8 (ADC12INCH_8) | |
#define ADC12_B_INPUT_A9 (ADC12INCH_9) | |
#define ADC12_B_INPUT_A10 (ADC12INCH_10) | |
#define ADC12_B_INPUT_A11 (ADC12INCH_11) | |
#define ADC12_B_INPUT_A12 (ADC12INCH_12) | |
#define ADC12_B_INPUT_A13 (ADC12INCH_13) | |
#define ADC12_B_INPUT_A14 (ADC12INCH_14) | |
#define ADC12_B_INPUT_A15 (ADC12INCH_15) | |
#define ADC12_B_INPUT_A16 (ADC12INCH_16) | |
#define ADC12_B_INPUT_A17 (ADC12INCH_17) | |
#define ADC12_B_INPUT_A18 (ADC12INCH_18) | |
#define ADC12_B_INPUT_A19 (ADC12INCH_19) | |
#define ADC12_B_INPUT_A20 (ADC12INCH_20) | |
#define ADC12_B_INPUT_A21 (ADC12INCH_21) | |
#define ADC12_B_INPUT_A22 (ADC12INCH_22) | |
#define ADC12_B_INPUT_A23 (ADC12INCH_23) | |
#define ADC12_B_INPUT_A24 (ADC12INCH_24) | |
#define ADC12_B_INPUT_A25 (ADC12INCH_25) | |
#define ADC12_B_INPUT_A26 (ADC12INCH_26) | |
#define ADC12_B_INPUT_A27 (ADC12INCH_27) | |
#define ADC12_B_INPUT_A28 (ADC12INCH_28) | |
#define ADC12_B_INPUT_A29 (ADC12INCH_29) | |
#define ADC12_B_INPUT_TCMAP (ADC12INCH_30) | |
#define ADC12_B_INPUT_BATMAP (ADC12INCH_31) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the param parameter for | |
// functions: ADC12_B_configureMemory(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_WINDOW_COMPARATOR_DISABLE (0x00) | |
#define ADC12_B_WINDOW_COMPARATOR_ENABLE (ADC12WINC) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the memoryIndex parameter for | |
// functions: ADC12_B_getMemoryAddressForDMA(); the memoryBufferIndex parameter | |
// for functions: ADC12_B_getResults(); the param parameter for functions: | |
// ADC12_B_configureMemory(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_MEMORY_0 (0x00) | |
#define ADC12_B_MEMORY_1 (0x02) | |
#define ADC12_B_MEMORY_2 (0x04) | |
#define ADC12_B_MEMORY_3 (0x06) | |
#define ADC12_B_MEMORY_4 (0x08) | |
#define ADC12_B_MEMORY_5 (0x0A) | |
#define ADC12_B_MEMORY_6 (0x0C) | |
#define ADC12_B_MEMORY_7 (0x0E) | |
#define ADC12_B_MEMORY_8 (0x10) | |
#define ADC12_B_MEMORY_9 (0x12) | |
#define ADC12_B_MEMORY_10 (0x14) | |
#define ADC12_B_MEMORY_11 (0x16) | |
#define ADC12_B_MEMORY_12 (0x18) | |
#define ADC12_B_MEMORY_13 (0x1A) | |
#define ADC12_B_MEMORY_14 (0x1C) | |
#define ADC12_B_MEMORY_15 (0x1E) | |
#define ADC12_B_MEMORY_16 (0x20) | |
#define ADC12_B_MEMORY_17 (0x22) | |
#define ADC12_B_MEMORY_18 (0x24) | |
#define ADC12_B_MEMORY_19 (0x26) | |
#define ADC12_B_MEMORY_20 (0x28) | |
#define ADC12_B_MEMORY_21 (0x2A) | |
#define ADC12_B_MEMORY_22 (0x2C) | |
#define ADC12_B_MEMORY_23 (0x2E) | |
#define ADC12_B_MEMORY_24 (0x30) | |
#define ADC12_B_MEMORY_25 (0x32) | |
#define ADC12_B_MEMORY_26 (0x34) | |
#define ADC12_B_MEMORY_27 (0x36) | |
#define ADC12_B_MEMORY_28 (0x38) | |
#define ADC12_B_MEMORY_29 (0x3A) | |
#define ADC12_B_MEMORY_30 (0x3C) | |
#define ADC12_B_MEMORY_31 (0x3E) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the interruptMask0 parameter | |
// for functions: ADC12_B_enableInterrupt(), and ADC12_B_disableInterrupt(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_IE0 (ADC12IE0) | |
#define ADC12_B_IE1 (ADC12IE1) | |
#define ADC12_B_IE2 (ADC12IE2) | |
#define ADC12_B_IE3 (ADC12IE3) | |
#define ADC12_B_IE4 (ADC12IE4) | |
#define ADC12_B_IE5 (ADC12IE5) | |
#define ADC12_B_IE6 (ADC12IE6) | |
#define ADC12_B_IE7 (ADC12IE7) | |
#define ADC12_B_IE8 (ADC12IE8) | |
#define ADC12_B_IE9 (ADC12IE9) | |
#define ADC12_B_IE10 (ADC12IE10) | |
#define ADC12_B_IE11 (ADC12IE11) | |
#define ADC12_B_IE12 (ADC12IE12) | |
#define ADC12_B_IE13 (ADC12IE13) | |
#define ADC12_B_IE14 (ADC12IE14) | |
#define ADC12_B_IE15 (ADC12IE15) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the interruptMask1 parameter | |
// for functions: ADC12_B_enableInterrupt(), and ADC12_B_disableInterrupt(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_IE16 (ADC12IE16) | |
#define ADC12_B_IE17 (ADC12IE17) | |
#define ADC12_B_IE18 (ADC12IE18) | |
#define ADC12_B_IE19 (ADC12IE19) | |
#define ADC12_B_IE20 (ADC12IE20) | |
#define ADC12_B_IE21 (ADC12IE21) | |
#define ADC12_B_IE22 (ADC12IE22) | |
#define ADC12_B_IE23 (ADC12IE23) | |
#define ADC12_B_IE24 (ADC12IE24) | |
#define ADC12_B_IE25 (ADC12IE25) | |
#define ADC12_B_IE26 (ADC12IE26) | |
#define ADC12_B_IE27 (ADC12IE27) | |
#define ADC12_B_IE28 (ADC12IE28) | |
#define ADC12_B_IE29 (ADC12IE29) | |
#define ADC12_B_IE30 (ADC12IE30) | |
#define ADC12_B_IE31 (ADC12IE31) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the interruptMask2 parameter | |
// for functions: ADC12_B_enableInterrupt(), and ADC12_B_disableInterrupt(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_INIE (ADC12INIE) | |
#define ADC12_B_LOIE (ADC12LOIE) | |
#define ADC12_B_HIIE (ADC12HIIE) | |
#define ADC12_B_OVIE (ADC12OVIE) | |
#define ADC12_B_TOVIE (ADC12TOVIE) | |
#define ADC12_B_RDYIE (ADC12RDYIE) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the memoryInterruptFlagMask | |
// parameter for functions: ADC12_B_clearInterrupt(), and | |
// ADC12_B_getInterruptStatus(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_IFG0 (ADC12IFG0) | |
#define ADC12_B_IFG1 (ADC12IFG1) | |
#define ADC12_B_IFG2 (ADC12IFG2) | |
#define ADC12_B_IFG3 (ADC12IFG3) | |
#define ADC12_B_IFG4 (ADC12IFG4) | |
#define ADC12_B_IFG5 (ADC12IFG5) | |
#define ADC12_B_IFG6 (ADC12IFG6) | |
#define ADC12_B_IFG7 (ADC12IFG7) | |
#define ADC12_B_IFG8 (ADC12IFG8) | |
#define ADC12_B_IFG9 (ADC12IFG9) | |
#define ADC12_B_IFG10 (ADC12IFG10) | |
#define ADC12_B_IFG11 (ADC12IFG11) | |
#define ADC12_B_IFG12 (ADC12IFG12) | |
#define ADC12_B_IFG13 (ADC12IFG13) | |
#define ADC12_B_IFG14 (ADC12IFG14) | |
#define ADC12_B_IFG15 (ADC12IFG15) | |
