klipper/lib/samd51/samd51a/include/component/rtc.h

2099 lines
170 KiB
C

/**
* \file
*
* \brief Component description for RTC
*
* Copyright (c) 2018 Microchip Technology Inc.
*
* \asf_license_start
*
* \page License
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the Licence at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* \asf_license_stop
*
*/
#ifndef _SAMD51_RTC_COMPONENT_
#define _SAMD51_RTC_COMPONENT_
/* ========================================================================== */
/** SOFTWARE API DEFINITION FOR RTC */
/* ========================================================================== */
/** \addtogroup SAMD51_RTC Real-Time Counter */
/*@{*/
#define RTC_U2250
#define REV_RTC 0x210
/* -------- RTC_MODE0_CTRLA : (RTC Offset: 0x00) (R/W 16) MODE0 MODE0 Control A -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t SWRST:1; /*!< bit: 0 Software Reset */
uint16_t ENABLE:1; /*!< bit: 1 Enable */
uint16_t MODE:2; /*!< bit: 2.. 3 Operating Mode */
uint16_t :3; /*!< bit: 4.. 6 Reserved */
uint16_t MATCHCLR:1; /*!< bit: 7 Clear on Match */
uint16_t PRESCALER:4; /*!< bit: 8..11 Prescaler */
uint16_t :1; /*!< bit: 12 Reserved */
uint16_t BKTRST:1; /*!< bit: 13 BKUP Registers Reset On Tamper Enable */
uint16_t GPTRST:1; /*!< bit: 14 GP Registers Reset On Tamper Enable */
uint16_t COUNTSYNC:1; /*!< bit: 15 Count Read Synchronization Enable */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE0_CTRLA_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_CTRLA_OFFSET 0x00 /**< \brief (RTC_MODE0_CTRLA offset) MODE0 Control A */
#define RTC_MODE0_CTRLA_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE0_CTRLA reset_value) MODE0 Control A */
#define RTC_MODE0_CTRLA_SWRST_Pos 0 /**< \brief (RTC_MODE0_CTRLA) Software Reset */
#define RTC_MODE0_CTRLA_SWRST (_U_(0x1) << RTC_MODE0_CTRLA_SWRST_Pos)
#define RTC_MODE0_CTRLA_ENABLE_Pos 1 /**< \brief (RTC_MODE0_CTRLA) Enable */
#define RTC_MODE0_CTRLA_ENABLE (_U_(0x1) << RTC_MODE0_CTRLA_ENABLE_Pos)
#define RTC_MODE0_CTRLA_MODE_Pos 2 /**< \brief (RTC_MODE0_CTRLA) Operating Mode */
#define RTC_MODE0_CTRLA_MODE_Msk (_U_(0x3) << RTC_MODE0_CTRLA_MODE_Pos)
#define RTC_MODE0_CTRLA_MODE(value) (RTC_MODE0_CTRLA_MODE_Msk & ((value) << RTC_MODE0_CTRLA_MODE_Pos))
#define RTC_MODE0_CTRLA_MODE_COUNT32_Val _U_(0x0) /**< \brief (RTC_MODE0_CTRLA) Mode 0: 32-bit Counter */
#define RTC_MODE0_CTRLA_MODE_COUNT16_Val _U_(0x1) /**< \brief (RTC_MODE0_CTRLA) Mode 1: 16-bit Counter */
#define RTC_MODE0_CTRLA_MODE_CLOCK_Val _U_(0x2) /**< \brief (RTC_MODE0_CTRLA) Mode 2: Clock/Calendar */
#define RTC_MODE0_CTRLA_MODE_COUNT32 (RTC_MODE0_CTRLA_MODE_COUNT32_Val << RTC_MODE0_CTRLA_MODE_Pos)
#define RTC_MODE0_CTRLA_MODE_COUNT16 (RTC_MODE0_CTRLA_MODE_COUNT16_Val << RTC_MODE0_CTRLA_MODE_Pos)
#define RTC_MODE0_CTRLA_MODE_CLOCK (RTC_MODE0_CTRLA_MODE_CLOCK_Val << RTC_MODE0_CTRLA_MODE_Pos)
#define RTC_MODE0_CTRLA_MATCHCLR_Pos 7 /**< \brief (RTC_MODE0_CTRLA) Clear on Match */
#define RTC_MODE0_CTRLA_MATCHCLR (_U_(0x1) << RTC_MODE0_CTRLA_MATCHCLR_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_Pos 8 /**< \brief (RTC_MODE0_CTRLA) Prescaler */
#define RTC_MODE0_CTRLA_PRESCALER_Msk (_U_(0xF) << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER(value) (RTC_MODE0_CTRLA_PRESCALER_Msk & ((value) << RTC_MODE0_CTRLA_PRESCALER_Pos))
#define RTC_MODE0_CTRLA_PRESCALER_OFF_Val _U_(0x0) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV1_Val _U_(0x1) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV2_Val _U_(0x2) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/2 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV4_Val _U_(0x3) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/4 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV8_Val _U_(0x4) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/8 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV16_Val _U_(0x5) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/16 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV32_Val _U_(0x6) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/32 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV64_Val _U_(0x7) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/64 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV128_Val _U_(0x8) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/128 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV256_Val _U_(0x9) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/256 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV512_Val _U_(0xA) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/512 */
#define RTC_MODE0_CTRLA_PRESCALER_DIV1024_Val _U_(0xB) /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/1024 */
#define RTC_MODE0_CTRLA_PRESCALER_OFF (RTC_MODE0_CTRLA_PRESCALER_OFF_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV1 (RTC_MODE0_CTRLA_PRESCALER_DIV1_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV2 (RTC_MODE0_CTRLA_PRESCALER_DIV2_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV4 (RTC_MODE0_CTRLA_PRESCALER_DIV4_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV8 (RTC_MODE0_CTRLA_PRESCALER_DIV8_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV16 (RTC_MODE0_CTRLA_PRESCALER_DIV16_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV32 (RTC_MODE0_CTRLA_PRESCALER_DIV32_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV64 (RTC_MODE0_CTRLA_PRESCALER_DIV64_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV128 (RTC_MODE0_CTRLA_PRESCALER_DIV128_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV256 (RTC_MODE0_CTRLA_PRESCALER_DIV256_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV512 (RTC_MODE0_CTRLA_PRESCALER_DIV512_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_PRESCALER_DIV1024 (RTC_MODE0_CTRLA_PRESCALER_DIV1024_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
