High/inc/iotn404.h

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2024-07-27 18:59:09 +00:00
/* This file is part of avr-libc.
Automatically created by devtools/gen-ioheader-atdf-avr8x.py
DO NOT EDIT!
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the
distribution.
* Neither the name of the copyright holders nor the names of
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE. */
#ifndef _AVR_IO_H_
# error "Include <avr/io.h> instead of this file."
#endif
#ifndef _AVR_IOXXX_H_
# define _AVR_IOXXX_H_ "iotn404.h"
#else
# error "Attempt to include more than one <avr/ioXXX.h> file."
#endif
#ifndef _AVR_ATTINY404_H_INCLUDED
#define _AVR_ATTINY404_H_INCLUDED
/* Ungrouped common registers */
#define CCP _SFR_MEM8(0x0034) /* Configuration Change Protection */
#define SPH _SFR_MEM8(0x003E) /* Stack Pointer High */
#define SPL _SFR_MEM8(0x003D) /* Stack Pointer Low */
#define SREG _SFR_MEM8(0x003F) /* Status Register */
#define GPIOR0 _SFR_MEM8(0x001C) /* General Purpose IO Register 0 */
#define GPIOR1 _SFR_MEM8(0x001D) /* General Purpose IO Register 1 */
#define GPIOR2 _SFR_MEM8(0x001E) /* General Purpose IO Register 2 */
#define GPIOR3 _SFR_MEM8(0x001F) /* General Purpose IO Register 3 */
/* Deprecated */
#define GPIO0 _SFR_MEM8(0x001C) /* General Purpose IO Register 0 */
#define GPIO1 _SFR_MEM8(0x001D) /* General Purpose IO Register 1 */
#define GPIO2 _SFR_MEM8(0x001E) /* General Purpose IO Register 2 */
#define GPIO3 _SFR_MEM8(0x001F) /* General Purpose IO Register 3 */
/* C Language Only */
#if !defined (__ASSEMBLER__)
#include <stdint.h>
typedef volatile uint8_t register8_t;
typedef volatile uint16_t register16_t;
typedef volatile uint32_t register32_t;
#ifdef _WORDREGISTER
#undef _WORDREGISTER
#endif
#define _WORDREGISTER(regname) \
__extension__ union \
{ \
register16_t regname; \
struct \
{ \
register8_t regname ## L; \
register8_t regname ## H; \
}; \
}
#ifdef _DWORDREGISTER
#undef _DWORDREGISTER
#endif
#define _DWORDREGISTER(regname) \
__extension__ union \
{ \
register32_t regname; \
struct \
{ \
register8_t regname ## 0; \
register8_t regname ## 1; \
register8_t regname ## 2; \
register8_t regname ## 3; \
}; \
}
/*
==========================================================================
IO Module Structures
==========================================================================
*/
/*
--------------------------------------------------------------------------
AC - Analog Comparator
--------------------------------------------------------------------------
*/
/* Analog Comparator */
typedef struct AC_struct
{
register8_t CTRLA; /* Control A */
register8_t reserved_0x01;
register8_t MUXCTRLA; /* Mux Control A */
register8_t reserved_0x03;
register8_t reserved_0x04;
register8_t reserved_0x05;
register8_t INTCTRL; /* Interrupt Control */
register8_t STATUS; /* Status */
} AC_t;
/* Hysteresis Mode select */
typedef enum AC_HYSMODE_enum
{
AC_HYSMODE_OFF_gc = (0x00<<1), /* No hysteresis */
AC_HYSMODE_10mV_gc = (0x01<<1), /* 10mV hysteresis */
AC_HYSMODE_25mV_gc = (0x02<<1), /* 25mV hysteresis */
AC_HYSMODE_50mV_gc = (0x03<<1), /* 50mV hysteresis */
} AC_HYSMODE_t;
/* Interrupt Mode select */
typedef enum AC_INTMODE_enum
{
AC_INTMODE_BOTHEDGE_gc = (0x00<<4), /* Any Edge */
AC_INTMODE_NEGEDGE_gc = (0x02<<4), /* Negative Edge */
AC_INTMODE_POSEDGE_gc = (0x03<<4), /* Positive Edge */
} AC_INTMODE_t;
/* Negative Input MUX Selection select */
typedef enum AC_MUXNEG_enum
{
AC_MUXNEG_PIN0_gc = (0x00<<0), /* Negative Pin 0 */
AC_MUXNEG_VREF_gc = (0x02<<0), /* Voltage Reference */
} AC_MUXNEG_t;
/* Positive Input MUX Selection select */
typedef enum AC_MUXPOS_enum
{
AC_MUXPOS_PIN0_gc = (0x00<<3), /* Positive Pin 0 */
} AC_MUXPOS_t;
/*
--------------------------------------------------------------------------
ADC - Analog to Digital Converter
--------------------------------------------------------------------------
*/
/* Analog to Digital Converter */
typedef struct ADC_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t CTRLC; /* Control C */
register8_t CTRLD; /* Control D */
register8_t CTRLE; /* Control E */
register8_t SAMPCTRL; /* Sample Control */
register8_t MUXPOS; /* Positive mux input */
register8_t reserved_0x07;
register8_t COMMAND; /* Command */
register8_t EVCTRL; /* Event Control */
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t DBGCTRL; /* Debug Control */
register8_t TEMP; /* Temporary Data */
register8_t reserved_0x0E;
register8_t reserved_0x0F;
_WORDREGISTER(RES); /* ADC Accumulator Result */
_WORDREGISTER(WINLT); /* Window comparator low threshold */
_WORDREGISTER(WINHT); /* Window comparator high threshold */
register8_t CALIB; /* Calibration */
register8_t reserved_0x17;
} ADC_t;
/* Automatic Sampling Delay Variation select */
typedef enum ADC_ASDV_enum
{
ADC_ASDV_ASVOFF_gc = (0x00<<4), /* The Automatic Sampling Delay Variation is disabled */
ADC_ASDV_ASVON_gc = (0x01<<4), /* The Automatic Sampling Delay Variation is enabled */
} ADC_ASDV_t;
/* Duty Cycle select */
typedef enum ADC_DUTYCYC_enum
{
ADC_DUTYCYC_DUTY50_gc = (0x00<<0), /* 50% Duty cycle */
ADC_DUTYCYC_DUTY25_gc = (0x01<<0), /* 25% Duty cycle */
} ADC_DUTYCYC_t;
/* Initial Delay Selection select */
typedef enum ADC_INITDLY_enum
{
ADC_INITDLY_DLY0_gc = (0x00<<5), /* Delay 0 CLK_ADC cycles */
ADC_INITDLY_DLY16_gc = (0x01<<5), /* Delay 16 CLK_ADC cycles */
ADC_INITDLY_DLY32_gc = (0x02<<5), /* Delay 32 CLK_ADC cycles */
ADC_INITDLY_DLY64_gc = (0x03<<5), /* Delay 64 CLK_ADC cycles */
ADC_INITDLY_DLY128_gc = (0x04<<5), /* Delay 128 CLK_ADC cycles */
ADC_INITDLY_DLY256_gc = (0x05<<5), /* Delay 256 CLK_ADC cycles */
} ADC_INITDLY_t;
/* Analog Channel Selection Bits select */
typedef enum ADC_MUXPOS_enum
{
ADC_MUXPOS_AIN0_gc = (0x00<<0), /* ADC input pin 0 */
ADC_MUXPOS_AIN1_gc = (0x01<<0), /* ADC input pin 1 */
ADC_MUXPOS_AIN2_gc = (0x02<<0), /* ADC input pin 2 */
ADC_MUXPOS_AIN3_gc = (0x03<<0), /* ADC input pin 3 */
ADC_MUXPOS_AIN4_gc = (0x04<<0), /* ADC input pin 4 */
ADC_MUXPOS_AIN5_gc = (0x05<<0), /* ADC input pin 5 */
ADC_MUXPOS_AIN6_gc = (0x06<<0), /* ADC input pin 6 */
ADC_MUXPOS_AIN7_gc = (0x07<<0), /* ADC input pin 7 */
ADC_MUXPOS_AIN8_gc = (0x08<<0), /* ADC input pin 8 */
ADC_MUXPOS_AIN9_gc = (0x09<<0), /* ADC input pin 9 */
ADC_MUXPOS_AIN10_gc = (0x0A<<0), /* ADC input pin 10 */
ADC_MUXPOS_AIN11_gc = (0x0B<<0), /* ADC input pin 11 */
ADC_MUXPOS_DAC0_gc = (0x1C<<0), /* DAC0 */
ADC_MUXPOS_INTREF_gc = (0x1D<<0), /* Internal Ref */
ADC_MUXPOS_TEMPSENSE_gc = (0x1E<<0), /* Temp sensor */
ADC_MUXPOS_GND_gc = (0x1F<<0), /* GND */
} ADC_MUXPOS_t;
/* Clock Pre-scaler select */
typedef enum ADC_PRESC_enum
{
ADC_PRESC_DIV2_gc = (0x00<<0), /* CLK_PER divided by 2 */
ADC_PRESC_DIV4_gc = (0x01<<0), /* CLK_PER divided by 4 */
ADC_PRESC_DIV8_gc = (0x02<<0), /* CLK_PER divided by 8 */
ADC_PRESC_DIV16_gc = (0x03<<0), /* CLK_PER divided by 16 */
ADC_PRESC_DIV32_gc = (0x04<<0), /* CLK_PER divided by 32 */
ADC_PRESC_DIV64_gc = (0x05<<0), /* CLK_PER divided by 64 */
ADC_PRESC_DIV128_gc = (0x06<<0), /* CLK_PER divided by 128 */
ADC_PRESC_DIV256_gc = (0x07<<0), /* CLK_PER divided by 256 */
} ADC_PRESC_t;
/* Reference Selection select */
typedef enum ADC_REFSEL_enum
{
ADC_REFSEL_INTREF_gc = (0x00<<4), /* Internal reference */
ADC_REFSEL_VDDREF_gc = (0x01<<4), /* VDD */
} ADC_REFSEL_t;
/* ADC Resolution select */
typedef enum ADC_RESSEL_enum
{
ADC_RESSEL_10BIT_gc = (0x00<<2), /* 10-bit mode */
ADC_RESSEL_8BIT_gc = (0x01<<2), /* 8-bit mode */
} ADC_RESSEL_t;
/* Accumulation Samples select */
typedef enum ADC_SAMPNUM_enum
{
ADC_SAMPNUM_ACC1_gc = (0x00<<0), /* 1 ADC sample */
ADC_SAMPNUM_ACC2_gc = (0x01<<0), /* Accumulate 2 samples */
ADC_SAMPNUM_ACC4_gc = (0x02<<0), /* Accumulate 4 samples */
ADC_SAMPNUM_ACC8_gc = (0x03<<0), /* Accumulate 8 samples */
ADC_SAMPNUM_ACC16_gc = (0x04<<0), /* Accumulate 16 samples */
ADC_SAMPNUM_ACC32_gc = (0x05<<0), /* Accumulate 32 samples */
ADC_SAMPNUM_ACC64_gc = (0x06<<0), /* Accumulate 64 samples */
} ADC_SAMPNUM_t;
/* Window Comparator Mode select */
typedef enum ADC_WINCM_enum
{
ADC_WINCM_NONE_gc = (0x00<<0), /* No Window Comparison */
ADC_WINCM_BELOW_gc = (0x01<<0), /* Below Window */
ADC_WINCM_ABOVE_gc = (0x02<<0), /* Above Window */
ADC_WINCM_INSIDE_gc = (0x03<<0), /* Inside Window */
ADC_WINCM_OUTSIDE_gc = (0x04<<0), /* Outside Window */
} ADC_WINCM_t;
/*
--------------------------------------------------------------------------
BOD - Bod interface
--------------------------------------------------------------------------
*/
/* Bod interface */
typedef struct BOD_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t reserved_0x02;
register8_t reserved_0x03;
register8_t reserved_0x04;
register8_t reserved_0x05;
register8_t reserved_0x06;
register8_t reserved_0x07;
register8_t VLMCTRLA; /* Voltage level monitor Control */
register8_t INTCTRL; /* Voltage level monitor interrupt Control */
register8_t INTFLAGS; /* Voltage level monitor interrupt Flags */
register8_t STATUS; /* Voltage level monitor status */
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
} BOD_t;
/* Operation in active mode select */
typedef enum BOD_ACTIVE_enum
{
BOD_ACTIVE_DIS_gc = (0x00<<2), /* Disabled */
BOD_ACTIVE_ENABLED_gc = (0x01<<2), /* Enabled */
BOD_ACTIVE_SAMPLED_gc = (0x02<<2), /* Sampled */
BOD_ACTIVE_ENWAKE_gc = (0x03<<2), /* Enabled with wakeup halt */
} BOD_ACTIVE_t;
/* Bod level select */
typedef enum BOD_LVL_enum
{
BOD_LVL_BODLEVEL0_gc = (0x00<<0), /* 1.8 V */
BOD_LVL_BODLEVEL1_gc = (0x01<<0), /* 2.1 V */
BOD_LVL_BODLEVEL2_gc = (0x02<<0), /* 2.6 V */
BOD_LVL_BODLEVEL3_gc = (0x03<<0), /* 2.9 V */
BOD_LVL_BODLEVEL4_gc = (0x04<<0), /* 3.3 V */
BOD_LVL_BODLEVEL5_gc = (0x05<<0), /* 3.7 V */
BOD_LVL_BODLEVEL6_gc = (0x06<<0), /* 4.0 V */
BOD_LVL_BODLEVEL7_gc = (0x07<<0), /* 4.2 V */
} BOD_LVL_t;
/* Sample frequency select */
typedef enum BOD_SAMPFREQ_enum
{
BOD_SAMPFREQ_1KHZ_gc = (0x00<<4), /* 1kHz sampling */
BOD_SAMPFREQ_125Hz_gc = (0x01<<4), /* 125Hz sampling */
} BOD_SAMPFREQ_t;
/* Operation in sleep mode select */
typedef enum BOD_SLEEP_enum
{
BOD_SLEEP_DIS_gc = (0x00<<0), /* Disabled */
BOD_SLEEP_ENABLED_gc = (0x01<<0), /* Enabled */
BOD_SLEEP_SAMPLED_gc = (0x02<<0), /* Sampled */
} BOD_SLEEP_t;
/* Configuration select */
typedef enum BOD_VLMCFG_enum
{
BOD_VLMCFG_BELOW_gc = (0x00<<1), /* Interrupt when supply goes below VLM level */
BOD_VLMCFG_ABOVE_gc = (0x01<<1), /* Interrupt when supply goes above VLM level */
BOD_VLMCFG_CROSS_gc = (0x02<<1), /* Interrupt when supply crosses VLM level */
} BOD_VLMCFG_t;
/* voltage level monitor level select */
typedef enum BOD_VLMLVL_enum
{
BOD_VLMLVL_5ABOVE_gc = (0x00<<0), /* VLM threshold 5% above BOD level */
BOD_VLMLVL_15ABOVE_gc = (0x01<<0), /* VLM threshold 15% above BOD level */
BOD_VLMLVL_25ABOVE_gc = (0x02<<0), /* VLM threshold 25% above BOD level */
} BOD_VLMLVL_t;
/*
--------------------------------------------------------------------------
CCL - Configurable Custom Logic
--------------------------------------------------------------------------
*/
/* Configurable Custom Logic */
typedef struct CCL_struct
{
register8_t CTRLA; /* Control Register A */
register8_t SEQCTRL0; /* Sequential Control 0 */
register8_t reserved_0x02;
register8_t reserved_0x03;
register8_t reserved_0x04;
register8_t LUT0CTRLA; /* LUT Control 0 A */
register8_t LUT0CTRLB; /* LUT Control 0 B */
register8_t LUT0CTRLC; /* LUT Control 0 C */
register8_t TRUTH0; /* Truth 0 */
register8_t LUT1CTRLA; /* LUT Control 1 A */
register8_t LUT1CTRLB; /* LUT Control 1 B */
register8_t LUT1CTRLC; /* LUT Control 1 C */
register8_t TRUTH1; /* Truth 1 */
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
} CCL_t;
/* Edge Detection Enable select */
typedef enum CCL_EDGEDET_enum
{
CCL_EDGEDET_DIS_gc = (0x00<<7), /* Edge detector is disabled */
CCL_EDGEDET_EN_gc = (0x01<<7), /* Edge detector is enabled */
} CCL_EDGEDET_t;
/* Filter Selection select */
typedef enum CCL_FILTSEL_enum
{
CCL_FILTSEL_DISABLE_gc = (0x00<<4), /* Filter disabled */
CCL_FILTSEL_SYNCH_gc = (0x01<<4), /* Synchronizer enabled */
CCL_FILTSEL_FILTER_gc = (0x02<<4), /* Filter enabled */
} CCL_FILTSEL_t;
/* LUT Input 0 Source Selection select */
typedef enum CCL_INSEL0_enum
{
CCL_INSEL0_MASK_gc = (0x00<<0), /* Masked input */
CCL_INSEL0_FEEDBACK_gc = (0x01<<0), /* Feedback input source */
CCL_INSEL0_LINK_gc = (0x02<<0), /* Linked LUT input source */
CCL_INSEL0_EVENT0_gc = (0x03<<0), /* Event input source 0 */
CCL_INSEL0_EVENT1_gc = (0x04<<0), /* Event input source 1 */
CCL_INSEL0_IO_gc = (0x05<<0), /* IO pin LUTn-IN0 input source */
CCL_INSEL0_AC0_gc = (0x06<<0), /* AC0 OUT input source */
CCL_INSEL0_TCB0_gc = (0x07<<0), /* TCB0 WO input source */
CCL_INSEL0_TCA0_gc = (0x08<<0), /* TCA0 WO0 input source */
CCL_INSEL0_TCD0_gc = (0x09<<0), /* TCD0 WOA input source */
CCL_INSEL0_USART0_gc = (0x0A<<0), /* USART0 XCK input source */
CCL_INSEL0_SPI0_gc = (0x0B<<0), /* SPI0 SCK source */
} CCL_INSEL0_t;
/* LUT Input 1 Source Selection select */
typedef enum CCL_INSEL1_enum
{
CCL_INSEL1_MASK_gc = (0x00<<4), /* Masked input */
CCL_INSEL1_FEEDBACK_gc = (0x01<<4), /* Feedback input source */
CCL_INSEL1_LINK_gc = (0x02<<4), /* Linked LUT input source */
CCL_INSEL1_EVENT0_gc = (0x03<<4), /* Event input source 0 */
CCL_INSEL1_EVENT1_gc = (0x04<<4), /* Event input source 1 */
CCL_INSEL1_IO_gc = (0x05<<4), /* IO pin LUTn-N1 input source */
CCL_INSEL1_AC0_gc = (0x06<<4), /* AC0 OUT input source */
CCL_INSEL1_TCB0_gc = (0x07<<4), /* TCB0 WO input source */
CCL_INSEL1_TCA0_gc = (0x08<<4), /* TCA0 WO1 input source */
CCL_INSEL1_TCD0_gc = (0x09<<4), /* TCD0 WOB input source */
CCL_INSEL1_USART0_gc = (0x0A<<4), /* USART0 TXD input source */
CCL_INSEL1_SPI0_gc = (0x0B<<4), /* SPI0 MOSI input source */
} CCL_INSEL1_t;
/* LUT Input 2 Source Selection select */
typedef enum CCL_INSEL2_enum
{
CCL_INSEL2_MASK_gc = (0x00<<0), /* Masked input */
CCL_INSEL2_FEEDBACK_gc = (0x01<<0), /* Feedback input source */
CCL_INSEL2_LINK_gc = (0x02<<0), /* Linked LUT input source */
CCL_INSEL2_EVENT0_gc = (0x03<<0), /* Event input source 0 */
CCL_INSEL2_EVENT1_gc = (0x04<<0), /* Event input source 1 */
CCL_INSEL2_IO_gc = (0x05<<0), /* IO pin LUTn-IN2 input source */
CCL_INSEL2_AC0_gc = (0x06<<0), /* AC0 OUT input source */
CCL_INSEL2_TCB0_gc = (0x07<<0), /* TCB0 WO input source */
CCL_INSEL2_TCA0_gc = (0x08<<0), /* TCA0 WO2 input source */
CCL_INSEL2_TCD0_gc = (0x09<<0), /* TCD0 WOA input source */
CCL_INSEL2_SPI0_gc = (0x0B<<0), /* SPI0 MISO source */
} CCL_INSEL2_t;
/* Sequential Selection select */
typedef enum CCL_SEQSEL_enum
{
CCL_SEQSEL_DISABLE_gc = (0x00<<0), /* Sequential logic disabled */
CCL_SEQSEL_DFF_gc = (0x01<<0), /* D FlipFlop */
CCL_SEQSEL_JK_gc = (0x02<<0), /* JK FlipFlop */
CCL_SEQSEL_LATCH_gc = (0x03<<0), /* D Latch */
CCL_SEQSEL_RS_gc = (0x04<<0), /* RS Latch */
} CCL_SEQSEL_t;
/*
--------------------------------------------------------------------------
CLKCTRL - Clock controller
--------------------------------------------------------------------------
*/
/* Clock controller */
typedef struct CLKCTRL_struct
{
register8_t MCLKCTRLA; /* MCLK Control A */
register8_t MCLKCTRLB; /* MCLK Control B */
register8_t MCLKLOCK; /* MCLK Lock */
register8_t MCLKSTATUS; /* MCLK Status */
register8_t reserved_0x04;
register8_t reserved_0x05;
register8_t reserved_0x06;
register8_t reserved_0x07;
register8_t reserved_0x08;
register8_t reserved_0x09;
register8_t reserved_0x0A;
register8_t reserved_0x0B;
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
register8_t OSC20MCTRLA; /* OSC20M Control A */
register8_t OSC20MCALIBA; /* OSC20M Calibration A */
register8_t OSC20MCALIBB; /* OSC20M Calibration B */
register8_t reserved_0x13;
register8_t reserved_0x14;
register8_t reserved_0x15;
register8_t reserved_0x16;
register8_t reserved_0x17;
register8_t OSC32KCTRLA; /* OSC32K Control A */
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
} CLKCTRL_t;
/* clock select select */
typedef enum CLKCTRL_CLKSEL_enum
{
CLKCTRL_CLKSEL_OSC20M_gc = (0x00<<0), /* 20MHz internal oscillator */
CLKCTRL_CLKSEL_OSCULP32K_gc = (0x01<<0), /* 32KHz internal Ultra Low Power oscillator */
CLKCTRL_CLKSEL_XOSC32K_gc = (0x02<<0), /* 32.768kHz external crystal oscillator */
CLKCTRL_CLKSEL_EXTCLK_gc = (0x03<<0), /* External clock */
} CLKCTRL_CLKSEL_t;
/* Prescaler division select */
typedef enum CLKCTRL_PDIV_enum
{
CLKCTRL_PDIV_2X_gc = (0x00<<1), /* 2X */
CLKCTRL_PDIV_4X_gc = (0x01<<1), /* 4X */
CLKCTRL_PDIV_8X_gc = (0x02<<1), /* 8X */
CLKCTRL_PDIV_16X_gc = (0x03<<1), /* 16X */
CLKCTRL_PDIV_32X_gc = (0x04<<1), /* 32X */
CLKCTRL_PDIV_64X_gc = (0x05<<1), /* 64X */
CLKCTRL_PDIV_6X_gc = (0x08<<1), /* 6X */
CLKCTRL_PDIV_10X_gc = (0x09<<1), /* 10X */
CLKCTRL_PDIV_12X_gc = (0x0A<<1), /* 12X */
CLKCTRL_PDIV_24X_gc = (0x0B<<1), /* 24X */
CLKCTRL_PDIV_48X_gc = (0x0C<<1), /* 48X */
} CLKCTRL_PDIV_t;
/*
--------------------------------------------------------------------------
CPU - CPU
--------------------------------------------------------------------------
*/
/* CCP signature select */
typedef enum CCP_enum
{
CCP_SPM_gc = (0x9D<<0), /* SPM Instruction Protection */
CCP_IOREG_gc = (0xD8<<0), /* IO Register Protection */
} CCP_t;
/*
--------------------------------------------------------------------------
CPUINT - Interrupt Controller
--------------------------------------------------------------------------
*/
/* Interrupt Controller */
typedef struct CPUINT_struct
{
register8_t CTRLA; /* Control A */
register8_t STATUS; /* Status */
register8_t LVL0PRI; /* Interrupt Level 0 Priority */
register8_t LVL1VEC; /* Interrupt Level 1 Priority Vector */
} CPUINT_t;
/*
--------------------------------------------------------------------------
CRCSCAN - CRCSCAN
--------------------------------------------------------------------------
*/
/* CRCSCAN */
typedef struct CRCSCAN_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t STATUS; /* Status */
register8_t reserved_0x03;
} CRCSCAN_t;
/* CRC Flash Access Mode select */
typedef enum CRCSCAN_MODE_enum
{
CRCSCAN_MODE_PRIORITY_gc = (0x00<<4), /* Priority to flash */
CRCSCAN_MODE_RESERVED_gc = (0x01<<4), /* Reserved */
CRCSCAN_MODE_BACKGROUND_gc = (0x02<<4), /* Lowest priority to flash */
CRCSCAN_MODE_CONTINUOUS_gc = (0x03<<4), /* Continuous checks in background */
} CRCSCAN_MODE_t;
/* CRC Source select */
typedef enum CRCSCAN_SRC_enum
{
CRCSCAN_SRC_FLASH_gc = (0x00<<0), /* CRC on entire flash */
CRCSCAN_SRC_APPLICATION_gc = (0x01<<0), /* CRC on boot and appl section of flash */
CRCSCAN_SRC_BOOT_gc = (0x02<<0), /* CRC on boot section of flash */
} CRCSCAN_SRC_t;
/*
--------------------------------------------------------------------------
EVSYS - Event System
--------------------------------------------------------------------------
*/
/* Event System */
typedef struct EVSYS_struct
{
register8_t ASYNCSTROBE; /* Asynchronous Channel Strobe */
register8_t SYNCSTROBE; /* Synchronous Channel Strobe */
register8_t ASYNCCH0; /* Asynchronous Channel 0 Generator Selection */
register8_t ASYNCCH1; /* Asynchronous Channel 1 Generator Selection */
register8_t reserved_0x04;
register8_t reserved_0x05;
register8_t reserved_0x06;
register8_t reserved_0x07;
register8_t reserved_0x08;
register8_t reserved_0x09;
register8_t SYNCCH0; /* Synchronous Channel 0 Generator Selection */
register8_t reserved_0x0B;
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
register8_t reserved_0x10;
register8_t reserved_0x11;
register8_t ASYNCUSER0; /* Asynchronous User Ch 0 Input Selection - TCB0 */
register8_t ASYNCUSER1; /* Asynchronous User Ch 1 Input Selection - ADC0 */
register8_t ASYNCUSER2; /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 */
register8_t ASYNCUSER3; /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 */
register8_t ASYNCUSER4; /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 */
register8_t ASYNCUSER5; /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 */
register8_t ASYNCUSER6; /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 */
register8_t ASYNCUSER7; /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 */
register8_t ASYNCUSER8; /* Asynchronous User Ch 8 Input Selection - Event Out 0 */
register8_t ASYNCUSER9; /* Asynchronous User Ch 9 Input Selection - Event Out 1 */
register8_t ASYNCUSER10; /* Asynchronous User Ch 10 Input Selection - Event Out 2 */
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
register8_t reserved_0x20;
register8_t reserved_0x21;
register8_t SYNCUSER0; /* Synchronous User Ch 0 Input Selection - TCA0 */
register8_t SYNCUSER1; /* Synchronous User Ch 1 Input Selection - USART0 */
register8_t reserved_0x24;
register8_t reserved_0x25;
register8_t reserved_0x26;
register8_t reserved_0x27;
register8_t reserved_0x28;
register8_t reserved_0x29;
register8_t reserved_0x2A;
register8_t reserved_0x2B;
register8_t reserved_0x2C;
register8_t reserved_0x2D;
register8_t reserved_0x2E;
register8_t reserved_0x2F;
register8_t reserved_0x30;
register8_t reserved_0x31;
register8_t reserved_0x32;
register8_t reserved_0x33;
register8_t reserved_0x34;
register8_t reserved_0x35;
register8_t reserved_0x36;
register8_t reserved_0x37;
register8_t reserved_0x38;
register8_t reserved_0x39;
register8_t reserved_0x3A;
register8_t reserved_0x3B;
register8_t reserved_0x3C;
register8_t reserved_0x3D;
register8_t reserved_0x3E;
register8_t reserved_0x3F;
} EVSYS_t;
/* Asynchronous Channel 0 Generator Selection select */
typedef enum EVSYS_ASYNCCH0_enum
{
EVSYS_ASYNCCH0_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCCH0_CCL_LUT0_gc = (0x01<<0), /* Configurable Custom Logic LUT0 */
EVSYS_ASYNCCH0_CCL_LUT1_gc = (0x02<<0), /* Configurable Custom Logic LUT1 */
EVSYS_ASYNCCH0_AC0_OUT_gc = (0x03<<0), /* Analog Comparator 0 out */
EVSYS_ASYNCCH0_TCD0_CMPBCLR_gc = (0x04<<0), /* Timer/Counter D0 compare B clear */
EVSYS_ASYNCCH0_TCD0_CMPASET_gc = (0x05<<0), /* Timer/Counter D0 compare A set */
EVSYS_ASYNCCH0_TCD0_CMPBSET_gc = (0x06<<0), /* Timer/Counter D0 compare B set */
EVSYS_ASYNCCH0_TCD0_PROGEV_gc = (0x07<<0), /* Timer/Counter D0 program event */
EVSYS_ASYNCCH0_RTC_OVF_gc = (0x08<<0), /* Real Time Counter overflow */
EVSYS_ASYNCCH0_RTC_CMP_gc = (0x09<<0), /* Real Time Counter compare */
EVSYS_ASYNCCH0_PORTA_PIN0_gc = (0x0A<<0), /* Asynchronous Event from Pin PA0 */
EVSYS_ASYNCCH0_PORTA_PIN1_gc = (0x0B<<0), /* Asynchronous Event from Pin PA1 */
EVSYS_ASYNCCH0_PORTA_PIN2_gc = (0x0C<<0), /* Asynchronous Event from Pin PA2 */
EVSYS_ASYNCCH0_PORTA_PIN3_gc = (0x0D<<0), /* Asynchronous Event from Pin PA3 */
EVSYS_ASYNCCH0_PORTA_PIN4_gc = (0x0E<<0), /* Asynchronous Event from Pin PA4 */
EVSYS_ASYNCCH0_PORTA_PIN5_gc = (0x0F<<0), /* Asynchronous Event from Pin PA5 */
EVSYS_ASYNCCH0_PORTA_PIN6_gc = (0x10<<0), /* Asynchronous Event from Pin PA6 */
EVSYS_ASYNCCH0_PORTA_PIN7_gc = (0x11<<0), /* Asynchronous Event from Pin PA7 */
EVSYS_ASYNCCH0_UPDI_gc = (0x12<<0), /* Unified Program and debug interface */
} EVSYS_ASYNCCH0_t;
/* Asynchronous Channel 1 Generator Selection select */
typedef enum EVSYS_ASYNCCH1_enum
{
EVSYS_ASYNCCH1_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCCH1_CCL_LUT0_gc = (0x01<<0), /* Configurable custom logic LUT0 */
EVSYS_ASYNCCH1_CCL_LUT1_gc = (0x02<<0), /* Configurable custom logic LUT1 */
EVSYS_ASYNCCH1_AC0_OUT_gc = (0x03<<0), /* Analog Comparator 0 out */
EVSYS_ASYNCCH1_TCD0_CMPBCLR_gc = (0x04<<0), /* Timer/Counter D0 compare B clear */
EVSYS_ASYNCCH1_TCD0_CMPASET_gc = (0x05<<0), /* Timer/Counter D0 compare A set */
EVSYS_ASYNCCH1_TCD0_CMPBSET_gc = (0x06<<0), /* Timer/Counter D0 compare B set */
EVSYS_ASYNCCH1_TCD0_PROGEV_gc = (0x07<<0), /* Timer/Counter D0 program event */
EVSYS_ASYNCCH1_RTC_OVF_gc = (0x08<<0), /* Real Time Counter overflow */
EVSYS_ASYNCCH1_RTC_CMP_gc = (0x09<<0), /* Real Time Counter compare */
EVSYS_ASYNCCH1_PORTB_PIN0_gc = (0x0A<<0), /* Asynchronous Event from Pin PB0 */
EVSYS_ASYNCCH1_PORTB_PIN1_gc = (0x0B<<0), /* Asynchronous Event from Pin PB1 */
EVSYS_ASYNCCH1_PORTB_PIN2_gc = (0x0C<<0), /* Asynchronous Event from Pin PB2 */
EVSYS_ASYNCCH1_PORTB_PIN3_gc = (0x0D<<0), /* Asynchronous Event from Pin PB3 */
EVSYS_ASYNCCH1_PORTB_PIN4_gc = (0x0E<<0), /* Asynchronous Event from Pin PB4 */
EVSYS_ASYNCCH1_PORTB_PIN5_gc = (0x0F<<0), /* Asynchronous Event from Pin PB5 */
EVSYS_ASYNCCH1_PORTB_PIN6_gc = (0x10<<0), /* Asynchronous Event from Pin PB6 */
EVSYS_ASYNCCH1_PORTB_PIN7_gc = (0x11<<0), /* Asynchronous Event from Pin PB7 */
} EVSYS_ASYNCCH1_t;
/* Asynchronous User Ch 0 Input Selection - TCB0 select */
typedef enum EVSYS_ASYNCUSER0_enum
{
EVSYS_ASYNCUSER0_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER0_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER0_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER0_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER0_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER0_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER0_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER0_t;
/* Asynchronous User Ch 1 Input Selection - ADC0 select */
typedef enum EVSYS_ASYNCUSER1_enum
{
EVSYS_ASYNCUSER1_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER1_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER1_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER1_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER1_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER1_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER1_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER1_t;
/* Asynchronous User Ch 10 Input Selection - Event Out 2 select */
typedef enum EVSYS_ASYNCUSER10_enum
{
EVSYS_ASYNCUSER10_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER10_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER10_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER10_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER10_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER10_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER10_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER10_t;
/* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 select */
typedef enum EVSYS_ASYNCUSER2_enum
{
EVSYS_ASYNCUSER2_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER2_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER2_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER2_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER2_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER2_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER2_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER2_t;
/* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 select */
typedef enum EVSYS_ASYNCUSER3_enum
{
