ADCEMLIB

Detailed Description

Analog to Digital Converter (ADC) Peripheral API.

This module contains functions to control the ADC peripheral of Silicon Labs 32-bit MCUs and SoCs. The ADC is used to convert analog signals into a digital representation.

Data Structures

struct ADC_Init_TypeDef
struct ADC_InitScan_TypeDef
struct ADC_InitScanInput_TypeDef
struct ADC_InitSingle_TypeDef

Macros

#define ADC_CTRLX_VREFSEL_REG 0x80UL
#define ADC_INIT_DEFAULT
#define ADC_INITSCAN_DEFAULT
#define ADC_INITSINGLE_DEFAULT
#define ADC_SCANINPUTSEL_GROUP_NONE 0xFFU
#define ADC_SCANINPUTSEL_NONE
#define adcPosSelAREG adcPosSelDVDD
#define adcPosSelIO0 adcPosSelIOVDD
#define adcPosSelPDBU adcPosSelDECOUPLE
#define adcPosSelVREGOUTPA adcPosSelPAVDD

Enumerations

enum ADC_AcqTime_TypeDef {
adcAcqTime1 = _ADC_SINGLECTRL_AT_1CYCLE,
adcAcqTime2 = _ADC_SINGLECTRL_AT_2CYCLES,
adcAcqTime4 = _ADC_SINGLECTRL_AT_4CYCLES,
adcAcqTime8 = _ADC_SINGLECTRL_AT_8CYCLES,
adcAcqTime16 = _ADC_SINGLECTRL_AT_16CYCLES,
adcAcqTime32 = _ADC_SINGLECTRL_AT_32CYCLES,
adcAcqTime64 = _ADC_SINGLECTRL_AT_64CYCLES,
adcAcqTime128 = _ADC_SINGLECTRL_AT_128CYCLES,
adcAcqTime256 = _ADC_SINGLECTRL_AT_256CYCLES
}
enum ADC_EM2ClockConfig_TypeDef {
adcEm2Disabled = 0,
adcEm2ClockOnDemand = ADC_CTRL_ADCCLKMODE_ASYNC | ADC_CTRL_ASYNCCLKEN_ASNEEDED,
adcEm2ClockAlwaysOn = ADC_CTRL_ADCCLKMODE_ASYNC | ADC_CTRL_ASYNCCLKEN_ALWAYSON
}
enum ADC_NegSel_TypeDef {
adcNegSelAPORT0XCH0 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH0,
adcNegSelAPORT0XCH1 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH1,
adcNegSelAPORT0XCH2 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH2,
adcNegSelAPORT0XCH3 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH3,
adcNegSelAPORT0XCH4 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH4,
adcNegSelAPORT0XCH5 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH5,
adcNegSelAPORT0XCH6 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH6,
adcNegSelAPORT0XCH7 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH7,
adcNegSelAPORT0XCH8 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH8,
adcNegSelAPORT0XCH9 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH9,
adcNegSelAPORT0XCH10 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH10,
adcNegSelAPORT0XCH11 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH11,
adcNegSelAPORT0XCH12 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH12,
adcNegSelAPORT0XCH13 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH13,
adcNegSelAPORT0XCH14 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH14,
adcNegSelAPORT0XCH15 = _ADC_SINGLECTRL_NEGSEL_APORT0XCH15,
adcNegSelAPORT0YCH0 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH0,
adcNegSelAPORT0YCH1 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH1,
adcNegSelAPORT0YCH2 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH2,
adcNegSelAPORT0YCH3 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH3,
adcNegSelAPORT0YCH4 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH4,
adcNegSelAPORT0YCH5 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH5,
adcNegSelAPORT0YCH6 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH6,
adcNegSelAPORT0YCH7 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH7,
adcNegSelAPORT0YCH8 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH8,
adcNegSelAPORT0YCH9 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH9,
adcNegSelAPORT0YCH10 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH10,
adcNegSelAPORT0YCH11 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH11,
adcNegSelAPORT0YCH12 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH12,
adcNegSelAPORT0YCH13 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH13,
adcNegSelAPORT0YCH14 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH14,
adcNegSelAPORT0YCH15 = _ADC_SINGLECTRL_NEGSEL_APORT0YCH15,
adcNegSelAPORT1XCH0 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH0,
adcNegSelAPORT1YCH1 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH1,
adcNegSelAPORT1XCH2 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH2,
adcNegSelAPORT1YCH3 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH3,
adcNegSelAPORT1XCH4 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH4,
adcNegSelAPORT1YCH5 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH5,
adcNegSelAPORT1XCH6 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH6,
adcNegSelAPORT1YCH7 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH7,
adcNegSelAPORT1XCH8 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH8,
adcNegSelAPORT1YCH9 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH9,
adcNegSelAPORT1XCH10 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH10,
adcNegSelAPORT1YCH11 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH11,
adcNegSelAPORT1XCH12 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH12,
adcNegSelAPORT1YCH13 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH13,
adcNegSelAPORT1XCH14 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH14,
adcNegSelAPORT1YCH15 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH15,
adcNegSelAPORT1XCH16 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH16,
adcNegSelAPORT1YCH17 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH17,
adcNegSelAPORT1XCH18 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH18,
adcNegSelAPORT1YCH19 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH19,
adcNegSelAPORT1XCH20 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH20,
adcNegSelAPORT1YCH21 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH21,
adcNegSelAPORT1XCH22 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH22,
adcNegSelAPORT1YCH23 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH23,
adcNegSelAPORT1XCH24 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH24,
adcNegSelAPORT1YCH25 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH25,
adcNegSelAPORT1XCH26 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH26,
adcNegSelAPORT1YCH27 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH27,
adcNegSelAPORT1XCH28 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH28,
adcNegSelAPORT1YCH29 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH29,
adcNegSelAPORT1XCH30 = _ADC_SINGLECTRL_NEGSEL_APORT1XCH30,
adcNegSelAPORT1YCH31 = _ADC_SINGLECTRL_NEGSEL_APORT1YCH31,
adcNegSelAPORT2YCH0 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH0,
adcNegSelAPORT2XCH1 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH1,
adcNegSelAPORT2YCH2 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH2,
adcNegSelAPORT2XCH3 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH3,
adcNegSelAPORT2YCH4 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH4,
adcNegSelAPORT2XCH5 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH5,