#define RTC_MODE0_CTRLA_BKTRST_Pos 13 /**< \brief (RTC_MODE0_CTRLA) BKUP Registers Reset On Tamper Enable */
#define RTC_MODE0_CTRLA_BKTRST (_U_(0x1) << RTC_MODE0_CTRLA_BKTRST_Pos)
#define RTC_MODE0_CTRLA_GPTRST_Pos 14 /**< \brief (RTC_MODE0_CTRLA) GP Registers Reset On Tamper Enable */
#define RTC_MODE0_CTRLA_GPTRST (_U_(0x1) << RTC_MODE0_CTRLA_GPTRST_Pos)
#define RTC_MODE0_CTRLA_COUNTSYNC_Pos 15 /**< \brief (RTC_MODE0_CTRLA) Count Read Synchronization Enable */
#define RTC_MODE0_CTRLA_COUNTSYNC (_U_(0x1) << RTC_MODE0_CTRLA_COUNTSYNC_Pos)
#define RTC_MODE0_CTRLA_MASK _U_(0xEF8F) /**< \brief (RTC_MODE0_CTRLA) MASK Register */
/* -------- RTC_MODE1_CTRLA : (RTC Offset: 0x00) (R/W 16) MODE1 MODE1 Control A -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t SWRST:1; /*!< bit: 0 Software Reset */
uint16_t ENABLE:1; /*!< bit: 1 Enable */
uint16_t MODE:2; /*!< bit: 2.. 3 Operating Mode */
uint16_t :4; /*!< bit: 4.. 7 Reserved */
uint16_t PRESCALER:4; /*!< bit: 8..11 Prescaler */
uint16_t :1; /*!< bit: 12 Reserved */
uint16_t BKTRST:1; /*!< bit: 13 BKUP Registers Reset On Tamper Enable */
uint16_t GPTRST:1; /*!< bit: 14 GP Registers Reset On Tamper Enable */
uint16_t COUNTSYNC:1; /*!< bit: 15 Count Read Synchronization Enable */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_CTRLA_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_CTRLA_OFFSET 0x00 /**< \brief (RTC_MODE1_CTRLA offset) MODE1 Control A */
#define RTC_MODE1_CTRLA_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_CTRLA reset_value) MODE1 Control A */
#define RTC_MODE1_CTRLA_SWRST_Pos 0 /**< \brief (RTC_MODE1_CTRLA) Software Reset */
#define RTC_MODE1_CTRLA_SWRST (_U_(0x1) << RTC_MODE1_CTRLA_SWRST_Pos)
#define RTC_MODE1_CTRLA_ENABLE_Pos 1 /**< \brief (RTC_MODE1_CTRLA) Enable */
#define RTC_MODE1_CTRLA_ENABLE (_U_(0x1) << RTC_MODE1_CTRLA_ENABLE_Pos)
#define RTC_MODE1_CTRLA_MODE_Pos 2 /**< \brief (RTC_MODE1_CTRLA) Operating Mode */
#define RTC_MODE1_CTRLA_MODE_Msk (_U_(0x3) << RTC_MODE1_CTRLA_MODE_Pos)
#define RTC_MODE1_CTRLA_MODE(value) (RTC_MODE1_CTRLA_MODE_Msk & ((value) << RTC_MODE1_CTRLA_MODE_Pos))
#define RTC_MODE1_CTRLA_MODE_COUNT32_Val _U_(0x0) /**< \brief (RTC_MODE1_CTRLA) Mode 0: 32-bit Counter */
#define RTC_MODE1_CTRLA_MODE_COUNT16_Val _U_(0x1) /**< \brief (RTC_MODE1_CTRLA) Mode 1: 16-bit Counter */
#define RTC_MODE1_CTRLA_MODE_CLOCK_Val _U_(0x2) /**< \brief (RTC_MODE1_CTRLA) Mode 2: Clock/Calendar */
#define RTC_MODE1_CTRLA_MODE_COUNT32 (RTC_MODE1_CTRLA_MODE_COUNT32_Val << RTC_MODE1_CTRLA_MODE_Pos)
#define RTC_MODE1_CTRLA_MODE_COUNT16 (RTC_MODE1_CTRLA_MODE_COUNT16_Val << RTC_MODE1_CTRLA_MODE_Pos)
#define RTC_MODE1_CTRLA_MODE_CLOCK (RTC_MODE1_CTRLA_MODE_CLOCK_Val << RTC_MODE1_CTRLA_MODE_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_Pos 8 /**< \brief (RTC_MODE1_CTRLA) Prescaler */
#define RTC_MODE1_CTRLA_PRESCALER_Msk (_U_(0xF) << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER(value) (RTC_MODE1_CTRLA_PRESCALER_Msk & ((value) << RTC_MODE1_CTRLA_PRESCALER_Pos))
#define RTC_MODE1_CTRLA_PRESCALER_OFF_Val _U_(0x0) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV1_Val _U_(0x1) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV2_Val _U_(0x2) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/2 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV4_Val _U_(0x3) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/4 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV8_Val _U_(0x4) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/8 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV16_Val _U_(0x5) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/16 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV32_Val _U_(0x6) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/32 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV64_Val _U_(0x7) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/64 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV128_Val _U_(0x8) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/128 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV256_Val _U_(0x9) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/256 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV512_Val _U_(0xA) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/512 */
#define RTC_MODE1_CTRLA_PRESCALER_DIV1024_Val _U_(0xB) /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/1024 */