EVSYS_ASYNCUSER3_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER3_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER3_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER3_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER3_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER3_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER3_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER3_t;
/* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 select */
typedef enum EVSYS_ASYNCUSER4_enum
{
EVSYS_ASYNCUSER4_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER4_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER4_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER4_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER4_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER4_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER4_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER4_t;
/* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 select */
typedef enum EVSYS_ASYNCUSER5_enum
{
EVSYS_ASYNCUSER5_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER5_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER5_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER5_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER5_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER5_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER5_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER5_t;
/* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 select */
typedef enum EVSYS_ASYNCUSER6_enum
{
EVSYS_ASYNCUSER6_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER6_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER6_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER6_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER6_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER6_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER6_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER6_t;
/* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 select */
typedef enum EVSYS_ASYNCUSER7_enum
{
EVSYS_ASYNCUSER7_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER7_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER7_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER7_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER7_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER7_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER7_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER7_t;
/* Asynchronous User Ch 8 Input Selection - Event Out 0 select */
typedef enum EVSYS_ASYNCUSER8_enum
{
EVSYS_ASYNCUSER8_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER8_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER8_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER8_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER8_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER8_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER8_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER8_t;
/* Asynchronous User Ch 9 Input Selection - Event Out 1 select */
typedef enum EVSYS_ASYNCUSER9_enum
{
EVSYS_ASYNCUSER9_OFF_gc = (0x00<<0), /* Off */
EVSYS_ASYNCUSER9_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_ASYNCUSER9_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
EVSYS_ASYNCUSER9_ASYNCCH0_gc = (0x03<<0), /* Asynchronous Event Channel 0 */
EVSYS_ASYNCUSER9_ASYNCCH1_gc = (0x04<<0), /* Asynchronous Event Channel 1 */
EVSYS_ASYNCUSER9_ASYNCCH2_gc = (0x05<<0), /* Asynchronous Event Channel 2 */
EVSYS_ASYNCUSER9_ASYNCCH3_gc = (0x06<<0), /* Asynchronous Event Channel 3 */
} EVSYS_ASYNCUSER9_t;
/* Synchronous Channel 0 Generator Selection select */
typedef enum EVSYS_SYNCCH0_enum
{
EVSYS_SYNCCH0_OFF_gc = (0x00<<0), /* Off */
EVSYS_SYNCCH0_TCB0_gc = (0x01<<0), /* Timer/Counter B0 */
EVSYS_SYNCCH0_TCA0_OVF_LUNF_gc = (0x02<<0), /* Timer/Counter A0 overflow */
EVSYS_SYNCCH0_TCA0_HUNF_gc = (0x03<<0), /* Timer/Counter A0 underflow high byte (split mode) */
EVSYS_SYNCCH0_TCA0_CMP0_gc = (0x04<<0), /* Timer/Counter A0 compare 0 */
EVSYS_SYNCCH0_TCA0_CMP1_gc = (0x05<<0), /* Timer/Counter A0 compare 1 */
EVSYS_SYNCCH0_TCA0_CMP2_gc = (0x06<<0), /* Timer/Counter A0 compare 2 */
EVSYS_SYNCCH0_PORTC_PIN0_gc = (0x07<<0), /* Synchronous Event from Pin PC0 */
EVSYS_SYNCCH0_PORTC_PIN1_gc = (0x08<<0), /* Synchronous Event from Pin PC1 */
EVSYS_SYNCCH0_PORTC_PIN2_gc = (0x09<<0), /* Synchronous Event from Pin PC2 */
EVSYS_SYNCCH0_PORTC_PIN3_gc = (0x0A<<0), /* Synchronous Event from Pin PC3 */
EVSYS_SYNCCH0_PORTC_PIN4_gc = (0x0B<<0), /* Synchronous Event from Pin PC4 */
EVSYS_SYNCCH0_PORTC_PIN5_gc = (0x0C<<0), /* Synchronous Event from Pin PC5 */
EVSYS_SYNCCH0_PORTA_PIN0_gc = (0x0D<<0), /* Synchronous Event from Pin PA0 */
EVSYS_SYNCCH0_PORTA_PIN1_gc = (0x0E<<0), /* Synchronous Event from Pin PA1 */
EVSYS_SYNCCH0_PORTA_PIN2_gc = (0x0F<<0), /* Synchronous Event from Pin PA2 */
EVSYS_SYNCCH0_PORTA_PIN3_gc = (0x10<<0), /* Synchronous Event from Pin PA3 */
EVSYS_SYNCCH0_PORTA_PIN4_gc = (0x11<<0), /* Synchronous Event from Pin PA4 */
EVSYS_SYNCCH0_PORTA_PIN5_gc = (0x12<<0), /* Synchronous Event from Pin PA5 */
EVSYS_SYNCCH0_PORTA_PIN6_gc = (0x13<<0), /* Synchronous Event from Pin PA6 */
EVSYS_SYNCCH0_PORTA_PIN7_gc = (0x14<<0), /* Synchronous Event from Pin PA7 */
} EVSYS_SYNCCH0_t;
/* Synchronous User Ch 0 Input Selection - TCA0 select */
typedef enum EVSYS_SYNCUSER0_enum
{
EVSYS_SYNCUSER0_OFF_gc = (0x00<<0), /* Off */
EVSYS_SYNCUSER0_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_SYNCUSER0_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
} EVSYS_SYNCUSER0_t;
/* Synchronous User Ch 1 Input Selection - USART0 select */
typedef enum EVSYS_SYNCUSER1_enum
{
EVSYS_SYNCUSER1_OFF_gc = (0x00<<0), /* Off */
EVSYS_SYNCUSER1_SYNCCH0_gc = (0x01<<0), /* Synchronous Event Channel 0 */
EVSYS_SYNCUSER1_SYNCCH1_gc = (0x02<<0), /* Synchronous Event Channel 1 */
} EVSYS_SYNCUSER1_t;
/*
--------------------------------------------------------------------------
FUSE - Fuses
--------------------------------------------------------------------------
*/
/* Fuses */
typedef struct FUSE_struct
{
register8_t WDTCFG; /* Watchdog Configuration */
register8_t BODCFG; /* BOD Configuration */
register8_t OSCCFG; /* Oscillator Configuration */
register8_t reserved_0x03;
register8_t TCD0CFG; /* TCD0 Configuration */
register8_t SYSCFG0; /* System Configuration 0 */
register8_t SYSCFG1; /* System Configuration 1 */
register8_t APPEND; /* Application Code Section End */
register8_t BOOTEND; /* Boot Section End */
} FUSE_t;
/* avr-libc typedef for avr/fuse.h */
typedef FUSE_t NVM_FUSES_t;
/* BOD Operation in Active Mode select */
typedef enum ACTIVE_enum
{
ACTIVE_DIS_gc = (0x00<<2), /* Disabled */
ACTIVE_ENABLED_gc = (0x01<<2), /* Enabled */
ACTIVE_SAMPLED_gc = (0x02<<2), /* Sampled */
ACTIVE_ENWAKE_gc = (0x03<<2), /* Enabled with wake-up halted until BOD is ready */
} ACTIVE_t;
/* CRC Source select */
typedef enum CRCSRC_enum
{
CRCSRC_FLASH_gc = (0x00<<6), /* The CRC is performed on the entire Flash (boot, application code and application data section). */
CRCSRC_BOOT_gc = (0x01<<6), /* The CRC is performed on the boot section of Flash */
CRCSRC_BOOTAPP_gc = (0x02<<6), /* The CRC is performed on the boot and application code section of Flash */
CRCSRC_NOCRC_gc = (0x03<<6), /* Disable CRC. */
} CRCSRC_t;
/* Frequency Select select */
typedef enum FREQSEL_enum
{
FREQSEL_16MHZ_gc = (0x01<<0), /* 16 MHz */
FREQSEL_20MHZ_gc = (0x02<<0), /* 20 MHz */
} FREQSEL_t;
/* BOD Level select */
typedef enum LVL_enum
{
LVL_BODLEVEL0_gc = (0x00<<5), /* 1.8 V */
LVL_BODLEVEL1_gc = (0x01<<5), /* 2.1 V */
LVL_BODLEVEL2_gc = (0x02<<5), /* 2.6 V */
LVL_BODLEVEL3_gc = (0x03<<5), /* 2.9 V */
LVL_BODLEVEL4_gc = (0x04<<5), /* 3.3 V */
LVL_BODLEVEL5_gc = (0x05<<5), /* 3.7 V */
LVL_BODLEVEL6_gc = (0x06<<5), /* 4.0 V */
LVL_BODLEVEL7_gc = (0x07<<5), /* 4.2 V */
} LVL_t;
/* Watchdog Timeout Period select */
typedef enum PERIOD_enum
{
PERIOD_OFF_gc = (0x00<<0), /* Watch-Dog timer Off */
PERIOD_8CLK_gc = (0x01<<0), /* 8 cycles (8ms) */
PERIOD_16CLK_gc = (0x02<<0), /* 16 cycles (16ms) */
PERIOD_32CLK_gc = (0x03<<0), /* 32 cycles (32ms) */
PERIOD_64CLK_gc = (0x04<<0), /* 64 cycles (64ms) */
PERIOD_128CLK_gc = (0x05<<0), /* 128 cycles (0.128s) */
PERIOD_256CLK_gc = (0x06<<0), /* 256 cycles (0.256s) */
PERIOD_512CLK_gc = (0x07<<0), /* 512 cycles (0.512s) */
PERIOD_1KCLK_gc = (0x08<<0), /* 1K cycles (1.0s) */
PERIOD_2KCLK_gc = (0x09<<0), /* 2K cycles (2.0s) */
PERIOD_4KCLK_gc = (0x0A<<0), /* 4K cycles (4.1s) */
PERIOD_8KCLK_gc = (0x0B<<0), /* 8K cycles (8.2s) */
} PERIOD_t;
/* Reset Pin Configuration select */
typedef enum RSTPINCFG_enum
{
RSTPINCFG_GPIO_gc = (0x00<<2), /* GPIO mode */
RSTPINCFG_UPDI_gc = (0x01<<2), /* UPDI mode */
RSTPINCFG_RST_gc = (0x02<<2), /* Reset mode */
} RSTPINCFG_t;
/* BOD Sample Frequency select */
typedef enum SAMPFREQ_enum
{
SAMPFREQ_1KHz_gc = (0x00<<4), /* 1kHz sampling frequency */
SAMPFREQ_125Hz_gc = (0x01<<4), /* 125Hz sampling frequency */
} SAMPFREQ_t;
/* BOD Operation in Sleep Mode select */
typedef enum SLEEP_enum
{
SLEEP_DIS_gc = (0x00<<0), /* Disabled */
SLEEP_ENABLED_gc = (0x01<<0), /* Enabled */
SLEEP_SAMPLED_gc = (0x02<<0), /* Sampled */
} SLEEP_t;
/* Startup Time select */
typedef enum SUT_enum
{
SUT_0MS_gc = (0x00<<0), /* 0 ms */
SUT_1MS_gc = (0x01<<0), /* 1 ms */
SUT_2MS_gc = (0x02<<0), /* 2 ms */
SUT_4MS_gc = (0x03<<0), /* 4 ms */
SUT_8MS_gc = (0x04<<0), /* 8 ms */
SUT_16MS_gc = (0x05<<0), /* 16 ms */
SUT_32MS_gc = (0x06<<0), /* 32 ms */
SUT_64MS_gc = (0x07<<0), /* 64 ms */
} SUT_t;
/* Watchdog Window Timeout Period select */
typedef enum WINDOW_enum
{
WINDOW_OFF_gc = (0x00<<4), /* Window mode off */
WINDOW_8CLK_gc = (0x01<<4), /* 8 cycles (8ms) */
WINDOW_16CLK_gc = (0x02<<4), /* 16 cycles (16ms) */
WINDOW_32CLK_gc = (0x03<<4), /* 32 cycles (32ms) */
WINDOW_64CLK_gc = (0x04<<4), /* 64 cycles (64ms) */
WINDOW_128CLK_gc = (0x05<<4), /* 128 cycles (0.128s) */
WINDOW_256CLK_gc = (0x06<<4), /* 256 cycles (0.256s) */
WINDOW_512CLK_gc = (0x07<<4), /* 512 cycles (0.512s) */
WINDOW_1KCLK_gc = (0x08<<4), /* 1K cycles (1.0s) */
WINDOW_2KCLK_gc = (0x09<<4), /* 2K cycles (2.0s) */
WINDOW_4KCLK_gc = (0x0A<<4), /* 4K cycles (4.1s) */
WINDOW_8KCLK_gc = (0x0B<<4), /* 8K cycles (8.2s) */
} WINDOW_t;
/*
--------------------------------------------------------------------------
LOCKBIT - Lockbit
--------------------------------------------------------------------------
*/
/* Lockbit */
typedef struct LOCKBIT_struct
{
register8_t LOCKBIT; /* Lock bits */
} LOCKBIT_t;
/* Lock Bits select */
typedef enum LB_enum
{
LB_RWLOCK_gc = (0x3A<<0), /* Read and write lock */
LB_NOLOCK_gc = (0xC5<<0), /* No locks */
} LB_t;
/*
--------------------------------------------------------------------------
NVMCTRL - Non-volatile Memory Controller
--------------------------------------------------------------------------
*/
/* Non-volatile Memory Controller */
typedef struct NVMCTRL_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t STATUS; /* Status */
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t reserved_0x05;
_WORDREGISTER(DATA); /* Data */
_WORDREGISTER(ADDR); /* Address */
register8_t reserved_0x0A;
register8_t reserved_0x0B;
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
} NVMCTRL_t;
/* Command select */
typedef enum NVMCTRL_CMD_enum
{
NVMCTRL_CMD_NONE_gc = (0x00<<0), /* No Command */
NVMCTRL_CMD_PAGEWRITE_gc = (0x01<<0), /* Write page */
NVMCTRL_CMD_PAGEERASE_gc = (0x02<<0), /* Erase page */
NVMCTRL_CMD_PAGEERASEWRITE_gc = (0x03<<0), /* Erase and write page */
NVMCTRL_CMD_PAGEBUFCLR_gc = (0x04<<0), /* Page buffer clear */
NVMCTRL_CMD_CHIPERASE_gc = (0x05<<0), /* Chip erase */
NVMCTRL_CMD_EEERASE_gc = (0x06<<0), /* EEPROM erase */
NVMCTRL_CMD_FUSEWRITE_gc = (0x07<<0), /* Write fuse (PDI only) */
} NVMCTRL_CMD_t;
/*
--------------------------------------------------------------------------
PORT - I/O Ports
--------------------------------------------------------------------------
*/
/* I/O Ports */
typedef struct PORT_struct
{
register8_t DIR; /* Data Direction */
register8_t DIRSET; /* Data Direction Set */
register8_t DIRCLR; /* Data Direction Clear */
register8_t DIRTGL; /* Data Direction Toggle */
register8_t OUT; /* Output Value */
register8_t OUTSET; /* Output Value Set */
register8_t OUTCLR; /* Output Value Clear */
register8_t OUTTGL; /* Output Value Toggle */
register8_t IN; /* Input Value */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t reserved_0x0A;
register8_t reserved_0x0B;
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
register8_t PIN0CTRL; /* Pin 0 Control */
register8_t PIN1CTRL; /* Pin 1 Control */
register8_t PIN2CTRL; /* Pin 2 Control */
register8_t PIN3CTRL; /* Pin 3 Control */
register8_t PIN4CTRL; /* Pin 4 Control */
register8_t PIN5CTRL; /* Pin 5 Control */
register8_t PIN6CTRL; /* Pin 6 Control */
register8_t PIN7CTRL; /* Pin 7 Control */
register8_t reserved_0x18;
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
} PORT_t;
/* Input/Sense Configuration select */
typedef enum PORT_ISC_enum
{
PORT_ISC_INTDISABLE_gc = (0x00<<0), /* Interrupt disabled but input buffer enabled */
PORT_ISC_BOTHEDGES_gc = (0x01<<0), /* Sense Both Edges */
PORT_ISC_RISING_gc = (0x02<<0), /* Sense Rising Edge */
PORT_ISC_FALLING_gc = (0x03<<0), /* Sense Falling Edge */
PORT_ISC_INPUT_DISABLE_gc = (0x04<<0), /* Digital Input Buffer disabled */
PORT_ISC_LEVEL_gc = (0x05<<0), /* Sense low Level */
} PORT_ISC_t;
/*
--------------------------------------------------------------------------
PORTMUX - Port Multiplexer
--------------------------------------------------------------------------
*/
/* Port Multiplexer */
typedef struct PORTMUX_struct
{
register8_t CTRLA; /* Port Multiplexer Control A */
register8_t CTRLB; /* Port Multiplexer Control B */
register8_t CTRLC; /* Port Multiplexer Control C */
register8_t CTRLD; /* Port Multiplexer Control D */
register8_t reserved_0x04;
register8_t reserved_0x05;
register8_t reserved_0x06;
register8_t reserved_0x07;
register8_t reserved_0x08;
register8_t reserved_0x09;
register8_t reserved_0x0A;
register8_t reserved_0x0B;
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
} PORTMUX_t;
/* Configurable Custom Logic LUT0 select */
typedef enum PORTMUX_LUT0_enum
{
PORTMUX_LUT0_DEFAULT_gc = (0x00<<4), /* Default pin */
PORTMUX_LUT0_ALTERNATE_gc = (0x01<<4), /* Alternate pin */
} PORTMUX_LUT0_t;
/* Configurable Custom Logic LUT1 select */
typedef enum PORTMUX_LUT1_enum
{
PORTMUX_LUT1_DEFAULT_gc = (0x00<<5), /* Default pin */
PORTMUX_LUT1_ALTERNATE_gc = (0x01<<5), /* Alternate pin */
} PORTMUX_LUT1_t;
/* Port Multiplexer SPI0 select */
typedef enum PORTMUX_SPI0_enum
{
PORTMUX_SPI0_DEFAULT_gc = (0x00<<2), /* Default pins */
PORTMUX_SPI0_ALTERNATE_gc = (0x01<<2), /* Alternate pins */
} PORTMUX_SPI0_t;
/* Port Multiplexer TCA0 Output 0 select */
typedef enum PORTMUX_TCA00_enum
{
PORTMUX_TCA00_DEFAULT_gc = (0x00<<0), /* Default pin */
PORTMUX_TCA00_ALTERNATE_gc = (0x01<<0), /* Alternate pin */
} PORTMUX_TCA00_t;
/* Port Multiplexer TCA0 Output 1 select */
typedef enum PORTMUX_TCA01_enum
{
PORTMUX_TCA01_DEFAULT_gc = (0x00<<1), /* Default pin */
PORTMUX_TCA01_ALTERNATE_gc = (0x01<<1), /* Alternate pin */
} PORTMUX_TCA01_t;
/* Port Multiplexer TCA0 Output 2 select */
typedef enum PORTMUX_TCA02_enum
{
PORTMUX_TCA02_DEFAULT_gc = (0x00<<2), /* Default pin */
PORTMUX_TCA02_ALTERNATE_gc = (0x01<<2), /* Alternate pin */
} PORTMUX_TCA02_t;
/* Port Multiplexer TCA0 Output 3 select */
typedef enum PORTMUX_TCA03_enum
{
PORTMUX_TCA03_DEFAULT_gc = (0x00<<3), /* Default pin */
PORTMUX_TCA03_ALTERNATE_gc = (0x01<<3), /* Alternate pin */
} PORTMUX_TCA03_t;
/* Port Multiplexer TCA0 Output 4 select */
typedef enum PORTMUX_TCA04_enum
{
PORTMUX_TCA04_DEFAULT_gc = (0x00<<4), /* Default pin */
PORTMUX_TCA04_ALTERNATE_gc = (0x01<<4), /* Alternate pin */
} PORTMUX_TCA04_t;
/* Port Multiplexer TCA0 Output 5 select */
typedef enum PORTMUX_TCA05_enum
{
PORTMUX_TCA05_DEFAULT_gc = (0x00<<5), /* Default pin */
PORTMUX_TCA05_ALTERNATE_gc = (0x01<<5), /* Alternate pin */
} PORTMUX_TCA05_t;
/* Port Multiplexer TCB select */
typedef enum PORTMUX_TCB0_enum
{
PORTMUX_TCB0_DEFAULT_gc = (0x00<<0), /* Default pin */
PORTMUX_TCB0_ALTERNATE_gc = (0x01<<0), /* Alternate pin */
} PORTMUX_TCB0_t;
/* Port Multiplexer TWI0 select */
typedef enum PORTMUX_TWI0_enum
{
PORTMUX_TWI0_DEFAULT_gc = (0x00<<4), /* Default pins */
PORTMUX_TWI0_ALTERNATE_gc = (0x01<<4), /* Alternate pins */
} PORTMUX_TWI0_t;
/* Port Multiplexer USART0 select */
typedef enum PORTMUX_USART0_enum
{
PORTMUX_USART0_DEFAULT_gc = (0x00<<0), /* Default pins */
PORTMUX_USART0_ALTERNATE_gc = (0x01<<0), /* Alternate pins */
} PORTMUX_USART0_t;
/*
--------------------------------------------------------------------------
RSTCTRL - Reset controller
--------------------------------------------------------------------------
*/
/* Reset controller */
typedef struct RSTCTRL_struct
{
register8_t RSTFR; /* Reset Flags */
register8_t SWRR; /* Software Reset */
register8_t reserved_0x02;
register8_t reserved_0x03;
} RSTCTRL_t;
/*
--------------------------------------------------------------------------
RTC - Real-Time Counter
--------------------------------------------------------------------------
*/
/* Real-Time Counter */
typedef struct RTC_struct
{
register8_t CTRLA; /* Control A */
register8_t STATUS; /* Status */
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t TEMP; /* Temporary */
register8_t DBGCTRL; /* Debug control */
register8_t reserved_0x06;
register8_t CLKSEL; /* Clock Select */
_WORDREGISTER(CNT); /* Counter */
_WORDREGISTER(PER); /* Period */
_WORDREGISTER(CMP); /* Compare */
register8_t reserved_0x0E;
register8_t reserved_0x0F;
register8_t PITCTRLA; /* PIT Control A */
register8_t PITSTATUS; /* PIT Status */
register8_t PITINTCTRL; /* PIT Interrupt Control */
register8_t PITINTFLAGS; /* PIT Interrupt Flags */
register8_t reserved_0x14;
register8_t PITDBGCTRL; /* PIT Debug control */
register8_t reserved_0x16;
register8_t reserved_0x17;
register8_t reserved_0x18;
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
} RTC_t;
/* Clock Select select */
typedef enum RTC_CLKSEL_enum
{
RTC_CLKSEL_INT32K_gc = (0x00<<0), /* Internal 32kHz OSC */
RTC_CLKSEL_INT1K_gc = (0x01<<0), /* Internal 1kHz OSC */
RTC_CLKSEL_TOSC32K_gc = (0x02<<0), /* 32KHz Crystal OSC */
RTC_CLKSEL_EXTCLK_gc = (0x03<<0), /* External Clock */
} RTC_CLKSEL_t;
/* Period select */
typedef enum RTC_PERIOD_enum
{
RTC_PERIOD_OFF_gc = (0x00<<3), /* Off */
RTC_PERIOD_CYC4_gc = (0x01<<3), /* RTC Clock Cycles 4 */
RTC_PERIOD_CYC8_gc = (0x02<<3), /* RTC Clock Cycles 8 */
RTC_PERIOD_CYC16_gc = (0x03<<3), /* RTC Clock Cycles 16 */
RTC_PERIOD_CYC32_gc = (0x04<<3), /* RTC Clock Cycles 32 */
RTC_PERIOD_CYC64_gc = (0x05<<3), /* RTC Clock Cycles 64 */
RTC_PERIOD_CYC128_gc = (0x06<<3), /* RTC Clock Cycles 128 */
RTC_PERIOD_CYC256_gc = (0x07<<3), /* RTC Clock Cycles 256 */
RTC_PERIOD_CYC512_gc = (0x08<<3), /* RTC Clock Cycles 512 */
RTC_PERIOD_CYC1024_gc = (0x09<<3), /* RTC Clock Cycles 1024 */
RTC_PERIOD_CYC2048_gc = (0x0A<<3), /* RTC Clock Cycles 2048 */
RTC_PERIOD_CYC4096_gc = (0x0B<<3), /* RTC Clock Cycles 4096 */
RTC_PERIOD_CYC8192_gc = (0x0C<<3), /* RTC Clock Cycles 8192 */
RTC_PERIOD_CYC16384_gc = (0x0D<<3), /* RTC Clock Cycles 16384 */
RTC_PERIOD_CYC32768_gc = (0x0E<<3), /* RTC Clock Cycles 32768 */
} RTC_PERIOD_t;
/* Prescaling Factor select */
typedef enum RTC_PRESCALER_enum
{
RTC_PRESCALER_DIV1_gc = (0x00<<3), /* RTC Clock / 1 */
RTC_PRESCALER_DIV2_gc = (0x01<<3), /* RTC Clock / 2 */
RTC_PRESCALER_DIV4_gc = (0x02<<3), /* RTC Clock / 4 */
RTC_PRESCALER_DIV8_gc = (0x03<<3), /* RTC Clock / 8 */
RTC_PRESCALER_DIV16_gc = (0x04<<3), /* RTC Clock / 16 */
RTC_PRESCALER_DIV32_gc = (0x05<<3), /* RTC Clock / 32 */
RTC_PRESCALER_DIV64_gc = (0x06<<3), /* RTC Clock / 64 */
RTC_PRESCALER_DIV128_gc = (0x07<<3), /* RTC Clock / 128 */
RTC_PRESCALER_DIV256_gc = (0x08<<3), /* RTC Clock / 256 */
RTC_PRESCALER_DIV512_gc = (0x09<<3), /* RTC Clock / 512 */
RTC_PRESCALER_DIV1024_gc = (0x0A<<3), /* RTC Clock / 1024 */
RTC_PRESCALER_DIV2048_gc = (0x0B<<3), /* RTC Clock / 2048 */
RTC_PRESCALER_DIV4096_gc = (0x0C<<3), /* RTC Clock / 4096 */
RTC_PRESCALER_DIV8192_gc = (0x0D<<3), /* RTC Clock / 8192 */
RTC_PRESCALER_DIV16384_gc = (0x0E<<3), /* RTC Clock / 16384 */
RTC_PRESCALER_DIV32768_gc = (0x0F<<3), /* RTC Clock / 32768 */
} RTC_PRESCALER_t;
/*
--------------------------------------------------------------------------
SIGROW - Signature row
--------------------------------------------------------------------------
*/
/* Signature row */
typedef struct SIGROW_struct
{
register8_t DEVICEID0; /* Device ID Byte 0 */
register8_t DEVICEID1; /* Device ID Byte 1 */
register8_t DEVICEID2; /* Device ID Byte 2 */
register8_t SERNUM0; /* Serial Number Byte 0 */
register8_t SERNUM1; /* Serial Number Byte 1 */
register8_t SERNUM2; /* Serial Number Byte 2 */
register8_t SERNUM3; /* Serial Number Byte 3 */
register8_t SERNUM4; /* Serial Number Byte 4 */
register8_t SERNUM5; /* Serial Number Byte 5 */
register8_t SERNUM6; /* Serial Number Byte 6 */
register8_t SERNUM7; /* Serial Number Byte 7 */
register8_t SERNUM8; /* Serial Number Byte 8 */
register8_t SERNUM9; /* Serial Number Byte 9 */
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
register8_t reserved_0x10;
register8_t reserved_0x11;
register8_t reserved_0x12;
register8_t reserved_0x13;
register8_t reserved_0x14;
register8_t reserved_0x15;
register8_t reserved_0x16;
register8_t reserved_0x17;
register8_t reserved_0x18;
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
register8_t TEMPSENSE0; /* Temperature Sensor Calibration Byte 0 */
register8_t TEMPSENSE1; /* Temperature Sensor Calibration Byte 1 */
register8_t OSC16ERR3V; /* OSC16 error at 3V */
register8_t OSC16ERR5V; /* OSC16 error at 5V */
register8_t OSC20ERR3V; /* OSC20 error at 3V */
register8_t OSC20ERR5V; /* OSC20 error at 5V */
register8_t reserved_0x26;
register8_t reserved_0x27;
register8_t reserved_0x28;
register8_t reserved_0x29;
register8_t reserved_0x2A;
register8_t reserved_0x2B;
register8_t reserved_0x2C;
register8_t reserved_0x2D;
register8_t reserved_0x2E;
register8_t reserved_0x2F;
register8_t reserved_0x30;
register8_t reserved_0x31;
register8_t reserved_0x32;
register8_t reserved_0x33;
register8_t reserved_0x34;
register8_t reserved_0x35;
register8_t reserved_0x36;
register8_t reserved_0x37;
register8_t reserved_0x38;
register8_t reserved_0x39;
register8_t reserved_0x3A;
register8_t reserved_0x3B;
register8_t reserved_0x3C;
register8_t reserved_0x3D;
register8_t reserved_0x3E;
register8_t reserved_0x3F;
} SIGROW_t;
/*
--------------------------------------------------------------------------
SLPCTRL - Sleep Controller
--------------------------------------------------------------------------
*/
/* Sleep Controller */
typedef struct SLPCTRL_struct
{
register8_t CTRLA; /* Control */
register8_t reserved_0x01;
} SLPCTRL_t;
/* Sleep mode select */
typedef enum SLPCTRL_SMODE_enum
{
SLPCTRL_SMODE_IDLE_gc = (0x00<<1), /* Idle mode */
SLPCTRL_SMODE_STDBY_gc = (0x01<<1), /* Standby Mode */
SLPCTRL_SMODE_PDOWN_gc = (0x02<<1), /* Power-down Mode */
} SLPCTRL_SMODE_t;
#define SLEEP_MODE_IDLE (0x00<<1)
#define SLEEP_MODE_STANDBY (0x01<<1)
#define SLEEP_MODE_PWR_DOWN (0x02<<1)
/*
--------------------------------------------------------------------------
SPI - Serial Peripheral Interface
--------------------------------------------------------------------------
*/
/* Serial Peripheral Interface */
typedef struct SPI_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t DATA; /* Data */
register8_t reserved_0x05;
register8_t reserved_0x06;
register8_t reserved_0x07;
} SPI_t;
/* SPI Mode select */
typedef enum SPI_MODE_enum
{
SPI_MODE_0_gc = (0x00<<0), /* SPI Mode 0 */
SPI_MODE_1_gc = (0x01<<0), /* SPI Mode 1 */
SPI_MODE_2_gc = (0x02<<0), /* SPI Mode 2 */
SPI_MODE_3_gc = (0x03<<0), /* SPI Mode 3 */
} SPI_MODE_t;
/* Prescaler select */
typedef enum SPI_PRESC_enum
{
SPI_PRESC_DIV4_gc = (0x00<<1), /* System Clock / 4 */
SPI_PRESC_DIV16_gc = (0x01<<1), /* System Clock / 16 */
SPI_PRESC_DIV64_gc = (0x02<<1), /* System Clock / 64 */
SPI_PRESC_DIV128_gc = (0x03<<1), /* System Clock / 128 */
} SPI_PRESC_t;
/*
--------------------------------------------------------------------------
SYSCFG - System Configuration Registers
--------------------------------------------------------------------------
*/
/* System Configuration Registers */
typedef struct SYSCFG_struct
{
register8_t reserved_0x00;
register8_t REVID; /* Revision ID */
register8_t EXTBRK; /* External Break */
register8_t reserved_0x03;
register8_t reserved_0x04;
register8_t reserved_0x05;
register8_t reserved_0x06;
register8_t reserved_0x07;
register8_t reserved_0x08;
register8_t reserved_0x09;
register8_t reserved_0x0A;
register8_t reserved_0x0B;
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t reserved_0x0E;
register8_t reserved_0x0F;
register8_t reserved_0x10;
register8_t reserved_0x11;
register8_t reserved_0x12;
register8_t reserved_0x13;
register8_t reserved_0x14;
register8_t reserved_0x15;
register8_t reserved_0x16;
register8_t reserved_0x17;
register8_t reserved_0x18;
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
} SYSCFG_t;
/*
--------------------------------------------------------------------------
TCA - 16-bit Timer/Counter Type A
--------------------------------------------------------------------------
*/
/* 16-bit Timer/Counter Type A - Single Mode */
typedef struct TCA_SINGLE_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t CTRLC; /* Control C */
register8_t CTRLD; /* Control D */
register8_t CTRLECLR; /* Control E Clear */
register8_t CTRLESET; /* Control E Set */
register8_t CTRLFCLR; /* Control F Clear */
register8_t CTRLFSET; /* Control F Set */
register8_t reserved_0x08;
register8_t EVCTRL; /* Event Control */
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t DBGCTRL; /* Degbug Control */
register8_t TEMP; /* Temporary data for 16-bit Access */
register8_t reserved_0x10;
register8_t reserved_0x11;
register8_t reserved_0x12;
register8_t reserved_0x13;
register8_t reserved_0x14;
register8_t reserved_0x15;
register8_t reserved_0x16;
register8_t reserved_0x17;
register8_t reserved_0x18;
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
_WORDREGISTER(CNT); /* Count */
register8_t reserved_0x22;
register8_t reserved_0x23;
register8_t reserved_0x24;
register8_t reserved_0x25;
_WORDREGISTER(PER); /* Period */
_WORDREGISTER(CMP0); /* Compare 0 */
_WORDREGISTER(CMP1); /* Compare 1 */
_WORDREGISTER(CMP2); /* Compare 2 */
register8_t reserved_0x2E;
register8_t reserved_0x2F;
register8_t reserved_0x30;
register8_t reserved_0x31;
register8_t reserved_0x32;
register8_t reserved_0x33;
