/***************************************************************************** * * Copyright (C) 2015 Atmel Corporation * All rights reserved. * * 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 instead of this file." #endif #ifndef _AVR_IOXXX_H_ # define _AVR_IOXXX_H_ "iox16a4u.h" #else # error "Attempt to include more than one file." #endif #ifndef _AVR_ATXMEGA16A4U_H_INCLUDED #define _AVR_ATXMEGA16A4U_H_INCLUDED /* Ungrouped common registers */ #define GPIOR0 _SFR_MEM8(0x0000) /* General Purpose IO Register 0 */ #define GPIOR1 _SFR_MEM8(0x0001) /* General Purpose IO Register 1 */ #define GPIOR2 _SFR_MEM8(0x0002) /* General Purpose IO Register 2 */ #define GPIOR3 _SFR_MEM8(0x0003) /* General Purpose IO Register 3 */ #define GPIOR4 _SFR_MEM8(0x0004) /* General Purpose IO Register 4 */ #define GPIOR5 _SFR_MEM8(0x0005) /* General Purpose IO Register 5 */ #define GPIOR6 _SFR_MEM8(0x0006) /* General Purpose IO Register 6 */ #define GPIOR7 _SFR_MEM8(0x0007) /* General Purpose IO Register 7 */ #define GPIOR8 _SFR_MEM8(0x0008) /* General Purpose IO Register 8 */ #define GPIOR9 _SFR_MEM8(0x0009) /* General Purpose IO Register 9 */ #define GPIORA _SFR_MEM8(0x000A) /* General Purpose IO Register 10 */ #define GPIORB _SFR_MEM8(0x000B) /* General Purpose IO Register 11 */ #define GPIORC _SFR_MEM8(0x000C) /* General Purpose IO Register 12 */ #define GPIORD _SFR_MEM8(0x000D) /* General Purpose IO Register 13 */ #define GPIORE _SFR_MEM8(0x000E) /* General Purpose IO Register 14 */ #define GPIORF _SFR_MEM8(0x000F) /* General Purpose IO Register 15 */ /* Deprecated */ #define GPIO0 _SFR_MEM8(0x0000) /* General Purpose IO Register 0 */ #define GPIO1 _SFR_MEM8(0x0001) /* General Purpose IO Register 1 */ #define GPIO2 _SFR_MEM8(0x0002) /* General Purpose IO Register 2 */ #define GPIO3 _SFR_MEM8(0x0003) /* General Purpose IO Register 3 */ #define GPIO4 _SFR_MEM8(0x0004) /* General Purpose IO Register 4 */ #define GPIO5 _SFR_MEM8(0x0005) /* General Purpose IO Register 5 */ #define GPIO6 _SFR_MEM8(0x0006) /* General Purpose IO Register 6 */ #define GPIO7 _SFR_MEM8(0x0007) /* General Purpose IO Register 7 */ #define GPIO8 _SFR_MEM8(0x0008) /* General Purpose IO Register 8 */ #define GPIO9 _SFR_MEM8(0x0009) /* General Purpose IO Register 9 */ #define GPIOA _SFR_MEM8(0x000A) /* General Purpose IO Register 10 */ #define GPIOB _SFR_MEM8(0x000B) /* General Purpose IO Register 11 */ #define GPIOC _SFR_MEM8(0x000C) /* General Purpose IO Register 12 */ #define GPIOD _SFR_MEM8(0x000D) /* General Purpose IO Register 13 */ #define GPIOE _SFR_MEM8(0x000E) /* General Purpose IO Register 14 */ #define GPIOF _SFR_MEM8(0x000F) /* General Purpose IO Register 15 */ #define CCP _SFR_MEM8(0x0034) /* Configuration Change Protection */ #define RAMPD _SFR_MEM8(0x0038) /* Ramp D */ #define RAMPX _SFR_MEM8(0x0039) /* Ramp X */ #define RAMPY _SFR_MEM8(0x003A) /* Ramp Y */ #define RAMPZ _SFR_MEM8(0x003B) /* Ramp Z */ #define EIND _SFR_MEM8(0x003C) /* Extended Indirect Jump */ #define SPL _SFR_MEM8(0x003D) /* Stack Pointer Low */ #define SPH _SFR_MEM8(0x003E) /* Stack Pointer High */ #define SREG _SFR_MEM8(0x003F) /* Status Register */ /* C Language Only */ #if !defined (__ASSEMBLER__) #include 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 ========================================================================== */ /* -------------------------------------------------------------------------- VPORT - Virtual Ports -------------------------------------------------------------------------- */ /* Virtual Port */ typedef struct VPORT_struct { register8_t DIR; /* I/O Port Data Direction */ register8_t OUT; /* I/O Port Output */ register8_t IN; /* I/O Port Input */ register8_t INTFLAGS; /* Interrupt Flag Register */ } VPORT_t; /* -------------------------------------------------------------------------- XOCD - On-Chip Debug System -------------------------------------------------------------------------- */ /* On-Chip Debug System */ typedef struct OCD_struct { register8_t OCDR0; /* OCD Register 0 */ register8_t OCDR1; /* OCD Register 1 */ } OCD_t; /* -------------------------------------------------------------------------- CPU - CPU -------------------------------------------------------------------------- */ /* CCP signatures */ typedef enum CCP_enum { CCP_SPM_gc = (0x9D<<0), /* SPM Instruction Protection */ CCP_IOREG_gc = (0xD8<<0), /* IO Register Protection */ } CCP_t; /* -------------------------------------------------------------------------- CLK - Clock System -------------------------------------------------------------------------- */ /* Clock System */ typedef struct CLK_struct { register8_t CTRL; /* Control Register */ register8_t PSCTRL; /* Prescaler Control Register */ register8_t LOCK; /* Lock register */ register8_t RTCCTRL; /* RTC Control Register */ register8_t USBCTRL; /* USB Control Register */ } CLK_t; /* Power Reduction */ typedef struct PR_struct { register8_t PRGEN; /* General Power Reduction */ register8_t PRPA; /* Power Reduction Port A */ register8_t PRPB; /* Power Reduction Port B */ register8_t PRPC; /* Power Reduction Port C */ register8_t PRPD; /* Power Reduction Port D */ register8_t PRPE; /* Power Reduction Port E */ register8_t PRPF; /* Power Reduction Port F */ } PR_t; /* System Clock Selection */ typedef enum CLK_SCLKSEL_enum { CLK_SCLKSEL_RC2M_gc = (0x00<<0), /* Internal 2 MHz RC Oscillator */ CLK_SCLKSEL_RC32M_gc = (0x01<<0), /* Internal 32 MHz RC Oscillator */ CLK_SCLKSEL_RC32K_gc = (0x02<<0), /* Internal 32.768 kHz RC Oscillator */ CLK_SCLKSEL_XOSC_gc = (0x03<<0), /* External Crystal Oscillator or Clock */ CLK_SCLKSEL_PLL_gc = (0x04<<0), /* Phase Locked Loop */ } CLK_SCLKSEL_t; /* Prescaler A Division Factor */ typedef enum CLK_PSADIV_enum { CLK_PSADIV_1_gc = (0x00<<2), /* Divide by 1 */ CLK_PSADIV_2_gc = (0x01<<2), /* Divide by 2 */ CLK_PSADIV_4_gc = (0x03<<2), /* Divide by 4 */ CLK_PSADIV_8_gc = (0x05<<2), /* Divide by 8 */ CLK_PSADIV_16_gc = (0x07<<2), /* Divide by 16 */ CLK_PSADIV_32_gc = (0x09<<2), /* Divide by 32 */ CLK_PSADIV_64_gc = (0x0B<<2), /* Divide by 64 */ CLK_PSADIV_128_gc = (0x0D<<2), /* Divide by 128 */ CLK_PSADIV_256_gc = (0x0F<<2), /* Divide by 256 */ CLK_PSADIV_512_gc = (0x11<<2), /* Divide by 512 */ } CLK_PSADIV_t; /* Prescaler B and C Division Factor */ typedef enum CLK_PSBCDIV_enum { CLK_PSBCDIV_1_1_gc = (0x00<<0), /* Divide B by 1 and C by 1 */ CLK_PSBCDIV_1_2_gc = (0x01<<0), /* Divide B by 1 and C by 2 */ CLK_PSBCDIV_4_1_gc = (0x02<<0), /* Divide B by 4 and C by 1 */ CLK_PSBCDIV_2_2_gc = (0x03<<0), /* Divide B by 2 and C by 2 */ } CLK_PSBCDIV_t; /* RTC Clock Source */ typedef enum CLK_RTCSRC_enum { CLK_RTCSRC_ULP_gc = (0x00<<1), /* 1.024 kHz from internal 32kHz ULP */ CLK_RTCSRC_TOSC_gc = (0x01<<1), /* 1.024 kHz from 32.768 kHz crystal oscillator on TOSC */ CLK_RTCSRC_RCOSC_gc = (0x02<<1), /* 1.024 kHz from internal 32.768 kHz RC oscillator */ CLK_RTCSRC_TOSC32_gc = (0x05<<1), /* 32.768 kHz from 32.768 kHz crystal oscillator on TOSC */ CLK_RTCSRC_RCOSC32_gc = (0x06<<1), /* 32.768 kHz from internal 32.768 kHz RC oscillator */ CLK_RTCSRC_EXTCLK_gc = (0x07<<1), /* External Clock from TOSC1 */ } CLK_RTCSRC_t; /* USB Prescaler Division Factor */ typedef enum CLK_USBPSDIV_enum { CLK_USBPSDIV_1_gc = (0x00<<3), /* Divide by 1 */ CLK_USBPSDIV_2_gc = (0x01<<3), /* Divide by 2 */ CLK_USBPSDIV_4_gc = (0x02<<3), /* Divide by 4 */ CLK_USBPSDIV_8_gc = (0x03<<3), /* Divide by 8 */ CLK_USBPSDIV_16_gc = (0x04<<3), /* Divide by 16 */ CLK_USBPSDIV_32_gc = (0x05<<3), /* Divide by 32 */ } CLK_USBPSDIV_t; /* USB Clock Source */ typedef enum CLK_USBSRC_enum { CLK_USBSRC_PLL_gc = (0x00<<1), /* PLL */ CLK_USBSRC_RC32M_gc = (0x01<<1), /* Internal 32 MHz RC Oscillator */ } CLK_USBSRC_t; /* -------------------------------------------------------------------------- SLEEP - Sleep Controller -------------------------------------------------------------------------- */ /* Sleep Controller */ typedef struct SLEEP_struct { register8_t CTRL; /* Control Register */ } SLEEP_t; /* Sleep Mode */ typedef enum SLEEP_SMODE_enum { SLEEP_SMODE_IDLE_gc = (0x00<<1), /* Idle mode */ SLEEP_SMODE_PDOWN_gc = (0x02<<1), /* Power-down Mode */ SLEEP_SMODE_PSAVE_gc = (0x03<<1), /* Power-save Mode */ SLEEP_SMODE_STDBY_gc = (0x06<<1), /* Standby Mode */ SLEEP_SMODE_ESTDBY_gc = (0x07<<1), /* Extended Standby Mode */ } SLEEP_SMODE_t; #define SLEEP_MODE_IDLE (0x00<<1) #define SLEEP_MODE_PWR_DOWN (0x02<<1) #define SLEEP_MODE_PWR_SAVE (0x03<<1) #define SLEEP_MODE_STANDBY (0x06<<1) #define SLEEP_MODE_EXT_STANDBY (0x07<<1) /* -------------------------------------------------------------------------- OSC - Oscillator -------------------------------------------------------------------------- */ /* Oscillator */ typedef struct OSC_struct { register8_t CTRL; /* Control Register */ register8_t STATUS; /* Status Register */ register8_t XOSCCTRL; /* External Oscillator Control Register */ register8_t XOSCFAIL; /* Oscillator Failure Detection Register */ register8_t RC32KCAL; /* 32.768 kHz Internal Oscillator Calibration Register */ register8_t PLLCTRL; /* PLL Control Register */ register8_t DFLLCTRL; /* DFLL Control Register */ } OSC_t; /* Oscillator Frequency Range */ typedef enum OSC_FRQRANGE_enum { OSC_FRQRANGE_04TO2_gc = (0x00<<6), /* 0.4 - 2 MHz */ OSC_FRQRANGE_2TO9_gc = (0x01<<6), /* 2 - 9 MHz */ OSC_FRQRANGE_9TO12_gc = (0x02<<6), /* 9 - 12 MHz */ OSC_FRQRANGE_12TO16_gc = (0x03<<6), /* 12 - 16 MHz */ } OSC_FRQRANGE_t; /* External Oscillator Selection and Startup Time */ typedef enum OSC_XOSCSEL_enum { OSC_XOSCSEL_EXTCLK_gc = (0x00<<0), /* External Clock - 6 CLK */ OSC_XOSCSEL_32KHz_gc = (0x02<<0), /* 32.768 kHz TOSC - 32K CLK */ OSC_XOSCSEL_XTAL_256CLK_gc = (0x03<<0), /* 0.4-16 MHz XTAL - 256 CLK */ OSC_XOSCSEL_XTAL_1KCLK_gc = (0x07<<0), /* 0.4-16 MHz XTAL - 1K CLK */ OSC_XOSCSEL_XTAL_16KCLK_gc = (0x0B<<0), /* 0.4-16 MHz XTAL - 16K CLK */ } OSC_XOSCSEL_t; /* PLL Clock Source */ typedef enum OSC_PLLSRC_enum { OSC_PLLSRC_RC2M_gc = (0x00<<6), /* Internal 2 MHz RC Oscillator */ OSC_PLLSRC_RC32M_gc = (0x02<<6), /* Internal 32 MHz RC Oscillator */ OSC_PLLSRC_XOSC_gc = (0x03<<6), /* External Oscillator */ } OSC_PLLSRC_t; /* 2 MHz DFLL Calibration Reference */ typedef enum OSC_RC2MCREF_enum { OSC_RC2MCREF_RC32K_gc = (0x00<<0), /* Internal 32.768 kHz RC Oscillator */ OSC_RC2MCREF_XOSC32K_gc = (0x01<<0), /* External 32.768 kHz Crystal Oscillator */ } OSC_RC2MCREF_t; /* 32 MHz DFLL Calibration Reference */ typedef enum OSC_RC32MCREF_enum { OSC_RC32MCREF_RC32K_gc = (0x00<<1), /* Internal 32.768 kHz RC Oscillator */ OSC_RC32MCREF_XOSC32K_gc = (0x01<<1), /* External 32.768 kHz Crystal Oscillator */ OSC_RC32MCREF_USBSOF_gc = (0x02<<1), /* USB Start of Frame */ } OSC_RC32MCREF_t; /* -------------------------------------------------------------------------- DFLL - DFLL -------------------------------------------------------------------------- */ /* DFLL */ typedef struct DFLL_struct { register8_t CTRL; /* Control Register */ register8_t reserved_0x01; register8_t CALA; /* Calibration Register A */ register8_t CALB; /* Calibration Register B */ register8_t COMP0; /* Oscillator Compare Register 0 */ register8_t COMP1; /* Oscillator Compare Register 1 */ register8_t COMP2; /* Oscillator Compare Register 2 */ register8_t reserved_0x07; } DFLL_t; /* -------------------------------------------------------------------------- RST - Reset -------------------------------------------------------------------------- */ /* Reset */ typedef struct RST_struct { register8_t STATUS; /* Status Register */ register8_t CTRL; /* Control Register */ } RST_t; /* -------------------------------------------------------------------------- WDT - Watch-Dog Timer -------------------------------------------------------------------------- */ /* Watch-Dog Timer */ typedef struct WDT_struct { register8_t CTRL; /* Control */ register8_t WINCTRL; /* Windowed Mode Control */ register8_t STATUS; /* Status */ } WDT_t; /* Period setting */ typedef enum WDT_PER_enum { WDT_PER_8CLK_gc = (0x00<<2), /* 8 cycles (8ms @ 3.3V) */ WDT_PER_16CLK_gc = (0x01<<2), /* 16 cycles (16ms @ 3.3V) */ WDT_PER_32CLK_gc = (0x02<<2), /* 32 cycles (32ms @ 3.3V) */ WDT_PER_64CLK_gc = (0x03<<2), /* 64 cycles (64ms @ 3.3V) */ WDT_PER_128CLK_gc = (0x04<<2), /* 128 cycles (0.128s @ 3.3V) */ WDT_PER_256CLK_gc = (0x05<<2), /* 256 cycles (0.256s @ 3.3V) */ WDT_PER_512CLK_gc = (0x06<<2), /* 512 cycles (0.512s @ 3.3V) */ WDT_PER_1KCLK_gc = (0x07<<2), /* 1K cycles (1s @ 3.3V) */ WDT_PER_2KCLK_gc = (0x08<<2), /* 2K cycles (2s @ 3.3V) */ WDT_PER_4KCLK_gc = (0x09<<2), /* 4K cycles (4s @ 3.3V) */ WDT_PER_8KCLK_gc = (0x0A<<2), /* 8K cycles (8s @ 3.3V) */ } WDT_PER_t; /* Closed window period */ typedef enum WDT_WPER_enum { WDT_WPER_8CLK_gc = (0x00<<2), /* 8 cycles (8ms @ 3.3V) */ WDT_WPER_16CLK_gc = (0x01<<2), /* 16 cycles (16ms @ 3.3V) */ WDT_WPER_32CLK_gc = (0x02<<2), /* 32 cycles (32ms @ 3.3V) */ WDT_WPER_64CLK_gc = (0x03<<2), /* 64 cycles (64ms @ 3.3V) */ WDT_WPER_128CLK_gc = (0x04<<2), /* 128 cycles (0.128s @ 3.3V) */ WDT_WPER_256CLK_gc = (0x05<<2), /* 256 cycles (0.256s @ 3.3V) */ WDT_WPER_512CLK_gc = (0x06<<2), /* 512 cycles (0.512s @ 3.3V) */ WDT_WPER_1KCLK_gc = (0x07<<2), /* 1K cycles (1s @ 3.3V) */ WDT_WPER_2KCLK_gc = (0x08<<2), /* 2K cycles (2s @ 3.3V) */ WDT_WPER_4KCLK_gc = (0x09<<2), /* 4K cycles (4s @ 3.3V) */ WDT_WPER_8KCLK_gc = (0x0A<<2), /* 8K cycles (8s @ 3.3V) */ } WDT_WPER_t; /* -------------------------------------------------------------------------- MCU - MCU Control -------------------------------------------------------------------------- */ /* MCU Control */ typedef struct MCU_struct { register8_t DEVID0; /* Device ID byte 0 */ register8_t DEVID1; /* Device ID byte 1 */ register8_t DEVID2; /* Device ID byte 2 */ register8_t REVID; /* Revision ID */ register8_t JTAGUID; /* JTAG User ID */ register8_t reserved_0x05; register8_t MCUCR; /* MCU Control */ register8_t ANAINIT; /* Analog Startup Delay */ register8_t EVSYSLOCK; /* Event System Lock */ register8_t AWEXLOCK; /* AWEX Lock */ register8_t reserved_0x0A; register8_t reserved_0x0B; } MCU_t; /* -------------------------------------------------------------------------- PMIC - Programmable Multi-level Interrupt Controller -------------------------------------------------------------------------- */ /* Programmable Multi-level Interrupt Controller */ typedef struct PMIC_struct { register8_t STATUS; /* Status Register */ register8_t INTPRI; /* Interrupt Priority */ register8_t CTRL; /* Control Register */ 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; } PMIC_t; /* -------------------------------------------------------------------------- PORTCFG - Port Configuration -------------------------------------------------------------------------- */ /* I/O port Configuration */ typedef struct PORTCFG_struct { register8_t MPCMASK; /* Multi-pin Configuration Mask */ register8_t reserved_0x01; register8_t VPCTRLA; /* Virtual Port Control Register A */ register8_t VPCTRLB; /* Virtual Port Control Register B */ register8_t CLKEVOUT; /* Clock and Event Out Register */ register8_t EBIOUT; /* EBI Output register */ register8_t EVOUTSEL; /* Event Output Select */ } PORTCFG_t; /* Virtual Port Mapping */ typedef enum PORTCFG_VP02MAP_enum { PORTCFG_VP02MAP_PORTA_gc = (0x00<<0), /* Mapped To PORTA */ PORTCFG_VP02MAP_PORTB_gc = (0x01<<0), /* Mapped To PORTB */ PORTCFG_VP02MAP_PORTC_gc = (0x02<<0), /* Mapped To PORTC */ PORTCFG_VP02MAP_PORTD_gc = (0x03<<0), /* Mapped To PORTD */ PORTCFG_VP02MAP_PORTE_gc = (0x04<<0), /* Mapped To PORTE */ PORTCFG_VP02MAP_PORTF_gc = (0x05<<0), /* Mapped To PORTF */ PORTCFG_VP02MAP_PORTG_gc = (0x06<<0), /* Mapped To PORTG */ PORTCFG_VP02MAP_PORTH_gc = (0x07<<0), /* Mapped To PORTH */ PORTCFG_VP02MAP_PORTJ_gc = (0x08<<0), /* Mapped To PORTJ */ PORTCFG_VP02MAP_PORTK_gc = (0x09<<0), /* Mapped To PORTK */ PORTCFG_VP02MAP_PORTL_gc = (0x0A<<0), /* Mapped To PORTL */ PORTCFG_VP02MAP_PORTM_gc = (0x0B<<0), /* Mapped To PORTM */ PORTCFG_VP02MAP_PORTN_gc = (0x0C<<0), /* Mapped To PORTN */ PORTCFG_VP02MAP_PORTP_gc = (0x0D<<0), /* Mapped To PORTP */ PORTCFG_VP02MAP_PORTQ_gc = (0x0E<<0), /* Mapped To PORTQ */ PORTCFG_VP02MAP_PORTR_gc = (0x0F<<0), /* Mapped To PORTR */ } PORTCFG_VP02MAP_t; /* Virtual Port Mapping */ typedef enum PORTCFG_VP13MAP_enum { PORTCFG_VP13MAP_PORTA_gc = (0x00<<4), /* Mapped To PORTA */ PORTCFG_VP13MAP_PORTB_gc = (0x01<<4), /* Mapped To PORTB */ PORTCFG_VP13MAP_PORTC_gc = (0x02<<4), /* Mapped To PORTC */ PORTCFG_VP13MAP_PORTD_gc = (0x03<<4), /* Mapped To PORTD */ PORTCFG_VP13MAP_PORTE_gc = (0x04<<4), /* Mapped To PORTE */ PORTCFG_VP13MAP_PORTF_gc = (0x05<<4), /* Mapped To PORTF */ PORTCFG_VP13MAP_PORTG_gc = (0x06<<4), /* Mapped To PORTG */ PORTCFG_VP13MAP_PORTH_gc = (0x07<<4), /* Mapped To PORTH */ PORTCFG_VP13MAP_PORTJ_gc = (0x08<<4), /* Mapped To PORTJ */ PORTCFG_VP13MAP_PORTK_gc = (0x09<<4), /* Mapped To PORTK */ PORTCFG_VP13MAP_PORTL_gc = (0x0A<<4), /* Mapped To PORTL */ PORTCFG_VP13MAP_PORTM_gc = (0x0B<<4), /* Mapped To PORTM */ PORTCFG_VP13MAP_PORTN_gc = (0x0C<<4), /* Mapped To PORTN */ PORTCFG_VP13MAP_PORTP_gc = (0x0D<<4), /* Mapped To PORTP */ PORTCFG_VP13MAP_PORTQ_gc = (0x0E<<4), /* Mapped To PORTQ */ PORTCFG_VP13MAP_PORTR_gc = (0x0F<<4), /* Mapped To PORTR */ } PORTCFG_VP13MAP_t; /* System Clock Output Port */ typedef enum PORTCFG_CLKOUT_enum { PORTCFG_CLKOUT_OFF_gc = (0x00<<0), /* System Clock Output Disabled */ PORTCFG_CLKOUT_PC7_gc = (0x01<<0), /* System Clock Output on Port C pin 7 */ PORTCFG_CLKOUT_PD7_gc = (0x02<<0), /* System Clock Output on Port D pin 7 */ PORTCFG_CLKOUT_PE7_gc = (0x03<<0), /* System Clock Output on Port E pin 7 */ } PORTCFG_CLKOUT_t; /* Peripheral Clock Output Select */ typedef enum PORTCFG_CLKOUTSEL_enum { PORTCFG_CLKOUTSEL_CLK1X_gc = (0x00<<2), /* 1x Peripheral Clock Output to pin */ PORTCFG_CLKOUTSEL_CLK2X_gc = (0x01<<2), /* 2x Peripheral Clock Output to pin */ PORTCFG_CLKOUTSEL_CLK4X_gc = (0x02<<2), /* 4x Peripheral Clock Output to pin */ } PORTCFG_CLKOUTSEL_t; /* Event Output Port */ typedef enum PORTCFG_EVOUT_enum { PORTCFG_EVOUT_OFF_gc = (0x00<<4), /* Event Output Disabled */ PORTCFG_EVOUT_PC7_gc = (0x01<<4), /* Event Channel 7 Output on Port C pin 7 */ PORTCFG_EVOUT_PD7_gc = (0x02<<4), /* Event Channel 7 Output on Port D pin 7 */ PORTCFG_EVOUT_PE7_gc = (0x03<<4), /* Event Channel 7 Output on Port E pin 7 */ } PORTCFG_EVOUT_t; /* Clock and Event Output Port */ typedef enum PORTCFG_CLKEVPIN_enum { PORTCFG_CLKEVPIN_PIN7_gc = (0x00<<7), /* Clock and Event Ouput on PIN 7 */ PORTCFG_CLKEVPIN_PIN4_gc = (0x01<<7), /* Clock and Event Ouput on PIN 4 */ } PORTCFG_CLKEVPIN_t; /* EBI Address Output Port */ typedef enum PORTCFG_EBIADROUT_enum { PORTCFG_EBIADROUT_PF_gc = (0x00<<2), /* EBI port 3 address output on PORTF pins 0 to 7 */ PORTCFG_EBIADROUT_PE_gc = (0x01<<2), /* EBI port 3 address output on PORTE pins 0 to 7 */ PORTCFG_EBIADROUT_PFH_gc = (0x02<<2), /* EBI port 3 address output on PORTF pins 4 to 7 */ PORTCFG_EBIADROUT_PEH_gc = (0x03<<2), /* EBI port 3 address output on PORTE pins 4 to 7 */ } PORTCFG_EBIADROUT_t; /* EBI Chip Select Output Port */ typedef enum PORTCFG_EBICSOUT_enum { PORTCFG_EBICSOUT_PH_gc = (0x00<<0), /* EBI chip select output to PORTH pin 4 to 7 */ PORTCFG_EBICSOUT_PL_gc = (0x01<<0), /* EBI chip select output to PORTL pin 4 to 7 */ PORTCFG_EBICSOUT_PF_gc = (0x02<<0), /* EBI chip select output to PORTF pin 4 to 7 */ PORTCFG_EBICSOUT_PE_gc = (0x03<<0), /* EBI chip select output to PORTE pin 4 to 7 */ } PORTCFG_EBICSOUT_t; /* Event Output Select */ typedef enum PORTCFG_EVOUTSEL_enum { PORTCFG_EVOUTSEL_0_gc = (0x00<<0), /* Event Channel 0 output to pin */ PORTCFG_EVOUTSEL_1_gc = (0x01<<0), /* Event Channel 1 output to pin */ PORTCFG_EVOUTSEL_2_gc = (0x02<<0), /* Event Channel 2 output to pin */ PORTCFG_EVOUTSEL_3_gc = (0x03<<0), /* Event Channel 3 output to pin */ PORTCFG_EVOUTSEL_4_gc = (0x04<<0), /* Event Channel 4 output to pin */ PORTCFG_EVOUTSEL_5_gc = (0x05<<0), /* Event Channel 5 output to pin */ PORTCFG_EVOUTSEL_6_gc = (0x06<<0), /* Event Channel 6 output to pin */ PORTCFG_EVOUTSEL_7_gc = (0x07<<0), /* Event Channel 7 output to pin */ } PORTCFG_EVOUTSEL_t; /* -------------------------------------------------------------------------- AES - AES Module -------------------------------------------------------------------------- */ /* AES Module */ typedef struct AES_struct { register8_t CTRL; /* AES Control Register */ register8_t STATUS; /* AES Status Register */ register8_t STATE; /* AES State Register */ register8_t KEY; /* AES Key Register */ register8_t INTCTRL; /* AES Interrupt Control Register */ } AES_t; /* Interrupt level */ typedef enum AES_INTLVL_enum { AES_INTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ AES_INTLVL_LO_gc = (0x01<<0), /* Low Level */ AES_INTLVL_MED_gc = (0x02<<0), /* Medium Level */ AES_INTLVL_HI_gc = (0x03<<0), /* High Level */ } AES_INTLVL_t; /* -------------------------------------------------------------------------- CRC - Cyclic Redundancy Checker -------------------------------------------------------------------------- */ /* Cyclic Redundancy Checker */ typedef struct CRC_struct { register8_t CTRL; /* Control Register */ register8_t STATUS; /* Status Register */ register8_t reserved_0x02; register8_t DATAIN; /* Data Input */ register8_t CHECKSUM0; /* Checksum byte 0 */ register8_t CHECKSUM1; /* Checksum byte 1 */ register8_t CHECKSUM2; /* Checksum byte 2 */ register8_t CHECKSUM3; /* Checksum byte 3 */ } CRC_t; /* Reset */ typedef enum CRC_RESET_enum { CRC_RESET_NO_gc = (0x00<<6), /* No Reset */ CRC_RESET_RESET0_gc = (0x02<<6), /* Reset CRC with CHECKSUM to all zeros */ CRC_RESET_RESET1_gc = (0x03<<6), /* Reset CRC with CHECKSUM to all ones */ } CRC_RESET_t; /* Input Source */ typedef enum CRC_SOURCE_enum { CRC_SOURCE_DISABLE_gc = (0x00<<0), /* Disabled */ CRC_SOURCE_IO_gc = (0x01<<0), /* I/O Interface */ CRC_SOURCE_FLASH_gc = (0x02<<0), /* Flash */ CRC_SOURCE_DMAC0_gc = (0x04<<0), /* DMAC Channel 0 */ CRC_SOURCE_DMAC1_gc = (0x05<<0), /* DMAC Channel 1 */ CRC_SOURCE_DMAC2_gc = (0x06<<0), /* DMAC Channel 2 */ CRC_SOURCE_DMAC3_gc = (0x07<<0), /* DMAC Channel 3 */ } CRC_SOURCE_t; /* -------------------------------------------------------------------------- DMA - DMA Controller -------------------------------------------------------------------------- */ /* DMA Channel */ typedef struct DMA_CH_struct { register8_t CTRLA; /* Channel Control */ register8_t CTRLB; /* Channel Control */ register8_t ADDRCTRL; /* Address Control */ register8_t TRIGSRC; /* Channel Trigger Source */ _WORDREGISTER(TRFCNT); /* Channel Block Transfer Count */ register8_t REPCNT; /* Channel Repeat Count */ register8_t reserved_0x07; register8_t SRCADDR0; /* Channel Source Address 0 */ register8_t SRCADDR1; /* Channel Source Address 1 */ register8_t SRCADDR2; /* Channel Source Address 2 */ register8_t reserved_0x0B; register8_t DESTADDR0; /* Channel Destination Address 0 */ register8_t DESTADDR1; /* Channel Destination Address 1 */ register8_t DESTADDR2; /* Channel Destination Address 2 */ register8_t reserved_0x0F; } DMA_CH_t; /* DMA Controller */ typedef struct DMA_struct { register8_t CTRL; /* Control */ register8_t reserved_0x01; register8_t reserved_0x02; register8_t INTFLAGS; /* Transfer Interrupt Status */ register8_t STATUS; /* Status */ register8_t reserved_0x05; _WORDREGISTER(TEMP); /* Temporary Register For 16/24-bit Access */ 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; DMA_CH_t CH0; /* DMA Channel 0 */ DMA_CH_t CH1; /* DMA Channel 1 */ DMA_CH_t CH2; /* DMA Channel 2 */ DMA_CH_t CH3; /* DMA Channel 3 */ } DMA_t; /* Burst mode */ typedef enum DMA_CH_BURSTLEN_enum { DMA_CH_BURSTLEN_1BYTE_gc = (0x00<<0), /* 1-byte burst mode */ DMA_CH_BURSTLEN_2BYTE_gc = (0x01<<0), /* 2-byte burst mode */ DMA_CH_BURSTLEN_4BYTE_gc = (0x02<<0), /* 4-byte burst mode */ DMA_CH_BURSTLEN_8BYTE_gc = (0x03<<0), /* 8-byte burst mode */ } DMA_CH_BURSTLEN_t; /* Source address reload mode */ typedef enum DMA_CH_SRCRELOAD_enum { DMA_CH_SRCRELOAD_NONE_gc = (0x00<<6), /* No reload */ DMA_CH_SRCRELOAD_BLOCK_gc = (0x01<<6), /* Reload at end of block */ DMA_CH_SRCRELOAD_BURST_gc = (0x02<<6), /* Reload at end of burst */ DMA_CH_SRCRELOAD_TRANSACTION_gc = (0x03<<6), /* Reload at end of transaction */ } DMA_CH_SRCRELOAD_t; /* Source addressing mode */ typedef enum DMA_CH_SRCDIR_enum { DMA_CH_SRCDIR_FIXED_gc = (0x00<<4), /* Fixed */ DMA_CH_SRCDIR_INC_gc = (0x01<<4), /* Increment */ DMA_CH_SRCDIR_DEC_gc = (0x02<<4), /* Decrement */ } DMA_CH_SRCDIR_t; /* Destination adress reload mode */ typedef enum DMA_CH_DESTRELOAD_enum { DMA_CH_DESTRELOAD_NONE_gc = (0x00<<2), /* No reload */ DMA_CH_DESTRELOAD_BLOCK_gc = (0x01<<2), /* Reload at end of block */ DMA_CH_DESTRELOAD_BURST_gc = (0x02<<2), /* Reload at end of burst */ DMA_CH_DESTRELOAD_TRANSACTION_gc = (0x03<<2), /* Reload at end of transaction */ } DMA_CH_DESTRELOAD_t; /* Destination adressing mode */ typedef enum DMA_CH_DESTDIR_enum { DMA_CH_DESTDIR_FIXED_gc = (0x00<<0), /* Fixed */ DMA_CH_DESTDIR_INC_gc = (0x01<<0), /* Increment */ DMA_CH_DESTDIR_DEC_gc = (0x02<<0), /* Decrement */ } DMA_CH_DESTDIR_t; /* Transfer trigger source */ typedef enum DMA_CH_TRIGSRC_enum { DMA_CH_TRIGSRC_OFF_gc = (0x00<<0), /* Off software triggers only */ DMA_CH_TRIGSRC_EVSYS_CH0_gc = (0x01<<0), /* Event System Channel 0 */ DMA_CH_TRIGSRC_EVSYS_CH1_gc = (0x02<<0), /* Event System Channel 1 */ DMA_CH_TRIGSRC_EVSYS_CH2_gc = (0x03<<0), /* Event System Channel 2 */ DMA_CH_TRIGSRC_ADCA_CH0_gc = (0x10<<0), /* ADCA Channel 0 */ DMA_CH_TRIGSRC_ADCA_CH1_gc = (0x11<<0), /* ADCA Channel 1 */ DMA_CH_TRIGSRC_ADCA_CH2_gc = (0x12<<0), /* ADCA Channel 2 */ DMA_CH_TRIGSRC_ADCA_CH3_gc = (0x13<<0), /* ADCA Channel 3 */ DMA_CH_TRIGSRC_ADCA_CH4_gc = (0x14<<0), /* ADCA Channel 0,1,2,3 combined */ DMA_CH_TRIGSRC_DACA_CH0_gc = (0x15<<0), /* DACA Channel 0 */ DMA_CH_TRIGSRC_DACA_CH1_gc = (0x16<<0), /* DACA Channel 1 */ DMA_CH_TRIGSRC_ADCB_CH0_gc = (0x20<<0), /* ADCB Channel 0 */ DMA_CH_TRIGSRC_ADCB_CH1_gc = (0x21<<0), /* ADCB Channel 1 */ DMA_CH_TRIGSRC_ADCB_CH2_gc = (0x22<<0), /* ADCB Channel 2 */ DMA_CH_TRIGSRC_ADCB_CH3_gc = (0x23<<0), /* ADCB Channel 3 */ DMA_CH_TRIGSRC_ADCB_CH4_gc = (0x24<<0), /* ADCB Channel 0,1,2,3 combined */ DMA_CH_TRIGSRC_DACB_CH0_gc = (0x25<<0), /* DACB Channel 0 */ DMA_CH_TRIGSRC_DACB_CH1_gc = (0x26<<0), /* DACB Channel 1 */ DMA_CH_TRIGSRC_TCC0_OVF_gc = (0x40<<0), /* Timer/Counter C0 Overflow */ DMA_CH_TRIGSRC_TCC0_ERR_gc = (0x41<<0), /* Timer/Counter C0 Error */ DMA_CH_TRIGSRC_TCC0_CCA_gc = (0x42<<0), /* Timer/Counter C0 Compare or Capture A */ DMA_CH_TRIGSRC_TCC0_CCB_gc = (0x43<<0), /* Timer/Counter C0 Compare or Capture B */ DMA_CH_TRIGSRC_TCC0_CCC_gc = (0x44<<0), /* Timer/Counter C0 Compare or Capture C */ DMA_CH_TRIGSRC_TCC0_CCD_gc = (0x45<<0), /* Timer/Counter C0 Compare or Capture D */ DMA_CH_TRIGSRC_TCC1_OVF_gc = (0x46<<0), /* Timer/Counter C1 Overflow */ DMA_CH_TRIGSRC_TCC1_ERR_gc = (0x47<<0), /* Timer/Counter C1 Error */ DMA_CH_TRIGSRC_TCC1_CCA_gc = (0x48<<0), /* Timer/Counter C1 Compare or Capture A */ DMA_CH_TRIGSRC_TCC1_CCB_gc = (0x49<<0), /* Timer/Counter C1 Compare or Capture B */ DMA_CH_TRIGSRC_SPIC_gc = (0x4A<<0), /* SPI C Transfer Complete */ DMA_CH_TRIGSRC_USARTC0_RXC_gc = (0x4B<<0), /* USART C0 Receive Complete */ DMA_CH_TRIGSRC_USARTC0_DRE_gc = (0x4C<<0), /* USART C0 Data Register Empty */ DMA_CH_TRIGSRC_USARTC1_RXC_gc = (0x4E<<0), /* USART C1 Receive Complete */ DMA_CH_TRIGSRC_USARTC1_DRE_gc = (0x4F<<0), /* USART C1 Data Register Empty */ DMA_CH_TRIGSRC_TCD0_OVF_gc = (0x60<<0), /* Timer/Counter D0 Overflow */ DMA_CH_TRIGSRC_TCD0_ERR_gc = (0x61<<0), /* Timer/Counter D0 Error */ DMA_CH_TRIGSRC_TCD0_CCA_gc = (0x62<<0), /* Timer/Counter D0 Compare or Capture A */ DMA_CH_TRIGSRC_TCD0_CCB_gc = (0x63<<0), /* Timer/Counter D0 Compare or Capture B */ DMA_CH_TRIGSRC_TCD0_CCC_gc = (0x64<<0), /* Timer/Counter D0 Compare or Capture C */ DMA_CH_TRIGSRC_TCD0_CCD_gc = (0x65<<0), /* Timer/Counter D0 Compare or Capture D */ DMA_CH_TRIGSRC_TCD1_OVF_gc = (0x66<<0), /* Timer/Counter D1 Overflow */ DMA_CH_TRIGSRC_TCD1_ERR_gc = (0x67<<0), /* Timer/Counter D1 Error */ DMA_CH_TRIGSRC_TCD1_CCA_gc = (0x68<<0), /* Timer/Counter D1 Compare or Capture A */ DMA_CH_TRIGSRC_TCD1_CCB_gc = (0x69<<0), /* Timer/Counter D1 Compare or Capture B */ DMA_CH_TRIGSRC_SPID_gc = (0x6A<<0), /* SPI D Transfer Complete */ DMA_CH_TRIGSRC_USARTD0_RXC_gc = (0x6B<<0), /* USART D0 Receive Complete */ DMA_CH_TRIGSRC_USARTD0_DRE_gc = (0x6C<<0), /* USART D0 Data Register Empty */ DMA_CH_TRIGSRC_USARTD1_RXC_gc = (0x6E<<0), /* USART D1 Receive Complete */ DMA_CH_TRIGSRC_USARTD1_DRE_gc = (0x6F<<0), /* USART D1 Data Register Empty */ DMA_CH_TRIGSRC_TCE0_OVF_gc = (0x80<<0), /* Timer/Counter E0 Overflow */ DMA_CH_TRIGSRC_TCE0_ERR_gc = (0x81<<0), /* Timer/Counter E0 Error */ DMA_CH_TRIGSRC_TCE0_CCA_gc = (0x82<<0), /* Timer/Counter E0 Compare or Capture A */ DMA_CH_TRIGSRC_TCE0_CCB_gc = (0x83<<0), /* Timer/Counter E0 Compare or Capture B */ DMA_CH_TRIGSRC_TCE0_CCC_gc = (0x84<<0), /* Timer/Counter E0 Compare or Capture C */ DMA_CH_TRIGSRC_TCE0_CCD_gc = (0x85<<0), /* Timer/Counter E0 Compare or Capture D */ DMA_CH_TRIGSRC_TCE1_OVF_gc = (0x86<<0), /* Timer/Counter E1 Overflow */ DMA_CH_TRIGSRC_TCE1_ERR_gc = (0x87<<0), /* Timer/Counter E1 Error */ DMA_CH_TRIGSRC_TCE1_CCA_gc = (0x88<<0), /* Timer/Counter E1 Compare or Capture A */ DMA_CH_TRIGSRC_TCE1_CCB_gc = (0x89<<0), /* Timer/Counter E1 Compare or Capture B */ DMA_CH_TRIGSRC_SPIE_gc = (0x8A<<0), /* SPI E Transfer Complete */ DMA_CH_TRIGSRC_USARTE0_RXC_gc = (0x8B<<0), /* USART E0 Receive Complete */ DMA_CH_TRIGSRC_USARTE0_DRE_gc = (0x8C<<0), /* USART E0 Data Register Empty */ DMA_CH_TRIGSRC_USARTE1_RXC_gc = (0x8E<<0), /* USART E1 Receive Complete */ DMA_CH_TRIGSRC_USARTE1_DRE_gc = (0x8F<<0), /* USART E1 Data Register Empty */ DMA_CH_TRIGSRC_TCF0_OVF_gc = (0xA0<<0), /* Timer/Counter F0 Overflow */ DMA_CH_TRIGSRC_TCF0_ERR_gc = (0xA1<<0), /* Timer/Counter F0 Error */ DMA_CH_TRIGSRC_TCF0_CCA_gc = (0xA2<<0), /* Timer/Counter F0 Compare or Capture A */ DMA_CH_TRIGSRC_TCF0_CCB_gc = (0xA3<<0), /* Timer/Counter F0 Compare or Capture B */ DMA_CH_TRIGSRC_TCF0_CCC_gc = (0xA4<<0), /* Timer/Counter F0 Compare or Capture C */ DMA_CH_TRIGSRC_TCF0_CCD_gc = (0xA5<<0), /* Timer/Counter F0 Compare or Capture D */ DMA_CH_TRIGSRC_TCF1_OVF_gc = (0xA6<<0), /* Timer/Counter F1 Overflow */ DMA_CH_TRIGSRC_TCF1_ERR_gc = (0xA7<<0), /* Timer/Counter F1 Error */ DMA_CH_TRIGSRC_TCF1_CCA_gc = (0xA8<<0), /* Timer/Counter F1 Compare or Capture A */ DMA_CH_TRIGSRC_TCF1_CCB_gc = (0xA9<<0), /* Timer/Counter F1 Compare or Capture B */ DMA_CH_TRIGSRC_SPIF_gc = (0xAA<<0), /* SPI F Transfer Complete */ DMA_CH_TRIGSRC_USARTF0_RXC_gc = (0xAB<<0), /* USART F0 Receive Complete */ DMA_CH_TRIGSRC_USARTF0_DRE_gc = (0xAC<<0), /* USART F0 Data Register Empty */ DMA_CH_TRIGSRC_USARTF1_RXC_gc = (0xAE<<0), /* USART F1 Receive Complete */ DMA_CH_TRIGSRC_USARTF1_DRE_gc = (0xAF<<0), /* USART F1 Data Register Empty */ } DMA_CH_TRIGSRC_t; /* Double buffering mode */ typedef enum DMA_DBUFMODE_enum { DMA_DBUFMODE_DISABLED_gc = (0x00<<2), /* Double buffering disabled */ DMA_DBUFMODE_CH01_gc = (0x01<<2), /* Double buffering enabled on channel 0/1 */ DMA_DBUFMODE_CH23_gc = (0x02<<2), /* Double buffering enabled on channel 2/3 */ DMA_DBUFMODE_CH01CH23_gc = (0x03<<2), /* Double buffering enabled on ch. 0/1 and ch. 2/3 */ } DMA_DBUFMODE_t; /* Priority mode */ typedef enum DMA_PRIMODE_enum { DMA_PRIMODE_RR0123_gc = (0x00<<0), /* Round Robin */ DMA_PRIMODE_CH0RR123_gc = (0x01<<0), /* Channel 0 > Round Robin on channel 1/2/3 */ DMA_PRIMODE_CH01RR23_gc = (0x02<<0), /* Channel 0 > channel 1 > Round Robin on channel 2/3 */ DMA_PRIMODE_CH0123_gc = (0x03<<0), /* Channel 0 > channel 1 > channel 2 > channel 3 */ } DMA_PRIMODE_t; /* Interrupt level */ typedef enum DMA_CH_ERRINTLVL_enum { DMA_CH_ERRINTLVL_OFF_gc = (0x00<<2), /* Interrupt disabled */ DMA_CH_ERRINTLVL_LO_gc = (0x01<<2), /* Low level */ DMA_CH_ERRINTLVL_MED_gc = (0x02<<2), /* Medium level */ DMA_CH_ERRINTLVL_HI_gc = (0x03<<2), /* High level */ } DMA_CH_ERRINTLVL_t; /* Interrupt level */ typedef enum DMA_CH_TRNINTLVL_enum { DMA_CH_TRNINTLVL_OFF_gc = (0x00<<0), /* Interrupt disabled */ DMA_CH_TRNINTLVL_LO_gc = (0x01<<0), /* Low level */ DMA_CH_TRNINTLVL_MED_gc = (0x02<<0), /* Medium level */ DMA_CH_TRNINTLVL_HI_gc = (0x03<<0), /* High level */ } DMA_CH_TRNINTLVL_t; /* -------------------------------------------------------------------------- EVSYS - Event System -------------------------------------------------------------------------- */ /* Event System */ typedef struct EVSYS_struct { register8_t CH0MUX; /* Event Channel 0 Multiplexer */ register8_t CH1MUX; /* Event Channel 1 Multiplexer */ register8_t CH2MUX; /* Event Channel 2 Multiplexer */ register8_t CH3MUX; /* Event Channel 3 Multiplexer */ register8_t CH4MUX; /* Event Channel 4 Multiplexer */ register8_t CH5MUX; /* Event Channel 5 Multiplexer */ register8_t CH6MUX; /* Event Channel 6 Multiplexer */ register8_t CH7MUX; /* Event Channel 7 Multiplexer */ register8_t CH0CTRL; /* Channel 0 Control Register */ register8_t CH1CTRL; /* Channel 1 Control Register */ register8_t CH2CTRL; /* Channel 2 Control Register */ register8_t CH3CTRL; /* Channel 3 Control Register */ register8_t CH4CTRL; /* Channel 4 Control Register */ register8_t CH5CTRL; /* Channel 5 Control Register */ register8_t CH6CTRL; /* Channel 6 Control Register */ register8_t CH7CTRL; /* Channel 7 Control Register */ register8_t STROBE; /* Event Strobe */ register8_t DATA; /* Event Data */ } EVSYS_t; /* Quadrature Decoder Index Recognition Mode */ typedef enum EVSYS_QDIRM_enum { EVSYS_QDIRM_00_gc = (0x00<<5), /* QDPH0 = 0, QDPH90 = 0 */ EVSYS_QDIRM_01_gc = (0x01<<5), /* QDPH0 = 0, QDPH90 = 1 */ EVSYS_QDIRM_10_gc = (0x02<<5), /* QDPH0 = 1, QDPH90 = 0 */ EVSYS_QDIRM_11_gc = (0x03<<5), /* QDPH0 = 1, QDPH90 = 1 */ } EVSYS_QDIRM_t; /* Digital filter coefficient */ typedef enum EVSYS_DIGFILT_enum { EVSYS_DIGFILT_1SAMPLE_gc = (0x00<<0), /* 1 SAMPLE */ EVSYS_DIGFILT_2SAMPLES_gc = (0x01<<0), /* 2 SAMPLES */ EVSYS_DIGFILT_3SAMPLES_gc = (0x02<<0), /* 3 SAMPLES */ EVSYS_DIGFILT_4SAMPLES_gc = (0x03<<0), /* 4 SAMPLES */ EVSYS_DIGFILT_5SAMPLES_gc = (0x04<<0), /* 5 SAMPLES */ EVSYS_DIGFILT_6SAMPLES_gc = (0x05<<0), /* 6 SAMPLES */ EVSYS_DIGFILT_7SAMPLES_gc = (0x06<<0), /* 7 SAMPLES */ EVSYS_DIGFILT_8SAMPLES_gc = (0x07<<0), /* 8 SAMPLES */ } EVSYS_DIGFILT_t; /* Event Channel multiplexer input selection */ typedef enum EVSYS_CHMUX_enum { EVSYS_CHMUX_OFF_gc = (0x00<<0), /* Off */ EVSYS_CHMUX_RTC_OVF_gc = (0x08<<0), /* RTC Overflow */ EVSYS_CHMUX_RTC_CMP_gc = (0x09<<0), /* RTC Compare Match */ EVSYS_CHMUX_USB_gc = (0x0A<<0), /* USB Setup, SOF, CRC error and UNF/OVF */ EVSYS_CHMUX_ACA_CH0_gc = (0x10<<0), /* Analog Comparator A Channel 0 */ EVSYS_CHMUX_ACA_CH1_gc = (0x11<<0), /* Analog Comparator A Channel 1 */ EVSYS_CHMUX_ACA_WIN_gc = (0x12<<0), /* Analog Comparator A Window */ EVSYS_CHMUX_ACB_CH0_gc = (0x13<<0), /* Analog Comparator B Channel 0 */ EVSYS_CHMUX_ACB_CH1_gc = (0x14<<0), /* Analog Comparator B Channel 1 */ EVSYS_CHMUX_ACB_WIN_gc = (0x15<<0), /* Analog Comparator B Window */ EVSYS_CHMUX_ADCA_CH0_gc = (0x20<<0), /* ADC A Channel 0 */ EVSYS_CHMUX_ADCA_CH1_gc = (0x21<<0), /* ADC A Channel 1 */ EVSYS_CHMUX_ADCA_CH2_gc = (0x22<<0), /* ADC A Channel 2 */ EVSYS_CHMUX_ADCA_CH3_gc = (0x23<<0), /* ADC A Channel 3 */ EVSYS_CHMUX_ADCB_CH0_gc = (0x24<<0), /* ADC B Channel 0 */ EVSYS_CHMUX_ADCB_CH1_gc = (0x25<<0), /* ADC B Channel 1 */ EVSYS_CHMUX_ADCB_CH2_gc = (0x26<<0), /* ADC B Channel 2 */ EVSYS_CHMUX_ADCB_CH3_gc = (0x27<<0), /* ADC B Channel 3 */ EVSYS_CHMUX_PORTA_PIN0_gc = (0x50<<0), /* Port A, Pin0 */ EVSYS_CHMUX_PORTA_PIN1_gc = (0x51<<0), /* Port A, Pin1 */ EVSYS_CHMUX_PORTA_PIN2_gc = (0x52<<0), /* Port A, Pin2 */ EVSYS_CHMUX_PORTA_PIN3_gc = (0x53<<0), /* Port A, Pin3 */ EVSYS_CHMUX_PORTA_PIN4_gc = (0x54<<0), /* Port A, Pin4 */ EVSYS_CHMUX_PORTA_PIN5_gc = (0x55<<0), /* Port A, Pin5 */ EVSYS_CHMUX_PORTA_PIN6_gc = (0x56<<0), /* Port A, Pin6 */ EVSYS_CHMUX_PORTA_PIN7_gc = (0x57<<0), /* Port A, Pin7 */ EVSYS_CHMUX_PORTB_PIN0_gc = (0x58<<0), /* Port B, Pin0 */ EVSYS_CHMUX_PORTB_PIN1_gc = (0x59<<0), /* Port B, Pin1 */ EVSYS_CHMUX_PORTB_PIN2_gc = (0x5A<<0), /* Port B, Pin2 */ EVSYS_CHMUX_PORTB_PIN3_gc = (0x5B<<0), /* Port B, Pin3 */ EVSYS_CHMUX_PORTB_PIN4_gc = (0x5C<<0), /* Port B, Pin4 */ EVSYS_CHMUX_PORTB_PIN5_gc = (0x5D<<0), /* Port B, Pin5 */ EVSYS_CHMUX_PORTB_PIN6_gc = (0x5E<<0), /* Port B, Pin6 */ EVSYS_CHMUX_PORTB_PIN7_gc = (0x5F<<0), /* Port B, Pin7 */ EVSYS_CHMUX_PORTC_PIN0_gc = (0x60<<0), /* Port C, Pin0 */ EVSYS_CHMUX_PORTC_PIN1_gc = (0x61<<0), /* Port C, Pin1 */ EVSYS_CHMUX_PORTC_PIN2_gc = (0x62<<0), /* Port C, Pin2 */ EVSYS_CHMUX_PORTC_PIN3_gc = (0x63<<0), /* Port C, Pin3 */ EVSYS_CHMUX_PORTC_PIN4_gc = (0x64<<0), /* Port C, Pin4 */ EVSYS_CHMUX_PORTC_PIN5_gc = (0x65<<0), /* Port C, Pin5 */ EVSYS_CHMUX_PORTC_PIN6_gc = (0x66<<0), /* Port C, Pin6 */ EVSYS_CHMUX_PORTC_PIN7_gc = (0x67<<0), /* Port C, Pin7 */ EVSYS_CHMUX_PORTD_PIN0_gc = (0x68<<0), /* Port D, Pin0 */ EVSYS_CHMUX_PORTD_PIN1_gc = (0x69<<0), /* Port D, Pin1 */ EVSYS_CHMUX_PORTD_PIN2_gc = (0x6A<<0), /* Port D, Pin2 */ EVSYS_CHMUX_PORTD_PIN3_gc = (0x6B<<0), /* Port D, Pin3 */ EVSYS_CHMUX_PORTD_PIN4_gc = (0x6C<<0), /* Port D, Pin4 */ EVSYS_CHMUX_PORTD_PIN5_gc = (0x6D<<0), /* Port D, Pin5 */ EVSYS_CHMUX_PORTD_PIN6_gc = (0x6E<<0), /* Port D, Pin6 */ EVSYS_CHMUX_PORTD_PIN7_gc = (0x6F<<0), /* Port D, Pin7 */ EVSYS_CHMUX_PORTE_PIN0_gc = (0x70<<0), /* Port E, Pin0 */ EVSYS_CHMUX_PORTE_PIN1_gc = (0x71<<0), /* Port E, Pin1 */ EVSYS_CHMUX_PORTE_PIN2_gc = (0x72<<0), /* Port E, Pin2 */ EVSYS_CHMUX_PORTE_PIN3_gc = (0x73<<0), /* Port E, Pin3 */ EVSYS_CHMUX_PORTE_PIN4_gc = (0x74<<0), /* Port E, Pin4 */ EVSYS_CHMUX_PORTE_PIN5_gc = (0x75<<0), /* Port E, Pin5 */ EVSYS_CHMUX_PORTE_PIN6_gc = (0x76<<0), /* Port E, Pin6 */ EVSYS_CHMUX_PORTE_PIN7_gc = (0x77<<0), /* Port E, Pin7 */ EVSYS_CHMUX_PORTF_PIN0_gc = (0x78<<0), /* Port F, Pin0 */ EVSYS_CHMUX_PORTF_PIN1_gc = (0x79<<0), /* Port F, Pin1 */ EVSYS_CHMUX_PORTF_PIN2_gc = (0x7A<<0), /* Port F, Pin2 */ EVSYS_CHMUX_PORTF_PIN3_gc = (0x7B<<0), /* Port F, Pin3 */ EVSYS_CHMUX_PORTF_PIN4_gc = (0x7C<<0), /* Port F, Pin4 */ EVSYS_CHMUX_PORTF_PIN5_gc = (0x7D<<0), /* Port F, Pin5 */ EVSYS_CHMUX_PORTF_PIN6_gc = (0x7E<<0), /* Port F, Pin6 */ EVSYS_CHMUX_PORTF_PIN7_gc = (0x7F<<0), /* Port F, Pin7 */ EVSYS_CHMUX_PRESCALER_1_gc = (0x80<<0), /* Prescaler, divide by 1 */ EVSYS_CHMUX_PRESCALER_2_gc = (0x81<<0), /* Prescaler, divide by 2 */ EVSYS_CHMUX_PRESCALER_4_gc = (0x82<<0), /* Prescaler, divide by 4 */ EVSYS_CHMUX_PRESCALER_8_gc = (0x83<<0), /* Prescaler, divide by 8 */ EVSYS_CHMUX_PRESCALER_16_gc = (0x84<<0), /* Prescaler, divide by 16 */ EVSYS_CHMUX_PRESCALER_32_gc = (0x85<<0), /* Prescaler, divide by 32 */ EVSYS_CHMUX_PRESCALER_64_gc = (0x86<<0), /* Prescaler, divide by 64 */ EVSYS_CHMUX_PRESCALER_128_gc = (0x87<<0), /* Prescaler, divide by 128 */ EVSYS_CHMUX_PRESCALER_256_gc = (0x88<<0), /* Prescaler, divide by 256 */ EVSYS_CHMUX_PRESCALER_512_gc = (0x89<<0), /* Prescaler, divide by 512 */ EVSYS_CHMUX_PRESCALER_1024_gc = (0x8A<<0), /* Prescaler, divide by 1024 */ EVSYS_CHMUX_PRESCALER_2048_gc = (0x8B<<0), /* Prescaler, divide by 2048 */ EVSYS_CHMUX_PRESCALER_4096_gc = (0x8C<<0), /* Prescaler, divide by 4096 */ EVSYS_CHMUX_PRESCALER_8192_gc = (0x8D<<0), /* Prescaler, divide by 8192 */ EVSYS_CHMUX_PRESCALER_16384_gc = (0x8E<<0), /* Prescaler, divide by 16384 */ EVSYS_CHMUX_PRESCALER_32768_gc = (0x8F<<0), /* Prescaler, divide by 32768 */ EVSYS_CHMUX_TCC0_OVF_gc = (0xC0<<0), /* Timer/Counter C0 Overflow */ EVSYS_CHMUX_TCC0_ERR_gc = (0xC1<<0), /* Timer/Counter C0 Error */ EVSYS_CHMUX_TCC0_CCA_gc = (0xC4<<0), /* Timer/Counter C0 Compare or Capture A */ EVSYS_CHMUX_TCC0_CCB_gc = (0xC5<<0), /* Timer/Counter C0 Compare or Capture B */ EVSYS_CHMUX_TCC0_CCC_gc = (0xC6<<0), /* Timer/Counter C0 Compare or Capture C */ EVSYS_CHMUX_TCC0_CCD_gc = (0xC7<<0), /* Timer/Counter C0 Compare or Capture D */ EVSYS_CHMUX_TCC1_OVF_gc = (0xC8<<0), /* Timer/Counter C1 Overflow */ EVSYS_CHMUX_TCC1_ERR_gc = (0xC9<<0), /* Timer/Counter C1 Error */ EVSYS_CHMUX_TCC1_CCA_gc = (0xCC<<0), /* Timer/Counter C1 Compare or Capture A */ EVSYS_CHMUX_TCC1_CCB_gc = (0xCD<<0), /* Timer/Counter C1 Compare or Capture B */ EVSYS_CHMUX_TCD0_OVF_gc = (0xD0<<0), /* Timer/Counter D0 Overflow */ EVSYS_CHMUX_TCD0_ERR_gc = (0xD1<<0), /* Timer/Counter D0 Error */ EVSYS_CHMUX_TCD0_CCA_gc = (0xD4<<0), /* Timer/Counter D0 Compare or Capture A */ EVSYS_CHMUX_TCD0_CCB_gc = (0xD5<<0), /* Timer/Counter D0 Compare or Capture B */ EVSYS_CHMUX_TCD0_CCC_gc = (0xD6<<0), /* Timer/Counter D0 Compare or Capture C */ EVSYS_CHMUX_TCD0_CCD_gc = (0xD7<<0), /* Timer/Counter D0 Compare or Capture D */ EVSYS_CHMUX_TCD1_OVF_gc = (0xD8<<0), /* Timer/Counter D1 Overflow */ EVSYS_CHMUX_TCD1_ERR_gc = (0xD9<<0), /* Timer/Counter D1 Error */ EVSYS_CHMUX_TCD1_CCA_gc = (0xDC<<0), /* Timer/Counter D1 Compare or Capture A */ EVSYS_CHMUX_TCD1_CCB_gc = (0xDD<<0), /* Timer/Counter D1 Compare or Capture B */ EVSYS_CHMUX_TCE0_OVF_gc = (0xE0<<0), /* Timer/Counter E0 Overflow */ EVSYS_CHMUX_TCE0_ERR_gc = (0xE1<<0), /* Timer/Counter E0 Error */ EVSYS_CHMUX_TCE0_CCA_gc = (0xE4<<0), /* Timer/Counter E0 Compare or Capture A */ EVSYS_CHMUX_TCE0_CCB_gc = (0xE5<<0), /* Timer/Counter E0 Compare or Capture B */ EVSYS_CHMUX_TCE0_CCC_gc = (0xE6<<0), /* Timer/Counter E0 Compare or Capture C */ EVSYS_CHMUX_TCE0_CCD_gc = (0xE7<<0), /* Timer/Counter E0 Compare or Capture D */ EVSYS_CHMUX_TCE1_OVF_gc = (0xE8<<0), /* Timer/Counter E1 Overflow */ EVSYS_CHMUX_TCE1_ERR_gc = (0xE9<<0), /* Timer/Counter E1 Error */ EVSYS_CHMUX_TCE1_CCA_gc = (0xEC<<0), /* Timer/Counter E1 Compare or Capture A */ EVSYS_CHMUX_TCE1_CCB_gc = (0xED<<0), /* Timer/Counter E1 Compare or Capture B */ EVSYS_CHMUX_TCF0_OVF_gc = (0xF0<<0), /* Timer/Counter F0 Overflow */ EVSYS_CHMUX_TCF0_ERR_gc = (0xF1<<0), /* Timer/Counter F0 Error */ EVSYS_CHMUX_TCF0_CCA_gc = (0xF4<<0), /* Timer/Counter F0 Compare or Capture A */ EVSYS_CHMUX_TCF0_CCB_gc = (0xF5<<0), /* Timer/Counter F0 Compare or Capture B */ EVSYS_CHMUX_TCF0_CCC_gc = (0xF6<<0), /* Timer/Counter F0 Compare or Capture C */ EVSYS_CHMUX_TCF0_CCD_gc = (0xF7<<0), /* Timer/Counter F0 Compare or Capture D */ EVSYS_CHMUX_TCF1_OVF_gc = (0xF8<<0), /* Timer/Counter F1 Overflow */ EVSYS_CHMUX_TCF1_ERR_gc = (0xF9<<0), /* Timer/Counter F1 Error */ EVSYS_CHMUX_TCF1_CCA_gc = (0xFC<<0), /* Timer/Counter F1 Compare or Capture A */ EVSYS_CHMUX_TCF1_CCB_gc = (0xFD<<0), /* Timer/Counter F1 Compare or Capture B */ } EVSYS_CHMUX_t; /* -------------------------------------------------------------------------- NVM - Non Volatile Memory Controller -------------------------------------------------------------------------- */ /* Non-volatile Memory Controller */ typedef struct NVM_struct { register8_t ADDR0; /* Address Register 0 */ register8_t ADDR1; /* Address Register 1 */ register8_t ADDR2; /* Address Register 2 */ register8_t reserved_0x03; register8_t DATA0; /* Data Register 0 */ register8_t DATA1; /* Data Register 1 */ register8_t DATA2; /* Data Register 2 */ register8_t reserved_0x07; register8_t reserved_0x08; register8_t reserved_0x09; register8_t CMD; /* Command */ register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t INTCTRL; /* Interrupt Control */ register8_t reserved_0x0E; register8_t STATUS; /* Status */ register8_t LOCK_BITS; /* Lock Bits (Changed from LOCKBITS to avoid avr-libc collision) */ } NVM_t; /* NVM Command */ typedef enum NVM_CMD_enum { NVM_CMD_NO_OPERATION_gc = (0x00<<0), /* Noop/Ordinary LPM */ NVM_CMD_READ_USER_SIG_ROW_gc = (0x01<<0), /* Read user signature row */ NVM_CMD_READ_CALIB_ROW_gc = (0x02<<0), /* Read calibration row */ NVM_CMD_READ_EEPROM_gc = (0x06<<0), /* Read EEPROM */ NVM_CMD_READ_FUSES_gc = (0x07<<0), /* Read fuse byte */ NVM_CMD_WRITE_LOCK_BITS_gc = (0x08<<0), /* Write lock bits */ NVM_CMD_ERASE_USER_SIG_ROW_gc = (0x18<<0), /* Erase user signature row */ NVM_CMD_WRITE_USER_SIG_ROW_gc = (0x1A<<0), /* Write user signature row */ NVM_CMD_ERASE_APP_gc = (0x20<<0), /* Erase Application Section */ NVM_CMD_ERASE_APP_PAGE_gc = (0x22<<0), /* Erase Application Section page */ NVM_CMD_LOAD_FLASH_BUFFER_gc = (0x23<<0), /* Load Flash page buffer */ NVM_CMD_WRITE_APP_PAGE_gc = (0x24<<0), /* Write Application Section page */ NVM_CMD_ERASE_WRITE_APP_PAGE_gc = (0x25<<0), /* Erase-and-write Application Section page */ NVM_CMD_ERASE_FLASH_BUFFER_gc = (0x26<<0), /* Erase/flush Flash page buffer */ NVM_CMD_ERASE_BOOT_PAGE_gc = (0x2A<<0), /* Erase Boot Section page */ NVM_CMD_ERASE_FLASH_PAGE_gc = (0x2B<<0), /* Erase Flash Page */ NVM_CMD_WRITE_BOOT_PAGE_gc = (0x2C<<0), /* Write Boot Section page */ NVM_CMD_ERASE_WRITE_BOOT_PAGE_gc = (0x2D<<0), /* Erase-and-write Boot Section page */ NVM_CMD_WRITE_FLASH_PAGE_gc = (0x2E<<0), /* Write Flash Page */ NVM_CMD_ERASE_WRITE_FLASH_PAGE_gc = (0x2F<<0), /* Erase-and-write Flash Page */ NVM_CMD_ERASE_EEPROM_gc = (0x30<<0), /* Erase EEPROM */ NVM_CMD_ERASE_EEPROM_PAGE_gc = (0x32<<0), /* Erase EEPROM page */ NVM_CMD_LOAD_EEPROM_BUFFER_gc = (0x33<<0), /* Load EEPROM page buffer */ NVM_CMD_WRITE_EEPROM_PAGE_gc = (0x34<<0), /* Write EEPROM page */ NVM_CMD_ERASE_WRITE_EEPROM_PAGE_gc = (0x35<<0), /* Erase-and-write EEPROM page */ NVM_CMD_ERASE_EEPROM_BUFFER_gc = (0x36<<0), /* Erase/flush EEPROM page buffer */ NVM_CMD_APP_CRC_gc = (0x38<<0), /* Application section CRC */ NVM_CMD_BOOT_CRC_gc = (0x39<<0), /* Boot Section CRC */ NVM_CMD_FLASH_RANGE_CRC_gc = (0x3A<<0), /* Flash Range CRC */ NVM_CMD_CHIP_ERASE_gc = (0x40<<0), /* Erase Chip */ NVM_CMD_READ_NVM_gc = (0x43<<0), /* Read NVM */ NVM_CMD_WRITE_FUSE_gc = (0x4C<<0), /* Write Fuse byte */ NVM_CMD_ERASE_BOOT_gc = (0x68<<0), /* Erase Boot Section */ NVM_CMD_FLASH_CRC_gc = (0x78<<0), /* Flash CRC */ } NVM_CMD_t; /* SPM ready interrupt level */ typedef enum NVM_SPMLVL_enum { NVM_SPMLVL_OFF_gc = (0x00<<2), /* Interrupt disabled */ NVM_SPMLVL_LO_gc = (0x01<<2), /* Low level */ NVM_SPMLVL_MED_gc = (0x02<<2), /* Medium level */ NVM_SPMLVL_HI_gc = (0x03<<2), /* High level */ } NVM_SPMLVL_t; /* EEPROM ready interrupt level */ typedef enum NVM_EELVL_enum { NVM_EELVL_OFF_gc = (0x00<<0), /* Interrupt disabled */ NVM_EELVL_LO_gc = (0x01<<0), /* Low level */ NVM_EELVL_MED_gc = (0x02<<0), /* Medium level */ NVM_EELVL_HI_gc = (0x03<<0), /* High level */ } NVM_EELVL_t; /* Boot lock bits - boot setcion */ typedef enum NVM_BLBB_enum { NVM_BLBB_RWLOCK_gc = (0x00<<6), /* Read and write not allowed */ NVM_BLBB_RLOCK_gc = (0x01<<6), /* Read not allowed */ NVM_BLBB_WLOCK_gc = (0x02<<6), /* Write not allowed */ NVM_BLBB_NOLOCK_gc = (0x03<<6), /* No locks */ } NVM_BLBB_t; /* Boot lock bits - application section */ typedef enum NVM_BLBA_enum { NVM_BLBA_RWLOCK_gc = (0x00<<4), /* Read and write not allowed */ NVM_BLBA_RLOCK_gc = (0x01<<4), /* Read not allowed */ NVM_BLBA_WLOCK_gc = (0x02<<4), /* Write not allowed */ NVM_BLBA_NOLOCK_gc = (0x03<<4), /* No locks */ } NVM_BLBA_t; /* Boot lock bits - application table section */ typedef enum NVM_BLBAT_enum { NVM_BLBAT_RWLOCK_gc = (0x00<<2), /* Read and write not allowed */ NVM_BLBAT_RLOCK_gc = (0x01<<2), /* Read not allowed */ NVM_BLBAT_WLOCK_gc = (0x02<<2), /* Write not allowed */ NVM_BLBAT_NOLOCK_gc = (0x03<<2), /* No locks */ } NVM_BLBAT_t; /* Lock bits */ typedef enum NVM_LB_enum { NVM_LB_RWLOCK_gc = (0x00<<0), /* Read and write not allowed */ NVM_LB_WLOCK_gc = (0x02<<0), /* Write not allowed */ NVM_LB_NOLOCK_gc = (0x03<<0), /* No locks */ } NVM_LB_t; /* -------------------------------------------------------------------------- ADC - Analog/Digital Converter -------------------------------------------------------------------------- */ /* ADC Channel */ typedef struct ADC_CH_struct { register8_t CTRL; /* Control Register */ register8_t MUXCTRL; /* MUX Control */ register8_t INTCTRL; /* Channel Interrupt Control Register */ register8_t INTFLAGS; /* Interrupt Flags */ _WORDREGISTER(RES); /* Channel Result */ register8_t SCAN; /* Input Channel Scan */ register8_t reserved_0x07; } ADC_CH_t; /* Analog-to-Digital Converter */ typedef struct ADC_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t REFCTRL; /* Reference Control */ register8_t EVCTRL; /* Event Control */ register8_t PRESCALER; /* Clock Prescaler */ register8_t reserved_0x05; register8_t INTFLAGS; /* Interrupt Flags */ register8_t TEMP; /* Temporary Register */ register8_t reserved_0x08; register8_t reserved_0x09; register8_t reserved_0x0A; register8_t reserved_0x0B; _WORDREGISTER(CAL); /* Calibration Value */ register8_t reserved_0x0E; register8_t reserved_0x0F; _WORDREGISTER(CH0RES); /* Channel 0 Result */ _WORDREGISTER(CH1RES); /* Channel 1 Result */ _WORDREGISTER(CH2RES); /* Channel 2 Result */ _WORDREGISTER(CH3RES); /* Channel 3 Result */ _WORDREGISTER(CMP); /* Compare Value */ register8_t reserved_0x1A; register8_t reserved_0x1B; register8_t reserved_0x1C; register8_t reserved_0x1D; register8_t reserved_0x1E; register8_t reserved_0x1F; ADC_CH_t CH0; /* ADC Channel 0 */ ADC_CH_t CH1; /* ADC Channel 1 */ ADC_CH_t CH2; /* ADC Channel 2 */ ADC_CH_t CH3; /* ADC Channel 3 */ } ADC_t; /* Positive input multiplexer selection */ typedef enum ADC_CH_MUXPOS_enum { ADC_CH_MUXPOS_PIN0_gc = (0x00<<3), /* Input pin 0 */ ADC_CH_MUXPOS_PIN1_gc = (0x01<<3), /* Input pin 1 */ ADC_CH_MUXPOS_PIN2_gc = (0x02<<3), /* Input pin 2 */ ADC_CH_MUXPOS_PIN3_gc = (0x03<<3), /* Input pin 3 */ ADC_CH_MUXPOS_PIN4_gc = (0x04<<3), /* Input pin 4 */ ADC_CH_MUXPOS_PIN5_gc = (0x05<<3), /* Input pin 5 */ ADC_CH_MUXPOS_PIN6_gc = (0x06<<3), /* Input pin 6 */ ADC_CH_MUXPOS_PIN7_gc = (0x07<<3), /* Input pin 7 */ ADC_CH_MUXPOS_PIN8_gc = (0x08<<3), /* Input pin 8 */ ADC_CH_MUXPOS_PIN9_gc = (0x09<<3), /* Input pin 9 */ ADC_CH_MUXPOS_PIN10_gc = (0x0A<<3), /* Input pin 10 */ ADC_CH_MUXPOS_PIN11_gc = (0x0B<<3), /* Input pin 11 */ ADC_CH_MUXPOS_PIN12_gc = (0x0C<<3), /* Input pin 12 */ ADC_CH_MUXPOS_PIN13_gc = (0x0D<<3), /* Input pin 13 */ ADC_CH_MUXPOS_PIN14_gc = (0x0E<<3), /* Input pin 14 */ ADC_CH_MUXPOS_PIN15_gc = (0x0F<<3), /* Input pin 15 */ } ADC_CH_MUXPOS_t; /* Internal input multiplexer selections */ typedef enum ADC_CH_MUXINT_enum { ADC_CH_MUXINT_TEMP_gc = (0x00<<3), /* Temperature Reference */ ADC_CH_MUXINT_BANDGAP_gc = (0x01<<3), /* Bandgap Reference */ ADC_CH_MUXINT_SCALEDVCC_gc = (0x02<<3), /* 1/10 scaled VCC */ ADC_CH_MUXINT_DAC_gc = (0x03<<3), /* DAC output */ } ADC_CH_MUXINT_t; /* Negative input multiplexer selection */ typedef enum ADC_CH_MUXNEG_enum { ADC_CH_MUXNEG_PIN0_gc = (0x00<<0), /* Input pin 0 (Input Mode = 2) */ ADC_CH_MUXNEG_PIN1_gc = (0x01<<0), /* Input pin 1 (Input Mode = 2) */ ADC_CH_MUXNEG_PIN2_gc = (0x02<<0), /* Input pin 2 (Input Mode = 2) */ ADC_CH_MUXNEG_PIN3_gc = (0x03<<0), /* Input pin 3 (Input Mode = 2) */ ADC_CH_MUXNEG_PIN4_gc = (0x00<<0), /* Input pin 4 (Input Mode = 3) */ ADC_CH_MUXNEG_PIN5_gc = (0x01<<0), /* Input pin 5 (Input Mode = 3) */ ADC_CH_MUXNEG_PIN6_gc = (0x02<<0), /* Input pin 6 (Input Mode = 3) */ ADC_CH_MUXNEG_PIN7_gc = (0x03<<0), /* Input pin 7 (Input Mode = 3) */ ADC_CH_MUXNEG_GND_MODE3_gc = (0x05<<0), /* PAD Ground (Input Mode = 2) */ ADC_CH_MUXNEG_INTGND_MODE3_gc = (0x07<<0), /* Internal Ground (Input Mode = 2) */ ADC_CH_MUXNEG_INTGND_MODE4_gc = (0x04<<0), /* Internal Ground (Input Mode = 3) */ ADC_CH_MUXNEG_GND_MODE4_gc = (0x07<<0), /* PAD Ground (Input Mode = 3) */ } ADC_CH_MUXNEG_t; /* Input mode */ typedef enum ADC_CH_INPUTMODE_enum { ADC_CH_INPUTMODE_INTERNAL_gc = (0x00<<0), /* Internal inputs, no gain */ ADC_CH_INPUTMODE_SINGLEENDED_gc = (0x01<<0), /* Single-ended input, no gain */ ADC_CH_INPUTMODE_DIFF_gc = (0x02<<0), /* Differential input, no gain */ ADC_CH_INPUTMODE_DIFFWGAIN_gc = (0x03<<0), /* Differential input, with gain */ } ADC_CH_INPUTMODE_t; /* Gain factor */ typedef enum ADC_CH_GAIN_enum { ADC_CH_GAIN_1X_gc = (0x00<<2), /* 1x gain */ ADC_CH_GAIN_2X_gc = (0x01<<2), /* 2x gain */ ADC_CH_GAIN_4X_gc = (0x02<<2), /* 4x gain */ ADC_CH_GAIN_8X_gc = (0x03<<2), /* 8x gain */ ADC_CH_GAIN_16X_gc = (0x04<<2), /* 16x gain */ ADC_CH_GAIN_32X_gc = (0x05<<2), /* 32x gain */ ADC_CH_GAIN_64X_gc = (0x06<<2), /* 64x gain */ ADC_CH_GAIN_DIV2_gc = (0x07<<2), /* x/2 gain */ } ADC_CH_GAIN_t; /* Conversion result resolution */ typedef enum ADC_RESOLUTION_enum { ADC_RESOLUTION_12BIT_gc = (0x00<<1), /* 12-bit right-adjusted result */ ADC_RESOLUTION_8BIT_gc = (0x02<<1), /* 8-bit right-adjusted result */ ADC_RESOLUTION_LEFT12BIT_gc = (0x03<<1), /* 12-bit left-adjusted result */ } ADC_RESOLUTION_t; /* Current Limitation Mode */ typedef enum ADC_CURRLIMIT_enum { ADC_CURRLIMIT_NO_gc = (0x00<<5), /* No limit */ ADC_CURRLIMIT_LOW_gc = (0x01<<5), /* Low current limit, max. sampling rate 1.5MSPS */ ADC_CURRLIMIT_MED_gc = (0x02<<5), /* Medium current limit, max. sampling rate 1MSPS */ ADC_CURRLIMIT_HIGH_gc = (0x03<<5), /* High current limit, max. sampling rate 0.5MSPS */ } ADC_CURRLIMIT_t; /* Voltage reference selection */ typedef enum ADC_REFSEL_enum { ADC_REFSEL_INT1V_gc = (0x00<<4), /* Internal 1V */ ADC_REFSEL_INTVCC_gc = (0x01<<4), /* Internal VCC / 1.6 */ ADC_REFSEL_AREFA_gc = (0x02<<4), /* External reference on PORT A */ ADC_REFSEL_AREFB_gc = (0x03<<4), /* External reference on PORT B */ ADC_REFSEL_INTVCC2_gc = (0x04<<4), /* Internal VCC / 2 */ } ADC_REFSEL_t; /* Channel sweep selection */ typedef enum ADC_SWEEP_enum { ADC_SWEEP_0_gc = (0x00<<6), /* ADC Channel 0 */ ADC_SWEEP_01_gc = (0x01<<6), /* ADC Channel 0,1 */ ADC_SWEEP_012_gc = (0x02<<6), /* ADC Channel 0,1,2 */ ADC_SWEEP_0123_gc = (0x03<<6), /* ADC Channel 0,1,2,3 */ } ADC_SWEEP_t; /* Event channel input selection */ typedef enum ADC_EVSEL_enum { ADC_EVSEL_0123_gc = (0x00<<3), /* Event Channel 0,1,2,3 */ ADC_EVSEL_1234_gc = (0x01<<3), /* Event Channel 1,2,3,4 */ ADC_EVSEL_2345_gc = (0x02<<3), /* Event Channel 2,3,4,5 */ ADC_EVSEL_3456_gc = (0x03<<3), /* Event Channel 3,4,5,6 */ ADC_EVSEL_4567_gc = (0x04<<3), /* Event Channel 4,5,6,7 */ ADC_EVSEL_567_gc = (0x05<<3), /* Event Channel 5,6,7 */ ADC_EVSEL_67_gc = (0x06<<3), /* Event Channel 6,7 */ ADC_EVSEL_7_gc = (0x07<<3), /* Event Channel 7 */ } ADC_EVSEL_t; /* Event action selection */ typedef enum ADC_EVACT_enum { ADC_EVACT_NONE_gc = (0x00<<0), /* No event action */ ADC_EVACT_CH0_gc = (0x01<<0), /* First event triggers channel 0 */ ADC_EVACT_CH01_gc = (0x02<<0), /* First two events trigger channel 0,1 */ ADC_EVACT_CH012_gc = (0x03<<0), /* First three events trigger channel 0,1,2 */ ADC_EVACT_CH0123_gc = (0x04<<0), /* Events trigger channel 0,1,2,3 */ ADC_EVACT_SWEEP_gc = (0x05<<0), /* First event triggers sweep */ ADC_EVACT_SYNCSWEEP_gc = (0x06<<0), /* The ADC is flushed and restarted for accurate timing */ } ADC_EVACT_t; /* Interupt mode */ typedef enum ADC_CH_INTMODE_enum { ADC_CH_INTMODE_COMPLETE_gc = (0x00<<2), /* Interrupt on conversion complete */ ADC_CH_INTMODE_BELOW_gc = (0x01<<2), /* Interrupt on result below compare value */ ADC_CH_INTMODE_ABOVE_gc = (0x03<<2), /* Interrupt on result above compare value */ } ADC_CH_INTMODE_t; /* Interrupt level */ typedef enum ADC_CH_INTLVL_enum { ADC_CH_INTLVL_OFF_gc = (0x00<<0), /* Interrupt disabled */ ADC_CH_INTLVL_LO_gc = (0x01<<0), /* Low level */ ADC_CH_INTLVL_MED_gc = (0x02<<0), /* Medium level */ ADC_CH_INTLVL_HI_gc = (0x03<<0), /* High level */ } ADC_CH_INTLVL_t; /* DMA request selection */ typedef enum ADC_DMASEL_enum { ADC_DMASEL_OFF_gc = (0x00<<6), /* Combined DMA request OFF */ ADC_DMASEL_CH01_gc = (0x01<<6), /* ADC Channel 0 or 1 */ ADC_DMASEL_CH012_gc = (0x02<<6), /* ADC Channel 0 or 1 or 2 */ ADC_DMASEL_CH0123_gc = (0x03<<6), /* ADC Channel 0 or 1 or 2 or 3 */ } ADC_DMASEL_t; /* Clock prescaler */ typedef enum ADC_PRESCALER_enum { ADC_PRESCALER_DIV4_gc = (0x00<<0), /* Divide clock by 4 */ ADC_PRESCALER_DIV8_gc = (0x01<<0), /* Divide clock by 8 */ ADC_PRESCALER_DIV16_gc = (0x02<<0), /* Divide clock by 16 */ ADC_PRESCALER_DIV32_gc = (0x03<<0), /* Divide clock by 32 */ ADC_PRESCALER_DIV64_gc = (0x04<<0), /* Divide clock by 64 */ ADC_PRESCALER_DIV128_gc = (0x05<<0), /* Divide clock by 128 */ ADC_PRESCALER_DIV256_gc = (0x06<<0), /* Divide clock by 256 */ ADC_PRESCALER_DIV512_gc = (0x07<<0), /* Divide clock by 512 */ } ADC_PRESCALER_t; /* -------------------------------------------------------------------------- DAC - Digital/Analog Converter -------------------------------------------------------------------------- */ /* Digital-to-Analog Converter */ typedef struct DAC_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t CTRLC; /* Control Register C */ register8_t EVCTRL; /* Event Input Control */ register8_t reserved_0x04; register8_t STATUS; /* Status */ register8_t reserved_0x06; register8_t reserved_0x07; register8_t CH0GAINCAL; /* Gain Calibration */ register8_t CH0OFFSETCAL; /* Offset Calibration */ register8_t CH1GAINCAL; /* Gain Calibration */ register8_t CH1OFFSETCAL; /* Offset Calibration */ 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; _WORDREGISTER(CH0DATA); /* Channel 0 Data */ _WORDREGISTER(CH1DATA); /* Channel 1 Data */ } DAC_t; /* Output channel selection */ typedef enum DAC_CHSEL_enum { DAC_CHSEL_SINGLE_gc = (0x00<<5), /* Single channel operation (Channel 0 only) */ DAC_CHSEL_SINGLE1_gc = (0x01<<5), /* Single channel operation (Channel 1 only) */ DAC_CHSEL_DUAL_gc = (0x02<<5), /* Dual channel operation (Channel 0 and channel 1) */ } DAC_CHSEL_t; /* Reference voltage selection */ typedef enum DAC_REFSEL_enum { DAC_REFSEL_INT1V_gc = (0x00<<3), /* Internal 1V */ DAC_REFSEL_AVCC_gc = (0x01<<3), /* Analog supply voltage */ DAC_REFSEL_AREFA_gc = (0x02<<3), /* External reference on AREF on PORTA */ DAC_REFSEL_AREFB_gc = (0x03<<3), /* External reference on AREF on PORTB */ } DAC_REFSEL_t; /* Event channel selection */ typedef enum DAC_EVSEL_enum { DAC_EVSEL_0_gc = (0x00<<0), /* Event Channel 0 */ DAC_EVSEL_1_gc = (0x01<<0), /* Event Channel 1 */ DAC_EVSEL_2_gc = (0x02<<0), /* Event Channel 2 */ DAC_EVSEL_3_gc = (0x03<<0), /* Event Channel 3 */ DAC_EVSEL_4_gc = (0x04<<0), /* Event Channel 4 */ DAC_EVSEL_5_gc = (0x05<<0), /* Event Channel 5 */ DAC_EVSEL_6_gc = (0x06<<0), /* Event Channel 6 */ DAC_EVSEL_7_gc = (0x07<<0), /* Event Channel 7 */ } DAC_EVSEL_t; /* -------------------------------------------------------------------------- AC - Analog Comparator -------------------------------------------------------------------------- */ /* Analog Comparator */ typedef struct AC_struct { register8_t AC0CTRL; /* Analog Comparator 0 Control */ register8_t AC1CTRL; /* Analog Comparator 1 Control */ register8_t AC0MUXCTRL; /* Analog Comparator 0 MUX Control */ register8_t AC1MUXCTRL; /* Analog Comparator 1 MUX Control */ register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t WINCTRL; /* Window Mode Control */ register8_t STATUS; /* Status */ } AC_t; /* Interrupt mode */ typedef enum AC_INTMODE_enum { AC_INTMODE_BOTHEDGES_gc = (0x00<<6), /* Interrupt on both edges */ AC_INTMODE_FALLING_gc = (0x02<<6), /* Interrupt on falling edge */ AC_INTMODE_RISING_gc = (0x03<<6), /* Interrupt on rising edge */ } AC_INTMODE_t; /* Interrupt level */ typedef enum AC_INTLVL_enum { AC_INTLVL_OFF_gc = (0x00<<4), /* Interrupt disabled */ AC_INTLVL_LO_gc = (0x01<<4), /* Low level */ AC_INTLVL_MED_gc = (0x02<<4), /* Medium level */ AC_INTLVL_HI_gc = (0x03<<4), /* High level */ } AC_INTLVL_t; /* Hysteresis mode selection */ typedef enum AC_HYSMODE_enum { AC_HYSMODE_NO_gc = (0x00<<1), /* No hysteresis */ AC_HYSMODE_SMALL_gc = (0x01<<1), /* Small hysteresis */ AC_HYSMODE_LARGE_gc = (0x02<<1), /* Large hysteresis */ } AC_HYSMODE_t; /* Positive input multiplexer selection */ typedef enum AC_MUXPOS_enum { AC_MUXPOS_PIN0_gc = (0x00<<3), /* Pin 0 */ AC_MUXPOS_PIN1_gc = (0x01<<3), /* Pin 1 */ AC_MUXPOS_PIN2_gc = (0x02<<3), /* Pin 2 */ AC_MUXPOS_PIN3_gc = (0x03<<3), /* Pin 3 */ AC_MUXPOS_PIN4_gc = (0x04<<3), /* Pin 4 */ AC_MUXPOS_PIN5_gc = (0x05<<3), /* Pin 5 */ AC_MUXPOS_PIN6_gc = (0x06<<3), /* Pin 6 */ AC_MUXPOS_DAC_gc = (0x07<<3), /* DAC output */ } AC_MUXPOS_t; /* Negative input multiplexer selection */ typedef enum AC_MUXNEG_enum { AC_MUXNEG_PIN0_gc = (0x00<<0), /* Pin 0 */ AC_MUXNEG_PIN1_gc = (0x01<<0), /* Pin 1 */ AC_MUXNEG_PIN3_gc = (0x02<<0), /* Pin 3 */ AC_MUXNEG_PIN5_gc = (0x03<<0), /* Pin 5 */ AC_MUXNEG_PIN7_gc = (0x04<<0), /* Pin 7 */ AC_MUXNEG_DAC_gc = (0x05<<0), /* DAC output */ AC_MUXNEG_BANDGAP_gc = (0x06<<0), /* Bandgap Reference */ AC_MUXNEG_SCALER_gc = (0x07<<0), /* Internal voltage scaler */ } AC_MUXNEG_t; /* Windows interrupt mode */ typedef enum AC_WINTMODE_enum { AC_WINTMODE_ABOVE_gc = (0x00<<2), /* Interrupt on above window */ AC_WINTMODE_INSIDE_gc = (0x01<<2), /* Interrupt on inside window */ AC_WINTMODE_BELOW_gc = (0x02<<2), /* Interrupt on below window */ AC_WINTMODE_OUTSIDE_gc = (0x03<<2), /* Interrupt on outside window */ } AC_WINTMODE_t; /* Window interrupt level */ typedef enum AC_WINTLVL_enum { AC_WINTLVL_OFF_gc = (0x00<<0), /* Interrupt disabled */ AC_WINTLVL_LO_gc = (0x01<<0), /* Low priority */ AC_WINTLVL_MED_gc = (0x02<<0), /* Medium priority */ AC_WINTLVL_HI_gc = (0x03<<0), /* High priority */ } AC_WINTLVL_t; /* Window mode state */ typedef enum AC_WSTATE_enum { AC_WSTATE_ABOVE_gc = (0x00<<6), /* Signal above window */ AC_WSTATE_INSIDE_gc = (0x01<<6), /* Signal inside window */ AC_WSTATE_BELOW_gc = (0x02<<6), /* Signal below window */ } AC_WSTATE_t; /* -------------------------------------------------------------------------- RTC - Real-Time Counter -------------------------------------------------------------------------- */ /* Real-Time Counter */ typedef struct RTC_struct { register8_t CTRL; /* Control Register */ register8_t STATUS; /* Status Register */ register8_t INTCTRL; /* Interrupt Control Register */ register8_t INTFLAGS; /* Interrupt Flags */ register8_t TEMP; /* Temporary register */ register8_t reserved_0x05; register8_t reserved_0x06; register8_t reserved_0x07; _WORDREGISTER(CNT); /* Count Register */ _WORDREGISTER(PER); /* Period Register */ _WORDREGISTER(COMP); /* Compare Register */ } RTC_t; /* Prescaler Factor */ typedef enum RTC_PRESCALER_enum { RTC_PRESCALER_OFF_gc = (0x00<<0), /* RTC Off */ RTC_PRESCALER_DIV1_gc = (0x01<<0), /* RTC Clock */ RTC_PRESCALER_DIV2_gc = (0x02<<0), /* RTC Clock / 2 */ RTC_PRESCALER_DIV8_gc = (0x03<<0), /* RTC Clock / 8 */ RTC_PRESCALER_DIV16_gc = (0x04<<0), /* RTC Clock / 16 */ RTC_PRESCALER_DIV64_gc = (0x05<<0), /* RTC Clock / 64 */ RTC_PRESCALER_DIV256_gc = (0x06<<0), /* RTC Clock / 256 */ RTC_PRESCALER_DIV1024_gc = (0x07<<0), /* RTC Clock / 1024 */ } RTC_PRESCALER_t; /* Compare Interrupt level */ typedef enum RTC_COMPINTLVL_enum { RTC_COMPINTLVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ RTC_COMPINTLVL_LO_gc = (0x01<<2), /* Low Level */ RTC_COMPINTLVL_MED_gc = (0x02<<2), /* Medium Level */ RTC_COMPINTLVL_HI_gc = (0x03<<2), /* High Level */ } RTC_COMPINTLVL_t; /* Overflow Interrupt level */ typedef enum RTC_OVFINTLVL_enum { RTC_OVFINTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ RTC_OVFINTLVL_LO_gc = (0x01<<0), /* Low Level */ RTC_OVFINTLVL_MED_gc = (0x02<<0), /* Medium Level */ RTC_OVFINTLVL_HI_gc = (0x03<<0), /* High Level */ } RTC_OVFINTLVL_t; /* -------------------------------------------------------------------------- TWI - Two-Wire Interface -------------------------------------------------------------------------- */ /* */ typedef struct TWI_MASTER_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t CTRLC; /* Control Register C */ register8_t STATUS; /* Status Register */ register8_t BAUD; /* Baurd Rate Control Register */ register8_t ADDR; /* Address Register */ register8_t DATA; /* Data Register */ } TWI_MASTER_t; /* */ typedef struct TWI_SLAVE_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t STATUS; /* Status Register */ register8_t ADDR; /* Address Register */ register8_t DATA; /* Data Register */ register8_t ADDRMASK; /* Address Mask Register */ } TWI_SLAVE_t; /* Two-Wire Interface */ typedef struct TWI_struct { register8_t CTRL; /* TWI Common Control Register */ TWI_MASTER_t MASTER; /* TWI master module */ TWI_SLAVE_t SLAVE; /* TWI slave module */ } TWI_t; /* SDA Hold Time */ typedef enum TWI_SDAHOLD_enum { TWI_SDAHOLD_OFF_gc = (0x00<<1), /* SDA Hold Time off */ TWI_SDAHOLD_50NS_gc = (0x01<<1), /* SDA Hold Time 50 ns */ TWI_SDAHOLD_300NS_gc = (0x02<<1), /* SDA Hold Time 300 ns */ TWI_SDAHOLD_400NS_gc = (0x03<<1), /* SDA Hold Time 400 ns */ } TWI_SDAHOLD_t; /* Master Interrupt Level */ typedef enum TWI_MASTER_INTLVL_enum { TWI_MASTER_INTLVL_OFF_gc = (0x00<<6), /* Interrupt Disabled */ TWI_MASTER_INTLVL_LO_gc = (0x01<<6), /* Low Level */ TWI_MASTER_INTLVL_MED_gc = (0x02<<6), /* Medium Level */ TWI_MASTER_INTLVL_HI_gc = (0x03<<6), /* High Level */ } TWI_MASTER_INTLVL_t; /* Inactive Timeout */ typedef enum TWI_MASTER_TIMEOUT_enum { TWI_MASTER_TIMEOUT_DISABLED_gc = (0x00<<2), /* Bus Timeout Disabled */ TWI_MASTER_TIMEOUT_50US_gc = (0x01<<2), /* 50 Microseconds */ TWI_MASTER_TIMEOUT_100US_gc = (0x02<<2), /* 100 Microseconds */ TWI_MASTER_TIMEOUT_200US_gc = (0x03<<2), /* 200 Microseconds */ } TWI_MASTER_TIMEOUT_t; /* Master Command */ typedef enum TWI_MASTER_CMD_enum { TWI_MASTER_CMD_NOACT_gc = (0x00<<0), /* No Action */ TWI_MASTER_CMD_REPSTART_gc = (0x01<<0), /* Issue Repeated Start Condition */ TWI_MASTER_CMD_RECVTRANS_gc = (0x02<<0), /* Receive or Transmit Data */ TWI_MASTER_CMD_STOP_gc = (0x03<<0), /* Issue Stop Condition */ } TWI_MASTER_CMD_t; /* Master Bus State */ typedef enum TWI_MASTER_BUSSTATE_enum { TWI_MASTER_BUSSTATE_UNKNOWN_gc = (0x00<<0), /* Unknown Bus State */ TWI_MASTER_BUSSTATE_IDLE_gc = (0x01<<0), /* Bus is Idle */ TWI_MASTER_BUSSTATE_OWNER_gc = (0x02<<0), /* This Module Controls The Bus */ TWI_MASTER_BUSSTATE_BUSY_gc = (0x03<<0), /* The Bus is Busy */ } TWI_MASTER_BUSSTATE_t; /* Slave Interrupt Level */ typedef enum TWI_SLAVE_INTLVL_enum { TWI_SLAVE_INTLVL_OFF_gc = (0x00<<6), /* Interrupt Disabled */ TWI_SLAVE_INTLVL_LO_gc = (0x01<<6), /* Low Level */ TWI_SLAVE_INTLVL_MED_gc = (0x02<<6), /* Medium Level */ TWI_SLAVE_INTLVL_HI_gc = (0x03<<6), /* High Level */ } TWI_SLAVE_INTLVL_t; /* Slave Command */ typedef enum TWI_SLAVE_CMD_enum { TWI_SLAVE_CMD_NOACT_gc = (0x00<<0), /* No Action */ TWI_SLAVE_CMD_COMPTRANS_gc = (0x02<<0), /* Used To Complete a Transaction */ TWI_SLAVE_CMD_RESPONSE_gc = (0x03<<0), /* Used in Response to Address/Data Interrupt */ } TWI_SLAVE_CMD_t; /* -------------------------------------------------------------------------- USB - USB -------------------------------------------------------------------------- */ /* USB Endpoint */ typedef struct USB_EP_struct { register8_t STATUS; /* Endpoint Status */ register8_t CTRL; /* Endpoint Control */ _WORDREGISTER(CNT); /* USB Endpoint Counter */ _WORDREGISTER(DATAPTR); /* Data Pointer */ _WORDREGISTER(AUXDATA); /* Auxiliary Data */ } USB_EP_t; /* Universal Serial Bus */ typedef struct USB_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t STATUS; /* Status Register */ register8_t ADDR; /* Address Register */ register8_t FIFOWP; /* FIFO Write Pointer Register */ register8_t FIFORP; /* FIFO Read Pointer Register */ _WORDREGISTER(EPPTR); /* Endpoint Configuration Table Pointer */ register8_t INTCTRLA; /* Interrupt Control Register A */ register8_t INTCTRLB; /* Interrupt Control Register B */ register8_t INTFLAGSACLR; /* Clear Interrupt Flag Register A */ register8_t INTFLAGSASET; /* Set Interrupt Flag Register A */ register8_t INTFLAGSBCLR; /* Clear Interrupt Flag Register B */ register8_t INTFLAGSBSET; /* Set Interrupt Flag Register B */ 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 reserved_0x20; register8_t reserved_0x21; register8_t reserved_0x22; register8_t reserved_0x23; 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 CAL0; /* Calibration Byte 0 */ register8_t CAL1; /* Calibration Byte 1 */ } USB_t; /* USB Endpoint Table */ typedef struct USB_EP_TABLE_struct { USB_EP_t EP0OUT; /* Endpoint 0 */ USB_EP_t EP0IN; /* Endpoint 0 */ USB_EP_t EP1OUT; /* Endpoint 1 */ USB_EP_t EP1IN; /* Endpoint 1 */ USB_EP_t EP2OUT; /* Endpoint 2 */ USB_EP_t EP2IN; /* Endpoint 2 */ USB_EP_t EP3OUT; /* Endpoint 3 */ USB_EP_t EP3IN; /* Endpoint 3 */ USB_EP_t EP4OUT; /* Endpoint 4 */ USB_EP_t EP4IN; /* Endpoint 4 */ USB_EP_t EP5OUT; /* Endpoint 5 */ USB_EP_t EP5IN; /* Endpoint 5 */ USB_EP_t EP6OUT; /* Endpoint 6 */ USB_EP_t EP6IN; /* Endpoint 6 */ USB_EP_t EP7OUT; /* Endpoint 7 */ USB_EP_t EP7IN; /* Endpoint 7 */ USB_EP_t EP8OUT; /* Endpoint 8 */ USB_EP_t EP8IN; /* Endpoint 8 */ USB_EP_t EP9OUT; /* Endpoint 9 */ USB_EP_t EP9IN; /* Endpoint 9 */ USB_EP_t EP10OUT; /* Endpoint 10 */ USB_EP_t EP10IN; /* Endpoint 10 */ USB_EP_t EP11OUT; /* Endpoint 11 */ USB_EP_t EP11IN; /* Endpoint 11 */ USB_EP_t EP12OUT; /* Endpoint 12 */ USB_EP_t EP12IN; /* Endpoint 12 */ USB_EP_t EP13OUT; /* Endpoint 13 */ USB_EP_t EP13IN; /* Endpoint 13 */ USB_EP_t EP14OUT; /* Endpoint 14 */ USB_EP_t EP14IN; /* Endpoint 14 */ USB_EP_t EP15OUT; /* Endpoint 15 */ USB_EP_t EP15IN; /* Endpoint 15 */ register8_t reserved_0x100; register8_t reserved_0x101; register8_t reserved_0x102; register8_t reserved_0x103; register8_t reserved_0x104; register8_t reserved_0x105; register8_t reserved_0x106; register8_t reserved_0x107; register8_t reserved_0x108; register8_t reserved_0x109; register8_t reserved_0x10A; register8_t reserved_0x10B; register8_t reserved_0x10C; register8_t reserved_0x10D; register8_t reserved_0x10E; register8_t reserved_0x10F; register8_t FRAMENUML; /* Frame Number Low Byte */ register8_t FRAMENUMH; /* Frame Number High Byte */ } USB_EP_TABLE_t; /* Interrupt level */ typedef enum USB_INTLVL_enum { USB_INTLVL_OFF_gc = (0x00<<0), /* Interrupt disabled */ USB_INTLVL_LO_gc = (0x01<<0), /* Low level */ USB_INTLVL_MED_gc = (0x02<<0), /* Medium level */ USB_INTLVL_HI_gc = (0x03<<0), /* High level */ } USB_INTLVL_t; /* USB Endpoint Type */ typedef enum USB_EP_TYPE_enum { USB_EP_TYPE_DISABLE_gc = (0x00<<6), /* Endpoint Disabled */ USB_EP_TYPE_CONTROL_gc = (0x01<<6), /* Control */ USB_EP_TYPE_BULK_gc = (0x02<<6), /* Bulk/Interrupt */ USB_EP_TYPE_ISOCHRONOUS_gc = (0x03<<6), /* Isochronous */ } USB_EP_TYPE_t; /* USB Endpoint Buffersize */ typedef enum USB_EP_BUFSIZE_enum { USB_EP_BUFSIZE_8_gc = (0x00<<0), /* 8 bytes buffer size */ USB_EP_BUFSIZE_16_gc = (0x01<<0), /* 16 bytes buffer size */ USB_EP_BUFSIZE_32_gc = (0x02<<0), /* 32 bytes buffer size */ USB_EP_BUFSIZE_64_gc = (0x03<<0), /* 64 bytes buffer size */ USB_EP_BUFSIZE_128_gc = (0x04<<0), /* 128 bytes buffer size */ USB_EP_BUFSIZE_256_gc = (0x05<<0), /* 256 bytes buffer size */ USB_EP_BUFSIZE_512_gc = (0x06<<0), /* 512 bytes buffer size */ USB_EP_BUFSIZE_1023_gc = (0x07<<0), /* 1023 bytes buffer size */ } USB_EP_BUFSIZE_t; /* -------------------------------------------------------------------------- PORT - I/O Port Configuration -------------------------------------------------------------------------- */ /* I/O Ports */ typedef struct PORT_struct { register8_t DIR; /* I/O Port Data Direction */ register8_t DIRSET; /* I/O Port Data Direction Set */ register8_t DIRCLR; /* I/O Port Data Direction Clear */ register8_t DIRTGL; /* I/O Port Data Direction Toggle */ register8_t OUT; /* I/O Port Output */ register8_t OUTSET; /* I/O Port Output Set */ register8_t OUTCLR; /* I/O Port Output Clear */ register8_t OUTTGL; /* I/O Port Output Toggle */ register8_t IN; /* I/O port Input */ register8_t INTCTRL; /* Interrupt Control Register */ register8_t INT0MASK; /* Port Interrupt 0 Mask */ register8_t INT1MASK; /* Port Interrupt 1 Mask */ register8_t INTFLAGS; /* Interrupt Flag Register */ register8_t reserved_0x0D; register8_t REMAP; /* I/O Port Pin Remap Register */ register8_t reserved_0x0F; register8_t PIN0CTRL; /* Pin 0 Control Register */ register8_t PIN1CTRL; /* Pin 1 Control Register */ register8_t PIN2CTRL; /* Pin 2 Control Register */ register8_t PIN3CTRL; /* Pin 3 Control Register */ register8_t PIN4CTRL; /* Pin 4 Control Register */ register8_t PIN5CTRL; /* Pin 5 Control Register */ register8_t PIN6CTRL; /* Pin 6 Control Register */ register8_t PIN7CTRL; /* Pin 7 Control Register */ } PORT_t; /* Port Interrupt 0 Level */ typedef enum PORT_INT0LVL_enum { PORT_INT0LVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ PORT_INT0LVL_LO_gc = (0x01<<0), /* Low Level */ PORT_INT0LVL_MED_gc = (0x02<<0), /* Medium Level */ PORT_INT0LVL_HI_gc = (0x03<<0), /* High Level */ } PORT_INT0LVL_t; /* Port Interrupt 1 Level */ typedef enum PORT_INT1LVL_enum { PORT_INT1LVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ PORT_INT1LVL_LO_gc = (0x01<<2), /* Low Level */ PORT_INT1LVL_MED_gc = (0x02<<2), /* Medium Level */ PORT_INT1LVL_HI_gc = (0x03<<2), /* High Level */ } PORT_INT1LVL_t; /* Output/Pull Configuration */ typedef enum PORT_OPC_enum { PORT_OPC_TOTEM_gc = (0x00<<3), /* Totempole */ PORT_OPC_BUSKEEPER_gc = (0x01<<3), /* Totempole w/ Bus keeper on Input and Output */ PORT_OPC_PULLDOWN_gc = (0x02<<3), /* Totempole w/ Pull-down on Input */ PORT_OPC_PULLUP_gc = (0x03<<3), /* Totempole w/ Pull-up on Input */ PORT_OPC_WIREDOR_gc = (0x04<<3), /* Wired OR */ PORT_OPC_WIREDAND_gc = (0x05<<3), /* Wired AND */ PORT_OPC_WIREDORPULL_gc = (0x06<<3), /* Wired OR w/ Pull-down */ PORT_OPC_WIREDANDPULL_gc = (0x07<<3), /* Wired AND w/ Pull-up */ } PORT_OPC_t; /* Input/Sense Configuration */ typedef enum PORT_ISC_enum { PORT_ISC_BOTHEDGES_gc = (0x00<<0), /* Sense Both Edges */ PORT_ISC_RISING_gc = (0x01<<0), /* Sense Rising Edge */ PORT_ISC_FALLING_gc = (0x02<<0), /* Sense Falling Edge */ PORT_ISC_LEVEL_gc = (0x03<<0), /* Sense Level (Transparent For Events) */ PORT_ISC_INPUT_DISABLE_gc = (0x07<<0), /* Disable Digital Input Buffer */ } PORT_ISC_t; /* -------------------------------------------------------------------------- TC - 16-bit Timer/Counter With PWM -------------------------------------------------------------------------- */ /* 16-bit Timer/Counter 0 */ typedef struct TC0_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t CTRLC; /* Control register C */ register8_t CTRLD; /* Control Register D */ register8_t CTRLE; /* Control Register E */ register8_t reserved_0x05; register8_t INTCTRLA; /* Interrupt Control Register A */ register8_t INTCTRLB; /* Interrupt Control Register B */ register8_t CTRLFCLR; /* Control Register F Clear */ register8_t CTRLFSET; /* Control Register F Set */ register8_t CTRLGCLR; /* Control Register G Clear */ register8_t CTRLGSET; /* Control Register G Set */ register8_t INTFLAGS; /* Interrupt Flag Register */ register8_t reserved_0x0D; register8_t reserved_0x0E; register8_t TEMP; /* Temporary Register 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(CCA); /* Compare or Capture A */ _WORDREGISTER(CCB); /* Compare or Capture B */ _WORDREGISTER(CCC); /* Compare or Capture C */ _WORDREGISTER(CCD); /* Compare or Capture D */ 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(CCABUF); /* Compare Or Capture A Buffer */ _WORDREGISTER(CCBBUF); /* Compare Or Capture B Buffer */ _WORDREGISTER(CCCBUF); /* Compare Or Capture C Buffer */ _WORDREGISTER(CCDBUF); /* Compare Or Capture D Buffer */ } TC0_t; /* 16-bit Timer/Counter 1 */ typedef struct TC1_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t CTRLC; /* Control register C */ register8_t CTRLD; /* Control Register D */ register8_t CTRLE; /* Control Register E */ register8_t reserved_0x05; register8_t