#define ADC12_B_IFG16 (ADC12IFG16) | |
#define ADC12_B_IFG17 (ADC12IFG17) | |
#define ADC12_B_IFG18 (ADC12IFG18) | |
#define ADC12_B_IFG19 (ADC12IFG19) | |
#define ADC12_B_IFG20 (ADC12IFG20) | |
#define ADC12_B_IFG21 (ADC12IFG21) | |
#define ADC12_B_IFG22 (ADC12IFG22) | |
#define ADC12_B_IFG23 (ADC12IFG23) | |
#define ADC12_B_IFG24 (ADC12IFG24) | |
#define ADC12_B_IFG25 (ADC12IFG25) | |
#define ADC12_B_IFG26 (ADC12IFG26) | |
#define ADC12_B_IFG27 (ADC12IFG27) | |
#define ADC12_B_IFG28 (ADC12IFG28) | |
#define ADC12_B_IFG29 (ADC12IFG29) | |
#define ADC12_B_IFG30 (ADC12IFG30) | |
#define ADC12_B_IFG31 (ADC12IFG31) | |
#define ADC12_B_INIFG (ADC12INIFG) | |
#define ADC12_B_LOIFG (ADC12LOIFG) | |
#define ADC12_B_HIIFG (ADC12HIIFG) | |
#define ADC12_B_OVIFG (ADC12OVIFG) | |
#define ADC12_B_TOVIFG (ADC12TOVIFG) | |
#define ADC12_B_RDYIFG (ADC12RDYIFG) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the startingMemoryBufferIndex | |
// parameter for functions: ADC12_B_startConversion(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_START_AT_ADC12MEM0 (ADC12CSTARTADD_0) | |
#define ADC12_B_START_AT_ADC12MEM1 (ADC12CSTARTADD_1) | |
#define ADC12_B_START_AT_ADC12MEM2 (ADC12CSTARTADD_2) | |
#define ADC12_B_START_AT_ADC12MEM3 (ADC12CSTARTADD_3) | |
#define ADC12_B_START_AT_ADC12MEM4 (ADC12CSTARTADD_4) | |
#define ADC12_B_START_AT_ADC12MEM5 (ADC12CSTARTADD_5) | |
#define ADC12_B_START_AT_ADC12MEM6 (ADC12CSTARTADD_6) | |
#define ADC12_B_START_AT_ADC12MEM7 (ADC12CSTARTADD_7) | |
#define ADC12_B_START_AT_ADC12MEM8 (ADC12CSTARTADD_8) | |
#define ADC12_B_START_AT_ADC12MEM9 (ADC12CSTARTADD_9) | |
#define ADC12_B_START_AT_ADC12MEM10 (ADC12CSTARTADD_10) | |
#define ADC12_B_START_AT_ADC12MEM11 (ADC12CSTARTADD_11) | |
#define ADC12_B_START_AT_ADC12MEM12 (ADC12CSTARTADD_12) | |
#define ADC12_B_START_AT_ADC12MEM13 (ADC12CSTARTADD_13) | |
#define ADC12_B_START_AT_ADC12MEM14 (ADC12CSTARTADD_14) | |
#define ADC12_B_START_AT_ADC12MEM15 (ADC12CSTARTADD_15) | |
#define ADC12_B_START_AT_ADC12MEM16 (ADC12CSTARTADD_16) | |
#define ADC12_B_START_AT_ADC12MEM17 (ADC12CSTARTADD_17) | |
#define ADC12_B_START_AT_ADC12MEM18 (ADC12CSTARTADD_18) | |
#define ADC12_B_START_AT_ADC12MEM19 (ADC12CSTARTADD_19) | |
#define ADC12_B_START_AT_ADC12MEM20 (ADC12CSTARTADD_20) | |
#define ADC12_B_START_AT_ADC12MEM21 (ADC12CSTARTADD_21) | |
#define ADC12_B_START_AT_ADC12MEM22 (ADC12CSTARTADD_22) | |
#define ADC12_B_START_AT_ADC12MEM23 (ADC12CSTARTADD_23) | |
#define ADC12_B_START_AT_ADC12MEM24 (ADC12CSTARTADD_24) | |
#define ADC12_B_START_AT_ADC12MEM25 (ADC12CSTARTADD_25) | |
#define ADC12_B_START_AT_ADC12MEM26 (ADC12CSTARTADD_26) | |
#define ADC12_B_START_AT_ADC12MEM27 (ADC12CSTARTADD_27) | |
#define ADC12_B_START_AT_ADC12MEM28 (ADC12CSTARTADD_28) | |
#define ADC12_B_START_AT_ADC12MEM29 (ADC12CSTARTADD_29) | |
#define ADC12_B_START_AT_ADC12MEM30 (ADC12CSTARTADD_30) | |
#define ADC12_B_START_AT_ADC12MEM31 (ADC12CSTARTADD_31) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the | |
// conversionSequenceModeSelect parameter for functions: | |
// ADC12_B_startConversion(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_SINGLECHANNEL (ADC12CONSEQ_0) | |
#define ADC12_B_SEQOFCHANNELS (ADC12CONSEQ_1) | |
#define ADC12_B_REPEATED_SINGLECHANNEL (ADC12CONSEQ_2) | |
#define ADC12_B_REPEATED_SEQOFCHANNELS (ADC12CONSEQ_3) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the preempt parameter for | |
// functions: ADC12_B_disableConversions(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_COMPLETECONVERSION false | |
#define ADC12_B_PREEMPTCONVERSION true | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the resolutionSelect | |
// parameter for functions: ADC12_B_setResolution(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_RESOLUTION_8BIT (ADC12RES__8BIT) | |
#define ADC12_B_RESOLUTION_10BIT (ADC12RES__10BIT) | |
#define ADC12_B_RESOLUTION_12BIT (ADC12RES__12BIT) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the invertedSignal parameter | |
// for functions: ADC12_B_setSampleHoldSignalInversion(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_NONINVERTEDSIGNAL (!(ADC12ISSH)) | |
#define ADC12_B_INVERTEDSIGNAL (ADC12ISSH) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the readBackFormat parameter | |
// for functions: ADC12_B_setDataReadBackFormat(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_UNSIGNED_BINARY (!(ADC12DF)) | |
#define ADC12_B_SIGNED_2SCOMPLEMENT (ADC12DF) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed to the powerMode parameter for | |
// functions: ADC12_B_setAdcPowerMode(). | |
// | |
//***************************************************************************** | |
#define ADC12_B_REGULARPOWERMODE (!(ADC12PWRMD)) | |
#define ADC12_B_LOWPOWERMODE (ADC12PWRMD) | |
//***************************************************************************** | |
// | |
// The following are values that can be passed toThe following are values that | |
// can be returned by the ADC12_B_isBusy() function. | |
// | |
//***************************************************************************** | |
#define ADC12_B_NOTBUSY 0x00 | |
#define ADC12_B_BUSY ADC12BUSY | |
//***************************************************************************** | |
// | |
// Prototypes for the APIs. | |
// | |
//***************************************************************************** | |
//***************************************************************************** | |
// | |
//! \brief Initializes the ADC12B Module. | |
//! | |
//! This function initializes the ADC module to allow for analog-to-digital | |