register8_t reserved_0x34;
register8_t reserved_0x35;
_WORDREGISTER(PERBUF); /* Period Buffer */
_WORDREGISTER(CMP0BUF); /* Compare 0 Buffer */
_WORDREGISTER(CMP1BUF); /* Compare 1 Buffer */
_WORDREGISTER(CMP2BUF); /* Compare 2 Buffer */
register8_t reserved_0x3E;
register8_t reserved_0x3F;
} TCA_SINGLE_t;
/* 16-bit Timer/Counter Type A - Split Mode */
typedef struct TCA_SPLIT_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t CTRLC; /* Control C */
register8_t CTRLD; /* Control D */
register8_t CTRLECLR; /* Control E Clear */
register8_t CTRLESET; /* Control E Set */
register8_t reserved_0x06;
register8_t reserved_0x07;
register8_t reserved_0x08;
register8_t reserved_0x09;
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t reserved_0x0C;
register8_t reserved_0x0D;
register8_t DBGCTRL; /* Degbug Control */
register8_t reserved_0x0F;
register8_t reserved_0x10;
register8_t reserved_0x11;
register8_t reserved_0x12;
register8_t reserved_0x13;
register8_t reserved_0x14;
register8_t reserved_0x15;
register8_t reserved_0x16;
register8_t reserved_0x17;
register8_t reserved_0x18;
register8_t reserved_0x19;
register8_t reserved_0x1A;
register8_t reserved_0x1B;
register8_t reserved_0x1C;
register8_t reserved_0x1D;
register8_t reserved_0x1E;
register8_t reserved_0x1F;
register8_t LCNT; /* Low Count */
register8_t HCNT; /* High Count */
register8_t reserved_0x22;
register8_t reserved_0x23;
register8_t reserved_0x24;
register8_t reserved_0x25;
register8_t LPER; /* Low Period */
register8_t HPER; /* High Period */
register8_t LCMP0; /* Low Compare */
register8_t HCMP0; /* High Compare */
register8_t LCMP1; /* Low Compare */
register8_t HCMP1; /* High Compare */
register8_t LCMP2; /* Low Compare */
register8_t HCMP2; /* High Compare */
register8_t reserved_0x2E;
register8_t reserved_0x2F;
register8_t reserved_0x30;
register8_t reserved_0x31;
register8_t reserved_0x32;
register8_t reserved_0x33;
register8_t reserved_0x34;
register8_t reserved_0x35;
register8_t reserved_0x36;
register8_t reserved_0x37;
register8_t reserved_0x38;
register8_t reserved_0x39;
register8_t reserved_0x3A;
register8_t reserved_0x3B;
register8_t reserved_0x3C;
register8_t reserved_0x3D;
register8_t reserved_0x3E;
register8_t reserved_0x3F;
} TCA_SPLIT_t;
/* 16-bit Timer/Counter Type A */
typedef union TCA_union
{
TCA_SINGLE_t SINGLE; /* 16-bit Timer/Counter Type A - Single Mode */
TCA_SPLIT_t SPLIT; /* 16-bit Timer/Counter Type A - Split Mode */
} TCA_t;
/* Clock Selection select */
typedef enum TCA_SINGLE_CLKSEL_enum
{
TCA_SINGLE_CLKSEL_DIV1_gc = (0x00<<1), /* System Clock */
TCA_SINGLE_CLKSEL_DIV2_gc = (0x01<<1), /* System Clock / 2 */
TCA_SINGLE_CLKSEL_DIV4_gc = (0x02<<1), /* System Clock / 4 */
TCA_SINGLE_CLKSEL_DIV8_gc = (0x03<<1), /* System Clock / 8 */
TCA_SINGLE_CLKSEL_DIV16_gc = (0x04<<1), /* System Clock / 16 */
TCA_SINGLE_CLKSEL_DIV64_gc = (0x05<<1), /* System Clock / 64 */
TCA_SINGLE_CLKSEL_DIV256_gc = (0x06<<1), /* System Clock / 256 */
TCA_SINGLE_CLKSEL_DIV1024_gc = (0x07<<1), /* System Clock / 1024 */
} TCA_SINGLE_CLKSEL_t;
/* Command select */
typedef enum TCA_SINGLE_CMD_enum
{
TCA_SINGLE_CMD_NONE_gc = (0x00<<2), /* No Command */
TCA_SINGLE_CMD_UPDATE_gc = (0x01<<2), /* Force Update */
TCA_SINGLE_CMD_RESTART_gc = (0x02<<2), /* Force Restart */
TCA_SINGLE_CMD_RESET_gc = (0x03<<2), /* Force Hard Reset */
} TCA_SINGLE_CMD_t;
/* Direction select */
typedef enum TCA_SINGLE_DIR_enum
{
TCA_SINGLE_DIR_UP_gc = (0x00<<0), /* Count up */
TCA_SINGLE_DIR_DOWN_gc = (0x01<<0), /* Count down */
} TCA_SINGLE_DIR_t;
/* Event Action select */
typedef enum TCA_SINGLE_EVACT_enum
{
TCA_SINGLE_EVACT_POSEDGE_gc = (0x00<<1), /* Count on positive edge event */
TCA_SINGLE_EVACT_ANYEDGE_gc = (0x01<<1), /* Count on any edge event */
TCA_SINGLE_EVACT_HIGHLVL_gc = (0x02<<1), /* Count on prescaled clock while event line is 1. */
TCA_SINGLE_EVACT_UPDOWN_gc = (0x03<<1), /* Count on prescaled clock. Event controls count direction. Up-count when event line is 0, down-count when event line is 1. */
} TCA_SINGLE_EVACT_t;
/* Waveform generation mode select */
typedef enum TCA_SINGLE_WGMODE_enum
{
TCA_SINGLE_WGMODE_NORMAL_gc = (0x00<<0), /* Normal Mode */
TCA_SINGLE_WGMODE_FRQ_gc = (0x01<<0), /* Frequency Generation Mode */
TCA_SINGLE_WGMODE_SINGLESLOPE_gc = (0x03<<0), /* Single Slope PWM */
TCA_SINGLE_WGMODE_DSTOP_gc = (0x05<<0), /* Dual Slope PWM, overflow on TOP */
TCA_SINGLE_WGMODE_DSBOTH_gc = (0x06<<0), /* Dual Slope PWM, overflow on TOP and BOTTOM */
TCA_SINGLE_WGMODE_DSBOTTOM_gc = (0x07<<0), /* Dual Slope PWM, overflow on BOTTOM */
} TCA_SINGLE_WGMODE_t;
/* Clock Selection select */
typedef enum TCA_SPLIT_CLKSEL_enum
{
TCA_SPLIT_CLKSEL_DIV1_gc = (0x00<<1), /* System Clock */
TCA_SPLIT_CLKSEL_DIV2_gc = (0x01<<1), /* System Clock / 2 */
TCA_SPLIT_CLKSEL_DIV4_gc = (0x02<<1), /* System Clock / 4 */
TCA_SPLIT_CLKSEL_DIV8_gc = (0x03<<1), /* System Clock / 8 */
TCA_SPLIT_CLKSEL_DIV16_gc = (0x04<<1), /* System Clock / 16 */
TCA_SPLIT_CLKSEL_DIV64_gc = (0x05<<1), /* System Clock / 64 */
TCA_SPLIT_CLKSEL_DIV256_gc = (0x06<<1), /* System Clock / 256 */
TCA_SPLIT_CLKSEL_DIV1024_gc = (0x07<<1), /* System Clock / 1024 */
} TCA_SPLIT_CLKSEL_t;
/* Command select */
typedef enum TCA_SPLIT_CMD_enum
{
TCA_SPLIT_CMD_NONE_gc = (0x00<<2), /* No Command */
TCA_SPLIT_CMD_UPDATE_gc = (0x01<<2), /* Force Update */
TCA_SPLIT_CMD_RESTART_gc = (0x02<<2), /* Force Restart */
TCA_SPLIT_CMD_RESET_gc = (0x03<<2), /* Force Hard Reset */
} TCA_SPLIT_CMD_t;
/*
--------------------------------------------------------------------------
TCB - 16-bit Timer Type B
--------------------------------------------------------------------------
*/
/* 16-bit Timer Type B */
typedef struct TCB_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control Register B */
register8_t reserved_0x02;
register8_t reserved_0x03;
register8_t EVCTRL; /* Event Control */
register8_t INTCTRL; /* Interrupt Control */
register8_t INTFLAGS; /* Interrupt Flags */
register8_t STATUS; /* Status */
register8_t DBGCTRL; /* Debug Control */
register8_t TEMP; /* Temporary Value */
_WORDREGISTER(CNT); /* Count */
_WORDREGISTER(CCMP); /* Compare or Capture */
register8_t reserved_0x0E;
register8_t reserved_0x0F;
} TCB_t;
/* Clock Select select */
typedef enum TCB_CLKSEL_enum
{
TCB_CLKSEL_CLKDIV1_gc = (0x00<<1), /* CLK_PER (No Prescaling) */
TCB_CLKSEL_CLKDIV2_gc = (0x01<<1), /* CLK_PER/2 (From Prescaler) */
TCB_CLKSEL_CLKTCA_gc = (0x02<<1), /* Use Clock from TCA */
} TCB_CLKSEL_t;
/* Timer Mode select */
typedef enum TCB_CNTMODE_enum
{
TCB_CNTMODE_INT_gc = (0x00<<0), /* Periodic Interrupt */
TCB_CNTMODE_TIMEOUT_gc = (0x01<<0), /* Periodic Timeout */
TCB_CNTMODE_CAPT_gc = (0x02<<0), /* Input Capture Event */
TCB_CNTMODE_FRQ_gc = (0x03<<0), /* Input Capture Frequency measurement */
TCB_CNTMODE_PW_gc = (0x04<<0), /* Input Capture Pulse-Width measurement */
TCB_CNTMODE_FRQPW_gc = (0x05<<0), /* Input Capture Frequency and Pulse-Width measurement */
TCB_CNTMODE_SINGLE_gc = (0x06<<0), /* Single Shot */
TCB_CNTMODE_PWM8_gc = (0x07<<0), /* 8-bit PWM */
} TCB_CNTMODE_t;
/*
--------------------------------------------------------------------------
TWI - Two-Wire Interface
--------------------------------------------------------------------------
*/
/* Two-Wire Interface */
typedef struct TWI_struct
{
register8_t CTRLA; /* Control A */
register8_t reserved_0x01;
register8_t DBGCTRL; /* Debug Control Register */
register8_t MCTRLA; /* Master Control A */
register8_t MCTRLB; /* Master Control B */
register8_t MSTATUS; /* Master Status */
register8_t MBAUD; /* Master Baurd Rate Control */
register8_t MADDR; /* Master Address */
register8_t MDATA; /* Master Data */
register8_t SCTRLA; /* Slave Control A */
register8_t SCTRLB; /* Slave Control B */
register8_t SSTATUS; /* Slave Status */
register8_t SADDR; /* Slave Address */
register8_t SDATA; /* Slave Data */
register8_t SADDRMASK; /* Slave Address Mask */
register8_t reserved_0x0F;
} TWI_t;
/* Acknowledge Action select */
typedef enum TWI_ACKACT_enum
{
TWI_ACKACT_ACK_gc = (0x00<<2), /* Send ACK */
TWI_ACKACT_NACK_gc = (0x01<<2), /* Send NACK */
} TWI_ACKACT_t;
/* Slave Address or Stop select */
typedef enum TWI_AP_enum
{
TWI_AP_STOP_gc = (0x00<<0), /* Stop condition generated APIF */
TWI_AP_ADR_gc = (0x01<<0), /* Address detection generated APIF */
} TWI_AP_t;
/* Bus State select */
typedef enum TWI_BUSSTATE_enum
{
TWI_BUSSTATE_UNKNOWN_gc = (0x00<<0), /* Unknown Bus State */
TWI_BUSSTATE_IDLE_gc = (0x01<<0), /* Bus is Idle */
TWI_BUSSTATE_OWNER_gc = (0x02<<0), /* This Module Controls The Bus */
TWI_BUSSTATE_BUSY_gc = (0x03<<0), /* The Bus is Busy */
} TWI_BUSSTATE_t;
/* Command select */
typedef enum TWI_MCMD_enum
{
TWI_MCMD_NOACT_gc = (0x00<<0), /* No Action */
TWI_MCMD_REPSTART_gc = (0x01<<0), /* Issue Repeated Start Condition */
TWI_MCMD_RECVTRANS_gc = (0x02<<0), /* Receive or Transmit Data, depending on DIR */
TWI_MCMD_STOP_gc = (0x03<<0), /* Issue Stop Condition */
} TWI_MCMD_t;
/* Command select */
typedef enum TWI_SCMD_enum
{
TWI_SCMD_NOACT_gc = (0x00<<0), /* No Action */
TWI_SCMD_COMPTRANS_gc = (0x02<<0), /* Used To Complete a Transaction */
TWI_SCMD_RESPONSE_gc = (0x03<<0), /* Used in Response to Address/Data Interrupt */
} TWI_SCMD_t;
/* SDA Hold Time select */
typedef enum TWI_SDAHOLD_enum
{
TWI_SDAHOLD_OFF_gc = (0x00<<2), /* SDA hold time off */
TWI_SDAHOLD_50NS_gc = (0x01<<2), /* Typical 50ns hold time */
TWI_SDAHOLD_300NS_gc = (0x02<<2), /* Typical 300ns hold time */
TWI_SDAHOLD_500NS_gc = (0x03<<2), /* Typical 500ns hold time */
} TWI_SDAHOLD_t;
/* SDA Setup Time select */
typedef enum TWI_SDASETUP_enum
{
TWI_SDASETUP_4CYC_gc = (0x00<<4), /* SDA setup time is 4 clock cycles */
TWI_SDASETUP_8CYC_gc = (0x01<<4), /* SDA setup time is 8 clock cycles */
} TWI_SDASETUP_t;
/* Inactive Bus Timeout select */
typedef enum TWI_TIMEOUT_enum
{
TWI_TIMEOUT_DISABLED_gc = (0x00<<2), /* Bus Timeout Disabled */
TWI_TIMEOUT_50US_gc = (0x01<<2), /* 50 Microseconds */
TWI_TIMEOUT_100US_gc = (0x02<<2), /* 100 Microseconds */
TWI_TIMEOUT_200US_gc = (0x03<<2), /* 200 Microseconds */
} TWI_TIMEOUT_t;
/*
--------------------------------------------------------------------------
USART - Universal Synchronous and Asynchronous Receiver and Transmitter
--------------------------------------------------------------------------
*/
/* Universal Synchronous and Asynchronous Receiver and Transmitter */
typedef struct USART_struct
{
register8_t RXDATAL; /* Receive Data Low Byte */
register8_t RXDATAH; /* Receive Data High Byte */
register8_t TXDATAL; /* Transmit Data Low Byte */
register8_t TXDATAH; /* Transmit Data High Byte */
register8_t STATUS; /* Status */
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
register8_t CTRLC; /* Control C */
_WORDREGISTER(BAUD); /* Baud Rate */
register8_t reserved_0x0A;
register8_t DBGCTRL; /* Debug Control */
register8_t EVCTRL; /* Event Control */
register8_t TXPLCTRL; /* IRCOM Transmitter Pulse Length Control */
register8_t RXPLCTRL; /* IRCOM Receiver Pulse Length Control */
register8_t reserved_0x0F;
} USART_t;
/* Character Size select */
typedef enum USART_CHSIZE_enum
{
USART_CHSIZE_5BIT_gc = (0x00<<0), /* Character size: 5 bit */
USART_CHSIZE_6BIT_gc = (0x01<<0), /* Character size: 6 bit */
USART_CHSIZE_7BIT_gc = (0x02<<0), /* Character size: 7 bit */
USART_CHSIZE_8BIT_gc = (0x03<<0), /* Character size: 8 bit */
USART_CHSIZE_9BITL_gc = (0x06<<0), /* Character size: 9 bit read low byte first */
USART_CHSIZE_9BITH_gc = (0x07<<0), /* Character size: 9 bit read high byte first */
} USART_CHSIZE_t;
/* Communication Mode select */
typedef enum USART_CMODE_enum
{
USART_CMODE_ASYNCHRONOUS_gc = (0x00<<6), /* Asynchronous Mode */
USART_CMODE_SYNCHRONOUS_gc = (0x01<<6), /* Synchronous Mode */
USART_CMODE_IRCOM_gc = (0x02<<6), /* Infrared Communication */
USART_CMODE_MSPI_gc = (0x03<<6), /* Master SPI Mode */
} USART_CMODE_t;
/* Communication Mode select */
typedef enum USART_MSPI_CMODE_enum
{
USART_MSPI_CMODE_ASYNCHRONOUS_gc = (0x00<<6), /* Asynchronous Mode */
USART_MSPI_CMODE_SYNCHRONOUS_gc = (0x01<<6), /* Synchronous Mode */
USART_MSPI_CMODE_IRCOM_gc = (0x02<<6), /* Infrared Communication */
USART_MSPI_CMODE_MSPI_gc = (0x03<<6), /* Master SPI Mode */
} USART_MSPI_CMODE_t;
/* Parity Mode select */
typedef enum USART_PMODE_enum
{
USART_PMODE_DISABLED_gc = (0x00<<4), /* No Parity */
USART_PMODE_EVEN_gc = (0x02<<4), /* Even Parity */
USART_PMODE_ODD_gc = (0x03<<4), /* Odd Parity */
} USART_PMODE_t;
/* RS485 Mode internal transmitter select */
typedef enum USART_RS485_enum
{
USART_RS485_OFF_gc = (0x00<<0), /* RS485 Mode disabled */
USART_RS485_EXT_gc = (0x01<<0), /* RS485 Mode External drive */
USART_RS485_INT_gc = (0x02<<0), /* RS485 Mode Internal drive */
} USART_RS485_t;
/* Receiver Mode select */
typedef enum USART_RXMODE_enum
{
USART_RXMODE_NORMAL_gc = (0x00<<1), /* Normal mode */
USART_RXMODE_CLK2X_gc = (0x01<<1), /* CLK2x mode */
USART_RXMODE_GENAUTO_gc = (0x02<<1), /* Generic autobaud mode */
USART_RXMODE_LINAUTO_gc = (0x03<<1), /* LIN constrained autobaud mode */
} USART_RXMODE_t;
/* Stop Bit Mode select */
typedef enum USART_SBMODE_enum
{
USART_SBMODE_1BIT_gc = (0x00<<3), /* 1 stop bit */
USART_SBMODE_2BIT_gc = (0x01<<3), /* 2 stop bits */
} USART_SBMODE_t;
/*
--------------------------------------------------------------------------
USERROW - User Row
--------------------------------------------------------------------------
*/
/* User Row */
typedef struct USERROW_struct
{
register8_t USERROW0; /* User Row Byte 0 */
register8_t USERROW1; /* User Row Byte 1 */
register8_t USERROW2; /* User Row Byte 2 */
register8_t USERROW3; /* User Row Byte 3 */
register8_t USERROW4; /* User Row Byte 4 */
register8_t USERROW5; /* User Row Byte 5 */
register8_t USERROW6; /* User Row Byte 6 */
register8_t USERROW7; /* User Row Byte 7 */
register8_t USERROW8; /* User Row Byte 8 */
register8_t USERROW9; /* User Row Byte 9 */
register8_t USERROW10; /* User Row Byte 10 */
register8_t USERROW11; /* User Row Byte 11 */
register8_t USERROW12; /* User Row Byte 12 */
register8_t USERROW13; /* User Row Byte 13 */
register8_t USERROW14; /* User Row Byte 14 */
register8_t USERROW15; /* User Row Byte 15 */
register8_t USERROW16; /* User Row Byte 16 */
register8_t USERROW17; /* User Row Byte 17 */
register8_t USERROW18; /* User Row Byte 18 */
register8_t USERROW19; /* User Row Byte 19 */
register8_t USERROW20; /* User Row Byte 20 */
register8_t USERROW21; /* User Row Byte 21 */
register8_t USERROW22; /* User Row Byte 22 */
register8_t USERROW23; /* User Row Byte 23 */
register8_t USERROW24; /* User Row Byte 24 */
register8_t USERROW25; /* User Row Byte 25 */
register8_t USERROW26; /* User Row Byte 26 */
register8_t USERROW27; /* User Row Byte 27 */
register8_t USERROW28; /* User Row Byte 28 */
register8_t USERROW29; /* User Row Byte 29 */
register8_t USERROW30; /* User Row Byte 30 */
register8_t USERROW31; /* User Row Byte 31 */
} USERROW_t;
/*
--------------------------------------------------------------------------
VPORT - Virtual Ports
--------------------------------------------------------------------------
*/
/* Virtual Ports */
typedef struct VPORT_struct
{
register8_t DIR; /* Data Direction */
register8_t OUT; /* Output Value */
register8_t IN; /* Input Value */
register8_t INTFLAGS; /* Interrupt Flags */
} VPORT_t;
/*
--------------------------------------------------------------------------
VREF - Voltage reference
--------------------------------------------------------------------------
*/
/* Voltage reference */
typedef struct VREF_struct
{
register8_t CTRLA; /* Control A */
register8_t CTRLB; /* Control B */
} VREF_t;
/* ADC0 reference select select */
typedef enum VREF_ADC0REFSEL_enum
{
VREF_ADC0REFSEL_0V55_gc = (0x00<<4), /* Voltage reference at 0.55V */
VREF_ADC0REFSEL_1V1_gc = (0x01<<4), /* Voltage reference at 1.1V */
VREF_ADC0REFSEL_2V5_gc = (0x02<<4), /* Voltage reference at 2.5V */
VREF_ADC0REFSEL_4V34_gc = (0x03<<4), /* Voltage reference at 4.34V */
VREF_ADC0REFSEL_1V5_gc = (0x04<<4), /* Voltage reference at 1.5V */
} VREF_ADC0REFSEL_t;
/* DAC0/AC0 reference select select */
typedef enum VREF_DAC0REFSEL_enum
{
VREF_DAC0REFSEL_0V55_gc = (0x00<<0), /* Voltage reference at 0.55V */
VREF_DAC0REFSEL_1V1_gc = (0x01<<0), /* Voltage reference at 1.1V */
VREF_DAC0REFSEL_2V5_gc = (0x02<<0), /* Voltage reference at 2.5V */
VREF_DAC0REFSEL_4V34_gc = (0x03<<0), /* Voltage reference at 4.34V */
VREF_DAC0REFSEL_1V5_gc = (0x04<<0), /* Voltage reference at 1.5V */
} VREF_DAC0REFSEL_t;
/*
--------------------------------------------------------------------------
WDT - Watch-Dog Timer
--------------------------------------------------------------------------
*/
/* Watch-Dog Timer */
typedef struct WDT_struct
{
register8_t CTRLA; /* Control A */
register8_t STATUS; /* Status */
} WDT_t;
/* Period select */
typedef enum WDT_PERIOD_enum
{
WDT_PERIOD_OFF_gc = (0x00<<0), /* Watch-Dog timer Off */
WDT_PERIOD_8CLK_gc = (0x01<<0), /* 8 cycles (8ms) */
WDT_PERIOD_16CLK_gc = (0x02<<0), /* 16 cycles (16ms) */
WDT_PERIOD_32CLK_gc = (0x03<<0), /* 32 cycles (32ms) */
WDT_PERIOD_64CLK_gc = (0x04<<0), /* 64 cycles (64ms) */
WDT_PERIOD_128CLK_gc = (0x05<<0), /* 128 cycles (0.128s) */
WDT_PERIOD_256CLK_gc = (0x06<<0), /* 256 cycles (0.256s) */
WDT_PERIOD_512CLK_gc = (0x07<<0), /* 512 cycles (0.512s) */
WDT_PERIOD_1KCLK_gc = (0x08<<0), /* 1K cycles (1.0s) */
WDT_PERIOD_2KCLK_gc = (0x09<<0), /* 2K cycles (2.0s) */
WDT_PERIOD_4KCLK_gc = (0x0A<<0), /* 4K cycles (4.1s) */
WDT_PERIOD_8KCLK_gc = (0x0B<<0), /* 8K cycles (8.2s) */
} WDT_PERIOD_t;
/* Window select */
typedef enum WDT_WINDOW_enum
{
WDT_WINDOW_OFF_gc = (0x00<<4), /* Window mode off */
WDT_WINDOW_8CLK_gc = (0x01<<4), /* 8 cycles (8ms) */
WDT_WINDOW_16CLK_gc = (0x02<<4), /* 16 cycles (16ms) */
WDT_WINDOW_32CLK_gc = (0x03<<4), /* 32 cycles (32ms) */
WDT_WINDOW_64CLK_gc = (0x04<<4), /* 64 cycles (64ms) */
WDT_WINDOW_128CLK_gc = (0x05<<4), /* 128 cycles (0.128s) */
WDT_WINDOW_256CLK_gc = (0x06<<4), /* 256 cycles (0.256s) */
WDT_WINDOW_512CLK_gc = (0x07<<4), /* 512 cycles (0.512s) */
WDT_WINDOW_1KCLK_gc = (0x08<<4), /* 1K cycles (1.0s) */
WDT_WINDOW_2KCLK_gc = (0x09<<4), /* 2K cycles (2.0s) */
WDT_WINDOW_4KCLK_gc = (0x0A<<4), /* 4K cycles (4.1s) */
WDT_WINDOW_8KCLK_gc = (0x0B<<4), /* 8K cycles (8.2s) */
} WDT_WINDOW_t;
/*
==========================================================================
IO Module Instances. Mapped to memory.
==========================================================================
*/
#define VPORTA (*(VPORT_t *) 0x0000) /* Virtual Ports */
#define VPORTB (*(VPORT_t *) 0x0004) /* Virtual Ports */
#define VPORTC (*(VPORT_t *) 0x0008) /* Virtual Ports */
#define RSTCTRL (*(RSTCTRL_t *) 0x0040) /* Reset controller */
#define SLPCTRL (*(SLPCTRL_t *) 0x0050) /* Sleep Controller */
#define CLKCTRL (*(CLKCTRL_t *) 0x0060) /* Clock controller */
#define BOD (*(BOD_t *) 0x0080) /* Bod interface */
#define VREF (*(VREF_t *) 0x00A0) /* Voltage reference */
#define WDT (*(WDT_t *) 0x0100) /* Watch-Dog Timer */
#define CPUINT (*(CPUINT_t *) 0x0110) /* Interrupt Controller */
#define CRCSCAN (*(CRCSCAN_t *) 0x0120) /* CRCSCAN */
#define RTC (*(RTC_t *) 0x0140) /* Real-Time Counter */
#define EVSYS (*(EVSYS_t *) 0x0180) /* Event System */
#define CCL (*(CCL_t *) 0x01C0) /* Configurable Custom Logic */
#define PORTMUX (*(PORTMUX_t *) 0x0200) /* Port Multiplexer */
#define PORTA (*(PORT_t *) 0x0400) /* I/O Ports */
#define PORTB (*(PORT_t *) 0x0420) /* I/O Ports */
#define ADC0 (*(ADC_t *) 0x0600) /* Analog to Digital Converter */
#define AC0 (*(AC_t *) 0x0670) /* Analog Comparator */
#define USART0 (*(USART_t *) 0x0800) /* Universal Synchronous and Asynchronous Receiver and Transmitter */
#define TWI0 (*(TWI_t *) 0x0810) /* Two-Wire Interface */
#define SPI0 (*(SPI_t *) 0x0820) /* Serial Peripheral Interface */
#define TCA0 (*(TCA_t *) 0x0A00) /* 16-bit Timer/Counter Type A */
#define TCB0 (*(TCB_t *) 0x0A40) /* 16-bit Timer Type B */
#define SYSCFG (*(SYSCFG_t *) 0x0F00) /* System Configuration Registers */
#define NVMCTRL (*(NVMCTRL_t *) 0x1000) /* Non-volatile Memory Controller */
#define SIGROW (*(SIGROW_t *) 0x1100) /* Signature row */
#define FUSE (*(FUSE_t *) 0x1280) /* Fuses */
#define LOCKBIT (*(LOCKBIT_t *) 0x128A) /* Lockbit */
#define USERROW (*(USERROW_t *) 0x1300) /* User Row */
#endif /* !defined (__ASSEMBLER__) */
/* ========== Flattened fully qualified IO register names ========== */
/* VPORT (VPORTA) - Virtual Ports */
#define VPORTA_DIR _SFR_MEM8(0x0000)
#define VPORTA_OUT _SFR_MEM8(0x0001)
#define VPORTA_IN _SFR_MEM8(0x0002)
#define VPORTA_INTFLAGS _SFR_MEM8(0x0003)
/* VPORT (VPORTB) - Virtual Ports */
#define VPORTB_DIR _SFR_MEM8(0x0004)
#define VPORTB_OUT _SFR_MEM8(0x0005)
#define VPORTB_IN _SFR_MEM8(0x0006)
#define VPORTB_INTFLAGS _SFR_MEM8(0x0007)
/* VPORT (VPORTC) - Virtual Ports */
#define VPORTC_DIR _SFR_MEM8(0x0008)
#define VPORTC_OUT _SFR_MEM8(0x0009)
#define VPORTC_IN _SFR_MEM8(0x000A)
#define VPORTC_INTFLAGS _SFR_MEM8(0x000B)
/* GPIO - General Purpose IO */
#define GPIO_GPIOR0 _SFR_MEM8(0x001C)
#define GPIO_GPIOR1 _SFR_MEM8(0x001D)
#define GPIO_GPIOR2 _SFR_MEM8(0x001E)
#define GPIO_GPIOR3 _SFR_MEM8(0x001F)
/* CPU - CPU */
#define CPU_CCP _SFR_MEM8(0x0034)
#define CPU_SPL _SFR_MEM8(0x003D)
#define CPU_SPH _SFR_MEM8(0x003E)
#define CPU_SREG _SFR_MEM8(0x003F)
/* RSTCTRL - Reset controller */
#define RSTCTRL_RSTFR _SFR_MEM8(0x0040)
#define RSTCTRL_SWRR _SFR_MEM8(0x0041)
/* SLPCTRL - Sleep Controller */
#define SLPCTRL_CTRLA _SFR_MEM8(0x0050)
/* CLKCTRL - Clock controller */
#define CLKCTRL_MCLKCTRLA _SFR_MEM8(0x0060)
#define CLKCTRL_MCLKCTRLB _SFR_MEM8(0x0061)
#define CLKCTRL_MCLKLOCK _SFR_MEM8(0x0062)
#define CLKCTRL_MCLKSTATUS _SFR_MEM8(0x0063)
#define CLKCTRL_OSC20MCTRLA _SFR_MEM8(0x0070)
#define CLKCTRL_OSC20MCALIBA _SFR_MEM8(0x0071)
#define CLKCTRL_OSC20MCALIBB _SFR_MEM8(0x0072)
#define CLKCTRL_OSC32KCTRLA _SFR_MEM8(0x0078)
/* BOD - Bod interface */
#define BOD_CTRLA _SFR_MEM8(0x0080)
#define BOD_CTRLB _SFR_MEM8(0x0081)
#define BOD_VLMCTRLA _SFR_MEM8(0x0088)
#define BOD_INTCTRL _SFR_MEM8(0x0089)
#define BOD_INTFLAGS _SFR_MEM8(0x008A)
#define BOD_STATUS _SFR_MEM8(0x008B)
/* VREF - Voltage reference */
#define VREF_CTRLA _SFR_MEM8(0x00A0)
#define VREF_CTRLB _SFR_MEM8(0x00A1)
/* WDT - Watch-Dog Timer */
#define WDT_CTRLA _SFR_MEM8(0x0100)
#define WDT_STATUS _SFR_MEM8(0x0101)
/* CPUINT - Interrupt Controller */
#define CPUINT_CTRLA _SFR_MEM8(0x0110)
#define CPUINT_STATUS _SFR_MEM8(0x0111)
#define CPUINT_LVL0PRI _SFR_MEM8(0x0112)
#define CPUINT_LVL1VEC _SFR_MEM8(0x0113)
/* CRCSCAN - CRCSCAN */
#define CRCSCAN_CTRLA _SFR_MEM8(0x0120)
#define CRCSCAN_CTRLB _SFR_MEM8(0x0121)
#define CRCSCAN_STATUS _SFR_MEM8(0x0122)
/* RTC - Real-Time Counter */
#define RTC_CTRLA _SFR_MEM8(0x0140)
#define RTC_STATUS _SFR_MEM8(0x0141)
#define RTC_INTCTRL _SFR_MEM8(0x0142)
#define RTC_INTFLAGS _SFR_MEM8(0x0143)
#define RTC_TEMP _SFR_MEM8(0x0144)
#define RTC_DBGCTRL _SFR_MEM8(0x0145)
#define RTC_CLKSEL _SFR_MEM8(0x0147)
#define RTC_CNT _SFR_MEM16(0x0148)
#define RTC_CNTL _SFR_MEM8(0x0148)
#define RTC_CNTH _SFR_MEM8(0x0149)
#define RTC_PER _SFR_MEM16(0x014A)
#define RTC_PERL _SFR_MEM8(0x014A)
#define RTC_PERH _SFR_MEM8(0x014B)
#define RTC_CMP _SFR_MEM16(0x014C)
#define RTC_CMPL _SFR_MEM8(0x014C)
#define RTC_CMPH _SFR_MEM8(0x014D)
#define RTC_PITCTRLA _SFR_MEM8(0x0150)
#define RTC_PITSTATUS _SFR_MEM8(0x0151)
#define RTC_PITINTCTRL _SFR_MEM8(0x0152)
#define RTC_PITINTFLAGS _SFR_MEM8(0x0153)
#define RTC_PITDBGCTRL _SFR_MEM8(0x0155)
/* EVSYS - Event System */
#define EVSYS_ASYNCSTROBE _SFR_MEM8(0x0180)
#define EVSYS_SYNCSTROBE _SFR_MEM8(0x0181)
#define EVSYS_ASYNCCH0 _SFR_MEM8(0x0182)
#define EVSYS_ASYNCCH1 _SFR_MEM8(0x0183)
#define EVSYS_SYNCCH0 _SFR_MEM8(0x018A)
#define EVSYS_ASYNCUSER0 _SFR_MEM8(0x0192)
#define EVSYS_ASYNCUSER1 _SFR_MEM8(0x0193)
#define EVSYS_ASYNCUSER2 _SFR_MEM8(0x0194)
#define EVSYS_ASYNCUSER3 _SFR_MEM8(0x0195)
#define EVSYS_ASYNCUSER4 _SFR_MEM8(0x0196)
#define EVSYS_ASYNCUSER5 _SFR_MEM8(0x0197)
#define EVSYS_ASYNCUSER6 _SFR_MEM8(0x0198)
#define EVSYS_ASYNCUSER7 _SFR_MEM8(0x0199)
#define EVSYS_ASYNCUSER8 _SFR_MEM8(0x019A)
#define EVSYS_ASYNCUSER9 _SFR_MEM8(0x019B)
#define EVSYS_ASYNCUSER10 _SFR_MEM8(0x019C)
#define EVSYS_SYNCUSER0 _SFR_MEM8(0x01A2)
#define EVSYS_SYNCUSER1 _SFR_MEM8(0x01A3)
/* CCL - Configurable Custom Logic */
#define CCL_CTRLA _SFR_MEM8(0x01C0)
#define CCL_SEQCTRL0 _SFR_MEM8(0x01C1)
#define CCL_LUT0CTRLA _SFR_MEM8(0x01C5)
#define CCL_LUT0CTRLB _SFR_MEM8(0x01C6)
#define CCL_LUT0CTRLC _SFR_MEM8(0x01C7)
#define CCL_TRUTH0 _SFR_MEM8(0x01C8)
#define CCL_LUT1CTRLA _SFR_MEM8(0x01C9)
#define CCL_LUT1CTRLB _SFR_MEM8(0x01CA)
#define CCL_LUT1CTRLC _SFR_MEM8(0x01CB)
#define CCL_TRUTH1 _SFR_MEM8(0x01CC)
/* PORTMUX - Port Multiplexer */
#define PORTMUX_CTRLA _SFR_MEM8(0x0200)
#define PORTMUX_CTRLB _SFR_MEM8(0x0201)
#define PORTMUX_CTRLC _SFR_MEM8(0x0202)
#define PORTMUX_CTRLD _SFR_MEM8(0x0203)
/* PORT (PORTA) - I/O Ports */
#define PORTA_DIR _SFR_MEM8(0x0400)
#define PORTA_DIRSET _SFR_MEM8(0x0401)
#define PORTA_DIRCLR _SFR_MEM8(0x0402)
#define PORTA_DIRTGL _SFR_MEM8(0x0403)
#define PORTA_OUT _SFR_MEM8(0x0404)
#define PORTA_OUTSET _SFR_MEM8(0x0405)
#define PORTA_OUTCLR _SFR_MEM8(0x0406)
#define PORTA_OUTTGL _SFR_MEM8(0x0407)
#define PORTA_IN _SFR_MEM8(0x0408)
#define PORTA_INTFLAGS _SFR_MEM8(0x0409)
#define PORTA_PIN0CTRL _SFR_MEM8(0x0410)
#define PORTA_PIN1CTRL _SFR_MEM8(0x0411)
#define PORTA_PIN2CTRL _SFR_MEM8(0x0412)
#define PORTA_PIN3CTRL _SFR_MEM8(0x0413)
#define PORTA_PIN4CTRL _SFR_MEM8(0x0414)
#define PORTA_PIN5CTRL _SFR_MEM8(0x0415)
#define PORTA_PIN6CTRL _SFR_MEM8(0x0416)
#define PORTA_PIN7CTRL _SFR_MEM8(0x0417)
/* PORT (PORTB) - I/O Ports */
#define PORTB_DIR _SFR_MEM8(0x0420)
#define PORTB_DIRSET _SFR_MEM8(0x0421)
#define PORTB_DIRCLR _SFR_MEM8(0x0422)
#define PORTB_DIRTGL _SFR_MEM8(0x0423)
#define PORTB_OUT _SFR_MEM8(0x0424)
#define PORTB_OUTSET _SFR_MEM8(0x0425)
#define PORTB_OUTCLR _SFR_MEM8(0x0426)
#define PORTB_OUTTGL _SFR_MEM8(0x0427)
#define PORTB_IN _SFR_MEM8(0x0428)
#define PORTB_INTFLAGS _SFR_MEM8(0x0429)
#define PORTB_PIN0CTRL _SFR_MEM8(0x0430)
#define PORTB_PIN1CTRL _SFR_MEM8(0x0431)
#define PORTB_PIN2CTRL _SFR_MEM8(0x0432)
#define PORTB_PIN3CTRL _SFR_MEM8(0x0433)
#define PORTB_PIN4CTRL _SFR_MEM8(0x0434)
#define PORTB_PIN5CTRL _SFR_MEM8(0x0435)
#define PORTB_PIN6CTRL _SFR_MEM8(0x0436)
#define PORTB_PIN7CTRL _SFR_MEM8(0x0437)
/* ADC (ADC0) - Analog to Digital Converter */
#define ADC0_CTRLA _SFR_MEM8(0x0600)
#define ADC0_CTRLB _SFR_MEM8(0x0601)
#define ADC0_CTRLC _SFR_MEM8(0x0602)
#define ADC0_CTRLD _SFR_MEM8(0x0603)
#define ADC0_CTRLE _SFR_MEM8(0x0604)
#define ADC0_SAMPCTRL _SFR_MEM8(0x0605)