INTCTRLA; /* Interrupt Control Register A */ register8_t INTCTRLB; /* Interrupt Control Register B */ register8_t CTRLFCLR; /* Control Register F Clear */ register8_t CTRLFSET; /* Control Register F Set */ register8_t CTRLGCLR; /* Control Register G Clear */ register8_t CTRLGSET; /* Control Register G Set */ register8_t INTFLAGS; /* Interrupt Flag Register */ register8_t reserved_0x0D; register8_t reserved_0x0E; register8_t TEMP; /* Temporary Register 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(CCA); /* Compare or Capture A */ _WORDREGISTER(CCB); /* Compare or Capture B */ 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; _WORDREGISTER(PERBUF); /* Period Buffer */ _WORDREGISTER(CCABUF); /* Compare Or Capture A Buffer */ _WORDREGISTER(CCBBUF); /* Compare Or Capture B Buffer */ } TC1_t; /* Clock Selection */ typedef enum TC_CLKSEL_enum { TC_CLKSEL_OFF_gc = (0x00<<0), /* Timer Off */ TC_CLKSEL_DIV1_gc = (0x01<<0), /* System Clock */ TC_CLKSEL_DIV2_gc = (0x02<<0), /* System Clock / 2 */ TC_CLKSEL_DIV4_gc = (0x03<<0), /* System Clock / 4 */ TC_CLKSEL_DIV8_gc = (0x04<<0), /* System Clock / 8 */ TC_CLKSEL_DIV64_gc = (0x05<<0), /* System Clock / 64 */ TC_CLKSEL_DIV256_gc = (0x06<<0), /* System Clock / 256 */ TC_CLKSEL_DIV1024_gc = (0x07<<0), /* System Clock / 1024 */ TC_CLKSEL_EVCH0_gc = (0x08<<0), /* Event Channel 0 */ TC_CLKSEL_EVCH1_gc = (0x09<<0), /* Event Channel 1 */ TC_CLKSEL_EVCH2_gc = (0x0A<<0), /* Event Channel 2 */ TC_CLKSEL_EVCH3_gc = (0x0B<<0), /* Event Channel 3 */ TC_CLKSEL_EVCH4_gc = (0x0C<<0), /* Event Channel 4 */ TC_CLKSEL_EVCH5_gc = (0x0D<<0), /* Event Channel 5 */ TC_CLKSEL_EVCH6_gc = (0x0E<<0), /* Event Channel 6 */ TC_CLKSEL_EVCH7_gc = (0x0F<<0), /* Event Channel 7 */ } TC_CLKSEL_t; /* Waveform Generation Mode */ typedef enum TC_WGMODE_enum { TC_WGMODE_NORMAL_gc = (0x00<<0), /* Normal Mode */ TC_WGMODE_FRQ_gc = (0x01<<0), /* Frequency Generation Mode */ TC_WGMODE_SINGLESLOPE_gc = (0x03<<0), /* Single Slope */ TC_WGMODE_SS_gc = (0x03<<0), /* Single Slope */ TC_WGMODE_DSTOP_gc = (0x05<<0), /* Dual Slope, Update on TOP */ TC_WGMODE_DS_T_gc = (0x05<<0), /* Dual Slope, Update on TOP */ TC_WGMODE_DSBOTH_gc = (0x06<<0), /* Dual Slope, Update on both TOP and BOTTOM */ TC_WGMODE_DS_TB_gc = (0x06<<0), /* Dual Slope, Update on both TOP and BOTTOM */ TC_WGMODE_DSBOTTOM_gc = (0x07<<0), /* Dual Slope, Update on BOTTOM */ TC_WGMODE_DS_B_gc = (0x07<<0), /* Dual Slope, Update on BOTTOM */ } TC_WGMODE_t; /* Byte Mode */ typedef enum TC_BYTEM_enum { TC_BYTEM_NORMAL_gc = (0x00<<0), /* 16-bit mode */ TC_BYTEM_BYTEMODE_gc = (0x01<<0), /* Timer/Counter operating in byte mode only */ TC_BYTEM_SPLITMODE_gc = (0x02<<0), /* Timer/Counter split into two 8-bit Counters (TC2) */ } TC_BYTEM_t; /* Event Action */ typedef enum TC_EVACT_enum { TC_EVACT_OFF_gc = (0x00<<5), /* No Event Action */ TC_EVACT_CAPT_gc = (0x01<<5), /* Input Capture */ TC_EVACT_UPDOWN_gc = (0x02<<5), /* Externally Controlled Up/Down Count */ TC_EVACT_QDEC_gc = (0x03<<5), /* Quadrature Decode */ TC_EVACT_RESTART_gc = (0x04<<5), /* Restart */ TC_EVACT_FRQ_gc = (0x05<<5), /* Frequency Capture */ TC_EVACT_PW_gc = (0x06<<5), /* Pulse-width Capture */ } TC_EVACT_t; /* Event Selection */ typedef enum TC_EVSEL_enum { TC_EVSEL_OFF_gc = (0x00<<0), /* No Event Source */ TC_EVSEL_CH0_gc = (0x08<<0), /* Event Channel 0 */ TC_EVSEL_CH1_gc = (0x09<<0), /* Event Channel 1 */ TC_EVSEL_CH2_gc = (0x0A<<0), /* Event Channel 2 */ TC_EVSEL_CH3_gc = (0x0B<<0), /* Event Channel 3 */ TC_EVSEL_CH4_gc = (0x0C<<0), /* Event Channel 4 */ TC_EVSEL_CH5_gc = (0x0D<<0), /* Event Channel 5 */ TC_EVSEL_CH6_gc = (0x0E<<0), /* Event Channel 6 */ TC_EVSEL_CH7_gc = (0x0F<<0), /* Event Channel 7 */ } TC_EVSEL_t; /* Error Interrupt Level */ typedef enum TC_ERRINTLVL_enum { TC_ERRINTLVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ TC_ERRINTLVL_LO_gc = (0x01<<2), /* Low Level */ TC_ERRINTLVL_MED_gc = (0x02<<2), /* Medium Level */ TC_ERRINTLVL_HI_gc = (0x03<<2), /* High Level */ } TC_ERRINTLVL_t; /* Overflow Interrupt Level */ typedef enum TC_OVFINTLVL_enum { TC_OVFINTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ TC_OVFINTLVL_LO_gc = (0x01<<0), /* Low Level */ TC_OVFINTLVL_MED_gc = (0x02<<0), /* Medium Level */ TC_OVFINTLVL_HI_gc = (0x03<<0), /* High Level */ } TC_OVFINTLVL_t; /* Compare or Capture D Interrupt Level */ typedef enum TC_CCDINTLVL_enum { TC_CCDINTLVL_OFF_gc = (0x00<<6), /* Interrupt Disabled */ TC_CCDINTLVL_LO_gc = (0x01<<6), /* Low Level */ TC_CCDINTLVL_MED_gc = (0x02<<6), /* Medium Level */ TC_CCDINTLVL_HI_gc = (0x03<<6), /* High Level */ } TC_CCDINTLVL_t; /* Compare or Capture C Interrupt Level */ typedef enum TC_CCCINTLVL_enum { TC_CCCINTLVL_OFF_gc = (0x00<<4), /* Interrupt Disabled */ TC_CCCINTLVL_LO_gc = (0x01<<4), /* Low Level */ TC_CCCINTLVL_MED_gc = (0x02<<4), /* Medium Level */ TC_CCCINTLVL_HI_gc = (0x03<<4), /* High Level */ } TC_CCCINTLVL_t; /* Compare or Capture B Interrupt Level */ typedef enum TC_CCBINTLVL_enum { TC_CCBINTLVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ TC_CCBINTLVL_LO_gc = (0x01<<2), /* Low Level */ TC_CCBINTLVL_MED_gc = (0x02<<2), /* Medium Level */ TC_CCBINTLVL_HI_gc = (0x03<<2), /* High Level */ } TC_CCBINTLVL_t; /* Compare or Capture A Interrupt Level */ typedef enum TC_CCAINTLVL_enum { TC_CCAINTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ TC_CCAINTLVL_LO_gc = (0x01<<0), /* Low Level */ TC_CCAINTLVL_MED_gc = (0x02<<0), /* Medium Level */ TC_CCAINTLVL_HI_gc = (0x03<<0), /* High Level */ } TC_CCAINTLVL_t; /* Timer/Counter Command */ typedef enum TC_CMD_enum { TC_CMD_NONE_gc = (0x00<<2), /* No Command */ TC_CMD_UPDATE_gc = (0x01<<2), /* Force Update */ TC_CMD_RESTART_gc = (0x02<<2), /* Force Restart */ TC_CMD_RESET_gc = (0x03<<2), /* Force Hard Reset */ } TC_CMD_t; /* -------------------------------------------------------------------------- TC2 - 16-bit Timer/Counter type 2 -------------------------------------------------------------------------- */ /* 16-bit Timer/Counter type 2 */ typedef struct TC2_struct { register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t CTRLC; /* Control register C */ register8_t reserved_0x03; register8_t CTRLE; /* Control Register E */ register8_t reserved_0x05; register8_t INTCTRLA; /* Interrupt Control Register A */ register8_t INTCTRLB; /* Interrupt Control Register B */ register8_t reserved_0x08; register8_t CTRLF; /* Control Register F */ register8_t reserved_0x0A; register8_t reserved_0x0B; register8_t INTFLAGS; /* Interrupt Flag Register */ 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 LCNT; /* Low Byte Count */ register8_t HCNT; /* High Byte Count */ register8_t reserved_0x22; register8_t reserved_0x23; register8_t reserved_0x24; register8_t reserved_0x25; register8_t LPER; /* Low Byte Period */ register8_t HPER; /* High Byte Period */ register8_t LCMPA; /* Low Byte Compare A */ register8_t HCMPA; /* High Byte Compare A */ register8_t LCMPB; /* Low Byte Compare B */ register8_t HCMPB; /* High Byte Compare B */ register8_t LCMPC; /* Low Byte Compare C */ register8_t HCMPC; /* High Byte Compare C */ register8_t LCMPD; /* Low Byte Compare D */ register8_t HCMPD; /* High Byte Compare D */ } TC2_t; /* Clock Selection */ typedef enum TC2_CLKSEL_enum { TC2_CLKSEL_OFF_gc = (0x00<<0), /* Timer Off */ TC2_CLKSEL_DIV1_gc = (0x01<<0), /* System Clock */ TC2_CLKSEL_DIV2_gc = (0x02<<0), /* System Clock / 2 */ TC2_CLKSEL_DIV4_gc = (0x03<<0), /* System Clock / 4 */ TC2_CLKSEL_DIV8_gc = (0x04<<0), /* System Clock / 8 */ TC2_CLKSEL_DIV64_gc = (0x05<<0), /* System Clock / 64 */ TC2_CLKSEL_DIV256_gc = (0x06<<0), /* System Clock / 256 */ TC2_CLKSEL_DIV1024_gc = (0x07<<0), /* System Clock / 1024 */ TC2_CLKSEL_EVCH0_gc = (0x08<<0), /* Event Channel 0 */ TC2_CLKSEL_EVCH1_gc = (0x09<<0), /* Event Channel 1 */ TC2_CLKSEL_EVCH2_gc = (0x0A<<0), /* Event Channel 2 */ TC2_CLKSEL_EVCH3_gc = (0x0B<<0), /* Event Channel 3 */ TC2_CLKSEL_EVCH4_gc = (0x0C<<0), /* Event Channel 4 */ TC2_CLKSEL_EVCH5_gc = (0x0D<<0), /* Event Channel 5 */ TC2_CLKSEL_EVCH6_gc = (0x0E<<0), /* Event Channel 6 */ TC2_CLKSEL_EVCH7_gc = (0x0F<<0), /* Event Channel 7 */ } TC2_CLKSEL_t; /* Byte Mode */ typedef enum TC2_BYTEM_enum { TC2_BYTEM_NORMAL_gc = (0x00<<0), /* 16-bit mode */ TC2_BYTEM_BYTEMODE_gc = (0x01<<0), /* Timer/Counter operating in byte mode only (TC2) */ TC2_BYTEM_SPLITMODE_gc = (0x02<<0), /* Timer/Counter split into two 8-bit Counters */ } TC2_BYTEM_t; /* High Byte Underflow Interrupt Level */ typedef enum TC2_HUNFINTLVL_enum { TC2_HUNFINTLVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ TC2_HUNFINTLVL_LO_gc = (0x01<<2), /* Low Level */ TC2_HUNFINTLVL_MED_gc = (0x02<<2), /* Medium Level */ TC2_HUNFINTLVL_HI_gc = (0x03<<2), /* High Level */ } TC2_HUNFINTLVL_t; /* Low Byte Underflow Interrupt Level */ typedef enum TC2_LUNFINTLVL_enum { TC2_LUNFINTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ TC2_LUNFINTLVL_LO_gc = (0x01<<0), /* Low Level */ TC2_LUNFINTLVL_MED_gc = (0x02<<0), /* Medium Level */ TC2_LUNFINTLVL_HI_gc = (0x03<<0), /* High Level */ } TC2_LUNFINTLVL_t; /* Low Byte Compare D Interrupt Level */ typedef enum TC2_LCMPDINTLVL_enum { TC2_LCMPDINTLVL_OFF_gc = (0x00<<6), /* Interrupt Disabled */ TC2_LCMPDINTLVL_LO_gc = (0x01<<6), /* Low Level */ TC2_LCMPDINTLVL_MED_gc = (0x02<<6), /* Medium Level */ TC2_LCMPDINTLVL_HI_gc = (0x03<<6), /* High Level */ } TC2_LCMPDINTLVL_t; /* Low Byte Compare C Interrupt Level */ typedef enum TC2_LCMPCINTLVL_enum { TC2_LCMPCINTLVL_OFF_gc = (0x00<<4), /* Interrupt Disabled */ TC2_LCMPCINTLVL_LO_gc = (0x01<<4), /* Low Level */ TC2_LCMPCINTLVL_MED_gc = (0x02<<4), /* Medium Level */ TC2_LCMPCINTLVL_HI_gc = (0x03<<4), /* High Level */ } TC2_LCMPCINTLVL_t; /* Low Byte Compare B Interrupt Level */ typedef enum TC2_LCMPBINTLVL_enum { TC2_LCMPBINTLVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ TC2_LCMPBINTLVL_LO_gc = (0x01<<2), /* Low Level */ TC2_LCMPBINTLVL_MED_gc = (0x02<<2), /* Medium Level */ TC2_LCMPBINTLVL_HI_gc = (0x03<<2), /* High Level */ } TC2_LCMPBINTLVL_t; /* Low Byte Compare A Interrupt Level */ typedef enum TC2_LCMPAINTLVL_enum { TC2_LCMPAINTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ TC2_LCMPAINTLVL_LO_gc = (0x01<<0), /* Low Level */ TC2_LCMPAINTLVL_MED_gc = (0x02<<0), /* Medium Level */ TC2_LCMPAINTLVL_HI_gc = (0x03<<0), /* High Level */ } TC2_LCMPAINTLVL_t; /* Timer/Counter Command */ typedef enum TC2_CMD_enum { TC2_CMD_NONE_gc = (0x00<<2), /* No Command */ TC2_CMD_RESTART_gc = (0x02<<2), /* Force Restart */ TC2_CMD_RESET_gc = (0x03<<2), /* Force Hard Reset */ } TC2_CMD_t; /* Timer/Counter Command */ typedef enum TC2_CMDEN_enum { TC2_CMDEN_LOW_gc = (0x01<<0), /* Low Byte Timer/Counter */ TC2_CMDEN_HIGH_gc = (0x02<<0), /* High Byte Timer/Counter */ TC2_CMDEN_BOTH_gc = (0x03<<0), /* Both Low Byte and High Byte Timer/Counters */ } TC2_CMDEN_t; /* -------------------------------------------------------------------------- AWEX - Timer/Counter Advanced Waveform Extension -------------------------------------------------------------------------- */ /* Advanced Waveform Extension */ typedef struct AWEX_struct { register8_t CTRL; /* Control Register */ register8_t reserved_0x01; register8_t FDEMASK; /* Fault Detection Event Mask */ register8_t FDCTRL; /* Fault Detection Control Register */ register8_t STATUS; /* Status Register */ register8_t STATUSSET; /* Status Set Register */ register8_t DTBOTH; /* Dead Time Both Sides */ register8_t DTBOTHBUF; /* Dead Time Both Sides Buffer */ register8_t DTLS; /* Dead Time Low Side */ register8_t DTHS; /* Dead Time High Side */ register8_t DTLSBUF; /* Dead Time Low Side Buffer */ register8_t DTHSBUF; /* Dead Time High Side Buffer */ register8_t OUTOVEN; /* Output Override Enable */ } AWEX_t; /* Fault Detect Action */ typedef enum AWEX_FDACT_enum { AWEX_FDACT_NONE_gc = (0x00<<0), /* No Fault Protection */ AWEX_FDACT_CLEAROE_gc = (0x01<<0), /* Clear Output Enable Bits */ AWEX_FDACT_CLEARDIR_gc = (0x03<<0), /* Clear I/O Port Direction Bits */ } AWEX_FDACT_t; /* -------------------------------------------------------------------------- HIRES - Timer/Counter High-Resolution Extension -------------------------------------------------------------------------- */ /* High-Resolution Extension */ typedef struct HIRES_struct { register8_t CTRLA; /* Control Register */ } HIRES_t; /* High Resolution Enable */ typedef enum HIRES_HREN_enum { HIRES_HREN_NONE_gc = (0x00<<0), /* No Fault Protection */ HIRES_HREN_TC0_gc = (0x01<<0), /* Enable High Resolution on Timer/Counter 0 */ HIRES_HREN_TC1_gc = (0x02<<0), /* Enable High Resolution on Timer/Counter 1 */ HIRES_HREN_BOTH_gc = (0x03<<0), /* Enable High Resolution both Timer/Counters */ } HIRES_HREN_t; /* -------------------------------------------------------------------------- USART - Universal Asynchronous Receiver-Transmitter -------------------------------------------------------------------------- */ /* Universal Synchronous/Asynchronous Receiver/Transmitter */ typedef struct USART_struct { register8_t DATA; /* Data Register */ register8_t STATUS; /* Status Register */ register8_t reserved_0x02; register8_t CTRLA; /* Control Register A */ register8_t CTRLB; /* Control Register B */ register8_t CTRLC; /* Control Register C */ register8_t BAUDCTRLA; /* Baud Rate Control Register A */ register8_t BAUDCTRLB; /* Baud Rate Control Register B */ } USART_t; /* Receive Complete Interrupt level */ typedef enum USART_RXCINTLVL_enum { USART_RXCINTLVL_OFF_gc = (0x00<<4), /* Interrupt Disabled */ USART_RXCINTLVL_LO_gc = (0x01<<4), /* Low Level */ USART_RXCINTLVL_MED_gc = (0x02<<4), /* Medium Level */ USART_RXCINTLVL_HI_gc = (0x03<<4), /* High Level */ } USART_RXCINTLVL_t; /* Transmit Complete Interrupt level */ typedef enum USART_TXCINTLVL_enum { USART_TXCINTLVL_OFF_gc = (0x00<<2), /* Interrupt Disabled */ USART_TXCINTLVL_LO_gc = (0x01<<2), /* Low Level */ USART_TXCINTLVL_MED_gc = (0x02<<2), /* Medium Level */ USART_TXCINTLVL_HI_gc = (0x03<<2), /* High Level */ } USART_TXCINTLVL_t; /* Data Register Empty Interrupt level */ typedef enum USART_DREINTLVL_enum { USART_DREINTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ USART_DREINTLVL_LO_gc = (0x01<<0), /* Low Level */ USART_DREINTLVL_MED_gc = (0x02<<0), /* Medium Level */ USART_DREINTLVL_HI_gc = (0x03<<0), /* High Level */ } USART_DREINTLVL_t; /* Character Size */ 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_9BIT_gc = (0x07<<0), /* Character size: 9 bit */ } USART_CHSIZE_t; /* Communication Mode */ typedef enum USART_CMODE_enum { USART_CMODE_ASYNCHRONOUS_gc = (0x00<<6), /* Asynchronous Mode */ USART_CMODE_SYNCHRONOUS_gc = (0x01<<6), /* Synchronous Mode */ USART_CMODE_IRDA_gc = (0x02<<6), /* IrDA Mode */ USART_CMODE_MSPI_gc = (0x03<<6), /* Master SPI Mode */ } USART_CMODE_t; /* Parity Mode */ 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; /* -------------------------------------------------------------------------- SPI - Serial Peripheral Interface -------------------------------------------------------------------------- */ /* Serial Peripheral Interface */ typedef struct SPI_struct { register8_t CTRL; /* Control Register */ register8_t INTCTRL; /* Interrupt Control Register */ register8_t STATUS; /* Status Register */ register8_t DATA; /* Data Register */ } SPI_t; /* SPI Mode */ typedef enum SPI_MODE_enum { SPI_MODE_0_gc = (0x00<<2), /* SPI Mode 0 */ SPI_MODE_1_gc = (0x01<<2), /* SPI Mode 1 */ SPI_MODE_2_gc = (0x02<<2), /* SPI Mode 2 */ SPI_MODE_3_gc = (0x03<<2), /* SPI Mode 3 */ } SPI_MODE_t; /* Prescaler setting */ typedef enum SPI_PRESCALER_enum { SPI_PRESCALER_DIV4_gc = (0x00<<0), /* System Clock / 4 */ SPI_PRESCALER_DIV16_gc = (0x01<<0), /* System Clock / 16 */ SPI_PRESCALER_DIV64_gc = (0x02<<0), /* System Clock / 64 */ SPI_PRESCALER_DIV128_gc = (0x03<<0), /* System Clock / 128 */ } SPI_PRESCALER_t; /* Interrupt level */ typedef enum SPI_INTLVL_enum { SPI_INTLVL_OFF_gc = (0x00<<0), /* Interrupt Disabled */ SPI_INTLVL_LO_gc = (0x01<<0), /* Low Level */ SPI_INTLVL_MED_gc = (0x02<<0), /* Medium Level */ SPI_INTLVL_HI_gc = (0x03<<0), /* High Level */ } SPI_INTLVL_t; /* -------------------------------------------------------------------------- IRCOM - IR Communication Module -------------------------------------------------------------------------- */ /* IR Communication Module */ typedef struct IRCOM_struct { register8_t CTRL; /* Control Register */ register8_t TXPLCTRL; /* IrDA Transmitter Pulse Length Control Register */ register8_t RXPLCTRL; /* IrDA Receiver Pulse Length Control Register */ } IRCOM_t; /* Event channel selection */ typedef enum IRDA_EVSEL_enum { IRDA_EVSEL_OFF_gc = (0x00<<0), /* No Event Source */ IRDA_EVSEL_0_gc = (0x08<<0), /* Event Channel 0 */ IRDA_EVSEL_1_gc = (0x09<<0), /* Event Channel 1 */ IRDA_EVSEL_2_gc = (0x0A<<0), /* Event Channel 2 */ IRDA_EVSEL_3_gc = (0x0B<<0), /* Event Channel 3 */ IRDA_EVSEL_4_gc = (0x0C<<0), /* Event Channel 4 */ IRDA_EVSEL_5_gc = (0x0D<<0), /* Event Channel 5 */ IRDA_EVSEL_6_gc = (0x0E<<0), /* Event Channel 6 */ IRDA_EVSEL_7_gc = (0x0F<<0), /* Event Channel 7 */ } IRDA_EVSEL_t; /* -------------------------------------------------------------------------- FUSE - Fuses and Lockbits -------------------------------------------------------------------------- */ /* Fuses */ typedef struct NVM_FUSES_struct { register8_t reserved_0x00; register8_t FUSEBYTE1; /* Watchdog Configuration */ register8_t FUSEBYTE2; /* Reset Configuration */ register8_t reserved_0x03; register8_t FUSEBYTE4; /* Start-up Configuration */ register8_t FUSEBYTE5; /* EESAVE and BOD Level */ } NVM_FUSES_t; /* Boot Loader Section Reset Vector */ typedef enum BOOTRST_enum { BOOTRST_BOOTLDR_gc = (0x00<<6), /* Boot Loader Reset */ BOOTRST_APPLICATION_gc = (0x01<<6), /* Application Reset */ } BOOTRST_t; /* Timer Oscillator pin location */ typedef enum TOSCSEL_enum { TOSCSEL_ALTERNATE_gc = (0x00<<5), /* TOSC1 / TOSC2 on separate pins */ TOSCSEL_XTAL_gc = (0x01<<5), /* TOSC1 / TOSC2 shared with XTAL1 / XTAL2 */ } TOSCSEL_t; /* BOD operation */ typedef enum BOD_enum { BOD_SAMPLED_gc = (0x01<<0), /* BOD enabled in sampled mode */ BOD_CONTINUOUS_gc = (0x02<<0), /* BOD enabled continuously */ BOD_DISABLED_gc = (0x03<<0), /* BOD Disabled */ } BOD_t; /* BOD operation */ typedef enum BODACT_enum { BODACT_SAMPLED_gc = (0x01<<4), /* BOD enabled in sampled mode */ BODACT_CONTINUOUS_gc = (0x02<<4), /* BOD enabled continuously */ BODACT_DISABLED_gc = (0x03<<4), /* BOD Disabled */ } BODACT_t; /* Watchdog (Window) Timeout Period */ typedef enum WD_enum { WD_8CLK_gc = (0x00<<4), /* 8 cycles (8ms @ 3.3V) */ WD_16CLK_gc = (0x01<<4), /* 16 cycles (16ms @ 3.3V) */ WD_32CLK_gc = (0x02<<4), /* 32 cycles (32ms @ 3.3V) */ WD_64CLK_gc = (0x03<<4), /* 64 cycles (64ms @ 3.3V) */ WD_128CLK_gc = (0x04<<4), /* 128 cycles (0.125s @ 3.3V) */ WD_256CLK_gc = (0x05<<4), /* 256 cycles (0.25s @ 3.3V) */ WD_512CLK_gc = (0x06<<4), /* 512 cycles (0.5s @ 3.3V) */ WD_1KCLK_gc = (0x07<<4), /* 1K cycles (1s @ 3.3V) */ WD_2KCLK_gc = (0x08<<4), /* 2K cycles (2s @ 3.3V) */ WD_4KCLK_gc = (0x09<<4), /* 4K cycles (4s @ 3.3V) */ WD_8KCLK_gc = (0x0A<<4), /* 8K cycles (8s @ 3.3V) */ } WD_t; /* Watchdog (Window) Timeout Period */ typedef enum WDP_enum { WDP_8CLK_gc = (0x00<<0), /* 8 cycles (8ms @ 3.3V) */ WDP_16CLK_gc = (0x01<<0), /* 16 cycles (16ms @ 3.3V) */ WDP_32CLK_gc = (0x02<<0), /* 32 cycles (32ms @ 3.3V) */ WDP_64CLK_gc = (0x03<<0), /* 64 cycles (64ms @ 3.3V) */ WDP_128CLK_gc = (0x04<<0), /* 128 cycles (0.125s @ 3.3V) */ WDP_256CLK_gc = (0x05<<0), /* 256 cycles (0.25s @ 3.3V) */ WDP_512CLK_gc = (0x06<<0), /* 512 cycles (0.5s @ 3.3V) */ WDP_1KCLK_gc = (0x07<<0), /* 1K cycles (1s @ 3.3V) */ WDP_2KCLK_gc = (0x08<<0), /* 2K cycles (2s @ 3.3V) */ WDP_4KCLK_gc = (0x09<<0), /* 4K cycles (4s @ 3.3V) */ WDP_8KCLK_gc = (0x0A<<0), /* 8K cycles (8s @ 3.3V) */ } WDP_t; /* Start-up Time */ typedef enum SUT_enum { SUT_0MS_gc = (0x03<<2), /* 0 ms */ SUT_4MS_gc = (0x01<<2), /* 4 ms */ SUT_64MS_gc = (0x00<<2), /* 64 ms */ } SUT_t; /* Brownout Detection Voltage Level */ typedef enum BODLVL_enum { BODLVL_1V6_gc = (0x07<<0), /* 1.6 V */ BODLVL_1V8_gc = (0x06<<0), /* 1.8 V */ BODLVL_2V0_gc = (0x05<<0), /* 2.0 V */ BODLVL_2V2_gc = (0x04<<0), /* 2.2 V */ BODLVL_2V4_gc = (0x03<<0), /* 2.4 V */ BODLVL_2V6_gc = (0x02<<0), /* 2.6 V */ BODLVL_2V8_gc = (0x01<<0), /* 2.8 V */ BODLVL_3V0_gc = (0x00<<0), /* 3.0 V */ } BODLVL_t; /* -------------------------------------------------------------------------- LOCKBIT - Fuses and Lockbits -------------------------------------------------------------------------- */ /* Lock Bits */ typedef struct NVM_LOCKBITS_struct { register8_t LOCK_BITS; /* Lock Bits (Changed from LOCKBITS to avoid avr-libc collision) */ } NVM_LOCKBITS_t; /* Boot lock bits - boot setcion */ typedef enum FUSE_BLBB_enum { FUSE_BLBB_RWLOCK_gc = (0x00<<6), /* Read and write not allowed */ FUSE_BLBB_RLOCK_gc = (0x01<<6), /* Read not allowed */ FUSE_BLBB_WLOCK_gc = (0x02<<6), /* Write not allowed */ FUSE_BLBB_NOLOCK_gc = (0x03<<6), /* No locks */ } FUSE_BLBB_t; /* Boot lock bits - application section */ typedef enum FUSE_BLBA_enum { FUSE_BLBA_RWLOCK_gc = (0x00<<4), /* Read and write not allowed */ FUSE_BLBA_RLOCK_gc = (0x01<<4), /* Read not allowed */ FUSE_BLBA_WLOCK_gc = (0x02<<4), /* Write not allowed */ FUSE_BLBA_NOLOCK_gc = (0x03<<4), /* No locks */ } FUSE_BLBA_t; /* Boot lock bits - application table section */ typedef enum FUSE_BLBAT_enum { FUSE_BLBAT_RWLOCK_gc = (0x00<<2), /* Read and write not allowed */ FUSE_BLBAT_RLOCK_gc = (0x01<<2), /* Read not allowed */ FUSE_BLBAT_WLOCK_gc = (0x02<<2), /* Write not allowed */ FUSE_BLBAT_NOLOCK_gc = (0x03<<2), /* No locks */ } FUSE_BLBAT_t; /* Lock bits */ typedef enum FUSE_LB_enum { FUSE_LB_RWLOCK_gc = (0x00<<0), /* Read and write not allowed */ FUSE_LB_WLOCK_gc = (0x02<<0), /* Write not allowed */ FUSE_LB_NOLOCK_gc = (0x03<<0), /* No locks */ } FUSE_LB_t; /* -------------------------------------------------------------------------- SIGROW - Signature Row -------------------------------------------------------------------------- */ /* Production Signatures */ typedef struct NVM_PROD_SIGNATURES_struct { register8_t RCOSC2M; /* RCOSC 2 MHz Calibration Value B */ register8_t RCOSC2MA; /* RCOSC 2 MHz Calibration Value A */ register8_t RCOSC32K; /* RCOSC 32.768 kHz Calibration Value */ register8_t RCOSC32M; /* RCOSC 32 MHz Calibration Value B */ register8_t RCOSC32MA; /* RCOSC 32 MHz Calibration Value A */ register8_t reserved_0x05; register8_t reserved_0x06; register8_t reserved_0x07; register8_t LOTNUM0; /* Lot Number Byte 0, ASCII */ register8_t LOTNUM1; /* Lot Number Byte 1, ASCII */ register8_t LOTNUM2; /* Lot Number Byte 2, ASCII */ register8_t LOTNUM3; /* Lot Number Byte 3, ASCII */ register8_t LOTNUM4; /* Lot Number Byte 4, ASCII */ register8_t LOTNUM5; /* Lot Number Byte 5, ASCII */ register8_t reserved_0x0E; register8_t reserved_0x0F; register8_t WAFNUM; /* Wafer Number */ register8_t reserved_0x11; register8_t COORDX0; /* Wafer Coordinate X Byte 0 */ register8_t COORDX1; /* Wafer Coordinate X Byte 1 */ register8_t COORDY0; /* Wafer Coordinate Y Byte 0 */ register8_t COORDY1; /* Wafer Coordinate Y Byte 1 */ register8_t reserved_0x16; register8_t reserved_0x17; register8_t reserved_0x18; register8_t reserved_0x19; register8_t USBCAL0; /* USB Calibration Byte 0 */ register8_t USBCAL1; /* USB Calibration Byte 1 */ register8_t USBRCOSC; /* USB RCOSC Calibration Value B */ register8_t USBRCOSCA; /* USB RCOSC Calibration Value A */ register8_t reserved_0x1E; register8_t reserved_0x1F; register8_t ADCACAL0; /* ADCA Calibration Byte 0 */ register8_t ADCACAL1; /* ADCA Calibration Byte 1 */ register8_t reserved_0x22; register8_t reserved_0x23; register8_t ADCBCAL0; /* ADCB Calibration Byte 0 */ register8_t ADCBCAL1; /* ADCB Calibration Byte 1 */ 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 TEMPSENSE0; /* Temperature Sensor Calibration Byte 0 */ register8_t TEMPSENSE1; /* Temperature Sensor Calibration Byte 1 */ register8_t DACA0OFFCAL; /* DACA0 Calibration Byte 0 */ register8_t DACA0GAINCAL; /* DACA0 Calibration Byte 1 */ register8_t DACB0OFFCAL; /* DACB0 Calibration Byte 0 */ register8_t DACB0GAINCAL; /* DACB0 Calibration Byte 1 */ register8_t DACA1OFFCAL; /* DACA1 Calibration Byte 0 */ register8_t DACA1GAINCAL; /* DACA1 Calibration Byte 1 */ register8_t DACB1OFFCAL; /* DACB1 Calibration Byte 0 */ register8_t DACB1GAINCAL; /* DACB1 Calibration Byte 1 */ 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; register8_t reserved_0x40; register8_t reserved_0x41; register8_t reserved_0x42; register8_t reserved_0x43; register8_t reserved_0x44; register8_t reserved_0x45; register8_t reserved_0x46; register8_t reserved_0x47; } NVM_PROD_SIGNATURES_t; /* ========================================================================== IO Module Instances. Mapped to memory. ========================================================================== */ #define VPORT0 (*(VPORT_t *) 0x0010) /* Virtual Port */ #define VPORT1 (*(VPORT_t *) 0x0014) /* Virtual Port */ #define VPORT2 (*(VPORT_t *) 0x0018) /* Virtual Port */ #define VPORT3 (*(VPORT_t *) 0x001C) /* Virtual Port */ #define OCD (*(OCD_t *) 0x002E) /* On-Chip Debug System */ #define CLK (*(CLK_t *) 0x0040) /* Clock System */ #define SLEEP (*(SLEEP_t *) 0x0048) /* Sleep Controller */ #define OSC (*(OSC_t *) 0x0050) /* Oscillator */ #define DFLLRC32M (*(DFLL_t *) 0x0060) /* DFLL */ #define DFLLRC2M (*(DFLL_t *) 0x0068) /* DFLL */ #define PR (*(PR_t *) 0x0070) /* Power Reduction */ #define RST (*(RST_t *) 0x0078) /* Reset */ #define WDT (*(WDT_t *) 0x0080) /* Watch-Dog Timer */ #define MCU (*(MCU_t *) 0x0090) /* MCU Control */ #define PMIC (*(PMIC_t *) 0x00A0) /* Programmable Multi-level Interrupt Controller */ #define PORTCFG (*(PORTCFG_t *) 0x00B0) /* I/O port Configuration */ #define AES (*(AES_t *) 0x00C0) /* AES Module */ #define CRC (*(CRC_t *) 0x00D0) /* Cyclic Redundancy Checker */ #define DMA (*(DMA_t *) 0x0100) /* DMA Controller */ #define EVSYS (*(EVSYS_t *) 0x0180) /* Event System */ #define NVM (*(NVM_t *) 0x01C0) /* Non-volatile Memory Controller */ #define ADCA (*(ADC_t *) 0x0200) /* Analog-to-Digital Converter */ #define DACB (*(DAC_t *) 0x0320) /* Digital-to-Analog Converter */ #define ACA (*(AC_t *) 0x0380) /* Analog Comparator */ #define RTC (*(RTC_t *) 0x0400) /* Real-Time Counter */ #define TWIC (*(TWI_t *) 0x0480) /* Two-Wire Interface */ #define TWIE (*(TWI_t *) 0x04A0) /* Two-Wire Interface */ #define USB (*(USB_t *) 0x04C0) /* Universal Serial Bus */ #define PORTA (*(PORT_t *) 0x0600) /* I/O Ports */ #define PORTB (*(PORT_t *) 0x0620) /* I/O Ports */ #define PORTC (*(PORT_t *) 0x0640) /* I/O Ports */ #define PORTD (*(PORT_t *) 0x0660) /* I/O Ports */ #define PORTE (*(PORT_t *) 0x0680) /* I/O Ports */ #define PORTR (*(PORT_t *) 0x07E0) /* I/O Ports */ #define TCC0 (*(TC0_t *) 0x0800) /* 16-bit Timer/Counter 0 */ #define TCC2 (*(TC2_t *) 0x0800) /* 16-bit Timer/Counter type 2 */ #define TCC1 (*(TC1_t *) 0x0840) /* 16-bit Timer/Counter 1 */ #define AWEXC (*(AWEX_t *) 0x0880) /* Advanced Waveform Extension */ #define HIRESC (*(HIRES_t *) 0x0890) /* High-Resolution Extension */ #define USARTC0 (*(USART_t *) 0x08A0) /* Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTC1 (*(USART_t *) 0x08B0) /* Universal Synchronous/Asynchronous Receiver/Transmitter */ #define SPIC (*(SPI_t *) 0x08C0) /* Serial Peripheral Interface */ #define IRCOM (*(IRCOM_t *) 0x08F8) /* IR Communication Module */ #define TCD0 (*(TC0_t *) 0x0900) /* 16-bit Timer/Counter 0 */ #define TCD2 (*(TC2_t *) 0x0900) /* 16-bit Timer/Counter type 2 */ #define TCD1 (*(TC1_t *) 0x0940) /* 16-bit Timer/Counter 1 */ #define HIRESD (*(HIRES_t *) 0x0990) /* High-Resolution Extension */ #define USARTD0 (*(USART_t *) 0x09A0) /* Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTD1 (*(USART_t *) 0x09B0) /* Universal Synchronous/Asynchronous Receiver/Transmitter */ #define SPID (*(SPI_t *) 0x09C0) /* Serial Peripheral Interface */ #define TCE0 (*(TC0_t *) 0x0A00) /* 16-bit Timer/Counter 0 */ #define HIRESE (*(HIRES_t *) 0x0A90) /* High-Resolution Extension */ #define USARTE0 (*(USART_t *) 0x0AA0) /* Universal Synchronous/Asynchronous Receiver/Transmitter */ #endif /* !defined (__ASSEMBLER__) */ /* ========== Flattened fully qualified IO register names ========== */ /* GPIO - General Purpose IO Registers */ #define GPIO_GPIOR0 _SFR_MEM8(0x0000) #define GPIO_GPIOR1 _SFR_MEM8(0x0001) #define GPIO_GPIOR2 _SFR_MEM8(0x0002) #define GPIO_GPIOR3 _SFR_MEM8(0x0003) #define GPIO_GPIOR4 _SFR_MEM8(0x0004) #define GPIO_GPIOR5 _SFR_MEM8(0x0005) #define GPIO_GPIOR6 _SFR_MEM8(0x0006) #define GPIO_GPIOR7 _SFR_MEM8(0x0007) #define GPIO_GPIOR8 _SFR_MEM8(0x0008) #define GPIO_GPIOR9 _SFR_MEM8(0x0009) #define GPIO_GPIORA _SFR_MEM8(0x000A) #define GPIO_GPIORB _SFR_MEM8(0x000B) #define GPIO_GPIORC _SFR_MEM8(0x000C) #define GPIO_GPIORD _SFR_MEM8(0x000D) #define GPIO_GPIORE _SFR_MEM8(0x000E) #define GPIO_GPIORF _SFR_MEM8(0x000F) /* Deprecated */ #define GPIO_GPIO0 _SFR_MEM8(0x0000) #define GPIO_GPIO1 _SFR_MEM8(0x0001) #define GPIO_GPIO2 _SFR_MEM8(0x0002) #define GPIO_GPIO3 _SFR_MEM8(0x0003) #define GPIO_GPIO4 _SFR_MEM8(0x0004) #define GPIO_GPIO5 _SFR_MEM8(0x0005) #define GPIO_GPIO6 _SFR_MEM8(0x0006) #define GPIO_GPIO7 _SFR_MEM8(0x0007) #define GPIO_GPIO8 _SFR_MEM8(0x0008) #define GPIO_GPIO9 _SFR_MEM8(0x0009) #define GPIO_GPIOA _SFR_MEM8(0x000A) #define GPIO_GPIOB _SFR_MEM8(0x000B) #define GPIO_GPIOC _SFR_MEM8(0x000C) #define GPIO_GPIOD _SFR_MEM8(0x000D) #define GPIO_GPIOE _SFR_MEM8(0x000E) #define GPIO_GPIOF _SFR_MEM8(0x000F) /* NVM_FUSES - Fuses */ #define FUSE_FUSEBYTE1 _SFR_MEM8(0x0001) #define FUSE_FUSEBYTE2 _SFR_MEM8(0x0002) #define FUSE_FUSEBYTE4 _SFR_MEM8(0x0004) #define FUSE_FUSEBYTE5 _SFR_MEM8(0x0005) /* NVM_LOCKBITS - Lock Bits */ #define LOCKBIT_LOCKBITS _SFR_MEM8(0x0000) /* NVM_PROD_SIGNATURES - Production Signatures */ #define PRODSIGNATURES_RCOSC2M _SFR_MEM8(0x0000) #define PRODSIGNATURES_RCOSC2MA _SFR_MEM8(0x0001) #define PRODSIGNATURES_RCOSC32K _SFR_MEM8(0x0002) #define PRODSIGNATURES_RCOSC32M _SFR_MEM8(0x0003) #define PRODSIGNATURES_RCOSC32MA _SFR_MEM8(0x0004) #define PRODSIGNATURES_LOTNUM0 _SFR_MEM8(0x0008) #define PRODSIGNATURES_LOTNUM1 _SFR_MEM8(0x0009) #define PRODSIGNATURES_LOTNUM2 _SFR_MEM8(0x000A) #define PRODSIGNATURES_LOTNUM3 _SFR_MEM8(0x000B) #define PRODSIGNATURES_LOTNUM4 _SFR_MEM8(0x000C) #define PRODSIGNATURES_LOTNUM5 _SFR_MEM8(0x000D) #define PRODSIGNATURES_WAFNUM _SFR_MEM8(0x0010) #define PRODSIGNATURES_COORDX0 _SFR_MEM8(0x0012) #define PRODSIGNATURES_COORDX1 _SFR_MEM8(0x0013) #define PRODSIGNATURES_COORDY0 _SFR_MEM8(0x0014) #define PRODSIGNATURES_COORDY1 _SFR_MEM8(0x0015) #define PRODSIGNATURES_USBCAL0 _SFR_MEM8(0x001A) #define PRODSIGNATURES_USBCAL1 _SFR_MEM8(0x001B) #define PRODSIGNATURES_USBRCOSC _SFR_MEM8(0x001C) #define PRODSIGNATURES_USBRCOSCA _SFR_MEM8(0x001D) #define PRODSIGNATURES_ADCACAL0 _SFR_MEM8(0x0020) #define PRODSIGNATURES_ADCACAL1 _SFR_MEM8(0x0021) #define PRODSIGNATURES_ADCBCAL0 _SFR_MEM8(0x0024) #define PRODSIGNATURES_ADCBCAL1 _SFR_MEM8(0x0025) #define PRODSIGNATURES_TEMPSENSE0 _SFR_MEM8(0x002E) #define PRODSIGNATURES_TEMPSENSE1 _SFR_MEM8(0x002F) #define PRODSIGNATURES_DACA0OFFCAL _SFR_MEM8(0x0030) #define PRODSIGNATURES_DACA0GAINCAL _SFR_MEM8(0x0031) #define PRODSIGNATURES_DACB0OFFCAL _SFR_MEM8(0x0032) #define PRODSIGNATURES_DACB0GAINCAL _SFR_MEM8(0x0033) #define PRODSIGNATURES_DACA1OFFCAL _SFR_MEM8(0x0034) #define PRODSIGNATURES_DACA1GAINCAL _SFR_MEM8(0x0035) #define PRODSIGNATURES_DACB1OFFCAL _SFR_MEM8(0x0036) #define PRODSIGNATURES_DACB1GAINCAL _SFR_MEM8(0x0037) /* VPORT - Virtual Port */ #define VPORT0_DIR _SFR_MEM8(0x0010) #define VPORT0_OUT _SFR_MEM8(0x0011) #define VPORT0_IN _SFR_MEM8(0x0012) #define VPORT0_INTFLAGS _SFR_MEM8(0x0013) /* VPORT - Virtual Port */ #define VPORT1_DIR _SFR_MEM8(0x0014) #define VPORT1_OUT _SFR_MEM8(0x0015) #define VPORT1_IN _SFR_MEM8(0x0016) #define VPORT1_INTFLAGS _SFR_MEM8(0x0017) /* VPORT - Virtual Port */ #define VPORT2_DIR _SFR_MEM8(0x0018) #define VPORT2_OUT _SFR_MEM8(0x0019) #define VPORT2_IN _SFR_MEM8(0x001A) #define VPORT2_INTFLAGS _SFR_MEM8(0x001B) /* VPORT - Virtual Port */ #define VPORT3_DIR _SFR_MEM8(0x001C) #define VPORT3_OUT _SFR_MEM8(0x001D) #define VPORT3_IN _SFR_MEM8(0x001E) #define VPORT3_INTFLAGS _SFR_MEM8(0x001F) /* OCD - On-Chip Debug System */ #define OCD_OCDR0 _SFR_MEM8(0x002E) #define OCD_OCDR1 _SFR_MEM8(0x002F) /* CPU - CPU registers */ #define CPU_CCP _SFR_MEM8(0x0034) #define CPU_RAMPD _SFR_MEM8(0x0038) #define CPU_RAMPX _SFR_MEM8(0x0039) #define CPU_RAMPY _SFR_MEM8(0x003A) #define CPU_RAMPZ _SFR_MEM8(0x003B) #define CPU_EIND _SFR_MEM8(0x003C) #define CPU_SPL _SFR_MEM8(0x003D) #define CPU_SPH _SFR_MEM8(0x003E) #define CPU_SREG _SFR_MEM8(0x003F) /* CLK - Clock System */ #define CLK_CTRL _SFR_MEM8(0x0040) #define CLK_PSCTRL _SFR_MEM8(0x0041) #define CLK_LOCK _SFR_MEM8(0x0042) #define CLK_RTCCTRL _SFR_MEM8(0x0043) #define CLK_USBCTRL _SFR_MEM8(0x0044) /* SLEEP - Sleep Controller */ #define SLEEP_CTRL _SFR_MEM8(0x0048) /* OSC - Oscillator */ #define OSC_CTRL _SFR_MEM8(0x0050) #define OSC_STATUS _SFR_MEM8(0x0051) #define OSC_XOSCCTRL _SFR_MEM8(0x0052) #define OSC_XOSCFAIL _SFR_MEM8(0x0053) #define OSC_RC32KCAL _SFR_MEM8(0x0054) #define OSC_PLLCTRL _SFR_MEM8(0x0055) #define OSC_DFLLCTRL _SFR_MEM8(0x0056) /* DFLL - DFLL */ #define DFLLRC32M_CTRL _SFR_MEM8(0x0060) #define DFLLRC32M_CALA _SFR_MEM8(0x0062) #define DFLLRC32M_CALB _SFR_MEM8(0x0063) #define DFLLRC32M_COMP0 _SFR_MEM8(0x0064) #define DFLLRC32M_COMP1 _SFR_MEM8(0x0065) #define DFLLRC32M_COMP2 _SFR_MEM8(0x0066) /* DFLL - DFLL */ #define DFLLRC2M_CTRL _SFR_MEM8(0x0068) #define DFLLRC2M_CALA _SFR_MEM8(0x006A) #define DFLLRC2M_CALB _SFR_MEM8(0x006B) #define DFLLRC2M_COMP0 _SFR_MEM8(0x006C) #define DFLLRC2M_COMP1 _SFR_MEM8(0x006D) #define DFLLRC2M_COMP2 _SFR_MEM8(0x006E) /* PR - Power Reduction */ #define PR_PRGEN _SFR_MEM8(0x0070) #define PR_PRPA _SFR_MEM8(0x0071) #define PR_PRPB _SFR_MEM8(0x0072) #define PR_PRPC _SFR_MEM8(0x0073) #define PR_PRPD _SFR_MEM8(0x0074) #define PR_PRPE _SFR_MEM8(0x0075) #define PR_PRPF _SFR_MEM8(0x0076) /* RST - Reset */ #define RST_STATUS _SFR_MEM8(0x0078) #define RST_CTRL _SFR_MEM8(0x0079) /* WDT - Watch-Dog Timer */ #define WDT_CTRL _SFR_MEM8(0x0080) #define WDT_WINCTRL _SFR_MEM8(0x0081) #define WDT_STATUS _SFR_MEM8(0x0082) /* MCU - MCU Control */ #define MCU_DEVID0 _SFR_MEM8(0x0090) #define MCU_DEVID1 _SFR_MEM8(0x0091) #define MCU_DEVID2 _SFR_MEM8(0x0092) #define MCU_REVID _SFR_MEM8(0x0093) #define MCU_JTAGUID _SFR_MEM8(0x0094) #define MCU_MCUCR _SFR_MEM8(0x0096) #define MCU_ANAINIT _SFR_MEM8(0x0097) #define MCU_EVSYSLOCK _SFR_MEM8(0x0098) #define MCU_AWEXLOCK _SFR_MEM8(0x0099) /* PMIC - Programmable Multi-level Interrupt Controller */ #define PMIC_STATUS _SFR_MEM8(0x00A0) #define PMIC_INTPRI _SFR_MEM8(0x00A1) #define PMIC_CTRL _SFR_MEM8(0x00A2) /* PORTCFG - I/O port Configuration */ #define PORTCFG_MPCMASK _SFR_MEM8(0x00B0) #define PORTCFG_VPCTRLA _SFR_MEM8(0x00B2) #define PORTCFG_VPCTRLB _SFR_MEM8(0x00B3) #define PORTCFG_CLKEVOUT _SFR_MEM8(0x00B4) #define PORTCFG_EBIOUT _SFR_MEM8(0x00B5) #define PORTCFG_EVOUTSEL _SFR_MEM8(0x00B6) /* AES - AES Module */ #define AES_CTRL _SFR_MEM8(0x00C0) #define AES_STATUS _SFR_MEM8(0x00C1) #define AES_STATE _SFR_MEM8(0x00C2) #define AES_KEY _SFR_MEM8(0x00C3) #define AES_INTCTRL _SFR_MEM8(0x00C4) /* CRC - Cyclic Redundancy Checker */ #define CRC_CTRL _SFR_MEM8(0x00D0) #define CRC_STATUS _SFR_MEM8(0x00D1) #define CRC_DATAIN _SFR_MEM8(0x00D3) #define CRC_CHECKSUM0 _SFR_MEM8(0x00D4) #define CRC_CHECKSUM1 _SFR_MEM8(0x00D5) #define CRC_CHECKSUM2 _SFR_MEM8(0x00D6) #define CRC_CHECKSUM3 _SFR_MEM8(0x00D7) /* DMA - DMA Controller */ #define DMA_CTRL _SFR_MEM8(0x0100) #define DMA_INTFLAGS _SFR_MEM8(0x0103) #define DMA_STATUS _SFR_MEM8(0x0104) #define DMA_TEMP _SFR_MEM16(0x0106) #define DMA_CH0_CTRLA _SFR_MEM8(0x0110) #define DMA_CH0_CTRLB _SFR_MEM8(0x0111) #define DMA_CH0_ADDRCTRL _SFR_MEM8(0x0112) #define DMA_CH0_TRIGSRC _SFR_MEM8(0x0113) #define DMA_CH0_TRFCNT _SFR_MEM16(0x0114) #define DMA_CH0_REPCNT _SFR_MEM8(0x0116) #define DMA_CH0_SRCADDR0 _SFR_MEM8(0x0118) #define DMA_CH0_SRCADDR1 _SFR_MEM8(0x0119) #define DMA_CH0_SRCADDR2 _SFR_MEM8(0x011A) #define DMA_CH0_DESTADDR0 _SFR_MEM8(0x011C) #define DMA_CH0_DESTADDR1 _SFR_MEM8(0x011D) #define DMA_CH0_DESTADDR2 _SFR_MEM8(0x011E) #define DMA_CH1_CTRLA _SFR_MEM8(0x0120) #define DMA_CH1_CTRLB _SFR_MEM8(0x0121) #define DMA_CH1_ADDRCTRL _SFR_MEM8(0x0122) #define DMA_CH1_TRIGSRC _SFR_MEM8(0x0123) #define DMA_CH1_TRFCNT _SFR_MEM16(0x0124) #define DMA_CH1_REPCNT _SFR_MEM8(0x0126) #define DMA_CH1_SRCADDR0 _SFR_MEM8(0x0128) #define DMA_CH1_SRCADDR1 _SFR_MEM8(0x0129) #define DMA_CH1_SRCADDR2 _SFR_MEM8(0x012A) #define DMA_CH1_DESTADDR0 _SFR_MEM8(0x012C) #define DMA_CH1_DESTADDR1 _SFR_MEM8(0x012D) #define DMA_CH1_DESTADDR2 _SFR_MEM8(0x012E) #define DMA_CH2_CTRLA _SFR_MEM8(0x0130) #define DMA_CH2_CTRLB _SFR_MEM8(0x0131) #define DMA_CH2_ADDRCTRL _SFR_MEM8(0x0132) #define DMA_CH2_TRIGSRC _SFR_MEM8(0x0133) #define DMA_CH2_TRFCNT _SFR_MEM16(0x0134) #define DMA_CH2_REPCNT _SFR_MEM8(0x0136) #define DMA_CH2_SRCADDR0 _SFR_MEM8(0x0138) #define DMA_CH2_SRCADDR1 _SFR_MEM8(0x0139) #define DMA_CH2_SRCADDR2 _SFR_MEM8(0x013A) #define DMA_CH2_DESTADDR0 _SFR_MEM8(0x013C) #define DMA_CH2_DESTADDR1 _SFR_MEM8(0x013D) #define DMA_CH2_DESTADDR2 _SFR_MEM8(0x013E) #define DMA_CH3_CTRLA _SFR_MEM8(0x0140) #define DMA_CH3_CTRLB _SFR_MEM8(0x0141) #define DMA_CH3_ADDRCTRL _SFR_MEM8(0x0142) #define DMA_CH3_TRIGSRC _SFR_MEM8(0x0143) #define DMA_CH3_TRFCNT _SFR_MEM16(0x0144) #define DMA_CH3_REPCNT _SFR_MEM8(0x0146) #define DMA_CH3_SRCADDR0 _SFR_MEM8(0x0148) #define