//! conversions. Specifically this function sets up the sample-and-hold signal | |
//! and clock sources for the ADC core to use for conversions. Upon successful | |
//! completion of the initialization all of the ADC control registers will be | |
//! reset, excluding the memory controls and reference module bits, the given | |
//! parameters will be set, and the ADC core will be turned on (Note, that the | |
//! ADC core only draws power during conversions and remains off when not | |
//! converting).Note that sample/hold signal sources are device dependent. Note | |
//! that if re-initializing the ADC after starting a conversion with the | |
//! startConversion() function, the disableConversion() must be called BEFORE | |
//! this function can be called. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param param is the pointer to struct for initialization. | |
//! | |
//! \return STATUS_SUCCESS or STATUS_FAILURE of the initialization process. | |
// | |
//***************************************************************************** | |
extern bool ADC12_B_init(uint16_t baseAddress, | |
ADC12_B_initParam *param); | |
//***************************************************************************** | |
// | |
//! \brief Enables the ADC12B block. | |
//! | |
//! This will enable operation of the ADC12B block. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! | |
//! Modified bits are \b ADC12ON of \b ADC12CTL0 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_enable(uint16_t baseAddress); | |
//***************************************************************************** | |
// | |
//! \brief Disables the ADC12B block. | |
//! | |
//! This will disable operation of the ADC12B block. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! | |
//! Modified bits are \b ADC12ON of \b ADC12CTL0 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_disable(uint16_t baseAddress); | |
//***************************************************************************** | |
// | |
//! \brief Sets up and enables the Sampling Timer Pulse Mode. | |
//! | |
//! This function sets up the sampling timer pulse mode which allows the | |
//! sample/hold signal to trigger a sampling timer to sample-and-hold an input | |
//! signal for a specified number of clock cycles without having to hold the | |
//! sample/hold signal for the entire period of sampling. Note that if a | |
//! conversion has been started with the startConversion() function, then a | |
//! call to disableConversions() is required before this function may be | |
//! called. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param clockCycleHoldCountLowMem sets the amount of clock cycles to sample- | |
//! and-hold for the higher memory buffers 0-7. | |
//! Valid values are: | |
//! - \b ADC12_B_CYCLEHOLD_4_CYCLES [Default] | |
//! - \b ADC12_B_CYCLEHOLD_8_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_16_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_32_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_64_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_96_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_128_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_192_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_256_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_384_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_512_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_768_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_1024_CYCLES | |
//! \n Modified bits are \b ADC12SHT0x of \b ADC12CTL0 register. | |
//! \param clockCycleHoldCountHighMem sets the amount of clock cycles to | |
//! sample-and-hold for the higher memory buffers 8-15. | |
//! Valid values are: | |
//! - \b ADC12_B_CYCLEHOLD_4_CYCLES [Default] | |
//! - \b ADC12_B_CYCLEHOLD_8_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_16_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_32_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_64_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_96_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_128_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_192_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_256_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_384_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_512_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_768_CYCLES | |
//! - \b ADC12_B_CYCLEHOLD_1024_CYCLES | |
//! \n Modified bits are \b ADC12SHT1x of \b ADC12CTL0 register. | |
//! \param multipleSamplesEnabled allows multiple conversions to start without | |
//! a trigger signal from the sample/hold signal | |
//! Valid values are: | |
//! - \b ADC12_B_MULTIPLESAMPLESDISABLE [Default] - a timer trigger will | |
//! be needed to start every ADC conversion. | |
//! - \b ADC12_B_MULTIPLESAMPLESENABLE - during a sequenced and/or | |
//! repeated conversion mode, after the first conversion, no | |
//! sample/hold signal is necessary to start subsequent sample/hold | |
//! and convert processes. | |
//! \n Modified bits are \b ADC12MSC of \b ADC12CTL0 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_setupSamplingTimer(uint16_t baseAddress, | |
uint16_t clockCycleHoldCountLowMem, | |
uint16_t clockCycleHoldCountHighMem, | |
uint16_t multipleSamplesEnabled); | |
//***************************************************************************** | |
// | |
//! \brief Disables Sampling Timer Pulse Mode. | |
//! | |
//! Disables the Sampling Timer Pulse Mode. Note that if a conversion has been | |
//! started with the startConversion() function, then a call to | |