#define ADC0_MUXPOS _SFR_MEM8(0x0606)
#define ADC0_COMMAND _SFR_MEM8(0x0608)
#define ADC0_EVCTRL _SFR_MEM8(0x0609)
#define ADC0_INTCTRL _SFR_MEM8(0x060A)
#define ADC0_INTFLAGS _SFR_MEM8(0x060B)
#define ADC0_DBGCTRL _SFR_MEM8(0x060C)
#define ADC0_TEMP _SFR_MEM8(0x060D)
#define ADC0_RES _SFR_MEM16(0x0610)
#define ADC0_RESL _SFR_MEM8(0x0610)
#define ADC0_RESH _SFR_MEM8(0x0611)
#define ADC0_WINLT _SFR_MEM16(0x0612)
#define ADC0_WINLTL _SFR_MEM8(0x0612)
#define ADC0_WINLTH _SFR_MEM8(0x0613)
#define ADC0_WINHT _SFR_MEM16(0x0614)
#define ADC0_WINHTL _SFR_MEM8(0x0614)
#define ADC0_WINHTH _SFR_MEM8(0x0615)
#define ADC0_CALIB _SFR_MEM8(0x0616)
/* AC (AC0) - Analog Comparator */
#define AC0_CTRLA _SFR_MEM8(0x0670)
#define AC0_MUXCTRLA _SFR_MEM8(0x0672)
#define AC0_INTCTRL _SFR_MEM8(0x0676)
#define AC0_STATUS _SFR_MEM8(0x0677)
/* USART (USART0) - Universal Synchronous and Asynchronous Receiver and Transmitter */
#define USART0_RXDATAL _SFR_MEM8(0x0800)
#define USART0_RXDATAH _SFR_MEM8(0x0801)
#define USART0_TXDATAL _SFR_MEM8(0x0802)
#define USART0_TXDATAH _SFR_MEM8(0x0803)
#define USART0_STATUS _SFR_MEM8(0x0804)
#define USART0_CTRLA _SFR_MEM8(0x0805)
#define USART0_CTRLB _SFR_MEM8(0x0806)
#define USART0_CTRLC _SFR_MEM8(0x0807)
#define USART0_BAUD _SFR_MEM16(0x0808)
#define USART0_BAUDL _SFR_MEM8(0x0808)
#define USART0_BAUDH _SFR_MEM8(0x0809)
#define USART0_DBGCTRL _SFR_MEM8(0x080B)
#define USART0_EVCTRL _SFR_MEM8(0x080C)
#define USART0_TXPLCTRL _SFR_MEM8(0x080D)
#define USART0_RXPLCTRL _SFR_MEM8(0x080E)
/* TWI (TWI0) - Two-Wire Interface */
#define TWI0_CTRLA _SFR_MEM8(0x0810)
#define TWI0_DBGCTRL _SFR_MEM8(0x0812)
#define TWI0_MCTRLA _SFR_MEM8(0x0813)
#define TWI0_MCTRLB _SFR_MEM8(0x0814)
#define TWI0_MSTATUS _SFR_MEM8(0x0815)
#define TWI0_MBAUD _SFR_MEM8(0x0816)
#define TWI0_MADDR _SFR_MEM8(0x0817)
#define TWI0_MDATA _SFR_MEM8(0x0818)
#define TWI0_SCTRLA _SFR_MEM8(0x0819)
#define TWI0_SCTRLB _SFR_MEM8(0x081A)
#define TWI0_SSTATUS _SFR_MEM8(0x081B)
#define TWI0_SADDR _SFR_MEM8(0x081C)
#define TWI0_SDATA _SFR_MEM8(0x081D)
#define TWI0_SADDRMASK _SFR_MEM8(0x081E)
/* SPI (SPI0) - Serial Peripheral Interface */
#define SPI0_CTRLA _SFR_MEM8(0x0820)
#define SPI0_CTRLB _SFR_MEM8(0x0821)
#define SPI0_INTCTRL _SFR_MEM8(0x0822)
#define SPI0_INTFLAGS _SFR_MEM8(0x0823)
#define SPI0_DATA _SFR_MEM8(0x0824)
/* TCA (TCA0) - 16-bit Timer/Counter Type A */
#define TCA0_SINGLE_CTRLA _SFR_MEM8(0x0A00)
#define TCA0_SINGLE_CTRLB _SFR_MEM8(0x0A01)
#define TCA0_SINGLE_CTRLC _SFR_MEM8(0x0A02)
#define TCA0_SINGLE_CTRLD _SFR_MEM8(0x0A03)
#define TCA0_SINGLE_CTRLECLR _SFR_MEM8(0x0A04)
#define TCA0_SINGLE_CTRLESET _SFR_MEM8(0x0A05)
#define TCA0_SINGLE_CTRLFCLR _SFR_MEM8(0x0A06)
#define TCA0_SINGLE_CTRLFSET _SFR_MEM8(0x0A07)
#define TCA0_SINGLE_EVCTRL _SFR_MEM8(0x0A09)
#define TCA0_SINGLE_INTCTRL _SFR_MEM8(0x0A0A)
#define TCA0_SINGLE_INTFLAGS _SFR_MEM8(0x0A0B)
#define TCA0_SINGLE_DBGCTRL _SFR_MEM8(0x0A0E)
#define TCA0_SINGLE_TEMP _SFR_MEM8(0x0A0F)
#define TCA0_SINGLE_CNT _SFR_MEM16(0x0A20)
#define TCA0_SINGLE_PER _SFR_MEM16(0x0A26)
#define TCA0_SINGLE_CMP0 _SFR_MEM16(0x0A28)
#define TCA0_SINGLE_CMP1 _SFR_MEM16(0x0A2A)
#define TCA0_SINGLE_CMP2 _SFR_MEM16(0x0A2C)
#define TCA0_SINGLE_PERBUF _SFR_MEM16(0x0A36)
#define TCA0_SINGLE_CMP0BUF _SFR_MEM16(0x0A38)
#define TCA0_SINGLE_CMP1BUF _SFR_MEM16(0x0A3A)
#define TCA0_SINGLE_CMP2BUF _SFR_MEM16(0x0A3C)
#define TCA0_SPLIT_CTRLA _SFR_MEM8(0x0A00)
#define TCA0_SPLIT_CTRLB _SFR_MEM8(0x0A01)
#define TCA0_SPLIT_CTRLC _SFR_MEM8(0x0A02)
#define TCA0_SPLIT_CTRLD _SFR_MEM8(0x0A03)
#define TCA0_SPLIT_CTRLECLR _SFR_MEM8(0x0A04)
#define TCA0_SPLIT_CTRLESET _SFR_MEM8(0x0A05)
#define TCA0_SPLIT_INTCTRL _SFR_MEM8(0x0A0A)
#define TCA0_SPLIT_INTFLAGS _SFR_MEM8(0x0A0B)
#define TCA0_SPLIT_DBGCTRL _SFR_MEM8(0x0A0E)
#define TCA0_SPLIT_LCNT _SFR_MEM8(0x0A20)
#define TCA0_SPLIT_HCNT _SFR_MEM8(0x0A21)
#define TCA0_SPLIT_LPER _SFR_MEM8(0x0A26)
#define TCA0_SPLIT_HPER _SFR_MEM8(0x0A27)
#define TCA0_SPLIT_LCMP0 _SFR_MEM8(0x0A28)
#define TCA0_SPLIT_HCMP0 _SFR_MEM8(0x0A29)
#define TCA0_SPLIT_LCMP1 _SFR_MEM8(0x0A2A)
#define TCA0_SPLIT_HCMP1 _SFR_MEM8(0x0A2B)
#define TCA0_SPLIT_LCMP2 _SFR_MEM8(0x0A2C)
#define TCA0_SPLIT_HCMP2 _SFR_MEM8(0x0A2D)
/* TCB (TCB0) - 16-bit Timer Type B */
#define TCB0_CTRLA _SFR_MEM8(0x0A40)
#define TCB0_CTRLB _SFR_MEM8(0x0A41)
#define TCB0_EVCTRL _SFR_MEM8(0x0A44)
#define TCB0_INTCTRL _SFR_MEM8(0x0A45)
#define TCB0_INTFLAGS _SFR_MEM8(0x0A46)
#define TCB0_STATUS _SFR_MEM8(0x0A47)
#define TCB0_DBGCTRL _SFR_MEM8(0x0A48)
#define TCB0_TEMP _SFR_MEM8(0x0A49)
#define TCB0_CNT _SFR_MEM16(0x0A4A)
#define TCB0_CNTL _SFR_MEM8(0x0A4A)
#define TCB0_CNTH _SFR_MEM8(0x0A4B)
#define TCB0_CCMP _SFR_MEM16(0x0A4C)
#define TCB0_CCMPL _SFR_MEM8(0x0A4C)
#define TCB0_CCMPH _SFR_MEM8(0x0A4D)
/* SYSCFG - System Configuration Registers */
#define SYSCFG_REVID _SFR_MEM8(0x0F01)
#define SYSCFG_EXTBRK _SFR_MEM8(0x0F02)
/* NVMCTRL - Non-volatile Memory Controller */
#define NVMCTRL_CTRLA _SFR_MEM8(0x1000)
#define NVMCTRL_CTRLB _SFR_MEM8(0x1001)
#define NVMCTRL_STATUS _SFR_MEM8(0x1002)
#define NVMCTRL_INTCTRL _SFR_MEM8(0x1003)
#define NVMCTRL_INTFLAGS _SFR_MEM8(0x1004)
#define NVMCTRL_DATA _SFR_MEM16(0x1006)
#define NVMCTRL_DATAL _SFR_MEM8(0x1006)
#define NVMCTRL_DATAH _SFR_MEM8(0x1007)
#define NVMCTRL_ADDR _SFR_MEM16(0x1008)
#define NVMCTRL_ADDRL _SFR_MEM8(0x1008)
#define NVMCTRL_ADDRH _SFR_MEM8(0x1009)
/* SIGROW - Signature row */
#define SIGROW_DEVICEID0 _SFR_MEM8(0x1100)
#define SIGROW_DEVICEID1 _SFR_MEM8(0x1101)
#define SIGROW_DEVICEID2 _SFR_MEM8(0x1102)
#define SIGROW_SERNUM0 _SFR_MEM8(0x1103)
#define SIGROW_SERNUM1 _SFR_MEM8(0x1104)
#define SIGROW_SERNUM2 _SFR_MEM8(0x1105)
#define SIGROW_SERNUM3 _SFR_MEM8(0x1106)
#define SIGROW_SERNUM4 _SFR_MEM8(0x1107)
#define SIGROW_SERNUM5 _SFR_MEM8(0x1108)
#define SIGROW_SERNUM6 _SFR_MEM8(0x1109)
#define SIGROW_SERNUM7 _SFR_MEM8(0x110A)
#define SIGROW_SERNUM8 _SFR_MEM8(0x110B)
#define SIGROW_SERNUM9 _SFR_MEM8(0x110C)
#define SIGROW_TEMPSENSE0 _SFR_MEM8(0x1120)
#define SIGROW_TEMPSENSE1 _SFR_MEM8(0x1121)
#define SIGROW_OSC16ERR3V _SFR_MEM8(0x1122)
#define SIGROW_OSC16ERR5V _SFR_MEM8(0x1123)
#define SIGROW_OSC20ERR3V _SFR_MEM8(0x1124)
#define SIGROW_OSC20ERR5V _SFR_MEM8(0x1125)
/* FUSE - Fuses */
#define FUSE_WDTCFG _SFR_MEM8(0x1280)
#define FUSE_BODCFG _SFR_MEM8(0x1281)
#define FUSE_OSCCFG _SFR_MEM8(0x1282)
#define FUSE_TCD0CFG _SFR_MEM8(0x1284)
#define FUSE_SYSCFG0 _SFR_MEM8(0x1285)
#define FUSE_SYSCFG1 _SFR_MEM8(0x1286)
#define FUSE_APPEND _SFR_MEM8(0x1287)
#define FUSE_BOOTEND _SFR_MEM8(0x1288)
/* LOCKBIT - Lockbit */
#define LOCKBIT_LOCKBIT _SFR_MEM8(0x128A)
/* USERROW - User Row */
#define USERROW_USERROW0 _SFR_MEM8(0x1300)
#define USERROW_USERROW1 _SFR_MEM8(0x1301)
#define USERROW_USERROW2 _SFR_MEM8(0x1302)
#define USERROW_USERROW3 _SFR_MEM8(0x1303)
#define USERROW_USERROW4 _SFR_MEM8(0x1304)
#define USERROW_USERROW5 _SFR_MEM8(0x1305)
#define USERROW_USERROW6 _SFR_MEM8(0x1306)
#define USERROW_USERROW7 _SFR_MEM8(0x1307)
#define USERROW_USERROW8 _SFR_MEM8(0x1308)
#define USERROW_USERROW9 _SFR_MEM8(0x1309)
#define USERROW_USERROW10 _SFR_MEM8(0x130A)
#define USERROW_USERROW11 _SFR_MEM8(0x130B)
#define USERROW_USERROW12 _SFR_MEM8(0x130C)
#define USERROW_USERROW13 _SFR_MEM8(0x130D)
#define USERROW_USERROW14 _SFR_MEM8(0x130E)
#define USERROW_USERROW15 _SFR_MEM8(0x130F)
#define USERROW_USERROW16 _SFR_MEM8(0x1310)
#define USERROW_USERROW17 _SFR_MEM8(0x1311)
#define USERROW_USERROW18 _SFR_MEM8(0x1312)
#define USERROW_USERROW19 _SFR_MEM8(0x1313)
#define USERROW_USERROW20 _SFR_MEM8(0x1314)
#define USERROW_USERROW21 _SFR_MEM8(0x1315)
#define USERROW_USERROW22 _SFR_MEM8(0x1316)
#define USERROW_USERROW23 _SFR_MEM8(0x1317)
#define USERROW_USERROW24 _SFR_MEM8(0x1318)
#define USERROW_USERROW25 _SFR_MEM8(0x1319)
#define USERROW_USERROW26 _SFR_MEM8(0x131A)
#define USERROW_USERROW27 _SFR_MEM8(0x131B)
#define USERROW_USERROW28 _SFR_MEM8(0x131C)
#define USERROW_USERROW29 _SFR_MEM8(0x131D)
#define USERROW_USERROW30 _SFR_MEM8(0x131E)
#define USERROW_USERROW31 _SFR_MEM8(0x131F)
/*================== Bitfield Definitions ================== */
/* AC - Analog Comparator */
/* AC.CTRLA bit masks and bit positions */
#define AC_ENABLE_bm 0x01 /* Enable bit mask. */
#define AC_ENABLE_bp 0 /* Enable bit position. */
#define AC_HYSMODE_gm 0x06 /* Hysteresis Mode group mask. */
#define AC_HYSMODE_gp 1 /* Hysteresis Mode group position. */
#define AC_HYSMODE0_bm (1<<1) /* Hysteresis Mode bit 0 mask. */
#define AC_HYSMODE0_bp 1 /* Hysteresis Mode bit 0 position. */
#define AC_HYSMODE1_bm (1<<2) /* Hysteresis Mode bit 1 mask. */
#define AC_HYSMODE1_bp 2 /* Hysteresis Mode bit 1 position. */
#define AC_INTMODE_gm 0x30 /* Interrupt Mode group mask. */
#define AC_INTMODE_gp 4 /* Interrupt Mode group position. */
#define AC_INTMODE0_bm (1<<4) /* Interrupt Mode bit 0 mask. */
#define AC_INTMODE0_bp 4 /* Interrupt Mode bit 0 position. */
#define AC_INTMODE1_bm (1<<5) /* Interrupt Mode bit 1 mask. */
#define AC_INTMODE1_bp 5 /* Interrupt Mode bit 1 position. */
#define AC_OUTEN_bm 0x40 /* Output Buffer Enable bit mask. */
#define AC_OUTEN_bp 6 /* Output Buffer Enable bit position. */
#define AC_RUNSTDBY_bm 0x80 /* Run in Standby Mode bit mask. */
#define AC_RUNSTDBY_bp 7 /* Run in Standby Mode bit position. */
/* AC.MUXCTRLA bit masks and bit positions */
#define AC_MUXNEG_gm 0x03 /* Negative Input MUX Selection group mask. */
#define AC_MUXNEG_gp 0 /* Negative Input MUX Selection group position. */
#define AC_MUXNEG0_bm (1<<0) /* Negative Input MUX Selection bit 0 mask. */
#define AC_MUXNEG0_bp 0 /* Negative Input MUX Selection bit 0 position. */
#define AC_MUXNEG1_bm (1<<1) /* Negative Input MUX Selection bit 1 mask. */
#define AC_MUXNEG1_bp 1 /* Negative Input MUX Selection bit 1 position. */
#define AC_MUXPOS_gm 0x18 /* Positive Input MUX Selection group mask. */
#define AC_MUXPOS_gp 3 /* Positive Input MUX Selection group position. */
#define AC_MUXPOS0_bm (1<<3) /* Positive Input MUX Selection bit 0 mask. */
#define AC_MUXPOS0_bp 3 /* Positive Input MUX Selection bit 0 position. */
#define AC_MUXPOS1_bm (1<<4) /* Positive Input MUX Selection bit 1 mask. */
#define AC_MUXPOS1_bp 4 /* Positive Input MUX Selection bit 1 position. */
#define AC_INVERT_bm 0x80 /* Invert AC Output bit mask. */
#define AC_INVERT_bp 7 /* Invert AC Output bit position. */
/* AC.INTCTRL bit masks and bit positions */
#define AC_CMP_bm 0x01 /* Analog Comparator 0 Interrupt Enable bit mask. */
#define AC_CMP_bp 0 /* Analog Comparator 0 Interrupt Enable bit position. */
/* AC.STATUS bit masks and bit positions */
/* AC_CMP is already defined. */
#define AC_STATE_bm 0x10 /* Analog Comparator State bit mask. */
#define AC_STATE_bp 4 /* Analog Comparator State bit position. */
/* ADC - Analog to Digital Converter */
/* ADC.CTRLA bit masks and bit positions */
#define ADC_ENABLE_bm 0x01 /* ADC Enable bit mask. */
#define ADC_ENABLE_bp 0 /* ADC Enable bit position. */
#define ADC_FREERUN_bm 0x02 /* ADC Freerun mode bit mask. */
#define ADC_FREERUN_bp 1 /* ADC Freerun mode bit position. */
#define ADC_RESSEL_bm 0x04 /* ADC Resolution bit mask. */
#define ADC_RESSEL_bp 2 /* ADC Resolution bit position. */
#define ADC_RUNSTBY_bm 0x80 /* Run standby mode bit mask. */
#define ADC_RUNSTBY_bp 7 /* Run standby mode bit position. */
/* ADC.CTRLB bit masks and bit positions */
#define ADC_SAMPNUM_gm 0x07 /* Accumulation Samples group mask. */
#define ADC_SAMPNUM_gp 0 /* Accumulation Samples group position. */
#define ADC_SAMPNUM0_bm (1<<0) /* Accumulation Samples bit 0 mask. */
#define ADC_SAMPNUM0_bp 0 /* Accumulation Samples bit 0 position. */
#define ADC_SAMPNUM1_bm (1<<1) /* Accumulation Samples bit 1 mask. */
#define ADC_SAMPNUM1_bp 1 /* Accumulation Samples bit 1 position. */
#define ADC_SAMPNUM2_bm (1<<2) /* Accumulation Samples bit 2 mask. */
#define ADC_SAMPNUM2_bp 2 /* Accumulation Samples bit 2 position. */
/* ADC.CTRLC bit masks and bit positions */
#define ADC_PRESC_gm 0x07 /* Clock Pre-scaler group mask. */
#define ADC_PRESC_gp 0 /* Clock Pre-scaler group position. */
#define ADC_PRESC0_bm (1<<0) /* Clock Pre-scaler bit 0 mask. */
#define ADC_PRESC0_bp 0 /* Clock Pre-scaler bit 0 position. */
#define ADC_PRESC1_bm (1<<1) /* Clock Pre-scaler bit 1 mask. */
#define ADC_PRESC1_bp 1 /* Clock Pre-scaler bit 1 position. */
#define ADC_PRESC2_bm (1<<2) /* Clock Pre-scaler bit 2 mask. */
#define ADC_PRESC2_bp 2 /* Clock Pre-scaler bit 2 position. */
#define ADC_REFSEL_gm 0x30 /* Reference Selection group mask. */
#define ADC_REFSEL_gp 4 /* Reference Selection group position. */
#define ADC_REFSEL0_bm (1<<4) /* Reference Selection bit 0 mask. */
#define ADC_REFSEL0_bp 4 /* Reference Selection bit 0 position. */
#define ADC_REFSEL1_bm (1<<5) /* Reference Selection bit 1 mask. */
#define ADC_REFSEL1_bp 5 /* Reference Selection bit 1 position. */
#define ADC_SAMPCAP_bm 0x40 /* Sample Capacitance Selection bit mask. */
#define ADC_SAMPCAP_bp 6 /* Sample Capacitance Selection bit position. */
/* ADC.CTRLD bit masks and bit positions */
#define ADC_SAMPDLY_gm 0x0F /* Sampling Delay Selection group mask. */
#define ADC_SAMPDLY_gp 0 /* Sampling Delay Selection group position. */
#define ADC_SAMPDLY0_bm (1<<0) /* Sampling Delay Selection bit 0 mask. */
#define ADC_SAMPDLY0_bp 0 /* Sampling Delay Selection bit 0 position. */
#define ADC_SAMPDLY1_bm (1<<1) /* Sampling Delay Selection bit 1 mask. */
#define ADC_SAMPDLY1_bp 1 /* Sampling Delay Selection bit 1 position. */
#define ADC_SAMPDLY2_bm (1<<2) /* Sampling Delay Selection bit 2 mask. */
#define ADC_SAMPDLY2_bp 2 /* Sampling Delay Selection bit 2 position. */
#define ADC_SAMPDLY3_bm (1<<3) /* Sampling Delay Selection bit 3 mask. */
#define ADC_SAMPDLY3_bp 3 /* Sampling Delay Selection bit 3 position. */
#define ADC_ASDV_bm 0x10 /* Automatic Sampling Delay Variation bit mask. */
#define ADC_ASDV_bp 4 /* Automatic Sampling Delay Variation bit position. */
#define ADC_INITDLY_gm 0xE0 /* Initial Delay Selection group mask. */
#define ADC_INITDLY_gp 5 /* Initial Delay Selection group position. */
#define ADC_INITDLY0_bm (1<<5) /* Initial Delay Selection bit 0 mask. */
#define ADC_INITDLY0_bp 5 /* Initial Delay Selection bit 0 position. */
#define ADC_INITDLY1_bm (1<<6) /* Initial Delay Selection bit 1 mask. */
#define ADC_INITDLY1_bp 6 /* Initial Delay Selection bit 1 position. */
#define ADC_INITDLY2_bm (1<<7) /* Initial Delay Selection bit 2 mask. */
#define ADC_INITDLY2_bp 7 /* Initial Delay Selection bit 2 position. */
/* ADC.CTRLE bit masks and bit positions */
#define ADC_WINCM_gm 0x07 /* Window Comparator Mode group mask. */
#define ADC_WINCM_gp 0 /* Window Comparator Mode group position. */
#define ADC_WINCM0_bm (1<<0) /* Window Comparator Mode bit 0 mask. */
#define ADC_WINCM0_bp 0 /* Window Comparator Mode bit 0 position. */
#define ADC_WINCM1_bm (1<<1) /* Window Comparator Mode bit 1 mask. */
#define ADC_WINCM1_bp 1 /* Window Comparator Mode bit 1 position. */
#define ADC_WINCM2_bm (1<<2) /* Window Comparator Mode bit 2 mask. */
#define ADC_WINCM2_bp 2 /* Window Comparator Mode bit 2 position. */
/* ADC.SAMPCTRL bit masks and bit positions */
#define ADC_SAMPLEN_gm 0x1F /* Sample lenght group mask. */
#define ADC_SAMPLEN_gp 0 /* Sample lenght group position. */
#define ADC_SAMPLEN0_bm (1<<0) /* Sample lenght bit 0 mask. */
#define ADC_SAMPLEN0_bp 0 /* Sample lenght bit 0 position. */
#define ADC_SAMPLEN1_bm (1<<1) /* Sample lenght bit 1 mask. */
#define ADC_SAMPLEN1_bp 1 /* Sample lenght bit 1 position. */
#define ADC_SAMPLEN2_bm (1<<2) /* Sample lenght bit 2 mask. */
#define ADC_SAMPLEN2_bp 2 /* Sample lenght bit 2 position. */
#define ADC_SAMPLEN3_bm (1<<3) /* Sample lenght bit 3 mask. */
#define ADC_SAMPLEN3_bp 3 /* Sample lenght bit 3 position. */
#define ADC_SAMPLEN4_bm (1<<4) /* Sample lenght bit 4 mask. */
#define ADC_SAMPLEN4_bp 4 /* Sample lenght bit 4 position. */
/* ADC.MUXPOS bit masks and bit positions */
#define ADC_MUXPOS_gm 0x1F /* Analog Channel Selection Bits group mask. */
#define ADC_MUXPOS_gp 0 /* Analog Channel Selection Bits group position. */
#define ADC_MUXPOS0_bm (1<<0) /* Analog Channel Selection Bits bit 0 mask. */
#define ADC_MUXPOS0_bp 0 /* Analog Channel Selection Bits bit 0 position. */
#define ADC_MUXPOS1_bm (1<<1) /* Analog Channel Selection Bits bit 1 mask. */
#define ADC_MUXPOS1_bp 1 /* Analog Channel Selection Bits bit 1 position. */
#define ADC_MUXPOS2_bm (1<<2) /* Analog Channel Selection Bits bit 2 mask. */
#define ADC_MUXPOS2_bp 2 /* Analog Channel Selection Bits bit 2 position. */
#define ADC_MUXPOS3_bm (1<<3) /* Analog Channel Selection Bits bit 3 mask. */
#define ADC_MUXPOS3_bp 3 /* Analog Channel Selection Bits bit 3 position. */
#define ADC_MUXPOS4_bm (1<<4) /* Analog Channel Selection Bits bit 4 mask. */
#define ADC_MUXPOS4_bp 4 /* Analog Channel Selection Bits bit 4 position. */
/* ADC.COMMAND bit masks and bit positions */
#define ADC_STCONV_bm 0x01 /* Start Conversion Operation bit mask. */
#define ADC_STCONV_bp 0 /* Start Conversion Operation bit position. */
/* ADC.EVCTRL bit masks and bit positions */
#define ADC_STARTEI_bm 0x01 /* Start Event Input Enable bit mask. */
#define ADC_STARTEI_bp 0 /* Start Event Input Enable bit position. */
/* ADC.INTCTRL bit masks and bit positions */
#define ADC_RESRDY_bm 0x01 /* Result Ready Interrupt Enable bit mask. */
#define ADC_RESRDY_bp 0 /* Result Ready Interrupt Enable bit position. */
#define ADC_WCMP_bm 0x02 /* Window Comparator Interrupt Enable bit mask. */
#define ADC_WCMP_bp 1 /* Window Comparator Interrupt Enable bit position. */
/* ADC.INTFLAGS bit masks and bit positions */
/* ADC_RESRDY is already defined. */
/* ADC_WCMP is already defined. */
/* ADC.DBGCTRL bit masks and bit positions */
#define ADC_DBGRUN_bm 0x01 /* Debug run bit mask. */
#define ADC_DBGRUN_bp 0 /* Debug run bit position. */
/* ADC.TEMP bit masks and bit positions */
#define ADC_TEMP_gm 0xFF /* Temporary group mask. */
#define ADC_TEMP_gp 0 /* Temporary group position. */
#define ADC_TEMP0_bm (1<<0) /* Temporary bit 0 mask. */
#define ADC_TEMP0_bp 0 /* Temporary bit 0 position. */
#define ADC_TEMP1_bm (1<<1) /* Temporary bit 1 mask. */
#define ADC_TEMP1_bp 1 /* Temporary bit 1 position. */
#define ADC_TEMP2_bm (1<<2) /* Temporary bit 2 mask. */
#define ADC_TEMP2_bp 2 /* Temporary bit 2 position. */
#define ADC_TEMP3_bm (1<<3) /* Temporary bit 3 mask. */
#define ADC_TEMP3_bp 3 /* Temporary bit 3 position. */
#define ADC_TEMP4_bm (1<<4) /* Temporary bit 4 mask. */
#define ADC_TEMP4_bp 4 /* Temporary bit 4 position. */
#define ADC_TEMP5_bm (1<<5) /* Temporary bit 5 mask. */
#define ADC_TEMP5_bp 5 /* Temporary bit 5 position. */
#define ADC_TEMP6_bm (1<<6) /* Temporary bit 6 mask. */
#define ADC_TEMP6_bp 6 /* Temporary bit 6 position. */
#define ADC_TEMP7_bm (1<<7) /* Temporary bit 7 mask. */
#define ADC_TEMP7_bp 7 /* Temporary bit 7 position. */
/* ADC.CALIB bit masks and bit positions */
#define ADC_DUTYCYC_bm 0x01 /* Duty Cycle bit mask. */
#define ADC_DUTYCYC_bp 0 /* Duty Cycle bit position. */
/* BOD - Bod interface */
/* BOD.CTRLA bit masks and bit positions */
#define BOD_SLEEP_gm 0x03 /* Operation in sleep mode group mask. */
#define BOD_SLEEP_gp 0 /* Operation in sleep mode group position. */
#define BOD_SLEEP0_bm (1<<0) /* Operation in sleep mode bit 0 mask. */
#define BOD_SLEEP0_bp 0 /* Operation in sleep mode bit 0 position. */
#define BOD_SLEEP1_bm (1<<1) /* Operation in sleep mode bit 1 mask. */
#define BOD_SLEEP1_bp 1 /* Operation in sleep mode bit 1 position. */
#define BOD_ACTIVE_gm 0x0C /* Operation in active mode group mask. */
#define BOD_ACTIVE_gp 2 /* Operation in active mode group position. */
#define BOD_ACTIVE0_bm (1<<2) /* Operation in active mode bit 0 mask. */
#define BOD_ACTIVE0_bp 2 /* Operation in active mode bit 0 position. */
#define BOD_ACTIVE1_bm (1<<3) /* Operation in active mode bit 1 mask. */
#define BOD_ACTIVE1_bp 3 /* Operation in active mode bit 1 position. */
#define BOD_SAMPFREQ_bm 0x10 /* Sample frequency bit mask. */
#define BOD_SAMPFREQ_bp 4 /* Sample frequency bit position. */
/* BOD.CTRLB bit masks and bit positions */
#define BOD_LVL_gm 0x07 /* Bod level group mask. */
#define BOD_LVL_gp 0 /* Bod level group position. */
#define BOD_LVL0_bm (1<<0) /* Bod level bit 0 mask. */
#define BOD_LVL0_bp 0 /* Bod level bit 0 position. */
#define BOD_LVL1_bm (1<<1) /* Bod level bit 1 mask. */
#define BOD_LVL1_bp 1 /* Bod level bit 1 position. */
#define BOD_LVL2_bm (1<<2) /* Bod level bit 2 mask. */
#define BOD_LVL2_bp 2 /* Bod level bit 2 position. */
/* BOD.VLMCTRLA bit masks and bit positions */
#define BOD_VLMLVL_gm 0x03 /* voltage level monitor level group mask. */
#define BOD_VLMLVL_gp 0 /* voltage level monitor level group position. */
#define BOD_VLMLVL0_bm (1<<0) /* voltage level monitor level bit 0 mask. */
#define BOD_VLMLVL0_bp 0 /* voltage level monitor level bit 0 position. */
#define BOD_VLMLVL1_bm (1<<1) /* voltage level monitor level bit 1 mask. */
#define BOD_VLMLVL1_bp 1 /* voltage level monitor level bit 1 position. */
/* BOD.INTCTRL bit masks and bit positions */
#define BOD_VLMIE_bm 0x01 /* voltage level monitor interrrupt enable bit mask. */
#define BOD_VLMIE_bp 0 /* voltage level monitor interrrupt enable bit position. */
#define BOD_VLMCFG_gm 0x06 /* Configuration group mask. */
#define BOD_VLMCFG_gp 1 /* Configuration group position. */
#define BOD_VLMCFG0_bm (1<<1) /* Configuration bit 0 mask. */
#define BOD_VLMCFG0_bp 1 /* Configuration bit 0 position. */
#define BOD_VLMCFG1_bm (1<<2) /* Configuration bit 1 mask. */
#define BOD_VLMCFG1_bp 2 /* Configuration bit 1 position. */
/* BOD.INTFLAGS bit masks and bit positions */
#define BOD_VLMIF_bm 0x01 /* Voltage level monitor interrupt flag bit mask. */
#define BOD_VLMIF_bp 0 /* Voltage level monitor interrupt flag bit position. */
/* BOD.STATUS bit masks and bit positions */
#define BOD_VLMS_bm 0x01 /* Voltage level monitor status bit mask. */
#define BOD_VLMS_bp 0 /* Voltage level monitor status bit position. */
/* CCL - Configurable Custom Logic */
/* CCL.CTRLA bit masks and bit positions */
#define CCL_ENABLE_bm 0x01 /* Enable bit mask. */
#define CCL_ENABLE_bp 0 /* Enable bit position. */
#define CCL_RUNSTDBY_bm 0x40 /* Run in Standby bit mask. */
#define CCL_RUNSTDBY_bp 6 /* Run in Standby bit position. */
/* CCL.SEQCTRL0 bit masks and bit positions */
#define CCL_SEQSEL_gm 0x07 /* Sequential Selection group mask. */
#define CCL_SEQSEL_gp 0 /* Sequential Selection group position. */
#define CCL_SEQSEL0_bm (1<<0) /* Sequential Selection bit 0 mask. */
#define CCL_SEQSEL0_bp 0 /* Sequential Selection bit 0 position. */
#define CCL_SEQSEL1_bm (1<<1) /* Sequential Selection bit 1 mask. */
#define CCL_SEQSEL1_bp 1 /* Sequential Selection bit 1 position. */
#define CCL_SEQSEL2_bm (1<<2) /* Sequential Selection bit 2 mask. */
#define CCL_SEQSEL2_bp 2 /* Sequential Selection bit 2 position. */
/* CCL.LUT0CTRLA bit masks and bit positions */
/* CCL_ENABLE is already defined. */
#define CCL_OUTEN_bm 0x08 /* Output Enable bit mask. */
#define CCL_OUTEN_bp 3 /* Output Enable bit position. */
#define CCL_FILTSEL_gm 0x30 /* Filter Selection group mask. */
#define CCL_FILTSEL_gp 4 /* Filter Selection group position. */
#define CCL_FILTSEL0_bm (1<<4) /* Filter Selection bit 0 mask. */
#define CCL_FILTSEL0_bp 4 /* Filter Selection bit 0 position. */
#define CCL_FILTSEL1_bm (1<<5) /* Filter Selection bit 1 mask. */
#define CCL_FILTSEL1_bp 5 /* Filter Selection bit 1 position. */
#define CCL_CLKSRC_bm 0x40 /* Clock Source Selection bit mask. */
#define CCL_CLKSRC_bp 6 /* Clock Source Selection bit position. */
#define CCL_EDGEDET_bm 0x80 /* Edge Detection Enable bit mask. */
#define CCL_EDGEDET_bp 7 /* Edge Detection Enable bit position. */
/* CCL.LUT0CTRLB bit masks and bit positions */
#define CCL_INSEL0_gm 0x0F /* LUT Input 0 Source Selection group mask. */
#define CCL_INSEL0_gp 0 /* LUT Input 0 Source Selection group position. */
#define CCL_INSEL00_bm (1<<0) /* LUT Input 0 Source Selection bit 0 mask. */
#define CCL_INSEL00_bp 0 /* LUT Input 0 Source Selection bit 0 position. */
#define CCL_INSEL01_bm (1<<1) /* LUT Input 0 Source Selection bit 1 mask. */
#define CCL_INSEL01_bp 1 /* LUT Input 0 Source Selection bit 1 position. */
#define CCL_INSEL02_bm (1<<2) /* LUT Input 0 Source Selection bit 2 mask. */
#define CCL_INSEL02_bp 2 /* LUT Input 0 Source Selection bit 2 position. */
#define CCL_INSEL03_bm (1<<3) /* LUT Input 0 Source Selection bit 3 mask. */
#define CCL_INSEL03_bp 3 /* LUT Input 0 Source Selection bit 3 position. */
#define CCL_INSEL1_gm 0xF0 /* LUT Input 1 Source Selection group mask. */
#define CCL_INSEL1_gp 4 /* LUT Input 1 Source Selection group position. */
#define CCL_INSEL10_bm (1<<4) /* LUT Input 1 Source Selection bit 0 mask. */
#define CCL_INSEL10_bp 4 /* LUT Input 1 Source Selection bit 0 position. */
#define CCL_INSEL11_bm (1<<5) /* LUT Input 1 Source Selection bit 1 mask. */
#define CCL_INSEL11_bp 5 /* LUT Input 1 Source Selection bit 1 position. */
#define CCL_INSEL12_bm (1<<6) /* LUT Input 1 Source Selection bit 2 mask. */
#define CCL_INSEL12_bp 6 /* LUT Input 1 Source Selection bit 2 position. */
#define CCL_INSEL13_bm (1<<7) /* LUT Input 1 Source Selection bit 3 mask. */
#define CCL_INSEL13_bp 7 /* LUT Input 1 Source Selection bit 3 position. */
/* CCL.LUT0CTRLC bit masks and bit positions */
#define CCL_INSEL2_gm 0x0F /* LUT Input 2 Source Selection group mask. */
#define CCL_INSEL2_gp 0 /* LUT Input 2 Source Selection group position. */
#define CCL_INSEL20_bm (1<<0) /* LUT Input 2 Source Selection bit 0 mask. */
#define CCL_INSEL20_bp 0 /* LUT Input 2 Source Selection bit 0 position. */
#define CCL_INSEL21_bm (1<<1) /* LUT Input 2 Source Selection bit 1 mask. */
#define CCL_INSEL21_bp 1 /* LUT Input 2 Source Selection bit 1 position. */
#define CCL_INSEL22_bm (1<<2) /* LUT Input 2 Source Selection bit 2 mask. */
#define CCL_INSEL22_bp 2 /* LUT Input 2 Source Selection bit 2 position. */
#define CCL_INSEL23_bm (1<<3) /* LUT Input 2 Source Selection bit 3 mask. */
#define CCL_INSEL23_bp 3 /* LUT Input 2 Source Selection bit 3 position. */
/* CCL.LUT1CTRLA bit masks and bit positions */
/* CCL_ENABLE is already defined. */
/* CCL_OUTEN is already defined. */
/* CCL_FILTSEL is already defined. */
/* CCL_CLKSRC is already defined. */
/* CCL_EDGEDET is already defined. */
/* CCL.LUT1CTRLB bit masks and bit positions */
/* CCL_INSEL0 is already defined. */
/* CCL_INSEL1 is already defined. */
/* CCL.LUT1CTRLC bit masks and bit positions */
/* CCL_INSEL2 is already defined. */
/* CLKCTRL - Clock controller */
/* CLKCTRL.MCLKCTRLA bit masks and bit positions */
#define CLKCTRL_CLKSEL_gm 0x03 /* clock select group mask. */