#define RTC_MODE1_CTRLA_PRESCALER_OFF (RTC_MODE1_CTRLA_PRESCALER_OFF_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV1 (RTC_MODE1_CTRLA_PRESCALER_DIV1_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV2 (RTC_MODE1_CTRLA_PRESCALER_DIV2_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV4 (RTC_MODE1_CTRLA_PRESCALER_DIV4_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV8 (RTC_MODE1_CTRLA_PRESCALER_DIV8_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV16 (RTC_MODE1_CTRLA_PRESCALER_DIV16_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV32 (RTC_MODE1_CTRLA_PRESCALER_DIV32_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV64 (RTC_MODE1_CTRLA_PRESCALER_DIV64_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV128 (RTC_MODE1_CTRLA_PRESCALER_DIV128_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV256 (RTC_MODE1_CTRLA_PRESCALER_DIV256_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV512 (RTC_MODE1_CTRLA_PRESCALER_DIV512_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_PRESCALER_DIV1024 (RTC_MODE1_CTRLA_PRESCALER_DIV1024_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
#define RTC_MODE1_CTRLA_BKTRST_Pos 13 /**< \brief (RTC_MODE1_CTRLA) BKUP Registers Reset On Tamper Enable */
#define RTC_MODE1_CTRLA_BKTRST (_U_(0x1) << RTC_MODE1_CTRLA_BKTRST_Pos)
#define RTC_MODE1_CTRLA_GPTRST_Pos 14 /**< \brief (RTC_MODE1_CTRLA) GP Registers Reset On Tamper Enable */
#define RTC_MODE1_CTRLA_GPTRST (_U_(0x1) << RTC_MODE1_CTRLA_GPTRST_Pos)
#define RTC_MODE1_CTRLA_COUNTSYNC_Pos 15 /**< \brief (RTC_MODE1_CTRLA) Count Read Synchronization Enable */
#define RTC_MODE1_CTRLA_COUNTSYNC (_U_(0x1) << RTC_MODE1_CTRLA_COUNTSYNC_Pos)
#define RTC_MODE1_CTRLA_MASK _U_(0xEF0F) /**< \brief (RTC_MODE1_CTRLA) MASK Register */
/* -------- RTC_MODE2_CTRLA : (RTC Offset: 0x00) (R/W 16) MODE2 MODE2 Control A -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t SWRST:1; /*!< bit: 0 Software Reset */
uint16_t ENABLE:1; /*!< bit: 1 Enable */
uint16_t MODE:2; /*!< bit: 2.. 3 Operating Mode */
uint16_t :2; /*!< bit: 4.. 5 Reserved */
uint16_t CLKREP:1; /*!< bit: 6 Clock Representation */
uint16_t MATCHCLR:1; /*!< bit: 7 Clear on Match */
uint16_t PRESCALER:4; /*!< bit: 8..11 Prescaler */
uint16_t :1; /*!< bit: 12 Reserved */
uint16_t BKTRST:1; /*!< bit: 13 BKUP Registers Reset On Tamper Enable */
uint16_t GPTRST:1; /*!< bit: 14 GP Registers Reset On Tamper Enable */
uint16_t CLOCKSYNC:1; /*!< bit: 15 Clock Read Synchronization Enable */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE2_CTRLA_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_CTRLA_OFFSET 0x00 /**< \brief (RTC_MODE2_CTRLA offset) MODE2 Control A */
#define RTC_MODE2_CTRLA_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE2_CTRLA reset_value) MODE2 Control A */
#define RTC_MODE2_CTRLA_SWRST_Pos 0 /**< \brief (RTC_MODE2_CTRLA) Software Reset */
#define RTC_MODE2_CTRLA_SWRST (_U_(0x1) << RTC_MODE2_CTRLA_SWRST_Pos)
#define RTC_MODE2_CTRLA_ENABLE_Pos 1 /**< \brief (RTC_MODE2_CTRLA) Enable */
#define RTC_MODE2_CTRLA_ENABLE (_U_(0x1) << RTC_MODE2_CTRLA_ENABLE_Pos)
#define RTC_MODE2_CTRLA_MODE_Pos 2 /**< \brief (RTC_MODE2_CTRLA) Operating Mode */
#define RTC_MODE2_CTRLA_MODE_Msk (_U_(0x3) << RTC_MODE2_CTRLA_MODE_Pos)
#define RTC_MODE2_CTRLA_MODE(value) (RTC_MODE2_CTRLA_MODE_Msk & ((value) << RTC_MODE2_CTRLA_MODE_Pos))
#define RTC_MODE2_CTRLA_MODE_COUNT32_Val _U_(0x0) /**< \brief (RTC_MODE2_CTRLA) Mode 0: 32-bit Counter */
#define RTC_MODE2_CTRLA_MODE_COUNT16_Val _U_(0x1) /**< \brief (RTC_MODE2_CTRLA) Mode 1: 16-bit Counter */
#define RTC_MODE2_CTRLA_MODE_CLOCK_Val _U_(0x2) /**< \brief (RTC_MODE2_CTRLA) Mode 2: Clock/Calendar */
#define RTC_MODE2_CTRLA_MODE_COUNT32 (RTC_MODE2_CTRLA_MODE_COUNT32_Val << RTC_MODE2_CTRLA_MODE_Pos)
#define RTC_MODE2_CTRLA_MODE_COUNT16 (RTC_MODE2_CTRLA_MODE_COUNT16_Val << RTC_MODE2_CTRLA_MODE_Pos)
#define RTC_MODE2_CTRLA_MODE_CLOCK (RTC_MODE2_CTRLA_MODE_CLOCK_Val << RTC_MODE2_CTRLA_MODE_Pos)
#define RTC_MODE2_CTRLA_CLKREP_Pos 6 /**< \brief (RTC_MODE2_CTRLA) Clock Representation */
#define RTC_MODE2_CTRLA_CLKREP (_U_(0x1) << RTC_MODE2_CTRLA_CLKREP_Pos)
#define RTC_MODE2_CTRLA_MATCHCLR_Pos 7 /**< \brief (RTC_MODE2_CTRLA) Clear on Match */
#define RTC_MODE2_CTRLA_MATCHCLR (_U_(0x1) << RTC_MODE2_CTRLA_MATCHCLR_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_Pos 8 /**< \brief (RTC_MODE2_CTRLA) Prescaler */
#define RTC_MODE2_CTRLA_PRESCALER_Msk (_U_(0xF) << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER(value) (RTC_MODE2_CTRLA_PRESCALER_Msk & ((value) << RTC_MODE2_CTRLA_PRESCALER_Pos))
#define RTC_MODE2_CTRLA_PRESCALER_OFF_Val _U_(0x0) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV1_Val _U_(0x1) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV2_Val _U_(0x2) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/2 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV4_Val _U_(0x3) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/4 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV8_Val _U_(0x4) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/8 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV16_Val _U_(0x5) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/16 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV32_Val _U_(0x6) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/32 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV64_Val _U_(0x7) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/64 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV128_Val _U_(0x8) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/128 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV256_Val _U_(0x9) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/256 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV512_Val _U_(0xA) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/512 */
#define RTC_MODE2_CTRLA_PRESCALER_DIV1024_Val _U_(0xB) /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/1024 */