//! disableConversions() is required before this function may be called. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_disableSamplingTimer(uint16_t baseAddress); | |
//***************************************************************************** | |
// | |
//! \brief Configures the controls of the selected memory buffer. | |
//! | |
//! Maps an input signal conversion into the selected memory buffer, as well as | |
//! the positive and negative reference voltages for each conversion being | |
//! stored into this memory buffer. If the internal reference is used for the | |
//! positive reference voltage, the internal REF module must be used to control | |
//! the voltage level. Note that if a conversion has been started with the | |
//! startConversion() function, then a call to disableConversions() is required | |
//! before this function may be called. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param param is the pointer to struct for ADC12B memory configuration. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_configureMemory(uint16_t baseAddress, | |
ADC12_B_configureMemoryParam *param); | |
//***************************************************************************** | |
// | |
//! \brief Sets the high and low threshold for the window comparator feature. | |
//! | |
//! Sets the high and low threshold for the window comparator feature. Use the | |
//! ADC12HIIE, ADC12INIE, ADC12LOIE interrupts to utilize this feature. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param highThreshold is the upper bound that could trip an interrupt for | |
//! the window comparator. | |
//! \param lowThreshold is the lower bound that could trip on interrupt for the | |
//! window comparator. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_setWindowCompAdvanced(uint16_t baseAddress, | |
uint16_t highThreshold, | |
uint16_t lowThreshold); | |
//***************************************************************************** | |
// | |
//! \brief Enables selected ADC12B interrupt sources. | |
//! | |
//! Enables the indicated ADC12B interrupt sources. Only the sources that are | |
//! enabled can be reflected to the processor interrupt; disabled sources have | |
//! no effect on the processor. <b>Does not clear interrupt flags. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param interruptMask0 is the bit mask of the memory buffer and overflow | |
//! interrupt sources to be enabled. If the desired interrupt is not | |
//! available in the selection for interruptMask0, then simply pass in a | |
//! '0' for this value. | |
//! Valid values are: | |
//! - \b ADC12_B_IE0 | |
//! - \b ADC12_B_IE1 | |
//! - \b ADC12_B_IE2 | |
//! - \b ADC12_B_IE3 | |
//! - \b ADC12_B_IE4 | |
//! - \b ADC12_B_IE5 | |
//! - \b ADC12_B_IE6 | |
//! - \b ADC12_B_IE7 | |
//! - \b ADC12_B_IE8 | |
//! - \b ADC12_B_IE9 | |
//! - \b ADC12_B_IE10 | |
//! - \b ADC12_B_IE11 | |
//! - \b ADC12_B_IE12 | |
//! - \b ADC12_B_IE13 | |
//! - \b ADC12_B_IE14 | |
//! - \b ADC12_B_IE15 | |
//! \param interruptMask1 is the bit mask of the memory buffer and overflow | |
//! interrupt sources to be enabled. If the desired interrupt is not | |
//! available in the selection for interruptMask1, then simply pass in a | |
//! '0' for this value. | |
//! Valid values are: | |
//! - \b ADC12_B_IE16 | |
//! - \b ADC12_B_IE17 | |
//! - \b ADC12_B_IE18 | |
//! - \b ADC12_B_IE19 | |
//! - \b ADC12_B_IE20 | |
//! - \b ADC12_B_IE21 | |
//! - \b ADC12_B_IE22 | |
//! - \b ADC12_B_IE23 | |
//! - \b ADC12_B_IE24 | |
//! - \b ADC12_B_IE25 | |
//! - \b ADC12_B_IE26 | |
//! - \b ADC12_B_IE27 | |
//! - \b ADC12_B_IE28 | |
//! - \b ADC12_B_IE29 | |
//! - \b ADC12_B_IE30 | |
//! - \b ADC12_B_IE31 | |
//! \param interruptMask2 is the bit mask of the memory buffer and overflow | |
//! interrupt sources to be enabled. If the desired interrupt is not | |
//! available in the selection for interruptMask2, then simply pass in a | |
//! '0' for this value. | |
//! Valid values are: | |
//! - \b ADC12_B_INIE - Interrupt enable for a conversion in the result | |
//! register is either greater than the ADC12LO or lower than the | |
//! ADC12HI threshold. GIE bit must be set to enable the interrupt. | |
//! - \b ADC12_B_LOIE - Interrupt enable for the falling short of the | |
//! lower limit interrupt of the window comparator for the result | |
//! register. GIE bit must be set to enable the interrupt. | |
//! - \b ADC12_B_HIIE - Interrupt enable for the exceeding the upper | |
//! limit of the window comparator for the result register. GIE bit | |
//! must be set to enable the interrupt. | |
//! - \b ADC12_B_OVIE - Interrupt enable for a conversion that is about | |
//! to save to a memory buffer that has not been read out yet. GIE | |
//! bit must be set to enable the interrupt. | |
//! - \b ADC12_B_TOVIE - enable for a conversion that is about to start | |
//! before the previous conversion has been completed. GIE bit must | |
//! be set to enable the interrupt. | |
//! - \b ADC12_B_RDYIE - enable for the local buffered reference ready | |
//! signal. GIE bit must be set to enable the interrupt. | |
//! | |
//! Modified bits of \b ADC12IERx register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_enableInterrupt(uint16_t baseAddress, | |
uint16_t interruptMask0, | |
uint16_t interruptMask1, | |
uint16_t interruptMask2); | |
//***************************************************************************** | |
// | |
//! \brief Disables selected ADC12B interrupt sources. | |
//! | |