#define CLKCTRL_CLKSEL_gp 0 /* clock select group position. */
#define CLKCTRL_CLKSEL0_bm (1<<0) /* clock select bit 0 mask. */
#define CLKCTRL_CLKSEL0_bp 0 /* clock select bit 0 position. */
#define CLKCTRL_CLKSEL1_bm (1<<1) /* clock select bit 1 mask. */
#define CLKCTRL_CLKSEL1_bp 1 /* clock select bit 1 position. */
#define CLKCTRL_CLKOUT_bm 0x80 /* System clock out bit mask. */
#define CLKCTRL_CLKOUT_bp 7 /* System clock out bit position. */
/* CLKCTRL.MCLKCTRLB bit masks and bit positions */
#define CLKCTRL_PEN_bm 0x01 /* Prescaler enable bit mask. */
#define CLKCTRL_PEN_bp 0 /* Prescaler enable bit position. */
#define CLKCTRL_PDIV_gm 0x1E /* Prescaler division group mask. */
#define CLKCTRL_PDIV_gp 1 /* Prescaler division group position. */
#define CLKCTRL_PDIV0_bm (1<<1) /* Prescaler division bit 0 mask. */
#define CLKCTRL_PDIV0_bp 1 /* Prescaler division bit 0 position. */
#define CLKCTRL_PDIV1_bm (1<<2) /* Prescaler division bit 1 mask. */
#define CLKCTRL_PDIV1_bp 2 /* Prescaler division bit 1 position. */
#define CLKCTRL_PDIV2_bm (1<<3) /* Prescaler division bit 2 mask. */
#define CLKCTRL_PDIV2_bp 3 /* Prescaler division bit 2 position. */
#define CLKCTRL_PDIV3_bm (1<<4) /* Prescaler division bit 3 mask. */
#define CLKCTRL_PDIV3_bp 4 /* Prescaler division bit 3 position. */
/* CLKCTRL.MCLKLOCK bit masks and bit positions */
#define CLKCTRL_LOCKEN_bm 0x01 /* lock ebable bit mask. */
#define CLKCTRL_LOCKEN_bp 0 /* lock ebable bit position. */
/* CLKCTRL.MCLKSTATUS bit masks and bit positions */
#define CLKCTRL_SOSC_bm 0x01 /* System Oscillator changing bit mask. */
#define CLKCTRL_SOSC_bp 0 /* System Oscillator changing bit position. */
#define CLKCTRL_OSC20MS_bm 0x10 /* 20MHz oscillator status bit mask. */
#define CLKCTRL_OSC20MS_bp 4 /* 20MHz oscillator status bit position. */
#define CLKCTRL_OSC32KS_bm 0x20 /* 32KHz oscillator status bit mask. */
#define CLKCTRL_OSC32KS_bp 5 /* 32KHz oscillator status bit position. */
#define CLKCTRL_XOSC32KS_bm 0x40 /* 32.768 kHz Crystal Oscillator status bit mask. */
#define CLKCTRL_XOSC32KS_bp 6 /* 32.768 kHz Crystal Oscillator status bit position. */
#define CLKCTRL_EXTS_bm 0x80 /* External Clock status bit mask. */
#define CLKCTRL_EXTS_bp 7 /* External Clock status bit position. */
/* CLKCTRL.OSC20MCTRLA bit masks and bit positions */
#define CLKCTRL_RUNSTDBY_bm 0x02 /* Run standby bit mask. */
#define CLKCTRL_RUNSTDBY_bp 1 /* Run standby bit position. */
/* CLKCTRL.OSC20MCALIBA bit masks and bit positions */
#define CLKCTRL_CAL20M_gm 0x3F /* Calibration group mask. */
#define CLKCTRL_CAL20M_gp 0 /* Calibration group position. */
#define CLKCTRL_CAL20M0_bm (1<<0) /* Calibration bit 0 mask. */
#define CLKCTRL_CAL20M0_bp 0 /* Calibration bit 0 position. */
#define CLKCTRL_CAL20M1_bm (1<<1) /* Calibration bit 1 mask. */
#define CLKCTRL_CAL20M1_bp 1 /* Calibration bit 1 position. */
#define CLKCTRL_CAL20M2_bm (1<<2) /* Calibration bit 2 mask. */
#define CLKCTRL_CAL20M2_bp 2 /* Calibration bit 2 position. */
#define CLKCTRL_CAL20M3_bm (1<<3) /* Calibration bit 3 mask. */
#define CLKCTRL_CAL20M3_bp 3 /* Calibration bit 3 position. */
#define CLKCTRL_CAL20M4_bm (1<<4) /* Calibration bit 4 mask. */
#define CLKCTRL_CAL20M4_bp 4 /* Calibration bit 4 position. */
#define CLKCTRL_CAL20M5_bm (1<<5) /* Calibration bit 5 mask. */
#define CLKCTRL_CAL20M5_bp 5 /* Calibration bit 5 position. */
/* CLKCTRL.OSC20MCALIBB bit masks and bit positions */
#define CLKCTRL_TEMPCAL20M_gm 0x0F /* Oscillator temperature coefficient group mask. */
#define CLKCTRL_TEMPCAL20M_gp 0 /* Oscillator temperature coefficient group position. */
#define CLKCTRL_TEMPCAL20M0_bm (1<<0) /* Oscillator temperature coefficient bit 0 mask. */
#define CLKCTRL_TEMPCAL20M0_bp 0 /* Oscillator temperature coefficient bit 0 position. */
#define CLKCTRL_TEMPCAL20M1_bm (1<<1) /* Oscillator temperature coefficient bit 1 mask. */
#define CLKCTRL_TEMPCAL20M1_bp 1 /* Oscillator temperature coefficient bit 1 position. */
#define CLKCTRL_TEMPCAL20M2_bm (1<<2) /* Oscillator temperature coefficient bit 2 mask. */
#define CLKCTRL_TEMPCAL20M2_bp 2 /* Oscillator temperature coefficient bit 2 position. */
#define CLKCTRL_TEMPCAL20M3_bm (1<<3) /* Oscillator temperature coefficient bit 3 mask. */
#define CLKCTRL_TEMPCAL20M3_bp 3 /* Oscillator temperature coefficient bit 3 position. */
#define CLKCTRL_LOCK_bm 0x80 /* Lock bit mask. */
#define CLKCTRL_LOCK_bp 7 /* Lock bit position. */
/* CLKCTRL.OSC32KCTRLA bit masks and bit positions */
/* CLKCTRL_RUNSTDBY is already defined. */
/* CPU - CPU */
/* CPU.CCP bit masks and bit positions */
#define CPU_CCP_gm 0xFF /* CCP signature group mask. */
#define CPU_CCP_gp 0 /* CCP signature group position. */
#define CPU_CCP0_bm (1<<0) /* CCP signature bit 0 mask. */
#define CPU_CCP0_bp 0 /* CCP signature bit 0 position. */
#define CPU_CCP1_bm (1<<1) /* CCP signature bit 1 mask. */
#define CPU_CCP1_bp 1 /* CCP signature bit 1 position. */
#define CPU_CCP2_bm (1<<2) /* CCP signature bit 2 mask. */
#define CPU_CCP2_bp 2 /* CCP signature bit 2 position. */
#define CPU_CCP3_bm (1<<3) /* CCP signature bit 3 mask. */
#define CPU_CCP3_bp 3 /* CCP signature bit 3 position. */
#define CPU_CCP4_bm (1<<4) /* CCP signature bit 4 mask. */
#define CPU_CCP4_bp 4 /* CCP signature bit 4 position. */
#define CPU_CCP5_bm (1<<5) /* CCP signature bit 5 mask. */
#define CPU_CCP5_bp 5 /* CCP signature bit 5 position. */
#define CPU_CCP6_bm (1<<6) /* CCP signature bit 6 mask. */
#define CPU_CCP6_bp 6 /* CCP signature bit 6 position. */
#define CPU_CCP7_bm (1<<7) /* CCP signature bit 7 mask. */
#define CPU_CCP7_bp 7 /* CCP signature bit 7 position. */
/* CPU.SREG bit masks and bit positions */
#define CPU_C_bm 0x01 /* Carry Flag bit mask. */
#define CPU_C_bp 0 /* Carry Flag bit position. */
#define CPU_Z_bm 0x02 /* Zero Flag bit mask. */
#define CPU_Z_bp 1 /* Zero Flag bit position. */
#define CPU_N_bm 0x04 /* Negative Flag bit mask. */
#define CPU_N_bp 2 /* Negative Flag bit position. */
#define CPU_V_bm 0x08 /* Two's Complement Overflow Flag bit mask. */
#define CPU_V_bp 3 /* Two's Complement Overflow Flag bit position. */
#define CPU_S_bm 0x10 /* N Exclusive Or V Flag bit mask. */
#define CPU_S_bp 4 /* N Exclusive Or V Flag bit position. */
#define CPU_H_bm 0x20 /* Half Carry Flag bit mask. */
#define CPU_H_bp 5 /* Half Carry Flag bit position. */
#define CPU_T_bm 0x40 /* Transfer Bit bit mask. */
#define CPU_T_bp 6 /* Transfer Bit bit position. */
#define CPU_I_bm 0x80 /* Global Interrupt Enable Flag bit mask. */
#define CPU_I_bp 7 /* Global Interrupt Enable Flag bit position. */
/* CPUINT - Interrupt Controller */
/* CPUINT.CTRLA bit masks and bit positions */
#define CPUINT_LVL0RR_bm 0x01 /* Round-robin Scheduling Enable bit mask. */
#define CPUINT_LVL0RR_bp 0 /* Round-robin Scheduling Enable bit position. */
#define CPUINT_CVT_bm 0x20 /* Compact Vector Table bit mask. */
#define CPUINT_CVT_bp 5 /* Compact Vector Table bit position. */
#define CPUINT_IVSEL_bm 0x40 /* Interrupt Vector Select bit mask. */
#define CPUINT_IVSEL_bp 6 /* Interrupt Vector Select bit position. */
/* CPUINT.STATUS bit masks and bit positions */
#define CPUINT_LVL0EX_bm 0x01 /* Level 0 Interrupt Executing bit mask. */
#define CPUINT_LVL0EX_bp 0 /* Level 0 Interrupt Executing bit position. */
#define CPUINT_LVL1EX_bm 0x02 /* Level 1 Interrupt Executing bit mask. */
#define CPUINT_LVL1EX_bp 1 /* Level 1 Interrupt Executing bit position. */
#define CPUINT_NMIEX_bm 0x80 /* Non-maskable Interrupt Executing bit mask. */
#define CPUINT_NMIEX_bp 7 /* Non-maskable Interrupt Executing bit position. */
/* CPUINT.LVL0PRI bit masks and bit positions */
#define CPUINT_LVL0PRI_gm 0xFF /* Interrupt Level Priority group mask. */
#define CPUINT_LVL0PRI_gp 0 /* Interrupt Level Priority group position. */
#define CPUINT_LVL0PRI0_bm (1<<0) /* Interrupt Level Priority bit 0 mask. */
#define CPUINT_LVL0PRI0_bp 0 /* Interrupt Level Priority bit 0 position. */
#define CPUINT_LVL0PRI1_bm (1<<1) /* Interrupt Level Priority bit 1 mask. */
#define CPUINT_LVL0PRI1_bp 1 /* Interrupt Level Priority bit 1 position. */
#define CPUINT_LVL0PRI2_bm (1<<2) /* Interrupt Level Priority bit 2 mask. */
#define CPUINT_LVL0PRI2_bp 2 /* Interrupt Level Priority bit 2 position. */
#define CPUINT_LVL0PRI3_bm (1<<3) /* Interrupt Level Priority bit 3 mask. */
#define CPUINT_LVL0PRI3_bp 3 /* Interrupt Level Priority bit 3 position. */
#define CPUINT_LVL0PRI4_bm (1<<4) /* Interrupt Level Priority bit 4 mask. */
#define CPUINT_LVL0PRI4_bp 4 /* Interrupt Level Priority bit 4 position. */
#define CPUINT_LVL0PRI5_bm (1<<5) /* Interrupt Level Priority bit 5 mask. */
#define CPUINT_LVL0PRI5_bp 5 /* Interrupt Level Priority bit 5 position. */
#define CPUINT_LVL0PRI6_bm (1<<6) /* Interrupt Level Priority bit 6 mask. */
#define CPUINT_LVL0PRI6_bp 6 /* Interrupt Level Priority bit 6 position. */
#define CPUINT_LVL0PRI7_bm (1<<7) /* Interrupt Level Priority bit 7 mask. */
#define CPUINT_LVL0PRI7_bp 7 /* Interrupt Level Priority bit 7 position. */
/* CPUINT.LVL1VEC bit masks and bit positions */
#define CPUINT_LVL1VEC_gm 0xFF /* Interrupt Vector with High Priority group mask. */
#define CPUINT_LVL1VEC_gp 0 /* Interrupt Vector with High Priority group position. */
#define CPUINT_LVL1VEC0_bm (1<<0) /* Interrupt Vector with High Priority bit 0 mask. */
#define CPUINT_LVL1VEC0_bp 0 /* Interrupt Vector with High Priority bit 0 position. */
#define CPUINT_LVL1VEC1_bm (1<<1) /* Interrupt Vector with High Priority bit 1 mask. */
#define CPUINT_LVL1VEC1_bp 1 /* Interrupt Vector with High Priority bit 1 position. */
#define CPUINT_LVL1VEC2_bm (1<<2) /* Interrupt Vector with High Priority bit 2 mask. */
#define CPUINT_LVL1VEC2_bp 2 /* Interrupt Vector with High Priority bit 2 position. */
#define CPUINT_LVL1VEC3_bm (1<<3) /* Interrupt Vector with High Priority bit 3 mask. */
#define CPUINT_LVL1VEC3_bp 3 /* Interrupt Vector with High Priority bit 3 position. */
#define CPUINT_LVL1VEC4_bm (1<<4) /* Interrupt Vector with High Priority bit 4 mask. */
#define CPUINT_LVL1VEC4_bp 4 /* Interrupt Vector with High Priority bit 4 position. */
#define CPUINT_LVL1VEC5_bm (1<<5) /* Interrupt Vector with High Priority bit 5 mask. */
#define CPUINT_LVL1VEC5_bp 5 /* Interrupt Vector with High Priority bit 5 position. */
#define CPUINT_LVL1VEC6_bm (1<<6) /* Interrupt Vector with High Priority bit 6 mask. */
#define CPUINT_LVL1VEC6_bp 6 /* Interrupt Vector with High Priority bit 6 position. */
#define CPUINT_LVL1VEC7_bm (1<<7) /* Interrupt Vector with High Priority bit 7 mask. */
#define CPUINT_LVL1VEC7_bp 7 /* Interrupt Vector with High Priority bit 7 position. */
/* CRCSCAN - CRCSCAN */
/* CRCSCAN.CTRLA bit masks and bit positions */
#define CRCSCAN_ENABLE_bm 0x01 /* Enable CRC scan bit mask. */
#define CRCSCAN_ENABLE_bp 0 /* Enable CRC scan bit position. */
#define CRCSCAN_NMIEN_bm 0x02 /* Enable NMI Trigger bit mask. */
#define CRCSCAN_NMIEN_bp 1 /* Enable NMI Trigger bit position. */
#define CRCSCAN_RESET_bm 0x80 /* Reset CRC scan bit mask. */
#define CRCSCAN_RESET_bp 7 /* Reset CRC scan bit position. */
/* CRCSCAN.CTRLB bit masks and bit positions */
#define CRCSCAN_SRC_gm 0x03 /* CRC Source group mask. */
#define CRCSCAN_SRC_gp 0 /* CRC Source group position. */
#define CRCSCAN_SRC0_bm (1<<0) /* CRC Source bit 0 mask. */
#define CRCSCAN_SRC0_bp 0 /* CRC Source bit 0 position. */
#define CRCSCAN_SRC1_bm (1<<1) /* CRC Source bit 1 mask. */
#define CRCSCAN_SRC1_bp 1 /* CRC Source bit 1 position. */
#define CRCSCAN_MODE_gm 0x30 /* CRC Flash Access Mode group mask. */
#define CRCSCAN_MODE_gp 4 /* CRC Flash Access Mode group position. */
#define CRCSCAN_MODE0_bm (1<<4) /* CRC Flash Access Mode bit 0 mask. */
#define CRCSCAN_MODE0_bp 4 /* CRC Flash Access Mode bit 0 position. */
#define CRCSCAN_MODE1_bm (1<<5) /* CRC Flash Access Mode bit 1 mask. */
#define CRCSCAN_MODE1_bp 5 /* CRC Flash Access Mode bit 1 position. */
/* CRCSCAN.STATUS bit masks and bit positions */
#define CRCSCAN_BUSY_bm 0x01 /* CRC Busy bit mask. */
#define CRCSCAN_BUSY_bp 0 /* CRC Busy bit position. */
#define CRCSCAN_OK_bm 0x02 /* CRC Ok bit mask. */
#define CRCSCAN_OK_bp 1 /* CRC Ok bit position. */
/* EVSYS - Event System */
/* EVSYS.ASYNCCH0 bit masks and bit positions */
#define EVSYS_ASYNCCH0_gm 0xFF /* Asynchronous Channel 0 Generator Selection group mask. */
#define EVSYS_ASYNCCH0_gp 0 /* Asynchronous Channel 0 Generator Selection group position. */
#define EVSYS_ASYNCCH00_bm (1<<0) /* Asynchronous Channel 0 Generator Selection bit 0 mask. */
#define EVSYS_ASYNCCH00_bp 0 /* Asynchronous Channel 0 Generator Selection bit 0 position. */
#define EVSYS_ASYNCCH01_bm (1<<1) /* Asynchronous Channel 0 Generator Selection bit 1 mask. */
#define EVSYS_ASYNCCH01_bp 1 /* Asynchronous Channel 0 Generator Selection bit 1 position. */
#define EVSYS_ASYNCCH02_bm (1<<2) /* Asynchronous Channel 0 Generator Selection bit 2 mask. */
#define EVSYS_ASYNCCH02_bp 2 /* Asynchronous Channel 0 Generator Selection bit 2 position. */
#define EVSYS_ASYNCCH03_bm (1<<3) /* Asynchronous Channel 0 Generator Selection bit 3 mask. */
#define EVSYS_ASYNCCH03_bp 3 /* Asynchronous Channel 0 Generator Selection bit 3 position. */
#define EVSYS_ASYNCCH04_bm (1<<4) /* Asynchronous Channel 0 Generator Selection bit 4 mask. */
#define EVSYS_ASYNCCH04_bp 4 /* Asynchronous Channel 0 Generator Selection bit 4 position. */
#define EVSYS_ASYNCCH05_bm (1<<5) /* Asynchronous Channel 0 Generator Selection bit 5 mask. */
#define EVSYS_ASYNCCH05_bp 5 /* Asynchronous Channel 0 Generator Selection bit 5 position. */
#define EVSYS_ASYNCCH06_bm (1<<6) /* Asynchronous Channel 0 Generator Selection bit 6 mask. */
#define EVSYS_ASYNCCH06_bp 6 /* Asynchronous Channel 0 Generator Selection bit 6 position. */
#define EVSYS_ASYNCCH07_bm (1<<7) /* Asynchronous Channel 0 Generator Selection bit 7 mask. */
#define EVSYS_ASYNCCH07_bp 7 /* Asynchronous Channel 0 Generator Selection bit 7 position. */
/* EVSYS.ASYNCCH1 bit masks and bit positions */
#define EVSYS_ASYNCCH1_gm 0xFF /* Asynchronous Channel 1 Generator Selection group mask. */
#define EVSYS_ASYNCCH1_gp 0 /* Asynchronous Channel 1 Generator Selection group position. */
#define EVSYS_ASYNCCH10_bm (1<<0) /* Asynchronous Channel 1 Generator Selection bit 0 mask. */
#define EVSYS_ASYNCCH10_bp 0 /* Asynchronous Channel 1 Generator Selection bit 0 position. */
#define EVSYS_ASYNCCH11_bm (1<<1) /* Asynchronous Channel 1 Generator Selection bit 1 mask. */
#define EVSYS_ASYNCCH11_bp 1 /* Asynchronous Channel 1 Generator Selection bit 1 position. */
#define EVSYS_ASYNCCH12_bm (1<<2) /* Asynchronous Channel 1 Generator Selection bit 2 mask. */
#define EVSYS_ASYNCCH12_bp 2 /* Asynchronous Channel 1 Generator Selection bit 2 position. */
#define EVSYS_ASYNCCH13_bm (1<<3) /* Asynchronous Channel 1 Generator Selection bit 3 mask. */
#define EVSYS_ASYNCCH13_bp 3 /* Asynchronous Channel 1 Generator Selection bit 3 position. */
#define EVSYS_ASYNCCH14_bm (1<<4) /* Asynchronous Channel 1 Generator Selection bit 4 mask. */
#define EVSYS_ASYNCCH14_bp 4 /* Asynchronous Channel 1 Generator Selection bit 4 position. */
#define EVSYS_ASYNCCH15_bm (1<<5) /* Asynchronous Channel 1 Generator Selection bit 5 mask. */
#define EVSYS_ASYNCCH15_bp 5 /* Asynchronous Channel 1 Generator Selection bit 5 position. */
#define EVSYS_ASYNCCH16_bm (1<<6) /* Asynchronous Channel 1 Generator Selection bit 6 mask. */
#define EVSYS_ASYNCCH16_bp 6 /* Asynchronous Channel 1 Generator Selection bit 6 position. */
#define EVSYS_ASYNCCH17_bm (1<<7) /* Asynchronous Channel 1 Generator Selection bit 7 mask. */
#define EVSYS_ASYNCCH17_bp 7 /* Asynchronous Channel 1 Generator Selection bit 7 position. */
/* EVSYS.SYNCCH0 bit masks and bit positions */
#define EVSYS_SYNCCH0_gm 0xFF /* Synchronous Channel 0 Generator Selection group mask. */
#define EVSYS_SYNCCH0_gp 0 /* Synchronous Channel 0 Generator Selection group position. */
#define EVSYS_SYNCCH00_bm (1<<0) /* Synchronous Channel 0 Generator Selection bit 0 mask. */
#define EVSYS_SYNCCH00_bp 0 /* Synchronous Channel 0 Generator Selection bit 0 position. */
#define EVSYS_SYNCCH01_bm (1<<1) /* Synchronous Channel 0 Generator Selection bit 1 mask. */
#define EVSYS_SYNCCH01_bp 1 /* Synchronous Channel 0 Generator Selection bit 1 position. */
#define EVSYS_SYNCCH02_bm (1<<2) /* Synchronous Channel 0 Generator Selection bit 2 mask. */
#define EVSYS_SYNCCH02_bp 2 /* Synchronous Channel 0 Generator Selection bit 2 position. */
#define EVSYS_SYNCCH03_bm (1<<3) /* Synchronous Channel 0 Generator Selection bit 3 mask. */
#define EVSYS_SYNCCH03_bp 3 /* Synchronous Channel 0 Generator Selection bit 3 position. */
#define EVSYS_SYNCCH04_bm (1<<4) /* Synchronous Channel 0 Generator Selection bit 4 mask. */
#define EVSYS_SYNCCH04_bp 4 /* Synchronous Channel 0 Generator Selection bit 4 position. */
#define EVSYS_SYNCCH05_bm (1<<5) /* Synchronous Channel 0 Generator Selection bit 5 mask. */
#define EVSYS_SYNCCH05_bp 5 /* Synchronous Channel 0 Generator Selection bit 5 position. */
#define EVSYS_SYNCCH06_bm (1<<6) /* Synchronous Channel 0 Generator Selection bit 6 mask. */
#define EVSYS_SYNCCH06_bp 6 /* Synchronous Channel 0 Generator Selection bit 6 position. */
#define EVSYS_SYNCCH07_bm (1<<7) /* Synchronous Channel 0 Generator Selection bit 7 mask. */
#define EVSYS_SYNCCH07_bp 7 /* Synchronous Channel 0 Generator Selection bit 7 position. */
/* EVSYS.ASYNCUSER0 bit masks and bit positions */
#define EVSYS_ASYNCUSER0_gm 0xFF /* Asynchronous User Ch 0 Input Selection - TCB0 group mask. */
#define EVSYS_ASYNCUSER0_gp 0 /* Asynchronous User Ch 0 Input Selection - TCB0 group position. */
#define EVSYS_ASYNCUSER00_bm (1<<0) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 0 mask. */
#define EVSYS_ASYNCUSER00_bp 0 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 0 position. */
#define EVSYS_ASYNCUSER01_bm (1<<1) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 1 mask. */
#define EVSYS_ASYNCUSER01_bp 1 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 1 position. */
#define EVSYS_ASYNCUSER02_bm (1<<2) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 2 mask. */
#define EVSYS_ASYNCUSER02_bp 2 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 2 position. */
#define EVSYS_ASYNCUSER03_bm (1<<3) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 3 mask. */
#define EVSYS_ASYNCUSER03_bp 3 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 3 position. */
#define EVSYS_ASYNCUSER04_bm (1<<4) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 4 mask. */
#define EVSYS_ASYNCUSER04_bp 4 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 4 position. */
#define EVSYS_ASYNCUSER05_bm (1<<5) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 5 mask. */
#define EVSYS_ASYNCUSER05_bp 5 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 5 position. */
#define EVSYS_ASYNCUSER06_bm (1<<6) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 6 mask. */
#define EVSYS_ASYNCUSER06_bp 6 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 6 position. */
#define EVSYS_ASYNCUSER07_bm (1<<7) /* Asynchronous User Ch 0 Input Selection - TCB0 bit 7 mask. */
#define EVSYS_ASYNCUSER07_bp 7 /* Asynchronous User Ch 0 Input Selection - TCB0 bit 7 position. */
/* EVSYS.ASYNCUSER1 bit masks and bit positions */
#define EVSYS_ASYNCUSER1_gm 0xFF /* Asynchronous User Ch 1 Input Selection - ADC0 group mask. */
#define EVSYS_ASYNCUSER1_gp 0 /* Asynchronous User Ch 1 Input Selection - ADC0 group position. */
#define EVSYS_ASYNCUSER10_bm (1<<0) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 0 mask. */
#define EVSYS_ASYNCUSER10_bp 0 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 0 position. */
#define EVSYS_ASYNCUSER11_bm (1<<1) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 1 mask. */
#define EVSYS_ASYNCUSER11_bp 1 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 1 position. */
#define EVSYS_ASYNCUSER12_bm (1<<2) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 2 mask. */
#define EVSYS_ASYNCUSER12_bp 2 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 2 position. */
#define EVSYS_ASYNCUSER13_bm (1<<3) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 3 mask. */
#define EVSYS_ASYNCUSER13_bp 3 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 3 position. */
#define EVSYS_ASYNCUSER14_bm (1<<4) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 4 mask. */
#define EVSYS_ASYNCUSER14_bp 4 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 4 position. */
#define EVSYS_ASYNCUSER15_bm (1<<5) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 5 mask. */
#define EVSYS_ASYNCUSER15_bp 5 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 5 position. */
#define EVSYS_ASYNCUSER16_bm (1<<6) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 6 mask. */
#define EVSYS_ASYNCUSER16_bp 6 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 6 position. */
#define EVSYS_ASYNCUSER17_bm (1<<7) /* Asynchronous User Ch 1 Input Selection - ADC0 bit 7 mask. */
#define EVSYS_ASYNCUSER17_bp 7 /* Asynchronous User Ch 1 Input Selection - ADC0 bit 7 position. */
/* EVSYS.ASYNCUSER2 bit masks and bit positions */
#define EVSYS_ASYNCUSER2_gm 0xFF /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 group mask. */
#define EVSYS_ASYNCUSER2_gp 0 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 group position. */
#define EVSYS_ASYNCUSER20_bm (1<<0) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 0 mask. */
#define EVSYS_ASYNCUSER20_bp 0 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 0 position. */
#define EVSYS_ASYNCUSER21_bm (1<<1) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 1 mask. */
#define EVSYS_ASYNCUSER21_bp 1 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 1 position. */
#define EVSYS_ASYNCUSER22_bm (1<<2) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 2 mask. */
#define EVSYS_ASYNCUSER22_bp 2 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 2 position. */
#define EVSYS_ASYNCUSER23_bm (1<<3) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 3 mask. */
#define EVSYS_ASYNCUSER23_bp 3 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 3 position. */
#define EVSYS_ASYNCUSER24_bm (1<<4) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 4 mask. */
#define EVSYS_ASYNCUSER24_bp 4 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 4 position. */
#define EVSYS_ASYNCUSER25_bm (1<<5) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 5 mask. */
#define EVSYS_ASYNCUSER25_bp 5 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 5 position. */
#define EVSYS_ASYNCUSER26_bm (1<<6) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 6 mask. */
#define EVSYS_ASYNCUSER26_bp 6 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 6 position. */
#define EVSYS_ASYNCUSER27_bm (1<<7) /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 7 mask. */
#define EVSYS_ASYNCUSER27_bp 7 /* Asynchronous User Ch 2 Input Selection - CCL LUT0 Event 0 bit 7 position. */
/* EVSYS.ASYNCUSER3 bit masks and bit positions */
#define EVSYS_ASYNCUSER3_gm 0xFF /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 group mask. */
#define EVSYS_ASYNCUSER3_gp 0 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 group position. */
#define EVSYS_ASYNCUSER30_bm (1<<0) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 0 mask. */
#define EVSYS_ASYNCUSER30_bp 0 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 0 position. */
#define EVSYS_ASYNCUSER31_bm (1<<1) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 1 mask. */
#define EVSYS_ASYNCUSER31_bp 1 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 1 position. */
#define EVSYS_ASYNCUSER32_bm (1<<2) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 2 mask. */
#define EVSYS_ASYNCUSER32_bp 2 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 2 position. */
#define EVSYS_ASYNCUSER33_bm (1<<3) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 3 mask. */
#define EVSYS_ASYNCUSER33_bp 3 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 3 position. */
#define EVSYS_ASYNCUSER34_bm (1<<4) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 4 mask. */
#define EVSYS_ASYNCUSER34_bp 4 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 4 position. */
#define EVSYS_ASYNCUSER35_bm (1<<5) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 5 mask. */
#define EVSYS_ASYNCUSER35_bp 5 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 5 position. */
#define EVSYS_ASYNCUSER36_bm (1<<6) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 6 mask. */
#define EVSYS_ASYNCUSER36_bp 6 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 6 position. */
#define EVSYS_ASYNCUSER37_bm (1<<7) /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 7 mask. */
#define EVSYS_ASYNCUSER37_bp 7 /* Asynchronous User Ch 3 Input Selection - CCL LUT1 Event 0 bit 7 position. */
/* EVSYS.ASYNCUSER4 bit masks and bit positions */
#define EVSYS_ASYNCUSER4_gm 0xFF /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 group mask. */
#define EVSYS_ASYNCUSER4_gp 0 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 group position. */
#define EVSYS_ASYNCUSER40_bm (1<<0) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 0 mask. */
#define EVSYS_ASYNCUSER40_bp 0 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 0 position. */
#define EVSYS_ASYNCUSER41_bm (1<<1) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 1 mask. */
#define EVSYS_ASYNCUSER41_bp 1 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 1 position. */
#define EVSYS_ASYNCUSER42_bm (1<<2) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 2 mask. */
#define EVSYS_ASYNCUSER42_bp 2 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 2 position. */
#define EVSYS_ASYNCUSER43_bm (1<<3) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 3 mask. */
#define EVSYS_ASYNCUSER43_bp 3 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 3 position. */
#define EVSYS_ASYNCUSER44_bm (1<<4) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 4 mask. */
#define EVSYS_ASYNCUSER44_bp 4 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 4 position. */
#define EVSYS_ASYNCUSER45_bm (1<<5) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 5 mask. */
#define EVSYS_ASYNCUSER45_bp 5 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 5 position. */
#define EVSYS_ASYNCUSER46_bm (1<<6) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 6 mask. */
#define EVSYS_ASYNCUSER46_bp 6 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 6 position. */
#define EVSYS_ASYNCUSER47_bm (1<<7) /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 7 mask. */
#define EVSYS_ASYNCUSER47_bp 7 /* Asynchronous User Ch 4 Input Selection - CCL LUT0 Event 1 bit 7 position. */