#define RTC_MODE2_CTRLA_PRESCALER_OFF (RTC_MODE2_CTRLA_PRESCALER_OFF_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV1 (RTC_MODE2_CTRLA_PRESCALER_DIV1_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV2 (RTC_MODE2_CTRLA_PRESCALER_DIV2_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV4 (RTC_MODE2_CTRLA_PRESCALER_DIV4_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV8 (RTC_MODE2_CTRLA_PRESCALER_DIV8_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV16 (RTC_MODE2_CTRLA_PRESCALER_DIV16_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV32 (RTC_MODE2_CTRLA_PRESCALER_DIV32_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV64 (RTC_MODE2_CTRLA_PRESCALER_DIV64_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV128 (RTC_MODE2_CTRLA_PRESCALER_DIV128_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV256 (RTC_MODE2_CTRLA_PRESCALER_DIV256_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV512 (RTC_MODE2_CTRLA_PRESCALER_DIV512_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_PRESCALER_DIV1024 (RTC_MODE2_CTRLA_PRESCALER_DIV1024_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
#define RTC_MODE2_CTRLA_BKTRST_Pos 13 /**< \brief (RTC_MODE2_CTRLA) BKUP Registers Reset On Tamper Enable */
#define RTC_MODE2_CTRLA_BKTRST (_U_(0x1) << RTC_MODE2_CTRLA_BKTRST_Pos)
#define RTC_MODE2_CTRLA_GPTRST_Pos 14 /**< \brief (RTC_MODE2_CTRLA) GP Registers Reset On Tamper Enable */
#define RTC_MODE2_CTRLA_GPTRST (_U_(0x1) << RTC_MODE2_CTRLA_GPTRST_Pos)
#define RTC_MODE2_CTRLA_CLOCKSYNC_Pos 15 /**< \brief (RTC_MODE2_CTRLA) Clock Read Synchronization Enable */
#define RTC_MODE2_CTRLA_CLOCKSYNC (_U_(0x1) << RTC_MODE2_CTRLA_CLOCKSYNC_Pos)
#define RTC_MODE2_CTRLA_MASK _U_(0xEFCF) /**< \brief (RTC_MODE2_CTRLA) MASK Register */
/* -------- RTC_MODE0_CTRLB : (RTC Offset: 0x02) (R/W 16) MODE0 MODE0 Control B -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t GP0EN:1; /*!< bit: 0 General Purpose 0 Enable */
uint16_t GP2EN:1; /*!< bit: 1 General Purpose 2 Enable */
uint16_t :2; /*!< bit: 2.. 3 Reserved */
uint16_t DEBMAJ:1; /*!< bit: 4 Debouncer Majority Enable */
uint16_t DEBASYNC:1; /*!< bit: 5 Debouncer Asynchronous Enable */
uint16_t RTCOUT:1; /*!< bit: 6 RTC Output Enable */
uint16_t DMAEN:1; /*!< bit: 7 DMA Enable */
uint16_t DEBF:3; /*!< bit: 8..10 Debounce Freqnuency */
uint16_t :1; /*!< bit: 11 Reserved */
uint16_t ACTF:3; /*!< bit: 12..14 Active Layer Freqnuency */
uint16_t :1; /*!< bit: 15 Reserved */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE0_CTRLB_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_CTRLB_OFFSET 0x02 /**< \brief (RTC_MODE0_CTRLB offset) MODE0 Control B */
#define RTC_MODE0_CTRLB_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE0_CTRLB reset_value) MODE0 Control B */
#define RTC_MODE0_CTRLB_GP0EN_Pos 0 /**< \brief (RTC_MODE0_CTRLB) General Purpose 0 Enable */
#define RTC_MODE0_CTRLB_GP0EN (_U_(0x1) << RTC_MODE0_CTRLB_GP0EN_Pos)
#define RTC_MODE0_CTRLB_GP2EN_Pos 1 /**< \brief (RTC_MODE0_CTRLB) General Purpose 2 Enable */
#define RTC_MODE0_CTRLB_GP2EN (_U_(0x1) << RTC_MODE0_CTRLB_GP2EN_Pos)
#define RTC_MODE0_CTRLB_DEBMAJ_Pos 4 /**< \brief (RTC_MODE0_CTRLB) Debouncer Majority Enable */
#define RTC_MODE0_CTRLB_DEBMAJ (_U_(0x1) << RTC_MODE0_CTRLB_DEBMAJ_Pos)
#define RTC_MODE0_CTRLB_DEBASYNC_Pos 5 /**< \brief (RTC_MODE0_CTRLB) Debouncer Asynchronous Enable */
#define RTC_MODE0_CTRLB_DEBASYNC (_U_(0x1) << RTC_MODE0_CTRLB_DEBASYNC_Pos)
#define RTC_MODE0_CTRLB_RTCOUT_Pos 6 /**< \brief (RTC_MODE0_CTRLB) RTC Output Enable */
#define RTC_MODE0_CTRLB_RTCOUT (_U_(0x1) << RTC_MODE0_CTRLB_RTCOUT_Pos)
#define RTC_MODE0_CTRLB_DMAEN_Pos 7 /**< \brief (RTC_MODE0_CTRLB) DMA Enable */
#define RTC_MODE0_CTRLB_DMAEN (_U_(0x1) << RTC_MODE0_CTRLB_DMAEN_Pos)
#define RTC_MODE0_CTRLB_DEBF_Pos 8 /**< \brief (RTC_MODE0_CTRLB) Debounce Freqnuency */
#define RTC_MODE0_CTRLB_DEBF_Msk (_U_(0x7) << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF(value) (RTC_MODE0_CTRLB_DEBF_Msk & ((value) << RTC_MODE0_CTRLB_DEBF_Pos))
#define RTC_MODE0_CTRLB_DEBF_DIV2_Val _U_(0x0) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/2 */
#define RTC_MODE0_CTRLB_DEBF_DIV4_Val _U_(0x1) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/4 */
#define RTC_MODE0_CTRLB_DEBF_DIV8_Val _U_(0x2) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/8 */
#define RTC_MODE0_CTRLB_DEBF_DIV16_Val _U_(0x3) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/16 */
#define RTC_MODE0_CTRLB_DEBF_DIV32_Val _U_(0x4) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/32 */
#define RTC_MODE0_CTRLB_DEBF_DIV64_Val _U_(0x5) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/64 */
#define RTC_MODE0_CTRLB_DEBF_DIV128_Val _U_(0x6) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/128 */
#define RTC_MODE0_CTRLB_DEBF_DIV256_Val _U_(0x7) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/256 */
#define RTC_MODE0_CTRLB_DEBF_DIV2 (RTC_MODE0_CTRLB_DEBF_DIV2_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV4 (RTC_MODE0_CTRLB_DEBF_DIV4_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV8 (RTC_MODE0_CTRLB_DEBF_DIV8_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV16 (RTC_MODE0_CTRLB_DEBF_DIV16_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV32 (RTC_MODE0_CTRLB_DEBF_DIV32_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV64 (RTC_MODE0_CTRLB_DEBF_DIV64_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV128 (RTC_MODE0_CTRLB_DEBF_DIV128_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_DEBF_DIV256 (RTC_MODE0_CTRLB_DEBF_DIV256_Val << RTC_MODE0_CTRLB_DEBF_Pos)