adcNegSelAPORT2YCH6 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH6,
adcNegSelAPORT2XCH7 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH7,
adcNegSelAPORT2YCH8 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH8,
adcNegSelAPORT2XCH9 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH9,
adcNegSelAPORT2YCH10 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH10,
adcNegSelAPORT2XCH11 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH11,
adcNegSelAPORT2YCH12 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH12,
adcNegSelAPORT2XCH13 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH13,
adcNegSelAPORT2YCH14 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH14,
adcNegSelAPORT2XCH15 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH15,
adcNegSelAPORT2YCH16 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH16,
adcNegSelAPORT2XCH17 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH17,
adcNegSelAPORT2YCH18 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH18,
adcNegSelAPORT2XCH19 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH19,
adcNegSelAPORT2YCH20 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH20,
adcNegSelAPORT2XCH21 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH21,
adcNegSelAPORT2YCH22 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH22,
adcNegSelAPORT2XCH23 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH23,
adcNegSelAPORT2YCH24 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH24,
adcNegSelAPORT2XCH25 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH25,
adcNegSelAPORT2YCH26 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH26,
adcNegSelAPORT2XCH27 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH27,
adcNegSelAPORT2YCH28 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH28,
adcNegSelAPORT2XCH29 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH29,
adcNegSelAPORT2YCH30 = _ADC_SINGLECTRL_NEGSEL_APORT2YCH30,
adcNegSelAPORT2XCH31 = _ADC_SINGLECTRL_NEGSEL_APORT2XCH31,
adcNegSelAPORT3XCH0 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH0,
adcNegSelAPORT3YCH1 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH1,
adcNegSelAPORT3XCH2 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH2,
adcNegSelAPORT3YCH3 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH3,
adcNegSelAPORT3XCH4 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH4,
adcNegSelAPORT3YCH5 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH5,
adcNegSelAPORT3XCH6 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH6,
adcNegSelAPORT3YCH7 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH7,
adcNegSelAPORT3XCH8 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH8,
adcNegSelAPORT3YCH9 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH9,
adcNegSelAPORT3XCH10 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH10,
adcNegSelAPORT3YCH11 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH11,
adcNegSelAPORT3XCH12 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH12,
adcNegSelAPORT3YCH13 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH13,
adcNegSelAPORT3XCH14 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH14,
adcNegSelAPORT3YCH15 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH15,
adcNegSelAPORT3XCH16 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH16,
adcNegSelAPORT3YCH17 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH17,
adcNegSelAPORT3XCH18 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH18,
adcNegSelAPORT3YCH19 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH19,
adcNegSelAPORT3XCH20 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH20,
adcNegSelAPORT3YCH21 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH21,
adcNegSelAPORT3XCH22 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH22,
adcNegSelAPORT3YCH23 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH23,
adcNegSelAPORT3XCH24 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH24,
adcNegSelAPORT3YCH25 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH25,
adcNegSelAPORT3XCH26 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH26,
adcNegSelAPORT3YCH27 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH27,
adcNegSelAPORT3XCH28 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH28,
adcNegSelAPORT3YCH29 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH29,
adcNegSelAPORT3XCH30 = _ADC_SINGLECTRL_NEGSEL_APORT3XCH30,
adcNegSelAPORT3YCH31 = _ADC_SINGLECTRL_NEGSEL_APORT3YCH31,
adcNegSelAPORT4YCH0 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH0,
adcNegSelAPORT4XCH1 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH1,
adcNegSelAPORT4YCH2 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH2,
adcNegSelAPORT4XCH3 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH3,
adcNegSelAPORT4YCH4 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH4,
adcNegSelAPORT4XCH5 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH5,
adcNegSelAPORT4YCH6 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH6,
adcNegSelAPORT4XCH7 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH7,
adcNegSelAPORT4YCH8 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH8,
adcNegSelAPORT4XCH9 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH9,
adcNegSelAPORT4YCH10 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH10,
adcNegSelAPORT4XCH11 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH11,
adcNegSelAPORT4YCH12 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH12,
adcNegSelAPORT4XCH13 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH13,
adcNegSelAPORT4YCH14 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH14,
adcNegSelAPORT4XCH15 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH15,
adcNegSelAPORT4YCH16 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH16,
adcNegSelAPORT4XCH17 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH17,
adcNegSelAPORT4YCH18 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH18,
adcNegSelAPORT4XCH19 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH19,
adcNegSelAPORT4YCH20 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH20,
adcNegSelAPORT4XCH21 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH21,
adcNegSelAPORT4YCH22 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH22,
adcNegSelAPORT4XCH23 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH23,
adcNegSelAPORT4YCH24 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH24,
adcNegSelAPORT4XCH25 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH25,
adcNegSelAPORT4YCH26 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH26,
adcNegSelAPORT4XCH27 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH27,
adcNegSelAPORT4YCH28 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH28,
adcNegSelAPORT4XCH29 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH29,