//! Disables the indicated ADC12B interrupt sources. Only the sources that are | |
//! enabled can be reflected to the processor interrupt; disabled sources have | |
//! no effect on the processor. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param interruptMask0 is the bit mask of the memory buffer and overflow | |
//! interrupt sources to be disabled. If the desired interrupt is not | |
//! available in the selection for interruptMask0, then simply pass in a | |
//! '0' for this value. | |
//! Valid values are: | |
//! - \b ADC12_B_IE0 | |
//! - \b ADC12_B_IE1 | |
//! - \b ADC12_B_IE2 | |
//! - \b ADC12_B_IE3 | |
//! - \b ADC12_B_IE4 | |
//! - \b ADC12_B_IE5 | |
//! - \b ADC12_B_IE6 | |
//! - \b ADC12_B_IE7 | |
//! - \b ADC12_B_IE8 | |
//! - \b ADC12_B_IE9 | |
//! - \b ADC12_B_IE10 | |
//! - \b ADC12_B_IE11 | |
//! - \b ADC12_B_IE12 | |
//! - \b ADC12_B_IE13 | |
//! - \b ADC12_B_IE14 | |
//! - \b ADC12_B_IE15 | |
//! \param interruptMask1 is the bit mask of the memory buffer and overflow | |
//! interrupt sources to be disabled. If the desired interrupt is not | |
//! available in the selection for interruptMask1, then simply pass in a | |
//! '0' for this value. | |
//! Valid values are: | |
//! - \b ADC12_B_IE16 | |
//! - \b ADC12_B_IE17 | |
//! - \b ADC12_B_IE18 | |
//! - \b ADC12_B_IE19 | |
//! - \b ADC12_B_IE20 | |
//! - \b ADC12_B_IE21 | |
//! - \b ADC12_B_IE22 | |
//! - \b ADC12_B_IE23 | |
//! - \b ADC12_B_IE24 | |
//! - \b ADC12_B_IE25 | |
//! - \b ADC12_B_IE26 | |
//! - \b ADC12_B_IE27 | |
//! - \b ADC12_B_IE28 | |
//! - \b ADC12_B_IE29 | |
//! - \b ADC12_B_IE30 | |
//! - \b ADC12_B_IE31 | |
//! \param interruptMask2 is the bit mask of the memory buffer and overflow | |
//! interrupt sources to be disabled. If the desired interrupt is not | |
//! available in the selection for interruptMask2, then simply pass in a | |
//! '0' for this value. | |
//! Valid values are: | |
//! - \b ADC12_B_INIE - Interrupt enable for a conversion in the result | |
//! register is either greater than the ADC12LO or lower than the | |
//! ADC12HI threshold. GIE bit must be set to enable the interrupt. | |
//! - \b ADC12_B_LOIE - Interrupt enable for the falling short of the | |
//! lower limit interrupt of the window comparator for the result | |
//! register. GIE bit must be set to enable the interrupt. | |
//! - \b ADC12_B_HIIE - Interrupt enable for the exceeding the upper | |
//! limit of the window comparator for the result register. GIE bit | |
//! must be set to enable the interrupt. | |
//! - \b ADC12_B_OVIE - Interrupt enable for a conversion that is about | |
//! to save to a memory buffer that has not been read out yet. GIE | |
//! bit must be set to enable the interrupt. | |
//! - \b ADC12_B_TOVIE - enable for a conversion that is about to start | |
//! before the previous conversion has been completed. GIE bit must | |
//! be set to enable the interrupt. | |
//! - \b ADC12_B_RDYIE - enable for the local buffered reference ready | |
//! signal. GIE bit must be set to enable the interrupt. | |
//! | |
//! Modified bits of \b ADC12IERx register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_disableInterrupt(uint16_t baseAddress, | |
uint16_t interruptMask0, | |
uint16_t interruptMask1, | |
uint16_t interruptMask2); | |
//***************************************************************************** | |
// | |
//! \brief Clears ADC12B selected interrupt flags. | |
//! | |
//! Modified registers are ADC12IFG . | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param interruptRegisterChoice is either 0, 1, or 2, to choose the correct | |
//! interrupt register to update | |
//! \param memoryInterruptFlagMask is the bit mask of the memory buffer and | |
//! overflow interrupt flags to be cleared. | |
//! Valid values are: | |
//! - \b ADC12_B_IFG0 - interruptRegisterChoice = 0 | |
//! - \b ADC12_B_IFG1 | |
//! - \b ADC12_B_IFG2 | |
//! - \b ADC12_B_IFG3 | |
//! - \b ADC12_B_IFG4 | |
//! - \b ADC12_B_IFG5 | |
//! - \b ADC12_B_IFG6 | |
//! - \b ADC12_B_IFG7 | |
//! - \b ADC12_B_IFG8 | |
//! - \b ADC12_B_IFG9 | |
//! - \b ADC12_B_IFG10 | |
//! - \b ADC12_B_IFG11 | |
//! - \b ADC12_B_IFG12 | |
//! - \b ADC12_B_IFG13 | |
//! - \b ADC12_B_IFG14 | |
//! - \b ADC12_B_IFG15 | |
//! - \b ADC12_B_IFG16 - interruptRegisterChoice = 1 | |
//! - \b ADC12_B_IFG17 | |
//! - \b ADC12_B_IFG18 | |
//! - \b ADC12_B_IFG19 | |
//! - \b ADC12_B_IFG20 | |
//! - \b ADC12_B_IFG21 | |
//! - \b ADC12_B_IFG22 | |
//! - \b ADC12_B_IFG23 | |
//! - \b ADC12_B_IFG24 | |
//! - \b ADC12_B_IFG25 | |
//! - \b ADC12_B_IFG26 | |
//! - \b ADC12_B_IFG27 | |
//! - \b ADC12_B_IFG28 | |
//! - \b ADC12_B_IFG29 | |
//! - \b ADC12_B_IFG30 | |
//! - \b ADC12_B_IFG31 | |
//! - \b ADC12_B_INIFG - interruptRegisterChoice = 2 | |
//! - \b ADC12_B_LOIFG | |
//! - \b ADC12_B_HIIFG | |
//! - \b ADC12_B_OVIFG | |
//! - \b ADC12_B_TOVIFG | |
//! - \b ADC12_B_RDYIFG - The selected ADC12B interrupt flags are | |
//! cleared, so that it no longer asserts. The memory buffer | |
//! interrupt flags are only cleared when the memory buffer is | |
//! accessed. Note that the overflow interrupts do not have an | |
//! interrupt flag to clear; they must be accessed directly from the | |
//! interrupt vector. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_clearInterrupt(uint16_t baseAddress, | |
uint8_t interruptRegisterChoice, | |
uint16_t memoryInterruptFlagMask); | |
//***************************************************************************** | |
// | |
//! \brief Returns the status of the selected memory interrupt flags. | |
//! | |