#define RTC_MODE0_CTRLB_ACTF_Pos 12 /**< \brief (RTC_MODE0_CTRLB) Active Layer Freqnuency */
#define RTC_MODE0_CTRLB_ACTF_Msk (_U_(0x7) << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF(value) (RTC_MODE0_CTRLB_ACTF_Msk & ((value) << RTC_MODE0_CTRLB_ACTF_Pos))
#define RTC_MODE0_CTRLB_ACTF_DIV2_Val _U_(0x0) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/2 */
#define RTC_MODE0_CTRLB_ACTF_DIV4_Val _U_(0x1) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/4 */
#define RTC_MODE0_CTRLB_ACTF_DIV8_Val _U_(0x2) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/8 */
#define RTC_MODE0_CTRLB_ACTF_DIV16_Val _U_(0x3) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/16 */
#define RTC_MODE0_CTRLB_ACTF_DIV32_Val _U_(0x4) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/32 */
#define RTC_MODE0_CTRLB_ACTF_DIV64_Val _U_(0x5) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/64 */
#define RTC_MODE0_CTRLB_ACTF_DIV128_Val _U_(0x6) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/128 */
#define RTC_MODE0_CTRLB_ACTF_DIV256_Val _U_(0x7) /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/256 */
#define RTC_MODE0_CTRLB_ACTF_DIV2 (RTC_MODE0_CTRLB_ACTF_DIV2_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV4 (RTC_MODE0_CTRLB_ACTF_DIV4_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV8 (RTC_MODE0_CTRLB_ACTF_DIV8_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV16 (RTC_MODE0_CTRLB_ACTF_DIV16_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV32 (RTC_MODE0_CTRLB_ACTF_DIV32_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV64 (RTC_MODE0_CTRLB_ACTF_DIV64_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV128 (RTC_MODE0_CTRLB_ACTF_DIV128_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_ACTF_DIV256 (RTC_MODE0_CTRLB_ACTF_DIV256_Val << RTC_MODE0_CTRLB_ACTF_Pos)
#define RTC_MODE0_CTRLB_MASK _U_(0x77F3) /**< \brief (RTC_MODE0_CTRLB) MASK Register */
/* -------- RTC_MODE1_CTRLB : (RTC Offset: 0x02) (R/W 16) MODE1 MODE1 Control B -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t GP0EN:1; /*!< bit: 0 General Purpose 0 Enable */
uint16_t GP2EN:1; /*!< bit: 1 General Purpose 2 Enable */
uint16_t :2; /*!< bit: 2.. 3 Reserved */
uint16_t DEBMAJ:1; /*!< bit: 4 Debouncer Majority Enable */
uint16_t DEBASYNC:1; /*!< bit: 5 Debouncer Asynchronous Enable */
uint16_t RTCOUT:1; /*!< bit: 6 RTC Output Enable */
uint16_t DMAEN:1; /*!< bit: 7 DMA Enable */
uint16_t DEBF:3; /*!< bit: 8..10 Debounce Freqnuency */
uint16_t :1; /*!< bit: 11 Reserved */
uint16_t ACTF:3; /*!< bit: 12..14 Active Layer Freqnuency */
uint16_t :1; /*!< bit: 15 Reserved */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_CTRLB_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_CTRLB_OFFSET 0x02 /**< \brief (RTC_MODE1_CTRLB offset) MODE1 Control B */
#define RTC_MODE1_CTRLB_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_CTRLB reset_value) MODE1 Control B */
#define RTC_MODE1_CTRLB_GP0EN_Pos 0 /**< \brief (RTC_MODE1_CTRLB) General Purpose 0 Enable */
#define RTC_MODE1_CTRLB_GP0EN (_U_(0x1) << RTC_MODE1_CTRLB_GP0EN_Pos)
#define RTC_MODE1_CTRLB_GP2EN_Pos 1 /**< \brief (RTC_MODE1_CTRLB) General Purpose 2 Enable */
#define RTC_MODE1_CTRLB_GP2EN (_U_(0x1) << RTC_MODE1_CTRLB_GP2EN_Pos)
#define RTC_MODE1_CTRLB_DEBMAJ_Pos 4 /**< \brief (RTC_MODE1_CTRLB) Debouncer Majority Enable */
#define RTC_MODE1_CTRLB_DEBMAJ (_U_(0x1) << RTC_MODE1_CTRLB_DEBMAJ_Pos)
#define RTC_MODE1_CTRLB_DEBASYNC_Pos 5 /**< \brief (RTC_MODE1_CTRLB) Debouncer Asynchronous Enable */
#define RTC_MODE1_CTRLB_DEBASYNC (_U_(0x1) << RTC_MODE1_CTRLB_DEBASYNC_Pos)
#define RTC_MODE1_CTRLB_RTCOUT_Pos 6 /**< \brief (RTC_MODE1_CTRLB) RTC Output Enable */
#define RTC_MODE1_CTRLB_RTCOUT (_U_(0x1) << RTC_MODE1_CTRLB_RTCOUT_Pos)
#define RTC_MODE1_CTRLB_DMAEN_Pos 7 /**< \brief (RTC_MODE1_CTRLB) DMA Enable */
#define RTC_MODE1_CTRLB_DMAEN (_U_(0x1) << RTC_MODE1_CTRLB_DMAEN_Pos)
#define RTC_MODE1_CTRLB_DEBF_Pos 8 /**< \brief (RTC_MODE1_CTRLB) Debounce Freqnuency */
#define RTC_MODE1_CTRLB_DEBF_Msk (_U_(0x7) << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF(value) (RTC_MODE1_CTRLB_DEBF_Msk & ((value) << RTC_MODE1_CTRLB_DEBF_Pos))
#define RTC_MODE1_CTRLB_DEBF_DIV2_Val _U_(0x0) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/2 */
#define RTC_MODE1_CTRLB_DEBF_DIV4_Val _U_(0x1) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/4 */
#define RTC_MODE1_CTRLB_DEBF_DIV8_Val _U_(0x2) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/8 */
#define RTC_MODE1_CTRLB_DEBF_DIV16_Val _U_(0x3) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/16 */
#define RTC_MODE1_CTRLB_DEBF_DIV32_Val _U_(0x4) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/32 */
#define RTC_MODE1_CTRLB_DEBF_DIV64_Val _U_(0x5) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/64 */
#define RTC_MODE1_CTRLB_DEBF_DIV128_Val _U_(0x6) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/128 */
#define RTC_MODE1_CTRLB_DEBF_DIV256_Val _U_(0x7) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/256 */