adcNegSelAPORT4YCH30 = _ADC_SINGLECTRL_NEGSEL_APORT4YCH30,
adcNegSelAPORT4XCH31 = _ADC_SINGLECTRL_NEGSEL_APORT4XCH31,
adcNegSelTESTN = _ADC_SINGLECTRL_NEGSEL_TESTN,
adcNegSelDEFAULT = _ADC_SINGLECTRL_NEGSEL_DEFAULT,
adcNegSelVSS = _ADC_SINGLECTRL_NEGSEL_VSS
}
enum ADC_OvsRateSel_TypeDef {
adcOvsRateSel2 = _ADC_CTRL_OVSRSEL_X2,
adcOvsRateSel4 = _ADC_CTRL_OVSRSEL_X4,
adcOvsRateSel8 = _ADC_CTRL_OVSRSEL_X8,
adcOvsRateSel16 = _ADC_CTRL_OVSRSEL_X16,
adcOvsRateSel32 = _ADC_CTRL_OVSRSEL_X32,
adcOvsRateSel64 = _ADC_CTRL_OVSRSEL_X64,
adcOvsRateSel128 = _ADC_CTRL_OVSRSEL_X128,
adcOvsRateSel256 = _ADC_CTRL_OVSRSEL_X256,
adcOvsRateSel512 = _ADC_CTRL_OVSRSEL_X512,
adcOvsRateSel1024 = _ADC_CTRL_OVSRSEL_X1024,
adcOvsRateSel2048 = _ADC_CTRL_OVSRSEL_X2048,
adcOvsRateSel4096 = _ADC_CTRL_OVSRSEL_X4096
}
enum ADC_PosSel_TypeDef {
adcPosSelAPORT0XCH0 = _ADC_SINGLECTRL_POSSEL_APORT0XCH0,
adcPosSelAPORT0XCH1 = _ADC_SINGLECTRL_POSSEL_APORT0XCH1,
adcPosSelAPORT0XCH2 = _ADC_SINGLECTRL_POSSEL_APORT0XCH2,
adcPosSelAPORT0XCH3 = _ADC_SINGLECTRL_POSSEL_APORT0XCH3,
adcPosSelAPORT0XCH4 = _ADC_SINGLECTRL_POSSEL_APORT0XCH4,
adcPosSelAPORT0XCH5 = _ADC_SINGLECTRL_POSSEL_APORT0XCH5,
adcPosSelAPORT0XCH6 = _ADC_SINGLECTRL_POSSEL_APORT0XCH6,
adcPosSelAPORT0XCH7 = _ADC_SINGLECTRL_POSSEL_APORT0XCH7,
adcPosSelAPORT0XCH8 = _ADC_SINGLECTRL_POSSEL_APORT0XCH8,
adcPosSelAPORT0XCH9 = _ADC_SINGLECTRL_POSSEL_APORT0XCH9,
adcPosSelAPORT0XCH10 = _ADC_SINGLECTRL_POSSEL_APORT0XCH10,
adcPosSelAPORT0XCH11 = _ADC_SINGLECTRL_POSSEL_APORT0XCH11,
adcPosSelAPORT0XCH12 = _ADC_SINGLECTRL_POSSEL_APORT0XCH12,
adcPosSelAPORT0XCH13 = _ADC_SINGLECTRL_POSSEL_APORT0XCH13,
adcPosSelAPORT0XCH14 = _ADC_SINGLECTRL_POSSEL_APORT0XCH14,
adcPosSelAPORT0XCH15 = _ADC_SINGLECTRL_POSSEL_APORT0XCH15,
adcPosSelAPORT0YCH0 = _ADC_SINGLECTRL_POSSEL_APORT0YCH0,
adcPosSelAPORT0YCH1 = _ADC_SINGLECTRL_POSSEL_APORT0YCH1,
adcPosSelAPORT0YCH2 = _ADC_SINGLECTRL_POSSEL_APORT0YCH2,
adcPosSelAPORT0YCH3 = _ADC_SINGLECTRL_POSSEL_APORT0YCH3,
adcPosSelAPORT0YCH4 = _ADC_SINGLECTRL_POSSEL_APORT0YCH4,
adcPosSelAPORT0YCH5 = _ADC_SINGLECTRL_POSSEL_APORT0YCH5,
adcPosSelAPORT0YCH6 = _ADC_SINGLECTRL_POSSEL_APORT0YCH6,
adcPosSelAPORT0YCH7 = _ADC_SINGLECTRL_POSSEL_APORT0YCH7,
adcPosSelAPORT0YCH8 = _ADC_SINGLECTRL_POSSEL_APORT0YCH8,
adcPosSelAPORT0YCH9 = _ADC_SINGLECTRL_POSSEL_APORT0YCH9,
adcPosSelAPORT0YCH10 = _ADC_SINGLECTRL_POSSEL_APORT0YCH10,
adcPosSelAPORT0YCH11 = _ADC_SINGLECTRL_POSSEL_APORT0YCH11,
adcPosSelAPORT0YCH12 = _ADC_SINGLECTRL_POSSEL_APORT0YCH12,
adcPosSelAPORT0YCH13 = _ADC_SINGLECTRL_POSSEL_APORT0YCH13,
adcPosSelAPORT0YCH14 = _ADC_SINGLECTRL_POSSEL_APORT0YCH14,
adcPosSelAPORT0YCH15 = _ADC_SINGLECTRL_POSSEL_APORT0YCH15,
adcPosSelAPORT1XCH0 = _ADC_SINGLECTRL_POSSEL_APORT1XCH0,
adcPosSelAPORT1YCH1 = _ADC_SINGLECTRL_POSSEL_APORT1YCH1,
adcPosSelAPORT1XCH2 = _ADC_SINGLECTRL_POSSEL_APORT1XCH2,
adcPosSelAPORT1YCH3 = _ADC_SINGLECTRL_POSSEL_APORT1YCH3,
adcPosSelAPORT1XCH4 = _ADC_SINGLECTRL_POSSEL_APORT1XCH4,
adcPosSelAPORT1YCH5 = _ADC_SINGLECTRL_POSSEL_APORT1YCH5,
adcPosSelAPORT1XCH6 = _ADC_SINGLECTRL_POSSEL_APORT1XCH6,
adcPosSelAPORT1YCH7 = _ADC_SINGLECTRL_POSSEL_APORT1YCH7,
adcPosSelAPORT1XCH8 = _ADC_SINGLECTRL_POSSEL_APORT1XCH8,
adcPosSelAPORT1YCH9 = _ADC_SINGLECTRL_POSSEL_APORT1YCH9,
adcPosSelAPORT1XCH10 = _ADC_SINGLECTRL_POSSEL_APORT1XCH10,
adcPosSelAPORT1YCH11 = _ADC_SINGLECTRL_POSSEL_APORT1YCH11,
adcPosSelAPORT1XCH12 = _ADC_SINGLECTRL_POSSEL_APORT1XCH12,
adcPosSelAPORT1YCH13 = _ADC_SINGLECTRL_POSSEL_APORT1YCH13,
adcPosSelAPORT1XCH14 = _ADC_SINGLECTRL_POSSEL_APORT1XCH14,
adcPosSelAPORT1YCH15 = _ADC_SINGLECTRL_POSSEL_APORT1YCH15,
adcPosSelAPORT1XCH16 = _ADC_SINGLECTRL_POSSEL_APORT1XCH16,
adcPosSelAPORT1YCH17 = _ADC_SINGLECTRL_POSSEL_APORT1YCH17,
adcPosSelAPORT1XCH18 = _ADC_SINGLECTRL_POSSEL_APORT1XCH18,
adcPosSelAPORT1YCH19 = _ADC_SINGLECTRL_POSSEL_APORT1YCH19,
adcPosSelAPORT1XCH20 = _ADC_SINGLECTRL_POSSEL_APORT1XCH20,
adcPosSelAPORT1YCH21 = _ADC_SINGLECTRL_POSSEL_APORT1YCH21,
adcPosSelAPORT1XCH22 = _ADC_SINGLECTRL_POSSEL_APORT1XCH22,
adcPosSelAPORT1YCH23 = _ADC_SINGLECTRL_POSSEL_APORT1YCH23,
adcPosSelAPORT1XCH24 = _ADC_SINGLECTRL_POSSEL_APORT1XCH24,
adcPosSelAPORT1YCH25 = _ADC_SINGLECTRL_POSSEL_APORT1YCH25,
adcPosSelAPORT1XCH26 = _ADC_SINGLECTRL_POSSEL_APORT1XCH26,
adcPosSelAPORT1YCH27 = _ADC_SINGLECTRL_POSSEL_APORT1YCH27,
adcPosSelAPORT1XCH28 = _ADC_SINGLECTRL_POSSEL_APORT1XCH28,
adcPosSelAPORT1YCH29 = _ADC_SINGLECTRL_POSSEL_APORT1YCH29,
adcPosSelAPORT1XCH30 = _ADC_SINGLECTRL_POSSEL_APORT1XCH30,
adcPosSelAPORT1YCH31 = _ADC_SINGLECTRL_POSSEL_APORT1YCH31,
adcPosSelAPORT2YCH0 = _ADC_SINGLECTRL_POSSEL_APORT2YCH0,
adcPosSelAPORT2XCH1 = _ADC_SINGLECTRL_POSSEL_APORT2XCH1,
adcPosSelAPORT2YCH2 = _ADC_SINGLECTRL_POSSEL_APORT2YCH2,
adcPosSelAPORT2XCH3 = _ADC_SINGLECTRL_POSSEL_APORT2XCH3,
adcPosSelAPORT2YCH4 = _ADC_SINGLECTRL_POSSEL_APORT2YCH4,
adcPosSelAPORT2XCH5 = _ADC_SINGLECTRL_POSSEL_APORT2XCH5,
adcPosSelAPORT2YCH6 = _ADC_SINGLECTRL_POSSEL_APORT2YCH6,
adcPosSelAPORT2XCH7 = _ADC_SINGLECTRL_POSSEL_APORT2XCH7,
adcPosSelAPORT2YCH8 = _ADC_SINGLECTRL_POSSEL_APORT2YCH8,
adcPosSelAPORT2XCH9 = _ADC_SINGLECTRL_POSSEL_APORT2XCH9,
adcPosSelAPORT2YCH10 = _ADC_SINGLECTRL_POSSEL_APORT2YCH10,
adcPosSelAPORT2XCH11 = _ADC_SINGLECTRL_POSSEL_APORT2XCH11,
adcPosSelAPORT2YCH12 = _ADC_SINGLECTRL_POSSEL_APORT2YCH12,
adcPosSelAPORT2XCH13 = _ADC_SINGLECTRL_POSSEL_APORT2XCH13,
adcPosSelAPORT2YCH14 = _ADC_SINGLECTRL_POSSEL_APORT2YCH14,
adcPosSelAPORT2XCH15 = _ADC_SINGLECTRL_POSSEL_APORT2XCH15,
adcPosSelAPORT2YCH16 = _ADC_SINGLECTRL_POSSEL_APORT2YCH16,
adcPosSelAPORT2XCH17 = _ADC_SINGLECTRL_POSSEL_APORT2XCH17,
adcPosSelAPORT2YCH18 = _ADC_SINGLECTRL_POSSEL_APORT2YCH18,
adcPosSelAPORT2XCH19 = _ADC_SINGLECTRL_POSSEL_APORT2XCH19,
adcPosSelAPORT2YCH20 = _ADC_SINGLECTRL_POSSEL_APORT2YCH20,
adcPosSelAPORT2XCH21 = _ADC_SINGLECTRL_POSSEL_APORT2XCH21,
adcPosSelAPORT2YCH22 = _ADC_SINGLECTRL_POSSEL_APORT2YCH22,
adcPosSelAPORT2XCH23 = _ADC_SINGLECTRL_POSSEL_APORT2XCH23,
adcPosSelAPORT2YCH24 = _ADC_SINGLECTRL_POSSEL_APORT2YCH24,
adcPosSelAPORT2XCH25 = _ADC_SINGLECTRL_POSSEL_APORT2XCH25,
adcPosSelAPORT2YCH26 = _ADC_SINGLECTRL_POSSEL_APORT2YCH26,
adcPosSelAPORT2XCH27 = _ADC_SINGLECTRL_POSSEL_APORT2XCH27,
adcPosSelAPORT2YCH28 = _ADC_SINGLECTRL_POSSEL_APORT2YCH28,
adcPosSelAPORT2XCH29 = _ADC_SINGLECTRL_POSSEL_APORT2XCH29,
adcPosSelAPORT2YCH30 = _ADC_SINGLECTRL_POSSEL_APORT2YCH30,
adcPosSelAPORT2XCH31 = _ADC_SINGLECTRL_POSSEL_APORT2XCH31,
adcPosSelAPORT3XCH0 = _ADC_SINGLECTRL_POSSEL_APORT3XCH0,
adcPosSelAPORT3YCH1 = _ADC_SINGLECTRL_POSSEL_APORT3YCH1,
adcPosSelAPORT3XCH2 = _ADC_SINGLECTRL_POSSEL_APORT3XCH2,
adcPosSelAPORT3YCH3 = _ADC_SINGLECTRL_POSSEL_APORT3YCH3,
adcPosSelAPORT3XCH4 = _ADC_SINGLECTRL_POSSEL_APORT3XCH4,
adcPosSelAPORT3YCH5 = _ADC_SINGLECTRL_POSSEL_APORT3YCH5,
adcPosSelAPORT3XCH6 = _ADC_SINGLECTRL_POSSEL_APORT3XCH6,