//! Returns the status of the selected memory interrupt flags. Note that the | |
//! overflow interrupts do not have an interrupt flag to clear; they must be | |
//! accessed directly from the interrupt vector. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param interruptRegisterChoice is either 0, 1, or 2, to choose the correct | |
//! interrupt register to update | |
//! \param memoryInterruptFlagMask is the bit mask of the memory buffer and | |
//! overflow interrupt flags to be cleared. | |
//! Valid values are: | |
//! - \b ADC12_B_IFG0 - interruptRegisterChoice = 0 | |
//! - \b ADC12_B_IFG1 | |
//! - \b ADC12_B_IFG2 | |
//! - \b ADC12_B_IFG3 | |
//! - \b ADC12_B_IFG4 | |
//! - \b ADC12_B_IFG5 | |
//! - \b ADC12_B_IFG6 | |
//! - \b ADC12_B_IFG7 | |
//! - \b ADC12_B_IFG8 | |
//! - \b ADC12_B_IFG9 | |
//! - \b ADC12_B_IFG10 | |
//! - \b ADC12_B_IFG11 | |
//! - \b ADC12_B_IFG12 | |
//! - \b ADC12_B_IFG13 | |
//! - \b ADC12_B_IFG14 | |
//! - \b ADC12_B_IFG15 | |
//! - \b ADC12_B_IFG16 - interruptRegisterChoice = 1 | |
//! - \b ADC12_B_IFG17 | |
//! - \b ADC12_B_IFG18 | |
//! - \b ADC12_B_IFG19 | |
//! - \b ADC12_B_IFG20 | |
//! - \b ADC12_B_IFG21 | |
//! - \b ADC12_B_IFG22 | |
//! - \b ADC12_B_IFG23 | |
//! - \b ADC12_B_IFG24 | |
//! - \b ADC12_B_IFG25 | |
//! - \b ADC12_B_IFG26 | |
//! - \b ADC12_B_IFG27 | |
//! - \b ADC12_B_IFG28 | |
//! - \b ADC12_B_IFG29 | |
//! - \b ADC12_B_IFG30 | |
//! - \b ADC12_B_IFG31 | |
//! - \b ADC12_B_INIFG - interruptRegisterChoice = 2 | |
//! - \b ADC12_B_LOIFG | |
//! - \b ADC12_B_HIIFG | |
//! - \b ADC12_B_OVIFG | |
//! - \b ADC12_B_TOVIFG | |
//! - \b ADC12_B_RDYIFG - The selected ADC12B interrupt flags are | |
//! cleared, so that it no longer asserts. The memory buffer | |
//! interrupt flags are only cleared when the memory buffer is | |
//! accessed. Note that the overflow interrupts do not have an | |
//! interrupt flag to clear; they must be accessed directly from the | |
//! interrupt vector. | |
//! | |
//! \return The current interrupt flag status for the corresponding mask. | |
// | |
//***************************************************************************** | |
extern uint16_t ADC12_B_getInterruptStatus(uint16_t baseAddress, | |
uint8_t interruptRegisterChoice, | |
uint16_t memoryInterruptFlagMask); | |
//***************************************************************************** | |
// | |
//! \brief Enables/Starts an Analog-to-Digital Conversion. | |
//! | |
//! Enables/starts the conversion process of the ADC. If the sample/hold signal | |
//! source chosen during initialization was ADC12OSC, then the conversion is | |
//! started immediately, otherwise the chosen sample/hold signal source starts | |
//! the conversion by a rising edge of the signal. Keep in mind when selecting | |
//! conversion modes, that for sequenced and/or repeated modes, to keep the | |
//! sample/hold-and-convert process continuing without a trigger from the | |
//! sample/hold signal source, the multiple samples must be enabled using the | |
//! ADC12_B_setupSamplingTimer() function. Note that after this function is | |
//! called, the ADC12_B_stopConversions() has to be called to re-initialize the | |
//! ADC, reconfigure a memory buffer control, enable/disable the sampling | |
//! timer, or to change the internal reference voltage. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param startingMemoryBufferIndex is the memory buffer that will hold the | |
//! first or only conversion. | |
//! Valid values are: | |
//! - \b ADC12_B_START_AT_ADC12MEM0 [Default] | |
//! - \b ADC12_B_START_AT_ADC12MEM1 | |
//! - \b ADC12_B_START_AT_ADC12MEM2 | |
//! - \b ADC12_B_START_AT_ADC12MEM3 | |
//! - \b ADC12_B_START_AT_ADC12MEM4 | |
//! - \b ADC12_B_START_AT_ADC12MEM5 | |
//! - \b ADC12_B_START_AT_ADC12MEM6 | |
//! - \b ADC12_B_START_AT_ADC12MEM7 | |
//! - \b ADC12_B_START_AT_ADC12MEM8 | |
//! - \b ADC12_B_START_AT_ADC12MEM9 | |
//! - \b ADC12_B_START_AT_ADC12MEM10 | |
//! - \b ADC12_B_START_AT_ADC12MEM11 | |
//! - \b ADC12_B_START_AT_ADC12MEM12 | |
//! - \b ADC12_B_START_AT_ADC12MEM13 | |
//! - \b ADC12_B_START_AT_ADC12MEM14 | |
//! - \b ADC12_B_START_AT_ADC12MEM15 | |
//! - \b ADC12_B_START_AT_ADC12MEM16 | |
//! - \b ADC12_B_START_AT_ADC12MEM17 | |
//! - \b ADC12_B_START_AT_ADC12MEM18 | |
//! - \b ADC12_B_START_AT_ADC12MEM19 | |
//! - \b ADC12_B_START_AT_ADC12MEM20 | |
//! - \b ADC12_B_START_AT_ADC12MEM21 | |
//! - \b ADC12_B_START_AT_ADC12MEM22 | |
//! - \b ADC12_B_START_AT_ADC12MEM23 | |
//! - \b ADC12_B_START_AT_ADC12MEM24 | |
//! - \b ADC12_B_START_AT_ADC12MEM25 | |
//! - \b ADC12_B_START_AT_ADC12MEM26 | |
//! - \b ADC12_B_START_AT_ADC12MEM27 | |
//! - \b ADC12_B_START_AT_ADC12MEM28 | |
//! - \b ADC12_B_START_AT_ADC12MEM29 | |
//! - \b ADC12_B_START_AT_ADC12MEM30 | |
//! - \b ADC12_B_START_AT_ADC12MEM31 | |
//! \n Modified bits are \b ADC12CSTARTADDx of \b ADC12CTL1 register. | |
//! \param conversionSequenceModeSelect determines the ADC operating mode. | |
//! Valid values are: | |
//! - \b ADC12_B_SINGLECHANNEL [Default] - one-time conversion of a | |
//! single channel into a single memory buffer. | |
//! - \b ADC12_B_SEQOFCHANNELS - one time conversion of multiple | |
//! channels into the specified starting memory buffer and each | |
//! subsequent memory buffer up until the conversion is stored in a | |
//! memory buffer dedicated as the end-of-sequence by the memory's | |
//! control register. | |
//! - \b ADC12_B_REPEATED_SINGLECHANNEL - repeated conversions of one | |
//! channel into a single memory buffer. | |
//! - \b ADC12_B_REPEATED_SEQOFCHANNELS - repeated conversions of | |