#define RTC_MODE1_CTRLB_DEBF_DIV2 (RTC_MODE1_CTRLB_DEBF_DIV2_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV4 (RTC_MODE1_CTRLB_DEBF_DIV4_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV8 (RTC_MODE1_CTRLB_DEBF_DIV8_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV16 (RTC_MODE1_CTRLB_DEBF_DIV16_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV32 (RTC_MODE1_CTRLB_DEBF_DIV32_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV64 (RTC_MODE1_CTRLB_DEBF_DIV64_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV128 (RTC_MODE1_CTRLB_DEBF_DIV128_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_DEBF_DIV256 (RTC_MODE1_CTRLB_DEBF_DIV256_Val << RTC_MODE1_CTRLB_DEBF_Pos)
#define RTC_MODE1_CTRLB_ACTF_Pos 12 /**< \brief (RTC_MODE1_CTRLB) Active Layer Freqnuency */
#define RTC_MODE1_CTRLB_ACTF_Msk (_U_(0x7) << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF(value) (RTC_MODE1_CTRLB_ACTF_Msk & ((value) << RTC_MODE1_CTRLB_ACTF_Pos))
#define RTC_MODE1_CTRLB_ACTF_DIV2_Val _U_(0x0) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/2 */
#define RTC_MODE1_CTRLB_ACTF_DIV4_Val _U_(0x1) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/4 */
#define RTC_MODE1_CTRLB_ACTF_DIV8_Val _U_(0x2) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/8 */
#define RTC_MODE1_CTRLB_ACTF_DIV16_Val _U_(0x3) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/16 */
#define RTC_MODE1_CTRLB_ACTF_DIV32_Val _U_(0x4) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/32 */
#define RTC_MODE1_CTRLB_ACTF_DIV64_Val _U_(0x5) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/64 */
#define RTC_MODE1_CTRLB_ACTF_DIV128_Val _U_(0x6) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/128 */
#define RTC_MODE1_CTRLB_ACTF_DIV256_Val _U_(0x7) /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/256 */
#define RTC_MODE1_CTRLB_ACTF_DIV2 (RTC_MODE1_CTRLB_ACTF_DIV2_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV4 (RTC_MODE1_CTRLB_ACTF_DIV4_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV8 (RTC_MODE1_CTRLB_ACTF_DIV8_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV16 (RTC_MODE1_CTRLB_ACTF_DIV16_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV32 (RTC_MODE1_CTRLB_ACTF_DIV32_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV64 (RTC_MODE1_CTRLB_ACTF_DIV64_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV128 (RTC_MODE1_CTRLB_ACTF_DIV128_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_ACTF_DIV256 (RTC_MODE1_CTRLB_ACTF_DIV256_Val << RTC_MODE1_CTRLB_ACTF_Pos)
#define RTC_MODE1_CTRLB_MASK _U_(0x77F3) /**< \brief (RTC_MODE1_CTRLB) MASK Register */
/* -------- RTC_MODE2_CTRLB : (RTC Offset: 0x02) (R/W 16) MODE2 MODE2 Control B -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t GP0EN:1; /*!< bit: 0 General Purpose 0 Enable */
uint16_t GP2EN:1; /*!< bit: 1 General Purpose 2 Enable */
uint16_t :2; /*!< bit: 2.. 3 Reserved */
uint16_t DEBMAJ:1; /*!< bit: 4 Debouncer Majority Enable */
uint16_t DEBASYNC:1; /*!< bit: 5 Debouncer Asynchronous Enable */
uint16_t RTCOUT:1; /*!< bit: 6 RTC Output Enable */
uint16_t DMAEN:1; /*!< bit: 7 DMA Enable */
uint16_t DEBF:3; /*!< bit: 8..10 Debounce Freqnuency */
uint16_t :1; /*!< bit: 11 Reserved */
uint16_t ACTF:3; /*!< bit: 12..14 Active Layer Freqnuency */
uint16_t :1; /*!< bit: 15 Reserved */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE2_CTRLB_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_CTRLB_OFFSET 0x02 /**< \brief (RTC_MODE2_CTRLB offset) MODE2 Control B */
#define RTC_MODE2_CTRLB_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE2_CTRLB reset_value) MODE2 Control B */
#define RTC_MODE2_CTRLB_GP0EN_Pos 0 /**< \brief (RTC_MODE2_CTRLB) General Purpose 0 Enable */
#define RTC_MODE2_CTRLB_GP0EN (_U_(0x1) << RTC_MODE2_CTRLB_GP0EN_Pos)
#define RTC_MODE2_CTRLB_GP2EN_Pos 1 /**< \brief (RTC_MODE2_CTRLB) General Purpose 2 Enable */
#define RTC_MODE2_CTRLB_GP2EN (_U_(0x1) << RTC_MODE2_CTRLB_GP2EN_Pos)
#define RTC_MODE2_CTRLB_DEBMAJ_Pos 4 /**< \brief (RTC_MODE2_CTRLB) Debouncer Majority Enable */
#define RTC_MODE2_CTRLB_DEBMAJ (_U_(0x1) << RTC_MODE2_CTRLB_DEBMAJ_Pos)
#define RTC_MODE2_CTRLB_DEBASYNC_Pos 5 /**< \brief (RTC_MODE2_CTRLB) Debouncer Asynchronous Enable */
#define RTC_MODE2_CTRLB_DEBASYNC (_U_(0x1) << RTC_MODE2_CTRLB_DEBASYNC_Pos)
#define RTC_MODE2_CTRLB_RTCOUT_Pos 6 /**< \brief (RTC_MODE2_CTRLB) RTC Output Enable */
#define RTC_MODE2_CTRLB_RTCOUT (_U_(0x1) << RTC_MODE2_CTRLB_RTCOUT_Pos)
#define RTC_MODE2_CTRLB_DMAEN_Pos 7 /**< \brief (RTC_MODE2_CTRLB) DMA Enable */
#define RTC_MODE2_CTRLB_DMAEN (_U_(0x1) << RTC_MODE2_CTRLB_DMAEN_Pos)
#define RTC_MODE2_CTRLB_DEBF_Pos 8 /**< \brief (RTC_MODE2_CTRLB) Debounce Freqnuency */
#define RTC_MODE2_CTRLB_DEBF_Msk (_U_(0x7) << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF(value) (RTC_MODE2_CTRLB_DEBF_Msk & ((value) << RTC_MODE2_CTRLB_DEBF_Pos))
#define RTC_MODE2_CTRLB_DEBF_DIV2_Val _U_(0x0) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/2 */
#define RTC_MODE2_CTRLB_DEBF_DIV4_Val _U_(0x1) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/4 */
#define RTC_MODE2_CTRLB_DEBF_DIV8_Val _U_(0x2) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/8 */
#define RTC_MODE2_CTRLB_DEBF_DIV16_Val _U_(0x3) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/16 */
#define RTC_MODE2_CTRLB_DEBF_DIV32_Val _U_(0x4) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/32 */
#define RTC_MODE2_CTRLB_DEBF_DIV64_Val _U_(0x5) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/64 */
#define RTC_MODE2_CTRLB_DEBF_DIV128_Val _U_(0x6) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/128 */