adcPosSelAPORT3YCH7 = _ADC_SINGLECTRL_POSSEL_APORT3YCH7,
adcPosSelAPORT3XCH8 = _ADC_SINGLECTRL_POSSEL_APORT3XCH8,
adcPosSelAPORT3YCH9 = _ADC_SINGLECTRL_POSSEL_APORT3YCH9,
adcPosSelAPORT3XCH10 = _ADC_SINGLECTRL_POSSEL_APORT3XCH10,
adcPosSelAPORT3YCH11 = _ADC_SINGLECTRL_POSSEL_APORT3YCH11,
adcPosSelAPORT3XCH12 = _ADC_SINGLECTRL_POSSEL_APORT3XCH12,
adcPosSelAPORT3YCH13 = _ADC_SINGLECTRL_POSSEL_APORT3YCH13,
adcPosSelAPORT3XCH14 = _ADC_SINGLECTRL_POSSEL_APORT3XCH14,
adcPosSelAPORT3YCH15 = _ADC_SINGLECTRL_POSSEL_APORT3YCH15,
adcPosSelAPORT3XCH16 = _ADC_SINGLECTRL_POSSEL_APORT3XCH16,
adcPosSelAPORT3YCH17 = _ADC_SINGLECTRL_POSSEL_APORT3YCH17,
adcPosSelAPORT3XCH18 = _ADC_SINGLECTRL_POSSEL_APORT3XCH18,
adcPosSelAPORT3YCH19 = _ADC_SINGLECTRL_POSSEL_APORT3YCH19,
adcPosSelAPORT3XCH20 = _ADC_SINGLECTRL_POSSEL_APORT3XCH20,
adcPosSelAPORT3YCH21 = _ADC_SINGLECTRL_POSSEL_APORT3YCH21,
adcPosSelAPORT3XCH22 = _ADC_SINGLECTRL_POSSEL_APORT3XCH22,
adcPosSelAPORT3YCH23 = _ADC_SINGLECTRL_POSSEL_APORT3YCH23,
adcPosSelAPORT3XCH24 = _ADC_SINGLECTRL_POSSEL_APORT3XCH24,
adcPosSelAPORT3YCH25 = _ADC_SINGLECTRL_POSSEL_APORT3YCH25,
adcPosSelAPORT3XCH26 = _ADC_SINGLECTRL_POSSEL_APORT3XCH26,
adcPosSelAPORT3YCH27 = _ADC_SINGLECTRL_POSSEL_APORT3YCH27,
adcPosSelAPORT3XCH28 = _ADC_SINGLECTRL_POSSEL_APORT3XCH28,
adcPosSelAPORT3YCH29 = _ADC_SINGLECTRL_POSSEL_APORT3YCH29,
adcPosSelAPORT3XCH30 = _ADC_SINGLECTRL_POSSEL_APORT3XCH30,
adcPosSelAPORT3YCH31 = _ADC_SINGLECTRL_POSSEL_APORT3YCH31,
adcPosSelAPORT4YCH0 = _ADC_SINGLECTRL_POSSEL_APORT4YCH0,
adcPosSelAPORT4XCH1 = _ADC_SINGLECTRL_POSSEL_APORT4XCH1,
adcPosSelAPORT4YCH2 = _ADC_SINGLECTRL_POSSEL_APORT4YCH2,
adcPosSelAPORT4XCH3 = _ADC_SINGLECTRL_POSSEL_APORT4XCH3,
adcPosSelAPORT4YCH4 = _ADC_SINGLECTRL_POSSEL_APORT4YCH4,
adcPosSelAPORT4XCH5 = _ADC_SINGLECTRL_POSSEL_APORT4XCH5,
adcPosSelAPORT4YCH6 = _ADC_SINGLECTRL_POSSEL_APORT4YCH6,
adcPosSelAPORT4XCH7 = _ADC_SINGLECTRL_POSSEL_APORT4XCH7,
adcPosSelAPORT4YCH8 = _ADC_SINGLECTRL_POSSEL_APORT4YCH8,
adcPosSelAPORT4XCH9 = _ADC_SINGLECTRL_POSSEL_APORT4XCH9,
adcPosSelAPORT4YCH10 = _ADC_SINGLECTRL_POSSEL_APORT4YCH10,
adcPosSelAPORT4XCH11 = _ADC_SINGLECTRL_POSSEL_APORT4XCH11,
adcPosSelAPORT4YCH12 = _ADC_SINGLECTRL_POSSEL_APORT4YCH12,
adcPosSelAPORT4XCH13 = _ADC_SINGLECTRL_POSSEL_APORT4XCH13,
adcPosSelAPORT4YCH14 = _ADC_SINGLECTRL_POSSEL_APORT4YCH14,
adcPosSelAPORT4XCH15 = _ADC_SINGLECTRL_POSSEL_APORT4XCH15,
adcPosSelAPORT4YCH16 = _ADC_SINGLECTRL_POSSEL_APORT4YCH16,
adcPosSelAPORT4XCH17 = _ADC_SINGLECTRL_POSSEL_APORT4XCH17,
adcPosSelAPORT4YCH18 = _ADC_SINGLECTRL_POSSEL_APORT4YCH18,
adcPosSelAPORT4XCH19 = _ADC_SINGLECTRL_POSSEL_APORT4XCH19,
adcPosSelAPORT4YCH20 = _ADC_SINGLECTRL_POSSEL_APORT4YCH20,
adcPosSelAPORT4XCH21 = _ADC_SINGLECTRL_POSSEL_APORT4XCH21,
adcPosSelAPORT4YCH22 = _ADC_SINGLECTRL_POSSEL_APORT4YCH22,
adcPosSelAPORT4XCH23 = _ADC_SINGLECTRL_POSSEL_APORT4XCH23,
adcPosSelAPORT4YCH24 = _ADC_SINGLECTRL_POSSEL_APORT4YCH24,
adcPosSelAPORT4XCH25 = _ADC_SINGLECTRL_POSSEL_APORT4XCH25,
adcPosSelAPORT4YCH26 = _ADC_SINGLECTRL_POSSEL_APORT4YCH26,
adcPosSelAPORT4XCH27 = _ADC_SINGLECTRL_POSSEL_APORT4XCH27,
adcPosSelAPORT4YCH28 = _ADC_SINGLECTRL_POSSEL_APORT4YCH28,
adcPosSelAPORT4XCH29 = _ADC_SINGLECTRL_POSSEL_APORT4XCH29,
adcPosSelAPORT4YCH30 = _ADC_SINGLECTRL_POSSEL_APORT4YCH30,
adcPosSelAPORT4XCH31 = _ADC_SINGLECTRL_POSSEL_APORT4XCH31,
adcPosSelAVDD = _ADC_SINGLECTRL_POSSEL_AVDD,
adcPosSelBUVDD = _ADC_SINGLECTRL_POSSEL_BUVDD,
adcPosSelDVDD = _ADC_SINGLECTRL_POSSEL_DVDD,
adcPosSelPAVDD = _ADC_SINGLECTRL_POSSEL_PAVDD,
adcPosSelDECOUPLE = _ADC_SINGLECTRL_POSSEL_DECOUPLE,
adcPosSelIOVDD = _ADC_SINGLECTRL_POSSEL_IOVDD,
adcPosSelIOVDD1 = _ADC_SINGLECTRL_POSSEL_IOVDD1,
adcPosSelVSP = _ADC_SINGLECTRL_POSSEL_VSP,
adcPosSelOPA2 = _ADC_SINGLECTRL_POSSEL_OPA2,
adcPosSelTEMP = _ADC_SINGLECTRL_POSSEL_TEMP,
adcPosSelDAC0OUT0 = _ADC_SINGLECTRL_POSSEL_DAC0OUT0,
adcPosSelR5VOUT = _ADC_SINGLECTRL_POSSEL_R5VOUT,
adcPosSelSP1 = _ADC_SINGLECTRL_POSSEL_SP1,
adcPosSelSP2 = _ADC_SINGLECTRL_POSSEL_SP2,
adcPosSelDAC0OUT1 = _ADC_SINGLECTRL_POSSEL_DAC0OUT1,
adcPosSelSUBLSB = _ADC_SINGLECTRL_POSSEL_SUBLSB,
adcPosSelOPA3 = _ADC_SINGLECTRL_POSSEL_OPA3,
adcPosSelDEFAULT = _ADC_SINGLECTRL_POSSEL_DEFAULT,
adcPosSelVSS = _ADC_SINGLECTRL_POSSEL_VSS
}
enum ADC_PRSSEL_TypeDef {
adcPRSSELCh0 = _ADC_SINGLECTRLX_PRSSEL_PRSCH0,
adcPRSSELCh1 = _ADC_SINGLECTRLX_PRSSEL_PRSCH1,
adcPRSSELCh2 = _ADC_SINGLECTRLX_PRSSEL_PRSCH2,
adcPRSSELCh3 = _ADC_SINGLECTRLX_PRSSEL_PRSCH3,
adcPRSSELCh4 = _ADC_SINGLECTRLX_PRSSEL_PRSCH4,
adcPRSSELCh5 = _ADC_SINGLECTRLX_PRSSEL_PRSCH5,
adcPRSSELCh6 = _ADC_SINGLECTRLX_PRSSEL_PRSCH6,
adcPRSSELCh7 = _ADC_SINGLECTRLX_PRSSEL_PRSCH7,
adcPRSSELCh8 = _ADC_SINGLECTRLX_PRSSEL_PRSCH8,
adcPRSSELCh9 = _ADC_SINGLECTRLX_PRSSEL_PRSCH9,
adcPRSSELCh10 = _ADC_SINGLECTRLX_PRSSEL_PRSCH10,
adcPRSSELCh11 = _ADC_SINGLECTRLX_PRSSEL_PRSCH11,
adcPRSSELCh12 = _ADC_SINGLECTRLX_PRSSEL_PRSCH12,
adcPRSSELCh13 = _ADC_SINGLECTRLX_PRSSEL_PRSCH13,
adcPRSSELCh14 = _ADC_SINGLECTRLX_PRSSEL_PRSCH14,
adcPRSSELCh15 = _ADC_SINGLECTRLX_PRSSEL_PRSCH15
}
enum ADC_Ref_TypeDef {
adcRef1V25 = _ADC_SINGLECTRL_REF_1V25,
adcRef2V5 = _ADC_SINGLECTRL_REF_2V5,
adcRefVDD = _ADC_SINGLECTRL_REF_VDD,
adcRef5V = _ADC_SINGLECTRL_REF_5V,
adcRefExtSingle = _ADC_SINGLECTRL_REF_EXTSINGLE,
adcRef2xExtDiff = _ADC_SINGLECTRL_REF_2XEXTDIFF,
adcRef2xVDD = _ADC_SINGLECTRL_REF_2XVDD,
adcRefVBGR = _ADC_SINGLECTRLX_VREFSEL_VBGR | ADC_CTRLX_VREFSEL_REG,
adcRefVddxAtt = _ADC_SINGLECTRLX_VREFSEL_VDDXWATT | ADC_CTRLX_VREFSEL_REG,
adcRefVPxAtt = _ADC_SINGLECTRLX_VREFSEL_VREFPWATT | ADC_CTRLX_VREFSEL_REG,
adcRefP = _ADC_SINGLECTRLX_VREFSEL_VREFP | ADC_CTRLX_VREFSEL_REG,
adcRefVEntropy = _ADC_SINGLECTRLX_VREFSEL_VENTROPY | ADC_CTRLX_VREFSEL_REG,
adcRefVPNxAtt = _ADC_SINGLECTRLX_VREFSEL_VREFPNWATT | ADC_CTRLX_VREFSEL_REG,
adcRefPN = _ADC_SINGLECTRLX_VREFSEL_VREFPN | ADC_CTRLX_VREFSEL_REG
}
enum ADC_Res_TypeDef {
adcRes12Bit = _ADC_SINGLECTRL_RES_12BIT,
adcRes8Bit = _ADC_SINGLECTRL_RES_8BIT,
adcRes6Bit = _ADC_SINGLECTRL_RES_6BIT,
adcResOVS = _ADC_SINGLECTRL_RES_OVS
}
enum ADC_ScanInputGroup_TypeDef {
adcScanInputGroup0 = 0,
adcScanInputGroup1 = 1,
adcScanInputGroup2 = 2,
adcScanInputGroup3 = 3
}
enum ADC_ScanNegInput_TypeDef {
adcScanNegInput1 = 1,
adcScanNegInput3 = 3,
adcScanNegInput5 = 5,
adcScanNegInput7 = 7,
adcScanNegInput8 = 8,
adcScanNegInput10 = 10,
adcScanNegInput12 = 12,
adcScanNegInput14 = 14,
adcScanNegInputDefault = 0xFF
}
enum ADC_Start_TypeDef {
adcStartSingle = ADC_CMD_SINGLESTART,
adcStartScan = ADC_CMD_SCANSTART,
adcStartScanAndSingle = ADC_CMD_SCANSTART | ADC_CMD_SINGLESTART
}
enum ADC_Warmup_TypeDef {
adcWarmupNormal = _ADC_CTRL_WARMUPMODE_NORMAL,
adcWarmupKeepInStandby = _ADC_CTRL_WARMUPMODE_KEEPINSTANDBY,
adcWarmupKeepInSlowAcq = _ADC_CTRL_WARMUPMODE_KEEPINSLOWACC,
adcWarmupKeepADCWarm = _ADC_CTRL_WARMUPMODE_KEEPADCWARM
}