DMA_CH3_SRCADDR1 _SFR_MEM8(0x0149) #define DMA_CH3_SRCADDR2 _SFR_MEM8(0x014A) #define DMA_CH3_DESTADDR0 _SFR_MEM8(0x014C) #define DMA_CH3_DESTADDR1 _SFR_MEM8(0x014D) #define DMA_CH3_DESTADDR2 _SFR_MEM8(0x014E) /* EVSYS - Event System */ #define EVSYS_CH0MUX _SFR_MEM8(0x0180) #define EVSYS_CH1MUX _SFR_MEM8(0x0181) #define EVSYS_CH2MUX _SFR_MEM8(0x0182) #define EVSYS_CH3MUX _SFR_MEM8(0x0183) #define EVSYS_CH4MUX _SFR_MEM8(0x0184) #define EVSYS_CH5MUX _SFR_MEM8(0x0185) #define EVSYS_CH6MUX _SFR_MEM8(0x0186) #define EVSYS_CH7MUX _SFR_MEM8(0x0187) #define EVSYS_CH0CTRL _SFR_MEM8(0x0188) #define EVSYS_CH1CTRL _SFR_MEM8(0x0189) #define EVSYS_CH2CTRL _SFR_MEM8(0x018A) #define EVSYS_CH3CTRL _SFR_MEM8(0x018B) #define EVSYS_CH4CTRL _SFR_MEM8(0x018C) #define EVSYS_CH5CTRL _SFR_MEM8(0x018D) #define EVSYS_CH6CTRL _SFR_MEM8(0x018E) #define EVSYS_CH7CTRL _SFR_MEM8(0x018F) #define EVSYS_STROBE _SFR_MEM8(0x0190) #define EVSYS_DATA _SFR_MEM8(0x0191) /* NVM - Non-volatile Memory Controller */ #define NVM_ADDR0 _SFR_MEM8(0x01C0) #define NVM_ADDR1 _SFR_MEM8(0x01C1) #define NVM_ADDR2 _SFR_MEM8(0x01C2) #define NVM_DATA0 _SFR_MEM8(0x01C4) #define NVM_DATA1 _SFR_MEM8(0x01C5) #define NVM_DATA2 _SFR_MEM8(0x01C6) #define NVM_CMD _SFR_MEM8(0x01CA) #define NVM_CTRLA _SFR_MEM8(0x01CB) #define NVM_CTRLB _SFR_MEM8(0x01CC) #define NVM_INTCTRL _SFR_MEM8(0x01CD) #define NVM_STATUS _SFR_MEM8(0x01CF) #define NVM_LOCKBITS _SFR_MEM8(0x01D0) /* ADC - Analog-to-Digital Converter */ #define ADCA_CTRLA _SFR_MEM8(0x0200) #define ADCA_CTRLB _SFR_MEM8(0x0201) #define ADCA_REFCTRL _SFR_MEM8(0x0202) #define ADCA_EVCTRL _SFR_MEM8(0x0203) #define ADCA_PRESCALER _SFR_MEM8(0x0204) #define ADCA_INTFLAGS _SFR_MEM8(0x0206) #define ADCA_TEMP _SFR_MEM8(0x0207) #define ADCA_CAL _SFR_MEM16(0x020C) #define ADCA_CH0RES _SFR_MEM16(0x0210) #define ADCA_CH1RES _SFR_MEM16(0x0212) #define ADCA_CH2RES _SFR_MEM16(0x0214) #define ADCA_CH3RES _SFR_MEM16(0x0216) #define ADCA_CMP _SFR_MEM16(0x0218) #define ADCA_CH0_CTRL _SFR_MEM8(0x0220) #define ADCA_CH0_MUXCTRL _SFR_MEM8(0x0221) #define ADCA_CH0_INTCTRL _SFR_MEM8(0x0222) #define ADCA_CH0_INTFLAGS _SFR_MEM8(0x0223) #define ADCA_CH0_RES _SFR_MEM16(0x0224) #define ADCA_CH0_SCAN _SFR_MEM8(0x0226) #define ADCA_CH1_CTRL _SFR_MEM8(0x0228) #define ADCA_CH1_MUXCTRL _SFR_MEM8(0x0229) #define ADCA_CH1_INTCTRL _SFR_MEM8(0x022A) #define ADCA_CH1_INTFLAGS _SFR_MEM8(0x022B) #define ADCA_CH1_RES _SFR_MEM16(0x022C) #define ADCA_CH1_SCAN _SFR_MEM8(0x022E) #define ADCA_CH2_CTRL _SFR_MEM8(0x0230) #define ADCA_CH2_MUXCTRL _SFR_MEM8(0x0231) #define ADCA_CH2_INTCTRL _SFR_MEM8(0x0232) #define ADCA_CH2_INTFLAGS _SFR_MEM8(0x0233) #define ADCA_CH2_RES _SFR_MEM16(0x0234) #define ADCA_CH2_SCAN _SFR_MEM8(0x0236) #define ADCA_CH3_CTRL _SFR_MEM8(0x0238) #define ADCA_CH3_MUXCTRL _SFR_MEM8(0x0239) #define ADCA_CH3_INTCTRL _SFR_MEM8(0x023A) #define ADCA_CH3_INTFLAGS _SFR_MEM8(0x023B) #define ADCA_CH3_RES _SFR_MEM16(0x023C) #define ADCA_CH3_SCAN _SFR_MEM8(0x023E) /* DAC - Digital-to-Analog Converter */ #define DACB_CTRLA _SFR_MEM8(0x0320) #define DACB_CTRLB _SFR_MEM8(0x0321) #define DACB_CTRLC _SFR_MEM8(0x0322) #define DACB_EVCTRL _SFR_MEM8(0x0323) #define DACB_STATUS _SFR_MEM8(0x0325) #define DACB_CH0GAINCAL _SFR_MEM8(0x0328) #define DACB_CH0OFFSETCAL _SFR_MEM8(0x0329) #define DACB_CH1GAINCAL _SFR_MEM8(0x032A) #define DACB_CH1OFFSETCAL _SFR_MEM8(0x032B) #define DACB_CH0DATA _SFR_MEM16(0x0338) #define DACB_CH1DATA _SFR_MEM16(0x033A) /* AC - Analog Comparator */ #define ACA_AC0CTRL _SFR_MEM8(0x0380) #define ACA_AC1CTRL _SFR_MEM8(0x0381) #define ACA_AC0MUXCTRL _SFR_MEM8(0x0382) #define ACA_AC1MUXCTRL _SFR_MEM8(0x0383) #define ACA_CTRLA _SFR_MEM8(0x0384) #define ACA_CTRLB _SFR_MEM8(0x0385) #define ACA_WINCTRL _SFR_MEM8(0x0386) #define ACA_STATUS _SFR_MEM8(0x0387) /* RTC - Real-Time Counter */ #define RTC_CTRL _SFR_MEM8(0x0400) #define RTC_STATUS _SFR_MEM8(0x0401) #define RTC_INTCTRL _SFR_MEM8(0x0402) #define RTC_INTFLAGS _SFR_MEM8(0x0403) #define RTC_TEMP _SFR_MEM8(0x0404) #define RTC_CNT _SFR_MEM16(0x0408) #define RTC_PER _SFR_MEM16(0x040A) #define RTC_COMP _SFR_MEM16(0x040C) /* TWI - Two-Wire Interface */ #define TWIC_CTRL _SFR_MEM8(0x0480) #define TWIC_MASTER_CTRLA _SFR_MEM8(0x0481) #define TWIC_MASTER_CTRLB _SFR_MEM8(0x0482) #define TWIC_MASTER_CTRLC _SFR_MEM8(0x0483) #define TWIC_MASTER_STATUS _SFR_MEM8(0x0484) #define TWIC_MASTER_BAUD _SFR_MEM8(0x0485) #define TWIC_MASTER_ADDR _SFR_MEM8(0x0486) #define TWIC_MASTER_DATA _SFR_MEM8(0x0487) #define TWIC_SLAVE_CTRLA _SFR_MEM8(0x0488) #define TWIC_SLAVE_CTRLB _SFR_MEM8(0x0489) #define TWIC_SLAVE_STATUS _SFR_MEM8(0x048A) #define TWIC_SLAVE_ADDR _SFR_MEM8(0x048B) #define TWIC_SLAVE_DATA _SFR_MEM8(0x048C) #define TWIC_SLAVE_ADDRMASK _SFR_MEM8(0x048D) /* TWI - Two-Wire Interface */ #define TWIE_CTRL _SFR_MEM8(0x04A0) #define TWIE_MASTER_CTRLA _SFR_MEM8(0x04A1) #define TWIE_MASTER_CTRLB _SFR_MEM8(0x04A2) #define TWIE_MASTER_CTRLC _SFR_MEM8(0x04A3) #define TWIE_MASTER_STATUS _SFR_MEM8(0x04A4) #define TWIE_MASTER_BAUD _SFR_MEM8(0x04A5) #define TWIE_MASTER_ADDR _SFR_MEM8(0x04A6) #define TWIE_MASTER_DATA _SFR_MEM8(0x04A7) #define TWIE_SLAVE_CTRLA _SFR_MEM8(0x04A8) #define TWIE_SLAVE_CTRLB _SFR_MEM8(0x04A9) #define TWIE_SLAVE_STATUS _SFR_MEM8(0x04AA) #define TWIE_SLAVE_ADDR _SFR_MEM8(0x04AB) #define TWIE_SLAVE_DATA _SFR_MEM8(0x04AC) #define TWIE_SLAVE_ADDRMASK _SFR_MEM8(0x04AD) /* USB - Universal Serial Bus */ #define USB_CTRLA _SFR_MEM8(0x04C0) #define USB_CTRLB _SFR_MEM8(0x04C1) #define USB_STATUS _SFR_MEM8(0x04C2) #define USB_ADDR _SFR_MEM8(0x04C3) #define USB_FIFOWP _SFR_MEM8(0x04C4) #define USB_FIFORP _SFR_MEM8(0x04C5) #define USB_EPPTR _SFR_MEM16(0x04C6) #define USB_INTCTRLA _SFR_MEM8(0x04C8) #define USB_INTCTRLB _SFR_MEM8(0x04C9) #define USB_INTFLAGSACLR _SFR_MEM8(0x04CA) #define USB_INTFLAGSASET _SFR_MEM8(0x04CB) #define USB_INTFLAGSBCLR _SFR_MEM8(0x04CC) #define USB_INTFLAGSBSET _SFR_MEM8(0x04CD) #define USB_CAL0 _SFR_MEM8(0x04FA) #define USB_CAL1 _SFR_MEM8(0x04FB) /* PORT - I/O Ports */ #define PORTA_DIR _SFR_MEM8(0x0600) #define PORTA_DIRSET _SFR_MEM8(0x0601) #define PORTA_DIRCLR _SFR_MEM8(0x0602) #define PORTA_DIRTGL _SFR_MEM8(0x0603) #define PORTA_OUT _SFR_MEM8(0x0604) #define PORTA_OUTSET _SFR_MEM8(0x0605) #define PORTA_OUTCLR _SFR_MEM8(0x0606) #define PORTA_OUTTGL _SFR_MEM8(0x0607) #define PORTA_IN _SFR_MEM8(0x0608) #define PORTA_INTCTRL _SFR_MEM8(0x0609) #define PORTA_INT0MASK _SFR_MEM8(0x060A) #define PORTA_INT1MASK _SFR_MEM8(0x060B) #define PORTA_INTFLAGS _SFR_MEM8(0x060C) #define PORTA_REMAP _SFR_MEM8(0x060E) #define PORTA_PIN0CTRL _SFR_MEM8(0x0610) #define PORTA_PIN1CTRL _SFR_MEM8(0x0611) #define PORTA_PIN2CTRL _SFR_MEM8(0x0612) #define PORTA_PIN3CTRL _SFR_MEM8(0x0613) #define PORTA_PIN4CTRL _SFR_MEM8(0x0614) #define PORTA_PIN5CTRL _SFR_MEM8(0x0615) #define PORTA_PIN6CTRL _SFR_MEM8(0x0616) #define PORTA_PIN7CTRL _SFR_MEM8(0x0617) /* PORT - I/O Ports */ #define PORTB_DIR _SFR_MEM8(0x0620) #define PORTB_DIRSET _SFR_MEM8(0x0621) #define PORTB_DIRCLR _SFR_MEM8(0x0622) #define PORTB_DIRTGL _SFR_MEM8(0x0623) #define PORTB_OUT _SFR_MEM8(0x0624) #define PORTB_OUTSET _SFR_MEM8(0x0625) #define PORTB_OUTCLR _SFR_MEM8(0x0626) #define PORTB_OUTTGL _SFR_MEM8(0x0627) #define PORTB_IN _SFR_MEM8(0x0628) #define PORTB_INTCTRL _SFR_MEM8(0x0629) #define PORTB_INT0MASK _SFR_MEM8(0x062A) #define PORTB_INT1MASK _SFR_MEM8(0x062B) #define PORTB_INTFLAGS _SFR_MEM8(0x062C) #define PORTB_REMAP _SFR_MEM8(0x062E) #define PORTB_PIN0CTRL _SFR_MEM8(0x0630) #define PORTB_PIN1CTRL _SFR_MEM8(0x0631) #define PORTB_PIN2CTRL _SFR_MEM8(0x0632) #define PORTB_PIN3CTRL _SFR_MEM8(0x0633) #define PORTB_PIN4CTRL _SFR_MEM8(0x0634) #define PORTB_PIN5CTRL _SFR_MEM8(0x0635) #define PORTB_PIN6CTRL _SFR_MEM8(0x0636) #define PORTB_PIN7CTRL _SFR_MEM8(0x0637) /* PORT - I/O Ports */ #define PORTC_DIR _SFR_MEM8(0x0640) #define PORTC_DIRSET _SFR_MEM8(0x0641) #define PORTC_DIRCLR _SFR_MEM8(0x0642) #define PORTC_DIRTGL _SFR_MEM8(0x0643) #define PORTC_OUT _SFR_MEM8(0x0644) #define PORTC_OUTSET _SFR_MEM8(0x0645) #define PORTC_OUTCLR _SFR_MEM8(0x0646) #define PORTC_OUTTGL _SFR_MEM8(0x0647) #define PORTC_IN _SFR_MEM8(0x0648) #define PORTC_INTCTRL _SFR_MEM8(0x0649) #define PORTC_INT0MASK _SFR_MEM8(0x064A) #define PORTC_INT1MASK _SFR_MEM8(0x064B) #define PORTC_INTFLAGS _SFR_MEM8(0x064C) #define PORTC_REMAP _SFR_MEM8(0x064E) #define PORTC_PIN0CTRL _SFR_MEM8(0x0650) #define PORTC_PIN1CTRL _SFR_MEM8(0x0651) #define PORTC_PIN2CTRL _SFR_MEM8(0x0652) #define PORTC_PIN3CTRL _SFR_MEM8(0x0653) #define PORTC_PIN4CTRL _SFR_MEM8(0x0654) #define PORTC_PIN5CTRL _SFR_MEM8(0x0655) #define PORTC_PIN6CTRL _SFR_MEM8(0x0656) #define PORTC_PIN7CTRL _SFR_MEM8(0x0657) /* PORT - I/O Ports */ #define PORTD_DIR _SFR_MEM8(0x0660) #define PORTD_DIRSET _SFR_MEM8(0x0661) #define PORTD_DIRCLR _SFR_MEM8(0x0662) #define PORTD_DIRTGL _SFR_MEM8(0x0663) #define PORTD_OUT _SFR_MEM8(0x0664) #define PORTD_OUTSET _SFR_MEM8(0x0665) #define PORTD_OUTCLR _SFR_MEM8(0x0666) #define PORTD_OUTTGL _SFR_MEM8(0x0667) #define PORTD_IN _SFR_MEM8(0x0668) #define PORTD_INTCTRL _SFR_MEM8(0x0669) #define PORTD_INT0MASK _SFR_MEM8(0x066A) #define PORTD_INT1MASK _SFR_MEM8(0x066B) #define PORTD_INTFLAGS _SFR_MEM8(0x066C) #define PORTD_REMAP _SFR_MEM8(0x066E) #define PORTD_PIN0CTRL _SFR_MEM8(0x0670) #define PORTD_PIN1CTRL _SFR_MEM8(0x0671) #define PORTD_PIN2CTRL _SFR_MEM8(0x0672) #define PORTD_PIN3CTRL _SFR_MEM8(0x0673) #define PORTD_PIN4CTRL _SFR_MEM8(0x0674) #define PORTD_PIN5CTRL _SFR_MEM8(0x0675) #define PORTD_PIN6CTRL _SFR_MEM8(0x0676) #define PORTD_PIN7CTRL _SFR_MEM8(0x0677) /* PORT - I/O Ports */ #define PORTE_DIR _SFR_MEM8(0x0680) #define PORTE_DIRSET _SFR_MEM8(0x0681) #define PORTE_DIRCLR _SFR_MEM8(0x0682) #define PORTE_DIRTGL _SFR_MEM8(0x0683) #define PORTE_OUT _SFR_MEM8(0x0684) #define PORTE_OUTSET _SFR_MEM8(0x0685) #define PORTE_OUTCLR _SFR_MEM8(0x0686) #define PORTE_OUTTGL _SFR_MEM8(0x0687) #define PORTE_IN _SFR_MEM8(0x0688) #define PORTE_INTCTRL _SFR_MEM8(0x0689) #define PORTE_INT0MASK _SFR_MEM8(0x068A) #define PORTE_INT1MASK _SFR_MEM8(0x068B) #define PORTE_INTFLAGS _SFR_MEM8(0x068C) #define PORTE_REMAP _SFR_MEM8(0x068E) #define PORTE_PIN0CTRL _SFR_MEM8(0x0690) #define PORTE_PIN1CTRL _SFR_MEM8(0x0691) #define PORTE_PIN2CTRL _SFR_MEM8(0x0692) #define PORTE_PIN3CTRL _SFR_MEM8(0x0693) #define PORTE_PIN4CTRL _SFR_MEM8(0x0694) #define PORTE_PIN5CTRL _SFR_MEM8(0x0695) #define PORTE_PIN6CTRL _SFR_MEM8(0x0696) #define PORTE_PIN7CTRL _SFR_MEM8(0x0697) /* PORT - I/O Ports */ #define PORTR_DIR _SFR_MEM8(0x07E0) #define PORTR_DIRSET _SFR_MEM8(0x07E1) #define PORTR_DIRCLR _SFR_MEM8(0x07E2) #define PORTR_DIRTGL _SFR_MEM8(0x07E3) #define PORTR_OUT _SFR_MEM8(0x07E4) #define PORTR_OUTSET _SFR_MEM8(0x07E5) #define PORTR_OUTCLR _SFR_MEM8(0x07E6) #define PORTR_OUTTGL _SFR_MEM8(0x07E7) #define PORTR_IN _SFR_MEM8(0x07E8) #define PORTR_INTCTRL _SFR_MEM8(0x07E9) #define PORTR_INT0MASK _SFR_MEM8(0x07EA) #define PORTR_INT1MASK _SFR_MEM8(0x07EB) #define PORTR_INTFLAGS _SFR_MEM8(0x07EC) #define PORTR_REMAP _SFR_MEM8(0x07EE) #define PORTR_PIN0CTRL _SFR_MEM8(0x07F0) #define PORTR_PIN1CTRL _SFR_MEM8(0x07F1) #define PORTR_PIN2CTRL _SFR_MEM8(0x07F2) #define PORTR_PIN3CTRL _SFR_MEM8(0x07F3) #define PORTR_PIN4CTRL _SFR_MEM8(0x07F4) #define PORTR_PIN5CTRL _SFR_MEM8(0x07F5) #define PORTR_PIN6CTRL _SFR_MEM8(0x07F6) #define PORTR_PIN7CTRL _SFR_MEM8(0x07F7) /* TC0 - 16-bit Timer/Counter 0 */ #define TCC0_CTRLA _SFR_MEM8(0x0800) #define TCC0_CTRLB _SFR_MEM8(0x0801) #define TCC0_CTRLC _SFR_MEM8(0x0802) #define TCC0_CTRLD _SFR_MEM8(0x0803) #define TCC0_CTRLE _SFR_MEM8(0x0804) #define TCC0_INTCTRLA _SFR_MEM8(0x0806) #define TCC0_INTCTRLB _SFR_MEM8(0x0807) #define TCC0_CTRLFCLR _SFR_MEM8(0x0808) #define TCC0_CTRLFSET _SFR_MEM8(0x0809) #define TCC0_CTRLGCLR _SFR_MEM8(0x080A) #define TCC0_CTRLGSET _SFR_MEM8(0x080B) #define TCC0_INTFLAGS _SFR_MEM8(0x080C) #define TCC0_TEMP _SFR_MEM8(0x080F) #define TCC0_CNT _SFR_MEM16(0x0820) #define TCC0_PER _SFR_MEM16(0x0826) #define TCC0_CCA _SFR_MEM16(0x0828) #define TCC0_CCB _SFR_MEM16(0x082A) #define TCC0_CCC _SFR_MEM16(0x082C) #define TCC0_CCD _SFR_MEM16(0x082E) #define TCC0_PERBUF _SFR_MEM16(0x0836) #define TCC0_CCABUF _SFR_MEM16(0x0838) #define TCC0_CCBBUF _SFR_MEM16(0x083A) #define TCC0_CCCBUF _SFR_MEM16(0x083C) #define TCC0_CCDBUF _SFR_MEM16(0x083E) /* TC2 - 16-bit Timer/Counter type 2 */ #define TCC2_CTRLA _SFR_MEM8(0x0800) #define TCC2_CTRLB _SFR_MEM8(0x0801) #define TCC2_CTRLC _SFR_MEM8(0x0802) #define TCC2_CTRLE _SFR_MEM8(0x0804) #define TCC2_INTCTRLA _SFR_MEM8(0x0806) #define TCC2_INTCTRLB _SFR_MEM8(0x0807) #define TCC2_CTRLF _SFR_MEM8(0x0809) #define TCC2_INTFLAGS _SFR_MEM8(0x080C) #define TCC2_LCNT _SFR_MEM8(0x0820) #define TCC2_HCNT _SFR_MEM8(0x0821) #define TCC2_LPER _SFR_MEM8(0x0826) #define TCC2_HPER _SFR_MEM8(0x0827) #define TCC2_LCMPA _SFR_MEM8(0x0828) #define TCC2_HCMPA _SFR_MEM8(0x0829) #define TCC2_LCMPB _SFR_MEM8(0x082A) #define TCC2_HCMPB _SFR_MEM8(0x082B) #define TCC2_LCMPC _SFR_MEM8(0x082C) #define TCC2_HCMPC _SFR_MEM8(0x082D) #define TCC2_LCMPD _SFR_MEM8(0x082E) #define TCC2_HCMPD _SFR_MEM8(0x082F) /* TC1 - 16-bit Timer/Counter 1 */ #define TCC1_CTRLA _SFR_MEM8(0x0840) #define TCC1_CTRLB _SFR_MEM8(0x0841) #define TCC1_CTRLC _SFR_MEM8(0x0842) #define TCC1_CTRLD _SFR_MEM8(0x0843) #define TCC1_CTRLE _SFR_MEM8(0x0844) #define TCC1_INTCTRLA _SFR_MEM8(0x0846) #define TCC1_INTCTRLB _SFR_MEM8(0x0847) #define TCC1_CTRLFCLR _SFR_MEM8(0x0848) #define TCC1_CTRLFSET _SFR_MEM8(0x0849) #define TCC1_CTRLGCLR _SFR_MEM8(0x084A) #define TCC1_CTRLGSET _SFR_MEM8(0x084B) #define TCC1_INTFLAGS _SFR_MEM8(0x084C) #define TCC1_TEMP _SFR_MEM8(0x084F) #define TCC1_CNT _SFR_MEM16(0x0860) #define TCC1_PER _SFR_MEM16(0x0866) #define TCC1_CCA _SFR_MEM16(0x0868) #define TCC1_CCB _SFR_MEM16(0x086A) #define TCC1_PERBUF _SFR_MEM16(0x0876) #define TCC1_CCABUF _SFR_MEM16(0x0878) #define TCC1_CCBBUF _SFR_MEM16(0x087A) /* AWEX - Advanced Waveform Extension */ #define AWEXC_CTRL _SFR_MEM8(0x0880) #define AWEXC_FDEMASK _SFR_MEM8(0x0882) #define AWEXC_FDCTRL _SFR_MEM8(0x0883) #define AWEXC_STATUS _SFR_MEM8(0x0884) #define AWEXC_STATUSSET _SFR_MEM8(0x0885) #define AWEXC_DTBOTH _SFR_MEM8(0x0886) #define AWEXC_DTBOTHBUF _SFR_MEM8(0x0887) #define AWEXC_DTLS _SFR_MEM8(0x0888) #define AWEXC_DTHS _SFR_MEM8(0x0889) #define AWEXC_DTLSBUF _SFR_MEM8(0x088A) #define AWEXC_DTHSBUF _SFR_MEM8(0x088B) #define AWEXC_OUTOVEN _SFR_MEM8(0x088C) /* HIRES - High-Resolution Extension */ #define HIRESC_CTRLA _SFR_MEM8(0x0890) /* USART - Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTC0_DATA _SFR_MEM8(0x08A0) #define USARTC0_STATUS _SFR_MEM8(0x08A1) #define USARTC0_CTRLA _SFR_MEM8(0x08A3) #define USARTC0_CTRLB _SFR_MEM8(0x08A4) #define USARTC0_CTRLC _SFR_MEM8(0x08A5) #define USARTC0_BAUDCTRLA _SFR_MEM8(0x08A6) #define USARTC0_BAUDCTRLB _SFR_MEM8(0x08A7) /* USART - Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTC1_DATA _SFR_MEM8(0x08B0) #define USARTC1_STATUS _SFR_MEM8(0x08B1) #define USARTC1_CTRLA _SFR_MEM8(0x08B3) #define USARTC1_CTRLB _SFR_MEM8(0x08B4) #define USARTC1_CTRLC _SFR_MEM8(0x08B5) #define USARTC1_BAUDCTRLA _SFR_MEM8(0x08B6) #define USARTC1_BAUDCTRLB _SFR_MEM8(0x08B7) /* SPI - Serial Peripheral Interface */ #define SPIC_CTRL _SFR_MEM8(0x08C0) #define SPIC_INTCTRL _SFR_MEM8(0x08C1) #define SPIC_STATUS _SFR_MEM8(0x08C2) #define SPIC_DATA _SFR_MEM8(0x08C3) /* IRCOM - IR Communication Module */ #define IRCOM_CTRL _SFR_MEM8(0x08F8) #define IRCOM_TXPLCTRL _SFR_MEM8(0x08F9) #define IRCOM_RXPLCTRL _SFR_MEM8(0x08FA) /* TC0 - 16-bit Timer/Counter 0 */ #define TCD0_CTRLA _SFR_MEM8(0x0900) #define TCD0_CTRLB _SFR_MEM8(0x0901) #define TCD0_CTRLC _SFR_MEM8(0x0902) #define TCD0_CTRLD _SFR_MEM8(0x0903) #define TCD0_CTRLE _SFR_MEM8(0x0904) #define TCD0_INTCTRLA _SFR_MEM8(0x0906) #define TCD0_INTCTRLB _SFR_MEM8(0x0907) #define TCD0_CTRLFCLR _SFR_MEM8(0x0908) #define TCD0_CTRLFSET _SFR_MEM8(0x0909) #define TCD0_CTRLGCLR _SFR_MEM8(0x090A) #define TCD0_CTRLGSET _SFR_MEM8(0x090B) #define TCD0_INTFLAGS _SFR_MEM8(0x090C) #define TCD0_TEMP _SFR_MEM8(0x090F) #define TCD0_CNT _SFR_MEM16(0x0920) #define TCD0_PER _SFR_MEM16(0x0926) #define TCD0_CCA _SFR_MEM16(0x0928) #define TCD0_CCB _SFR_MEM16(0x092A) #define TCD0_CCC _SFR_MEM16(0x092C) #define TCD0_CCD _SFR_MEM16(0x092E) #define TCD0_PERBUF _SFR_MEM16(0x0936) #define TCD0_CCABUF _SFR_MEM16(0x0938) #define TCD0_CCBBUF _SFR_MEM16(0x093A) #define TCD0_CCCBUF _SFR_MEM16(0x093C) #define TCD0_CCDBUF _SFR_MEM16(0x093E) /* TC2 - 16-bit Timer/Counter type 2 */ #define TCD2_CTRLA _SFR_MEM8(0x0900) #define TCD2_CTRLB _SFR_MEM8(0x0901) #define TCD2_CTRLC _SFR_MEM8(0x0902) #define TCD2_CTRLE _SFR_MEM8(0x0904) #define TCD2_INTCTRLA _SFR_MEM8(0x0906) #define TCD2_INTCTRLB _SFR_MEM8(0x0907) #define TCD2_CTRLF _SFR_MEM8(0x0909) #define TCD2_INTFLAGS _SFR_MEM8(0x090C) #define TCD2_LCNT _SFR_MEM8(0x0920) #define TCD2_HCNT _SFR_MEM8(0x0921) #define TCD2_LPER _SFR_MEM8(0x0926) #define TCD2_HPER _SFR_MEM8(0x0927) #define TCD2_LCMPA _SFR_MEM8(0x0928) #define TCD2_HCMPA _SFR_MEM8(0x0929) #define TCD2_LCMPB _SFR_MEM8(0x092A) #define TCD2_HCMPB _SFR_MEM8(0x092B) #define TCD2_LCMPC _SFR_MEM8(0x092C) #define TCD2_HCMPC _SFR_MEM8(0x092D) #define TCD2_LCMPD _SFR_MEM8(0x092E) #define TCD2_HCMPD _SFR_MEM8(0x092F) /* TC1 - 16-bit Timer/Counter 1 */ #define TCD1_CTRLA _SFR_MEM8(0x0940) #define TCD1_CTRLB _SFR_MEM8(0x0941) #define TCD1_CTRLC _SFR_MEM8(0x0942) #define TCD1_CTRLD _SFR_MEM8(0x0943) #define TCD1_CTRLE _SFR_MEM8(0x0944) #define TCD1_INTCTRLA _SFR_MEM8(0x0946) #define TCD1_INTCTRLB _SFR_MEM8(0x0947) #define TCD1_CTRLFCLR _SFR_MEM8(0x0948) #define TCD1_CTRLFSET _SFR_MEM8(0x0949) #define TCD1_CTRLGCLR _SFR_MEM8(0x094A) #define TCD1_CTRLGSET _SFR_MEM8(0x094B) #define TCD1_INTFLAGS _SFR_MEM8(0x094C) #define TCD1_TEMP _SFR_MEM8(0x094F) #define TCD1_CNT _SFR_MEM16(0x0960) #define TCD1_PER _SFR_MEM16(0x0966) #define TCD1_CCA _SFR_MEM16(0x0968) #define TCD1_CCB _SFR_MEM16(0x096A) #define TCD1_PERBUF _SFR_MEM16(0x0976) #define TCD1_CCABUF _SFR_MEM16(0x0978) #define TCD1_CCBBUF _SFR_MEM16(0x097A) /* HIRES - High-Resolution Extension */ #define HIRESD_CTRLA _SFR_MEM8(0x0990) /* USART - Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTD0_DATA _SFR_MEM8(0x09A0) #define USARTD0_STATUS _SFR_MEM8(0x09A1) #define USARTD0_CTRLA _SFR_MEM8(0x09A3) #define USARTD0_CTRLB _SFR_MEM8(0x09A4) #define USARTD0_CTRLC _SFR_MEM8(0x09A5) #define USARTD0_BAUDCTRLA _SFR_MEM8(0x09A6) #define USARTD0_BAUDCTRLB _SFR_MEM8(0x09A7) /* USART - Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTD1_DATA _SFR_MEM8(0x09B0) #define USARTD1_STATUS _SFR_MEM8(0x09B1) #define USARTD1_CTRLA _SFR_MEM8(0x09B3) #define USARTD1_CTRLB _SFR_MEM8(0x09B4) #define USARTD1_CTRLC _SFR_MEM8(0x09B5) #define USARTD1_BAUDCTRLA _SFR_MEM8(0x09B6) #define USARTD1_BAUDCTRLB _SFR_MEM8(0x09B7) /* SPI - Serial Peripheral Interface */ #define SPID_CTRL _SFR_MEM8(0x09C0) #define SPID_INTCTRL _SFR_MEM8(0x09C1) #define SPID_STATUS _SFR_MEM8(0x09C2) #define SPID_DATA _SFR_MEM8(0x09C3) /* TC0 - 16-bit Timer/Counter 0 */ #define TCE0_CTRLA _SFR_MEM8(0x0A00) #define TCE0_CTRLB _SFR_MEM8(0x0A01) #define TCE0_CTRLC _SFR_MEM8(0x0A02) #define TCE0_CTRLD _SFR_MEM8(0x0A03) #define TCE0_CTRLE _SFR_MEM8(0x0A04) #define TCE0_INTCTRLA _SFR_MEM8(0x0A06) #define TCE0_INTCTRLB _SFR_MEM8(0x0A07) #define TCE0_CTRLFCLR _SFR_MEM8(0x0A08) #define TCE0_CTRLFSET _SFR_MEM8(0x0A09) #define TCE0_CTRLGCLR _SFR_MEM8(0x0A0A) #define TCE0_CTRLGSET _SFR_MEM8(0x0A0B) #define TCE0_INTFLAGS _SFR_MEM8(0x0A0C) #define TCE0_TEMP _SFR_MEM8(0x0A0F) #define TCE0_CNT _SFR_MEM16(0x0A20) #define TCE0_PER _SFR_MEM16(0x0A26) #define TCE0_CCA _SFR_MEM16(0x0A28) #define TCE0_CCB _SFR_MEM16(0x0A2A) #define TCE0_CCC _SFR_MEM16(0x0A2C) #define TCE0_CCD _SFR_MEM16(0x0A2E) #define TCE0_PERBUF _SFR_MEM16(0x0A36) #define TCE0_CCABUF _SFR_MEM16(0x0A38) #define TCE0_CCBBUF _SFR_MEM16(0x0A3A) #define TCE0_CCCBUF _SFR_MEM16(0x0A3C) #define TCE0_CCDBUF _SFR_MEM16(0x0A3E) /* HIRES - High-Resolution Extension */ #define HIRESE_CTRLA _SFR_MEM8(0x0A90) /* USART - Universal Synchronous/Asynchronous Receiver/Transmitter */ #define USARTE0_DATA _SFR_MEM8(0x0AA0) #define USARTE0_STATUS _SFR_MEM8(0x0AA1) #define USARTE0_CTRLA _SFR_MEM8(0x0AA3) #define USARTE0_CTRLB _SFR_MEM8(0x0AA4) #define USARTE0_CTRLC _SFR_MEM8(0x0AA5) #define USARTE0_BAUDCTRLA _SFR_MEM8(0x0AA6) #define USARTE0_BAUDCTRLB _SFR_MEM8(0x0AA7) /*================== Bitfield Definitions ================== */ /* VPORT - Virtual Ports */ /* VPORT.INTFLAGS bit masks and bit positions */ #define VPORT_INT1IF_bm 0x02 /* Port Interrupt 1 Flag bit mask. */ #define VPORT_INT1IF_bp 1 /* Port Interrupt 1 Flag bit position. */ #define VPORT_INT0IF_bm 0x01 /* Port Interrupt 0 Flag bit mask. */ #define VPORT_INT0IF_bp 0 /* Port Interrupt 0 Flag bit position. */ /* XOCD - On-Chip Debug System */ /* OCD.OCDR0 bit masks and bit positions */ #define OCD_OCDRD_gm 0xFF /* OCDR Dirty group mask. */ #define OCD_OCDRD_gp 0 /* OCDR Dirty group position. */ #define OCD_OCDRD0_bm (1<<0) /* OCDR Dirty bit 0 mask. */ #define OCD_OCDRD0_bp 0 /* OCDR Dirty bit 0 position. */ #define OCD_OCDRD1_bm (1<<1) /* OCDR Dirty bit 1 mask. */ #define OCD_OCDRD1_bp 1 /* OCDR Dirty bit 1 position. */ #define OCD_OCDRD2_bm (1<<2) /* OCDR Dirty bit 2 mask. */ #define OCD_OCDRD2_bp 2 /* OCDR Dirty bit 2 position. */ #define OCD_OCDRD3_bm (1<<3) /* OCDR Dirty bit 3 mask. */ #define OCD_OCDRD3_bp 3 /* OCDR Dirty bit 3 position. */ #define OCD_OCDRD4_bm (1<<4) /* OCDR Dirty bit 4 mask. */ #define OCD_OCDRD4_bp 4 /* OCDR Dirty bit 4 position. */ #define OCD_OCDRD5_bm (1<<5) /* OCDR Dirty bit 5 mask. */ #define OCD_OCDRD5_bp 5 /* OCDR Dirty bit 5 position. */ #define OCD_OCDRD6_bm (1<<6) /* OCDR Dirty bit 6 mask. */ #define OCD_OCDRD6_bp 6 /* OCDR Dirty bit 6 position. */ #define OCD_OCDRD7_bm (1<<7) /* OCDR Dirty bit 7 mask. */ #define OCD_OCDRD7_bp 7 /* OCDR Dirty bit 7 position. */ /* OCD.OCDR1 bit masks and bit positions */ /* OCD_OCDRD Predefined. */ /* OCD_OCDRD Predefined. */ /* 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_I_bm 0x80 /* Global Interrupt Enable Flag bit mask. */ #define CPU_I_bp 7 /* Global Interrupt Enable Flag bit position. */ #define CPU_T_bm 0x40 /* Transfer Bit bit mask. */ #define CPU_T_bp 6 /* Transfer Bit bit position. */ #define CPU_H_bm 0x20 /* Half Carry Flag bit mask. */ #define CPU_H_bp 5 /* Half Carry 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_V_bm 0x08 /* Two's Complement Overflow Flag bit mask. */ #define CPU_V_bp 3 /* Two's Complement Overflow Flag bit position. */ #define CPU_N_bm 0x04 /* Negative Flag bit mask. */ #define CPU_N_bp 2 /* Negative Flag bit position. */ #define CPU_Z_bm 0x02 /* Zero Flag bit mask. */ #define CPU_Z_bp 1 /* Zero Flag bit position. */ #define CPU_C_bm 0x01 /* Carry Flag bit mask. */ #define CPU_C_bp 0 /* Carry Flag bit position. */ /* CLK - Clock System */ /* CLK.CTRL bit masks and bit positions */ #define CLK_SCLKSEL_gm 0x07 /* System Clock Selection group mask. */ #define CLK_SCLKSEL_gp 0 /* System Clock Selection group position. */ #define CLK_SCLKSEL0_bm (1<<0) /* System Clock Selection bit 0 mask. */ #define CLK_SCLKSEL0_bp 0 /* System Clock Selection bit 0 position. */ #define CLK_SCLKSEL1_bm (1<<1) /* System Clock Selection bit 1 mask. */ #define CLK_SCLKSEL1_bp 1 /* System Clock Selection bit 1 position. */ #define CLK_SCLKSEL2_bm (1<<2) /* System Clock Selection bit 2 mask. */ #define CLK_SCLKSEL2_bp 2 /* System Clock Selection bit 2 position. */ /* CLK.PSCTRL bit masks and bit positions */ #define CLK_PSADIV_gm 0x7C /* Prescaler A Division Factor group mask. */ #define CLK_PSADIV_gp 2 /* Prescaler A Division Factor group position. */ #define CLK_PSADIV0_bm (1<<2) /* Prescaler A Division Factor bit 0 mask. */ #define CLK_PSADIV0_bp 2 /* Prescaler A Division Factor bit 0 position. */ #define CLK_PSADIV1_bm (1<<3) /* Prescaler A Division Factor bit 1 mask. */ #define CLK_PSADIV1_bp 3 /* Prescaler A Division Factor bit 1 position. */ #define CLK_PSADIV2_bm (1<<4) /* Prescaler A Division Factor bit 2 mask. */ #define CLK_PSADIV2_bp 4 /* Prescaler A Division Factor bit 2 position. */ #define CLK_PSADIV3_bm (1<<5) /* Prescaler A Division Factor bit 3 mask. */ #define CLK_PSADIV3_bp 5 /* Prescaler A Division Factor bit 3 position. */ #define CLK_PSADIV4_bm (1<<6) /* Prescaler A Division Factor bit 4 mask. */ #define CLK_PSADIV4_bp 6 /* Prescaler A Division Factor bit 4 position. */ #define CLK_PSBCDIV_gm 0x03 /* Prescaler B and C Division factor group mask. */ #define CLK_PSBCDIV_gp 0 /* Prescaler B and C Division factor group position. */ #define CLK_PSBCDIV0_bm (1<<0) /* Prescaler B and C Division factor bit 0 mask. */ #define CLK_PSBCDIV0_bp 0 /* Prescaler B and C Division factor bit 0 position. */ #define CLK_PSBCDIV1_bm (1<<1) /* Prescaler B and C Division factor bit 1 mask. */ #define CLK_PSBCDIV1_bp 1 /* Prescaler B and C Division factor bit 1 position. */ /* CLK.LOCK bit masks and bit positions */ #define CLK_LOCK_bm 0x01 /* Clock System Lock bit mask. */ #define CLK_LOCK_bp 0 /* Clock System Lock bit position. */ /* CLK.RTCCTRL bit masks and bit positions */ #define CLK_RTCSRC_gm 0x0E /* Clock Source group mask. */ #define CLK_RTCSRC_gp 1 /* Clock Source group position. */ #define CLK_RTCSRC0_bm (1<<1) /* Clock Source bit 0 mask. */ #define CLK_RTCSRC0_bp 1 /* Clock Source bit 0 position. */ #define CLK_RTCSRC1_bm (1<<2) /* Clock Source bit 1 mask. */ #define CLK_RTCSRC1_bp 2 /* Clock Source bit 1 position. */ #define CLK_RTCSRC2_bm (1<<3) /* Clock Source bit 2 mask. */ #define CLK_RTCSRC2_bp 3 /* Clock Source bit 2 position. */ #define CLK_RTCEN_bm 0x01 /* Clock Source Enable bit mask. */ #define CLK_RTCEN_bp 0 /* Clock Source Enable bit position. */ /* CLK.USBCTRL bit masks and bit positions */ #define CLK_USBPSDIV_gm 0x38 /* Prescaler Division Factor group mask. */ #define CLK_USBPSDIV_gp 3 /* Prescaler Division Factor group position. */ #define CLK_USBPSDIV0_bm (1<<3) /* Prescaler Division Factor bit 0 mask. */ #define CLK_USBPSDIV0_bp 3 /* Prescaler Division Factor bit 0 position. */ #define CLK_USBPSDIV1_bm (1<<4) /* Prescaler Division Factor bit 1 mask. */ #define CLK_USBPSDIV1_bp 4 /* Prescaler Division Factor bit 1 position. */ #define CLK_USBPSDIV2_bm (1<<5) /* Prescaler Division Factor bit 2 mask. */ #define CLK_USBPSDIV2_bp 5 /* Prescaler Division Factor bit 2 position. */ #define CLK_USBSRC_gm 0x06 /* Clock Source group mask. */ #define CLK_USBSRC_gp 1 /* Clock Source group position. */ #define CLK_USBSRC0_bm (1<<1) /* Clock Source bit 0 mask. */ #define CLK_USBSRC0_bp 1 /* Clock Source bit 0 position. */ #define CLK_USBSRC1_bm (1<<2) /* Clock Source bit 1 mask. */ #define CLK_USBSRC1_bp 2 /* Clock Source bit 1 position. */ #define CLK_USBSEN_bm 0x01 /* Clock Source Enable bit mask. */ #define CLK_USBSEN_bp 0 /* Clock Source Enable bit position. */ /* PR.PRGEN bit masks and bit positions */ #define PR_USB_bm 0x40 /* USB bit mask. */ #define PR_USB_bp 6 /* USB bit position. */ #define PR_AES_bm 0x10 /* AES bit mask. */ #define PR_AES_bp 4 /* AES bit position. */ #define PR_EBI_bm 0x08 /* External Bus Interface bit mask. */ #define PR_EBI_bp 3 /* External Bus Interface bit position. */ #define PR_RTC_bm 0x04 /* Real-time Counter bit mask. */ #define PR_RTC_bp 2 /* Real-time Counter bit position. */ #define PR_EVSYS_bm 0x02 /* Event System bit mask. */ #define PR_EVSYS_bp 1 /* Event System bit position. */ #define PR_DMA_bm 0x01 /* DMA-Controller bit mask. */ #define PR_DMA_bp 0 /* DMA-Controller bit position. */ /* PR.PRPA bit masks and bit positions */ #define PR_DAC_bm 0x04 /* Port A DAC bit mask. */ #define PR_DAC_bp 2 /* Port A DAC bit position. */ #define PR_ADC_bm 0x02 /* Port A ADC bit mask. */ #define PR_ADC_bp 1 /* Port A ADC bit position. */ #define PR_AC_bm 0x01 /* Port A Analog Comparator bit mask. */ #define PR_AC_bp 0 /* Port A Analog Comparator bit position. */ /* PR.PRPB bit masks and bit positions */ /* PR_DAC Predefined. */ /* PR_DAC Predefined. */ /* PR_ADC Predefined. */ /* PR_ADC Predefined. */ /* PR_AC Predefined. */ /* PR_AC Predefined. */ /* PR.PRPC bit masks and bit positions */ #define PR_TWI_bm 0x40 /* Port C Two-wire Interface bit mask. */ #define PR_TWI_bp 6 /* Port C Two-wire Interface bit position. */ #define PR_USART1_bm 0x20 /* Port C USART1 bit mask. */ #define PR_USART1_bp 5 /* Port C USART1 bit position. */ #define PR_USART0_bm 0x10 /* Port C USART0 bit mask. */ #define PR_USART0_bp 4 /* Port C USART0 bit position. */ #define PR_SPI_bm 0x08 /* Port C SPI bit mask. */ #define PR_SPI_bp 3 /* Port C SPI bit position. */ #define PR_HIRES_bm 0x04 /* Port C AWEX bit mask. */ #define PR_HIRES_bp 2 /* Port C AWEX bit position. */ #define PR_TC1_bm 0x02 /* Port C Timer/Counter1 bit mask. */ #define PR_TC1_bp 1 /* Port C Timer/Counter1 bit position. */ #define PR_TC0_bm 0x01 /* Port C Timer/Counter0 bit mask. */ #define PR_TC0_bp 0 /* Port C Timer/Counter0 bit position. */ /* PR.PRPD bit masks and bit positions */ /* PR_TWI Predefined. */ /* PR_TWI Predefined. */ /* PR_USART1 Predefined. */ /* PR_USART1 Predefined. */ /* PR_USART0 Predefined. */ /* PR_USART0 Predefined. */ /* PR_SPI Predefined. */ /* PR_SPI Predefined. */ /* PR_HIRES Predefined. */ /* PR_HIRES Predefined. */ /* PR_TC1 Predefined. */ /* PR_TC1 Predefined. */ /* PR_TC0 Predefined. */ /* PR_TC0 Predefined. */ /* PR.PRPE bit masks and bit positions */ /* PR_TWI Predefined. */ /* PR_TWI Predefined. */ /* PR_USART1 Predefined. */ /* PR_USART1 Predefined. */ /* PR_USART0 Predefined. */ /* PR_USART0 Predefined. */ /* PR_SPI Predefined. */ /* PR_SPI Predefined. */ /* PR_HIRES Predefined. */ /* PR_HIRES Predefined. */ /* PR_TC1 Predefined. */ /* PR_TC1 Predefined. */ /* PR_TC0 Predefined. */ /* PR_TC0 Predefined. */ /* PR.PRPF bit masks and bit positions */ /* PR_TWI Predefined. */ /* PR_TWI Predefined. */ /* PR_USART1 Predefined. */ /* PR_USART1 Predefined. */ /* PR_USART0 Predefined. */ /* PR_USART0 Predefined. */ /* PR_SPI Predefined. */ /* PR_SPI Predefined. */ /* PR_HIRES Predefined. */ /* PR_HIRES Predefined. */ /* PR_TC1 Predefined. */ /* PR_TC1 Predefined. */ /* PR_TC0 Predefined. */ /* PR_TC0 Predefined. */ /* SLEEP - Sleep Controller */ /* SLEEP.CTRL bit masks and bit positions */ #define SLEEP_SMODE_gm 0x0E /* Sleep Mode group mask. */ #define SLEEP_SMODE_gp 1 /* Sleep Mode group position. */ #define SLEEP_SMODE0_bm (1<<1) /* Sleep Mode bit 0 mask. */ #define SLEEP_SMODE0_bp 1 /* Sleep Mode bit 0 position. */ #define SLEEP_SMODE1_bm (1<<2) /* Sleep Mode bit 1 mask. */ #define SLEEP_SMODE1_bp 2 /* Sleep Mode bit 1 position. */ #define SLEEP_SMODE2_bm (1<<3) /* Sleep Mode bit 2 mask. */ #define SLEEP_SMODE2_bp 3 /* Sleep Mode bit 2 position. */ #define SLEEP_SEN_bm 0x01 /* Sleep Enable bit mask. */ #define SLEEP_SEN_bp 0 /* Sleep Enable bit position. */ /* OSC - Oscillator */ /* OSC.CTRL bit masks and bit positions */ #define OSC_PLLEN_bm 0x10 /* PLL Enable bit mask. */ #define OSC_PLLEN_bp 4 /* PLL Enable bit position. */ #define OSC_XOSCEN_bm 0x08 /* External Oscillator Enable bit mask. */ #define OSC_XOSCEN_bp 3 /* External Oscillator Enable bit position. */ #define OSC_RC32KEN_bm 0x04 /* Internal 32.768 kHz RC Oscillator Enable bit mask. */ #define OSC_RC32KEN_bp 2 /* Internal 32.768 kHz RC Oscillator Enable bit position. */ #define OSC_RC32MEN_bm 0x02 /* Internal 32 MHz RC Oscillator Enable bit mask. */ #define OSC_RC32MEN_bp 1 /* Internal 32 MHz RC Oscillator Enable bit position. */ #define OSC_RC2MEN_bm 0x01 /* Internal 2 MHz RC Oscillator Enable bit mask. */ #define OSC_RC2MEN_bp 0 /* Internal 2 MHz RC Oscillator Enable bit position. */ /* OSC.STATUS bit masks and bit positions */ #define OSC_PLLRDY_bm 0x10 /* PLL Ready bit mask. */ #define OSC_PLLRDY_bp 4 /* PLL Ready bit position. */ #define OSC_XOSCRDY_bm 0x08 /* External Oscillator Ready bit mask. */ #define OSC_XOSCRDY_bp 3 /* External Oscillator Ready bit position. */ #define OSC_RC32KRDY_bm 0x04 /* Internal 32.768 kHz RC Oscillator Ready bit mask. */ #define OSC_RC32KRDY_bp 2 /* Internal 32.768 kHz RC Oscillator Ready bit position. */ #define OSC_RC32MRDY_bm 0x02 /* Internal 32 MHz RC Oscillator Ready bit mask. */ #define OSC_RC32MRDY_bp 1 /* Internal 32 MHz RC Oscillator Ready bit position. */ #define OSC_RC2MRDY_bm 0x01 /* Internal 2 MHz RC Oscillator Ready bit mask. */ #define OSC_RC2MRDY_bp 0 /* Internal 2 MHz RC Oscillator Ready bit position. */ /* OSC.XOSCCTRL bit masks and bit positions */ #define OSC_FRQRANGE_gm 0xC0 /* Frequency Range group mask. */ #define OSC_FRQRANGE_gp 6 /* Frequency Range group position. */ #define OSC_FRQRANGE0_bm (1<<6) /* Frequency Range bit 0 mask. */ #define OSC_FRQRANGE0_bp 6 /* Frequency Range bit 0 position. */ #define OSC_FRQRANGE1_bm (1<<7) /* Frequency Range bit 1 mask. */ #define OSC_FRQRANGE1_bp 7 /* Frequency Range bit 1 position. */ #define OSC_X32KLPM_bm 0x20 /* 32.768 kHz XTAL OSC Low-power Mode bit mask. */ #define OSC_X32KLPM_bp 5 /* 32.768 kHz XTAL OSC Low-power Mode bit position. */ #define OSC_XOSCPWR_bm 0x10 /* 16 MHz Crystal Oscillator High Power mode bit mask. */ #define OSC_XOSCPWR_bp 4 /* 16 MHz Crystal Oscillator High Power mode bit position. */ #define OSC_XOSCSEL_gm 0x0F /* External Oscillator Selection and Startup Time group mask. */ #define OSC_XOSCSEL_gp 0 /* External Oscillator Selection and Startup Time group position. */ #define OSC_XOSCSEL0_bm (1<<0) /* External Oscillator Selection and Startup Time bit 0 mask. */ #define OSC_XOSCSEL0_bp 0 /* External Oscillator Selection and Startup Time bit 0 position. */ #define OSC_XOSCSEL1_bm (1<<1) /* External Oscillator Selection and Startup Time bit 1 mask. */ #define OSC_XOSCSEL1_bp 1 /* External Oscillator Selection and Startup Time bit 1 position. */ #define OSC_XOSCSEL2_bm (1<<2) /* External Oscillator Selection and Startup Time bit 2 mask. */ #define OSC_XOSCSEL2_bp 2 /* External Oscillator Selection and Startup Time bit 2 position. */ #define OSC_XOSCSEL3_bm (1<<3) /* External Oscillator Selection and Startup Time bit 3 mask. */ #define OSC_XOSCSEL3_bp 3 /* External Oscillator Selection and Startup Time bit 3 position. */ /* OSC.XOSCFAIL bit masks and bit positions */ #define OSC_PLLFDIF_bm 0x08 /* PLL Failure Detection Interrupt Flag bit mask. */ #define OSC_PLLFDIF_bp 3 /* PLL Failure Detection Interrupt Flag bit position. */ #define OSC_PLLFDEN_bm 0x04 /* PLL Failure Detection Enable bit mask. */ #define OSC_PLLFDEN_bp 2 /* PLL Failure Detection Enable bit position. */ #define OSC_XOSCFDIF_bm 0x02 /* XOSC Failure Detection Interrupt Flag bit mask. */ #define OSC_XOSCFDIF_bp 1 /* XOSC Failure Detection Interrupt Flag bit position. */ #define OSC_XOSCFDEN_bm 0x01 /* XOSC Failure Detection Enable bit mask. */ #define OSC_XOSCFDEN_bp 0 /* XOSC Failure Detection Enable bit position. */ /* OSC.PLLCTRL bit masks and bit positions */ #define OSC_PLLSRC_gm 0xC0 /* Clock Source group mask. */ #define OSC_PLLSRC_gp 6 /* Clock Source group position. */ #define OSC_PLLSRC0_bm (1<<6) /* Clock Source bit 0 mask. */ #define OSC_PLLSRC0_bp 6 /* Clock Source bit 0 position. */ #define OSC_PLLSRC1_bm (1<<7) /* Clock Source bit 1 mask. */ #define OSC_PLLSRC1_bp 7 /* Clock Source bit 1 position. */ #define OSC_PLLDIV_bm 0x20 /* Divide by 2 bit mask. */ #define OSC_PLLDIV_bp 5 /* Divide by 2 bit position. */ #define OSC_PLLFAC_gm 0x1F /* Multiplication Factor group mask. */ #define OSC_PLLFAC_gp 0 /* Multiplication Factor group position. */ #define OSC_PLLFAC0_bm (1<<0) /* Multiplication Factor bit 0 mask. */ #define OSC_PLLFAC0_bp 0 /* Multiplication Factor bit 0 position. */ #define OSC_PLLFAC1_bm (1<<1) /* Multiplication Factor bit 1 mask. */ #define OSC_PLLFAC1_bp 1 /* Multiplication Factor bit 1 position. */ #define OSC_PLLFAC2_bm (1<<2) /* Multiplication Factor bit 2 mask. */ #define OSC_PLLFAC2_bp 2 /* Multiplication Factor bit 2 position. */ #define OSC_PLLFAC3_bm (1<<3) /* Multiplication Factor bit 3 mask. */ #define OSC_PLLFAC3_bp 3 /* Multiplication Factor bit 3 position. */ #define OSC_PLLFAC4_bm (1<<4) /* Multiplication Factor bit 4 mask. */ #define OSC_PLLFAC4_bp 4 /* Multiplication Factor bit 4 position. */ /* OSC.DFLLCTRL bit masks and bit positions */ #define OSC_RC32MCREF_gm 0x06 /* 32 MHz DFLL Calibration Reference group mask. */ #define OSC_RC32MCREF_gp 1 /* 32 MHz DFLL Calibration Reference group position. */ #define OSC_RC32MCREF0_bm (1<<1) /* 32 MHz DFLL Calibration Reference bit 0 mask. */ #define OSC_RC32MCREF0_bp 1 /* 32 MHz DFLL Calibration Reference bit 0 position. */ #define OSC_RC32MCREF1_bm (1<<2) /* 32 MHz DFLL Calibration Reference bit 1 mask. */ #define OSC_RC32MCREF1_bp 2 /* 32 MHz DFLL Calibration Reference bit 1 position. */ #define OSC_RC2MCREF_bm 0x01 /* 2 MHz DFLL Calibration Reference bit mask. */ #define OSC_RC2MCREF_bp 0 /* 2 MHz DFLL Calibration Reference bit position. */ /* DFLL - DFLL */ /* DFLL.CTRL bit masks and bit positions */ #define DFLL_ENABLE_bm 0x01 /* DFLL Enable bit mask. */ #define DFLL_ENABLE_bp 0 /* DFLL Enable bit position. */ /* DFLL.CALA bit masks and bit positions */ #define DFLL_CALL_gm 0x7F /* DFLL Calibration Value A group mask. */ #define DFLL_CALL_gp 0 /* DFLL Calibration Value A group position. */ #define DFLL_CALL0_bm (1<<0) /* DFLL Calibration Value A bit 0 mask. */ #define DFLL_CALL0_bp 0 /* DFLL Calibration Value A bit 0 position. */ #define DFLL_CALL1_bm (1<<1) /* DFLL Calibration Value A bit 1 mask. */ #define DFLL_CALL1_bp 1 /* DFLL Calibration Value A bit 1 position. */ #define DFLL_CALL2_bm (1<<2) /* DFLL Calibration Value A bit 2 mask. */ #define DFLL_CALL2_bp 2 /* DFLL Calibration Value A bit 2 position. */ #define DFLL_CALL3_bm (1<<3) /* DFLL Calibration Value