#define RTC_MODE2_CTRLB_DEBF_DIV256_Val _U_(0x7) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/256 */
#define RTC_MODE2_CTRLB_DEBF_DIV2 (RTC_MODE2_CTRLB_DEBF_DIV2_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV4 (RTC_MODE2_CTRLB_DEBF_DIV4_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV8 (RTC_MODE2_CTRLB_DEBF_DIV8_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV16 (RTC_MODE2_CTRLB_DEBF_DIV16_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV32 (RTC_MODE2_CTRLB_DEBF_DIV32_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV64 (RTC_MODE2_CTRLB_DEBF_DIV64_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV128 (RTC_MODE2_CTRLB_DEBF_DIV128_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_DEBF_DIV256 (RTC_MODE2_CTRLB_DEBF_DIV256_Val << RTC_MODE2_CTRLB_DEBF_Pos)
#define RTC_MODE2_CTRLB_ACTF_Pos 12 /**< \brief (RTC_MODE2_CTRLB) Active Layer Freqnuency */
#define RTC_MODE2_CTRLB_ACTF_Msk (_U_(0x7) << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF(value) (RTC_MODE2_CTRLB_ACTF_Msk & ((value) << RTC_MODE2_CTRLB_ACTF_Pos))
#define RTC_MODE2_CTRLB_ACTF_DIV2_Val _U_(0x0) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/2 */
#define RTC_MODE2_CTRLB_ACTF_DIV4_Val _U_(0x1) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/4 */
#define RTC_MODE2_CTRLB_ACTF_DIV8_Val _U_(0x2) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/8 */
#define RTC_MODE2_CTRLB_ACTF_DIV16_Val _U_(0x3) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/16 */
#define RTC_MODE2_CTRLB_ACTF_DIV32_Val _U_(0x4) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/32 */
#define RTC_MODE2_CTRLB_ACTF_DIV64_Val _U_(0x5) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/64 */
#define RTC_MODE2_CTRLB_ACTF_DIV128_Val _U_(0x6) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/128 */
#define RTC_MODE2_CTRLB_ACTF_DIV256_Val _U_(0x7) /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/256 */
#define RTC_MODE2_CTRLB_ACTF_DIV2 (RTC_MODE2_CTRLB_ACTF_DIV2_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV4 (RTC_MODE2_CTRLB_ACTF_DIV4_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV8 (RTC_MODE2_CTRLB_ACTF_DIV8_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV16 (RTC_MODE2_CTRLB_ACTF_DIV16_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV32 (RTC_MODE2_CTRLB_ACTF_DIV32_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV64 (RTC_MODE2_CTRLB_ACTF_DIV64_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV128 (RTC_MODE2_CTRLB_ACTF_DIV128_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_ACTF_DIV256 (RTC_MODE2_CTRLB_ACTF_DIV256_Val << RTC_MODE2_CTRLB_ACTF_Pos)
#define RTC_MODE2_CTRLB_MASK _U_(0x77F3) /**< \brief (RTC_MODE2_CTRLB) MASK Register */
/* -------- RTC_MODE0_EVCTRL : (RTC Offset: 0x04) (R/W 32) MODE0 MODE0 Event Control -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t PEREO0:1; /*!< bit: 0 Periodic Interval 0 Event Output Enable */
uint32_t PEREO1:1; /*!< bit: 1 Periodic Interval 1 Event Output Enable */
uint32_t PEREO2:1; /*!< bit: 2 Periodic Interval 2 Event Output Enable */
uint32_t PEREO3:1; /*!< bit: 3 Periodic Interval 3 Event Output Enable */
uint32_t PEREO4:1; /*!< bit: 4 Periodic Interval 4 Event Output Enable */
uint32_t PEREO5:1; /*!< bit: 5 Periodic Interval 5 Event Output Enable */
uint32_t PEREO6:1; /*!< bit: 6 Periodic Interval 6 Event Output Enable */
uint32_t PEREO7:1; /*!< bit: 7 Periodic Interval 7 Event Output Enable */
uint32_t CMPEO0:1; /*!< bit: 8 Compare 0 Event Output Enable */
uint32_t CMPEO1:1; /*!< bit: 9 Compare 1 Event Output Enable */
uint32_t :4; /*!< bit: 10..13 Reserved */
uint32_t TAMPEREO:1; /*!< bit: 14 Tamper Event Output Enable */
uint32_t OVFEO:1; /*!< bit: 15 Overflow Event Output Enable */
uint32_t TAMPEVEI:1; /*!< bit: 16 Tamper Event Input Enable */
uint32_t :15; /*!< bit: 17..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t PEREO:8; /*!< bit: 0.. 7 Periodic Interval x Event Output Enable */
uint32_t CMPEO:2; /*!< bit: 8.. 9 Compare x Event Output Enable */
uint32_t :22; /*!< bit: 10..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE0_EVCTRL_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_EVCTRL_OFFSET 0x04 /**< \brief (RTC_MODE0_EVCTRL offset) MODE0 Event Control */
#define RTC_MODE0_EVCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_EVCTRL reset_value) MODE0 Event Control */
#define RTC_MODE0_EVCTRL_PEREO0_Pos 0 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 0 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO0 (_U_(1) << RTC_MODE0_EVCTRL_PEREO0_Pos)
#define RTC_MODE0_EVCTRL_PEREO1_Pos 1 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 1 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO1 (_U_(1) << RTC_MODE0_EVCTRL_PEREO1_Pos)
#define RTC_MODE0_EVCTRL_PEREO2_Pos 2 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 2 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO2 (_U_(1) << RTC_MODE0_EVCTRL_PEREO2_Pos)
#define RTC_MODE0_EVCTRL_PEREO3_Pos 3 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 3 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO3 (_U_(1) << RTC_MODE0_EVCTRL_PEREO3_Pos)
#define RTC_MODE0_EVCTRL_PEREO4_Pos 4 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 4 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO4 (_U_(1) << RTC_MODE0_EVCTRL_PEREO4_Pos)