Functions

uint32_t ADC_DataIdScanGet (ADC_TypeDef *adc, uint32_t *scanId)
Get a scan result and scan select ID.
__STATIC_INLINE uint32_t ADC_DataScanGet (ADC_TypeDef *adc)
Get a scan result.
__STATIC_INLINE uint32_t ADC_DataScanPeek (ADC_TypeDef *adc)
Peek scan result.
__STATIC_INLINE uint32_t ADC_DataSingleGet (ADC_TypeDef *adc)
Get a single conversion result.
__STATIC_INLINE uint32_t ADC_DataSinglePeek (ADC_TypeDef *adc)
Peek single conversion result.
void ADC_Init (ADC_TypeDef *adc, const ADC_Init_TypeDef *init)
Initialize ADC.
void ADC_InitScan (ADC_TypeDef *adc, const ADC_InitScan_TypeDef *init)
Initialize the ADC scan sequence.
void ADC_InitSingle (ADC_TypeDef *adc, const ADC_InitSingle_TypeDef *init)
Initialize the single ADC sample conversion.
__STATIC_INLINE void ADC_IntClear (ADC_TypeDef *adc, uint32_t flags)
Clear one or more pending ADC interrupts.
__STATIC_INLINE void ADC_IntDisable (ADC_TypeDef *adc, uint32_t flags)
Disable one or more ADC interrupts.
__STATIC_INLINE void ADC_IntEnable (ADC_TypeDef *adc, uint32_t flags)
Enable one or more ADC interrupts.
__STATIC_INLINE uint32_t ADC_IntGet (ADC_TypeDef *adc)
Get pending ADC interrupt flags.
__STATIC_INLINE uint32_t ADC_IntGetEnabled (ADC_TypeDef *adc)
Get enabled and pending ADC interrupt flags. Useful for handling more interrupt sources in the same interrupt handler.
__STATIC_INLINE void ADC_IntSet (ADC_TypeDef *adc, uint32_t flags)
Set one or more pending ADC interrupts from software.
uint8_t ADC_PrescaleCalc (uint32_t adcFreq, uint32_t hfperFreq)
Calculate the prescaler value used to determine the ADC clock.
void ADC_Reset (ADC_TypeDef *adc)
Reset ADC to a state that it was in after a hardware reset.
uint32_t ADC_ScanDifferentialInputAdd ( ADC_InitScan_TypeDef *scanInit, ADC_ScanInputGroup_TypeDef inputGroup, ADC_PosSel_TypeDef posSel, ADC_ScanNegInput_TypeDef negInput)
Initialize the ADC scan differential input configuration.
void ADC_ScanInputClear ( ADC_InitScan_TypeDef *scanInit)
Clear ADC scan input configuration.
uint32_t ADC_ScanSingleEndedInputAdd ( ADC_InitScan_TypeDef *scanInit, ADC_ScanInputGroup_TypeDef inputGroup, ADC_PosSel_TypeDef singleEndedSel)
Initialize ADC scan single-ended input configuration.
__STATIC_INLINE void ADC_Start (ADC_TypeDef *adc, ADC_Start_TypeDef cmd)
Start scan sequence and/or single conversion.
uint8_t ADC_TimebaseCalc (uint32_t hfperFreq)
Calculate a timebase value to get a timebase providing at least 1 us.