/* EVSYS.ASYNCUSER5 bit masks and bit positions */
#define EVSYS_ASYNCUSER5_gm 0xFF /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 group mask. */
#define EVSYS_ASYNCUSER5_gp 0 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 group position. */
#define EVSYS_ASYNCUSER50_bm (1<<0) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 0 mask. */
#define EVSYS_ASYNCUSER50_bp 0 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 0 position. */
#define EVSYS_ASYNCUSER51_bm (1<<1) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 1 mask. */
#define EVSYS_ASYNCUSER51_bp 1 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 1 position. */
#define EVSYS_ASYNCUSER52_bm (1<<2) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 2 mask. */
#define EVSYS_ASYNCUSER52_bp 2 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 2 position. */
#define EVSYS_ASYNCUSER53_bm (1<<3) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 3 mask. */
#define EVSYS_ASYNCUSER53_bp 3 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 3 position. */
#define EVSYS_ASYNCUSER54_bm (1<<4) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 4 mask. */
#define EVSYS_ASYNCUSER54_bp 4 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 4 position. */
#define EVSYS_ASYNCUSER55_bm (1<<5) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 5 mask. */
#define EVSYS_ASYNCUSER55_bp 5 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 5 position. */
#define EVSYS_ASYNCUSER56_bm (1<<6) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 6 mask. */
#define EVSYS_ASYNCUSER56_bp 6 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 6 position. */
#define EVSYS_ASYNCUSER57_bm (1<<7) /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 7 mask. */
#define EVSYS_ASYNCUSER57_bp 7 /* Asynchronous User Ch 5 Input Selection - CCL LUT1 Event 1 bit 7 position. */
/* EVSYS.ASYNCUSER6 bit masks and bit positions */
#define EVSYS_ASYNCUSER6_gm 0xFF /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 group mask. */
#define EVSYS_ASYNCUSER6_gp 0 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 group position. */
#define EVSYS_ASYNCUSER60_bm (1<<0) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 0 mask. */
#define EVSYS_ASYNCUSER60_bp 0 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 0 position. */
#define EVSYS_ASYNCUSER61_bm (1<<1) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 1 mask. */
#define EVSYS_ASYNCUSER61_bp 1 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 1 position. */
#define EVSYS_ASYNCUSER62_bm (1<<2) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 2 mask. */
#define EVSYS_ASYNCUSER62_bp 2 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 2 position. */
#define EVSYS_ASYNCUSER63_bm (1<<3) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 3 mask. */
#define EVSYS_ASYNCUSER63_bp 3 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 3 position. */
#define EVSYS_ASYNCUSER64_bm (1<<4) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 4 mask. */
#define EVSYS_ASYNCUSER64_bp 4 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 4 position. */
#define EVSYS_ASYNCUSER65_bm (1<<5) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 5 mask. */
#define EVSYS_ASYNCUSER65_bp 5 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 5 position. */
#define EVSYS_ASYNCUSER66_bm (1<<6) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 6 mask. */
#define EVSYS_ASYNCUSER66_bp 6 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 6 position. */
#define EVSYS_ASYNCUSER67_bm (1<<7) /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 7 mask. */
#define EVSYS_ASYNCUSER67_bp 7 /* Asynchronous User Ch 6 Input Selection - TCD0 Event 0 bit 7 position. */
/* EVSYS.ASYNCUSER7 bit masks and bit positions */
#define EVSYS_ASYNCUSER7_gm 0xFF /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 group mask. */
#define EVSYS_ASYNCUSER7_gp 0 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 group position. */
#define EVSYS_ASYNCUSER70_bm (1<<0) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 0 mask. */
#define EVSYS_ASYNCUSER70_bp 0 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 0 position. */
#define EVSYS_ASYNCUSER71_bm (1<<1) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 1 mask. */
#define EVSYS_ASYNCUSER71_bp 1 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 1 position. */
#define EVSYS_ASYNCUSER72_bm (1<<2) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 2 mask. */
#define EVSYS_ASYNCUSER72_bp 2 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 2 position. */
#define EVSYS_ASYNCUSER73_bm (1<<3) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 3 mask. */
#define EVSYS_ASYNCUSER73_bp 3 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 3 position. */
#define EVSYS_ASYNCUSER74_bm (1<<4) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 4 mask. */
#define EVSYS_ASYNCUSER74_bp 4 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 4 position. */
#define EVSYS_ASYNCUSER75_bm (1<<5) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 5 mask. */
#define EVSYS_ASYNCUSER75_bp 5 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 5 position. */
#define EVSYS_ASYNCUSER76_bm (1<<6) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 6 mask. */
#define EVSYS_ASYNCUSER76_bp 6 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 6 position. */
#define EVSYS_ASYNCUSER77_bm (1<<7) /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 7 mask. */
#define EVSYS_ASYNCUSER77_bp 7 /* Asynchronous User Ch 7 Input Selection - TCD0 Event 1 bit 7 position. */
/* EVSYS.ASYNCUSER8 bit masks and bit positions */
#define EVSYS_ASYNCUSER8_gm 0xFF /* Asynchronous User Ch 8 Input Selection - Event Out 0 group mask. */
#define EVSYS_ASYNCUSER8_gp 0 /* Asynchronous User Ch 8 Input Selection - Event Out 0 group position. */
#define EVSYS_ASYNCUSER80_bm (1<<0) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 0 mask. */
#define EVSYS_ASYNCUSER80_bp 0 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 0 position. */
#define EVSYS_ASYNCUSER81_bm (1<<1) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 1 mask. */
#define EVSYS_ASYNCUSER81_bp 1 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 1 position. */
#define EVSYS_ASYNCUSER82_bm (1<<2) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 2 mask. */
#define EVSYS_ASYNCUSER82_bp 2 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 2 position. */
#define EVSYS_ASYNCUSER83_bm (1<<3) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 3 mask. */
#define EVSYS_ASYNCUSER83_bp 3 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 3 position. */
#define EVSYS_ASYNCUSER84_bm (1<<4) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 4 mask. */
#define EVSYS_ASYNCUSER84_bp 4 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 4 position. */
#define EVSYS_ASYNCUSER85_bm (1<<5) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 5 mask. */
#define EVSYS_ASYNCUSER85_bp 5 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 5 position. */
#define EVSYS_ASYNCUSER86_bm (1<<6) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 6 mask. */
#define EVSYS_ASYNCUSER86_bp 6 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 6 position. */
#define EVSYS_ASYNCUSER87_bm (1<<7) /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 7 mask. */
#define EVSYS_ASYNCUSER87_bp 7 /* Asynchronous User Ch 8 Input Selection - Event Out 0 bit 7 position. */
/* EVSYS.ASYNCUSER9 bit masks and bit positions */
#define EVSYS_ASYNCUSER9_gm 0xFF /* Asynchronous User Ch 9 Input Selection - Event Out 1 group mask. */
#define EVSYS_ASYNCUSER9_gp 0 /* Asynchronous User Ch 9 Input Selection - Event Out 1 group position. */
#define EVSYS_ASYNCUSER90_bm (1<<0) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 0 mask. */
#define EVSYS_ASYNCUSER90_bp 0 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 0 position. */
#define EVSYS_ASYNCUSER91_bm (1<<1) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 1 mask. */
#define EVSYS_ASYNCUSER91_bp 1 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 1 position. */
#define EVSYS_ASYNCUSER92_bm (1<<2) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 2 mask. */
#define EVSYS_ASYNCUSER92_bp 2 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 2 position. */
#define EVSYS_ASYNCUSER93_bm (1<<3) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 3 mask. */
#define EVSYS_ASYNCUSER93_bp 3 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 3 position. */
#define EVSYS_ASYNCUSER94_bm (1<<4) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 4 mask. */
#define EVSYS_ASYNCUSER94_bp 4 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 4 position. */
#define EVSYS_ASYNCUSER95_bm (1<<5) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 5 mask. */
#define EVSYS_ASYNCUSER95_bp 5 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 5 position. */
#define EVSYS_ASYNCUSER96_bm (1<<6) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 6 mask. */
#define EVSYS_ASYNCUSER96_bp 6 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 6 position. */
#define EVSYS_ASYNCUSER97_bm (1<<7) /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 7 mask. */
#define EVSYS_ASYNCUSER97_bp 7 /* Asynchronous User Ch 9 Input Selection - Event Out 1 bit 7 position. */
/* EVSYS.ASYNCUSER10 bit masks and bit positions */
#define EVSYS_ASYNCUSER10_gm 0xFF /* Asynchronous User Ch 10 Input Selection - Event Out 2 group mask. */
#define EVSYS_ASYNCUSER10_gp 0 /* Asynchronous User Ch 10 Input Selection - Event Out 2 group position. */
#define EVSYS_ASYNCUSER100_bm (1<<0) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 0 mask. */
#define EVSYS_ASYNCUSER100_bp 0 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 0 position. */
#define EVSYS_ASYNCUSER101_bm (1<<1) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 1 mask. */
#define EVSYS_ASYNCUSER101_bp 1 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 1 position. */
#define EVSYS_ASYNCUSER102_bm (1<<2) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 2 mask. */
#define EVSYS_ASYNCUSER102_bp 2 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 2 position. */
#define EVSYS_ASYNCUSER103_bm (1<<3) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 3 mask. */
#define EVSYS_ASYNCUSER103_bp 3 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 3 position. */
#define EVSYS_ASYNCUSER104_bm (1<<4) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 4 mask. */
#define EVSYS_ASYNCUSER104_bp 4 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 4 position. */
#define EVSYS_ASYNCUSER105_bm (1<<5) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 5 mask. */
#define EVSYS_ASYNCUSER105_bp 5 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 5 position. */
#define EVSYS_ASYNCUSER106_bm (1<<6) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 6 mask. */
#define EVSYS_ASYNCUSER106_bp 6 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 6 position. */
#define EVSYS_ASYNCUSER107_bm (1<<7) /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 7 mask. */
#define EVSYS_ASYNCUSER107_bp 7 /* Asynchronous User Ch 10 Input Selection - Event Out 2 bit 7 position. */
/* EVSYS.SYNCUSER0 bit masks and bit positions */
#define EVSYS_SYNCUSER0_gm 0xFF /* Synchronous User Ch 0 Input Selection - TCA0 group mask. */
#define EVSYS_SYNCUSER0_gp 0 /* Synchronous User Ch 0 Input Selection - TCA0 group position. */
#define EVSYS_SYNCUSER00_bm (1<<0) /* Synchronous User Ch 0 Input Selection - TCA0 bit 0 mask. */
#define EVSYS_SYNCUSER00_bp 0 /* Synchronous User Ch 0 Input Selection - TCA0 bit 0 position. */
#define EVSYS_SYNCUSER01_bm (1<<1) /* Synchronous User Ch 0 Input Selection - TCA0 bit 1 mask. */
#define EVSYS_SYNCUSER01_bp 1 /* Synchronous User Ch 0 Input Selection - TCA0 bit 1 position. */
#define EVSYS_SYNCUSER02_bm (1<<2) /* Synchronous User Ch 0 Input Selection - TCA0 bit 2 mask. */
#define EVSYS_SYNCUSER02_bp 2 /* Synchronous User Ch 0 Input Selection - TCA0 bit 2 position. */
#define EVSYS_SYNCUSER03_bm (1<<3) /* Synchronous User Ch 0 Input Selection - TCA0 bit 3 mask. */
#define EVSYS_SYNCUSER03_bp 3 /* Synchronous User Ch 0 Input Selection - TCA0 bit 3 position. */
#define EVSYS_SYNCUSER04_bm (1<<4) /* Synchronous User Ch 0 Input Selection - TCA0 bit 4 mask. */
#define EVSYS_SYNCUSER04_bp 4 /* Synchronous User Ch 0 Input Selection - TCA0 bit 4 position. */
#define EVSYS_SYNCUSER05_bm (1<<5) /* Synchronous User Ch 0 Input Selection - TCA0 bit 5 mask. */
#define EVSYS_SYNCUSER05_bp 5 /* Synchronous User Ch 0 Input Selection - TCA0 bit 5 position. */
#define EVSYS_SYNCUSER06_bm (1<<6) /* Synchronous User Ch 0 Input Selection - TCA0 bit 6 mask. */
#define EVSYS_SYNCUSER06_bp 6 /* Synchronous User Ch 0 Input Selection - TCA0 bit 6 position. */
#define EVSYS_SYNCUSER07_bm (1<<7) /* Synchronous User Ch 0 Input Selection - TCA0 bit 7 mask. */
#define EVSYS_SYNCUSER07_bp 7 /* Synchronous User Ch 0 Input Selection - TCA0 bit 7 position. */
/* EVSYS.SYNCUSER1 bit masks and bit positions */
#define EVSYS_SYNCUSER1_gm 0xFF /* Synchronous User Ch 1 Input Selection - USART0 group mask. */
#define EVSYS_SYNCUSER1_gp 0 /* Synchronous User Ch 1 Input Selection - USART0 group position. */
#define EVSYS_SYNCUSER10_bm (1<<0) /* Synchronous User Ch 1 Input Selection - USART0 bit 0 mask. */
#define EVSYS_SYNCUSER10_bp 0 /* Synchronous User Ch 1 Input Selection - USART0 bit 0 position. */
#define EVSYS_SYNCUSER11_bm (1<<1) /* Synchronous User Ch 1 Input Selection - USART0 bit 1 mask. */
#define EVSYS_SYNCUSER11_bp 1 /* Synchronous User Ch 1 Input Selection - USART0 bit 1 position. */
#define EVSYS_SYNCUSER12_bm (1<<2) /* Synchronous User Ch 1 Input Selection - USART0 bit 2 mask. */
#define EVSYS_SYNCUSER12_bp 2 /* Synchronous User Ch 1 Input Selection - USART0 bit 2 position. */
#define EVSYS_SYNCUSER13_bm (1<<3) /* Synchronous User Ch 1 Input Selection - USART0 bit 3 mask. */
#define EVSYS_SYNCUSER13_bp 3 /* Synchronous User Ch 1 Input Selection - USART0 bit 3 position. */
#define EVSYS_SYNCUSER14_bm (1<<4) /* Synchronous User Ch 1 Input Selection - USART0 bit 4 mask. */
#define EVSYS_SYNCUSER14_bp 4 /* Synchronous User Ch 1 Input Selection - USART0 bit 4 position. */
#define EVSYS_SYNCUSER15_bm (1<<5) /* Synchronous User Ch 1 Input Selection - USART0 bit 5 mask. */
#define EVSYS_SYNCUSER15_bp 5 /* Synchronous User Ch 1 Input Selection - USART0 bit 5 position. */
#define EVSYS_SYNCUSER16_bm (1<<6) /* Synchronous User Ch 1 Input Selection - USART0 bit 6 mask. */
#define EVSYS_SYNCUSER16_bp 6 /* Synchronous User Ch 1 Input Selection - USART0 bit 6 position. */
#define EVSYS_SYNCUSER17_bm (1<<7) /* Synchronous User Ch 1 Input Selection - USART0 bit 7 mask. */
#define EVSYS_SYNCUSER17_bp 7 /* Synchronous User Ch 1 Input Selection - USART0 bit 7 position. */
/* FUSE - Fuses */
/* FUSE.WDTCFG bit masks and bit positions */
#define FUSE_PERIOD_gm 0x0F /* Watchdog Timeout Period group mask. */
#define FUSE_PERIOD_gp 0 /* Watchdog Timeout Period group position. */
#define FUSE_PERIOD0_bm (1<<0) /* Watchdog Timeout Period bit 0 mask. */
#define FUSE_PERIOD0_bp 0 /* Watchdog Timeout Period bit 0 position. */
#define FUSE_PERIOD1_bm (1<<1) /* Watchdog Timeout Period bit 1 mask. */
#define FUSE_PERIOD1_bp 1 /* Watchdog Timeout Period bit 1 position. */
#define FUSE_PERIOD2_bm (1<<2) /* Watchdog Timeout Period bit 2 mask. */
#define FUSE_PERIOD2_bp 2 /* Watchdog Timeout Period bit 2 position. */
#define FUSE_PERIOD3_bm (1<<3) /* Watchdog Timeout Period bit 3 mask. */
#define FUSE_PERIOD3_bp 3 /* Watchdog Timeout Period bit 3 position. */
#define FUSE_WINDOW_gm 0xF0 /* Watchdog Window Timeout Period group mask. */
#define FUSE_WINDOW_gp 4 /* Watchdog Window Timeout Period group position. */
#define FUSE_WINDOW0_bm (1<<4) /* Watchdog Window Timeout Period bit 0 mask. */
#define FUSE_WINDOW0_bp 4 /* Watchdog Window Timeout Period bit 0 position. */
#define FUSE_WINDOW1_bm (1<<5) /* Watchdog Window Timeout Period bit 1 mask. */
#define FUSE_WINDOW1_bp 5 /* Watchdog Window Timeout Period bit 1 position. */
#define FUSE_WINDOW2_bm (1<<6) /* Watchdog Window Timeout Period bit 2 mask. */
#define FUSE_WINDOW2_bp 6 /* Watchdog Window Timeout Period bit 2 position. */
#define FUSE_WINDOW3_bm (1<<7) /* Watchdog Window Timeout Period bit 3 mask. */
#define FUSE_WINDOW3_bp 7 /* Watchdog Window Timeout Period bit 3 position. */
/* FUSE.BODCFG bit masks and bit positions */
#define FUSE_SLEEP_gm 0x03 /* BOD Operation in Sleep Mode group mask. */
#define FUSE_SLEEP_gp 0 /* BOD Operation in Sleep Mode group position. */
#define FUSE_SLEEP0_bm (1<<0) /* BOD Operation in Sleep Mode bit 0 mask. */
#define FUSE_SLEEP0_bp 0 /* BOD Operation in Sleep Mode bit 0 position. */
#define FUSE_SLEEP1_bm (1<<1) /* BOD Operation in Sleep Mode bit 1 mask. */
#define FUSE_SLEEP1_bp 1 /* BOD Operation in Sleep Mode bit 1 position. */
#define FUSE_ACTIVE_gm 0x0C /* BOD Operation in Active Mode group mask. */
#define FUSE_ACTIVE_gp 2 /* BOD Operation in Active Mode group position. */
#define FUSE_ACTIVE0_bm (1<<2) /* BOD Operation in Active Mode bit 0 mask. */
#define FUSE_ACTIVE0_bp 2 /* BOD Operation in Active Mode bit 0 position. */
#define FUSE_ACTIVE1_bm (1<<3) /* BOD Operation in Active Mode bit 1 mask. */
#define FUSE_ACTIVE1_bp 3 /* BOD Operation in Active Mode bit 1 position. */
#define FUSE_SAMPFREQ_bm 0x10 /* BOD Sample Frequency bit mask. */
#define FUSE_SAMPFREQ_bp 4 /* BOD Sample Frequency bit position. */
#define FUSE_LVL_gm 0xE0 /* BOD Level group mask. */
#define FUSE_LVL_gp 5 /* BOD Level group position. */
#define FUSE_LVL0_bm (1<<5) /* BOD Level bit 0 mask. */
#define FUSE_LVL0_bp 5 /* BOD Level bit 0 position. */
#define FUSE_LVL1_bm (1<<6) /* BOD Level bit 1 mask. */
#define FUSE_LVL1_bp 6 /* BOD Level bit 1 position. */
#define FUSE_LVL2_bm (1<<7) /* BOD Level bit 2 mask. */
#define FUSE_LVL2_bp 7 /* BOD Level bit 2 position. */
/* FUSE.OSCCFG bit masks and bit positions */
#define FUSE_FREQSEL_gm 0x03 /* Frequency Select group mask. */
#define FUSE_FREQSEL_gp 0 /* Frequency Select group position. */
#define FUSE_FREQSEL0_bm (1<<0) /* Frequency Select bit 0 mask. */
#define FUSE_FREQSEL0_bp 0 /* Frequency Select bit 0 position. */
#define FUSE_FREQSEL1_bm (1<<1) /* Frequency Select bit 1 mask. */
#define FUSE_FREQSEL1_bp 1 /* Frequency Select bit 1 position. */
#define FUSE_OSCLOCK_bm 0x80 /* Oscillator Lock bit mask. */
#define FUSE_OSCLOCK_bp 7 /* Oscillator Lock bit position. */
/* FUSE.TCD0CFG bit masks and bit positions */
#define FUSE_CMPA_bm 0x01 /* Compare A Default Output Value bit mask. */
#define FUSE_CMPA_bp 0 /* Compare A Default Output Value bit position. */
#define FUSE_CMPB_bm 0x02 /* Compare B Default Output Value bit mask. */
#define FUSE_CMPB_bp 1 /* Compare B Default Output Value bit position. */
#define FUSE_CMPC_bm 0x04 /* Compare C Default Output Value bit mask. */
#define FUSE_CMPC_bp 2 /* Compare C Default Output Value bit position. */
#define FUSE_CMPD_bm 0x08 /* Compare D Default Output Value bit mask. */
#define FUSE_CMPD_bp 3 /* Compare D Default Output Value bit position. */
#define FUSE_CMPAEN_bm 0x10 /* Compare A Output Enable bit mask. */
#define FUSE_CMPAEN_bp 4 /* Compare A Output Enable bit position. */
#define FUSE_CMPBEN_bm 0x20 /* Compare B Output Enable bit mask. */
#define FUSE_CMPBEN_bp 5 /* Compare B Output Enable bit position. */
#define FUSE_CMPCEN_bm 0x40 /* Compare C Output Enable bit mask. */
#define FUSE_CMPCEN_bp 6 /* Compare C Output Enable bit position. */
#define FUSE_CMPDEN_bm 0x80 /* Compare D Output Enable bit mask. */
#define FUSE_CMPDEN_bp 7 /* Compare D Output Enable bit position. */
/* FUSE.SYSCFG0 bit masks and bit positions */
#define FUSE_EESAVE_bm 0x01 /* EEPROM Save bit mask. */
#define FUSE_EESAVE_bp 0 /* EEPROM Save bit position. */
#define FUSE_RSTPINCFG_gm 0x0C /* Reset Pin Configuration group mask. */
#define FUSE_RSTPINCFG_gp 2 /* Reset Pin Configuration group position. */
#define FUSE_RSTPINCFG0_bm (1<<2) /* Reset Pin Configuration bit 0 mask. */
#define FUSE_RSTPINCFG0_bp 2 /* Reset Pin Configuration bit 0 position. */
#define FUSE_RSTPINCFG1_bm (1<<3) /* Reset Pin Configuration bit 1 mask. */
#define FUSE_RSTPINCFG1_bp 3 /* Reset Pin Configuration bit 1 position. */
#define FUSE_CRCSRC_gm 0xC0 /* CRC Source group mask. */
#define FUSE_CRCSRC_gp 6 /* CRC Source group position. */
#define FUSE_CRCSRC0_bm (1<<6) /* CRC Source bit 0 mask. */
#define FUSE_CRCSRC0_bp 6 /* CRC Source bit 0 position. */
#define FUSE_CRCSRC1_bm (1<<7) /* CRC Source bit 1 mask. */
#define FUSE_CRCSRC1_bp 7 /* CRC Source bit 1 position. */
/* FUSE.SYSCFG1 bit masks and bit positions */
#define FUSE_SUT_gm 0x07 /* Startup Time group mask. */
#define FUSE_SUT_gp 0 /* Startup Time group position. */
#define FUSE_SUT0_bm (1<<0) /* Startup Time bit 0 mask. */
#define FUSE_SUT0_bp 0 /* Startup Time bit 0 position. */
#define FUSE_SUT1_bm (1<<1) /* Startup Time bit 1 mask. */
#define FUSE_SUT1_bp 1 /* Startup Time bit 1 position. */
#define FUSE_SUT2_bm (1<<2) /* Startup Time bit 2 mask. */
#define FUSE_SUT2_bp 2 /* Startup Time bit 2 position. */
/* LOCKBIT - Lockbit */
/* LOCKBIT.LOCKBIT bit masks and bit positions */
#define LOCKBIT_LB_gm 0xFF /* Lock Bits group mask. */
#define LOCKBIT_LB_gp 0 /* Lock Bits group position. */
#define LOCKBIT_LB0_bm (1<<0) /* Lock Bits bit 0 mask. */
#define LOCKBIT_LB0_bp 0 /* Lock Bits bit 0 position. */
#define LOCKBIT_LB1_bm (1<<1) /* Lock Bits bit 1 mask. */
#define LOCKBIT_LB1_bp 1 /* Lock Bits bit 1 position. */
#define LOCKBIT_LB2_bm (1<<2) /* Lock Bits bit 2 mask. */
#define LOCKBIT_LB2_bp 2 /* Lock Bits bit 2 position. */
#define LOCKBIT_LB3_bm (1<<3) /* Lock Bits bit 3 mask. */
#define LOCKBIT_LB3_bp 3 /* Lock Bits bit 3 position. */
#define LOCKBIT_LB4_bm (1<<4) /* Lock Bits bit 4 mask. */
#define LOCKBIT_LB4_bp 4 /* Lock Bits bit 4 position. */
#define LOCKBIT_LB5_bm (1<<5) /* Lock Bits bit 5 mask. */
#define LOCKBIT_LB5_bp 5 /* Lock Bits bit 5 position. */
#define LOCKBIT_LB6_bm (1<<6) /* Lock Bits bit 6 mask. */
#define LOCKBIT_LB6_bp 6 /* Lock Bits bit 6 position. */
#define LOCKBIT_LB7_bm (1<<7) /* Lock Bits bit 7 mask. */
#define LOCKBIT_LB7_bp 7 /* Lock Bits bit 7 position. */
/* NVMCTRL - Non-volatile Memory Controller */
/* NVMCTRL.CTRLA bit masks and bit positions */
#define NVMCTRL_CMD_gm 0x07 /* Command group mask. */
#define NVMCTRL_CMD_gp 0 /* Command group position. */
#define NVMCTRL_CMD0_bm (1<<0) /* Command bit 0 mask. */
#define NVMCTRL_CMD0_bp 0 /* Command bit 0 position. */
#define NVMCTRL_CMD1_bm (1<<1) /* Command bit 1 mask. */
#define NVMCTRL_CMD1_bp 1 /* Command bit 1 position. */
#define NVMCTRL_CMD2_bm (1<<2) /* Command bit 2 mask. */
#define NVMCTRL_CMD2_bp 2 /* Command bit 2 position. */
/* NVMCTRL.CTRLB bit masks and bit positions */
#define NVMCTRL_APCWP_bm 0x01 /* Application code write protect bit mask. */
#define NVMCTRL_APCWP_bp 0 /* Application code write protect bit position. */
#define NVMCTRL_BOOTLOCK_bm 0x02 /* Boot Lock bit mask. */
#define NVMCTRL_BOOTLOCK_bp 1 /* Boot Lock bit position. */
/* NVMCTRL.STATUS bit masks and bit positions */
#define NVMCTRL_FBUSY_bm 0x01 /* Flash busy bit mask. */
#define NVMCTRL_FBUSY_bp 0 /* Flash busy bit position. */
#define NVMCTRL_EEBUSY_bm 0x02 /* EEPROM busy bit mask. */
#define NVMCTRL_EEBUSY_bp 1 /* EEPROM busy bit position. */
#define NVMCTRL_WRERROR_bm 0x04 /* Write error bit mask. */
#define NVMCTRL_WRERROR_bp 2 /* Write error bit position. */
/* NVMCTRL.INTCTRL bit masks and bit positions */
#define NVMCTRL_EEREADY_bm 0x01 /* EEPROM Ready bit mask. */
#define NVMCTRL_EEREADY_bp 0 /* EEPROM Ready bit position. */
/* NVMCTRL.INTFLAGS bit masks and bit positions */
/* NVMCTRL_EEREADY is already defined. */
/* PORT - I/O Ports */
/* PORT.INTFLAGS bit masks and bit positions */
#define PORT_INT_gm 0xFF /* Pin Interrupt group mask. */
#define PORT_INT_gp 0 /* Pin Interrupt group position. */
#define PORT_INT0_bm (1<<0) /* Pin Interrupt bit 0 mask. */
#define PORT_INT0_bp 0 /* Pin Interrupt bit 0 position. */
#define PORT_INT1_bm (1<<1) /* Pin Interrupt bit 1 mask. */
#define PORT_INT1_bp 1 /* Pin Interrupt bit 1 position. */
#define PORT_INT2_bm (1<<2) /* Pin Interrupt bit 2 mask. */
#define PORT_INT2_bp 2 /* Pin Interrupt bit 2 position. */
#define PORT_INT3_bm (1<<3) /* Pin Interrupt bit 3 mask. */
#define PORT_INT3_bp 3 /* Pin Interrupt bit 3 position. */
#define PORT_INT4_bm (1<<4) /* Pin Interrupt bit 4 mask. */
#define PORT_INT4_bp 4 /* Pin Interrupt bit 4 position. */
#define PORT_INT5_bm (1<<5) /* Pin Interrupt bit 5 mask. */
#define PORT_INT5_bp 5 /* Pin Interrupt bit 5 position. */
#define PORT_INT6_bm (1<<6) /* Pin Interrupt bit 6 mask. */
#define PORT_INT6_bp 6 /* Pin Interrupt bit 6 position. */
#define PORT_INT7_bm (1<<7) /* Pin Interrupt bit 7 mask. */
#define PORT_INT7_bp 7 /* Pin Interrupt bit 7 position. */
/* PORT.PIN0CTRL bit masks and bit positions */
#define PORT_ISC_gm 0x07 /* Input/Sense Configuration group mask. */
#define PORT_ISC_gp 0 /* Input/Sense Configuration group position. */
#define PORT_ISC0_bm (1<<0) /* Input/Sense Configuration bit 0 mask. */
#define PORT_ISC0_bp 0 /* Input/Sense Configuration bit 0 position. */
#define PORT_ISC1_bm (1<<1) /* Input/Sense Configuration bit 1 mask. */
#define PORT_ISC1_bp 1 /* Input/Sense Configuration bit 1 position. */
#define PORT_ISC2_bm (1<<2) /* Input/Sense Configuration bit 2 mask. */
#define PORT_ISC2_bp 2 /* Input/Sense Configuration bit 2 position. */
#define PORT_PULLUPEN_bm 0x08 /* Pullup enable bit mask. */
#define PORT_PULLUPEN_bp 3 /* Pullup enable bit position. */
#define PORT_INVEN_bm 0x80 /* Inverted I/O Enable bit mask. */
#define PORT_INVEN_bp 7 /* Inverted I/O Enable bit position. */
/* PORT.PIN1CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORT.PIN2CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORT.PIN3CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORT.PIN4CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORT.PIN5CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORT.PIN6CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORT.PIN7CTRL bit masks and bit positions */
/* PORT_ISC is already defined. */
/* PORT_PULLUPEN is already defined. */
/* PORT_INVEN is already defined. */
/* PORTMUX - Port Multiplexer */
/* PORTMUX.CTRLA bit masks and bit positions */
#define PORTMUX_EVOUT0_bm 0x01 /* Event Output 0 bit mask. */
#define PORTMUX_EVOUT0_bp 0 /* Event Output 0 bit position. */
#define PORTMUX_EVOUT1_bm 0x02 /* Event Output 1 bit mask. */
#define PORTMUX_EVOUT1_bp 1 /* Event Output 1 bit position. */