//! multiple channels into the specified starting memory buffer and | |
//! each subsequent memory buffer up until the conversion is stored | |
//! in a memory buffer dedicated as the end-of-sequence by the | |
//! memory's control register. | |
//! \n Modified bits are \b ADC12CONSEQx of \b ADC12CTL1 register. | |
//! | |
//! Modified bits of \b ADC12CTL1 register and bits of \b ADC12CTL0 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_startConversion(uint16_t baseAddress, | |
uint16_t startingMemoryBufferIndex, | |
uint8_t conversionSequenceModeSelect); | |
//***************************************************************************** | |
// | |
//! \brief Disables the ADC from converting any more signals. | |
//! | |
//! Disables the ADC from converting any more signals. If there is a conversion | |
//! in progress, this function can stop it immediately if the preempt parameter | |
//! is set as ADC12_B_PREEMPTCONVERSION, by changing the conversion mode to | |
//! single-channel, single-conversion and disabling conversions. If the | |
//! conversion mode is set as single-channel, single-conversion and this | |
//! function is called without preemption, then the ADC core conversion status | |
//! is polled until the conversion is complete before disabling conversions to | |
//! prevent unpredictable data. If the ADC12_B_startConversion() has been | |
//! called, then this function has to be called to re-initialize the ADC, | |
//! reconfigure a memory buffer control, enable/disable the sampling pulse | |
//! mode, or change the internal reference voltage. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param preempt specifies if the current conversion should be preemptively | |
//! stopped before the end of the conversion. | |
//! Valid values are: | |
//! - \b ADC12_B_COMPLETECONVERSION - Allows the ADC12B to end the | |
//! current conversion before disabling conversions. | |
//! - \b ADC12_B_PREEMPTCONVERSION - Stops the ADC12B immediately, with | |
//! unpredictable results of the current conversion. | |
//! | |
//! Modified bits of \b ADC12CTL1 register and bits of \b ADC12CTL0 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_disableConversions(uint16_t baseAddress, | |
bool preempt); | |
//***************************************************************************** | |
// | |
//! \brief Returns the raw contents of the specified memory buffer. | |
//! | |
//! Returns the raw contents of the specified memory buffer. The format of the | |
//! content depends on the read-back format of the data: if the data is in | |
//! signed 2's complement format then the contents in the memory buffer will be | |
//! left-justified with the least-significant bits as 0's, whereas if the data | |
//! is in unsigned format then the contents in the memory buffer will be right- | |
//! justified with the most-significant bits as 0's. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param memoryBufferIndex is the specified memory buffer to read. | |
//! Valid values are: | |
//! - \b ADC12_B_MEMORY_0 | |
//! - \b ADC12_B_MEMORY_1 | |
//! - \b ADC12_B_MEMORY_2 | |
//! - \b ADC12_B_MEMORY_3 | |
//! - \b ADC12_B_MEMORY_4 | |
//! - \b ADC12_B_MEMORY_5 | |
//! - \b ADC12_B_MEMORY_6 | |
//! - \b ADC12_B_MEMORY_7 | |
//! - \b ADC12_B_MEMORY_8 | |
//! - \b ADC12_B_MEMORY_9 | |
//! - \b ADC12_B_MEMORY_10 | |
//! - \b ADC12_B_MEMORY_11 | |
//! - \b ADC12_B_MEMORY_12 | |
//! - \b ADC12_B_MEMORY_13 | |
//! - \b ADC12_B_MEMORY_14 | |
//! - \b ADC12_B_MEMORY_15 | |
//! - \b ADC12_B_MEMORY_16 | |
//! - \b ADC12_B_MEMORY_17 | |
//! - \b ADC12_B_MEMORY_18 | |
//! - \b ADC12_B_MEMORY_19 | |
//! - \b ADC12_B_MEMORY_20 | |
//! - \b ADC12_B_MEMORY_21 | |
//! - \b ADC12_B_MEMORY_22 | |
//! - \b ADC12_B_MEMORY_23 | |
//! - \b ADC12_B_MEMORY_24 | |
//! - \b ADC12_B_MEMORY_25 | |
//! - \b ADC12_B_MEMORY_26 | |
//! - \b ADC12_B_MEMORY_27 | |
//! - \b ADC12_B_MEMORY_28 | |
//! - \b ADC12_B_MEMORY_29 | |
//! - \b ADC12_B_MEMORY_30 | |
//! - \b ADC12_B_MEMORY_31 | |
//! | |
//! \return A signed integer of the contents of the specified memory buffer. | |
// | |
//***************************************************************************** | |
extern uint16_t ADC12_B_getResults(uint16_t baseAddress, | |
uint8_t memoryBufferIndex); | |
//***************************************************************************** | |
// | |
//! \brief Use to change the resolution of the converted data. | |
//! | |
//! This function can be used to change the resolution of the converted data | |
//! from the default of 12-bits. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param resolutionSelect determines the resolution of the converted data. | |
//! Valid values are: | |
//! - \b ADC12_B_RESOLUTION_8BIT | |
//! - \b ADC12_B_RESOLUTION_10BIT | |
//! - \b ADC12_B_RESOLUTION_12BIT [Default] | |
//! \n Modified bits are \b ADC12RESx of \b ADC12CTL2 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_setResolution(uint16_t baseAddress, | |
uint8_t resolutionSelect); | |
//***************************************************************************** | |
// | |
//! \brief Use to invert or un-invert the sample/hold signal. | |
//! | |
//! This function can be used to invert or un-invert the sample/hold signal. | |
//! Note that if a conversion has been started with the startConversion() | |
//! function, then a call to disableConversions() is required before this | |
//! function may be called. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param invertedSignal set if the sample/hold signal should be inverted | |