Macro Definition Documentation

#define ADC_CTRLX_VREFSEL_REG   0x80UL

Single and scan mode voltage references. Using unshifted enumerations and or in ADC_CTRLX_VREFSEL_REG to select the extension register CTRLX_VREFSEL.

Definition at line 188 of file em_adc.h .

Referenced by ADC_InitScan() , and ADC_InitSingle() .

#define ADC_INIT_DEFAULT
Value:
{ \
adcOvsRateSel2, /* 2x oversampling (if enabled). */ \
adcWarmupNormal, /* ADC shutdown after each conversion. */ \
_ADC_CTRL_TIMEBASE_DEFAULT, /* Use hardware default value. */ \
_ADC_CTRL_PRESC_DEFAULT, /* Use hardware default value. */ \
false, /* Do not use tailgate. */ \
adcEm2Disabled /* ADC disabled in EM2. */ \
}

Default configuration for ADC initialization structure.

Definition at line 840 of file em_adc.h .

Referenced by adcInit() , MIC_init() , and TOUCH_Init() .

#define ADC_INITSCAN_DEFAULT
Value:
{ \
adcPRSSELCh0, /* PRS ch0 (if enabled). */ \
adcAcqTime1, /* 1 ADC_CLK cycle acquisition time. */ \
adcRef1V25, /* 1.25 V internal reference. */ \
adcRes12Bit, /* 12 bit resolution. */ \
{ \
/* Initialization should match values set by @ref ADC_ScanInputClear(). */ \
ADC_SCANINPUTSEL_NONE, /* Default ADC inputs. */ \
0, /* Default input mask (all off). */ \
_ADC_SCANNEGSEL_RESETVALUE, /* Default negative select for positive terminal. */ \
}, \
false, /* Single-ended input. */ \
false, /* PRS disabled. */ \
false, /* Right adjust. */ \
false, /* Deactivate conversion after one scan sequence. */ \
false, /* No EM2 DMA wakeup from scan FIFO DVL. */ \
false /* Discard new data on full FIFO. */ \
}

Default configuration for ADC scan initialization structure.

Definition at line 942 of file em_adc.h .

Referenced by MIC_init() .

#define ADC_INITSINGLE_DEFAULT
Value:
{ \
adcPRSSELCh0, /* PRS ch0 (if enabled). */ \
adcAcqTime1, /* 1 ADC_CLK cycle acquisition time. */ \
adcRef1V25, /* 1.25 V internal reference. */ \
adcRes12Bit, /* 12 bit resolution. */ \
adcPosSelAPORT0XCH0, /* Select node BUS0XCH0 as posSel */ \
adcNegSelVSS, /* Select VSS as negSel */ \
false, /* Single-ended input. */ \
false, /* PRS disabled. */ \
false, /* Right adjust. */ \
false, /* Deactivate conversion after one scan sequence. */ \
false, /* No EM2 DMA wakeup from single FIFO DVL */ \
false /* Discard new data on full FIFO. */ \
}

Default configuration for ADC single conversion initialization structure.

Definition at line 1041 of file em_adc.h .

Referenced by adcInit() .

#define ADC_SCANINPUTSEL_NONE
Value:
((ADC_SCANINPUTSEL_GROUP_NONE \
<< _ADC_SCANINPUTSEL_INPUT0TO7SEL_SHIFT) \
| (ADC_SCANINPUTSEL_GROUP_NONE \
<< _ADC_SCANINPUTSEL_INPUT8TO15SEL_SHIFT) \
| (ADC_SCANINPUTSEL_GROUP_NONE \
<< _ADC_SCANINPUTSEL_INPUT16TO23SEL_SHIFT) \
| (ADC_SCANINPUTSEL_GROUP_NONE \
<< _ADC_SCANINPUTSEL_INPUT24TO31SEL_SHIFT))

Definition at line 699 of file em_adc.h .

Enumeration Type Documentation

Acquisition time (in ADC clock cycles).

Enumerator
adcAcqTime1

1 clock cycle.

adcAcqTime2

2 clock cycles.

adcAcqTime4

4 clock cycles.

adcAcqTime8

8 clock cycles.

adcAcqTime16

16 clock cycles.

adcAcqTime32

32 clock cycles.

adcAcqTime64

64 clock cycles.

adcAcqTime128

128 clock cycles.

adcAcqTime256

256 clock cycles.

Definition at line 59 of file em_adc.h .

ADC EM2 clock configuration.

Definition at line 771 of file em_adc.h .

Negative input selection for single and scan conversion.

Definition at line 521 of file em_adc.h .

Oversample rate select.

Enumerator
adcOvsRateSel2

2 samples per conversion result.

adcOvsRateSel4

4 samples per conversion result.

adcOvsRateSel8

8 samples per conversion result.

adcOvsRateSel16

16 samples per conversion result.

adcOvsRateSel32

32 samples per conversion result.

adcOvsRateSel64

64 samples per conversion result.

adcOvsRateSel128

128 samples per conversion result.

adcOvsRateSel256

256 samples per conversion result.

adcOvsRateSel512

512 samples per conversion result.

adcOvsRateSel1024

1024 samples per conversion result.

adcOvsRateSel2048

2048 samples per conversion result.

adcOvsRateSel4096

4096 samples per conversion result.

Definition at line 86 of file em_adc.h .

Positive input selection for single and scan coversion.

Definition at line 330 of file em_adc.h .

Peripheral Reflex System signal used to trigger a single sample.

Enumerator
adcPRSSELCh0

PRS channel 0.

adcPRSSELCh1

PRS channel 1.

adcPRSSELCh2

PRS channel 2.

adcPRSSELCh3

PRS channel 3.

adcPRSSELCh4

PRS channel 4.

adcPRSSELCh5

PRS channel 5.

adcPRSSELCh6

PRS channel 6.

adcPRSSELCh7

PRS channel 7.

adcPRSSELCh8

PRS channel 8.

adcPRSSELCh9

PRS channel 9.

adcPRSSELCh10

PRS channel 10.

adcPRSSELCh11

PRS channel 11.

adcPRSSELCh12

PRS channel 12.

adcPRSSELCh13

PRS channel 13.

adcPRSSELCh14

PRS channel 14.

adcPRSSELCh15

PRS channel 15.

Definition at line 125 of file em_adc.h .

Enumerator
adcRef1V25

Internal 1.25 V reference.

adcRef2V5

Internal 2.5 V reference.

adcRefVDD

Buffered VDD.

adcRef5V

Internal 5 V reference.

adcRefExtSingle

Single-ended external reference from pin 6.

adcRef2xExtDiff

Differential external reference from pin 6 and 7.

adcRef2xVDD

Unbuffered 2xVDD.

adcRefVBGR

Custom VFS: Internal Bandgap reference.

adcRefVddxAtt

Custom VFS: Scaled AVDD: AVDD * VREFATT.

adcRefVPxAtt

Custom VFS: Scaled singled ended external reference from pin 6: VREFP * VREFATT.

adcRefP

Custom VFS: Raw single-ended external reference from pin 6.

adcRefVEntropy

Custom VFS: Special mode for entropy generation

adcRefVPNxAtt

Custom VFS: Scaled differential external Vref from pin 6 and 7: (VREFP - VREFN) * VREFATT.

adcRefPN

Custom VFS: Raw differential external Vref from pin 6 and 7: VREFP - VREFN.