#define PORTMUX_EVOUT2_bm 0x04 /* Event Output 2 bit mask. */
#define PORTMUX_EVOUT2_bp 2 /* Event Output 2 bit position. */
#define PORTMUX_LUT0_bm 0x10 /* Configurable Custom Logic LUT0 bit mask. */
#define PORTMUX_LUT0_bp 4 /* Configurable Custom Logic LUT0 bit position. */
#define PORTMUX_LUT1_bm 0x20 /* Configurable Custom Logic LUT1 bit mask. */
#define PORTMUX_LUT1_bp 5 /* Configurable Custom Logic LUT1 bit position. */
/* PORTMUX.CTRLB bit masks and bit positions */
#define PORTMUX_USART0_bm 0x01 /* Port Multiplexer USART0 bit mask. */
#define PORTMUX_USART0_bp 0 /* Port Multiplexer USART0 bit position. */
#define PORTMUX_SPI0_bm 0x04 /* Port Multiplexer SPI0 bit mask. */
#define PORTMUX_SPI0_bp 2 /* Port Multiplexer SPI0 bit position. */
#define PORTMUX_TWI0_bm 0x10 /* Port Multiplexer TWI0 bit mask. */
#define PORTMUX_TWI0_bp 4 /* Port Multiplexer TWI0 bit position. */
/* PORTMUX.CTRLC bit masks and bit positions */
#define PORTMUX_TCA00_bm 0x01 /* Port Multiplexer TCA0 Output 0 bit mask. */
#define PORTMUX_TCA00_bp 0 /* Port Multiplexer TCA0 Output 0 bit position. */
#define PORTMUX_TCA01_bm 0x02 /* Port Multiplexer TCA0 Output 1 bit mask. */
#define PORTMUX_TCA01_bp 1 /* Port Multiplexer TCA0 Output 1 bit position. */
#define PORTMUX_TCA02_bm 0x04 /* Port Multiplexer TCA0 Output 2 bit mask. */
#define PORTMUX_TCA02_bp 2 /* Port Multiplexer TCA0 Output 2 bit position. */
#define PORTMUX_TCA03_bm 0x08 /* Port Multiplexer TCA0 Output 3 bit mask. */
#define PORTMUX_TCA03_bp 3 /* Port Multiplexer TCA0 Output 3 bit position. */
#define PORTMUX_TCA04_bm 0x10 /* Port Multiplexer TCA0 Output 4 bit mask. */
#define PORTMUX_TCA04_bp 4 /* Port Multiplexer TCA0 Output 4 bit position. */
#define PORTMUX_TCA05_bm 0x20 /* Port Multiplexer TCA0 Output 5 bit mask. */
#define PORTMUX_TCA05_bp 5 /* Port Multiplexer TCA0 Output 5 bit position. */
/* PORTMUX.CTRLD bit masks and bit positions */
#define PORTMUX_TCB0_bm 0x01 /* Port Multiplexer TCB bit mask. */
#define PORTMUX_TCB0_bp 0 /* Port Multiplexer TCB bit position. */
/* RSTCTRL - Reset controller */
/* RSTCTRL.RSTFR bit masks and bit positions */
#define RSTCTRL_PORF_bm 0x01 /* Power on Reset flag bit mask. */
#define RSTCTRL_PORF_bp 0 /* Power on Reset flag bit position. */
#define RSTCTRL_BORF_bm 0x02 /* Brown out detector Reset flag bit mask. */
#define RSTCTRL_BORF_bp 1 /* Brown out detector Reset flag bit position. */
#define RSTCTRL_EXTRF_bm 0x04 /* External Reset flag bit mask. */
#define RSTCTRL_EXTRF_bp 2 /* External Reset flag bit position. */
#define RSTCTRL_WDRF_bm 0x08 /* Watch dog Reset flag bit mask. */
#define RSTCTRL_WDRF_bp 3 /* Watch dog Reset flag bit position. */
#define RSTCTRL_SWRF_bm 0x10 /* Software Reset flag bit mask. */
#define RSTCTRL_SWRF_bp 4 /* Software Reset flag bit position. */
#define RSTCTRL_UPDIRF_bm 0x20 /* UPDI Reset flag bit mask. */
#define RSTCTRL_UPDIRF_bp 5 /* UPDI Reset flag bit position. */
/* RSTCTRL.SWRR bit masks and bit positions */
#define RSTCTRL_SWRE_bm 0x01 /* Software reset enable bit mask. */
#define RSTCTRL_SWRE_bp 0 /* Software reset enable bit position. */
/* RTC - Real-Time Counter */
/* RTC.CTRLA bit masks and bit positions */
#define RTC_RTCEN_bm 0x01 /* Enable bit mask. */
#define RTC_RTCEN_bp 0 /* Enable bit position. */
#define RTC_PRESCALER_gm 0x78 /* Prescaling Factor group mask. */
#define RTC_PRESCALER_gp 3 /* Prescaling Factor group position. */
#define RTC_PRESCALER0_bm (1<<3) /* Prescaling Factor bit 0 mask. */
#define RTC_PRESCALER0_bp 3 /* Prescaling Factor bit 0 position. */
#define RTC_PRESCALER1_bm (1<<4) /* Prescaling Factor bit 1 mask. */
#define RTC_PRESCALER1_bp 4 /* Prescaling Factor bit 1 position. */
#define RTC_PRESCALER2_bm (1<<5) /* Prescaling Factor bit 2 mask. */
#define RTC_PRESCALER2_bp 5 /* Prescaling Factor bit 2 position. */
#define RTC_PRESCALER3_bm (1<<6) /* Prescaling Factor bit 3 mask. */
#define RTC_PRESCALER3_bp 6 /* Prescaling Factor bit 3 position. */
#define RTC_RUNSTDBY_bm 0x80 /* Run In Standby bit mask. */
#define RTC_RUNSTDBY_bp 7 /* Run In Standby bit position. */
/* RTC.STATUS bit masks and bit positions */
#define RTC_CTRLABUSY_bm 0x01 /* CTRLA Synchronization Busy Flag bit mask. */
#define RTC_CTRLABUSY_bp 0 /* CTRLA Synchronization Busy Flag bit position. */
#define RTC_CNTBUSY_bm 0x02 /* Count Synchronization Busy Flag bit mask. */
#define RTC_CNTBUSY_bp 1 /* Count Synchronization Busy Flag bit position. */
#define RTC_PERBUSY_bm 0x04 /* Period Synchronization Busy Flag bit mask. */
#define RTC_PERBUSY_bp 2 /* Period Synchronization Busy Flag bit position. */
#define RTC_CMPBUSY_bm 0x08 /* Comparator Synchronization Busy Flag bit mask. */
#define RTC_CMPBUSY_bp 3 /* Comparator Synchronization Busy Flag bit position. */
/* RTC.INTCTRL bit masks and bit positions */
#define RTC_OVF_bm 0x01 /* Overflow Interrupt enable bit mask. */
#define RTC_OVF_bp 0 /* Overflow Interrupt enable bit position. */
#define RTC_CMP_bm 0x02 /* Compare Match Interrupt enable bit mask. */
#define RTC_CMP_bp 1 /* Compare Match Interrupt enable bit position. */
/* RTC.INTFLAGS bit masks and bit positions */
/* RTC_OVF is already defined. */
/* RTC_CMP is already defined. */
/* RTC.DBGCTRL bit masks and bit positions */
#define RTC_DBGRUN_bm 0x01 /* Run in debug bit mask. */
#define RTC_DBGRUN_bp 0 /* Run in debug bit position. */
/* RTC.CLKSEL bit masks and bit positions */
#define RTC_CLKSEL_gm 0x03 /* Clock Select group mask. */
#define RTC_CLKSEL_gp 0 /* Clock Select group position. */
#define RTC_CLKSEL0_bm (1<<0) /* Clock Select bit 0 mask. */
#define RTC_CLKSEL0_bp 0 /* Clock Select bit 0 position. */
#define RTC_CLKSEL1_bm (1<<1) /* Clock Select bit 1 mask. */
#define RTC_CLKSEL1_bp 1 /* Clock Select bit 1 position. */
/* RTC.PITCTRLA bit masks and bit positions */
#define RTC_PITEN_bm 0x01 /* Enable bit mask. */
#define RTC_PITEN_bp 0 /* Enable bit position. */
#define RTC_PERIOD_gm 0x78 /* Period group mask. */
#define RTC_PERIOD_gp 3 /* Period group position. */
#define RTC_PERIOD0_bm (1<<3) /* Period bit 0 mask. */
#define RTC_PERIOD0_bp 3 /* Period bit 0 position. */
#define RTC_PERIOD1_bm (1<<4) /* Period bit 1 mask. */
#define RTC_PERIOD1_bp 4 /* Period bit 1 position. */
#define RTC_PERIOD2_bm (1<<5) /* Period bit 2 mask. */
#define RTC_PERIOD2_bp 5 /* Period bit 2 position. */
#define RTC_PERIOD3_bm (1<<6) /* Period bit 3 mask. */
#define RTC_PERIOD3_bp 6 /* Period bit 3 position. */
/* RTC.PITSTATUS bit masks and bit positions */
#define RTC_CTRLBUSY_bm 0x01 /* CTRLA Synchronization Busy Flag bit mask. */
#define RTC_CTRLBUSY_bp 0 /* CTRLA Synchronization Busy Flag bit position. */
/* RTC.PITINTCTRL bit masks and bit positions */
#define RTC_PI_bm 0x01 /* Periodic Interrupt bit mask. */
#define RTC_PI_bp 0 /* Periodic Interrupt bit position. */
/* RTC.PITINTFLAGS bit masks and bit positions */
/* RTC_PI is already defined. */
/* RTC.PITDBGCTRL bit masks and bit positions */
/* RTC_DBGRUN is already defined. */
/* SLPCTRL - Sleep Controller */
/* SLPCTRL.CTRLA bit masks and bit positions */
#define SLPCTRL_SEN_bm 0x01 /* Sleep enable bit mask. */
#define SLPCTRL_SEN_bp 0 /* Sleep enable bit position. */
#define SLPCTRL_SMODE_gm 0x06 /* Sleep mode group mask. */
#define SLPCTRL_SMODE_gp 1 /* Sleep mode group position. */
#define SLPCTRL_SMODE0_bm (1<<1) /* Sleep mode bit 0 mask. */
#define SLPCTRL_SMODE0_bp 1 /* Sleep mode bit 0 position. */
#define SLPCTRL_SMODE1_bm (1<<2) /* Sleep mode bit 1 mask. */
#define SLPCTRL_SMODE1_bp 2 /* Sleep mode bit 1 position. */
/* SPI - Serial Peripheral Interface */
/* SPI.CTRLA bit masks and bit positions */
#define SPI_ENABLE_bm 0x01 /* Enable Module bit mask. */
#define SPI_ENABLE_bp 0 /* Enable Module bit position. */
#define SPI_PRESC_gm 0x06 /* Prescaler group mask. */
#define SPI_PRESC_gp 1 /* Prescaler group position. */
#define SPI_PRESC0_bm (1<<1) /* Prescaler bit 0 mask. */
#define SPI_PRESC0_bp 1 /* Prescaler bit 0 position. */
#define SPI_PRESC1_bm (1<<2) /* Prescaler bit 1 mask. */
#define SPI_PRESC1_bp 2 /* Prescaler bit 1 position. */
#define SPI_CLK2X_bm 0x10 /* Enable Double Speed bit mask. */
#define SPI_CLK2X_bp 4 /* Enable Double Speed bit position. */
#define SPI_MASTER_bm 0x20 /* Master Operation Enable bit mask. */
#define SPI_MASTER_bp 5 /* Master Operation Enable bit position. */
#define SPI_DORD_bm 0x40 /* Data Order Setting bit mask. */
#define SPI_DORD_bp 6 /* Data Order Setting bit position. */
/* SPI.CTRLB bit masks and bit positions */
#define SPI_MODE_gm 0x03 /* SPI Mode group mask. */
#define SPI_MODE_gp 0 /* SPI Mode group position. */
#define SPI_MODE0_bm (1<<0) /* SPI Mode bit 0 mask. */
#define SPI_MODE0_bp 0 /* SPI Mode bit 0 position. */
#define SPI_MODE1_bm (1<<1) /* SPI Mode bit 1 mask. */
#define SPI_MODE1_bp 1 /* SPI Mode bit 1 position. */
#define SPI_SSD_bm 0x04 /* Slave Select Disable bit mask. */
#define SPI_SSD_bp 2 /* Slave Select Disable bit position. */
#define SPI_BUFWR_bm 0x40 /* Buffer Write Mode bit mask. */
#define SPI_BUFWR_bp 6 /* Buffer Write Mode bit position. */
#define SPI_BUFEN_bm 0x80 /* Buffer Mode Enable bit mask. */
#define SPI_BUFEN_bp 7 /* Buffer Mode Enable bit position. */
/* SPI.INTCTRL bit masks and bit positions */
#define SPI_IE_bm 0x01 /* Interrupt Enable bit mask. */
#define SPI_IE_bp 0 /* Interrupt Enable bit position. */
#define SPI_SSIE_bm 0x10 /* Slave Select Trigger Interrupt Enable bit mask. */
#define SPI_SSIE_bp 4 /* Slave Select Trigger Interrupt Enable bit position. */
#define SPI_DREIE_bm 0x20 /* Data Register Empty Interrupt Enable bit mask. */
#define SPI_DREIE_bp 5 /* Data Register Empty Interrupt Enable bit position. */
#define SPI_TXCIE_bm 0x40 /* Transfer Complete Interrupt Enable bit mask. */
#define SPI_TXCIE_bp 6 /* Transfer Complete Interrupt Enable bit position. */
#define SPI_RXCIE_bm 0x80 /* Receive Complete Interrupt Enable bit mask. */
#define SPI_RXCIE_bp 7 /* Receive Complete Interrupt Enable bit position. */
/* SPI.INTFLAGS bit masks and bit positions */
#define SPI_BUFOVF_bm 0x01 /* Buffer Overflow bit mask. */
#define SPI_BUFOVF_bp 0 /* Buffer Overflow bit position. */
#define SPI_SSIF_bm 0x10 /* Slave Select Trigger Interrupt Flag bit mask. */
#define SPI_SSIF_bp 4 /* Slave Select Trigger Interrupt Flag bit position. */
#define SPI_DREIF_bm 0x20 /* Data Register Empty Interrupt Flag bit mask. */
#define SPI_DREIF_bp 5 /* Data Register Empty Interrupt Flag bit position. */
#define SPI_TXCIF_bm 0x40 /* Transfer Complete Interrupt Flag bit mask. */
#define SPI_TXCIF_bp 6 /* Transfer Complete Interrupt Flag bit position. */
#define SPI_WRCOL_bm 0x40 /* Write Collision bit mask. */
#define SPI_WRCOL_bp 6 /* Write Collision bit position. */
#define SPI_RXCIF_bm 0x80 /* Receive Complete Interrupt Flag bit mask. */
#define SPI_RXCIF_bp 7 /* Receive Complete Interrupt Flag bit position. */
#define SPI_IF_bm 0x80 /* Interrupt Flag bit mask. */
#define SPI_IF_bp 7 /* Interrupt Flag bit position. */
/* SYSCFG - System Configuration Registers */
/* SYSCFG.EXTBRK bit masks and bit positions */
#define SYSCFG_ENEXTBRK_bm 0x01 /* External break enable bit mask. */
#define SYSCFG_ENEXTBRK_bp 0 /* External break enable bit position. */
/* TCA - 16-bit Timer/Counter Type A */
/* TCA_SINGLE.CTRLA bit masks and bit positions */
#define TCA_SINGLE_ENABLE_bm 0x01 /* Module Enable bit mask. */
#define TCA_SINGLE_ENABLE_bp 0 /* Module Enable bit position. */
#define TCA_SINGLE_CLKSEL_gm 0x0E /* Clock Selection group mask. */
#define TCA_SINGLE_CLKSEL_gp 1 /* Clock Selection group position. */
#define TCA_SINGLE_CLKSEL0_bm (1<<1) /* Clock Selection bit 0 mask. */
#define TCA_SINGLE_CLKSEL0_bp 1 /* Clock Selection bit 0 position. */
#define TCA_SINGLE_CLKSEL1_bm (1<<2) /* Clock Selection bit 1 mask. */
#define TCA_SINGLE_CLKSEL1_bp 2 /* Clock Selection bit 1 position. */
#define TCA_SINGLE_CLKSEL2_bm (1<<3) /* Clock Selection bit 2 mask. */
#define TCA_SINGLE_CLKSEL2_bp 3 /* Clock Selection bit 2 position. */
/* TCA_SINGLE.CTRLB bit masks and bit positions */
#define TCA_SINGLE_WGMODE_gm 0x07 /* Waveform generation mode group mask. */
#define TCA_SINGLE_WGMODE_gp 0 /* Waveform generation mode group position. */
#define TCA_SINGLE_WGMODE0_bm (1<<0) /* Waveform generation mode bit 0 mask. */
#define TCA_SINGLE_WGMODE0_bp 0 /* Waveform generation mode bit 0 position. */
#define TCA_SINGLE_WGMODE1_bm (1<<1) /* Waveform generation mode bit 1 mask. */
#define TCA_SINGLE_WGMODE1_bp 1 /* Waveform generation mode bit 1 position. */
#define TCA_SINGLE_WGMODE2_bm (1<<2) /* Waveform generation mode bit 2 mask. */
#define TCA_SINGLE_WGMODE2_bp 2 /* Waveform generation mode bit 2 position. */
#define TCA_SINGLE_ALUPD_bm 0x08 /* Auto Lock Update bit mask. */
#define TCA_SINGLE_ALUPD_bp 3 /* Auto Lock Update bit position. */
#define TCA_SINGLE_CMP0EN_bm 0x10 /* Compare 0 Enable bit mask. */
#define TCA_SINGLE_CMP0EN_bp 4 /* Compare 0 Enable bit position. */
#define TCA_SINGLE_CMP1EN_bm 0x20 /* Compare 1 Enable bit mask. */
#define TCA_SINGLE_CMP1EN_bp 5 /* Compare 1 Enable bit position. */
#define TCA_SINGLE_CMP2EN_bm 0x40 /* Compare 2 Enable bit mask. */
#define TCA_SINGLE_CMP2EN_bp 6 /* Compare 2 Enable bit position. */
/* TCA_SINGLE.CTRLC bit masks and bit positions */
#define TCA_SINGLE_CMP0OV_bm 0x01 /* Compare 0 Waveform Output Value bit mask. */
#define TCA_SINGLE_CMP0OV_bp 0 /* Compare 0 Waveform Output Value bit position. */
#define TCA_SINGLE_CMP1OV_bm 0x02 /* Compare 1 Waveform Output Value bit mask. */
#define TCA_SINGLE_CMP1OV_bp 1 /* Compare 1 Waveform Output Value bit position. */
#define TCA_SINGLE_CMP2OV_bm 0x04 /* Compare 2 Waveform Output Value bit mask. */
#define TCA_SINGLE_CMP2OV_bp 2 /* Compare 2 Waveform Output Value bit position. */
/* TCA_SINGLE.CTRLD bit masks and bit positions */
#define TCA_SINGLE_SPLITM_bm 0x01 /* Split Mode Enable bit mask. */
#define TCA_SINGLE_SPLITM_bp 0 /* Split Mode Enable bit position. */
/* TCA_SINGLE.CTRLECLR bit masks and bit positions */
#define TCA_SINGLE_DIR_bm 0x01 /* Direction bit mask. */
#define TCA_SINGLE_DIR_bp 0 /* Direction bit position. */
#define TCA_SINGLE_LUPD_bm 0x02 /* Lock Update bit mask. */
#define TCA_SINGLE_LUPD_bp 1 /* Lock Update bit position. */
#define TCA_SINGLE_CMD_gm 0x0C /* Command group mask. */
#define TCA_SINGLE_CMD_gp 2 /* Command group position. */
#define TCA_SINGLE_CMD0_bm (1<<2) /* Command bit 0 mask. */
#define TCA_SINGLE_CMD0_bp 2 /* Command bit 0 position. */
#define TCA_SINGLE_CMD1_bm (1<<3) /* Command bit 1 mask. */
#define TCA_SINGLE_CMD1_bp 3 /* Command bit 1 position. */
/* TCA_SINGLE.CTRLESET bit masks and bit positions */
/* TCA_SINGLE_DIR is already defined. */
/* TCA_SINGLE_LUPD is already defined. */
/* TCA_SINGLE_CMD is already defined. */
/* TCA_SINGLE.CTRLFCLR bit masks and bit positions */
#define TCA_SINGLE_PERBV_bm 0x01 /* Period Buffer Valid bit mask. */
#define TCA_SINGLE_PERBV_bp 0 /* Period Buffer Valid bit position. */
#define TCA_SINGLE_CMP0BV_bm 0x02 /* Compare 0 Buffer Valid bit mask. */
#define TCA_SINGLE_CMP0BV_bp 1 /* Compare 0 Buffer Valid bit position. */
#define TCA_SINGLE_CMP1BV_bm 0x04 /* Compare 1 Buffer Valid bit mask. */
#define TCA_SINGLE_CMP1BV_bp 2 /* Compare 1 Buffer Valid bit position. */
#define TCA_SINGLE_CMP2BV_bm 0x08 /* Compare 2 Buffer Valid bit mask. */
#define TCA_SINGLE_CMP2BV_bp 3 /* Compare 2 Buffer Valid bit position. */
/* TCA_SINGLE.CTRLFSET bit masks and bit positions */
/* TCA_SINGLE_PERBV is already defined. */
/* TCA_SINGLE_CMP0BV is already defined. */
/* TCA_SINGLE_CMP1BV is already defined. */
/* TCA_SINGLE_CMP2BV is already defined. */
/* TCA_SINGLE.EVCTRL bit masks and bit positions */
#define TCA_SINGLE_CNTEI_bm 0x01 /* Count on Event Input bit mask. */
#define TCA_SINGLE_CNTEI_bp 0 /* Count on Event Input bit position. */
#define TCA_SINGLE_EVACT_gm 0x06 /* Event Action group mask. */
#define TCA_SINGLE_EVACT_gp 1 /* Event Action group position. */
#define TCA_SINGLE_EVACT0_bm (1<<1) /* Event Action bit 0 mask. */
#define TCA_SINGLE_EVACT0_bp 1 /* Event Action bit 0 position. */
#define TCA_SINGLE_EVACT1_bm (1<<2) /* Event Action bit 1 mask. */
#define TCA_SINGLE_EVACT1_bp 2 /* Event Action bit 1 position. */
/* TCA_SINGLE.INTCTRL bit masks and bit positions */
#define TCA_SINGLE_OVF_bm 0x01 /* Overflow Interrupt bit mask. */
#define TCA_SINGLE_OVF_bp 0 /* Overflow Interrupt bit position. */
#define TCA_SINGLE_CMP0_bm 0x10 /* Compare 0 Interrupt bit mask. */
#define TCA_SINGLE_CMP0_bp 4 /* Compare 0 Interrupt bit position. */
#define TCA_SINGLE_CMP1_bm 0x20 /* Compare 1 Interrupt bit mask. */
#define TCA_SINGLE_CMP1_bp 5 /* Compare 1 Interrupt bit position. */
#define TCA_SINGLE_CMP2_bm 0x40 /* Compare 2 Interrupt bit mask. */
#define TCA_SINGLE_CMP2_bp 6 /* Compare 2 Interrupt bit position. */
/* TCA_SINGLE.INTFLAGS bit masks and bit positions */
/* TCA_SINGLE_OVF is already defined. */
/* TCA_SINGLE_CMP0 is already defined. */
/* TCA_SINGLE_CMP1 is already defined. */
/* TCA_SINGLE_CMP2 is already defined. */
/* TCA_SINGLE.DBGCTRL bit masks and bit positions */
#define TCA_SINGLE_DBGRUN_bm 0x01 /* Debug Run bit mask. */
#define TCA_SINGLE_DBGRUN_bp 0 /* Debug Run bit position. */
/* TCA_SPLIT.CTRLA bit masks and bit positions */
#define TCA_SPLIT_ENABLE_bm 0x01 /* Module Enable bit mask. */
#define TCA_SPLIT_ENABLE_bp 0 /* Module Enable bit position. */
#define TCA_SPLIT_CLKSEL_gm 0x0E /* Clock Selection group mask. */
#define TCA_SPLIT_CLKSEL_gp 1 /* Clock Selection group position. */
#define TCA_SPLIT_CLKSEL0_bm (1<<1) /* Clock Selection bit 0 mask. */
#define TCA_SPLIT_CLKSEL0_bp 1 /* Clock Selection bit 0 position. */
#define TCA_SPLIT_CLKSEL1_bm (1<<2) /* Clock Selection bit 1 mask. */
#define TCA_SPLIT_CLKSEL1_bp 2 /* Clock Selection bit 1 position. */
#define TCA_SPLIT_CLKSEL2_bm (1<<3) /* Clock Selection bit 2 mask. */
#define TCA_SPLIT_CLKSEL2_bp 3 /* Clock Selection bit 2 position. */
/* TCA_SPLIT.CTRLB bit masks and bit positions */
#define TCA_SPLIT_LCMP0EN_bm 0x01 /* Low Compare 0 Enable bit mask. */
#define TCA_SPLIT_LCMP0EN_bp 0 /* Low Compare 0 Enable bit position. */
#define TCA_SPLIT_LCMP1EN_bm 0x02 /* Low Compare 1 Enable bit mask. */
#define TCA_SPLIT_LCMP1EN_bp 1 /* Low Compare 1 Enable bit position. */
#define TCA_SPLIT_LCMP2EN_bm 0x04 /* Low Compare 2 Enable bit mask. */
#define TCA_SPLIT_LCMP2EN_bp 2 /* Low Compare 2 Enable bit position. */
#define TCA_SPLIT_HCMP0EN_bm 0x10 /* High Compare 0 Enable bit mask. */
#define TCA_SPLIT_HCMP0EN_bp 4 /* High Compare 0 Enable bit position. */
#define TCA_SPLIT_HCMP1EN_bm 0x20 /* High Compare 1 Enable bit mask. */
#define TCA_SPLIT_HCMP1EN_bp 5 /* High Compare 1 Enable bit position. */
#define TCA_SPLIT_HCMP2EN_bm 0x40 /* High Compare 2 Enable bit mask. */
#define TCA_SPLIT_HCMP2EN_bp 6 /* High Compare 2 Enable bit position. */
/* TCA_SPLIT.CTRLC bit masks and bit positions */
#define TCA_SPLIT_LCMP0OV_bm 0x01 /* Low Compare 0 Output Value bit mask. */
#define TCA_SPLIT_LCMP0OV_bp 0 /* Low Compare 0 Output Value bit position. */
#define TCA_SPLIT_LCMP1OV_bm 0x02 /* Low Compare 1 Output Value bit mask. */
#define TCA_SPLIT_LCMP1OV_bp 1 /* Low Compare 1 Output Value bit position. */
#define TCA_SPLIT_LCMP2OV_bm 0x04 /* Low Compare 2 Output Value bit mask. */
#define TCA_SPLIT_LCMP2OV_bp 2 /* Low Compare 2 Output Value bit position. */
#define TCA_SPLIT_HCMP0OV_bm 0x10 /* High Compare 0 Output Value bit mask. */
#define TCA_SPLIT_HCMP0OV_bp 4 /* High Compare 0 Output Value bit position. */
#define TCA_SPLIT_HCMP1OV_bm 0x20 /* High Compare 1 Output Value bit mask. */
#define TCA_SPLIT_HCMP1OV_bp 5 /* High Compare 1 Output Value bit position. */
#define TCA_SPLIT_HCMP2OV_bm 0x40 /* High Compare 2 Output Value bit mask. */
#define TCA_SPLIT_HCMP2OV_bp 6 /* High Compare 2 Output Value bit position. */
/* TCA_SPLIT.CTRLD bit masks and bit positions */
#define TCA_SPLIT_SPLITM_bm 0x01 /* Split Mode Enable bit mask. */
#define TCA_SPLIT_SPLITM_bp 0 /* Split Mode Enable bit position. */
/* TCA_SPLIT.CTRLECLR bit masks and bit positions */
#define TCA_SPLIT_CMD_gm 0x0C /* Command group mask. */
#define TCA_SPLIT_CMD_gp 2 /* Command group position. */
#define TCA_SPLIT_CMD0_bm (1<<2) /* Command bit 0 mask. */
#define TCA_SPLIT_CMD0_bp 2 /* Command bit 0 position. */
#define TCA_SPLIT_CMD1_bm (1<<3) /* Command bit 1 mask. */
#define TCA_SPLIT_CMD1_bp 3 /* Command bit 1 position. */
/* TCA_SPLIT.CTRLESET bit masks and bit positions */
/* TCA_SPLIT_CMD is already defined. */
/* TCA_SPLIT.INTCTRL bit masks and bit positions */
#define TCA_SPLIT_LUNF_bm 0x01 /* Low Underflow Interrupt Enable bit mask. */
#define TCA_SPLIT_LUNF_bp 0 /* Low Underflow Interrupt Enable bit position. */
#define TCA_SPLIT_HUNF_bm 0x02 /* High Underflow Interrupt Enable bit mask. */
#define TCA_SPLIT_HUNF_bp 1 /* High Underflow Interrupt Enable bit position. */
#define TCA_SPLIT_LCMP0_bm 0x10 /* Low Compare 0 Interrupt Enable bit mask. */
#define TCA_SPLIT_LCMP0_bp 4 /* Low Compare 0 Interrupt Enable bit position. */
#define TCA_SPLIT_LCMP1_bm 0x20 /* Low Compare 1 Interrupt Enable bit mask. */
#define TCA_SPLIT_LCMP1_bp 5 /* Low Compare 1 Interrupt Enable bit position. */
#define TCA_SPLIT_LCMP2_bm 0x40 /* Low Compare 2 Interrupt Enable bit mask. */
#define TCA_SPLIT_LCMP2_bp 6 /* Low Compare 2 Interrupt Enable bit position. */
/* TCA_SPLIT.INTFLAGS bit masks and bit positions */
/* TCA_SPLIT_LUNF is already defined. */
/* TCA_SPLIT_HUNF is already defined. */
/* TCA_SPLIT_LCMP0 is already defined. */
/* TCA_SPLIT_LCMP1 is already defined. */
/* TCA_SPLIT_LCMP2 is already defined. */
/* TCA_SPLIT.DBGCTRL bit masks and bit positions */
#define TCA_SPLIT_DBGRUN_bm 0x01 /* Debug Run bit mask. */
#define TCA_SPLIT_DBGRUN_bp 0 /* Debug Run bit position. */
/* TCB - 16-bit Timer Type B */
/* TCB.CTRLA bit masks and bit positions */
#define TCB_ENABLE_bm 0x01 /* Enable bit mask. */
#define TCB_ENABLE_bp 0 /* Enable bit position. */
#define TCB_CLKSEL_gm 0x06 /* Clock Select group mask. */
#define TCB_CLKSEL_gp 1 /* Clock Select group position. */
#define TCB_CLKSEL0_bm (1<<1) /* Clock Select bit 0 mask. */
#define TCB_CLKSEL0_bp 1 /* Clock Select bit 0 position. */
#define TCB_CLKSEL1_bm (1<<2) /* Clock Select bit 1 mask. */
#define TCB_CLKSEL1_bp 2 /* Clock Select bit 1 position. */
#define TCB_SYNCUPD_bm 0x10 /* Synchronize Update bit mask. */
#define TCB_SYNCUPD_bp 4 /* Synchronize Update bit position. */
#define TCB_RUNSTDBY_bm 0x40 /* Run Standby bit mask. */
#define TCB_RUNSTDBY_bp 6 /* Run Standby bit position. */
/* TCB.CTRLB bit masks and bit positions */
#define TCB_CNTMODE_gm 0x07 /* Timer Mode group mask. */
#define TCB_CNTMODE_gp 0 /* Timer Mode group position. */
#define TCB_CNTMODE0_bm (1<<0) /* Timer Mode bit 0 mask. */
#define TCB_CNTMODE0_bp 0 /* Timer Mode bit 0 position. */
#define TCB_CNTMODE1_bm (1<<1) /* Timer Mode bit 1 mask. */
#define TCB_CNTMODE1_bp 1 /* Timer Mode bit 1 position. */
#define TCB_CNTMODE2_bm (1<<2) /* Timer Mode bit 2 mask. */
#define TCB_CNTMODE2_bp 2 /* Timer Mode bit 2 position. */
#define TCB_CCMPEN_bm 0x10 /* Pin Output Enable bit mask. */
#define TCB_CCMPEN_bp 4 /* Pin Output Enable bit position. */
#define TCB_CCMPINIT_bm 0x20 /* Pin Initial State bit mask. */
#define TCB_CCMPINIT_bp 5 /* Pin Initial State bit position. */
#define TCB_ASYNC_bm 0x40 /* Asynchronous Enable bit mask. */
#define TCB_ASYNC_bp 6 /* Asynchronous Enable bit position. */
/* TCB.EVCTRL bit masks and bit positions */
#define TCB_CAPTEI_bm 0x01 /* Event Input Enable bit mask. */
#define TCB_CAPTEI_bp 0 /* Event Input Enable bit position. */
#define TCB_EDGE_bm 0x10 /* Event Edge bit mask. */
#define TCB_EDGE_bp 4 /* Event Edge bit position. */
#define TCB_FILTER_bm 0x40 /* Input Capture Noise Cancellation Filter bit mask. */
#define TCB_FILTER_bp 6 /* Input Capture Noise Cancellation Filter bit position. */
/* TCB.INTCTRL bit masks and bit positions */
#define TCB_CAPT_bm 0x01 /* Capture or Timeout bit mask. */
#define TCB_CAPT_bp 0 /* Capture or Timeout bit position. */
/* TCB.INTFLAGS bit masks and bit positions */
/* TCB_CAPT is already defined. */
/* TCB.STATUS bit masks and bit positions */
#define TCB_RUN_bm 0x01 /* Run bit mask. */
#define TCB_RUN_bp 0 /* Run bit position. */
/* TCB.DBGCTRL bit masks and bit positions */
#define TCB_DBGRUN_bm 0x01 /* Debug Run bit mask. */
#define TCB_DBGRUN_bp 0 /* Debug Run bit position. */
/* TWI - Two-Wire Interface */
/* TWI.CTRLA bit masks and bit positions */
#define TWI_FMPEN_bm 0x02 /* FM Plus Enable bit mask. */
#define TWI_FMPEN_bp 1 /* FM Plus Enable bit position. */
#define TWI_SDAHOLD_gm 0x0C /* SDA Hold Time group mask. */
#define TWI_SDAHOLD_gp 2 /* SDA Hold Time group position. */
#define TWI_SDAHOLD0_bm (1<<2) /* SDA Hold Time bit 0 mask. */
#define TWI_SDAHOLD0_bp 2 /* SDA Hold Time bit 0 position. */
#define TWI_SDAHOLD1_bm (1<<3) /* SDA Hold Time bit 1 mask. */
#define TWI_SDAHOLD1_bp 3 /* SDA Hold Time bit 1 position. */
#define TWI_SDASETUP_bm 0x10 /* SDA Setup Time bit mask. */
#define TWI_SDASETUP_bp 4 /* SDA Setup Time bit position. */
/* TWI.DBGCTRL bit masks and bit positions */
#define TWI_DBGRUN_bm 0x01 /* Debug Run bit mask. */
#define TWI_DBGRUN_bp 0 /* Debug Run bit position. */
/* TWI.MCTRLA bit masks and bit positions */
#define TWI_ENABLE_bm 0x01 /* Enable TWI Master bit mask. */
#define TWI_ENABLE_bp 0 /* Enable TWI Master bit position. */
#define TWI_SMEN_bm 0x02 /* Smart Mode Enable bit mask. */
#define TWI_SMEN_bp 1 /* Smart Mode Enable bit position. */
#define TWI_TIMEOUT_gm 0x0C /* Inactive Bus Timeout group mask. */
#define TWI_TIMEOUT_gp 2 /* Inactive Bus Timeout group position. */
#define TWI_TIMEOUT0_bm (1<<2) /* Inactive Bus Timeout bit 0 mask. */
#define TWI_TIMEOUT0_bp 2 /* Inactive Bus Timeout bit 0 position. */
#define TWI_TIMEOUT1_bm (1<<3) /* Inactive Bus Timeout bit 1 mask. */
#define TWI_TIMEOUT1_bp 3 /* Inactive Bus Timeout bit 1 position. */
#define TWI_QCEN_bm 0x10 /* Quick Command Enable bit mask. */
#define TWI_QCEN_bp 4 /* Quick Command Enable bit position. */
#define TWI_WIEN_bm 0x40 /* Write Interrupt Enable bit mask. */
#define TWI_WIEN_bp 6 /* Write Interrupt Enable bit position. */
#define TWI_RIEN_bm 0x80 /* Read Interrupt Enable bit mask. */
#define TWI_RIEN_bp 7 /* Read Interrupt Enable bit position. */
/* TWI.MCTRLB bit masks and bit positions */
#define TWI_MCMD_gm 0x03 /* Command group mask. */
#define TWI_MCMD_gp 0 /* Command group position. */
#define TWI_MCMD0_bm (1<<0) /* Command bit 0 mask. */
#define TWI_MCMD0_bp 0 /* Command bit 0 position. */
#define TWI_MCMD1_bm (1<<1) /* Command bit 1 mask. */
#define TWI_MCMD1_bp 1 /* Command bit 1 position. */