A bit 3 mask. */ #define DFLL_CALL3_bp 3 /* DFLL Calibration Value A bit 3 position. */ #define DFLL_CALL4_bm (1<<4) /* DFLL Calibration Value A bit 4 mask. */ #define DFLL_CALL4_bp 4 /* DFLL Calibration Value A bit 4 position. */ #define DFLL_CALL5_bm (1<<5) /* DFLL Calibration Value A bit 5 mask. */ #define DFLL_CALL5_bp 5 /* DFLL Calibration Value A bit 5 position. */ #define DFLL_CALL6_bm (1<<6) /* DFLL Calibration Value A bit 6 mask. */ #define DFLL_CALL6_bp 6 /* DFLL Calibration Value A bit 6 position. */ /* DFLL.CALB bit masks and bit positions */ #define DFLL_CALH_gm 0x3F /* DFLL Calibration Value B group mask. */ #define DFLL_CALH_gp 0 /* DFLL Calibration Value B group position. */ #define DFLL_CALH0_bm (1<<0) /* DFLL Calibration Value B bit 0 mask. */ #define DFLL_CALH0_bp 0 /* DFLL Calibration Value B bit 0 position. */ #define DFLL_CALH1_bm (1<<1) /* DFLL Calibration Value B bit 1 mask. */ #define DFLL_CALH1_bp 1 /* DFLL Calibration Value B bit 1 position. */ #define DFLL_CALH2_bm (1<<2) /* DFLL Calibration Value B bit 2 mask. */ #define DFLL_CALH2_bp 2 /* DFLL Calibration Value B bit 2 position. */ #define DFLL_CALH3_bm (1<<3) /* DFLL Calibration Value B bit 3 mask. */ #define DFLL_CALH3_bp 3 /* DFLL Calibration Value B bit 3 position. */ #define DFLL_CALH4_bm (1<<4) /* DFLL Calibration Value B bit 4 mask. */ #define DFLL_CALH4_bp 4 /* DFLL Calibration Value B bit 4 position. */ #define DFLL_CALH5_bm (1<<5) /* DFLL Calibration Value B bit 5 mask. */ #define DFLL_CALH5_bp 5 /* DFLL Calibration Value B bit 5 position. */ /* RST - Reset */ /* RST.STATUS bit masks and bit positions */ #define RST_SDRF_bm 0x40 /* Spike Detection Reset Flag bit mask. */ #define RST_SDRF_bp 6 /* Spike Detection Reset Flag bit position. */ #define RST_SRF_bm 0x20 /* Software Reset Flag bit mask. */ #define RST_SRF_bp 5 /* Software Reset Flag bit position. */ #define RST_PDIRF_bm 0x10 /* Programming and Debug Interface Interface Reset Flag bit mask. */ #define RST_PDIRF_bp 4 /* Programming and Debug Interface Interface Reset Flag bit position. */ #define RST_WDRF_bm 0x08 /* Watchdog Reset Flag bit mask. */ #define RST_WDRF_bp 3 /* Watchdog Reset Flag bit position. */ #define RST_BORF_bm 0x04 /* Brown-out Reset Flag bit mask. */ #define RST_BORF_bp 2 /* Brown-out Reset Flag bit position. */ #define RST_EXTRF_bm 0x02 /* External Reset Flag bit mask. */ #define RST_EXTRF_bp 1 /* External Reset Flag bit position. */ #define RST_PORF_bm 0x01 /* Power-on Reset Flag bit mask. */ #define RST_PORF_bp 0 /* Power-on Reset Flag bit position. */ /* RST.CTRL bit masks and bit positions */ #define RST_SWRST_bm 0x01 /* Software Reset bit mask. */ #define RST_SWRST_bp 0 /* Software Reset bit position. */ /* WDT - Watch-Dog Timer */ /* WDT.CTRL bit masks and bit positions */ #define WDT_PER_gm 0x3C /* Period group mask. */ #define WDT_PER_gp 2 /* Period group position. */ #define WDT_PER0_bm (1<<2) /* Period bit 0 mask. */ #define WDT_PER0_bp 2 /* Period bit 0 position. */ #define WDT_PER1_bm (1<<3) /* Period bit 1 mask. */ #define WDT_PER1_bp 3 /* Period bit 1 position. */ #define WDT_PER2_bm (1<<4) /* Period bit 2 mask. */ #define WDT_PER2_bp 4 /* Period bit 2 position. */ #define WDT_PER3_bm (1<<5) /* Period bit 3 mask. */ #define WDT_PER3_bp 5 /* Period bit 3 position. */ #define WDT_ENABLE_bm 0x02 /* Enable bit mask. */ #define WDT_ENABLE_bp 1 /* Enable bit position. */ #define WDT_CEN_bm 0x01 /* Change Enable bit mask. */ #define WDT_CEN_bp 0 /* Change Enable bit position. */ /* WDT.WINCTRL bit masks and bit positions */ #define WDT_WPER_gm 0x3C /* Windowed Mode Period group mask. */ #define WDT_WPER_gp 2 /* Windowed Mode Period group position. */ #define WDT_WPER0_bm (1<<2) /* Windowed Mode Period bit 0 mask. */ #define WDT_WPER0_bp 2 /* Windowed Mode Period bit 0 position. */ #define WDT_WPER1_bm (1<<3) /* Windowed Mode Period bit 1 mask. */ #define WDT_WPER1_bp 3 /* Windowed Mode Period bit 1 position. */ #define WDT_WPER2_bm (1<<4) /* Windowed Mode Period bit 2 mask. */ #define WDT_WPER2_bp 4 /* Windowed Mode Period bit 2 position. */ #define WDT_WPER3_bm (1<<5) /* Windowed Mode Period bit 3 mask. */ #define WDT_WPER3_bp 5 /* Windowed Mode Period bit 3 position. */ #define WDT_WEN_bm 0x02 /* Windowed Mode Enable bit mask. */ #define WDT_WEN_bp 1 /* Windowed Mode Enable bit position. */ #define WDT_WCEN_bm 0x01 /* Windowed Mode Change Enable bit mask. */ #define WDT_WCEN_bp 0 /* Windowed Mode Change Enable bit 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. */ /* MCU - MCU Control */ /* MCU.MCUCR bit masks and bit positions */ #define MCU_JTAGD_bm 0x01 /* JTAG Disable bit mask. */ #define MCU_JTAGD_bp 0 /* JTAG Disable bit position. */ /* MCU.ANAINIT bit masks and bit positions */ #define MCU_STARTUPDLYB_gm 0x0C /* Analog startup delay Port B group mask. */ #define MCU_STARTUPDLYB_gp 2 /* Analog startup delay Port B group position. */ #define MCU_STARTUPDLYB0_bm (1<<2) /* Analog startup delay Port B bit 0 mask. */ #define MCU_STARTUPDLYB0_bp 2 /* Analog startup delay Port B bit 0 position. */ #define MCU_STARTUPDLYB1_bm (1<<3) /* Analog startup delay Port B bit 1 mask. */ #define MCU_STARTUPDLYB1_bp 3 /* Analog startup delay Port B bit 1 position. */ #define MCU_STARTUPDLYA_gm 0x03 /* Analog startup delay Port A group mask. */ #define MCU_STARTUPDLYA_gp 0 /* Analog startup delay Port A group position. */ #define MCU_STARTUPDLYA0_bm (1<<0) /* Analog startup delay Port A bit 0 mask. */ #define MCU_STARTUPDLYA0_bp 0 /* Analog startup delay Port A bit 0 position. */ #define MCU_STARTUPDLYA1_bm (1<<1) /* Analog startup delay Port A bit 1 mask. */ #define MCU_STARTUPDLYA1_bp 1 /* Analog startup delay Port A bit 1 position. */ /* MCU.EVSYSLOCK bit masks and bit positions */ #define MCU_EVSYS1LOCK_bm 0x10 /* Event Channel 4-7 Lock bit mask. */ #define MCU_EVSYS1LOCK_bp 4 /* Event Channel 4-7 Lock bit position. */ #define MCU_EVSYS0LOCK_bm 0x01 /* Event Channel 0-3 Lock bit mask. */ #define MCU_EVSYS0LOCK_bp 0 /* Event Channel 0-3 Lock bit position. */ /* MCU.AWEXLOCK bit masks and bit positions */ #define MCU_AWEXFLOCK_bm 0x08 /* AWeX on T/C F0 Lock bit mask. */ #define MCU_AWEXFLOCK_bp 3 /* AWeX on T/C F0 Lock bit position. */ #define MCU_AWEXELOCK_bm 0x04 /* AWeX on T/C E0 Lock bit mask. */ #define MCU_AWEXELOCK_bp 2 /* AWeX on T/C E0 Lock bit position. */ #define MCU_AWEXDLOCK_bm 0x02 /* AWeX on T/C D0 Lock bit mask. */ #define MCU_AWEXDLOCK_bp 1 /* AWeX on T/C D0 Lock bit position. */ #define MCU_AWEXCLOCK_bm 0x01 /* AWeX on T/C C0 Lock bit mask. */ #define MCU_AWEXCLOCK_bp 0 /* AWeX on T/C C0 Lock bit position. */ /* PMIC - Programmable Multi-level Interrupt Controller */ /* PMIC.STATUS bit masks and bit positions */ #define PMIC_NMIEX_bm 0x80 /* Non-maskable Interrupt Executing bit mask. */ #define PMIC_NMIEX_bp 7 /* Non-maskable Interrupt Executing bit position. */ #define PMIC_HILVLEX_bm 0x04 /* High Level Interrupt Executing bit mask. */ #define PMIC_HILVLEX_bp 2 /* High Level Interrupt Executing bit position. */ #define PMIC_MEDLVLEX_bm 0x02 /* Medium Level Interrupt Executing bit mask. */ #define PMIC_MEDLVLEX_bp 1 /* Medium Level Interrupt Executing bit position. */ #define PMIC_LOLVLEX_bm 0x01 /* Low Level Interrupt Executing bit mask. */ #define PMIC_LOLVLEX_bp 0 /* Low Level Interrupt Executing bit position. */ /* PMIC.INTPRI bit masks and bit positions */ #define PMIC_INTPRI_gm 0xFF /* Interrupt Priority group mask. */ #define PMIC_INTPRI_gp 0 /* Interrupt Priority group position. */ #define PMIC_INTPRI0_bm (1<<0) /* Interrupt Priority bit 0 mask. */ #define PMIC_INTPRI0_bp 0 /* Interrupt Priority bit 0 position. */ #define PMIC_INTPRI1_bm (1<<1) /* Interrupt Priority bit 1 mask. */ #define PMIC_INTPRI1_bp 1 /* Interrupt Priority bit 1 position. */ #define PMIC_INTPRI2_bm (1<<2) /* Interrupt Priority bit 2 mask. */ #define PMIC_INTPRI2_bp 2 /* Interrupt Priority bit 2 position. */ #define PMIC_INTPRI3_bm (1<<3) /* Interrupt Priority bit 3 mask. */ #define PMIC_INTPRI3_bp 3 /* Interrupt Priority bit 3 position. */ #define PMIC_INTPRI4_bm (1<<4) /* Interrupt Priority bit 4 mask. */ #define PMIC_INTPRI4_bp 4 /* Interrupt Priority bit 4 position. */ #define PMIC_INTPRI5_bm (1<<5) /* Interrupt Priority bit 5 mask. */ #define PMIC_INTPRI5_bp 5 /* Interrupt Priority bit 5 position. */ #define PMIC_INTPRI6_bm (1<<6) /* Interrupt Priority bit 6 mask. */ #define PMIC_INTPRI6_bp 6 /* Interrupt Priority bit 6 position. */ #define PMIC_INTPRI7_bm (1<<7) /* Interrupt Priority bit 7 mask. */ #define PMIC_INTPRI7_bp 7 /* Interrupt Priority bit 7 position. */ /* PMIC.CTRL bit masks and bit positions */ #define PMIC_RREN_bm 0x80 /* Round-Robin Priority Enable bit mask. */ #define PMIC_RREN_bp 7 /* Round-Robin Priority Enable bit position. */ #define PMIC_IVSEL_bm 0x40 /* Interrupt Vector Select bit mask. */ #define PMIC_IVSEL_bp 6 /* Interrupt Vector Select bit position. */ #define PMIC_HILVLEN_bm 0x04 /* High Level Enable bit mask. */ #define PMIC_HILVLEN_bp 2 /* High Level Enable bit position. */ #define PMIC_MEDLVLEN_bm 0x02 /* Medium Level Enable bit mask. */ #define PMIC_MEDLVLEN_bp 1 /* Medium Level Enable bit position. */ #define PMIC_LOLVLEN_bm 0x01 /* Low Level Enable bit mask. */ #define PMIC_LOLVLEN_bp 0 /* Low Level Enable bit position. */ /* PORTCFG - Port Configuration */ /* PORTCFG.VPCTRLA bit masks and bit positions */ #define PORTCFG_VP1MAP_gm 0xF0 /* Virtual Port 1 Mapping group mask. */ #define PORTCFG_VP1MAP_gp 4 /* Virtual Port 1 Mapping group position. */ #define PORTCFG_VP1MAP0_bm (1<<4) /* Virtual Port 1 Mapping bit 0 mask. */ #define PORTCFG_VP1MAP0_bp 4 /* Virtual Port 1 Mapping bit 0 position. */ #define PORTCFG_VP1MAP1_bm (1<<5) /* Virtual Port 1 Mapping bit 1 mask. */ #define PORTCFG_VP1MAP1_bp 5 /* Virtual Port 1 Mapping bit 1 position. */ #define PORTCFG_VP1MAP2_bm (1<<6) /* Virtual Port 1 Mapping bit 2 mask. */ #define PORTCFG_VP1MAP2_bp 6 /* Virtual Port 1 Mapping bit 2 position. */ #define PORTCFG_VP1MAP3_bm (1<<7) /* Virtual Port 1 Mapping bit 3 mask. */ #define PORTCFG_VP1MAP3_bp 7 /* Virtual Port 1 Mapping bit 3 position. */ #define PORTCFG_VP0MAP_gm 0x0F /* Virtual Port 0 Mapping group mask. */ #define PORTCFG_VP0MAP_gp 0 /* Virtual Port 0 Mapping group position. */ #define PORTCFG_VP0MAP0_bm (1<<0) /* Virtual Port 0 Mapping bit 0 mask. */ #define PORTCFG_VP0MAP0_bp 0 /* Virtual Port 0 Mapping bit 0 position. */ #define PORTCFG_VP0MAP1_bm (1<<1) /* Virtual Port 0 Mapping bit 1 mask. */ #define PORTCFG_VP0MAP1_bp 1 /* Virtual Port 0 Mapping bit 1 position. */ #define PORTCFG_VP0MAP2_bm (1<<2) /* Virtual Port 0 Mapping bit 2 mask. */ #define PORTCFG_VP0MAP2_bp 2 /* Virtual Port 0 Mapping bit 2 position. */ #define PORTCFG_VP0MAP3_bm (1<<3) /* Virtual Port 0 Mapping bit 3 mask. */ #define PORTCFG_VP0MAP3_bp 3 /* Virtual Port 0 Mapping bit 3 position. */ /* PORTCFG.VPCTRLB bit masks and bit positions */ #define PORTCFG_VP3MAP_gm 0xF0 /* Virtual Port 3 Mapping group mask. */ #define PORTCFG_VP3MAP_gp 4 /* Virtual Port 3 Mapping group position. */ #define PORTCFG_VP3MAP0_bm (1<<4) /* Virtual Port 3 Mapping bit 0 mask. */ #define PORTCFG_VP3MAP0_bp 4 /* Virtual Port 3 Mapping bit 0 position. */ #define PORTCFG_VP3MAP1_bm (1<<5) /* Virtual Port 3 Mapping bit 1 mask. */ #define PORTCFG_VP3MAP1_bp 5 /* Virtual Port 3 Mapping bit 1 position. */ #define PORTCFG_VP3MAP2_bm (1<<6) /* Virtual Port 3 Mapping bit 2 mask. */ #define PORTCFG_VP3MAP2_bp 6 /* Virtual Port 3 Mapping bit 2 position. */ #define PORTCFG_VP3MAP3_bm (1<<7) /* Virtual Port 3 Mapping bit 3 mask. */ #define PORTCFG_VP3MAP3_bp 7 /* Virtual Port 3 Mapping bit 3 position. */ #define PORTCFG_VP2MAP_gm 0x0F /* Virtual Port 2 Mapping group mask. */ #define PORTCFG_VP2MAP_gp 0 /* Virtual Port 2 Mapping group position. */ #define PORTCFG_VP2MAP0_bm (1<<0) /* Virtual Port 2 Mapping bit 0 mask. */ #define PORTCFG_VP2MAP0_bp 0 /* Virtual Port 2 Mapping bit 0 position. */ #define PORTCFG_VP2MAP1_bm (1<<1) /* Virtual Port 2 Mapping bit 1 mask. */ #define PORTCFG_VP2MAP1_bp 1 /* Virtual Port 2 Mapping bit 1 position. */ #define PORTCFG_VP2MAP2_bm (1<<2) /* Virtual Port 2 Mapping bit 2 mask. */ #define PORTCFG_VP2MAP2_bp 2 /* Virtual Port 2 Mapping bit 2 position. */ #define PORTCFG_VP2MAP3_bm (1<<3) /* Virtual Port 2 Mapping bit 3 mask. */ #define PORTCFG_VP2MAP3_bp 3 /* Virtual Port 2 Mapping bit 3 position. */ /* PORTCFG.CLKEVOUT bit masks and bit positions */ #define PORTCFG_CLKOUT_gm 0x03 /* Peripheral Clock Output Port group mask. */ #define PORTCFG_CLKOUT_gp 0 /* Peripheral Clock Output Port group position. */ #define PORTCFG_CLKOUT0_bm (1<<0) /* Peripheral Clock Output Port bit 0 mask. */ #define PORTCFG_CLKOUT0_bp 0 /* Peripheral Clock Output Port bit 0 position. */ #define PORTCFG_CLKOUT1_bm (1<<1) /* Peripheral Clock Output Port bit 1 mask. */ #define PORTCFG_CLKOUT1_bp 1 /* Peripheral Clock Output Port bit 1 position. */ #define PORTCFG_CLKOUTSEL_gm 0x0C /* Peripheral Clock Output Select group mask. */ #define PORTCFG_CLKOUTSEL_gp 2 /* Peripheral Clock Output Select group position. */ #define PORTCFG_CLKOUTSEL0_bm (1<<2) /* Peripheral Clock Output Select bit 0 mask. */ #define PORTCFG_CLKOUTSEL0_bp 2 /* Peripheral Clock Output Select bit 0 position. */ #define PORTCFG_CLKOUTSEL1_bm (1<<3) /* Peripheral Clock Output Select bit 1 mask. */ #define PORTCFG_CLKOUTSEL1_bp 3 /* Peripheral Clock Output Select bit 1 position. */ #define PORTCFG_EVOUT_gm 0x30 /* Event Output Port group mask. */ #define PORTCFG_EVOUT_gp 4 /* Event Output Port group position. */ #define PORTCFG_EVOUT0_bm (1<<4) /* Event Output Port bit 0 mask. */ #define PORTCFG_EVOUT0_bp 4 /* Event Output Port bit 0 position. */ #define PORTCFG_EVOUT1_bm (1<<5) /* Event Output Port bit 1 mask. */ #define PORTCFG_EVOUT1_bp 5 /* Event Output Port bit 1 position. */ #define PORTCFG_RTCOUT_bm 0x40 /* RTC Clock Output bit mask. */ #define PORTCFG_RTCOUT_bp 6 /* RTC Clock Output bit position. */ #define PORTCFG_CLKEVPIN_bm 0x80 /* Peripheral Clock and Event Output pin Select bit mask. */ #define PORTCFG_CLKEVPIN_bp 7 /* Peripheral Clock and Event Output pin Select bit position. */ /* PORTCFG.EBIOUT bit masks and bit positions */ #define PORTCFG_EBICSOUT_gm 0x03 /* EBI Chip Select Output group mask. */ #define PORTCFG_EBICSOUT_gp 0 /* EBI Chip Select Output group position. */ #define PORTCFG_EBICSOUT0_bm (1<<0) /* EBI Chip Select Output bit 0 mask. */ #define PORTCFG_EBICSOUT0_bp 0 /* EBI Chip Select Output bit 0 position. */ #define PORTCFG_EBICSOUT1_bm (1<<1) /* EBI Chip Select Output bit 1 mask. */ #define PORTCFG_EBICSOUT1_bp 1 /* EBI Chip Select Output bit 1 position. */ #define PORTCFG_EBIADROUT_gm 0x0C /* EBI Address Output group mask. */ #define PORTCFG_EBIADROUT_gp 2 /* EBI Address Output group position. */ #define PORTCFG_EBIADROUT0_bm (1<<2) /* EBI Address Output bit 0 mask. */ #define PORTCFG_EBIADROUT0_bp 2 /* EBI Address Output bit 0 position. */ #define PORTCFG_EBIADROUT1_bm (1<<3) /* EBI Address Output bit 1 mask. */ #define PORTCFG_EBIADROUT1_bp 3 /* EBI Address Output bit 1 position. */ /* PORTCFG.EVOUTSEL bit masks and bit positions */ #define PORTCFG_EVOUTSEL_gm 0x07 /* Event Output Select group mask. */ #define PORTCFG_EVOUTSEL_gp 0 /* Event Output Select group position. */ #define PORTCFG_EVOUTSEL0_bm (1<<0) /* Event Output Select bit 0 mask. */ #define PORTCFG_EVOUTSEL0_bp 0 /* Event Output Select bit 0 position. */ #define PORTCFG_EVOUTSEL1_bm (1<<1) /* Event Output Select bit 1 mask. */ #define PORTCFG_EVOUTSEL1_bp 1 /* Event Output Select bit 1 position. */ #define PORTCFG_EVOUTSEL2_bm (1<<2) /* Event Output Select bit 2 mask. */ #define PORTCFG_EVOUTSEL2_bp 2 /* Event Output Select bit 2 position. */ /* AES - AES Module */ /* AES.CTRL bit masks and bit positions */ #define AES_START_bm 0x80 /* Start/Run bit mask. */ #define AES_START_bp 7 /* Start/Run bit position. */ #define AES_AUTO_bm 0x40 /* Auto Start Trigger bit mask. */ #define AES_AUTO_bp 6 /* Auto Start Trigger bit position. */ #define AES_RESET_bm 0x20 /* AES Software Reset bit mask. */ #define AES_RESET_bp 5 /* AES Software Reset bit position. */ #define AES_DECRYPT_bm 0x10 /* Decryption / Direction bit mask. */ #define AES_DECRYPT_bp 4 /* Decryption / Direction bit position. */ #define AES_XOR_bm 0x04 /* State XOR Load Enable bit mask. */ #define AES_XOR_bp 2 /* State XOR Load Enable bit position. */ /* AES.STATUS bit masks and bit positions */ #define AES_ERROR_bm 0x80 /* AES Error bit mask. */ #define AES_ERROR_bp 7 /* AES Error bit position. */ #define AES_SRIF_bm 0x01 /* State Ready Interrupt Flag bit mask. */ #define AES_SRIF_bp 0 /* State Ready Interrupt Flag bit position. */ /* AES.INTCTRL bit masks and bit positions */ #define AES_INTLVL_gm 0x03 /* Interrupt level group mask. */ #define AES_INTLVL_gp 0 /* Interrupt level group position. */ #define AES_INTLVL0_bm (1<<0) /* Interrupt level bit 0 mask. */ #define AES_INTLVL0_bp 0 /* Interrupt level bit 0 position. */ #define AES_INTLVL1_bm (1<<1) /* Interrupt level bit 1 mask. */ #define AES_INTLVL1_bp 1 /* Interrupt level bit 1 position. */ /* CRC - Cyclic Redundancy Checker */ /* CRC.CTRL bit masks and bit positions */ #define CRC_RESET_gm 0xC0 /* Reset group mask. */ #define CRC_RESET_gp 6 /* Reset group position. */ #define CRC_RESET0_bm (1<<6) /* Reset bit 0 mask. */ #define CRC_RESET0_bp 6 /* Reset bit 0 position. */ #define CRC_RESET1_bm (1<<7) /* Reset bit 1 mask. */ #define CRC_RESET1_bp 7 /* Reset bit 1 position. */ #define CRC_CRC32_bm 0x20 /* CRC Mode bit mask. */ #define CRC_CRC32_bp 5 /* CRC Mode bit position. */ #define CRC_SOURCE_gm 0x0F /* Input Source group mask. */ #define CRC_SOURCE_gp 0 /* Input Source group position. */ #define CRC_SOURCE0_bm (1<<0) /* Input Source bit 0 mask. */ #define CRC_SOURCE0_bp 0 /* Input Source bit 0 position. */ #define CRC_SOURCE1_bm (1<<1) /* Input Source bit 1 mask. */ #define CRC_SOURCE1_bp 1 /* Input Source bit 1 position. */ #define CRC_SOURCE2_bm (1<<2) /* Input Source bit 2 mask. */ #define CRC_SOURCE2_bp 2 /* Input Source bit 2 position. */ #define CRC_SOURCE3_bm (1<<3) /* Input Source bit 3 mask. */ #define CRC_SOURCE3_bp 3 /* Input Source bit 3 position. */ /* CRC.STATUS bit masks and bit positions */ #define CRC_ZERO_bm 0x02 /* Zero detection bit mask. */ #define CRC_ZERO_bp 1 /* Zero detection bit position. */ #define CRC_BUSY_bm 0x01 /* Busy bit mask. */ #define CRC_BUSY_bp 0 /* Busy bit position. */ /* DMA - DMA Controller */ /* DMA_CH.CTRLA bit masks and bit positions */ #define DMA_CH_ENABLE_bm 0x80 /* Channel Enable bit mask. */ #define DMA_CH_ENABLE_bp 7 /* Channel Enable bit position. */ #define DMA_CH_RESET_bm 0x40 /* Channel Software Reset bit mask. */ #define DMA_CH_RESET_bp 6 /* Channel Software Reset bit position. */ #define DMA_CH_REPEAT_bm 0x20 /* Channel Repeat Mode bit mask. */ #define DMA_CH_REPEAT_bp 5 /* Channel Repeat Mode bit position. */ #define DMA_CH_TRFREQ_bm 0x10 /* Channel Transfer Request bit mask. */ #define DMA_CH_TRFREQ_bp 4 /* Channel Transfer Request bit position. */ #define DMA_CH_SINGLE_bm 0x04 /* Channel Single Shot Data Transfer bit mask. */ #define DMA_CH_SINGLE_bp 2 /* Channel Single Shot Data Transfer bit position. */ #define DMA_CH_BURSTLEN_gm 0x03 /* Channel Transfer Mode group mask. */ #define DMA_CH_BURSTLEN_gp 0 /* Channel Transfer Mode group position. */ #define DMA_CH_BURSTLEN0_bm (1<<0) /* Channel Transfer Mode bit 0 mask. */ #define DMA_CH_BURSTLEN0_bp 0 /* Channel Transfer Mode bit 0 position. */ #define DMA_CH_BURSTLEN1_bm (1<<1) /* Channel Transfer Mode bit 1 mask. */ #define DMA_CH_BURSTLEN1_bp 1 /* Channel Transfer Mode bit 1 position. */ /* DMA_CH.CTRLB bit masks and bit positions */ #define DMA_CH_CHBUSY_bm 0x80 /* Block Transfer Busy bit mask. */ #define DMA_CH_CHBUSY_bp 7 /* Block Transfer Busy bit position. */ #define DMA_CH_CHPEND_bm 0x40 /* Block Transfer Pending bit mask. */ #define DMA_CH_CHPEND_bp 6 /* Block Transfer Pending bit position. */ #define DMA_CH_ERRIF_bm 0x20 /* Block Transfer Error Interrupt Flag bit mask. */ #define DMA_CH_ERRIF_bp 5 /* Block Transfer Error Interrupt Flag bit position. */ #define DMA_CH_TRNIF_bm 0x10 /* Transaction Complete Interrup Flag bit mask. */ #define DMA_CH_TRNIF_bp 4 /* Transaction Complete Interrup Flag bit position. */ #define DMA_CH_ERRINTLVL_gm 0x0C /* Transfer Error Interrupt Level group mask. */ #define DMA_CH_ERRINTLVL_gp 2 /* Transfer Error Interrupt Level group position. */ #define DMA_CH_ERRINTLVL0_bm (1<<2) /* Transfer Error Interrupt Level bit 0 mask. */ #define DMA_CH_ERRINTLVL0_bp 2 /* Transfer Error Interrupt Level bit 0 position. */ #define DMA_CH_ERRINTLVL1_bm (1<<3) /* Transfer Error Interrupt Level bit 1 mask. */ #define DMA_CH_ERRINTLVL1_bp 3 /* Transfer Error Interrupt Level bit 1 position. */ #define DMA_CH_TRNINTLVL_gm 0x03 /* Transaction Complete Interrupt Level group mask. */ #define DMA_CH_TRNINTLVL_gp 0 /* Transaction Complete Interrupt Level group position. */ #define DMA_CH_TRNINTLVL0_bm (1<<0) /* Transaction Complete Interrupt Level bit 0 mask. */ #define DMA_CH_TRNINTLVL0_bp 0 /* Transaction Complete Interrupt Level bit 0 position. */ #define DMA_CH_TRNINTLVL1_bm (1<<1) /* Transaction Complete Interrupt Level bit 1 mask. */ #define DMA_CH_TRNINTLVL1_bp 1 /* Transaction Complete Interrupt Level bit 1 position. */ /* DMA_CH.ADDRCTRL bit masks and bit positions */ #define DMA_CH_SRCRELOAD_gm 0xC0 /* Channel Source Address Reload group mask. */ #define DMA_CH_SRCRELOAD_gp 6 /* Channel Source Address Reload group position. */ #define DMA_CH_SRCRELOAD0_bm (1<<6) /* Channel Source Address Reload bit 0 mask. */ #define DMA_CH_SRCRELOAD0_bp 6 /* Channel Source Address Reload bit 0 position. */ #define DMA_CH_SRCRELOAD1_bm (1<<7) /* Channel Source Address Reload bit 1 mask. */ #define DMA_CH_SRCRELOAD1_bp 7 /* Channel Source Address Reload bit 1 position. */ #define DMA_CH_SRCDIR_gm 0x30 /* Channel Source Address Mode group mask. */ #define DMA_CH_SRCDIR_gp 4 /* Channel Source Address Mode group position. */ #define DMA_CH_SRCDIR0_bm (1<<4) /* Channel Source Address Mode bit 0 mask. */ #define DMA_CH_SRCDIR0_bp 4 /* Channel Source Address Mode bit 0 position. */ #define DMA_CH_SRCDIR1_bm (1<<5) /* Channel Source Address Mode bit 1 mask. */ #define DMA_CH_SRCDIR1_bp 5 /* Channel Source Address Mode bit 1 position. */ #define DMA_CH_DESTRELOAD_gm 0x0C /* Channel Destination Address Reload group mask. */ #define DMA_CH_DESTRELOAD_gp 2 /* Channel Destination Address Reload group position. */ #define DMA_CH_DESTRELOAD0_bm (1<<2) /* Channel Destination Address Reload bit 0 mask. */ #define DMA_CH_DESTRELOAD0_bp 2 /* Channel Destination Address Reload bit 0 position. */ #define DMA_CH_DESTRELOAD1_bm (1<<3) /* Channel Destination Address Reload bit 1 mask. */ #define DMA_CH_DESTRELOAD1_bp 3 /* Channel Destination Address Reload bit 1 position. */ #define DMA_CH_DESTDIR_gm 0x03 /* Channel Destination Address Mode group mask. */ #define DMA_CH_DESTDIR_gp 0 /* Channel Destination Address Mode group position. */ #define DMA_CH_DESTDIR0_bm (1<<0) /* Channel Destination Address Mode bit 0 mask. */ #define DMA_CH_DESTDIR0_bp 0 /* Channel Destination Address Mode bit 0 position. */ #define DMA_CH_DESTDIR1_bm (1<<1) /* Channel Destination Address Mode bit 1 mask. */ #define DMA_CH_DESTDIR1_bp 1 /* Channel Destination Address Mode bit 1 position. */ /* DMA_CH.TRIGSRC bit masks and bit positions */ #define DMA_CH_TRIGSRC_gm 0xFF /* Channel Trigger Source group mask. */ #define DMA_CH_TRIGSRC_gp 0 /* Channel Trigger Source group position. */ #define DMA_CH_TRIGSRC0_bm (1<<0) /* Channel Trigger Source bit 0 mask. */ #define DMA_CH_TRIGSRC0_bp 0 /* Channel Trigger Source bit 0 position. */ #define DMA_CH_TRIGSRC1_bm (1<<1) /* Channel Trigger Source bit 1 mask. */ #define DMA_CH_TRIGSRC1_bp 1 /* Channel Trigger Source bit 1 position. */ #define DMA_CH_TRIGSRC2_bm (1<<2) /* Channel Trigger Source bit 2 mask. */ #define DMA_CH_TRIGSRC2_bp 2 /* Channel Trigger Source bit 2 position. */ #define DMA_CH_TRIGSRC3_bm (1<<3) /* Channel Trigger Source bit 3 mask. */ #define DMA_CH_TRIGSRC3_bp 3 /* Channel Trigger Source bit 3 position. */ #define DMA_CH_TRIGSRC4_bm (1<<4) /* Channel Trigger Source bit 4 mask. */ #define DMA_CH_TRIGSRC4_bp 4 /* Channel Trigger Source bit 4 position. */ #define DMA_CH_TRIGSRC5_bm (1<<5) /* Channel Trigger Source bit 5 mask. */ #define DMA_CH_TRIGSRC5_bp 5 /* Channel Trigger Source bit 5 position. */ #define DMA_CH_TRIGSRC6_bm (1<<6) /* Channel Trigger Source bit 6 mask. */ #define DMA_CH_TRIGSRC6_bp 6 /* Channel Trigger Source bit 6 position. */ #define DMA_CH_TRIGSRC7_bm (1<<7) /* Channel Trigger Source bit 7 mask. */ #define DMA_CH_TRIGSRC7_bp 7 /* Channel Trigger Source bit 7 position. */ /* DMA.CTRL bit masks and bit positions */ #define DMA_ENABLE_bm 0x80 /* Enable bit mask. */ #define DMA_ENABLE_bp 7 /* Enable bit position. */ #define DMA_RESET_bm 0x40 /* Software Reset bit mask. */ #define DMA_RESET_bp 6 /* Software Reset bit position. */ #define DMA_DBUFMODE_gm 0x0C /* Double Buffering Mode group mask. */ #define DMA_DBUFMODE_gp 2 /* Double Buffering Mode group position. */ #define DMA_DBUFMODE0_bm (1<<2) /* Double Buffering Mode bit 0 mask. */ #define DMA_DBUFMODE0_bp 2 /* Double Buffering Mode bit 0 position. */ #define DMA_DBUFMODE1_bm (1<<3) /* Double Buffering Mode bit 1 mask. */ #define DMA_DBUFMODE1_bp 3 /* Double Buffering Mode bit 1 position. */ #define DMA_PRIMODE_gm 0x03 /* Channel Priority Mode group mask. */ #define DMA_PRIMODE_gp 0 /* Channel Priority Mode group position. */ #define DMA_PRIMODE0_bm (1<<0) /* Channel Priority Mode bit 0 mask. */ #define DMA_PRIMODE0_bp 0 /* Channel Priority Mode bit 0 position. */ #define DMA_PRIMODE1_bm (1<<1) /* Channel Priority Mode bit 1 mask. */ #define DMA_PRIMODE1_bp 1 /* Channel Priority Mode bit 1 position. */ /* DMA.INTFLAGS bit masks and bit positions */ #define DMA_CH3ERRIF_bm 0x80 /* Channel 3 Block Transfer Error Interrupt Flag bit mask. */ #define DMA_CH3ERRIF_bp 7 /* Channel 3 Block Transfer Error Interrupt Flag bit position. */ #define DMA_CH2ERRIF_bm 0x40 /* Channel 2 Block Transfer Error Interrupt Flag bit mask. */ #define DMA_CH2ERRIF_bp 6 /* Channel 2 Block Transfer Error Interrupt Flag bit position. */ #define DMA_CH1ERRIF_bm 0x20 /* Channel 1 Block Transfer Error Interrupt Flag bit mask. */ #define DMA_CH1ERRIF_bp 5 /* Channel 1 Block Transfer Error Interrupt Flag bit position. */ #define DMA_CH0ERRIF_bm 0x10 /* Channel 0 Block Transfer Error Interrupt Flag bit mask. */ #define DMA_CH0ERRIF_bp 4 /* Channel 0 Block Transfer Error Interrupt Flag bit position. */ #define DMA_CH3TRNIF_bm 0x08 /* Channel 3 Transaction Complete Interrupt Flag bit mask. */ #define DMA_CH3TRNIF_bp 3 /* Channel 3 Transaction Complete Interrupt Flag bit position. */ #define DMA_CH2TRNIF_bm 0x04 /* Channel 2 Transaction Complete Interrupt Flag bit mask. */ #define DMA_CH2TRNIF_bp 2 /* Channel 2 Transaction Complete Interrupt Flag bit position. */ #define DMA_CH1TRNIF_bm 0x02 /* Channel 1 Transaction Complete Interrupt Flag bit mask. */ #define DMA_CH1TRNIF_bp 1 /* Channel 1 Transaction Complete Interrupt Flag bit position. */ #define DMA_CH0TRNIF_bm 0x01 /* Channel 0 Transaction Complete Interrupt Flag bit mask. */ #define DMA_CH0TRNIF_bp 0 /* Channel 0 Transaction Complete Interrupt Flag bit position. */ /* DMA.STATUS bit masks and bit positions */ #define DMA_CH3BUSY_bm 0x80 /* Channel 3 Block Transfer Busy bit mask. */ #define DMA_CH3BUSY_bp 7 /* Channel 3 Block Transfer Busy bit position. */ #define DMA_CH2BUSY_bm 0x40 /* Channel 2 Block Transfer Busy bit mask. */ #define DMA_CH2BUSY_bp 6 /* Channel 2 Block Transfer Busy bit position. */ #define DMA_CH1BUSY_bm 0x20 /* Channel 1 Block Transfer Busy bit mask. */ #define DMA_CH1BUSY_bp 5 /* Channel 1 Block Transfer Busy bit position. */ #define DMA_CH0BUSY_bm 0x10 /* Channel 0 Block Transfer Busy bit mask. */ #define DMA_CH0BUSY_bp 4 /* Channel 0 Block Transfer Busy bit position. */ #define DMA_CH3PEND_bm 0x08 /* Channel 3 Block Transfer Pending bit mask. */ #define DMA_CH3PEND_bp 3 /* Channel 3 Block Transfer Pending bit position. */ #define DMA_CH2PEND_bm 0x04 /* Channel 2 Block Transfer Pending bit mask. */ #define DMA_CH2PEND_bp 2 /* Channel 2 Block Transfer Pending bit position. */ #define DMA_CH1PEND_bm 0x02 /* Channel 1 Block Transfer Pending bit mask. */ #define DMA_CH1PEND_bp 1 /* Channel 1 Block Transfer Pending bit position. */ #define DMA_CH0PEND_bm 0x01 /* Channel 0 Block Transfer Pending bit mask. */ #define DMA_CH0PEND_bp 0 /* Channel 0 Block Transfer Pending bit position. */ /* EVSYS - Event System */ /* EVSYS.CH0MUX bit masks and bit positions */ #define EVSYS_CHMUX_gm 0xFF /* Event Channel 0 Multiplexer group mask. */ #define EVSYS_CHMUX_gp 0 /* Event Channel 0 Multiplexer group position. */ #define EVSYS_CHMUX0_bm (1<<0) /* Event Channel 0 Multiplexer bit 0 mask. */ #define EVSYS_CHMUX0_bp 0 /* Event Channel 0 Multiplexer bit 0 position. */ #define EVSYS_CHMUX1_bm (1<<1) /* Event Channel 0 Multiplexer bit 1 mask. */ #define EVSYS_CHMUX1_bp 1 /* Event Channel 0 Multiplexer bit 1 position. */ #define EVSYS_CHMUX2_bm (1<<2) /* Event Channel 0 Multiplexer bit 2 mask. */ #define EVSYS_CHMUX2_bp 2 /* Event Channel 0 Multiplexer bit 2 position. */ #define EVSYS_CHMUX3_bm (1<<3) /* Event Channel 0 Multiplexer bit 3 mask. */ #define EVSYS_CHMUX3_bp 3 /* Event Channel 0 Multiplexer bit 3 position. */ #define EVSYS_CHMUX4_bm (1<<4) /* Event Channel 0 Multiplexer bit 4 mask. */ #define EVSYS_CHMUX4_bp 4 /* Event Channel 0 Multiplexer bit 4 position. */ #define EVSYS_CHMUX5_bm (1<<5) /* Event Channel 0 Multiplexer bit 5 mask. */ #define EVSYS_CHMUX5_bp 5 /* Event Channel 0 Multiplexer bit 5 position. */ #define EVSYS_CHMUX6_bm (1<<6) /* Event Channel 0 Multiplexer bit 6 mask. */ #define EVSYS_CHMUX6_bp 6 /* Event Channel 0 Multiplexer bit 6 position. */ #define EVSYS_CHMUX7_bm (1<<7) /* Event Channel 0 Multiplexer bit 7 mask. */ #define EVSYS_CHMUX7_bp 7 /* Event Channel 0 Multiplexer bit 7 position. */ /* EVSYS.CH1MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH2MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH3MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH4MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH5MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH6MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH7MUX bit masks and bit positions */ /* EVSYS_CHMUX Predefined. */ /* EVSYS_CHMUX Predefined. */ /* EVSYS.CH0CTRL bit masks and bit positions */ #define EVSYS_QDIRM_gm 0x60 /* Quadrature Decoder Index Recognition Mode group mask. */ #define EVSYS_QDIRM_gp 5 /* Quadrature Decoder Index Recognition Mode group position. */ #define EVSYS_QDIRM0_bm (1<<5) /* Quadrature Decoder Index Recognition Mode bit 0 mask. */ #define EVSYS_QDIRM0_bp 5 /* Quadrature Decoder Index Recognition Mode bit 0 position. */ #define EVSYS_QDIRM1_bm (1<<6) /* Quadrature Decoder Index Recognition Mode bit 1 mask. */ #define EVSYS_QDIRM1_bp 6 /* Quadrature Decoder Index Recognition Mode bit 1 position. */ #define EVSYS_QDIEN_bm 0x10 /* Quadrature Decoder Index Enable bit mask. */ #define EVSYS_QDIEN_bp 4 /* Quadrature Decoder Index Enable bit position. */ #define EVSYS_QDEN_bm 0x08 /* Quadrature Decoder Enable bit mask. */ #define EVSYS_QDEN_bp 3 /* Quadrature Decoder Enable bit position. */ #define EVSYS_DIGFILT_gm 0x07 /* Digital Filter group mask. */ #define EVSYS_DIGFILT_gp 0 /* Digital Filter group position. */ #define EVSYS_DIGFILT0_bm (1<<0) /* Digital Filter bit 0 mask. */ #define EVSYS_DIGFILT0_bp 0 /* Digital Filter bit 0 position. */ #define EVSYS_DIGFILT1_bm (1<<1) /* Digital Filter bit 1 mask. */ #define EVSYS_DIGFILT1_bp 1 /* Digital Filter bit 1 position. */ #define EVSYS_DIGFILT2_bm (1<<2) /* Digital Filter bit 2 mask. */ #define EVSYS_DIGFILT2_bp 2 /* Digital Filter bit 2 position. */ /* EVSYS.CH1CTRL bit masks and bit positions */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS.CH2CTRL bit masks and bit positions */ /* EVSYS_QDIRM Predefined. */ /* EVSYS_QDIRM Predefined. */ /* EVSYS_QDIEN Predefined. */ /* EVSYS_QDIEN Predefined. */ /* EVSYS_QDEN Predefined. */ /* EVSYS_QDEN Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS.CH3CTRL bit masks and bit positions */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS.CH4CTRL bit masks and bit positions */ /* EVSYS_QDIRM Predefined. */ /* EVSYS_QDIRM Predefined. */ /* EVSYS_QDIEN Predefined. */ /* EVSYS_QDIEN Predefined. */ /* EVSYS_QDEN Predefined. */ /* EVSYS_QDEN Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS.CH5CTRL bit masks and bit positions */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS.CH6CTRL bit masks and bit positions */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS.CH7CTRL bit masks and bit positions */ /* EVSYS_DIGFILT Predefined. */ /* EVSYS_DIGFILT Predefined. */ /* NVM - Non Volatile Memory Controller */ /* NVM.CMD bit masks and bit positions */ #define NVM_CMD_gm 0x7F /* Command group mask. */ #define NVM_CMD_gp 0 /* Command group position. */ #define NVM_CMD0_bm (1<<0) /* Command bit 0 mask. */ #define NVM_CMD0_bp 0 /* Command bit 0 position. */ #define NVM_CMD1_bm (1<<1) /* Command bit 1 mask. */ #define NVM_CMD1_bp 1 /* Command bit 1 position. */ #define NVM_CMD2_bm (1<<2) /* Command bit 2 mask. */ #define NVM_CMD2_bp 2 /* Command bit 2 position. */ #define NVM_CMD3_bm (1<<3) /* Command bit 3 mask. */ #define NVM_CMD3_bp 3 /* Command bit 3 position. */ #define NVM_CMD4_bm (1<<4) /* Command bit 4 mask. */ #define NVM_CMD4_bp 4 /* Command bit 4 position. */ #define NVM_CMD5_bm (1<<5) /* Command bit 5 mask. */ #define NVM_CMD5_bp 5 /* Command bit 5 position. */ #define NVM_CMD6_bm (1<<6) /* Command bit 6 mask. */ #define NVM_CMD6_bp 6 /* Command bit 6 position. */ /* NVM.CTRLA bit masks and bit positions */ #define NVM_CMDEX_bm 0x01 /* Command Execute bit mask. */ #define NVM_CMDEX_bp 0 /* Command Execute bit position. */ /* NVM.CTRLB bit masks and bit positions */ #define NVM_EEMAPEN_bm 0x08 /* EEPROM Mapping Enable bit mask. */ #define NVM_EEMAPEN_bp 3 /* EEPROM Mapping Enable bit position. */ #define NVM_FPRM_bm 0x04 /* Flash Power Reduction Enable bit mask. */ #define NVM_FPRM_bp 2 /* Flash Power Reduction Enable bit position. */ #define NVM_EPRM_bm 0x02 /* EEPROM Power Reduction Enable bit mask. */ #define NVM_EPRM_bp 1 /* EEPROM Power Reduction Enable bit position. */ #define NVM_SPMLOCK_bm 0x01 /* SPM Lock bit mask. */ #define NVM_SPMLOCK_bp 0 /* SPM Lock bit position. */ /* NVM.INTCTRL bit masks and bit positions */ #define NVM_SPMLVL_gm 0x0C /* SPM Interrupt Level group mask. */ #define NVM_SPMLVL_gp 2 /* SPM Interrupt Level group position. */ #define NVM_SPMLVL0_bm (1<<2) /* SPM Interrupt Level bit 0 mask. */ #define NVM_SPMLVL0_bp 2 /* SPM Interrupt Level bit 0 position. */ #define NVM_SPMLVL1_bm (1<<3) /* SPM Interrupt Level bit 1 mask. */ #define NVM_SPMLVL1_bp 3 /* SPM Interrupt Level bit 1 position. */ #define NVM_EELVL_gm 0x03 /* EEPROM Interrupt Level group mask. */ #define NVM_EELVL_gp 0 /* EEPROM Interrupt Level group position. */ #define NVM_EELVL0_bm (1<<0) /* EEPROM Interrupt Level bit 0 mask. */ #define NVM_EELVL0_bp 0 /* EEPROM Interrupt Level bit 0 position. */ #define NVM_EELVL1_bm (1<<1) /* EEPROM Interrupt Level bit 1 mask. */ #define NVM_EELVL1_bp 1 /* EEPROM Interrupt Level bit 1 position. */ /* NVM.STATUS bit masks and bit positions */ #define NVM_NVMBUSY_bm 0x80 /* Non-volatile Memory Busy bit mask. */ #define NVM_NVMBUSY_bp 7 /* Non-volatile Memory Busy bit position. */ #define NVM_FBUSY_bm 0x40 /* Flash Memory Busy bit mask. */ #define NVM_FBUSY_bp 6 /* Flash Memory Busy bit position. */ #define NVM_EELOAD_bm 0x02 /* EEPROM Page Buffer Active Loading bit mask. */ #define NVM_EELOAD_bp 1 /* EEPROM Page Buffer Active Loading bit position. */ #define NVM_FLOAD_bm 0x01 /* Flash Page Buffer Active Loading bit mask. */ #define NVM_FLOAD_bp 0 /* Flash Page Buffer Active Loading bit position. */ /* NVM.LOCKBITS bit masks and bit positions */ #define NVM_BLBB_gm 0xC0 /* Boot Lock Bits - Boot Section group mask. */ #define NVM_BLBB_gp 6 /* Boot Lock Bits - Boot Section group position. */ #define NVM_BLBB0_bm (1<<6) /* Boot Lock Bits - Boot Section bit 0 mask. */ #define NVM_BLBB0_bp 6 /* Boot Lock Bits - Boot Section bit 0 position. */ #define NVM_BLBB1_bm (1<<7) /* Boot Lock Bits - Boot Section bit 1 mask. */ #define NVM_BLBB1_bp 7 /* Boot Lock Bits - Boot Section bit 1 position. */ #define NVM_BLBA_gm 0x30 /* Boot Lock Bits - Application Section group mask. */ #define NVM_BLBA_gp 4 /* Boot Lock Bits - Application Section group position. */ #define NVM_BLBA0_bm (1<<4) /* Boot Lock Bits - Application Section bit 0 mask. */ #define NVM_BLBA0_bp 4 /* Boot Lock Bits - Application Section bit 0 position. */ #define NVM_BLBA1_bm (1<<5) /* Boot Lock Bits - Application Section bit 1 mask. */ #define NVM_BLBA1_bp 5 /* Boot Lock Bits - Application Section bit 1 position. */ #define NVM_BLBAT_gm 0x0C /* Boot Lock Bits - Application Table group mask. */ #define NVM_BLBAT_gp 2 /* Boot Lock Bits - Application Table group position. */ #define NVM_BLBAT0_bm (1<<2) /* Boot Lock Bits - Application Table bit 0 mask. */ #define NVM_BLBAT0_bp 2 /* Boot Lock Bits - Application Table bit 0 position. */ #define NVM_BLBAT1_bm (1<<3) /* Boot Lock Bits - Application Table bit 1 mask. */ #define NVM_BLBAT1_bp 3 /* Boot Lock Bits - Application Table bit 1 position. */ #define NVM_LB_gm 0x03 /* Lock Bits group mask. */ #define NVM_LB_gp 0 /* Lock Bits group position. */ #define NVM_LB0_bm (1<<0) /* Lock Bits bit 0 mask. */ #define NVM_LB0_bp 0 /* Lock Bits bit 0 position. */ #define NVM_LB1_bm (1<<1) /* Lock Bits bit 1 mask. */ #define NVM_LB1_bp 1 /* Lock Bits bit 1 position. */ /* ADC - Analog/Digital Converter */ /* ADC_CH.CTRL bit masks and bit positions */ #define ADC_CH_START_bm 0x80 /* Channel Start Conversion bit mask. */ #define ADC_CH_START_bp 7 /* Channel Start Conversion bit position. */ #define ADC_CH_GAIN_gm 0x1C /* Gain Factor group mask. */ #define ADC_CH_GAIN_gp 2 /* Gain Factor group position. */ #define ADC_CH_GAIN0_bm (1<<2) /* Gain Factor bit 0 mask. */ #define ADC_CH_GAIN0_bp 2 /* Gain Factor bit 0 position. */ #define ADC_CH_GAIN1_bm (1<<3) /* Gain Factor bit 1 mask. */ #define ADC_CH_GAIN1_bp 3 /* Gain Factor bit 1 position. */ #define ADC_CH_GAIN2_bm (1<<4) /* Gain Factor bit 2 mask. */ #define ADC_CH_GAIN2_bp 4 /* Gain Factor bit 2 position. */ #define ADC_CH_INPUTMODE_gm 0x03 /* Input Mode Select group mask. */ #define ADC_CH_INPUTMODE_gp 0 /* Input Mode Select group position. */ #define ADC_CH_INPUTMODE0_bm (1<<0) /* Input Mode Select bit 0 mask. */ #define ADC_CH_INPUTMODE0_bp 0 /* Input Mode Select bit 0 position. */ #define ADC_CH_INPUTMODE1_bm (1<<1) /* Input Mode Select bit 1 mask. */ #define ADC_CH_INPUTMODE1_bp 1 /* Input Mode Select bit 1 position. */ /* ADC_CH.MUXCTRL bit masks and bit positions */ #define ADC_CH_MUXPOS_gm 0x78 /* MUX selection on Positive ADC input group mask. */ #define ADC_CH_MUXPOS_gp 3 /* MUX selection on Positive ADC input group position. */ #define ADC_CH_MUXPOS0_bm (1<<3) /* MUX selection on Positive ADC input bit 0 mask. */ #define ADC_CH_MUXPOS0_bp 3 /* MUX selection on Positive ADC input bit 0 position. */ #define ADC_CH_MUXPOS1_bm (1<<4) /* MUX selection on Positive ADC input bit 1 mask. */ #define ADC_CH_MUXPOS1_bp 4 /* MUX selection on Positive ADC input bit 1 position. */ #define ADC_CH_MUXPOS2_bm (1<<5) /* MUX selection on Positive ADC input bit 2 mask. */ #define ADC_CH_MUXPOS2_bp 5 /* MUX selection on Positive ADC input bit 2 position. */ #define ADC_CH_MUXPOS3_bm (1<<6) /* MUX selection on Positive ADC input bit 3 mask. */ #define ADC_CH_MUXPOS3_bp 6 /* MUX selection on Positive ADC input bit 3 position. */ #define ADC_CH_MUXINT_gm 0x78 /* MUX selection on Internal ADC input group mask. */ #define ADC_CH_MUXINT_gp 3 /* MUX selection on Internal ADC input group position. */ #define ADC_CH_MUXINT0_bm (1<<3) /* MUX selection on Internal ADC input bit 0 mask. */ #define ADC_CH_MUXINT0_bp 3 /* MUX selection on Internal ADC input bit 0 position. */ #define ADC_CH_MUXINT1_bm (1<<4) /* MUX selection on Internal ADC input bit 1 mask. */ #define ADC_CH_MUXINT1_bp 4 /* MUX selection on Internal ADC input bit 1 position. */ #define ADC_CH_MUXINT2_bm (1<<5) /* MUX selection on Internal ADC input bit 2 mask. */ #define ADC_CH_MUXINT2_bp 5 /* MUX selection on Internal ADC input bit 2 position. */ #define ADC_CH_MUXINT3_bm (1<<6) /* MUX selection on Internal ADC input bit 3 mask. */ #define ADC_CH_MUXINT3_bp 6 /* MUX selection on Internal ADC input bit 3 position. */ #define ADC_CH_MUXNEG_gm 0x07 /* MUX selection on Negative ADC input group mask. */ #define ADC_CH_MUXNEG_gp 0 /* MUX selection on Negative ADC input group position. */ #define ADC_CH_MUXNEG0_bm (1<<0) /* MUX selection on Negative ADC input bit 0 mask. */ #define ADC_CH_MUXNEG0_bp 0 /* MUX selection on Negative ADC input bit 0 position. */ #define ADC_CH_MUXNEG1_bm (1<<1) /* MUX selection on Negative ADC input bit 1 mask. */ #define ADC_CH_MUXNEG1_bp 1 /* MUX selection on Negative ADC input bit 1 position. */ #define ADC_CH_MUXNEG2_bm (1<<2) /* MUX selection on Negative ADC input bit 2 mask. */ #define ADC_CH_MUXNEG2_bp 2 /* MUX selection on Negative ADC input bit 2 position. */ /* ADC_CH.INTCTRL bit masks and bit positions */ #define ADC_CH_INTMODE_gm 0x0C /* Interrupt Mode group mask. */ #define ADC_CH_INTMODE_gp 2 /* Interrupt Mode group position. */ #define ADC_CH_INTMODE0_bm (1<<2) /* Interrupt Mode bit 0 mask. */ #define ADC_CH_INTMODE0_bp 2 /* Interrupt Mode bit 0 position. */ #define ADC_CH_INTMODE1_bm (1<<3) /* Interrupt Mode bit 1 mask. */ #define ADC_CH_INTMODE1_bp 3 /* Interrupt Mode bit 1 position. */ #define ADC_CH_INTLVL_gm 0x03 /* Interrupt Level group mask. */ #define ADC_CH_INTLVL_gp 0 /* Interrupt Level group position. */ #define ADC_CH_INTLVL0_bm (1<<0) /* Interrupt Level bit 0 mask. */ #define ADC_CH_INTLVL0_bp 0 /* Interrupt Level bit 0 position. */ #define ADC_CH_INTLVL1_bm (1<<1) /* Interrupt Level bit 1 mask. */ #define ADC_CH_INTLVL1_bp 1 /* Interrupt Level bit 1 position. */ /* ADC_CH.INTFLAGS bit masks and bit positions */ #define ADC_CH_CHIF_bm 0x01 /* Channel Interrupt Flag bit mask. */ #define ADC_CH_CHIF_bp 0 /* Channel Interrupt Flag bit position. */ /* ADC_CH.SCAN bit masks and bit positions */ #define ADC_CH_OFFSET_gm 0xF0 /* Positive MUX setting offset group mask. */ #define ADC_CH_OFFSET_gp 4 /* Positive MUX setting offset group position. */ #define ADC_CH_OFFSET0_bm (1<<4) /* Positive MUX setting offset bit 0 mask. */ #define ADC_CH_OFFSET0_bp 4 /* Positive MUX setting offset bit 0 position. */ #define ADC_CH_OFFSET1_bm (1<<5) /* Positive MUX setting offset bit 1 mask. */ #define ADC_CH_OFFSET1_bp 5 /* Positive MUX setting offset bit 1 position. */ #define ADC_CH_OFFSET2_bm (1<<6) /* Positive MUX setting offset bit 2 mask. */ #define ADC_CH_OFFSET2_bp 6 /* Positive MUX setting offset bit 2 position. */ #define ADC_CH_OFFSET3_bm (1<<7) /* Positive MUX setting offset bit 3 mask. */ #define ADC_CH_OFFSET3_bp 7 /* Positive MUX setting offset bit 3 position. */ #define ADC_CH_SCANNUM_gm 0x0F /* Number of Channels included in scan group mask. */ #define ADC_CH_SCANNUM_gp 0 /* Number of Channels included in scan group position. */ #define ADC_CH_SCANNUM0_bm (1<<0) /* Number of Channels included in scan bit 0 mask. */ #define ADC_CH_SCANNUM0_bp 0 /* Number of Channels included in scan bit 0 position. */ #define ADC_CH_SCANNUM1_bm (1<<1) /* Number of Channels included in scan bit 1 mask. */ #define ADC_CH_SCANNUM1_bp 1 /* Number of Channels included in scan bit 1 position. */ #define ADC_CH_SCANNUM2_bm (1<<2) /* Number of Channels included in scan bit 2 mask. */ #define ADC_CH_SCANNUM2_bp 2 /* Number of Channels included in scan bit 2 position. */ #define ADC_CH_SCANNUM3_bm (1<<3) /* Number of Channels included in scan bit 3 mask. */ #define ADC_CH_SCANNUM3_bp 3 /* Number of Channels included in scan bit 3 position. */ /* ADC.CTRLA bit masks and bit positions */ #define ADC_DMASEL_gm 0xC0 /* DMA Selection group mask. */ #define ADC_DMASEL_gp 6 /* DMA Selection group position. */ #define ADC_DMASEL0_bm (1<<6) /* DMA Selection bit 0 mask. */ #define ADC_DMASEL0_bp 6 /* DMA Selection bit 0 position. */ #define ADC_DMASEL1_bm (1<<7) /* DMA Selection bit 1 mask. */ #define ADC_DMASEL1_bp 7 /* DMA Selection bit 1 position. */ #define ADC_CH3START_bm 0x20 /* Channel 3 Start Conversion bit mask. */ #define ADC_CH3START_bp 5 /* Channel 3 Start Conversion bit position. */ #define ADC_CH2START_bm 0x10 /* Channel 2 Start Conversion bit mask. */ #define ADC_CH2START_bp 4 /* Channel 2 Start Conversion bit position. */ #define ADC_CH1START_bm 0x08 /* Channel 1 Start Conversion bit mask. */ #define ADC_CH1START_bp 3 /* Channel 1 Start Conversion bit position. */ #define ADC_CH0START_bm 0x04 /* Channel 0 Start Conversion bit mask. */ #define ADC_CH0START_bp 2 /* Channel 0 Start Conversion bit position. */ #define ADC_FLUSH_bm 0x02 /* Flush Pipeline bit mask. */ #define ADC_FLUSH_bp 1 /* Flush Pipeline bit position. */ #define ADC_ENABLE_bm 0x01 /* Enable ADC bit mask. */ #define ADC_ENABLE_bp 0 /* Enable ADC bit position. */ /* ADC.CTRLB bit masks and bit positions */ #define ADC_IMPMODE_bm 0x80 /* Gain Stage Impedance Mode bit mask. */ #define ADC_IMPMODE_bp 7 /* Gain Stage Impedance Mode bit position. */ #define ADC_CURRLIMIT_gm 0x60 /* Current Limitation group mask. */ #define ADC_CURRLIMIT_gp 5 /* Current Limitation group position. */ #define ADC_CURRLIMIT0_bm (1<<5) /* Current Limitation bit 0 mask. */ #define ADC_CURRLIMIT0_bp 5 /* Current Limitation bit 0 position. */ #define ADC_CURRLIMIT1_bm (1<<6) /* Current Limitation bit 1 mask. */ #define ADC_CURRLIMIT1_bp 6 /* Current Limitation bit 1 position. */ #define ADC_CONMODE_bm 0x10 /* Conversion Mode bit mask. */ #define ADC_CONMODE_bp 4 /* Conversion Mode bit position. */ #define ADC_FREERUN_bm 0x08 /* Free Running Mode Enable bit mask. */ #define ADC_FREERUN_bp 3 /* Free Running Mode Enable bit position. */ #define ADC_RESOLUTION_gm 0x06 /* Result Resolution group mask. */ #define ADC_RESOLUTION_gp 1 /* Result Resolution group position. */ #define ADC_RESOLUTION0_bm (1<<1) /* Result Resolution bit 0 mask. */ #define ADC_RESOLUTION0_bp 1 /* Result Resolution bit 0 position. */ #define ADC_RESOLUTION1_bm (1<<2) /* Result Resolution bit 1 mask. */ #define ADC_RESOLUTION1_bp 2 /* Result Resolution bit 1 position. */ /* ADC.REFCTRL bit masks and bit positions */ #define ADC_REFSEL_gm 0x70 /* 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_REFSEL2_bm (1<<6) /* Reference Selection bit 2 mask. */ #define ADC_REFSEL2_bp 6 /* Reference Selection bit 2 position. */ #define ADC_BANDGAP_bm 0x02 /* Bandgap enable bit mask. */ #define ADC_BANDGAP_bp 1 /* Bandgap enable bit position. */ #define ADC_TEMPREF_bm 0x01 /* Temperature Reference Enable bit mask. */ #define ADC_TEMPREF_bp 0 /* Temperature Reference Enable bit position. */ /* ADC.EVCTRL bit masks and bit positions */ #define ADC_SWEEP_gm 0xC0 /* Channel Sweep Selection group mask. */ #define ADC_SWEEP_gp 6 /* Channel Sweep Selection group position. */ #define ADC_SWEEP0_bm (1<<6) /* Channel Sweep Selection bit 0 mask. */ #define ADC_SWEEP0_bp 6 /* Channel Sweep Selection bit 0 position. */ #define ADC_SWEEP1_bm (1<<7) /* Channel Sweep Selection bit 1 mask. */ #define ADC_SWEEP1_bp 7 /* Channel Sweep Selection bit 1 position. */ #define ADC_EVSEL_gm 0x38 /* Event Input Select group mask. */ #define ADC_EVSEL_gp 3 /* Event Input Select group position. */ #define ADC_EVSEL0_bm (1<<3) /* Event Input Select bit 0 mask. */ #define ADC_EVSEL0_bp 3 /* Event Input Select bit 0 position. */ #define ADC_EVSEL1_bm (1<<4) /* Event Input Select bit 1 mask. */ #define ADC_EVSEL1_bp 4 /* Event Input Select bit 1 position. */ #define ADC_EVSEL2_bm (1<<5) /* Event Input Select bit 2 mask. */ #define ADC_EVSEL2_bp 5 /* Event Input Select bit 2 position. */ #define ADC_EVACT_gm 0x07 /* Event Action Select group mask. */ #define ADC_EVACT_gp 0 /* Event Action Select group position. */ #define ADC_EVACT0_bm (1<<0) /* Event Action Select bit 0 mask. */ #define ADC_EVACT0_bp 0 /* Event Action Select bit 0 position. */ #define ADC_EVACT1_bm (1<<1) /* Event Action Select bit 1 mask. */ #define ADC_EVACT1_bp 1 /* Event Action Select bit 1 position. */ #define ADC_EVACT2_bm (1<<2) /* Event Action Select bit 2 mask. */ #define ADC_EVACT2_bp 2 /* Event Action Select bit 2 position. */ /* ADC.PRESCALER bit masks and bit positions */ #define ADC_PRESCALER_gm 0x07 /* Clock Prescaler Selection group mask. */ #define ADC_PRESCALER_gp 0 /* Clock Prescaler Selection group position. */ #define ADC_PRESCALER0_bm (1<<0) /* Clock Prescaler Selection bit 0 mask. */ #define ADC_PRESCALER0_bp 0 /* Clock Prescaler Selection bit 0 position. */ #define ADC_PRESCALER1_bm (1<<1) /* Clock Prescaler Selection bit 1 mask. */ #define ADC_PRESCALER1_bp 1 /* Clock Prescaler Selection bit 1 position. */ #define ADC_PRESCALER2_bm (1<<2) /* Clock Prescaler Selection bit 2 mask. */ #define ADC_PRESCALER2_bp 2 /* Clock Prescaler Selection bit 2 position. */ /* ADC.INTFLAGS bit masks and bit positions */ #define ADC_CH3IF_bm 0x08 /* Channel 3 Interrupt Flag bit mask. */ #define ADC_CH3IF_bp 3 /* Channel 3 Interrupt Flag bit position. */ #define ADC_CH2IF_bm 0x04 /* Channel 2 Interrupt Flag bit mask. */ #define ADC_CH2IF_bp 2 /* Channel 2 Interrupt Flag bit position. */ #define ADC_CH1IF_bm 0x02 /* Channel 1 Interrupt Flag bit mask. */ #define ADC_CH1IF_bp 1 /* Channel 1 Interrupt Flag bit position. */ #define ADC_CH0IF_bm 0x01 /* Channel 0 Interrupt Flag bit mask. */ #define ADC_CH0IF_bp 0 /* Channel 0 Interrupt Flag bit position. */ /* DAC - Digital/Analog Converter */ /* DAC.CTRLA bit masks and bit positions */ #define DAC_IDOEN_bm 0x10 /* Internal Output Enable bit mask. */ #define DAC_IDOEN_bp 4 /* Internal Output Enable bit position. */ #define DAC_CH1EN_bm 0x08 /* Channel 1 Output Enable bit mask. */ #define DAC_CH1EN_bp 3 /* Channel 1 Output Enable bit position. */ #define DAC_CH0EN_bm 0x04 /* Channel 0 Output Enable bit mask. */ #define DAC_CH0EN_bp 2 /* Channel 0 Output Enable bit position. */ #define DAC_LPMODE_bm 0x02 /* Low Power Mode bit mask. */ #define DAC_LPMODE_bp 1 /* Low Power Mode bit position. */ #define DAC_ENABLE_bm 0x01 /* Enable bit mask. */ #define DAC_ENABLE_bp 0 /* Enable bit position. */ /* DAC.CTRLB bit masks and bit positions */ #define DAC_CHSEL_gm 0x60 /* Channel Select group mask. */ #define DAC_CHSEL_gp 5 /* Channel Select group position. */ #define DAC_CHSEL0_bm (1<<5) /* Channel Select bit 0 mask. */ #define DAC_CHSEL0_bp 5 /* Channel Select bit 0 position. */ #define DAC_CHSEL1_bm (1<<6) /* Channel Select bit 1 mask. */ #define DAC_CHSEL1_bp 6 /* Channel Select bit 1 position. */ #define DAC_CH1TRIG_bm 0x02 /* Channel 1 Event Trig Enable bit mask. */ #define DAC_CH1TRIG_bp 1 /* Channel 1 Event Trig Enable bit position. */ #define DAC_CH0TRIG_bm 0x01 /* Channel 0 Event Trig Enable bit mask. */ #define DAC_CH0TRIG_bp 0 /* Channel 0 Event Trig Enable bit position. */ /* DAC.CTRLC bit masks and bit positions */ #define DAC_REFSEL_gm 0x18 /* Reference Select group mask. */ #define DAC_REFSEL_gp 3 /* Reference Select group position. */ #define DAC_REFSEL0_bm (1<<3) /* Reference Select bit 0 mask. */ #define DAC_REFSEL0_bp 3 /* Reference Select bit 0 position. */ #define DAC_REFSEL1_bm (1<<4) /* Reference Select bit 1 mask. */ #define DAC_REFSEL1_bp 4 /* Reference Select bit 1 position. */ #define DAC_LEFTADJ_bm 0x01 /* Left-adjust Result bit mask. */ #define DAC_LEFTADJ_bp 0 /* Left-adjust Result bit position. */ /* DAC.EVCTRL bit masks and bit positions */ #define DAC_EVSPLIT_bm 0x08 /* Separate Event Channel Input for Channel 1 bit mask. */ #define DAC_EVSPLIT_bp 3 /* Separate Event Channel Input for Channel 1 bit position. */ #define DAC_EVSEL_gm 0x07 /* Event Input Selection group mask. */ #define DAC_EVSEL_gp 0 /* Event Input Selection group position. */ #define DAC_EVSEL0_bm (1<<0) /* Event Input Selection bit 0 mask. */ #define DAC_EVSEL0_bp 0 /* Event Input Selection bit 0 position. */ #define DAC_EVSEL1_bm (1<<1) /* Event Input Selection bit 1 mask. */ #define DAC_EVSEL1_bp 1 /* Event Input Selection bit 1 position. */ #define DAC_EVSEL2_bm (1<<2) /* Event Input Selection bit 2 mask. */ #define DAC_EVSEL2_bp 2 /* Event Input Selection bit 2 position. */ /* DAC.STATUS bit masks and bit positions */ #define DAC_CH1DRE_bm 0x02 /* Channel 1 Data Register Empty bit mask. */ #define DAC_CH1DRE_bp 1 /* Channel 1 Data Register Empty bit position. */ #define DAC_CH0DRE_bm 0x01 /* Channel 0 Data Register Empty bit mask. */ #define DAC_CH0DRE_bp 0 /* Channel 0 Data Register Empty bit position. */ /* DAC.CH0GAINCAL bit masks and bit positions */ #define DAC_CH0GAINCAL_gm 0x7F /* Gain Calibration group mask. */ #define DAC_CH0GAINCAL_gp 0 /* Gain Calibration group position. */ #define DAC_CH0GAINCAL0_bm (1<<0) /* Gain Calibration bit 0 mask. */ #define DAC_CH0GAINCAL0_bp 0 /* Gain Calibration bit 0 position. */ #define DAC_CH0GAINCAL1_bm (1<<1) /* Gain Calibration bit 1 mask. */ #define DAC_CH0GAINCAL1_bp 1 /* Gain Calibration bit 1 position. */ #define DAC_CH0GAINCAL2_bm (1<<2) /* Gain Calibration bit 2 mask. */ #define DAC_CH0GAINCAL2_bp 2 /* Gain Calibration bit 2 position. */ #define DAC_CH0GAINCAL3_bm (1<<3) /* Gain Calibration bit 3 mask. */ #define DAC_CH0GAINCAL3_bp 3 /* Gain Calibration bit 3 position. */ #define DAC_CH0GAINCAL4_bm (1<<4) /* Gain Calibration bit 4 mask. */ #define DAC_CH0GAINCAL4_bp 4 /* Gain Calibration bit 4 position. */ #define DAC_CH0GAINCAL5_bm (1<<5) /* Gain Calibration bit 5 mask. */ #define DAC_CH0GAINCAL5_bp 5 /* Gain Calibration bit 5 position. */ #define DAC_CH0GAINCAL6_bm (1<<6) /* Gain Calibration bit 6 mask. */ #define DAC_CH0GAINCAL6_bp 6 /* Gain Calibration bit 6 position. */ /* DAC.CH0OFFSETCAL bit masks and bit positions */ #define DAC_CH0OFFSETCAL_gm 0x7F /* Offset Calibration group mask. */ #define DAC_CH0OFFSETCAL_gp 0 /* Offset Calibration group position. */ #define DAC_CH0OFFSETCAL0_bm (1<<0) /* Offset Calibration bit 0 mask. */ #define DAC_CH0OFFSETCAL0_bp 0 /* Offset Calibration bit 0 position. */ #define DAC_CH0OFFSETCAL1_bm (1<<1) /* Offset Calibration bit 1 mask. */ #define DAC_CH0OFFSETCAL1_bp 1 /* Offset Calibration bit 1 position. */ #define DAC_CH0OFFSETCAL2_bm (1<<2) /* Offset Calibration bit 2 mask. */ #define DAC_CH0OFFSETCAL2_bp 2 /* Offset Calibration bit 2 position. */ #define DAC_CH0OFFSETCAL3_bm (1<<3) /* Offset Calibration bit 3 mask. */ #define DAC_CH0OFFSETCAL3_bp 3 /* Offset Calibration bit 3 position. */ #define DAC_CH0OFFSETCAL4_bm (1<<4) /* Offset Calibration bit 4 mask. */ #define DAC_CH0OFFSETCAL4_bp 4 /* Offset Calibration bit 4 position. */ #define DAC_CH0OFFSETCAL5_bm (1<<5) /* Offset Calibration bit 5 mask. */ #define DAC_CH0OFFSETCAL5_bp 5 /* Offset Calibration bit 5 position. */ #define DAC_CH0OFFSETCAL6_bm (1<<6) /* Offset Calibration bit 6 mask. */ #define DAC_CH0OFFSETCAL6_bp 6 /* Offset Calibration bit 6 position. */ /* DAC.CH1GAINCAL bit masks and bit positions */ #define DAC_CH1GAINCAL_gm 0x7F /* Gain Calibration group mask. */ #define DAC_CH1GAINCAL_gp 0 /* Gain Calibration group position. */ #define DAC_CH1GAINCAL0_bm (1<<0) /* Gain Calibration bit 0 mask. */ #define DAC_CH1GAINCAL0_bp 0 /* Gain Calibration bit 0 position. */ #define DAC_CH1GAINCAL1_bm (1<<1) /* Gain Calibration bit 1 mask. */ #define DAC_CH1GAINCAL1_bp 1 /* Gain Calibration bit 1 position. */ #define DAC_CH1GAINCAL2_bm (1<<2) /* Gain Calibration bit 2 mask. */ #define DAC_CH1GAINCAL2_bp 2 /* Gain Calibration bit 2 position. */ #define DAC_CH1GAINCAL3_bm (1<<3) /* Gain Calibration bit 3 mask. */ #define DAC_CH1GAINCAL3_bp 3 /* Gain Calibration bit 3 position. */ #define DAC_CH1GAINCAL4_bm (1<<4) /* Gain Calibration bit 4 mask. */ #define DAC_CH1GAINCAL4_bp 4 /* Gain Calibration bit 4 position. */ #define DAC_CH1GAINCAL5_bm (1<<5) /* Gain Calibration bit 5 mask. */ #define DAC_CH1GAINCAL5_bp 5 /* Gain Calibration bit 5 position. */ #define DAC_CH1GAINCAL6_bm (1<<6) /* Gain Calibration bit 6 mask. */ #define DAC_CH1GAINCAL6_bp 6 /* Gain Calibration bit 6 position. */ /* DAC.CH1OFFSETCAL bit masks and bit positions */ #define DAC_CH1OFFSETCAL_gm 0x7F /* Offset Calibration group mask. */ #define DAC_CH1OFFSETCAL_gp 0 /* Offset Calibration group position. */ #define DAC_CH1OFFSETCAL0_bm (1<<0) /* Offset Calibration bit 0 mask. */ #define DAC_CH1OFFSETCAL0_bp 0 /* Offset Calibration bit 0 position. */ #define DAC_CH1OFFSETCAL1_bm (1<<1) /* Offset Calibration bit 1 mask. */ #define DAC_CH1OFFSETCAL1_bp 1 /* Offset Calibration bit 1 position. */ #define DAC_CH1OFFSETCAL2_bm (1<<2) /* Offset Calibration bit 2 mask. */ #define DAC_CH1OFFSETCAL2_bp 2 /* Offset Calibration bit 2 position. */ #define DAC_CH1OFFSETCAL3_bm (1<<3) /* Offset Calibration bit 3 mask. */ #define DAC_CH1OFFSETCAL3_bp 3 /* Offset Calibration bit 3 position. */ #define DAC_CH1OFFSETCAL4_bm (1<<4) /* Offset Calibration bit 4 mask. */ #define DAC_CH1OFFSETCAL4_bp 4 /* Offset Calibration bit 4 position. */ #define DAC_CH1OFFSETCAL5_bm (1<<5) /* Offset Calibration bit 5 mask. */ #define DAC_CH1OFFSETCAL5_bp 5 /* Offset Calibration bit 5 position. */ #define DAC_CH1OFFSETCAL6_bm (1<<6) /* Offset Calibration bit 6 mask. */ #define DAC_CH1OFFSETCAL6_bp 6 /* Offset Calibration bit 6 position. */ /* AC - Analog Comparator */ /* AC.AC0CTRL bit masks and bit positions */ #define AC_INTMODE_gm 0xC0 /* Interrupt Mode group mask. */ #define AC_INTMODE_gp 6 /* Interrupt Mode group position. */ #define AC_INTMODE0_bm (1<<6) /* Interrupt Mode bit 0 mask. */ #define AC_INTMODE0_bp 6 /* Interrupt Mode bit 0 position. */ #define AC_INTMODE1_bm (1<<7) /* Interrupt Mode bit 1 mask. */ #define AC_INTMODE1_bp 7 /* Interrupt Mode bit 1 position. */ #define AC_INTLVL_gm 0x30 /* Interrupt Level group mask. */ #define AC_INTLVL_gp 4 /* Interrupt Level group position. */ #define AC_INTLVL0_bm (1<<4) /* Interrupt Level bit 0 mask. */ #define AC_INTLVL0_bp 4 /* Interrupt Level bit 0 position. */ #define AC_INTLVL1_bm (1<<5) /* Interrupt Level bit 1 mask. */ #define AC_INTLVL1_bp 5 /* Interrupt Level bit 1 position. */ #define AC_HSMODE_bm 0x08 /* High-speed Mode bit mask. */ #define AC_HSMODE_bp 3 /* High-speed Mode 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_ENABLE_bm 0x01 /* Enable bit mask. */ #define AC_ENABLE_bp 0 /* Enable bit position. */ /* AC.AC1CTRL bit masks and bit positions */ /* AC_INTMODE Predefined. */ /* AC_INTMODE Predefined. */ /* AC_INTLVL Predefined. */ /* AC_INTLVL Predefined. */ /* AC_HSMODE Predefined. */ /* AC_HSMODE Predefined. */ /* AC_HYSMODE Predefined. */ /* AC_HYSMODE Predefined. */ /* AC_ENABLE Predefined. */ /* AC_ENABLE Predefined. */ /* AC.AC0MUXCTRL bit masks and bit positions */ #define AC_MUXPOS_gm 0x38 /* MUX Positive Input group mask. */ #define AC_MUXPOS_gp 3 /* MUX Positive Input group position. */ #define AC_MUXPOS0_bm (1<<3) /* MUX Positive Input bit 0 mask. */ #define AC_MUXPOS0_bp 3 /* MUX Positive Input bit 0 position. */ #define AC_MUXPOS1_bm (1<<4) /* MUX Positive Input bit 1 mask. */ #define AC_MUXPOS1_bp 4 /* MUX Positive Input bit 1 position. */ #define AC_MUXPOS2_bm (1<<5) /* MUX Positive Input bit 2 mask. */ #define AC_MUXPOS2_bp 5 /* MUX Positive Input bit 2 position. */ #define AC_MUXNEG_gm 0x07 /* MUX Negative Input group mask. */ #define AC_MUXNEG_gp 0 /* MUX Negative Input group position. */ #define AC_MUXNEG0_bm (1<<0) /* MUX Negative Input bit 0 mask. */ #define AC_MUXNEG0_bp 0 /* MUX Negative Input bit 0 position. */ #define AC_MUXNEG1_bm (1<<1) /* MUX Negative Input bit 1 mask. */ #define AC_MUXNEG1_bp 1 /* MUX Negative Input bit 1 position. */ #define AC_MUXNEG2_bm (1<<2) /* MUX Negative Input bit 2 mask. */ #define AC_MUXNEG2_bp 2 /* MUX Negative Input bit 2 position. */ /* AC.AC1MUXCTRL bit masks and bit positions */ /* AC_MUXPOS Predefined. */ /* AC_MUXPOS Predefined. */ /* AC_MUXNEG Predefined. */ /* AC_MUXNEG Predefined. */ /* AC.CTRLA bit masks and bit positions */ #define AC_AC1OUT_bm 0x02 /* Analog Comparator 1 Output Enable bit mask. */ #define AC_AC1OUT_bp 1 /* Analog Comparator 1 Output Enable bit position. */ #define AC_AC0OUT_bm 0x01 /* Analog Comparator 0 Output Enable bit mask. */ #define AC_AC0OUT_bp 0 /* Analog Comparator 0 Output Enable bit position. */ /* AC.CTRLB bit masks and bit positions */ #define AC_SCALEFAC_gm 0x3F /* VCC Voltage Scaler Factor group mask. */ #define AC_SCALEFAC_gp 0 /* VCC Voltage Scaler Factor group position. */ #define AC_SCALEFAC0_bm (1<<0) /* VCC Voltage Scaler Factor bit 0 mask. */ #define AC_SCALEFAC0_bp 0 /* VCC Voltage Scaler Factor bit 0 position. */ #define AC_SCALEFAC1_bm (1<<1) /* VCC Voltage Scaler Factor bit 1 mask. */ #define AC_SCALEFAC1_bp 1 /* VCC Voltage Scaler Factor bit 1 position. */ #define AC_SCALEFAC2_bm (1<<2) /* VCC Voltage Scaler Factor bit 2 mask. */ #define AC_SCALEFAC2_bp 2 /* VCC Voltage Scaler Factor bit 2 position. */ #define AC_SCALEFAC3_bm (1<<3) /* VCC Voltage Scaler Factor bit 3 mask. */ #define AC_SCALEFAC3_bp 3 /* VCC Voltage Scaler Factor bit 3 position. */ #define AC_SCALEFAC4_bm (1<<4) /* VCC Voltage Scaler Factor bit 4 mask. */ #define AC_SCALEFAC4_bp 4 /* VCC Voltage Scaler Factor bit 4 position. */ #define AC_SCALEFAC5_bm (1<<5) /* VCC Voltage Scaler Factor bit 5 mask. */ #define AC_SCALEFAC5_bp 5 /* VCC Voltage Scaler Factor bit 5 position. */ /* AC.WINCTRL bit masks and bit positions */ #define AC_WEN_bm 0x10 /* Window Mode Enable bit mask. */ #define AC_WEN_bp 4 /* Window Mode Enable bit position. */ #define AC_WINTMODE_gm 0x0C /* Window Interrupt Mode group mask. */ #define AC_WINTMODE_gp 2 /* Window Interrupt Mode group position. */ #define AC_WINTMODE0_bm (1<<2) /* Window Interrupt Mode bit 0 mask. */ #define AC_WINTMODE0_bp 2 /* Window Interrupt Mode bit 0 position. */ #define AC_WINTMODE1_bm (1<<3) /* Window Interrupt Mode bit 1 mask. */ #define AC_WINTMODE1_bp 3 /* Window Interrupt Mode bit 1 position. */ #define AC_WINTLVL_gm 0x03 /* Window Interrupt Level group mask. */ #define AC_WINTLVL_gp 0 /* Window Interrupt Level group position. */ #define AC_WINTLVL0_bm (1<<0) /* Window Interrupt Level bit 0 mask. */ #define AC_WINTLVL0_bp 0 /* Window Interrupt Level bit 0 position. */ #define AC_WINTLVL1_bm (1<<1) /* Window Interrupt Level bit 1 mask. */ #define AC_WINTLVL1_bp 1 /* Window Interrupt Level bit 1 position. */ /* AC.STATUS bit masks and bit positions */ #define AC_WSTATE_gm 0xC0 /* Window Mode State group mask. */ #define AC_WSTATE_gp 6 /* Window Mode State group position. */ #define AC_WSTATE0_bm (1<<6) /* Window Mode State bit 0 mask. */ #define AC_WSTATE0_bp 6 /* Window Mode State bit 0 position. */ #define AC_WSTATE1_bm (1<<7) /* Window Mode State bit 1 mask. */ #define AC_WSTATE1_bp 7 /* Window Mode State bit 1 position. */ #define AC_AC1STATE_bm 0x20 /* Analog Comparator 1 State bit mask. */ #define AC_AC1STATE_bp 5 /* Analog Comparator 1 State bit position. */ #define AC_AC0STATE_bm 0x10 /* Analog Comparator 0 State bit mask. */ #define AC_AC0STATE_bp 4 /* Analog Comparator 0 State bit position. */ #define AC_WIF_bm 0x04 /* Window Mode Interrupt Flag bit mask. */ #define AC_WIF_bp 2 /* Window Mode Interrupt Flag bit position. */ #define AC_AC1IF_bm 0x02 /* Analog Comparator 1 Interrupt Flag bit mask. */ #define AC_AC1IF_bp 1 /* Analog Comparator 1 Interrupt Flag bit position. */ #define AC_AC0IF_bm 0x01 /* Analog Comparator 0 Interrupt Flag bit mask. */ #define AC_AC0IF_bp 0 /* Analog Comparator 0 Interrupt Flag bit position. */ /* RTC - Real-Time Counter */ /* RTC.CTRL bit masks and bit positions */ #define RTC_PRESCALER_gm 0x07 /* Prescaling Factor group mask. */ #define RTC_PRESCALER_gp 0 /* Prescaling Factor group position. */ #define RTC_PRESCALER0_bm (1<<0) /* Prescaling Factor bit 0 mask. */ #define RTC_PRESCALER0_bp 0 /* Prescaling Factor bit 0 position. */ #define RTC_PRESCALER1_bm (1<<1) /* Prescaling Factor bit 1 mask. */ #define RTC_PRESCALER1_bp 1 /* Prescaling Factor bit 1 position. */ #define RTC_PRESCALER2_bm (1<<2) /* Prescaling Factor bit 2 mask. */ #define RTC_PRESCALER2_bp 2 /* Prescaling Factor bit 2 position. */ /* RTC.STATUS bit masks and bit positions */ #define RTC_SYNCBUSY_bm 0x01 /* Synchronization Busy Flag bit mask. */ #define RTC_SYNCBUSY_bp 0 /* Synchronization Busy Flag bit position. */ /* RTC.INTCTRL bit masks and bit positions */ #define RTC_COMPINTLVL_gm 0x0C /* Compare Match Interrupt Level group mask. */ #define RTC_COMPINTLVL_gp 2 /* Compare Match Interrupt Level group position. */ #define RTC_COMPINTLVL0_bm (1<<2) /* Compare Match Interrupt Level bit 0 mask. */ #define RTC_COMPINTLVL0_bp 2 /* Compare Match Interrupt Level bit 0 position. */ #define RTC_COMPINTLVL1_bm (1<<3) /* Compare Match Interrupt Level bit 1 mask. */ #define RTC_COMPINTLVL1_bp 3 /* Compare Match Interrupt Level bit 1 position. */ #define RTC_OVFINTLVL_gm 0x03 /* Overflow Interrupt Level group mask. */ #define RTC_OVFINTLVL_gp 0 /* Overflow Interrupt Level group position. */ #define RTC_OVFINTLVL0_bm (1<<0) /* Overflow Interrupt Level bit 0 mask. */ #define RTC_OVFINTLVL0_bp 0 /* Overflow Interrupt Level bit 0 position. */ #define RTC_OVFINTLVL1_bm (1<<1) /* Overflow Interrupt Level bit 1 mask. */ #define RTC_OVFINTLVL1_bp 1 /* Overflow Interrupt Level bit 1 position. */ /* RTC.INTFLAGS bit masks and bit positions */ #define RTC_COMPIF_bm 0x02 /* Compare Match Interrupt Flag bit mask. */ #define RTC_COMPIF_bp 1 /* Compare Match Interrupt Flag bit position. */ #define RTC_OVFIF_bm 0x01 /* Overflow Interrupt Flag bit mask. */ #define RTC_OVFIF_bp 0 /* Overflow Interrupt Flag bit position. */ /* TWI - Two-Wire Interface */ /* TWI_MASTER.CTRLA bit masks and bit positions */ #define TWI_MASTER_INTLVL_gm 0xC0 /* Interrupt Level group mask. */ #define TWI_MASTER_INTLVL_gp 6 /* Interrupt Level group position. */ #define TWI_MASTER_INTLVL0_bm (1<<6) /* Interrupt Level bit 0 mask. */ #define TWI_MASTER_INTLVL0_bp 6 /* Interrupt Level bit 0 position. */ #define TWI_MASTER_INTLVL1_bm (1<<7) /* Interrupt Level bit 1 mask. */ #define TWI_MASTER_INTLVL1_bp 7 /* Interrupt Level bit 1 position. */ #define TWI_MASTER_RIEN_bm 0x20 /* Read Interrupt Enable bit mask. */ #define TWI_MASTER_RIEN_bp 5 /* Read Interrupt Enable bit position. */ #define TWI_MASTER_WIEN_bm 0x10 /* Write Interrupt Enable bit mask. */ #define TWI_MASTER_WIEN_bp 4 /* Write Interrupt Enable bit position. */ #define TWI_MASTER_ENABLE_bm 0x08 /* Enable TWI Master bit mask. */ #define TWI_MASTER_ENABLE_bp 3 /* Enable TWI Master bit position. */ /* TWI_MASTER.CTRLB bit masks and bit positions */ #define TWI_MASTER_TIMEOUT_gm 0x0C /* Inactive Bus Timeout group mask. */ #define TWI_MASTER_TIMEOUT_gp 2 /* Inactive Bus Timeout group position. */ #define TWI_MASTER_TIMEOUT0_bm (1<<2) /* Inactive Bus Timeout bit 0 mask. */ #define TWI_MASTER_TIMEOUT0_bp 2 /* Inactive Bus Timeout bit 0 position. */ #define TWI_MASTER_TIMEOUT1_bm (1<<3) /* Inactive Bus Timeout bit 1 mask. */ #define TWI_MASTER_TIMEOUT1_bp 3 /* Inactive Bus Timeout bit 1 position. */ #define TWI_MASTER_QCEN_bm 0x02 /* Quick Command Enable bit mask. */ #define TWI_MASTER_QCEN_bp 1 /* Quick Command Enable bit position. */ #define TWI_MASTER_SMEN_bm 0x01 /* Smart Mode Enable bit mask. */ #define TWI_MASTER_SMEN_bp 0 /* Smart Mode Enable bit position. */ /* TWI_MASTER.CTRLC bit masks and bit positions */ #define TWI_MASTER_ACKACT_bm 0x04 /* Acknowledge Action bit mask. */ #define TWI_MASTER_ACKACT_bp 2 /* Acknowledge Action bit position. */ #define TWI_MASTER_CMD_gm 0x03 /* Command group mask. */ #define TWI_MASTER_CMD_gp 0 /* Command group position. */ #define TWI_MASTER_CMD0_bm (1<<0) /* Command bit 0 mask. */ #define TWI_MASTER_CMD0_bp 0 /* Command bit 0 position. */ #define TWI_MASTER_CMD1_bm (1<<1) /* Command bit 1 mask. */ #define TWI_MASTER_CMD1_bp 1 /* Command bit 1 position. */ /* TWI_MASTER.STATUS bit masks and bit positions */ #define TWI_MASTER_RIF_bm 0x80 /* Read Interrupt Flag bit mask. */ #define TWI_MASTER_RIF_bp 7 /* Read Interrupt Flag bit position. */ #define TWI_MASTER_WIF_bm 0x40 /* Write Interrupt Flag bit mask. */ #define TWI_MASTER_WIF_bp 6 /* Write Interrupt Flag bit position. */ #define TWI_MASTER_CLKHOLD_bm 0x20 /* Clock Hold bit mask. */ #define TWI_MASTER_CLKHOLD_bp 5 /* Clock Hold bit position. */ #define TWI_MASTER_RXACK_bm 0x10 /* Received Acknowledge bit mask. */ #define TWI_MASTER_RXACK_bp 4 /* Received Acknowledge bit position. */ #define TWI_MASTER_ARBLOST_bm 0x08 /* Arbitration Lost bit mask. */ #define TWI_MASTER_ARBLOST_bp 3 /* Arbitration Lost bit position. */ #define TWI_MASTER_BUSERR_bm 0x04 /* Bus Error bit mask. */ #define TWI_MASTER_BUSERR_bp 2 /* Bus Error bit position. */ #define TWI_MASTER_BUSSTATE_gm 0x03 /* Bus State group mask. */ #define TWI_MASTER_BUSSTATE_gp 0 /* Bus State group position. */ #define TWI_MASTER_BUSSTATE0_bm (1<<0) /* Bus State bit 0 mask. */ #define TWI_MASTER_BUSSTATE0_bp 0 /* Bus State bit 0 position. */ #define TWI_MASTER_BUSSTATE1_bm (1<<1) /* Bus State bit 1 mask. */ #define TWI_MASTER_BUSSTATE1_bp 1 /* Bus State bit 1 position. */ /* TWI_SLAVE.CTRLA bit masks and bit positions */ #define TWI_SLAVE_INTLVL_gm 0xC0 /* Interrupt Level group mask. */ #define TWI_SLAVE_INTLVL_gp 6 /* Interrupt Level group position. */ #define TWI_SLAVE_INTLVL0_bm (1<<6) /* Interrupt Level bit 0 mask. */ #define TWI_SLAVE_INTLVL0_bp 6 /* Interrupt Level bit 0 position. */ #define TWI_SLAVE_INTLVL1_bm (1<<7) /* Interrupt Level bit 1 mask. */ #define TWI_SLAVE_INTLVL1_bp 7 /* Interrupt Level bit 1 position. */ #define TWI_SLAVE_DIEN_bm 0x20 /* Data Interrupt Enable bit mask. */ #define TWI_SLAVE_DIEN_bp 5 /* Data Interrupt Enable bit position. */ #define TWI_SLAVE_APIEN_bm 0x10 /* Address/Stop Interrupt Enable bit mask. */ #define TWI_SLAVE_APIEN_bp 4 /* Address/Stop Interrupt Enable bit position. */ #define TWI_SLAVE_ENABLE_bm 0x08 /* Enable TWI Slave bit mask. */ #define TWI_SLAVE_ENABLE_bp 3 /* Enable TWI Slave bit position. */ #define TWI_SLAVE_PIEN_bm 0x04 /* Stop Interrupt Enable bit mask. */ #define TWI_SLAVE_PIEN_bp 2 /* Stop Interrupt Enable bit position. */ #define TWI_SLAVE_PMEN_bm 0x02 /* Promiscuous Mode Enable bit mask. */ #define TWI_SLAVE_PMEN_bp 1 /* Promiscuous Mode Enable bit position. */ #define TWI_SLAVE_SMEN_bm 0x01 /* Smart Mode Enable bit mask. */ #define TWI_SLAVE_SMEN_bp 0 /* Smart Mode Enable bit position. */ /* TWI_SLAVE.CTRLB bit masks and bit positions */ #define TWI_SLAVE_ACKACT_bm 0x04 /* Acknowledge Action bit mask. */ #define TWI_SLAVE_ACKACT_bp 2 /* Acknowledge Action bit position. */ #define TWI_SLAVE_CMD_gm 0x03 /* Command group mask. */ #define TWI_SLAVE_CMD_gp 0 /* Command group position. */ #define TWI_SLAVE_CMD0_bm (1<<0) /* Command bit 0 mask. */ #define TWI_SLAVE_CMD0_bp 0 /* Command bit 0 position. */ #define TWI_SLAVE_CMD1_bm (1<<1) /* Command bit 1 mask. */ #define TWI_SLAVE_CMD1_bp 1 /* Command bit 1 position. */ /* TWI_SLAVE.STATUS bit masks and bit positions */ #define TWI_SLAVE_DIF_bm 0x80 /* Data Interrupt Flag bit mask. */ #define TWI_SLAVE_DIF_bp 7 /* Data Interrupt Flag bit position. */ #define TWI_SLAVE_APIF_bm 0x40 /* Address/Stop Interrupt Flag bit mask. */ #define TWI_SLAVE_APIF_bp 6 /* Address/Stop Interrupt Flag bit position. */ #define TWI_SLAVE_CLKHOLD_bm 0x20 /* Clock Hold bit mask. */ #define TWI_SLAVE_CLKHOLD_bp 5 /* Clock Hold bit position. */ #define TWI_SLAVE_RXACK_bm 0x10 /* Received Acknowledge bit mask. */ #define TWI_SLAVE_RXACK_bp 4 /* Received Acknowledge bit position. */ #define TWI_SLAVE_COLL_bm 0x08 /* Collision bit mask. */ #define TWI_SLAVE_COLL_bp 3 /* Collision bit position. */ #define TWI_SLAVE_BUSERR_bm 0x04 /* Bus Error bit mask. */ #define TWI_SLAVE_BUSERR_bp 2 /* Bus Error bit position. */ #define TWI_SLAVE_DIR_bm 0x02 /* Read/Write Direction bit mask. */ #define TWI_SLAVE_DIR_bp 1 /* Read/Write Direction bit position. */ #define TWI_SLAVE_AP_bm 0x01 /* Slave Address or Stop bit mask. */ #define TWI_SLAVE_AP_bp 0 /* Slave Address or Stop bit position. */ /* TWI_SLAVE.ADDRMASK bit masks and bit positions */ #define TWI_SLAVE_ADDRMASK_gm 0xFE /* Address Mask group mask. */ #define TWI_SLAVE_ADDRMASK_gp 1 /* Address Mask group position. */ #define TWI_SLAVE_ADDRMASK0_bm (1<<1) /* Address Mask bit 0 mask. */ #define TWI_SLAVE_ADDRMASK0_bp 1 /* Address Mask bit 0 position. */ #define TWI_SLAVE_ADDRMASK1_bm (1<<2) /* Address Mask bit 1 mask. */ #define TWI_SLAVE_ADDRMASK1_bp 2 /* Address Mask bit 1 position. */ #define TWI_SLAVE_ADDRMASK2_bm (1<<3) /* Address Mask bit 2 mask. */ #define TWI_SLAVE_ADDRMASK2_bp 3 /* Address Mask bit 2 position. */ #define TWI_SLAVE_ADDRMASK3_bm (1<<4) /* Address Mask bit 3 mask. */ #define TWI_SLAVE_ADDRMASK3_bp 4 /* Address Mask bit 3 position. */ #define TWI_SLAVE_ADDRMASK4_bm (1<<5) /* Address Mask bit 4 mask. */ #define TWI_SLAVE_ADDRMASK4_bp 5 /* Address Mask bit 4 position. */ #define TWI_SLAVE_ADDRMASK5_bm (1<<6) /* Address Mask bit 5 mask. */ #define TWI_SLAVE_ADDRMASK5_bp 6 /* Address Mask bit 5 position. */ #define TWI_SLAVE_ADDRMASK6_bm (1<<7) /* Address Mask bit 6 mask. */ #define TWI_SLAVE_ADDRMASK6_bp 7 /* Address Mask bit 6 position. */ #define TWI_SLAVE_ADDREN_bm 0x01 /* Address Enable bit mask. */ #define TWI_SLAVE_ADDREN_bp 0 /* Address Enable bit position. */ /* TWI.CTRL bit masks and bit positions */ #define TWI_SDAHOLD_gm 0x06 /* SDA Hold Time Enable group mask. */ #define TWI_SDAHOLD_gp 1 /* SDA Hold Time Enable group position. */ #define TWI_SDAHOLD0_bm (1<<1) /* SDA Hold Time Enable bit 0 mask. */ #define TWI_SDAHOLD0_bp 1 /* SDA Hold Time Enable bit 0 position. */ #define TWI_SDAHOLD1_bm (1<<2) /* SDA Hold Time Enable bit 1 mask. */ #define TWI_SDAHOLD1_bp 2 /* SDA Hold Time Enable bit 1 position. */ #define TWI_EDIEN_bm 0x01 /* External Driver Interface Enable bit mask. */ #define TWI_EDIEN_bp 0 /* External Driver Interface Enable bit position. */ /* USB - USB */ /* USB_EP.STATUS bit masks and bit positions */ #define USB_EP_STALLF_bm 0x80 /* Endpoint Stall Flag bit mask. */ #define USB_EP_STALLF_bp 7 /* Endpoint Stall Flag bit position. */ #define USB_EP_CRC_bm 0x80 /* CRC Error Flag bit mask. */ #define USB_EP_CRC_bp 7 /* CRC Error Flag bit position. */ #define USB_EP_UNF_bm 0x40 /* Underflow Enpoint FLag bit mask. */ #define USB_EP_UNF_bp 6 /* Underflow Enpoint FLag bit position. */ #define USB_EP_OVF_bm 0x40 /* Overflow Enpoint Flag for Output Endpoints bit mask. */ #define USB_EP_OVF_bp 6 /* Overflow Enpoint Flag for Output Endpoints bit position. */ #define USB_EP_TRNCOMPL0_bm 0x20 /* Transaction Complete 0 Flag bit mask. */ #define USB_EP_TRNCOMPL0_bp 5 /* Transaction Complete 0 Flag bit position. */ #define USB_EP_TRNCOMPL1_bm 0x10 /* Transaction Complete 1 Flag bit mask. */ #define USB_EP_TRNCOMPL1_bp 4 /* Transaction Complete 1 Flag bit position. */ #define USB_EP_SETUP_bm 0x10 /* SETUP Transaction Complete Flag bit mask. */ #define USB_EP_SETUP_bp 4 /* SETUP Transaction Complete Flag bit position. */ #define USB_EP_BANK_bm 0x08 /* Bank Select bit mask. */ #define USB_EP_BANK_bp 3 /* Bank Select bit position. */ #define USB_EP_BUSNACK1_bm 0x04 /* Data Buffer 1 Not Acknowledge bit mask. */ #define USB_EP_BUSNACK1_bp 2 /* Data Buffer 1 Not Acknowledge bit position. */ #define USB_EP_BUSNACK0_bm 0x02 /* Data Buffer 0 Not Acknowledge bit mask. */ #define USB_EP_BUSNACK0_bp 1 /* Data Buffer 0 Not Acknowledge bit position. */ #define USB_EP_TOGGLE_bm 0x01 /* Data Toggle bit mask. */ #define USB_EP_TOGGLE_bp 0 /* Data Toggle bit position. */ /* USB_EP.CTRL bit masks and bit positions */ #define USB_EP_TYPE_gm 0xC0 /* Endpoint Type group mask. */ #define USB_EP_TYPE_gp 6 /* Endpoint Type group position. */ #define USB_EP_TYPE0_bm (1<<6) /* Endpoint Type bit 0 mask. */ #define USB_EP_TYPE0_bp 6 /* Endpoint Type bit 0 position. */ #define USB_EP_TYPE1_bm (1<<7) /* Endpoint Type bit 1 mask. */ #define USB_EP_TYPE1_bp 7 /* Endpoint Type bit 1 position. */ #define USB_EP_MULTIPKT_bm 0x20 /* Multi Packet Transfer Enable bit mask. */ #define USB_EP_MULTIPKT_bp 5 /* Multi Packet Transfer Enable bit position. */ #define USB_EP_PINGPONG_bm 0x10 /* Ping-Pong Enable bit mask. */ #define USB_EP_PINGPONG_bp 4 /* Ping-Pong Enable bit position. */ #define USB_EP_INTDSBL_bm 0x08 /* Interrupt Disable bit mask. */ #define USB_EP_INTDSBL_bp 3 /* Interrupt Disable bit position. */ #define USB_EP_STALL_bm 0x04 /* Data Stall bit mask. */ #define USB_EP_STALL_bp 2 /* Data Stall bit position. */ #define USB_EP_BUFSIZE_gm 0x07 /* Data Buffer Size group mask. */ #define USB_EP_BUFSIZE_gp 0 /* Data Buffer Size group position. */ #define USB_EP_BUFSIZE0_bm (1<<0) /* Data Buffer Size bit 0 mask. */ #define USB_EP_BUFSIZE0_bp 0 /* Data Buffer Size bit 0 position. */ #define USB_EP_BUFSIZE1_bm (1<<1) /* Data Buffer Size bit 1 mask. */ #define USB_EP_BUFSIZE1_bp 1 /* Data Buffer Size bit 1 position. */ #define USB_EP_BUFSIZE2_bm (1<<2) /* Data Buffer Size bit 2 mask. */ #define USB_EP_BUFSIZE2_bp 2 /* Data Buffer Size bit 2 position. */ /* USB_EP.CNT bit masks and bit positions */ #define USB_EP_ZLP_bm 0x8000 /* Zero Length Packet bit mask. */ #define USB_EP_ZLP_bp 15 /* Zero Length Packet bit position. */ /* USB.CTRLA bit masks and bit positions */ #define USB_ENABLE_bm 0x80 /* USB Enable bit mask. */ #define USB_ENABLE_bp 7 /* USB Enable bit position. */ #define USB_SPEED_bm 0x40 /* Speed Select bit mask. */ #define USB_SPEED_bp 6 /* Speed Select bit position. */ #define USB_FIFOEN_bm 0x20 /* USB FIFO Enable bit mask. */ #define USB_FIFOEN_bp 5 /* USB FIFO Enable bit position. */ #define USB_STFRNUM_bm 0x10 /* Store Frame Number Enable bit mask. */ #define USB_STFRNUM_bp 4 /* Store Frame Number Enable bit position. */ #define USB_MAXEP_gm 0x0F /* Maximum Endpoint Addresses group mask. */ #define USB_MAXEP_gp 0 /* Maximum Endpoint Addresses group position. */ #define USB_MAXEP0_bm (1<<0) /* Maximum Endpoint Addresses bit 0 mask. */ #define USB_MAXEP0_bp 0 /* Maximum Endpoint Addresses bit 0 position. */ #define USB_MAXEP1_bm (1<<1) /* Maximum Endpoint Addresses bit 1 mask. */ #define USB_MAXEP1_bp 1 /* Maximum Endpoint Addresses bit 1 position. */ #define USB_MAXEP2_bm (1<<2) /* Maximum Endpoint Addresses bit 2 mask. */ #define USB_MAXEP2_bp 2 /* Maximum Endpoint Addresses bit 2 position. */ #define USB_MAXEP3_bm (1<<3) /* Maximum Endpoint Addresses bit 3 mask. */ #define USB_MAXEP3_bp 3 /* Maximum Endpoint Addresses bit 3 position. */ /* USB.CTRLB bit masks and bit positions */ #define USB_PULLRST_bm 0x10 /* Pull during Reset bit mask. */ #define USB_PULLRST_bp 4 /* Pull during Reset bit position. */ #define USB_RWAKEUP_bm 0x04 /* Remote Wake-up bit mask. */ #define USB_RWAKEUP_bp 2 /* Remote Wake-up bit position. */ #define USB_GNACK_bm 0x02 /* Global NACK bit mask. */ #define USB_GNACK_bp 1 /* Global NACK bit position. */ #define USB_ATTACH_bm 0x01 /* Attach bit mask. */ #define USB_ATTACH_bp 0 /* Attach bit position. */ /* USB.STATUS bit masks and bit positions */ #define USB_URESUME_bm 0x08 /* Upstream Resume bit mask. */ #define USB_URESUME_bp 3 /* Upstream Resume bit position. */ #define USB_RESUME_bm 0x04 /* Resume bit mask. */ #define USB_RESUME_bp 2 /* Resume bit position. */ #define USB_SUSPEND_bm 0x02 /* Bus Suspended bit mask. */ #define USB_SUSPEND_bp 1 /* Bus Suspended bit position. */ #define USB_BUSRST_bm 0x01 /* Bus Reset bit mask. */ #define USB_BUSRST_bp 0 /* Bus Reset bit position. */ /* USB.ADDR bit masks and bit positions */ #define USB_ADDR_gm 0x7F /* Device Address group mask. */ #define USB_ADDR_gp 0 /* Device Address group position. */ #define USB_ADDR0_bm (1<<0) /* Device Address bit 0 mask. */ #define USB_ADDR0_bp 0 /* Device Address bit 0 position. */ #define USB_ADDR1_bm (1<<1) /* Device Address bit 1 mask. */ #define USB_ADDR1_bp 1 /* Device Address bit 1 position. */ #define USB_ADDR2_bm (1<<2) /* Device Address bit 2 mask. */ #define USB_ADDR2_bp 2 /* Device Address bit 2 position. */ #define USB_ADDR3_bm (1<<3) /* Device Address bit 3 mask. */ #define USB_ADDR3_bp 3 /* Device Address bit 3 position. */ #define USB_ADDR4_bm (1<<4) /* Device Address bit 4 mask. */ #define USB_ADDR4_bp 4 /* Device Address bit 4 position. */ #define USB_ADDR5_bm (1<<5) /* Device Address bit 5 mask. */ #define USB_ADDR5_bp 5 /* Device Address bit 5 position. */ #define USB_ADDR6_bm (1<<6) /* Device Address bit 6 mask. */ #define USB_ADDR6_bp 6 /* Device Address bit 6 position. */ /* USB.FIFOWP bit masks and bit positions */ #define USB_FIFOWP_gm 0x1F /* FIFO Write Pointer group mask. */ #define USB_FIFOWP_gp 0 /* FIFO Write Pointer group position. */ #define USB_FIFOWP0_bm (1<<0) /* FIFO Write Pointer bit 0 mask. */ #define USB_FIFOWP0_bp 0 /* FIFO Write Pointer bit 0 position. */ #define USB_FIFOWP1_bm (1<<1) /* FIFO Write Pointer bit 1 mask. */ #define USB_FIFOWP1_bp 1 /* FIFO Write Pointer bit 1 position. */ #define USB_FIFOWP2_bm (1<<2) /* FIFO Write Pointer bit 2 mask. */ #define USB_FIFOWP2_bp 2 /* FIFO Write Pointer bit 2 position. */ #define USB_FIFOWP3_bm (1<<3) /* FIFO Write Pointer bit 3 mask. */ #define USB_FIFOWP3_bp 3 /* FIFO Write Pointer bit 3 position. */ #define USB_FIFOWP4_bm (1<<4) /* FIFO Write Pointer bit 4 mask. */ #define USB_FIFOWP4_bp 4 /* FIFO Write Pointer bit 4 position. */ /* USB.FIFORP bit masks and bit positions */ #define USB_FIFORP_gm 0x1F /* FIFO Read Pointer group mask. */ #define USB_FIFORP_gp 0 /* FIFO Read Pointer group position. */ #define USB_FIFORP0_bm (1<<0) /* FIFO Read Pointer bit 0 mask. */ #define USB_FIFORP0_bp 0 /* FIFO Read Pointer bit 0 position. */ #define USB_FIFORP1_bm (1<<1) /* FIFO Read Pointer bit 1 mask. */ #define USB_FIFORP1_bp 1 /* FIFO Read Pointer bit 1 position. */ #define USB_FIFORP2_bm (1<<2) /* FIFO Read Pointer bit 2 mask. */ #define USB_FIFORP2_bp 2 /* FIFO Read Pointer bit 2 position. */ #define USB_FIFORP3_bm (1<<3) /* FIFO Read Pointer bit 3 mask. */ #define USB_FIFORP3_bp 3 /* FIFO Read Pointer bit 3 position. */ #define USB_FIFORP4_bm (1<<4) /* FIFO Read Pointer bit 4 mask. */ #define USB_FIFORP4_bp 4 /* FIFO Read Pointer bit 4 position. */ /* USB.INTCTRLA bit masks and bit positions */ #define USB_SOFIE_bm 0x80 /* Start Of Frame Interrupt Enable bit mask. */ #define USB_SOFIE_bp 7 /* Start Of Frame Interrupt Enable bit position. */ #define USB_BUSEVIE_bm 0x40 /* Bus Event Interrupt Enable bit mask. */ #define USB_BUSEVIE_bp 6 /* Bus Event Interrupt Enable bit position. */ #define USB_BUSERRIE_bm 0x20 /* Bus Error Interrupt Enable bit mask. */ #define USB_BUSERRIE_bp 5 /* Bus Error Interrupt Enable bit position. */ #define USB_STALLIE_bm 0x10 /* STALL Interrupt Enable bit mask. */ #define USB_STALLIE_bp 4 /* STALL Interrupt Enable bit position. */ #define USB_INTLVL_gm 0x03 /* Interrupt Level group mask. */ #define USB_INTLVL_gp 0 /* Interrupt Level group position. */ #define USB_INTLVL0_bm (1<<0) /* Interrupt Level bit 0 mask. */ #define USB_INTLVL0_bp 0 /* Interrupt Level bit 0 position. */ #define USB_INTLVL1_bm (1<<1) /* Interrupt Level bit 1 mask. */ #define USB_INTLVL1_bp 1 /* Interrupt Level bit 1 position. */ /* USB.INTCTRLB bit masks and bit positions */ #define USB_TRNIE_bm 0x02 /* Transaction Complete Interrupt Enable bit mask. */ #define USB_TRNIE_bp 1 /* Transaction Complete Interrupt Enable bit position. */ #define USB_SETUPIE_bm 0x01 /* SETUP Transaction Complete Interrupt Enable bit mask. */ #define USB_SETUPIE_bp 0 /* SETUP Transaction Complete Interrupt Enable bit position. */ /* USB.INTFLAGSACLR bit masks and bit positions */ #define USB_SOFIF_bm 0x80 /* Start Of Frame Interrupt Flag bit mask. */ #define USB_SOFIF_bp 7 /* Start Of Frame Interrupt Flag bit position. */ #define USB_SUSPENDIF_bm 0x40 /* Suspend Interrupt Flag bit mask. */ #define USB_SUSPENDIF_bp 6 /* Suspend Interrupt Flag bit position. */ #define USB_RESUMEIF_bm 0x20 /* Resume Interrupt Flag bit mask. */ #define USB_RESUMEIF_bp 5 /* Resume Interrupt Flag bit position. */ #define USB_RSTIF_bm 0x10 /* Reset Interrupt Flag bit mask. */ #define USB_RSTIF_bp 4 /* Reset Interrupt Flag bit position. */ #define USB_CRCIF_bm 0x08 /* Isochronous CRC Error Interrupt Flag bit mask. */ #define USB_CRCIF_bp 3 /* Isochronous CRC Error Interrupt Flag bit position. */ #define USB_UNFIF_bm 0x04 /* Underflow Interrupt Flag bit mask. */ #define USB_UNFIF_bp 2 /* Underflow Interrupt Flag bit position. */ #define USB_OVFIF_bm 0x02 /* Overflow Interrupt Flag bit mask. */ #define USB_OVFIF_bp 1 /* Overflow Interrupt Flag bit position. */ #define USB_STALLIF_bm 0x01 /* STALL Interrupt Flag bit mask. */ #define USB_STALLIF_bp 0 /* STALL Interrupt Flag bit position. */ /* USB.INTFLAGSASET bit masks and bit positions */ /* USB_SOFIF Predefined. */ /* USB_SOFIF Predefined. */ /* USB_SUSPENDIF Predefined. */ /* USB_SUSPENDIF Predefined. */ /* USB_RESUMEIF Predefined. */ /* USB_RESUMEIF Predefined. */ /* USB_RSTIF Predefined. */ /* USB_RSTIF Predefined. */ /* USB_CRCIF Predefined. */ /* USB_CRCIF Predefined. */ /* USB_UNFIF Predefined. */ /* USB_UNFIF Predefined. */ /* USB_OVFIF Predefined. */ /* USB_OVFIF Predefined. */ /* USB_STALLIF Predefined. */ /* USB_STALLIF Predefined. */ /* USB.INTFLAGSBCLR bit masks and bit positions */ #define USB_TRNIF_bm 0x02 /* Transaction Complete Interrupt Flag bit mask. */ #define USB_TRNIF_bp 1 /* Transaction Complete Interrupt Flag bit position. */ #define USB_SETUPIF_bm 0x01 /* SETUP Transaction Complete Interrupt Flag bit mask. */ #define USB_SETUPIF_bp 0 /* SETUP Transaction Complete Interrupt Flag bit position. */ /* USB.INTFLAGSBSET bit masks and bit positions */ /* USB_TRNIF Predefined. */ /* USB_TRNIF Predefined. */ /* USB_SETUPIF Predefined. */ /* USB_SETUPIF Predefined. */ /* PORT - I/O Port Configuration */ /* PORT.INTCTRL bit masks and bit positions */ #define PORT_INT1LVL_gm 0x0C /* Port Interrupt 1 Level group mask. */ #define PORT_INT1LVL_gp 2 /* Port Interrupt 1 Level group position. */ #define PORT_INT1LVL0_bm (1<<2) /* Port Interrupt 1 Level bit 0 mask. */ #define PORT_INT1LVL0_bp 2 /* Port Interrupt 1 Level bit 0 position. */ #define PORT_INT1LVL1_bm (1<<3) /* Port Interrupt 1 Level bit 1 mask. */ #define PORT_INT1LVL1_bp 3 /* Port Interrupt 1 Level bit 1 position. */ #define PORT_INT0LVL_gm 0x03 /* Port Interrupt 0 Level group mask. */ #define PORT_INT0LVL_gp 0 /* Port Interrupt 0 Level group position. */ #define PORT_INT0LVL0_bm (1<<0) /* Port Interrupt 0 Level bit 0 mask. */ #define PORT_INT0LVL0_bp 0 /* Port Interrupt 0 Level bit 0 position. */ #define PORT_INT0LVL1_bm (1<<1) /* Port Interrupt 0 Level bit 1 mask. */ #define PORT_INT0LVL1_bp 1 /* Port Interrupt 0 Level bit 1 position. */ /* PORT.INTFLAGS bit masks and bit positions */ #define PORT_INT1IF_bm 0x02 /* Port Interrupt 1 Flag bit mask. */ #define PORT_INT1IF_bp 1 /* Port Interrupt 1 Flag bit position. */ #define PORT_INT0IF_bm 0x01 /* Port Interrupt 0 Flag bit mask. */ #define PORT_INT0IF_bp 0 /* Port Interrupt 0 Flag bit position. */ /* PORT.REMAP bit masks and bit positions */ #define PORT_SPI_bm 0x20 /* SPI bit mask. */ #define PORT_SPI_bp 5 /* SPI bit position. */ #define PORT_USART0_bm 0x10 /* USART0 bit mask. */ #define PORT_USART0_bp 4 /* USART0 bit position. */ #define PORT_TC0D_bm 0x08 /* Timer/Counter 0 Output Compare D bit mask. */ #define PORT_TC0D_bp 3 /* Timer/Counter 0 Output Compare D bit position. */ #define PORT_TC0C_bm 0x04 /* Timer/Counter 0 Output Compare C bit mask. */ #define PORT_TC0C_bp 2 /* Timer/Counter 0 Output Compare C bit position. */ #define PORT_TC0B_bm 0x02 /* Timer/Counter 0 Output Compare B bit mask. */ #define PORT_TC0B_bp 1 /* Timer/Counter 0 Output Compare B bit position. */ #define PORT_TC0A_bm 0x01 /* Timer/Counter 0 Output Compare A bit mask. */ #define PORT_TC0A_bp 0 /* Timer/Counter 0 Output Compare A bit position. */ /* PORT.PIN0CTRL bit masks and bit positions */ #define PORT_SRLEN_bm 0x80 /* Slew Rate Enable bit mask. */ #define PORT_SRLEN_bp 7 /* Slew Rate Enable bit position. */ #define PORT_INVEN_bm 0x40 /* Inverted I/O Enable bit mask. */ #define PORT_INVEN_bp 6 /* Inverted I/O Enable bit position. */ #define PORT_OPC_gm 0x38 /* Output/Pull Configuration group mask. */ #define PORT_OPC_gp 3 /* Output/Pull Configuration group position. */ #define PORT_OPC0_bm (1<<3) /* Output/Pull Configuration bit 0 mask. */ #define PORT_OPC0_bp 3 /* Output/Pull Configuration bit 0 position. */ #define PORT_OPC1_bm (1<<4) /* Output/Pull Configuration bit 1 mask. */ #define PORT_OPC1_bp 4 /* Output/Pull Configuration bit 1 position. */ #define PORT_OPC2_bm (1<<5) /* Output/Pull Configuration bit 2 mask. */ #define PORT_OPC2_bp 5 /* Output/Pull Configuration bit 2 position. */ #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. */ /* PORT.PIN1CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* PORT.PIN2CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* PORT.PIN3CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* PORT.PIN4CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* PORT.PIN5CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* PORT.PIN6CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* PORT.PIN7CTRL bit masks and bit positions */ /* PORT_SRLEN Predefined. */ /* PORT_SRLEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_INVEN Predefined. */ /* PORT_OPC Predefined. */ /* PORT_OPC Predefined. */ /* PORT_ISC Predefined. */ /* PORT_ISC Predefined. */ /* TC - 16-bit Timer/Counter With PWM */ /* TC0.CTRLA bit masks and bit positions */ #define TC0_CLKSEL_gm 0x0F /* Clock Selection group mask. */ #define TC0_CLKSEL_gp 0 /* Clock Selection group position. */ #define TC0_CLKSEL0_bm (1<<0) /* Clock Selection bit 0 mask. */ #define TC0_CLKSEL0_bp 0 /* Clock Selection bit 0 position. */ #define TC0_CLKSEL1_bm (1<<1) /* Clock Selection bit 1 mask. */ #define TC0_CLKSEL1_bp 1 /* Clock Selection bit 1 position. */ #define TC0_CLKSEL2_bm (1<<2) /* Clock Selection bit 2 mask. */ #define TC0_CLKSEL2_bp 2 /* Clock Selection bit 2 position. */ #define TC0_CLKSEL3_bm (1<<3) /* Clock Selection bit 3 mask. */ #define TC0_CLKSEL3_bp 3 /* Clock Selection bit 3 position. */ /* TC0.CTRLB bit masks and bit positions */ #define TC0_CCDEN_bm 0x80 /* Compare or Capture D Enable bit mask. */ #define TC0_CCDEN_bp 7 /* Compare or Capture D Enable bit position. */ #define TC0_CCCEN_bm 0x40 /* Compare or Capture C Enable bit mask. */ #define TC0_CCCEN_bp 6 /* Compare or Capture C Enable bit position. */ #define TC0_CCBEN_bm 0x20 /* Compare or Capture B Enable bit mask. */ #define TC0_CCBEN_bp 5 /* Compare or Capture B Enable bit position. */ #define TC0_CCAEN_bm 0x10 /* Compare or Capture A Enable bit mask. */ #define TC0_CCAEN_bp 4 /* Compare or Capture A Enable bit position. */ #define TC0_WGMODE_gm 0x07 /* Waveform generation mode group mask. */ #define TC0_WGMODE_gp 0 /* Waveform generation mode group position. */ #define TC0_WGMODE0_bm (1<<0) /* Waveform generation mode bit 0 mask. */ #define TC0_WGMODE0_bp 0 /* Waveform generation mode bit 0 position. */ #define TC0_WGMODE1_bm (1<<1) /* Waveform generation mode bit 1 mask. */ #define TC0_WGMODE1_bp 1 /* Waveform generation mode bit 1 position. */ #define TC0_WGMODE2_bm (1<<2) /* Waveform generation mode bit 2 mask. */ #define TC0_WGMODE2_bp 2 /* Waveform generation mode bit 2 position. */ /* TC0.CTRLC bit masks and bit positions */ #define TC0_CMPD_bm 0x08 /* Compare D Output Value bit mask. */ #define TC0_CMPD_bp 3 /* Compare D Output Value bit position. */ #define TC0_CMPC_bm 0x04 /* Compare C Output Value bit mask. */ #define TC0_CMPC_bp 2 /* Compare C Output Value bit position. */ #define TC0_CMPB_bm 0x02 /* Compare B Output Value bit mask. */ #define TC0_CMPB_bp 1 /* Compare B Output Value bit position. */ #define TC0_CMPA_bm 0x01 /* Compare A Output Value bit mask. */ #define TC0_CMPA_bp 0 /* Compare A Output Value bit position. */ /* TC0.CTRLD bit masks and bit positions */ #define TC0_EVACT_gm 0xE0 /* Event Action group mask. */ #define TC0_EVACT_gp 5 /* Event Action group position. */ #define TC0_EVACT0_bm (1<<5) /* Event Action bit 0 mask. */ #define TC0_EVACT0_bp 5 /* Event Action bit 0 position. */ #define TC0_EVACT1_bm (1<<6) /* Event Action bit 1 mask. */ #define TC0_EVACT1_bp 6 /* Event Action bit 1 position. */ #define TC0_EVACT2_bm (1<<7) /* Event Action bit 2 mask. */ #define TC0_EVACT2_bp 7 /* Event Action bit 2 position. */ #define TC0_EVDLY_bm 0x10 /* Event Delay bit mask. */ #define TC0_EVDLY_bp 4 /* Event Delay bit position. */ #define TC0_EVSEL_gm 0x0F /* Event Source Select group mask. */ #define TC0_EVSEL_gp 0 /* Event Source Select group position. */ #define TC0_EVSEL0_bm (1<<0) /* Event Source Select bit 0 mask. */ #define TC0_EVSEL0_bp 0 /* Event Source Select bit 0 position. */ #define TC0_EVSEL1_bm (1<<1) /* Event Source Select bit 1 mask. */ #define TC0_EVSEL1_bp 1 /* Event Source Select bit 1 position. */ #define TC0_EVSEL2_bm (1<<2) /* Event Source Select bit 2 mask. */ #define TC0_EVSEL2_bp 2 /* Event Source Select bit 2 position. */ #define TC0_EVSEL3_bm (1<<3) /* Event Source Select bit 3 mask. */ #define TC0_EVSEL3_bp 3 /* Event Source Select bit 3 position. */ /* TC0.CTRLE bit masks and bit positions */ #define TC0_BYTEM_gm 0x03 /* Byte Mode group mask. */ #define TC0_BYTEM_gp 0 /* Byte Mode group position. */ #define TC0_BYTEM0_bm (1<<0) /* Byte Mode bit 0 mask. */ #define TC0_BYTEM0_bp 0 /* Byte Mode bit 0 position. */ #define TC0_BYTEM1_bm (1<<1) /* Byte Mode bit 1 mask. */ #define TC0_BYTEM1_bp 1 /* Byte Mode bit 1 position. */ /* TC0.INTCTRLA bit masks and bit positions */ #define TC0_ERRINTLVL_gm 0x0C /* Error Interrupt Level group mask. */ #define TC0_ERRINTLVL_gp 2 /* Error Interrupt Level group position. */ #define TC0_ERRINTLVL0_bm (1<<2) /* Error Interrupt Level bit 0 mask. */ #define TC0_ERRINTLVL0_bp 2 /* Error Interrupt Level bit 0 position. */ #define TC0_ERRINTLVL1_bm (1<<3) /* Error Interrupt Level bit 1 mask. */ #define TC0_ERRINTLVL1_bp 3 /* Error Interrupt Level bit 1 position. */ #define TC0_OVFINTLVL_gm 0x03 /* Overflow interrupt level group mask. */ #define TC0_OVFINTLVL_gp 0 /* Overflow interrupt level group position. */ #define TC0_OVFINTLVL0_bm (1<<0) /* Overflow interrupt level bit 0 mask. */ #define TC0_OVFINTLVL0_bp 0 /* Overflow interrupt level bit 0 position. */ #define TC0_OVFINTLVL1_bm (1<<1) /* Overflow interrupt level bit 1 mask. */ #define TC0_OVFINTLVL1_bp 1 /* Overflow interrupt level bit 1 position. */ /* TC0.INTCTRLB bit masks and bit positions */ #define TC0_CCDINTLVL_gm 0xC0 /* Compare or Capture D Interrupt Level group mask. */ #define TC0_CCDINTLVL_gp 6 /* Compare or Capture D Interrupt Level group position. */ #define TC0_CCDINTLVL0_bm (1<<6) /* Compare or Capture D Interrupt Level bit 0 mask. */ #define TC0_CCDINTLVL0_bp 6 /* Compare or Capture D Interrupt Level bit 0 position. */ #define TC0_CCDINTLVL1_bm (1<<7) /* Compare or Capture D Interrupt Level bit 1 mask. */ #define TC0_CCDINTLVL1_bp 7 /* Compare or Capture D Interrupt Level bit 1 position. */ #define TC0_CCCINTLVL_gm 0x30 /* Compare or Capture C Interrupt Level group mask. */ #define TC0_CCCINTLVL_gp 4 /* Compare or Capture C Interrupt Level group position. */ #define TC0_CCCINTLVL0_bm (1<<4) /* Compare or Capture C Interrupt Level bit 0 mask. */ #define TC0_CCCINTLVL0_bp 4 /* Compare or Capture C Interrupt Level bit 0 position. */ #define TC0_CCCINTLVL1_bm (1<<5) /* Compare or Capture C Interrupt Level bit 1 mask. */ #define TC0_CCCINTLVL1_bp 5 /* Compare or Capture C Interrupt Level bit 1 position. */ #define TC0_CCBINTLVL_gm 0x0C /* Compare or Capture B Interrupt Level group mask. */ #define TC0_CCBINTLVL_gp 2 /* Compare or Capture B Interrupt Level group position. */ #define TC0_CCBINTLVL0_bm (1<<2) /* Compare or Capture B Interrupt Level bit 0 mask. */ #define TC0_CCBINTLVL0_bp 2 /* Compare or Capture B Interrupt Level bit 0 position. */ #define TC0_CCBINTLVL1_bm (1<<3) /* Compare or Capture B Interrupt Level bit 1 mask. */ #define TC0_CCBINTLVL1_bp 3 /* Compare or Capture B Interrupt Level bit 1 position. */ #define TC0_CCAINTLVL_gm 0x03 /* Compare or Capture A Interrupt Level group mask. */ #define TC0_CCAINTLVL_gp 0 /* Compare or Capture A Interrupt Level group position. */ #define TC0_CCAINTLVL0_bm (1<<0) /* Compare or Capture A Interrupt Level bit 0 mask. */ #define TC0_CCAINTLVL0_bp 0 /* Compare or Capture A Interrupt Level bit 0 position. */ #define TC0_CCAINTLVL1_bm (1<<1) /* Compare or Capture A Interrupt Level bit 1 mask. */ #define TC0_CCAINTLVL1_bp 1 /* Compare or Capture A Interrupt Level bit 1 position. */ /* TC0.CTRLFCLR bit masks and bit positions */ #define TC0_CMD_gm 0x0C /* Command group mask. */ #define TC0_CMD_gp 2 /* Command group position. */ #define TC0_CMD0_bm (1<<2) /* Command bit 0 mask. */ #define TC0_CMD0_bp 2 /* Command bit 0 position. */ #define TC0_CMD1_bm (1<<3) /* Command bit 1 mask. */ #define TC0_CMD1_bp 3 /* Command bit 1 position. */ #define TC0_LUPD_bm 0x02 /* Lock Update bit mask. */ #define TC0_LUPD_bp 1 /* Lock Update bit position. */ #define TC0_DIR_bm 0x01 /* Direction bit mask. */ #define TC0_DIR_bp 0 /* Direction bit position. */ /* TC0.CTRLFSET bit masks and bit positions */ /* TC0_CMD Predefined. */ /* TC0_CMD Predefined. */ /* TC0_LUPD Predefined. */ /* TC0_LUPD Predefined. */ /* TC0_DIR Predefined. */ /* TC0_DIR Predefined. */ /* TC0.CTRLGCLR bit masks and bit positions */ #define TC0_CCDBV_bm 0x10 /* Compare or Capture D Buffer Valid bit mask. */ #define TC0_CCDBV_bp 4 /* Compare or Capture D Buffer Valid bit position. */ #define TC0_CCCBV_bm 0x08 /* Compare or Capture C Buffer Valid bit mask. */ #define TC0_CCCBV_bp 3 /* Compare or Capture C Buffer Valid bit position. */ #define TC0_CCBBV_bm 0x04 /* Compare or Capture B Buffer Valid bit mask. */ #define TC0_CCBBV_bp 2 /* Compare or Capture B Buffer Valid bit position. */ #define TC0_CCABV_bm 0x02 /* Compare or Capture A Buffer Valid bit mask. */ #define TC0_CCABV_bp 1 /* Compare or Capture A Buffer Valid bit position. */ #define TC0_PERBV_bm 0x01 /* Period Buffer Valid bit mask. */ #define TC0_PERBV_bp 0 /* Period Buffer Valid bit position. */ /* TC0.CTRLGSET bit masks and bit positions */ /* TC0_CCDBV Predefined. */ /* TC0_CCDBV Predefined. */ /* TC0_CCCBV Predefined. */ /* TC0_CCCBV Predefined. */ /* TC0_CCBBV Predefined. */ /* TC0_CCBBV Predefined. */ /* TC0_CCABV Predefined. */ /* TC0_CCABV Predefined. */ /* TC0_PERBV Predefined. */ /* TC0_PERBV Predefined. */ /* TC0.INTFLAGS bit masks and bit positions */ #define TC0_CCDIF_bm 0x80 /* Compare or Capture D Interrupt Flag bit mask. */ #define TC0_CCDIF_bp 7 /* Compare or Capture D Interrupt Flag bit position. */ #define TC0_CCCIF_bm 0x40 /* Compare or Capture C Interrupt Flag bit mask. */ #define TC0_CCCIF_bp 6 /* Compare or Capture C Interrupt Flag bit position. */ #define TC0_CCBIF_bm 0x20 /* Compare or Capture B Interrupt Flag bit mask. */ #define TC0_CCBIF_bp 5 /* Compare or Capture B Interrupt Flag bit position. */ #define TC0_CCAIF_bm 0x10 /* Compare or Capture A Interrupt Flag bit mask. */ #define TC0_CCAIF_bp 4 /* Compare or Capture A Interrupt Flag bit position. */ #define TC0_ERRIF_bm 0x02 /* Error Interrupt Flag bit mask. */ #define TC0_ERRIF_bp 1 /* Error Interrupt Flag bit position. */ #define TC0_OVFIF_bm 0x01 /* Overflow Interrupt Flag bit mask. */ #define TC0_OVFIF_bp 0 /* Overflow Interrupt Flag bit position. */ /* TC1.CTRLA bit masks and bit positions */ #define TC1_CLKSEL_gm 0x0F /* Clock Selection group mask. */ #define TC1_CLKSEL_gp 0 /* Clock Selection group position. */ #define TC1_CLKSEL0_bm (1<<0) /* Clock Selection bit 0 mask. */ #define TC1_CLKSEL0_bp 0 /* Clock Selection bit 0 position. */ #define TC1_CLKSEL1_bm (1<<1) /* Clock Selection bit 1 mask. */ #define TC1_CLKSEL1_bp 1 /* Clock Selection bit 1 position. */ #define TC1_CLKSEL2_bm (1<<2) /* Clock Selection bit 2 mask. */ #define TC1_CLKSEL2_bp 2 /* Clock Selection bit 2 position. */ #define TC1_CLKSEL3_bm (1<<3) /* Clock Selection bit 3 mask. */ #define TC1_CLKSEL3_bp 3 /* Clock Selection bit 3 position. */ /* TC1.CTRLB bit masks and bit positions */ #define TC1_CCBEN_bm 0x20 /* Compare or Capture B Enable bit mask. */ #define TC1_CCBEN_bp 5 /* Compare or Capture B Enable bit position. */ #define TC1_CCAEN_bm 0x10 /* Compare or Capture A Enable bit mask. */ #define TC1_CCAEN_bp 4 /* Compare or Capture A Enable bit position. */ #define TC1_WGMODE_gm 0x07 /* Waveform generation mode group mask. */ #define TC1_WGMODE_gp 0 /* Waveform generation mode group position. */ #define TC1_WGMODE0_bm (1<<0) /* Waveform generation mode bit 0 mask. */ #define TC1_WGMODE0_bp 0 /* Waveform generation mode bit 0 position. */ #define TC1_WGMODE1_bm (1<<1) /* Waveform generation mode bit 1 mask. */ #define TC1_WGMODE1_bp 1 /* Waveform generation mode bit 1 position. */ #define TC1_WGMODE2_bm (1<<2) /* Waveform generation mode bit 2 mask. */ #define TC1_WGMODE2_bp 2 /* Waveform generation mode bit 2 position. */ /* TC1.CTRLC bit masks and bit positions */ #define TC1_CMPB_bm 0x02 /* Compare B Output Value bit mask. */ #define TC1_CMPB_bp 1 /* Compare B Output Value bit position. */ #define TC1_CMPA_bm 0x01 /* Compare A Output Value bit mask. */ #define TC1_CMPA_bp 0 /* Compare A Output Value bit position. */ /* TC1.CTRLD bit masks and bit positions */ #define TC1_EVACT_gm 0xE0 /* Event Action group mask. */ #define TC1_EVACT_gp 5 /* Event Action group position. */ #define TC1_EVACT0_bm (1<<5) /* Event Action bit 0 mask. */ #define TC1_EVACT0_bp 5 /* Event Action bit 0 position. */ #define TC1_EVACT1_bm (1<<6) /* Event Action bit 1 mask. */ #define TC1_EVACT1_bp 6 /* Event Action bit 1 position. */ #define TC1_EVACT2_bm (1<<7) /* Event Action bit 2 mask. */ #define TC1_EVACT2_bp 7 /* Event Action bit 2 position. */ #define TC1_EVDLY_bm 0x10 /* Event Delay bit mask. */ #define TC1_EVDLY_bp 4 /* Event Delay bit position. */ #define TC1_EVSEL_gm 0x0F /* Event Source Select group mask. */ #define TC1_EVSEL_gp 0 /* Event Source Select group position. */ #define TC1_EVSEL0_bm (1<<0) /* Event Source Select bit 0 mask. */ #define TC1_EVSEL0_bp 0 /* Event Source Select bit 0 position. */ #define TC1_EVSEL1_bm (1<<1) /* Event Source Select bit 1 mask. */ #define TC1_EVSEL1_bp 1 /* Event Source Select bit 1 position. */ #define TC1_EVSEL2_bm (1<<2) /* Event Source Select bit 2 mask. */ #define TC1_EVSEL2_bp 2 /* Event Source Select bit 2 position. */ #define TC1_EVSEL3_bm (1<<3) /* Event Source Select bit 3 mask. */ #define TC1_EVSEL3_bp 3 /* Event Source Select bit 3 position. */ /* TC1.CTRLE bit masks and bit positions */ #define TC1_BYTEM_bm 0x01 /* Byte Mode bit mask. */ #define TC1_BYTEM_bp 0 /* Byte Mode bit position. */ /* TC1.INTCTRLA bit masks and bit positions */ #define TC1_ERRINTLVL_gm 0x0C /* Error Interrupt Level group mask. */ #define TC1_ERRINTLVL_gp 2 /* Error Interrupt Level group position. */ #define TC1_ERRINTLVL0_bm (1<<2) /* Error Interrupt Level bit 0 mask. */ #define TC1_ERRINTLVL0_bp 2 /* Error Interrupt Level bit 0 position. */ #define TC1_ERRINTLVL1_bm (1<<3) /* Error Interrupt Level bit 1 mask. */ #define TC1_ERRINTLVL1_bp 3 /* Error Interrupt Level bit 1 position. */ #define TC1_OVFINTLVL_gm 0x03 /* Overflow interrupt level group mask. */ #define TC1_OVFINTLVL_gp 0 /* Overflow interrupt level group position. */ #define TC1_OVFINTLVL0_bm (1<<0) /* Overflow interrupt level bit 0 mask. */ #define TC1_OVFINTLVL0_bp 0 /* Overflow interrupt level bit 0 position. */ #define TC1_OVFINTLVL1_bm (1<<1) /* Overflow interrupt level bit 1 mask. */ #define TC1_OVFINTLVL1_bp 1 /* Overflow interrupt level bit 1 position. */ /* TC1.INTCTRLB bit masks and bit positions */ #define TC1_CCBINTLVL_gm 0x0C /* Compare or Capture B Interrupt Level group mask. */ #define TC1_CCBINTLVL_gp 2 /* Compare or Capture B Interrupt Level group position. */ #define TC1_CCBINTLVL0_bm (1<<2) /* Compare or Capture B Interrupt Level bit 0 mask. */ #define TC1_CCBINTLVL0_bp 2 /* Compare or Capture B Interrupt Level bit 0 position. */ #define TC1_CCBINTLVL1_bm (1<<3) /* Compare or Capture B Interrupt Level bit 1 mask. */ #define TC1_CCBINTLVL1_bp 3 /* Compare or Capture B Interrupt Level bit 1 position. */ #define TC1_CCAINTLVL_gm 0x03 /* Compare or Capture A Interrupt Level group mask. */ #define TC1_CCAINTLVL_gp 0 /* Compare or Capture A Interrupt Level group position. */ #define TC1_CCAINTLVL0_bm (1<<0) /* Compare or Capture A Interrupt Level bit 0 mask. */ #define TC1_CCAINTLVL0_bp 0 /* Compare or Capture A Interrupt Level bit 0 position. */ #define TC1_CCAINTLVL1_bm (1<<1) /* Compare or Capture A Interrupt Level bit 1 mask. */ #define TC1_CCAINTLVL1_bp 1 /* Compare or Capture A Interrupt Level bit 1 position. */ /* TC1.CTRLFCLR bit masks and bit positions */ #define TC1_CMD_gm 0x0C /* Command group mask. */ #define TC1_CMD_gp 2 /* Command group position. */ #define TC1_CMD0_bm (1<<2) /* Command bit 0 mask. */ #define TC1_CMD0_bp 2 /* Command bit 0 position. */ #define TC1_CMD1_bm (1<<3) /* Command bit 1 mask. */ #define TC1_CMD1_bp 3 /* Command bit 1 position. */ #define TC1_LUPD_bm 0x02 /* Lock Update bit mask. */ #define TC1_LUPD_bp 1 /* Lock Update bit position. */ #define TC1_DIR_bm 0x01 /* Direction bit mask. */ #define TC1_DIR_bp 0 /* Direction bit position. */ /* TC1.CTRLFSET bit masks and bit positions */ /* TC1_CMD Predefined. */ /* TC1_CMD Predefined. */ /* TC1_LUPD Predefined. */ /* TC1_LUPD Predefined. */ /* TC1_DIR Predefined. */ /* TC1_DIR Predefined. */ /* TC1.CTRLGCLR bit masks and bit positions */ #define TC1_CCBBV_bm 0x04 /* Compare or Capture B Buffer Valid bit mask. */ #define TC1_CCBBV_bp 2 /* Compare or Capture B Buffer Valid bit position. */ #define TC1_CCABV_bm 0x02 /* Compare or Capture A Buffer Valid bit mask. */ #define TC1_CCABV_bp 1 /* Compare or Capture A Buffer Valid bit position. */ #define TC1_PERBV_bm 0x01 /* Period Buffer Valid bit mask. */ #define TC1_PERBV_bp 0 /* Period Buffer Valid bit position. */ /* TC1.CTRLGSET bit masks and bit positions */ /* TC1_CCBBV Predefined. */ /* TC1_CCBBV Predefined. */ /* TC1_CCABV Predefined. */ /* TC1_CCABV Predefined. */ /* TC1_PERBV Predefined. */ /* TC1_PERBV Predefined. */ /* TC1.INTFLAGS bit masks and bit positions */ #define TC1_CCBIF_bm 0x20 /* Compare or Capture B Interrupt Flag bit mask. */ #define TC1_CCBIF_bp 5 /* Compare or Capture B Interrupt Flag bit position. */ #define TC1_CCAIF_bm 0x10 /* Compare or Capture A Interrupt Flag bit mask. */ #define TC1_CCAIF_bp 4 /* Compare or Capture A Interrupt Flag bit position. */ #define TC1_ERRIF_bm 0x02 /* Error Interrupt Flag bit mask. */ #define TC1_ERRIF_bp 1 /* Error Interrupt Flag bit position. */ #define TC1_OVFIF_bm 0x01 /* Overflow Interrupt Flag bit mask. */ #define TC1_OVFIF_bp 0 /* Overflow Interrupt Flag bit position. */ /* TC2 - 16-bit Timer/Counter type 2 */ /* TC2.CTRLA bit masks and bit positions */ #define TC2_CLKSEL_gm 0x0F /* Clock Selection group mask. */ #define TC2_CLKSEL_gp 0 /* Clock Selection group position. */ #define TC2_CLKSEL0_bm (1<<0) /* Clock Selection bit 0 mask. */ #define TC2_CLKSEL0_bp 0 /* Clock Selection bit 0 position. */ #define TC2_CLKSEL1_bm (1<<1) /* Clock Selection bit 1 mask. */ #define TC2_CLKSEL1_bp 1 /* Clock Selection bit 1 position. */ #define TC2_CLKSEL2_bm (1<<2) /* Clock Selection bit 2 mask. */ #define TC2_CLKSEL2_bp 2 /* Clock Selection bit 2 position. */ #define TC2_CLKSEL3_bm (1<<3) /* Clock Selection bit 3 mask. */ #define TC2_CLKSEL3_bp 3 /* Clock Selection bit 3 position. */ /* TC2.CTRLB bit masks and bit positions */ #define TC2_HCMPDEN_bm 0x80 /* High Byte Compare D Enable bit mask. */ #define TC2_HCMPDEN_bp 7 /* High Byte Compare D Enable bit position. */ #define TC2_HCMPCEN_bm 0x40 /* High Byte Compare C Enable bit mask. */ #define TC2_HCMPCEN_bp 6 /* High Byte Compare C Enable bit position. */ #define TC2_HCMPBEN_bm 0x20 /* High Byte Compare B Enable bit mask. */ #define TC2_HCMPBEN_bp 5 /* High Byte Compare B Enable bit position. */ #define TC2_HCMPAEN_bm 0x10 /* High Byte Compare A Enable bit mask. */ #define TC2_HCMPAEN_bp 4 /* High Byte Compare A Enable bit position. */ #define TC2_LCMPDEN_bm 0x08 /* Low Byte Compare D Enable bit mask. */ #define TC2_LCMPDEN_bp 3 /* Low Byte Compare D Enable bit position. */ #define TC2_LCMPCEN_bm 0x04 /* Low Byte Compare C Enable bit mask. */ #define TC2_LCMPCEN_bp 2 /* Low Byte Compare C Enable bit position. */ #define TC2_LCMPBEN_bm 0x02 /* Low Byte Compare B Enable bit mask. */ #define TC2_LCMPBEN_bp 1 /* Low Byte Compare B Enable bit position. */ #define TC2_LCMPAEN_bm 0x01 /* Low Byte Compare A Enable bit mask. */ #define TC2_LCMPAEN_bp 0 /* Low Byte Compare A Enable bit position. */ /* TC2.CTRLC bit masks and bit positions */ #define TC2_HCMPD_bm 0x80 /* High Byte Compare D Output Value bit mask. */ #define TC2_HCMPD_bp 7 /* High Byte Compare D Output Value bit position. */ #define TC2_HCMPC_bm 0x40 /* High Byte Compare C Output Value bit mask. */ #define TC2_HCMPC_bp 6 /* High Byte Compare C Output Value bit position. */ #define TC2_HCMPB_bm 0x20 /* High Byte Compare B Output Value bit mask. */ #define TC2_HCMPB_bp 5 /* High Byte Compare B Output Value bit position. */ #define TC2_HCMPA_bm 0x10 /* High Byte Compare A Output Value bit mask. */ #define TC2_HCMPA_bp 4 /* High Byte Compare A Output Value bit position. */ #define TC2_LCMPD_bm 0x08 /* Low Byte Compare D Output Value bit mask. */ #define TC2_LCMPD_bp 3 /* Low Byte Compare D Output Value bit position. */ #define TC2_LCMPC_bm 0x04 /* Low Byte Compare C Output Value bit mask. */ #define TC2_LCMPC_bp 2 /* Low Byte Compare C Output Value bit position. */ #define TC2_LCMPB_bm 0x02 /* Low Byte Compare B Output Value bit mask. */ #define TC2_LCMPB_bp 1 /* Low Byte Compare B Output Value bit position. */ #define TC2_LCMPA_bm 0x01 /* Low Byte Compare A Output Value bit mask. */ #define TC2_LCMPA_bp 0 /* Low Byte Compare A Output Value bit position. */ /* TC2.CTRLE bit masks and bit positions */ #define TC2_BYTEM_gm 0x03 /* Byte Mode group mask. */ #define TC2_BYTEM_gp 0 /* Byte Mode group position. */ #define TC2_BYTEM0_bm (1<<0) /* Byte Mode bit 0 mask. */ #define TC2_BYTEM0_bp 0 /* Byte Mode bit 0 position. */ #define TC2_BYTEM1_bm (1<<1) /* Byte Mode bit 1 mask. */ #define TC2_BYTEM1_bp 1 /* Byte Mode bit 1 position. */ /* TC2.INTCTRLA bit masks and bit positions */ #define TC2_HUNFINTLVL_gm 0x0C /* High Byte Underflow Interrupt Level group mask. */ #define TC2_HUNFINTLVL_gp 2 /* High Byte Underflow Interrupt Level group position. */ #define TC2_HUNFINTLVL0_bm (1<<2) /* High Byte Underflow Interrupt Level bit 0 mask. */ #define TC2_HUNFINTLVL0_bp 2 /* High Byte Underflow Interrupt Level bit 0 position. */ #define TC2_HUNFINTLVL1_bm (1<<3) /* High Byte Underflow Interrupt Level bit 1 mask. */ #define TC2_HUNFINTLVL1_bp 3 /* High Byte Underflow Interrupt Level bit 1 position. */ #define TC2_LUNFINTLVL_gm 0x03 /* Low Byte Underflow interrupt level group mask. */ #define TC2_LUNFINTLVL_gp 0 /* Low Byte Underflow interrupt level group position. */ #define TC2_LUNFINTLVL0_bm (1<<0) /* Low Byte Underflow interrupt level bit 0 mask. */ #define TC2_LUNFINTLVL0_bp 0 /* Low Byte Underflow interrupt level bit 0 position. */ #define TC2_LUNFINTLVL1_bm (1<<1) /* Low Byte Underflow interrupt level bit 1 mask. */ #define TC2_LUNFINTLVL1_bp 1 /* Low Byte Underflow interrupt level bit 1 position. */ /* TC2.INTCTRLB bit masks and bit positions */ #define TC2_LCMPDINTLVL_gm 0xC0 /* Low Byte Compare D Interrupt Level group mask. */ #define TC2_LCMPDINTLVL_gp 6 /* Low Byte Compare D Interrupt Level group position. */ #define TC2_LCMPDINTLVL0_bm (1<<6) /* Low Byte Compare D Interrupt Level bit 0 mask. */ #define TC2_LCMPDINTLVL0_bp 6 /* Low Byte Compare D Interrupt Level bit 0 position. */ #define TC2_LCMPDINTLVL1_bm (1<<7) /* Low Byte Compare D Interrupt Level bit 1 mask. */ #define TC2_LCMPDINTLVL1_bp 7 /* Low Byte Compare D Interrupt Level bit 1 position. */ #define TC2_LCMPCINTLVL_gm 0x30 /* Low Byte Compare C Interrupt Level group mask. */ #define TC2_LCMPCINTLVL_gp 4 /* Low Byte Compare C Interrupt Level group position. */ #define TC2_LCMPCINTLVL0_bm (1<<4) /* Low Byte Compare C Interrupt Level bit 0 mask. */ #define TC2_LCMPCINTLVL0_bp 4 /* Low Byte Compare C Interrupt Level bit 0 position. */ #define TC2_LCMPCINTLVL1_bm (1<<5) /* Low Byte Compare C Interrupt Level bit 1 mask. */ #define TC2_LCMPCINTLVL1_bp 5 /* Low Byte Compare C Interrupt Level bit 1 position. */ #define TC2_LCMPBINTLVL_gm 0x0C /* Low Byte Compare B Interrupt Level group mask. */ #define TC2_LCMPBINTLVL_gp 2 /* Low