Definition at line 190 of file em_adc.h .

Sample resolution.

Enumerator
adcRes12Bit

12 bit sampling.

adcRes8Bit

8 bit sampling.

adcRes6Bit

6 bit sampling.

adcResOVS

Oversampling.

Definition at line 266 of file em_adc.h .

ADC start command.

Enumerator
adcStartSingle

Start a single conversion.

adcStartScan

Start a scan sequence.

adcStartScanAndSingle

Start a scan sequence and single conversion, typically used when tailgating a single conversion after a scan sequence.

Definition at line 723 of file em_adc.h .

Warm-up mode.

Enumerator
adcWarmupNormal

ADC shutdown after each conversion.

adcWarmupKeepInStandby

ADC is kept in standby mode between conversions. 1 us warmup time needed before the next conversion.

adcWarmupKeepInSlowAcq

ADC is kept in slow acquisition mode between conversions. 1 us warmup time needed before the next conversion.

adcWarmupKeepADCWarm

ADC and reference selected for scan mode kept at warmup allowing continuous conversion.

Definition at line 738 of file em_adc.h .

Function Documentation

uint32_t ADC_DataIdScanGet ( ADC_TypeDef * adc,
uint32_t * scanId
)

Get a scan result and scan select ID.

Note
Only use if scan data valid. This function does not check the DV flag. The return value is meant to be used as an index for the scan select ID.
Parameters
[in] adc A pointer to the ADC peripheral register block.
[out] scanId A scan select ID of the first data in the scan FIFO.
Returns
The first scan data in the scan FIFO.

Definition at line 978 of file em_adc.c .

__STATIC_INLINE uint32_t ADC_DataScanGet ( ADC_TypeDef * adc )

Get a scan result.

Note
Check data valid flag before calling this function.
Parameters
[in] adc A pointer to the ADC peripheral register block.
Returns
Scan conversion data.

Definition at line 1111 of file em_adc.h .

__STATIC_INLINE uint32_t ADC_DataScanPeek ( ADC_TypeDef * adc )

Peek scan result.

Note
Check data valid flag before calling this function.
Parameters
[in] adc A pointer to the ADC peripheral register block.
Returns
Scan conversion data.

Definition at line 1129 of file em_adc.h .

__STATIC_INLINE uint32_t ADC_DataSingleGet ( ADC_TypeDef * adc )

Get a single conversion result.

Note
Check data valid flag before calling this function.
Parameters
[in] adc A pointer to the ADC peripheral register block.
Returns
Single conversion data.

Definition at line 1075 of file em_adc.h .

Referenced by ADC0_IRQHandler() , and getAdcSample() .

__STATIC_INLINE uint32_t ADC_DataSinglePeek ( ADC_TypeDef * adc )

Peek single conversion result.

Note
Check data valid flag before calling this function.
Parameters
[in] adc A pointer to the ADC peripheral register block.
Returns
Single conversion data.

Definition at line 1093 of file em_adc.h .

void ADC_Init ( ADC_TypeDef * adc,
const ADC_Init_TypeDef * init
)

Initialize ADC.

Initializes common parts for both single conversion and scan sequence. In addition, single and/or scan control configuration must be done. See ADC_InitSingle() and ADC_InitScan() respectively. For ADC architectures with the ADCn->SCANINPUTSEL register, use ADC_ScanSingleEndedInputAdd() to configure single-ended scan inputs or ADC_ScanDifferentialInputAdd() to configure differential scan inputs. ADC_ScanInputClear() is also provided for applications that need to update the input configuration.

Note
This function will stop any ongoing conversion.
Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] init A pointer to the ADC initialization structure.

Definition at line 379 of file em_adc.c .

References ADC_IntClear() , ADC_PrescaleCalc() , BUS_RegMaskedWrite() , CMU_ClockFreqGet() , cmuClock_ADC0 , cmuClock_ADC0ASYNC , cmuClock_ADC1 , cmuClock_ADC1ASYNC , ADC_Init_TypeDef::em2ClockConfig , ADC_Init_TypeDef::ovsRateSel , ADC_Init_TypeDef::prescale , ADC_Init_TypeDef::tailgate , ADC_Init_TypeDef::timebase , and ADC_Init_TypeDef::warmUpMode .

Referenced by adcInit() , MIC_init() , and TOUCH_Init() .

void ADC_InitScan ( ADC_TypeDef * adc,
const ADC_InitScan_TypeDef * init
)

Initialize the ADC scan sequence.

See ADC_Start() for starting a scan sequence.

When selecting an external reference, the gain and offset calibration must be set explicitly (CAL register). For other references, the calibration is updated with values defined during manufacturing. For ADC architectures with the ADCn->SCANINPUTSEL register, use ADC_ScanSingleEndedInputAdd() to configure single-ended scan inputs or ADC_ScanDifferentialInputAdd() to configure differential scan inputs. ADC_ScanInputClear() is also provided for applications that need to update the input configuration.

Note
This function will stop any ongoing scan sequence.
Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] init A pointer to the ADC initialization structure.

Definition at line 710 of file em_adc.c .

References ADC_InitScan_TypeDef::acqTime , ADC_CTRLX_VREFSEL_REG , BUS_RegBitWrite() , ADC_InitScan_TypeDef::diff , ADC_InitScan_TypeDef::fifoOverwrite , ADC_InitScan_TypeDef::leftAdjust , ADC_InitScan_TypeDef::prsEnable , ADC_InitScan_TypeDef::prsSel , ADC_InitScan_TypeDef::reference , ADC_InitScan_TypeDef::rep , ADC_InitScan_TypeDef::resolution , ADC_InitScan_TypeDef::scanDmaEm2Wu , ADC_InitScan_TypeDef::scanInputConfig , ADC_InitScanInput_TypeDef::scanInputEn , ADC_InitScanInput_TypeDef::scanInputSel , and ADC_InitScanInput_TypeDef::scanNegSel .

Referenced by MIC_init() .

void ADC_InitSingle ( ADC_TypeDef * adc,
const ADC_InitSingle_TypeDef * init
)

Initialize the single ADC sample conversion.

See ADC_Start() for starting a single conversion.

When selecting an external reference, the gain and offset calibration must be set explicitly (CAL register). For other references, the calibration is updated with values defined during manufacturing.

Note
This function will stop any ongoing single conversion.
This function will set the BIASPROG_GPBIASACC bit when selecting the internal temperature sensor and clear the bit otherwise. Any application that depends on the state of the BIASPROG_GPBIASACC bit should modify it after a call to this function.
Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] init A pointer to the ADC initialization structure.

Definition at line 847 of file em_adc.c .

References ADC_InitSingle_TypeDef::acqTime , ADC_CTRLX_VREFSEL_REG , adcAcqTime8 , adcRef1V25 , BUS_RegBitWrite() , ADC_InitSingle_TypeDef::diff , ADC_InitSingle_TypeDef::fifoOverwrite , ADC_InitSingle_TypeDef::leftAdjust , ADC_InitSingle_TypeDef::negSel , ADC_InitSingle_TypeDef::posSel , ADC_InitSingle_TypeDef::prsEnable , ADC_InitSingle_TypeDef::prsSel , ADC_InitSingle_TypeDef::reference , ADC_InitSingle_TypeDef::rep , ADC_InitSingle_TypeDef::resolution , and ADC_InitSingle_TypeDef::singleDmaEm2Wu .

Referenced by ADC0_IRQHandler() , adcInit() , and TOUCH_Init() .

__STATIC_INLINE void ADC_IntClear ( ADC_TypeDef * adc,
uint32_t flags
)

Clear one or more pending ADC interrupts.

Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] flags Pending ADC interrupt source to clear. Use a bitwise logic OR combination of valid interrupt flags for the ADC module (ADC_IF_nnn).

Definition at line 1168 of file em_adc.h .

Referenced by ADC0_IRQHandler() , ADC_Init() , and TOUCH_Init() .

__STATIC_INLINE void ADC_IntDisable ( ADC_TypeDef * adc,
uint32_t flags
)

Disable one or more ADC interrupts.

Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] flags ADC interrupt sources to disable. Use a bitwise logic OR combination of valid interrupt flags for the ADC module (ADC_IF_nnn).

Definition at line 1184 of file em_adc.h .

Referenced by TOUCH_GetPos() , and TOUCH_Init() .

__STATIC_INLINE void ADC_IntEnable ( ADC_TypeDef * adc,
uint32_t flags
)

Enable one or more ADC interrupts.

Note
Depending on use, a pending interrupt may already be set prior to enabling the interrupt. Consider using ADC_IntClear() prior to enabling if the pending interrupt should be ignored.
Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] flags ADC interrupt sources to enable. Use a bitwise logic OR combination of valid interrupt flags for the ADC module (ADC_IF_nnn).

Definition at line 1205 of file em_adc.h .

Referenced by TOUCH_GetPos() , and TOUCH_Init() .

__STATIC_INLINE uint32_t ADC_IntGet ( ADC_TypeDef * adc )

Get pending ADC interrupt flags.

Note
This function does not clear event bits.
Parameters
[in] adc A pointer to the ADC peripheral register block.
Returns
ADC interrupt sources pending. A bitwise logic OR combination of valid interrupt flags for the ADC module (ADC_IF_nnn).

Definition at line 1224 of file em_adc.h .

Referenced by getAdcSample() .

__STATIC_INLINE uint32_t ADC_IntGetEnabled ( ADC_TypeDef * adc )

Get enabled and pending ADC interrupt flags. Useful for handling more interrupt sources in the same interrupt handler.

Parameters
[in] adc A pointer to the ADC peripheral register block.
Note
This function does not clear interrupt flags.
Returns
Pending and enabled ADC interrupt sources. The return value is the bitwise AND combination of
  • the OR combination of enabled interrupt sources in ADCx_IEN_nnn register (ADCx_IEN_nnn) and
  • the OR combination of valid interrupt flags of the ADC module (ADCx_IF_nnn).

Definition at line 1248 of file em_adc.h .

__STATIC_INLINE void ADC_IntSet ( ADC_TypeDef * adc,
uint32_t flags
)

Set one or more pending ADC interrupts from software.

Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] flags ADC interrupt sources to set to pending. Use a bitwise logic OR combination of valid interrupt flags for the ADC module (ADC_IF_nnn).

Definition at line 1271 of file em_adc.h .

uint8_t ADC_PrescaleCalc ( uint32_t adcFreq,
uint32_t hfperFreq
)

Calculate the prescaler value used to determine the ADC clock.

The ADC clock is given by: (HFPERCLK or HFPERCCLK) / (prescale + 1).

Note
The return value is clamped to the maximum prescaler value that the hardware supports.
Parameters
[in] adcFreq ADC frequency wanted. The frequency will automatically be adjusted to a valid range according to the reference manual.
[in] hfperFreq Frequency in Hz of reference HFPER/HFPERC clock. Set to 0 to use currently defined HFPER/HFPERC clock setting.
Returns
A prescaler value to use for ADC in order to achieve a clock value <= adcFreq .

Definition at line 1009 of file em_adc.c .

References CMU_ClockFreqGet() , cmuClock_HFPER , and cmuClock_HFPERC .

Referenced by ADC_Init() , adcInit() , MIC_init() , and TOUCH_Init() .

void ADC_Reset ( ADC_TypeDef * adc )

Reset ADC to a state that it was in after a hardware reset.

Note
The ROUTE register is NOT reset by this function to allow a centralized setup of this feature.
Parameters
[in] adc A pointer to ADC peripheral register block.

Definition at line 1054 of file em_adc.c .

References adcRef1V25 .

uint32_t ADC_ScanDifferentialInputAdd ( ADC_InitScan_TypeDef * scanInit,
ADC_ScanInputGroup_TypeDef inputGroup,
ADC_PosSel_TypeDef posSel,
ADC_ScanNegInput_TypeDef negInput
)

Initialize the ADC scan differential input configuration.

Set a configuration for the ADC scan conversion with differential inputs. The ADC_InitScan_TypeDef structure updated by this function should be passed to ADC_InitScan() .

Parameters
[in] scanInit Structure to hold the scan and input configuration.
[in] inputGroup ADC scan input group. See section 25.3.4 in the reference manual for more information.
[in] posSel APORT bus pair select. The negative terminal is implicitly selected by the positive terminal.
[in] negInput ADC scan alternative negative input. Set to adcScanNegInputDefault to select a default negative input (implicit from posSel).
Returns
Scan ID of the selected ADC input. See section 25.3.4 in the reference manual for more information. Note that the returned integer represents the bit position in ADCn_SCANMASK set by this function. The accumulated mask is stored in the scanInit->scanInputConfig->scanInputEn.

Definition at line 572 of file em_adc.c .

References ADC_ScanSingleEndedInputAdd() , ADC_InitScan_TypeDef::diff , ADC_InitScan_TypeDef::scanInputConfig , and ADC_InitScanInput_TypeDef::scanNegSel .

void ADC_ScanInputClear ( ADC_InitScan_TypeDef * scanInit )

Clear ADC scan input configuration.

Parameters
[in] scanInit Structure to hold the scan configuration and input configuration.

Definition at line 465 of file em_adc.c .

References ADC_InitScan_TypeDef::scanInputConfig , ADC_InitScanInput_TypeDef::scanInputEn , ADC_InitScanInput_TypeDef::scanInputSel , and ADC_InitScanInput_TypeDef::scanNegSel .

Referenced by MIC_init() .

uint32_t ADC_ScanSingleEndedInputAdd ( ADC_InitScan_TypeDef * scanInit,
ADC_ScanInputGroup_TypeDef inputGroup,
ADC_PosSel_TypeDef singleEndedSel
)

Initialize ADC scan single-ended input configuration.

Set a configuration for ADC scan conversion with single-ended inputs. The ADC_InitScan_TypeDef structure updated from this function will be passed to ADC_InitScan() .

Parameters
[in] inputGroup ADC scan input group. See section 25.3.4 in the reference manual for more information.
[in] singleEndedSel APORT select.
Returns
Scan ID of selected ADC input. See section 25.3.4 in the reference manual for more information. Note that the returned integer represents the bit position in ADCn_SCANMASK set by this function. The accumulated mask is stored in scanInit->scanInputConfig->scanInputEn.

Definition at line 499 of file em_adc.c .

References ADC_InitScan_TypeDef::diff , ADC_InitScan_TypeDef::scanInputConfig , ADC_InitScanInput_TypeDef::scanInputEn , and ADC_InitScanInput_TypeDef::scanInputSel .

Referenced by ADC_ScanDifferentialInputAdd() , and MIC_init() .

__STATIC_INLINE void ADC_Start ( ADC_TypeDef * adc,
ADC_Start_TypeDef cmd
)

Start scan sequence and/or single conversion.

Parameters
[in] adc A pointer to the ADC peripheral register block.
[in] cmd A command indicating which type of sampling to start.

Definition at line 1286 of file em_adc.h .

Referenced by ADC0_IRQHandler() , getAdcSample() , and TOUCH_Init() .

uint8_t ADC_TimebaseCalc ( uint32_t hfperFreq )

Calculate a timebase value to get a timebase providing at least 1 us.

Parameters
[in] hfperFreq Frequency in Hz of the reference HFPER/HFPERC clock. Set to 0 to use currently defined HFPER/HFPERC clock setting.
Returns
A timebase value to use for ADC to achieve at least 1 us.

Definition at line 1105 of file em_adc.c .

References CMU_ClockFreqGet() , cmuClock_HFPER , and cmuClock_HFPERC .

Referenced by adcInit() , and MIC_init() .