#define TWI_ACKACT_bm 0x04 /* Acknowledge Action bit mask. */
#define TWI_ACKACT_bp 2 /* Acknowledge Action bit position. */
#define TWI_FLUSH_bm 0x08 /* Flush bit mask. */
#define TWI_FLUSH_bp 3 /* Flush bit position. */
/* TWI.MSTATUS bit masks and bit positions */
#define TWI_BUSSTATE_gm 0x03 /* Bus State group mask. */
#define TWI_BUSSTATE_gp 0 /* Bus State group position. */
#define TWI_BUSSTATE0_bm (1<<0) /* Bus State bit 0 mask. */
#define TWI_BUSSTATE0_bp 0 /* Bus State bit 0 position. */
#define TWI_BUSSTATE1_bm (1<<1) /* Bus State bit 1 mask. */
#define TWI_BUSSTATE1_bp 1 /* Bus State bit 1 position. */
#define TWI_BUSERR_bm 0x04 /* Bus Error bit mask. */
#define TWI_BUSERR_bp 2 /* Bus Error bit position. */
#define TWI_ARBLOST_bm 0x08 /* Arbitration Lost bit mask. */
#define TWI_ARBLOST_bp 3 /* Arbitration Lost bit position. */
#define TWI_RXACK_bm 0x10 /* Received Acknowledge bit mask. */
#define TWI_RXACK_bp 4 /* Received Acknowledge bit position. */
#define TWI_CLKHOLD_bm 0x20 /* Clock Hold bit mask. */
#define TWI_CLKHOLD_bp 5 /* Clock Hold bit position. */
#define TWI_WIF_bm 0x40 /* Write Interrupt Flag bit mask. */
#define TWI_WIF_bp 6 /* Write Interrupt Flag bit position. */
#define TWI_RIF_bm 0x80 /* Read Interrupt Flag bit mask. */
#define TWI_RIF_bp 7 /* Read Interrupt Flag bit position. */
/* TWI.SCTRLA bit masks and bit positions */
/* TWI_ENABLE is already defined. */
/* TWI_SMEN is already defined. */
#define TWI_PMEN_bm 0x04 /* Promiscuous Mode Enable bit mask. */
#define TWI_PMEN_bp 2 /* Promiscuous Mode Enable bit position. */
#define TWI_PIEN_bm 0x20 /* Stop Interrupt Enable bit mask. */
#define TWI_PIEN_bp 5 /* Stop Interrupt Enable bit position. */
#define TWI_APIEN_bm 0x40 /* Address/Stop Interrupt Enable bit mask. */
#define TWI_APIEN_bp 6 /* Address/Stop Interrupt Enable bit position. */
#define TWI_DIEN_bm 0x80 /* Data Interrupt Enable bit mask. */
#define TWI_DIEN_bp 7 /* Data Interrupt Enable bit position. */
/* TWI.SCTRLB bit masks and bit positions */
#define TWI_SCMD_gm 0x03 /* Command group mask. */
#define TWI_SCMD_gp 0 /* Command group position. */
#define TWI_SCMD0_bm (1<<0) /* Command bit 0 mask. */
#define TWI_SCMD0_bp 0 /* Command bit 0 position. */
#define TWI_SCMD1_bm (1<<1) /* Command bit 1 mask. */
#define TWI_SCMD1_bp 1 /* Command bit 1 position. */
/* TWI_ACKACT is already defined. */
/* TWI.SSTATUS bit masks and bit positions */
#define TWI_AP_bm 0x01 /* Slave Address or Stop bit mask. */
#define TWI_AP_bp 0 /* Slave Address or Stop bit position. */
#define TWI_DIR_bm 0x02 /* Read/Write Direction bit mask. */
#define TWI_DIR_bp 1 /* Read/Write Direction bit position. */
/* TWI_BUSERR is already defined. */
#define TWI_COLL_bm 0x08 /* Collision bit mask. */
#define TWI_COLL_bp 3 /* Collision bit position. */
/* TWI_RXACK is already defined. */
/* TWI_CLKHOLD is already defined. */
#define TWI_APIF_bm 0x40 /* Address/Stop Interrupt Flag bit mask. */
#define TWI_APIF_bp 6 /* Address/Stop Interrupt Flag bit position. */
#define TWI_DIF_bm 0x80 /* Data Interrupt Flag bit mask. */
#define TWI_DIF_bp 7 /* Data Interrupt Flag bit position. */
/* TWI.SADDRMASK bit masks and bit positions */
#define TWI_ADDREN_bm 0x01 /* Address Enable bit mask. */
#define TWI_ADDREN_bp 0 /* Address Enable bit position. */
#define TWI_ADDRMASK_gm 0xFE /* Address Mask group mask. */
#define TWI_ADDRMASK_gp 1 /* Address Mask group position. */
#define TWI_ADDRMASK0_bm (1<<1) /* Address Mask bit 0 mask. */
#define TWI_ADDRMASK0_bp 1 /* Address Mask bit 0 position. */
#define TWI_ADDRMASK1_bm (1<<2) /* Address Mask bit 1 mask. */
#define TWI_ADDRMASK1_bp 2 /* Address Mask bit 1 position. */
#define TWI_ADDRMASK2_bm (1<<3) /* Address Mask bit 2 mask. */
#define TWI_ADDRMASK2_bp 3 /* Address Mask bit 2 position. */
#define TWI_ADDRMASK3_bm (1<<4) /* Address Mask bit 3 mask. */
#define TWI_ADDRMASK3_bp 4 /* Address Mask bit 3 position. */
#define TWI_ADDRMASK4_bm (1<<5) /* Address Mask bit 4 mask. */
#define TWI_ADDRMASK4_bp 5 /* Address Mask bit 4 position. */
#define TWI_ADDRMASK5_bm (1<<6) /* Address Mask bit 5 mask. */
#define TWI_ADDRMASK5_bp 6 /* Address Mask bit 5 position. */
#define TWI_ADDRMASK6_bm (1<<7) /* Address Mask bit 6 mask. */
#define TWI_ADDRMASK6_bp 7 /* Address Mask bit 6 position. */
/* USART - Universal Synchronous and Asynchronous Receiver and Transmitter */
/* USART.RXDATAL bit masks and bit positions */
#define USART_DATA_gm 0xFF /* RX Data group mask. */
#define USART_DATA_gp 0 /* RX Data group position. */
#define USART_DATA0_bm (1<<0) /* RX Data bit 0 mask. */
#define USART_DATA0_bp 0 /* RX Data bit 0 position. */
#define USART_DATA1_bm (1<<1) /* RX Data bit 1 mask. */
#define USART_DATA1_bp 1 /* RX Data bit 1 position. */
#define USART_DATA2_bm (1<<2) /* RX Data bit 2 mask. */
#define USART_DATA2_bp 2 /* RX Data bit 2 position. */
#define USART_DATA3_bm (1<<3) /* RX Data bit 3 mask. */
#define USART_DATA3_bp 3 /* RX Data bit 3 position. */
#define USART_DATA4_bm (1<<4) /* RX Data bit 4 mask. */
#define USART_DATA4_bp 4 /* RX Data bit 4 position. */
#define USART_DATA5_bm (1<<5) /* RX Data bit 5 mask. */
#define USART_DATA5_bp 5 /* RX Data bit 5 position. */
#define USART_DATA6_bm (1<<6) /* RX Data bit 6 mask. */
#define USART_DATA6_bp 6 /* RX Data bit 6 position. */
#define USART_DATA7_bm (1<<7) /* RX Data bit 7 mask. */
#define USART_DATA7_bp 7 /* RX Data bit 7 position. */
/* USART.RXDATAH bit masks and bit positions */
#define USART_DATA8_bm 0x01 /* Receiver Data Register bit mask. */
#define USART_DATA8_bp 0 /* Receiver Data Register bit position. */
#define USART_PERR_bm 0x02 /* Parity Error bit mask. */
#define USART_PERR_bp 1 /* Parity Error bit position. */
#define USART_FERR_bm 0x04 /* Frame Error bit mask. */
#define USART_FERR_bp 2 /* Frame Error bit position. */
#define USART_BUFOVF_bm 0x40 /* Buffer Overflow bit mask. */
#define USART_BUFOVF_bp 6 /* Buffer Overflow bit position. */
#define USART_RXCIF_bm 0x80 /* Receive Complete Interrupt Flag bit mask. */
#define USART_RXCIF_bp 7 /* Receive Complete Interrupt Flag bit position. */
/* USART.TXDATAL bit masks and bit positions */
/* USART_DATA is already defined. */
/* USART.TXDATAH bit masks and bit positions */
/* USART_DATA8 is already defined. */
/* USART.STATUS bit masks and bit positions */
#define USART_WFB_bm 0x01 /* Wait For Break bit mask. */
#define USART_WFB_bp 0 /* Wait For Break bit position. */
#define USART_BDF_bm 0x02 /* Break Detected Flag bit mask. */
#define USART_BDF_bp 1 /* Break Detected Flag bit position. */
#define USART_ISFIF_bm 0x08 /* Inconsistent Sync Field Interrupt Flag bit mask. */
#define USART_ISFIF_bp 3 /* Inconsistent Sync Field Interrupt Flag bit position. */
#define USART_RXSIF_bm 0x10 /* Receive Start Interrupt bit mask. */
#define USART_RXSIF_bp 4 /* Receive Start Interrupt bit position. */
#define USART_DREIF_bm 0x20 /* Data Register Empty Flag bit mask. */
#define USART_DREIF_bp 5 /* Data Register Empty Flag bit position. */
#define USART_TXCIF_bm 0x40 /* Transmit Interrupt Flag bit mask. */
#define USART_TXCIF_bp 6 /* Transmit Interrupt Flag bit position. */
/* USART_RXCIF is already defined. */
/* USART.CTRLA bit masks and bit positions */
#define USART_RS485_gm 0x03 /* RS485 Mode internal transmitter group mask. */
#define USART_RS485_gp 0 /* RS485 Mode internal transmitter group position. */
#define USART_RS4850_bm (1<<0) /* RS485 Mode internal transmitter bit 0 mask. */
#define USART_RS4850_bp 0 /* RS485 Mode internal transmitter bit 0 position. */
#define USART_RS4851_bm (1<<1) /* RS485 Mode internal transmitter bit 1 mask. */
#define USART_RS4851_bp 1 /* RS485 Mode internal transmitter bit 1 position. */
#define USART_ABEIE_bm 0x04 /* Auto-baud Error Interrupt Enable bit mask. */
#define USART_ABEIE_bp 2 /* Auto-baud Error Interrupt Enable bit position. */
#define USART_LBME_bm 0x08 /* Loop-back Mode Enable bit mask. */
#define USART_LBME_bp 3 /* Loop-back Mode Enable bit position. */
#define USART_RXSIE_bm 0x10 /* Receiver Start Frame Interrupt Enable bit mask. */
#define USART_RXSIE_bp 4 /* Receiver Start Frame Interrupt Enable bit position. */
#define USART_DREIE_bm 0x20 /* Data Register Empty Interrupt Enable bit mask. */
#define USART_DREIE_bp 5 /* Data Register Empty Interrupt Enable bit position. */
#define USART_TXCIE_bm 0x40 /* Transmit Complete Interrupt Enable bit mask. */
#define USART_TXCIE_bp 6 /* Transmit Complete Interrupt Enable bit position. */
#define USART_RXCIE_bm 0x80 /* Receive Complete Interrupt Enable bit mask. */
#define USART_RXCIE_bp 7 /* Receive Complete Interrupt Enable bit position. */
/* USART.CTRLB bit masks and bit positions */
#define USART_MPCM_bm 0x01 /* Multi-processor Communication Mode bit mask. */
#define USART_MPCM_bp 0 /* Multi-processor Communication Mode bit position. */
#define USART_RXMODE_gm 0x06 /* Receiver Mode group mask. */
#define USART_RXMODE_gp 1 /* Receiver Mode group position. */
#define USART_RXMODE0_bm (1<<1) /* Receiver Mode bit 0 mask. */
#define USART_RXMODE0_bp 1 /* Receiver Mode bit 0 position. */
#define USART_RXMODE1_bm (1<<2) /* Receiver Mode bit 1 mask. */
#define USART_RXMODE1_bp 2 /* Receiver Mode bit 1 position. */
#define USART_ODME_bm 0x08 /* Open Drain Mode Enable bit mask. */
#define USART_ODME_bp 3 /* Open Drain Mode Enable bit position. */
#define USART_SFDEN_bm 0x10 /* Start Frame Detection Enable bit mask. */
#define USART_SFDEN_bp 4 /* Start Frame Detection Enable bit position. */
#define USART_TXEN_bm 0x40 /* Transmitter Enable bit mask. */
#define USART_TXEN_bp 6 /* Transmitter Enable bit position. */
#define USART_RXEN_bm 0x80 /* Reciever enable bit mask. */
#define USART_RXEN_bp 7 /* Reciever enable bit position. */
/* USART.CTRLC bit masks and bit positions */
#define USART_UCPHA_bm 0x02 /* SPI Master Mode, Clock Phase bit mask. */
#define USART_UCPHA_bp 1 /* SPI Master Mode, Clock Phase bit position. */
#define USART_UDORD_bm 0x04 /* SPI Master Mode, Data Order bit mask. */
#define USART_UDORD_bp 2 /* SPI Master Mode, Data Order bit position. */
#define USART_CHSIZE_gm 0x07 /* Character Size group mask. */
#define USART_CHSIZE_gp 0 /* Character Size group position. */
#define USART_CHSIZE0_bm (1<<0) /* Character Size bit 0 mask. */
#define USART_CHSIZE0_bp 0 /* Character Size bit 0 position. */
#define USART_CHSIZE1_bm (1<<1) /* Character Size bit 1 mask. */
#define USART_CHSIZE1_bp 1 /* Character Size bit 1 position. */
#define USART_CHSIZE2_bm (1<<2) /* Character Size bit 2 mask. */
#define USART_CHSIZE2_bp 2 /* Character Size bit 2 position. */
#define USART_SBMODE_bm 0x08 /* Stop Bit Mode bit mask. */
#define USART_SBMODE_bp 3 /* Stop Bit Mode bit position. */
#define USART_PMODE_gm 0x30 /* Parity Mode group mask. */
#define USART_PMODE_gp 4 /* Parity Mode group position. */
#define USART_PMODE0_bm (1<<4) /* Parity Mode bit 0 mask. */
#define USART_PMODE0_bp 4 /* Parity Mode bit 0 position. */
#define USART_PMODE1_bm (1<<5) /* Parity Mode bit 1 mask. */
#define USART_PMODE1_bp 5 /* Parity Mode bit 1 position. */
#define USART_CMODE_gm 0xC0 /* Communication Mode group mask. */
#define USART_CMODE_gp 6 /* Communication Mode group position. */
#define USART_CMODE0_bm (1<<6) /* Communication Mode bit 0 mask. */
#define USART_CMODE0_bp 6 /* Communication Mode bit 0 position. */
#define USART_CMODE1_bm (1<<7) /* Communication Mode bit 1 mask. */
#define USART_CMODE1_bp 7 /* Communication Mode bit 1 position. */
/* USART_CMODE is already defined. */
/* USART.DBGCTRL bit masks and bit positions */
#define USART_DBGRUN_bm 0x01 /* Debug Run bit mask. */
#define USART_DBGRUN_bp 0 /* Debug Run bit position. */
#define USART_ABMBP_bm 0x80 /* Autobaud majority voter bypass bit mask. */
#define USART_ABMBP_bp 7 /* Autobaud majority voter bypass bit position. */
/* USART.EVCTRL bit masks and bit positions */
#define USART_IREI_bm 0x01 /* IrDA Event Input Enable bit mask. */
#define USART_IREI_bp 0 /* IrDA Event Input Enable bit position. */
/* USART.TXPLCTRL bit masks and bit positions */
#define USART_TXPL_gm 0xFF /* Transmit pulse length group mask. */
#define USART_TXPL_gp 0 /* Transmit pulse length group position. */
#define USART_TXPL0_bm (1<<0) /* Transmit pulse length bit 0 mask. */
#define USART_TXPL0_bp 0 /* Transmit pulse length bit 0 position. */
#define USART_TXPL1_bm (1<<1) /* Transmit pulse length bit 1 mask. */
#define USART_TXPL1_bp 1 /* Transmit pulse length bit 1 position. */
#define USART_TXPL2_bm (1<<2) /* Transmit pulse length bit 2 mask. */
#define USART_TXPL2_bp 2 /* Transmit pulse length bit 2 position. */
#define USART_TXPL3_bm (1<<3) /* Transmit pulse length bit 3 mask. */
#define USART_TXPL3_bp 3 /* Transmit pulse length bit 3 position. */
#define USART_TXPL4_bm (1<<4) /* Transmit pulse length bit 4 mask. */
#define USART_TXPL4_bp 4 /* Transmit pulse length bit 4 position. */
#define USART_TXPL5_bm (1<<5) /* Transmit pulse length bit 5 mask. */
#define USART_TXPL5_bp 5 /* Transmit pulse length bit 5 position. */
#define USART_TXPL6_bm (1<<6) /* Transmit pulse length bit 6 mask. */
#define USART_TXPL6_bp 6 /* Transmit pulse length bit 6 position. */
#define USART_TXPL7_bm (1<<7) /* Transmit pulse length bit 7 mask. */
#define USART_TXPL7_bp 7 /* Transmit pulse length bit 7 position. */
/* USART.RXPLCTRL bit masks and bit positions */
#define USART_RXPL_gm 0x7F /* Receiver Pulse Lenght group mask. */
#define USART_RXPL_gp 0 /* Receiver Pulse Lenght group position. */
#define USART_RXPL0_bm (1<<0) /* Receiver Pulse Lenght bit 0 mask. */
#define USART_RXPL0_bp 0 /* Receiver Pulse Lenght bit 0 position. */
#define USART_RXPL1_bm (1<<1) /* Receiver Pulse Lenght bit 1 mask. */
#define USART_RXPL1_bp 1 /* Receiver Pulse Lenght bit 1 position. */
#define USART_RXPL2_bm (1<<2) /* Receiver Pulse Lenght bit 2 mask. */
#define USART_RXPL2_bp 2 /* Receiver Pulse Lenght bit 2 position. */
#define USART_RXPL3_bm (1<<3) /* Receiver Pulse Lenght bit 3 mask. */
#define USART_RXPL3_bp 3 /* Receiver Pulse Lenght bit 3 position. */
#define USART_RXPL4_bm (1<<4) /* Receiver Pulse Lenght bit 4 mask. */
#define USART_RXPL4_bp 4 /* Receiver Pulse Lenght bit 4 position. */
#define USART_RXPL5_bm (1<<5) /* Receiver Pulse Lenght bit 5 mask. */
#define USART_RXPL5_bp 5 /* Receiver Pulse Lenght bit 5 position. */
#define USART_RXPL6_bm (1<<6) /* Receiver Pulse Lenght bit 6 mask. */
#define USART_RXPL6_bp 6 /* Receiver Pulse Lenght bit 6 position. */
/* VPORT - Virtual Ports */
/* VPORT.INTFLAGS bit masks and bit positions */
#define VPORT_INT_gm 0xFF /* Pin Interrupt group mask. */
#define VPORT_INT_gp 0 /* Pin Interrupt group position. */
#define VPORT_INT0_bm (1<<0) /* Pin Interrupt bit 0 mask. */
#define VPORT_INT0_bp 0 /* Pin Interrupt bit 0 position. */
#define VPORT_INT1_bm (1<<1) /* Pin Interrupt bit 1 mask. */
#define VPORT_INT1_bp 1 /* Pin Interrupt bit 1 position. */
#define VPORT_INT2_bm (1<<2) /* Pin Interrupt bit 2 mask. */
#define VPORT_INT2_bp 2 /* Pin Interrupt bit 2 position. */
#define VPORT_INT3_bm (1<<3) /* Pin Interrupt bit 3 mask. */
#define VPORT_INT3_bp 3 /* Pin Interrupt bit 3 position. */
#define VPORT_INT4_bm (1<<4) /* Pin Interrupt bit 4 mask. */
#define VPORT_INT4_bp 4 /* Pin Interrupt bit 4 position. */
#define VPORT_INT5_bm (1<<5) /* Pin Interrupt bit 5 mask. */
#define VPORT_INT5_bp 5 /* Pin Interrupt bit 5 position. */
#define VPORT_INT6_bm (1<<6) /* Pin Interrupt bit 6 mask. */
#define VPORT_INT6_bp 6 /* Pin Interrupt bit 6 position. */
#define VPORT_INT7_bm (1<<7) /* Pin Interrupt bit 7 mask. */
#define VPORT_INT7_bp 7 /* Pin Interrupt bit 7 position. */
/* VREF - Voltage reference */
/* VREF.CTRLA bit masks and bit positions */
#define VREF_DAC0REFSEL_gm 0x07 /* DAC0/AC0 reference select group mask. */
#define VREF_DAC0REFSEL_gp 0 /* DAC0/AC0 reference select group position. */
#define VREF_DAC0REFSEL0_bm (1<<0) /* DAC0/AC0 reference select bit 0 mask. */
#define VREF_DAC0REFSEL0_bp 0 /* DAC0/AC0 reference select bit 0 position. */
#define VREF_DAC0REFSEL1_bm (1<<1) /* DAC0/AC0 reference select bit 1 mask. */
#define VREF_DAC0REFSEL1_bp 1 /* DAC0/AC0 reference select bit 1 position. */
#define VREF_DAC0REFSEL2_bm (1<<2) /* DAC0/AC0 reference select bit 2 mask. */
#define VREF_DAC0REFSEL2_bp 2 /* DAC0/AC0 reference select bit 2 position. */
#define VREF_ADC0REFSEL_gm 0x70 /* ADC0 reference select group mask. */
#define VREF_ADC0REFSEL_gp 4 /* ADC0 reference select group position. */
#define VREF_ADC0REFSEL0_bm (1<<4) /* ADC0 reference select bit 0 mask. */
#define VREF_ADC0REFSEL0_bp 4 /* ADC0 reference select bit 0 position. */
#define VREF_ADC0REFSEL1_bm (1<<5) /* ADC0 reference select bit 1 mask. */
#define VREF_ADC0REFSEL1_bp 5 /* ADC0 reference select bit 1 position. */
#define VREF_ADC0REFSEL2_bm (1<<6) /* ADC0 reference select bit 2 mask. */
#define VREF_ADC0REFSEL2_bp 6 /* ADC0 reference select bit 2 position. */
/* VREF.CTRLB bit masks and bit positions */
#define VREF_DAC0REFEN_bm 0x01 /* DAC0/AC0 reference enable bit mask. */
#define VREF_DAC0REFEN_bp 0 /* DAC0/AC0 reference enable bit position. */
#define VREF_ADC0REFEN_bm 0x02 /* ADC0 reference enable bit mask. */
#define VREF_ADC0REFEN_bp 1 /* ADC0 reference enable bit position. */
/* WDT - Watch-Dog Timer */
/* WDT.CTRLA bit masks and bit positions */
#define WDT_PERIOD_gm 0x0F /* Period group mask. */
#define WDT_PERIOD_gp 0 /* Period group position. */
#define WDT_PERIOD0_bm (1<<0) /* Period bit 0 mask. */
#define WDT_PERIOD0_bp 0 /* Period bit 0 position. */
#define WDT_PERIOD1_bm (1<<1) /* Period bit 1 mask. */
#define WDT_PERIOD1_bp 1 /* Period bit 1 position. */
#define WDT_PERIOD2_bm (1<<2) /* Period bit 2 mask. */
#define WDT_PERIOD2_bp 2 /* Period bit 2 position. */
#define WDT_PERIOD3_bm (1<<3) /* Period bit 3 mask. */
#define WDT_PERIOD3_bp 3 /* Period bit 3 position. */
#define WDT_WINDOW_gm 0xF0 /* Window group mask. */
#define WDT_WINDOW_gp 4 /* Window group position. */
#define WDT_WINDOW0_bm (1<<4) /* Window bit 0 mask. */
#define WDT_WINDOW0_bp 4 /* Window bit 0 position. */
#define WDT_WINDOW1_bm (1<<5) /* Window bit 1 mask. */
#define WDT_WINDOW1_bp 5 /* Window bit 1 position. */
#define WDT_WINDOW2_bm (1<<6) /* Window bit 2 mask. */
#define WDT_WINDOW2_bp 6 /* Window bit 2 position. */
#define WDT_WINDOW3_bm (1<<7) /* Window bit 3 mask. */
#define WDT_WINDOW3_bp 7 /* Window bit 3 position. */
/* WDT.STATUS bit masks and bit positions */
#define WDT_SYNCBUSY_bm 0x01 /* Syncronization busy bit mask. */
#define WDT_SYNCBUSY_bp 0 /* Syncronization busy bit position. */
#define WDT_LOCK_bm 0x80 /* Lock enable bit mask. */
#define WDT_LOCK_bp 7 /* Lock enable bit position. */
// Generic Port Pins
#define PIN0_bm 0x01
#define PIN0_bp 0
#define PIN1_bm 0x02
#define PIN1_bp 1
#define PIN2_bm 0x04
#define PIN2_bp 2
#define PIN3_bm 0x08
#define PIN3_bp 3
#define PIN4_bm 0x10
#define PIN4_bp 4
#define PIN5_bm 0x20
#define PIN5_bp 5
#define PIN6_bm 0x40
#define PIN6_bp 6
#define PIN7_bm 0x80
#define PIN7_bp 7
/* ========== Interrupt Vector Definitions ========== */
/* Vector 0 is the reset vector */
/* CRCSCAN interrupt vectors */
#define CRCSCAN_NMI_vect_num 1
#define CRCSCAN_NMI_vect _VECTOR(1) /* */
/* BOD interrupt vectors */
#define BOD_VLM_vect_num 2
#define BOD_VLM_vect _VECTOR(2) /* */
/* PORTA interrupt vectors */
#define PORTA_PORT_vect_num 3
#define PORTA_PORT_vect _VECTOR(3) /* */
/* PORTB interrupt vectors */
#define PORTB_PORT_vect_num 4
#define PORTB_PORT_vect _VECTOR(4) /* */
/* RTC interrupt vectors */
#define RTC_CNT_vect_num 6
#define RTC_CNT_vect _VECTOR(6) /* */
#define RTC_PIT_vect_num 7
#define RTC_PIT_vect _VECTOR(7) /* */
/* TCA0 interrupt vectors */
#define TCA0_LUNF_vect_num 8
#define TCA0_LUNF_vect _VECTOR(8) /* */
#define TCA0_OVF_vect_num 8
#define TCA0_OVF_vect _VECTOR(8) /* */
#define TCA0_HUNF_vect_num 9
#define TCA0_HUNF_vect _VECTOR(9) /* */
#define TCA0_LCMP0_vect_num 10
#define TCA0_LCMP0_vect _VECTOR(10) /* */
#define TCA0_CMP0_vect_num 10
#define TCA0_CMP0_vect _VECTOR(10) /* */
#define TCA0_CMP1_vect_num 11
#define TCA0_CMP1_vect _VECTOR(11) /* */
#define TCA0_LCMP1_vect_num 11
#define TCA0_LCMP1_vect _VECTOR(11) /* */
#define TCA0_CMP2_vect_num 12
#define TCA0_CMP2_vect _VECTOR(12) /* */
#define TCA0_LCMP2_vect_num 12
#define TCA0_LCMP2_vect _VECTOR(12) /* */
/* TCB0 interrupt vectors */
#define TCB0_INT_vect_num 13
#define TCB0_INT_vect _VECTOR(13) /* */
/* AC0 interrupt vectors */
#define AC0_AC_vect_num 16
#define AC0_AC_vect _VECTOR(16) /* */
/* ADC0 interrupt vectors */
#define ADC0_RESRDY_vect_num 17
#define ADC0_RESRDY_vect _VECTOR(17) /* */
#define ADC0_WCOMP_vect_num 18
#define ADC0_WCOMP_vect _VECTOR(18) /* */
/* TWI0 interrupt vectors */
#define TWI0_TWIS_vect_num 19
#define TWI0_TWIS_vect _VECTOR(19) /* */
#define TWI0_TWIM_vect_num 20
#define TWI0_TWIM_vect _VECTOR(20) /* */
/* SPI0 interrupt vectors */
#define SPI0_INT_vect_num 21
#define SPI0_INT_vect _VECTOR(21) /* */
/* USART0 interrupt vectors */
#define USART0_RXC_vect_num 22
#define USART0_RXC_vect _VECTOR(22) /* */
#define USART0_DRE_vect_num 23
#define USART0_DRE_vect _VECTOR(23) /* */
#define USART0_TXC_vect_num 24
#define USART0_TXC_vect _VECTOR(24) /* */
/* NVMCTRL interrupt vectors */
#define NVMCTRL_EE_vect_num 25
#define NVMCTRL_EE_vect _VECTOR(25) /* */
#define _VECTOR_SIZE 2 /* Size of individual vector. */
#define _VECTORS_SIZE (26 * _VECTOR_SIZE)
/* ========== Constants ========== */
#define DATAMEM_START (0x0000)
#define DATAMEM_SIZE (36864)
#define DATAMEM_END (DATAMEM_START + DATAMEM_SIZE - 1)
#define EEPROM_START (0x1400)
#define EEPROM_SIZE (128)
#define EEPROM_PAGE_SIZE (32)
#define EEPROM_END (EEPROM_START + EEPROM_SIZE - 1)
/* Added MAPPED_EEPROM segment names for avr-libc */
#define MAPPED_EEPROM_START (EEPROM_START)
#define MAPPED_EEPROM_SIZE (EEPROM_SIZE)
#define MAPPED_EEPROM_PAGE_SIZE (EEPROM_PAGE_SIZE)
#define MAPPED_EEPROM_END (MAPPED_EEPROM_START + MAPPED_EEPROM_SIZE - 1)
#define FUSES_START (0x1280)
#define FUSES_SIZE (10)
#define FUSES_PAGE_SIZE (32)
#define FUSES_END (FUSES_START + FUSES_SIZE - 1)
#define INTERNAL_SRAM_START (0x3F00)
#define INTERNAL_SRAM_SIZE (256)
#define INTERNAL_SRAM_PAGE_SIZE (0)
#define INTERNAL_SRAM_END (INTERNAL_SRAM_START + INTERNAL_SRAM_SIZE - 1)
#define IO_START (0x0000)
#define IO_SIZE (4352)
#define IO_PAGE_SIZE (0)
#define IO_END (IO_START + IO_SIZE - 1)
#define LOCKBITS_START (0x128A)
#define LOCKBITS_SIZE (1)
#define LOCKBITS_PAGE_SIZE (32)
#define LOCKBITS_END (LOCKBITS_START + LOCKBITS_SIZE - 1)
#define MAPPED_PROGMEM_START (0x8000)
#define MAPPED_PROGMEM_SIZE (4096)
#define MAPPED_PROGMEM_PAGE_SIZE (64)
#define MAPPED_PROGMEM_END (MAPPED_PROGMEM_START + MAPPED_PROGMEM_SIZE - 1)
#define PROD_SIGNATURES_START (0x1103)
#define PROD_SIGNATURES_SIZE (61)
#define PROD_SIGNATURES_PAGE_SIZE (64)
#define PROD_SIGNATURES_END (PROD_SIGNATURES_START + PROD_SIGNATURES_SIZE - 1)
#define SIGNATURES_START (0x1100)
#define SIGNATURES_SIZE (3)
#define SIGNATURES_PAGE_SIZE (64)
#define SIGNATURES_END (SIGNATURES_START + SIGNATURES_SIZE - 1)
#define USER_SIGNATURES_START (0x1300)
#define USER_SIGNATURES_SIZE (32)
#define USER_SIGNATURES_PAGE_SIZE (32)
#define USER_SIGNATURES_END (USER_SIGNATURES_START + USER_SIGNATURES_SIZE - 1)
#define PROGMEM_START (0x0000)
#define PROGMEM_SIZE (4096)
#define PROGMEM_END (PROGMEM_START + PROGMEM_SIZE - 1)
#define PROGMEM_START (0x0000)
#define PROGMEM_SIZE (4096)
#define PROGMEM_PAGE_SIZE (64)
#define PROGMEM_END (PROGMEM_START + PROGMEM_SIZE - 1)
#define FLASHSTART PROGMEM_START
#define FLASHEND PROGMEM_END
#define RAMSTART INTERNAL_SRAM_START
#define RAMSIZE INTERNAL_SRAM_SIZE
#define RAMEND INTERNAL_SRAM_END
#define E2END EEPROM_END
#define E2PAGESIZE EEPROM_PAGE_SIZE
/* ========== Fuses ========== */
#define FUSE_MEMORY_SIZE 9
/* Fuse offset 0x00*/
#define PERIOD0 (unsigned char)~_BV(0) /* Watchdog Timeout Period Bit 0 */
#define PERIOD1 (unsigned char)~_BV(1) /* Watchdog Timeout Period Bit 1 */
#define PERIOD2 (unsigned char)~_BV(2) /* Watchdog Timeout Period Bit 2 */
#define PERIOD3 (unsigned char)~_BV(3) /* Watchdog Timeout Period Bit 3 */
#define WINDOW0 (unsigned char)~_BV(4) /* Watchdog Window Timeout Period Bit 0 */
#define WINDOW1 (unsigned char)~_BV(5) /* Watchdog Window Timeout Period Bit 1 */
#define WINDOW2 (unsigned char)~_BV(6) /* Watchdog Window Timeout Period Bit 2 */
#define WINDOW3 (unsigned char)~_BV(7) /* Watchdog Window Timeout Period Bit 3 */
/* Fuse offset 0x01*/
#define SLEEP0 (unsigned char)~_BV(0) /* BOD Operation in Sleep Mode Bit 0 */
#define SLEEP1 (unsigned char)~_BV(1) /* BOD Operation in Sleep Mode Bit 1 */
#define ACTIVE0 (unsigned char)~_BV(2) /* BOD Operation in Active Mode Bit 0 */
#define ACTIVE1 (unsigned char)~_BV(3) /* BOD Operation in Active Mode Bit 1 */
#define SAMPFREQ (unsigned char)~_BV(4) /* BOD Sample Frequency */
#define LVL0 (unsigned char)~_BV(5) /* BOD Level Bit 0 */
#define LVL1 (unsigned char)~_BV(6) /* BOD Level Bit 1 */
#define LVL2 (unsigned char)~_BV(7) /* BOD Level Bit 2 */
/* Fuse offset 0x02*/
#define FREQSEL0 (unsigned char)~_BV(0) /* Frequency Select Bit 0 */
#define FREQSEL1 (unsigned char)~_BV(1) /* Frequency Select Bit 1 */
#define OSCLOCK (unsigned char)~_BV(7) /* Oscillator Lock */
/* Fuse offset 0x03*/
/* Fuse offset 0x04*/
#define CMPA (unsigned char)~_BV(0) /* Compare A Default Output Value */
#define CMPB (unsigned char)~_BV(1) /* Compare B Default Output Value */
#define CMPC (unsigned char)~_BV(2) /* Compare C Default Output Value */
#define CMPD (unsigned char)~_BV(3) /* Compare D Default Output Value */
#define CMPAEN (unsigned char)~_BV(4) /* Compare A Output Enable */
#define CMPBEN (unsigned char)~_BV(5) /* Compare B Output Enable */
#define CMPCEN (unsigned char)~_BV(6) /* Compare C Output Enable */
#define CMPDEN (unsigned char)~_BV(7) /* Compare D Output Enable */
/* Fuse offset 0x05*/
#define EESAVE (unsigned char)~_BV(0) /* EEPROM Save */
#define RSTPINCFG0 (unsigned char)~_BV(2) /* Reset Pin Configuration Bit 0 */
#define RSTPINCFG1 (unsigned char)~_BV(3) /* Reset Pin Configuration Bit 1 */
#define CRCSRC0 (unsigned char)~_BV(6) /* CRC Source Bit 0 */
#define CRCSRC1 (unsigned char)~_BV(7) /* CRC Source Bit 1 */
/* Fuse offset 0x06*/
#define SUT0 (unsigned char)~_BV(0) /* Startup Time Bit 0 */
#define SUT1 (unsigned char)~_BV(1) /* Startup Time Bit 1 */
#define SUT2 (unsigned char)~_BV(2) /* Startup Time Bit 2 */
/* Fuse offset 0x07*/
/* Fuse offset 0x08*/
/* Fuse offset 0x09*/
/* ========== Lock Bits ========== */
#define __LOCK_BITS_EXIST
/* ========== Signature ========== */
#define SIGNATURE_0 0x1E
#define SIGNATURE_1 0x92
#define SIGNATURE_2 0x26
#endif /* #ifdef _AVR_ATTINY404_H_INCLUDED */