//! Valid values are: | |
//! - \b ADC12_B_NONINVERTEDSIGNAL [Default] - a sample-and-hold of an | |
//! input signal for conversion will be started on a rising edge of | |
//! the sample/hold signal. | |
//! - \b ADC12_B_INVERTEDSIGNAL - a sample-and-hold of an input signal | |
//! for conversion will be started on a falling edge of the | |
//! sample/hold signal. | |
//! \n Modified bits are \b ADC12ISSH of \b ADC12CTL1 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_setSampleHoldSignalInversion(uint16_t baseAddress, | |
uint16_t invertedSignal); | |
//***************************************************************************** | |
// | |
//! \brief Use to set the read-back format of the converted data. | |
//! | |
//! Sets the format of the converted data: how it will be stored into the | |
//! memory buffer, and how it should be read back. The format can be set as | |
//! right-justified (default), which indicates that the number will be | |
//! unsigned, or left-justified, which indicates that the number will be signed | |
//! in 2's complement format. This change affects all memory buffers for | |
//! subsequent conversions. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param readBackFormat is the specified format to store the conversions in | |
//! the memory buffer. | |
//! Valid values are: | |
//! - \b ADC12_B_UNSIGNED_BINARY [Default] | |
//! - \b ADC12_B_SIGNED_2SCOMPLEMENT | |
//! \n Modified bits are \b ADC12DF of \b ADC12CTL2 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_setDataReadBackFormat(uint16_t baseAddress, | |
uint8_t readBackFormat); | |
//***************************************************************************** | |
// | |
//! \brief Use to set the ADC's power conservation mode if the sampling rate is | |
//! at 50-ksps or less. | |
//! | |
//! Sets ADC's power mode. If the user has a sampling rate greater than | |
//! 50-ksps, then he/she can only enable ADC12_B_REGULARPOWERMODE. If the | |
//! sampling rate is 50-ksps or less, the user can enable ADC12_B_LOWPOWERMODE | |
//! granting additional power savings. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param powerMode is the specified maximum sampling rate. | |
//! Valid values are: | |
//! - \b ADC12_B_REGULARPOWERMODE [Default] - If sampling rate is | |
//! greater than 50-ksps, there is no power saving feature available. | |
//! - \b ADC12_B_LOWPOWERMODE - If sampling rate is less than or equal | |
//! to 50-ksps, select this value to save power | |
//! \n Modified bits are \b ADC12SR of \b ADC12CTL2 register. | |
//! | |
//! \return None | |
// | |
//***************************************************************************** | |
extern void ADC12_B_setAdcPowerMode(uint16_t baseAddress, | |
uint8_t powerMode); | |
//***************************************************************************** | |
// | |
//! \brief Returns the address of the specified memory buffer for the DMA | |
//! module. | |
//! | |
//! Returns the address of the specified memory buffer. This can be used in | |
//! conjunction with the DMA to store the converted data directly to memory. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! \param memoryIndex is the memory buffer to return the address of. | |
//! Valid values are: | |
//! - \b ADC12_B_MEMORY_0 | |
//! - \b ADC12_B_MEMORY_1 | |
//! - \b ADC12_B_MEMORY_2 | |
//! - \b ADC12_B_MEMORY_3 | |
//! - \b ADC12_B_MEMORY_4 | |
//! - \b ADC12_B_MEMORY_5 | |
//! - \b ADC12_B_MEMORY_6 | |
//! - \b ADC12_B_MEMORY_7 | |
//! - \b ADC12_B_MEMORY_8 | |
//! - \b ADC12_B_MEMORY_9 | |
//! - \b ADC12_B_MEMORY_10 | |
//! - \b ADC12_B_MEMORY_11 | |
//! - \b ADC12_B_MEMORY_12 | |
//! - \b ADC12_B_MEMORY_13 | |
//! - \b ADC12_B_MEMORY_14 | |
//! - \b ADC12_B_MEMORY_15 | |
//! - \b ADC12_B_MEMORY_16 | |
//! - \b ADC12_B_MEMORY_17 | |
//! - \b ADC12_B_MEMORY_18 | |
//! - \b ADC12_B_MEMORY_19 | |
//! - \b ADC12_B_MEMORY_20 | |
//! - \b ADC12_B_MEMORY_21 | |
//! - \b ADC12_B_MEMORY_22 | |
//! - \b ADC12_B_MEMORY_23 | |
//! - \b ADC12_B_MEMORY_24 | |
//! - \b ADC12_B_MEMORY_25 | |
//! - \b ADC12_B_MEMORY_26 | |
//! - \b ADC12_B_MEMORY_27 | |
//! - \b ADC12_B_MEMORY_28 | |
//! - \b ADC12_B_MEMORY_29 | |
//! - \b ADC12_B_MEMORY_30 | |
//! - \b ADC12_B_MEMORY_31 | |
//! | |
//! \return address of the specified memory buffer | |
// | |
//***************************************************************************** | |
extern uint32_t ADC12_B_getMemoryAddressForDMA(uint16_t baseAddress, | |
uint8_t memoryIndex); | |
//***************************************************************************** | |
// | |
//! \brief Returns the busy status of the ADC12B core. | |
//! | |
//! Returns the status of the ADC core if there is a conversion currently | |
//! taking place. | |
//! | |
//! \param baseAddress is the base address of the ADC12B module. | |
//! | |
//! \return ADC12_B_BUSY or ADC12_B_NOTBUSY dependent if there is a conversion | |
//! currently taking place. | |
//! Return one of the following: | |
//! - \b ADC12_B_NOTBUSY | |
//! - \b ADC12_B_BUSY | |
//! \n indicating if a conversion is taking place | |
// | |
//***************************************************************************** | |
extern uint8_t ADC12_B_isBusy(uint16_t baseAddress); | |
//***************************************************************************** | |
// | |
// Mark the end of the C bindings section for C++ compilers. | |
// | |
//***************************************************************************** | |
#ifdef __cplusplus | |
} | |
#endif | |
#endif | |
#endif // __MSP430WARE_ADC12_B_H__ |