Byte Compare B Interrupt Level group position. */ #define TC2_LCMPBINTLVL0_bm (1<<2) /* Low Byte Compare B Interrupt Level bit 0 mask. */ #define TC2_LCMPBINTLVL0_bp 2 /* Low Byte Compare B Interrupt Level bit 0 position. */ #define TC2_LCMPBINTLVL1_bm (1<<3) /* Low Byte Compare B Interrupt Level bit 1 mask. */ #define TC2_LCMPBINTLVL1_bp 3 /* Low Byte Compare B Interrupt Level bit 1 position. */ #define TC2_LCMPAINTLVL_gm 0x03 /* Low Byte Compare A Interrupt Level group mask. */ #define TC2_LCMPAINTLVL_gp 0 /* Low Byte Compare A Interrupt Level group position. */ #define TC2_LCMPAINTLVL0_bm (1<<0) /* Low Byte Compare A Interrupt Level bit 0 mask. */ #define TC2_LCMPAINTLVL0_bp 0 /* Low Byte Compare A Interrupt Level bit 0 position. */ #define TC2_LCMPAINTLVL1_bm (1<<1) /* Low Byte Compare A Interrupt Level bit 1 mask. */ #define TC2_LCMPAINTLVL1_bp 1 /* Low Byte Compare A Interrupt Level bit 1 position. */ /* TC2.CTRLF bit masks and bit positions */ #define TC2_CMD_gm 0x0C /* Command group mask. */ #define TC2_CMD_gp 2 /* Command group position. */ #define TC2_CMD0_bm (1<<2) /* Command bit 0 mask. */ #define TC2_CMD0_bp 2 /* Command bit 0 position. */ #define TC2_CMD1_bm (1<<3) /* Command bit 1 mask. */ #define TC2_CMD1_bp 3 /* Command bit 1 position. */ #define TC2_CMDEN_gm 0x03 /* Command Enable group mask. */ #define TC2_CMDEN_gp 0 /* Command Enable group position. */ #define TC2_CMDEN0_bm (1<<0) /* Command Enable bit 0 mask. */ #define TC2_CMDEN0_bp 0 /* Command Enable bit 0 position. */ #define TC2_CMDEN1_bm (1<<1) /* Command Enable bit 1 mask. */ #define TC2_CMDEN1_bp 1 /* Command Enable bit 1 position. */ /* TC2.INTFLAGS bit masks and bit positions */ #define TC2_LCMPDIF_bm 0x80 /* Low Byte Compare D Interrupt Flag bit mask. */ #define TC2_LCMPDIF_bp 7 /* Low Byte Compare D Interrupt Flag bit position. */ #define TC2_LCMPCIF_bm 0x40 /* Low Byte Compare C Interrupt Flag bit mask. */ #define TC2_LCMPCIF_bp 6 /* Low Byte Compare C Interrupt Flag bit position. */ #define TC2_LCMPBIF_bm 0x20 /* Low Byte Compare B Interrupt Flag bit mask. */ #define TC2_LCMPBIF_bp 5 /* Low Byte Compare B Interrupt Flag bit position. */ #define TC2_LCMPAIF_bm 0x10 /* Low Byte Compare A Interrupt Flag bit mask. */ #define TC2_LCMPAIF_bp 4 /* Low Byte Compare A Interrupt Flag bit position. */ #define TC2_HUNFIF_bm 0x02 /* High Byte Underflow Interrupt Flag bit mask. */ #define TC2_HUNFIF_bp 1 /* High Byte Underflow Interrupt Flag bit position. */ #define TC2_LUNFIF_bm 0x01 /* Low Byte Underflow Interrupt Flag bit mask. */ #define TC2_LUNFIF_bp 0 /* Low Byte Underflow Interrupt Flag bit position. */ /* AWEX - Timer/Counter Advanced Waveform Extension */ /* AWEX.CTRL bit masks and bit positions */ #define AWEX_PGM_bm 0x20 /* Pattern Generation Mode bit mask. */ #define AWEX_PGM_bp 5 /* Pattern Generation Mode bit position. */ #define AWEX_CWCM_bm 0x10 /* Common Waveform Channel Mode bit mask. */ #define AWEX_CWCM_bp 4 /* Common Waveform Channel Mode bit position. */ #define AWEX_DTICCDEN_bm 0x08 /* Dead Time Insertion Compare Channel D Enable bit mask. */ #define AWEX_DTICCDEN_bp 3 /* Dead Time Insertion Compare Channel D Enable bit position. */ #define AWEX_DTICCCEN_bm 0x04 /* Dead Time Insertion Compare Channel C Enable bit mask. */ #define AWEX_DTICCCEN_bp 2 /* Dead Time Insertion Compare Channel C Enable bit position. */ #define AWEX_DTICCBEN_bm 0x02 /* Dead Time Insertion Compare Channel B Enable bit mask. */ #define AWEX_DTICCBEN_bp 1 /* Dead Time Insertion Compare Channel B Enable bit position. */ #define AWEX_DTICCAEN_bm 0x01 /* Dead Time Insertion Compare Channel A Enable bit mask. */ #define AWEX_DTICCAEN_bp 0 /* Dead Time Insertion Compare Channel A Enable bit position. */ /* AWEX.FDCTRL bit masks and bit positions */ #define AWEX_FDDBD_bm 0x10 /* Fault Detect on Disable Break Disable bit mask. */ #define AWEX_FDDBD_bp 4 /* Fault Detect on Disable Break Disable bit position. */ #define AWEX_FDMODE_bm 0x04 /* Fault Detect Mode bit mask. */ #define AWEX_FDMODE_bp 2 /* Fault Detect Mode bit position. */ #define AWEX_FDACT_gm 0x03 /* Fault Detect Action group mask. */ #define AWEX_FDACT_gp 0 /* Fault Detect Action group position. */ #define AWEX_FDACT0_bm (1<<0) /* Fault Detect Action bit 0 mask. */ #define AWEX_FDACT0_bp 0 /* Fault Detect Action bit 0 position. */ #define AWEX_FDACT1_bm (1<<1) /* Fault Detect Action bit 1 mask. */ #define AWEX_FDACT1_bp 1 /* Fault Detect Action bit 1 position. */ /* AWEX.STATUS bit masks and bit positions */ #define AWEX_FDF_bm 0x04 /* Fault Detect Flag bit mask. */ #define AWEX_FDF_bp 2 /* Fault Detect Flag bit position. */ #define AWEX_DTHSBUFV_bm 0x02 /* Dead Time High Side Buffer Valid bit mask. */ #define AWEX_DTHSBUFV_bp 1 /* Dead Time High Side Buffer Valid bit position. */ #define AWEX_DTLSBUFV_bm 0x01 /* Dead Time Low Side Buffer Valid bit mask. */ #define AWEX_DTLSBUFV_bp 0 /* Dead Time Low Side Buffer Valid bit position. */ /* AWEX.STATUSSET bit masks and bit positions */ /* AWEX_FDF Predefined. */ /* AWEX_FDF Predefined. */ /* AWEX_DTHSBUFV Predefined. */ /* AWEX_DTHSBUFV Predefined. */ /* AWEX_DTLSBUFV Predefined. */ /* AWEX_DTLSBUFV Predefined. */ /* HIRES - Timer/Counter High-Resolution Extension */ /* HIRES.CTRLA bit masks and bit positions */ #define HIRES_HREN_gm 0x03 /* High Resolution Enable group mask. */ #define HIRES_HREN_gp 0 /* High Resolution Enable group position. */ #define HIRES_HREN0_bm (1<<0) /* High Resolution Enable bit 0 mask. */ #define HIRES_HREN0_bp 0 /* High Resolution Enable bit 0 position. */ #define HIRES_HREN1_bm (1<<1) /* High Resolution Enable bit 1 mask. */ #define HIRES_HREN1_bp 1 /* High Resolution Enable bit 1 position. */ /* USART - Universal Asynchronous Receiver-Transmitter */ /* USART.STATUS bit masks and bit positions */ #define USART_RXCIF_bm 0x80 /* Receive Interrupt Flag bit mask. */ #define USART_RXCIF_bp 7 /* Receive Interrupt Flag bit position. */ #define USART_TXCIF_bm 0x40 /* Transmit Interrupt Flag bit mask. */ #define USART_TXCIF_bp 6 /* Transmit Interrupt Flag 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_FERR_bm 0x10 /* Frame Error bit mask. */ #define USART_FERR_bp 4 /* Frame Error bit position. */ #define USART_BUFOVF_bm 0x08 /* Buffer Overflow bit mask. */ #define USART_BUFOVF_bp 3 /* Buffer Overflow bit position. */ #define USART_PERR_bm 0x04 /* Parity Error bit mask. */ #define USART_PERR_bp 2 /* Parity Error bit position. */ #define USART_RXB8_bm 0x01 /* Receive Bit 8 bit mask. */ #define USART_RXB8_bp 0 /* Receive Bit 8 bit position. */ /* USART.CTRLA bit masks and bit positions */ #define USART_RXCINTLVL_gm 0x30 /* Receive Interrupt Level group mask. */ #define USART_RXCINTLVL_gp 4 /* Receive Interrupt Level group position. */ #define USART_RXCINTLVL0_bm (1<<4) /* Receive Interrupt Level bit 0 mask. */ #define USART_RXCINTLVL0_bp 4 /* Receive Interrupt Level bit 0 position. */ #define USART_RXCINTLVL1_bm (1<<5) /* Receive Interrupt Level bit 1 mask. */ #define USART_RXCINTLVL1_bp 5 /* Receive Interrupt Level bit 1 position. */ #define USART_TXCINTLVL_gm 0x0C /* Transmit Interrupt Level group mask. */ #define USART_TXCINTLVL_gp 2 /* Transmit Interrupt Level group position. */ #define USART_TXCINTLVL0_bm (1<<2) /* Transmit Interrupt Level bit 0 mask. */ #define USART_TXCINTLVL0_bp 2 /* Transmit Interrupt Level bit 0 position. */ #define USART_TXCINTLVL1_bm (1<<3) /* Transmit Interrupt Level bit 1 mask. */ #define USART_TXCINTLVL1_bp 3 /* Transmit Interrupt Level bit 1 position. */ #define USART_DREINTLVL_gm 0x03 /* Data Register Empty Interrupt Level group mask. */ #define USART_DREINTLVL_gp 0 /* Data Register Empty Interrupt Level group position. */ #define USART_DREINTLVL0_bm (1<<0) /* Data Register Empty Interrupt Level bit 0 mask. */ #define USART_DREINTLVL0_bp 0 /* Data Register Empty Interrupt Level bit 0 position. */ #define USART_DREINTLVL1_bm (1<<1) /* Data Register Empty Interrupt Level bit 1 mask. */ #define USART_DREINTLVL1_bp 1 /* Data Register Empty Interrupt Level bit 1 position. */ /* USART.CTRLB bit masks and bit positions */ #define USART_RXEN_bm 0x10 /* Receiver Enable bit mask. */ #define USART_RXEN_bp 4 /* Receiver Enable bit position. */ #define USART_TXEN_bm 0x08 /* Transmitter Enable bit mask. */ #define USART_TXEN_bp 3 /* Transmitter Enable bit position. */ #define USART_CLK2X_bm 0x04 /* Double transmission speed bit mask. */ #define USART_CLK2X_bp 2 /* Double transmission speed bit position. */ #define USART_MPCM_bm 0x02 /* Multi-processor Communication Mode bit mask. */ #define USART_MPCM_bp 1 /* Multi-processor Communication Mode bit position. */ #define USART_TXB8_bm 0x01 /* Transmit bit 8 bit mask. */ #define USART_TXB8_bp 0 /* Transmit bit 8 bit position. */ /* USART.CTRLC bit masks and bit positions */ #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. */ #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_SBMODE_bm 0x08 /* Stop Bit Mode bit mask. */ #define USART_SBMODE_bp 3 /* Stop Bit Mode 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. */ /* USART.BAUDCTRLA bit masks and bit positions */ #define USART_BSEL_gm 0xFF /* Baud Rate Selection Bits [7:0] group mask. */ #define USART_BSEL_gp 0 /* Baud Rate Selection Bits [7:0] group position. */ #define USART_BSEL0_bm (1<<0) /* Baud Rate Selection Bits [7:0] bit 0 mask. */ #define USART_BSEL0_bp 0 /* Baud Rate Selection Bits [7:0] bit 0 position. */ #define USART_BSEL1_bm (1<<1) /* Baud Rate Selection Bits [7:0] bit 1 mask. */ #define USART_BSEL1_bp 1 /* Baud Rate Selection Bits [7:0] bit 1 position. */ #define USART_BSEL2_bm (1<<2) /* Baud Rate Selection Bits [7:0] bit 2 mask. */ #define USART_BSEL2_bp 2 /* Baud Rate Selection Bits [7:0] bit 2 position. */ #define USART_BSEL3_bm (1<<3) /* Baud Rate Selection Bits [7:0] bit 3 mask. */ #define USART_BSEL3_bp 3 /* Baud Rate Selection Bits [7:0] bit 3 position. */ #define USART_BSEL4_bm (1<<4) /* Baud Rate Selection Bits [7:0] bit 4 mask. */ #define USART_BSEL4_bp 4 /* Baud Rate Selection Bits [7:0] bit 4 position. */ #define USART_BSEL5_bm (1<<5) /* Baud Rate Selection Bits [7:0] bit 5 mask. */ #define USART_BSEL5_bp 5 /* Baud Rate Selection Bits [7:0] bit 5 position. */ #define USART_BSEL6_bm (1<<6) /* Baud Rate Selection Bits [7:0] bit 6 mask. */ #define USART_BSEL6_bp 6 /* Baud Rate Selection Bits [7:0] bit 6 position. */ #define USART_BSEL7_bm (1<<7) /* Baud Rate Selection Bits [7:0] bit 7 mask. */ #define USART_BSEL7_bp 7 /* Baud Rate Selection Bits [7:0] bit 7 position. */ /* USART.BAUDCTRLB bit masks and bit positions */ #define USART_BSCALE_gm 0xF0 /* Baud Rate Scale group mask. */ #define USART_BSCALE_gp 4 /* Baud Rate Scale group position. */ #define USART_BSCALE0_bm (1<<4) /* Baud Rate Scale bit 0 mask. */ #define USART_BSCALE0_bp 4 /* Baud Rate Scale bit 0 position. */ #define USART_BSCALE1_bm (1<<5) /* Baud Rate Scale bit 1 mask. */ #define USART_BSCALE1_bp 5 /* Baud Rate Scale bit 1 position. */ #define USART_BSCALE2_bm (1<<6) /* Baud Rate Scale bit 2 mask. */ #define USART_BSCALE2_bp 6 /* Baud Rate Scale bit 2 position. */ #define USART_BSCALE3_bm (1<<7) /* Baud Rate Scale bit 3 mask. */ #define USART_BSCALE3_bp 7 /* Baud Rate Scale bit 3 position. */ /* USART_BSEL Predefined. */ /* USART_BSEL Predefined. */ /* SPI - Serial Peripheral Interface */ /* SPI.CTRL bit masks and bit positions */ #define SPI_CLK2X_bm 0x80 /* Enable Double Speed bit mask. */ #define SPI_CLK2X_bp 7 /* Enable Double Speed bit position. */ #define SPI_ENABLE_bm 0x40 /* Enable Module bit mask. */ #define SPI_ENABLE_bp 6 /* Enable Module bit position. */ #define SPI_DORD_bm 0x20 /* Data Order Setting bit mask. */ #define SPI_DORD_bp 5 /* Data Order Setting bit position. */ #define SPI_MASTER_bm 0x10 /* Master Operation Enable bit mask. */ #define SPI_MASTER_bp 4 /* Master Operation Enable bit position. */ #define SPI_MODE_gm 0x0C /* SPI Mode group mask. */ #define SPI_MODE_gp 2 /* SPI Mode group position. */ #define SPI_MODE0_bm (1<<2) /* SPI Mode bit 0 mask. */ #define SPI_MODE0_bp 2 /* SPI Mode bit 0 position. */ #define SPI_MODE1_bm (1<<3) /* SPI Mode bit 1 mask. */ #define SPI_MODE1_bp 3 /* SPI Mode bit 1 position. */ #define SPI_PRESCALER_gm 0x03 /* Prescaler group mask. */ #define SPI_PRESCALER_gp 0 /* Prescaler group position. */ #define SPI_PRESCALER0_bm (1<<0) /* Prescaler bit 0 mask. */ #define SPI_PRESCALER0_bp 0 /* Prescaler bit 0 position. */ #define SPI_PRESCALER1_bm (1<<1) /* Prescaler bit 1 mask. */ #define SPI_PRESCALER1_bp 1 /* Prescaler bit 1 position. */ /* SPI.INTCTRL bit masks and bit positions */ #define SPI_INTLVL_gm 0x03 /* Interrupt level group mask. */ #define SPI_INTLVL_gp 0 /* Interrupt level group position. */ #define SPI_INTLVL0_bm (1<<0) /* Interrupt level bit 0 mask. */ #define SPI_INTLVL0_bp 0 /* Interrupt level bit 0 position. */ #define SPI_INTLVL1_bm (1<<1) /* Interrupt level bit 1 mask. */ #define SPI_INTLVL1_bp 1 /* Interrupt level bit 1 position. */ /* SPI.STATUS bit masks and bit positions */ #define SPI_IF_bm 0x80 /* Interrupt Flag bit mask. */ #define SPI_IF_bp 7 /* Interrupt Flag bit position. */ #define SPI_WRCOL_bm 0x40 /* Write Collision bit mask. */ #define SPI_WRCOL_bp 6 /* Write Collision bit position. */ /* IRCOM - IR Communication Module */ /* IRCOM.CTRL bit masks and bit positions */ #define IRCOM_EVSEL_gm 0x0F /* Event Channel Select group mask. */ #define IRCOM_EVSEL_gp 0 /* Event Channel Select group position. */ #define IRCOM_EVSEL0_bm (1<<0) /* Event Channel Select bit 0 mask. */ #define IRCOM_EVSEL0_bp 0 /* Event Channel Select bit 0 position. */ #define IRCOM_EVSEL1_bm (1<<1) /* Event Channel Select bit 1 mask. */ #define IRCOM_EVSEL1_bp 1 /* Event Channel Select bit 1 position. */ #define IRCOM_EVSEL2_bm (1<<2) /* Event Channel Select bit 2 mask. */ #define IRCOM_EVSEL2_bp 2 /* Event Channel Select bit 2 position. */ #define IRCOM_EVSEL3_bm (1<<3) /* Event Channel Select bit 3 mask. */ #define IRCOM_EVSEL3_bp 3 /* Event Channel Select bit 3 position. */ /* FUSE - Fuses and Lockbits */ /* NVM_FUSES.FUSEBYTE1 bit masks and bit positions */ #define NVM_FUSES_WDWP_gm 0xF0 /* Watchdog Window Timeout Period group mask. */ #define NVM_FUSES_WDWP_gp 4 /* Watchdog Window Timeout Period group position. */ #define NVM_FUSES_WDWP0_bm (1<<4) /* Watchdog Window Timeout Period bit 0 mask. */ #define NVM_FUSES_WDWP0_bp 4 /* Watchdog Window Timeout Period bit 0 position. */ #define NVM_FUSES_WDWP1_bm (1<<5) /* Watchdog Window Timeout Period bit 1 mask. */ #define NVM_FUSES_WDWP1_bp 5 /* Watchdog Window Timeout Period bit 1 position. */ #define NVM_FUSES_WDWP2_bm (1<<6) /* Watchdog Window Timeout Period bit 2 mask. */ #define NVM_FUSES_WDWP2_bp 6 /* Watchdog Window Timeout Period bit 2 position. */ #define NVM_FUSES_WDWP3_bm (1<<7) /* Watchdog Window Timeout Period bit 3 mask. */ #define NVM_FUSES_WDWP3_bp 7 /* Watchdog Window Timeout Period bit 3 position. */ #define NVM_FUSES_WDP_gm 0x0F /* Watchdog Timeout Period group mask. */ #define NVM_FUSES_WDP_gp 0 /* Watchdog Timeout Period group position. */ #define NVM_FUSES_WDP0_bm (1<<0) /* Watchdog Timeout Period bit 0 mask. */ #define NVM_FUSES_WDP0_bp 0 /* Watchdog Timeout Period bit 0 position. */ #define NVM_FUSES_WDP1_bm (1<<1) /* Watchdog Timeout Period bit 1 mask. */ #define NVM_FUSES_WDP1_bp 1 /* Watchdog Timeout Period bit 1 position. */ #define NVM_FUSES_WDP2_bm (1<<2) /* Watchdog Timeout Period bit 2 mask. */ #define NVM_FUSES_WDP2_bp 2 /* Watchdog Timeout Period bit 2 position. */ #define NVM_FUSES_WDP3_bm (1<<3) /* Watchdog Timeout Period bit 3 mask. */ #define NVM_FUSES_WDP3_bp 3 /* Watchdog Timeout Period bit 3 position. */ /* NVM_FUSES.FUSEBYTE2 bit masks and bit positions */ #define NVM_FUSES_BOOTRST_bm 0x40 /* Boot Loader Section Reset Vector bit mask. */ #define NVM_FUSES_BOOTRST_bp 6 /* Boot Loader Section Reset Vector bit position. */ #define NVM_FUSES_TOSCSEL_bm 0x20 /* Timer Oscillator pin location bit mask. */ #define NVM_FUSES_TOSCSEL_bp 5 /* Timer Oscillator pin location bit position. */ #define NVM_FUSES_BODPD_gm 0x03 /* BOD Operation in Power-Down Mode group mask. */ #define NVM_FUSES_BODPD_gp 0 /* BOD Operation in Power-Down Mode group position. */ #define NVM_FUSES_BODPD0_bm (1<<0) /* BOD Operation in Power-Down Mode bit 0 mask. */ #define NVM_FUSES_BODPD0_bp 0 /* BOD Operation in Power-Down Mode bit 0 position. */ #define NVM_FUSES_BODPD1_bm (1<<1) /* BOD Operation in Power-Down Mode bit 1 mask. */ #define NVM_FUSES_BODPD1_bp 1 /* BOD Operation in Power-Down Mode bit 1 position. */ /* NVM_FUSES.FUSEBYTE4 bit masks and bit positions */ #define NVM_FUSES_RSTDISBL_bm 0x10 /* External Reset Disable bit mask. */ #define NVM_FUSES_RSTDISBL_bp 4 /* External Reset Disable bit position. */ #define NVM_FUSES_SUT_gm 0x0C /* Start-up Time group mask. */ #define NVM_FUSES_SUT_gp 2 /* Start-up Time group position. */ #define NVM_FUSES_SUT0_bm (1<<2) /* Start-up Time bit 0 mask. */ #define NVM_FUSES_SUT0_bp 2 /* Start-up Time bit 0 position. */ #define NVM_FUSES_SUT1_bm (1<<3) /* Start-up Time bit 1 mask. */ #define NVM_FUSES_SUT1_bp 3 /* Start-up Time bit 1 position. */ #define NVM_FUSES_WDLOCK_bm 0x02 /* Watchdog Timer Lock bit mask. */ #define NVM_FUSES_WDLOCK_bp 1 /* Watchdog Timer Lock bit position. */ /* NVM_FUSES.FUSEBYTE5 bit masks and bit positions */ #define NVM_FUSES_BODACT_gm 0x30 /* BOD Operation in Active Mode group mask. */ #define NVM_FUSES_BODACT_gp 4 /* BOD Operation in Active Mode group position. */ #define NVM_FUSES_BODACT0_bm (1<<4) /* BOD Operation in Active Mode bit 0 mask. */ #define NVM_FUSES_BODACT0_bp 4 /* BOD Operation in Active Mode bit 0 position. */ #define NVM_FUSES_BODACT1_bm (1<<5) /* BOD Operation in Active Mode bit 1 mask. */ #define NVM_FUSES_BODACT1_bp 5 /* BOD Operation in Active Mode bit 1 position. */ #define NVM_FUSES_EESAVE_bm 0x08 /* Preserve EEPROM Through Chip Erase bit mask. */ #define NVM_FUSES_EESAVE_bp 3 /* Preserve EEPROM Through Chip Erase bit position. */ #define NVM_FUSES_BODLVL_gm 0x07 /* Brownout Detection Voltage Level group mask. */ #define NVM_FUSES_BODLVL_gp 0 /* Brownout Detection Voltage Level group position. */ #define NVM_FUSES_BODLVL0_bm (1<<0) /* Brownout Detection Voltage Level bit 0 mask. */ #define NVM_FUSES_BODLVL0_bp 0 /* Brownout Detection Voltage Level bit 0 position. */ #define NVM_FUSES_BODLVL1_bm (1<<1) /* Brownout Detection Voltage Level bit 1 mask. */ #define NVM_FUSES_BODLVL1_bp 1 /* Brownout Detection Voltage Level bit 1 position. */ #define NVM_FUSES_BODLVL2_bm (1<<2) /* Brownout Detection Voltage Level bit 2 mask. */ #define NVM_FUSES_BODLVL2_bp 2 /* Brownout Detection Voltage Level bit 2 position. */ /* LOCKBIT - Fuses and Lockbits */ /* NVM_LOCKBITS.LOCKBITS bit masks and bit positions */ #define NVM_LOCKBITS_BLBB_gm 0xC0 /* Boot Lock Bits - Boot Section group mask. */ #define NVM_LOCKBITS_BLBB_gp 6 /* Boot Lock Bits - Boot Section group position. */ #define NVM_LOCKBITS_BLBB0_bm (1<<6) /* Boot Lock Bits - Boot Section bit 0 mask. */ #define NVM_LOCKBITS_BLBB0_bp 6 /* Boot Lock Bits - Boot Section bit 0 position. */ #define NVM_LOCKBITS_BLBB1_bm (1<<7) /* Boot Lock Bits - Boot Section bit 1 mask. */ #define NVM_LOCKBITS_BLBB1_bp 7 /* Boot Lock Bits - Boot Section bit 1 position. */ #define NVM_LOCKBITS_BLBA_gm 0x30 /* Boot Lock Bits - Application Section group mask. */ #define NVM_LOCKBITS_BLBA_gp 4 /* Boot Lock Bits - Application Section group position. */ #define NVM_LOCKBITS_BLBA0_bm (1<<4) /* Boot Lock Bits - Application Section bit 0 mask. */ #define NVM_LOCKBITS_BLBA0_bp 4 /* Boot Lock Bits - Application Section bit 0 position. */ #define NVM_LOCKBITS_BLBA1_bm (1<<5) /* Boot Lock Bits - Application Section bit 1 mask. */ #define NVM_LOCKBITS_BLBA1_bp 5 /* Boot Lock Bits - Application Section bit 1 position. */ #define NVM_LOCKBITS_BLBAT_gm 0x0C /* Boot Lock Bits - Application Table group mask. */ #define NVM_LOCKBITS_BLBAT_gp 2 /* Boot Lock Bits - Application Table group position. */ #define NVM_LOCKBITS_BLBAT0_bm (1<<2) /* Boot Lock Bits - Application Table bit 0 mask. */ #define NVM_LOCKBITS_BLBAT0_bp 2 /* Boot Lock Bits - Application Table bit 0 position. */ #define NVM_LOCKBITS_BLBAT1_bm (1<<3) /* Boot Lock Bits - Application Table bit 1 mask. */ #define NVM_LOCKBITS_BLBAT1_bp 3 /* Boot Lock Bits - Application Table bit 1 position. */ #define NVM_LOCKBITS_LB_gm 0x03 /* Lock Bits group mask. */ #define NVM_LOCKBITS_LB_gp 0 /* Lock Bits group position. */ #define NVM_LOCKBITS_LB0_bm (1<<0) /* Lock Bits bit 0 mask. */ #define NVM_LOCKBITS_LB0_bp 0 /* Lock Bits bit 0 position. */ #define NVM_LOCKBITS_LB1_bm (1<<1) /* Lock Bits bit 1 mask. */ #define NVM_LOCKBITS_LB1_bp 1 /* Lock Bits bit 1 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 */ /* OSC interrupt vectors */ #define OSC_OSCF_vect_num 1 #define OSC_OSCF_vect _VECTOR(1) /* Oscillator Failure Interrupt (NMI) */ /* PORTC interrupt vectors */ #define PORTC_INT0_vect_num 2 #define PORTC_INT0_vect _VECTOR(2) /* External Interrupt 0 */ #define PORTC_INT1_vect_num 3 #define PORTC_INT1_vect _VECTOR(3) /* External Interrupt 1 */ /* PORTR interrupt vectors */ #define PORTR_INT0_vect_num 4 #define PORTR_INT0_vect _VECTOR(4) /* External Interrupt 0 */ #define PORTR_INT1_vect_num 5 #define PORTR_INT1_vect _VECTOR(5) /* External Interrupt 1 */ /* DMA interrupt vectors */ #define DMA_CH0_vect_num 6 #define DMA_CH0_vect _VECTOR(6) /* Channel 0 Interrupt */ #define DMA_CH1_vect_num 7 #define DMA_CH1_vect _VECTOR(7) /* Channel 1 Interrupt */ #define DMA_CH2_vect_num 8 #define DMA_CH2_vect _VECTOR(8) /* Channel 2 Interrupt */ #define DMA_CH3_vect_num 9 #define DMA_CH3_vect _VECTOR(9) /* Channel 3 Interrupt */ /* RTC interrupt vectors */ #define RTC_OVF_vect_num 10 #define RTC_OVF_vect _VECTOR(10) /* Overflow Interrupt */ #define RTC_COMP_vect_num 11 #define RTC_COMP_vect _VECTOR(11) /* Compare Interrupt */ /* TWIC interrupt vectors */ #define TWIC_TWIS_vect_num 12 #define TWIC_TWIS_vect _VECTOR(12) /* TWI Slave Interrupt */ #define TWIC_TWIM_vect_num 13 #define TWIC_TWIM_vect _VECTOR(13) /* TWI Master Interrupt */ /* TCC0 interrupt vectors */ #define TCC0_OVF_vect_num 14 #define TCC0_OVF_vect _VECTOR(14) /* Overflow Interrupt */ /* TCC2 interrupt vectors */ #define TCC2_LUNF_vect_num 14 #define TCC2_LUNF_vect _VECTOR(14) /* Low Byte Underflow Interrupt */ /* TCC0 interrupt vectors */ #define TCC0_ERR_vect_num 15 #define TCC0_ERR_vect _VECTOR(15) /* Error Interrupt */ /* TCC2 interrupt vectors */ #define TCC2_HUNF_vect_num 15 #define TCC2_HUNF_vect _VECTOR(15) /* High Byte Underflow Interrupt */ /* TCC0 interrupt vectors */ #define TCC0_CCA_vect_num 16 #define TCC0_CCA_vect _VECTOR(16) /* Compare or Capture A Interrupt */ /* TCC2 interrupt vectors */ #define TCC2_LCMPA_vect_num 16 #define TCC2_LCMPA_vect _VECTOR(16) /* Low Byte Compare A Interrupt */ /* TCC0 interrupt vectors */ #define TCC0_CCB_vect_num 17 #define TCC0_CCB_vect _VECTOR(17) /* Compare or Capture B Interrupt */ /* TCC2 interrupt vectors */ #define TCC2_LCMPB_vect_num 17 #define TCC2_LCMPB_vect _VECTOR(17) /* Low Byte Compare B Interrupt */ /* TCC0 interrupt vectors */ #define TCC0_CCC_vect_num 18 #define TCC0_CCC_vect _VECTOR(18) /* Compare or Capture C Interrupt */ /* TCC2 interrupt vectors */ #define TCC2_LCMPC_vect_num 18 #define TCC2_LCMPC_vect _VECTOR(18) /* Low Byte Compare C Interrupt */ /* TCC0 interrupt vectors */ #define TCC0_CCD_vect_num 19 #define TCC0_CCD_vect _VECTOR(19) /* Compare or Capture D Interrupt */ /* TCC2 interrupt vectors */ #define TCC2_LCMPD_vect_num 19 #define TCC2_LCMPD_vect _VECTOR(19) /* Low Byte Compare D Interrupt */ /* TCC1 interrupt vectors */ #define TCC1_OVF_vect_num 20 #define TCC1_OVF_vect _VECTOR(20) /* Overflow Interrupt */ #define TCC1_ERR_vect_num 21 #define TCC1_ERR_vect _VECTOR(21) /* Error Interrupt */ #define TCC1_CCA_vect_num 22 #define TCC1_CCA_vect _VECTOR(22) /* Compare or Capture A Interrupt */ #define TCC1_CCB_vect_num 23 #define TCC1_CCB_vect _VECTOR(23) /* Compare or Capture B Interrupt */ /* SPIC interrupt vectors */ #define SPIC_INT_vect_num 24 #define SPIC_INT_vect _VECTOR(24) /* SPI Interrupt */ /* USARTC0 interrupt vectors */ #define USARTC0_RXC_vect_num 25 #define USARTC0_RXC_vect _VECTOR(25) /* Reception Complete Interrupt */ #define USARTC0_DRE_vect_num 26 #define USARTC0_DRE_vect _VECTOR(26) /* Data Register Empty Interrupt */ #define USARTC0_TXC_vect_num 27 #define USARTC0_TXC_vect _VECTOR(27) /* Transmission Complete Interrupt */ /* USARTC1 interrupt vectors */ #define USARTC1_RXC_vect_num 28 #define USARTC1_RXC_vect _VECTOR(28) /* Reception Complete Interrupt */ #define USARTC1_DRE_vect_num 29 #define USARTC1_DRE_vect _VECTOR(29) /* Data Register Empty Interrupt */ #define USARTC1_TXC_vect_num 30 #define USARTC1_TXC_vect _VECTOR(30) /* Transmission Complete Interrupt */ /* AES interrupt vectors */ #define AES_INT_vect_num 31 #define AES_INT_vect _VECTOR(31) /* AES Interrupt */ /* NVM interrupt vectors */ #define NVM_EE_vect_num 32 #define NVM_EE_vect _VECTOR(32) /* EE Interrupt */ #define NVM_SPM_vect_num 33 #define NVM_SPM_vect _VECTOR(33) /* SPM Interrupt */ /* PORTB interrupt vectors */ #define PORTB_INT0_vect_num 34 #define PORTB_INT0_vect _VECTOR(34) /* External Interrupt 0 */ #define PORTB_INT1_vect_num 35 #define PORTB_INT1_vect _VECTOR(35) /* External Interrupt 1 */ /* PORTE interrupt vectors */ #define PORTE_INT0_vect_num 43 #define PORTE_INT0_vect _VECTOR(43) /* External Interrupt 0 */ #define PORTE_INT1_vect_num 44 #define PORTE_INT1_vect _VECTOR(44) /* External Interrupt 1 */ /* TWIE interrupt vectors */ #define TWIE_TWIS_vect_num 45 #define TWIE_TWIS_vect _VECTOR(45) /* TWI Slave Interrupt */ #define TWIE_TWIM_vect_num 46 #define TWIE_TWIM_vect _VECTOR(46) /* TWI Master Interrupt */ /* TCE0 interrupt vectors */ #define TCE0_OVF_vect_num 47 #define TCE0_OVF_vect _VECTOR(47) /* Overflow Interrupt */ #define TCE0_ERR_vect_num 48 #define TCE0_ERR_vect _VECTOR(48) /* Error Interrupt */ #define TCE0_CCA_vect_num 49 #define TCE0_CCA_vect _VECTOR(49) /* Compare or Capture A Interrupt */ #define TCE0_CCB_vect_num 50 #define TCE0_CCB_vect _VECTOR(50) /* Compare or Capture B Interrupt */ #define TCE0_CCC_vect_num 51 #define TCE0_CCC_vect _VECTOR(51) /* Compare or Capture C Interrupt */ #define TCE0_CCD_vect_num 52 #define TCE0_CCD_vect _VECTOR(52) /* Compare or Capture D Interrupt */ /* USARTE0 interrupt vectors */ #define USARTE0_RXC_vect_num 58 #define USARTE0_RXC_vect _VECTOR(58) /* Reception Complete Interrupt */ #define USARTE0_DRE_vect_num 59 #define USARTE0_DRE_vect _VECTOR(59) /* Data Register Empty Interrupt */ #define USARTE0_TXC_vect_num 60 #define USARTE0_TXC_vect _VECTOR(60) /* Transmission Complete Interrupt */ /* PORTD interrupt vectors */ #define PORTD_INT0_vect_num 64 #define PORTD_INT0_vect _VECTOR(64) /* External Interrupt 0 */ #define PORTD_INT1_vect_num 65 #define PORTD_INT1_vect _VECTOR(65) /* External Interrupt 1 */ /* PORTA interrupt vectors */ #define PORTA_INT0_vect_num 66 #define PORTA_INT0_vect _VECTOR(66) /* External Interrupt 0 */ #define PORTA_INT1_vect_num 67 #define PORTA_INT1_vect _VECTOR(67) /* External Interrupt 1 */ /* ACA interrupt vectors */ #define ACA_AC0_vect_num 68 #define ACA_AC0_vect _VECTOR(68) /* AC0 Interrupt */ #define ACA_AC1_vect_num 69 #define ACA_AC1_vect _VECTOR(69) /* AC1 Interrupt */ #define ACA_ACW_vect_num 70 #define ACA_ACW_vect _VECTOR(70) /* ACW Window Mode Interrupt */ /* ADCA interrupt vectors */ #define ADCA_CH0_vect_num 71 #define ADCA_CH0_vect _VECTOR(71) /* Interrupt 0 */ #define ADCA_CH1_vect_num 72 #define ADCA_CH1_vect _VECTOR(72) /* Interrupt 1 */ #define ADCA_CH2_vect_num 73 #define ADCA_CH2_vect _VECTOR(73) /* Interrupt 2 */ #define ADCA_CH3_vect_num 74 #define ADCA_CH3_vect _VECTOR(74) /* Interrupt 3 */ /* TCD0 interrupt vectors */ #define TCD0_OVF_vect_num 77 #define TCD0_OVF_vect _VECTOR(77) /* Overflow Interrupt */ /* TCD2 interrupt vectors */ #define TCD2_LUNF_vect_num 77 #define TCD2_LUNF_vect _VECTOR(77) /* Low Byte Underflow Interrupt */ /* TCD0 interrupt vectors */ #define TCD0_ERR_vect_num 78 #define TCD0_ERR_vect _VECTOR(78) /* Error Interrupt */ /* TCD2 interrupt vectors */ #define TCD2_HUNF_vect_num 78 #define TCD2_HUNF_vect _VECTOR(78) /* High Byte Underflow Interrupt */ /* TCD0 interrupt vectors */ #define TCD0_CCA_vect_num 79 #define TCD0_CCA_vect _VECTOR(79) /* Compare or Capture A Interrupt */ /* TCD2 interrupt vectors */ #define TCD2_LCMPA_vect_num 79 #define TCD2_LCMPA_vect _VECTOR(79) /* Low Byte Compare A Interrupt */ /* TCD0 interrupt vectors */ #define TCD0_CCB_vect_num 80 #define TCD0_CCB_vect _VECTOR(80) /* Compare or Capture B Interrupt */ /* TCD2 interrupt vectors */ #define TCD2_LCMPB_vect_num 80 #define TCD2_LCMPB_vect _VECTOR(80) /* Low Byte Compare B Interrupt */ /* TCD0 interrupt vectors */ #define TCD0_CCC_vect_num 81 #define TCD0_CCC_vect _VECTOR(81) /* Compare or Capture C Interrupt */ /* TCD2 interrupt vectors */ #define TCD2_LCMPC_vect_num 81 #define TCD2_LCMPC_vect _VECTOR(81) /* Low Byte Compare C Interrupt */ /* TCD0 interrupt vectors */ #define TCD0_CCD_vect_num 82 #define TCD0_CCD_vect _VECTOR(82) /* Compare or Capture D Interrupt */ /* TCD2 interrupt vectors */ #define TCD2_LCMPD_vect_num 82 #define TCD2_LCMPD_vect _VECTOR(82) /* Low Byte Compare D Interrupt */ /* TCD1 interrupt vectors */ #define TCD1_OVF_vect_num 83 #define TCD1_OVF_vect _VECTOR(83) /* Overflow Interrupt */ #define TCD1_ERR_vect_num 84 #define TCD1_ERR_vect _VECTOR(84) /* Error Interrupt */ #define TCD1_CCA_vect_num 85 #define TCD1_CCA_vect _VECTOR(85) /* Compare or Capture A Interrupt */ #define TCD1_CCB_vect_num 86 #define TCD1_CCB_vect _VECTOR(86) /* Compare or Capture B Interrupt */ /* SPID interrupt vectors */ #define SPID_INT_vect_num 87 #define SPID_INT_vect _VECTOR(87) /* SPI Interrupt */ /* USARTD0 interrupt vectors */ #define USARTD0_RXC_vect_num 88 #define USARTD0_RXC_vect _VECTOR(88) /* Reception Complete Interrupt */ #define USARTD0_DRE_vect_num 89 #define USARTD0_DRE_vect _VECTOR(89) /* Data Register Empty Interrupt */ #define USARTD0_TXC_vect_num 90 #define USARTD0_TXC_vect _VECTOR(90) /* Transmission Complete Interrupt */ /* USARTD1 interrupt vectors */ #define USARTD1_RXC_vect_num 91 #define USARTD1_RXC_vect _VECTOR(91) /* Reception Complete Interrupt */ #define USARTD1_DRE_vect_num 92 #define USARTD1_DRE_vect _VECTOR(92) /* Data Register Empty Interrupt */ #define USARTD1_TXC_vect_num 93 #define USARTD1_TXC_vect _VECTOR(93) /* Transmission Complete Interrupt */ /* USB interrupt vectors */ #define USB_BUSEVENT_vect_num 125 #define USB_BUSEVENT_vect _VECTOR(125) /* SOF, suspend, resume, reset bus event interrupts, crc, underflow, overflow and stall error interrupts */ #define USB_TRNCOMPL_vect_num 126 #define USB_TRNCOMPL_vect _VECTOR(126) /* Transaction complete interrupt */ #define _VECTOR_SIZE 4 /* Size of individual vector. */ #define _VECTORS_SIZE (127 * _VECTOR_SIZE) /* ========== Constants ========== */ #define PROGMEM_START (0x0000) #define PROGMEM_SIZE (20480) #define PROGMEM_END (PROGMEM_START + PROGMEM_SIZE - 1) #define APP_SECTION_START (0x0000) #define APP_SECTION_SIZE (16384) #define APP_SECTION_PAGE_SIZE (256) #define APP_SECTION_END (APP_SECTION_START + APP_SECTION_SIZE - 1) #define APPTABLE_SECTION_START (0x3000) #define APPTABLE_SECTION_SIZE (4096) #define APPTABLE_SECTION_PAGE_SIZE (256) #define APPTABLE_SECTION_END (APPTABLE_SECTION_START + APPTABLE_SECTION_SIZE - 1) #define BOOT_SECTION_START (0x4000) #define BOOT_SECTION_SIZE (4096) #define BOOT_SECTION_PAGE_SIZE (256) #define BOOT_SECTION_END (BOOT_SECTION_START + BOOT_SECTION_SIZE - 1) #define DATAMEM_START (0x0000) #define DATAMEM_SIZE (10240) #define DATAMEM_END (DATAMEM_START + DATAMEM_SIZE - 1) #define IO_START (0x0000) #define IO_SIZE (4096) #define IO_PAGE_SIZE (0) #define IO_END (IO_START + IO_SIZE - 1) #define MAPPED_EEPROM_START (0x1000) #define MAPPED_EEPROM_SIZE (1024) #define MAPPED_EEPROM_PAGE_SIZE (0) #define MAPPED_EEPROM_END (MAPPED_EEPROM_START + MAPPED_EEPROM_SIZE - 1) #define INTERNAL_SRAM_START (0x2000) #define INTERNAL_SRAM_SIZE (2048) #define INTERNAL_SRAM_PAGE_SIZE (0) #define INTERNAL_SRAM_END (INTERNAL_SRAM_START + INTERNAL_SRAM_SIZE - 1) #define EEPROM_START (0x0000) #define EEPROM_SIZE (1024) #define EEPROM_PAGE_SIZE (32) #define EEPROM_END (EEPROM_START + EEPROM_SIZE - 1) #define SIGNATURES_START (0x0000) #define SIGNATURES_SIZE (3) #define SIGNATURES_PAGE_SIZE (0) #define SIGNATURES_END (SIGNATURES_START + SIGNATURES_SIZE - 1) #define FUSES_START (0x0000) #define FUSES_SIZE (6) #define FUSES_PAGE_SIZE (0) #define FUSES_END (FUSES_START + FUSES_SIZE - 1) #define LOCKBITS_START (0x0000) #define LOCKBITS_SIZE (1) #define LOCKBITS_PAGE_SIZE (0) #define LOCKBITS_END (LOCKBITS_START + LOCKBITS_SIZE - 1) #define USER_SIGNATURES_START (0x0000) #define USER_SIGNATURES_SIZE (256) #define USER_SIGNATURES_PAGE_SIZE (256) #define USER_SIGNATURES_END (USER_SIGNATURES_START + USER_SIGNATURES_SIZE - 1) #define PROD_SIGNATURES_START (0x0000) #define PROD_SIGNATURES_SIZE (52) #define PROD_SIGNATURES_PAGE_SIZE (256) #define PROD_SIGNATURES_END (PROD_SIGNATURES_START + PROD_SIGNATURES_SIZE - 1) #define FLASHSTART PROGMEM_START #define FLASHEND PROGMEM_END #define SPM_PAGESIZE 256 #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 6 /* Fuse Byte 0 Reserved */ /* Fuse Byte 1 */ #define FUSE_WDP0 (unsigned char)~_BV(0) /* Watchdog Timeout Period Bit 0 */ #define FUSE_WDP1 (unsigned char)~_BV(1) /* Watchdog Timeout Period Bit 1 */ #define FUSE_WDP2 (unsigned char)~_BV(2) /* Watchdog Timeout Period Bit 2 */ #define FUSE_WDP3 (unsigned char)~_BV(3) /* Watchdog Timeout Period Bit 3 */ #define FUSE_WDWP0 (unsigned char)~_BV(4) /* Watchdog Window Timeout Period Bit 0 */ #define FUSE_WDWP1 (unsigned char)~_BV(5) /* Watchdog Window Timeout Period Bit 1 */ #define FUSE_WDWP2 (unsigned char)~_BV(6) /* Watchdog Window Timeout Period Bit 2 */ #define FUSE_WDWP3 (unsigned char)~_BV(7) /* Watchdog Window Timeout Period Bit 3 */ #define FUSE1_DEFAULT (0xFF) /* Fuse Byte 2 */ #define FUSE_BODPD0 (unsigned char)~_BV(0) /* BOD Operation in Power-Down Mode Bit 0 */ #define FUSE_BODPD1 (unsigned char)~_BV(1) /* BOD Operation in Power-Down Mode Bit 1 */ #define FUSE_TOSCSEL (unsigned char)~_BV(5) /* Timer Oscillator pin location */ #define FUSE_BOOTRST (unsigned char)~_BV(6) /* Boot Loader Section Reset Vector */ #define FUSE2_DEFAULT (0xFF) /* Fuse Byte 3 Reserved */ /* Fuse Byte 4 */ #define FUSE_WDLOCK (unsigned char)~_BV(1) /* Watchdog Timer Lock */ #define FUSE_SUT0 (unsigned char)~_BV(2) /* Start-up Time Bit 0 */ #define FUSE_SUT1 (unsigned char)~_BV(3) /* Start-up Time Bit 1 */ #define FUSE_RSTDISBL (unsigned char)~_BV(4) /* External Reset Disable */ #define FUSE4_DEFAULT (0xFF) /* Fuse Byte 5 */ #define FUSE_BODLVL0 (unsigned char)~_BV(0) /* Brownout Detection Voltage Level Bit 0 */ #define FUSE_BODLVL1 (unsigned char)~_BV(1) /* Brownout Detection Voltage Level Bit 1 */ #define FUSE_BODLVL2 (unsigned char)~_BV(2) /* Brownout Detection Voltage Level Bit 2 */ #define FUSE_EESAVE (unsigned char)~_BV(3) /* Preserve EEPROM Through Chip Erase */ #define FUSE_BODACT0 (unsigned char)~_BV(4) /* BOD Operation in Active Mode Bit 0 */ #define FUSE_BODACT1 (unsigned char)~_BV(5) /* BOD Operation in Active Mode Bit 1 */ #define FUSE5_DEFAULT (0xFF) /* ========== Lock Bits ========== */ #define __LOCK_BITS_EXIST #define __BOOT_LOCK_APPLICATION_TABLE_BITS_EXIST #define __BOOT_LOCK_APPLICATION_BITS_EXIST #define __BOOT_LOCK_BOOT_BITS_EXIST /* ========== Signature ========== */ #define SIGNATURE_0 0x1E #define SIGNATURE_1 0x94 #define SIGNATURE_2 0x41 /* ========== Power Reduction Condition Definitions ========== */ /* PR.PRGEN */ #define __AVR_HAVE_PRGEN (PR_USB_bm|PR_AES_bm|PR_EBI_bm|PR_RTC_bm|PR_EVSYS_bm|PR_DMA_bm) #define __AVR_HAVE_PRGEN_USB #define __AVR_HAVE_PRGEN_AES #define __AVR_HAVE_PRGEN_EBI #define __AVR_HAVE_PRGEN_RTC #define __AVR_HAVE_PRGEN_EVSYS #define __AVR_HAVE_PRGEN_DMA /* PR.PRPA */ #define __AVR_HAVE_PRPA (PR_DAC_bm|PR_ADC_bm|PR_AC_bm) #define __AVR_HAVE_PRPA_DAC #define __AVR_HAVE_PRPA_ADC #define __AVR_HAVE_PRPA_AC /* PR.PRPB */ #define __AVR_HAVE_PRPB (PR_DAC_bm|PR_ADC_bm|PR_AC_bm) #define __AVR_HAVE_PRPB_DAC #define __AVR_HAVE_PRPB_ADC #define __AVR_HAVE_PRPB_AC /* PR.PRPC */ #define __AVR_HAVE_PRPC (PR_TWI_bm|PR_USART1_bm|PR_USART0_bm|PR_SPI_bm|PR_HIRES_bm|PR_TC1_bm|PR_TC0_bm) #define __AVR_HAVE_PRPC_TWI #define __AVR_HAVE_PRPC_USART1 #define __AVR_HAVE_PRPC_USART0 #define __AVR_HAVE_PRPC_SPI #define __AVR_HAVE_PRPC_HIRES #define __AVR_HAVE_PRPC_TC1 #define __AVR_HAVE_PRPC_TC0 /* PR.PRPD */ #define __AVR_HAVE_PRPD (PR_TWI_bm|PR_USART1_bm|PR_USART0_bm|PR_SPI_bm|PR_HIRES_bm|PR_TC1_bm|PR_TC0_bm) #define __AVR_HAVE_PRPD_TWI #define __AVR_HAVE_PRPD_USART1 #define __AVR_HAVE_PRPD_USART0 #define __AVR_HAVE_PRPD_SPI #define __AVR_HAVE_PRPD_HIRES #define __AVR_HAVE_PRPD_TC1 #define __AVR_HAVE_PRPD_TC0 /* PR.PRPE */ #define __AVR_HAVE_PRPE (PR_TWI_bm|PR_USART1_bm|PR_USART0_bm|PR_SPI_bm|PR_HIRES_bm|PR_TC1_bm|PR_TC0_bm) #define __AVR_HAVE_PRPE_TWI #define __AVR_HAVE_PRPE_USART1 #define __AVR_HAVE_PRPE_USART0 #define __AVR_HAVE_PRPE_SPI #define __AVR_HAVE_PRPE_HIRES #define __AVR_HAVE_PRPE_TC1 #define __AVR_HAVE_PRPE_TC0 /* PR.PRPF */ #define __AVR_HAVE_PRPF (PR_TWI_bm|PR_USART1_bm|PR_USART0_bm|PR_SPI_bm|PR_HIRES_bm|PR_TC1_bm|PR_TC0_bm) #define __AVR_HAVE_PRPF_TWI #define __AVR_HAVE_PRPF_USART1 #define __AVR_HAVE_PRPF_USART0 #define __AVR_HAVE_PRPF_SPI #define __AVR_HAVE_PRPF_HIRES #define __AVR_HAVE_PRPF_TC1 #define __AVR_HAVE_PRPF_TC0 #endif /* #ifdef _AVR_ATXMEGA16A4U_H_INCLUDED */