#define RTC_MODE0_EVCTRL_PEREO5_Pos 5 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 5 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO5 (_U_(1) << RTC_MODE0_EVCTRL_PEREO5_Pos)
#define RTC_MODE0_EVCTRL_PEREO6_Pos 6 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 6 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO6 (_U_(1) << RTC_MODE0_EVCTRL_PEREO6_Pos)
#define RTC_MODE0_EVCTRL_PEREO7_Pos 7 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 7 Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO7 (_U_(1) << RTC_MODE0_EVCTRL_PEREO7_Pos)
#define RTC_MODE0_EVCTRL_PEREO_Pos 0 /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval x Event Output Enable */
#define RTC_MODE0_EVCTRL_PEREO_Msk (_U_(0xFF) << RTC_MODE0_EVCTRL_PEREO_Pos)
#define RTC_MODE0_EVCTRL_PEREO(value) (RTC_MODE0_EVCTRL_PEREO_Msk & ((value) << RTC_MODE0_EVCTRL_PEREO_Pos))
#define RTC_MODE0_EVCTRL_CMPEO0_Pos 8 /**< \brief (RTC_MODE0_EVCTRL) Compare 0 Event Output Enable */
#define RTC_MODE0_EVCTRL_CMPEO0 (_U_(1) << RTC_MODE0_EVCTRL_CMPEO0_Pos)
#define RTC_MODE0_EVCTRL_CMPEO1_Pos 9 /**< \brief (RTC_MODE0_EVCTRL) Compare 1 Event Output Enable */
#define RTC_MODE0_EVCTRL_CMPEO1 (_U_(1) << RTC_MODE0_EVCTRL_CMPEO1_Pos)
#define RTC_MODE0_EVCTRL_CMPEO_Pos 8 /**< \brief (RTC_MODE0_EVCTRL) Compare x Event Output Enable */
#define RTC_MODE0_EVCTRL_CMPEO_Msk (_U_(0x3) << RTC_MODE0_EVCTRL_CMPEO_Pos)
#define RTC_MODE0_EVCTRL_CMPEO(value) (RTC_MODE0_EVCTRL_CMPEO_Msk & ((value) << RTC_MODE0_EVCTRL_CMPEO_Pos))
#define RTC_MODE0_EVCTRL_TAMPEREO_Pos 14 /**< \brief (RTC_MODE0_EVCTRL) Tamper Event Output Enable */
#define RTC_MODE0_EVCTRL_TAMPEREO (_U_(0x1) << RTC_MODE0_EVCTRL_TAMPEREO_Pos)
#define RTC_MODE0_EVCTRL_OVFEO_Pos 15 /**< \brief (RTC_MODE0_EVCTRL) Overflow Event Output Enable */
#define RTC_MODE0_EVCTRL_OVFEO (_U_(0x1) << RTC_MODE0_EVCTRL_OVFEO_Pos)
#define RTC_MODE0_EVCTRL_TAMPEVEI_Pos 16 /**< \brief (RTC_MODE0_EVCTRL) Tamper Event Input Enable */
#define RTC_MODE0_EVCTRL_TAMPEVEI (_U_(0x1) << RTC_MODE0_EVCTRL_TAMPEVEI_Pos)
#define RTC_MODE0_EVCTRL_MASK _U_(0x0001C3FF) /**< \brief (RTC_MODE0_EVCTRL) MASK Register */
/* -------- RTC_MODE1_EVCTRL : (RTC Offset: 0x04) (R/W 32) MODE1 MODE1 Event Control -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t PEREO0:1; /*!< bit: 0 Periodic Interval 0 Event Output Enable */
uint32_t PEREO1:1; /*!< bit: 1 Periodic Interval 1 Event Output Enable */
uint32_t PEREO2:1; /*!< bit: 2 Periodic Interval 2 Event Output Enable */
uint32_t PEREO3:1; /*!< bit: 3 Periodic Interval 3 Event Output Enable */
uint32_t PEREO4:1; /*!< bit: 4 Periodic Interval 4 Event Output Enable */
uint32_t PEREO5:1; /*!< bit: 5 Periodic Interval 5 Event Output Enable */
uint32_t PEREO6:1; /*!< bit: 6 Periodic Interval 6 Event Output Enable */
uint32_t PEREO7:1; /*!< bit: 7 Periodic Interval 7 Event Output Enable */
uint32_t CMPEO0:1; /*!< bit: 8 Compare 0 Event Output Enable */
uint32_t CMPEO1:1; /*!< bit: 9 Compare 1 Event Output Enable */
uint32_t CMPEO2:1; /*!< bit: 10 Compare 2 Event Output Enable */
uint32_t CMPEO3:1; /*!< bit: 11 Compare 3 Event Output Enable */
uint32_t :2; /*!< bit: 12..13 Reserved */
uint32_t TAMPEREO:1; /*!< bit: 14 Tamper Event Output Enable */
uint32_t OVFEO:1; /*!< bit: 15 Overflow Event Output Enable */
uint32_t TAMPEVEI:1; /*!< bit: 16 Tamper Event Input Enable */
uint32_t :15; /*!< bit: 17..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t PEREO:8; /*!< bit: 0.. 7 Periodic Interval x Event Output Enable */
uint32_t CMPEO:4; /*!< bit: 8..11 Compare x Event Output Enable */
uint32_t :20; /*!< bit: 12..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE1_EVCTRL_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_EVCTRL_OFFSET 0x04 /**< \brief (RTC_MODE1_EVCTRL offset) MODE1 Event Control */
#define RTC_MODE1_EVCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE1_EVCTRL reset_value) MODE1 Event Control */
#define RTC_MODE1_EVCTRL_PEREO0_Pos 0 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 0 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO0 (_U_(1) << RTC_MODE1_EVCTRL_PEREO0_Pos)
#define RTC_MODE1_EVCTRL_PEREO1_Pos 1 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 1 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO1 (_U_(1) << RTC_MODE1_EVCTRL_PEREO1_Pos)
#define RTC_MODE1_EVCTRL_PEREO2_Pos 2 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 2 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO2 (_U_(1) << RTC_MODE1_EVCTRL_PEREO2_Pos)
#define RTC_MODE1_EVCTRL_PEREO3_Pos 3 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 3 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO3 (_U_(1) << RTC_MODE1_EVCTRL_PEREO3_Pos)
#define RTC_MODE1_EVCTRL_PEREO4_Pos 4 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 4 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO4 (_U_(1) << RTC_MODE1_EVCTRL_PEREO4_Pos)
#define RTC_MODE1_EVCTRL_PEREO5_Pos 5 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 5 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO5 (_U_(1) << RTC_MODE1_EVCTRL_PEREO5_Pos)
#define RTC_MODE1_EVCTRL_PEREO6_Pos 6 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 6 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO6 (_U_(1) << RTC_MODE1_EVCTRL_PEREO6_Pos)
#define RTC_MODE1_EVCTRL_PEREO7_Pos 7 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 7 Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO7 (_U_(1) << RTC_MODE1_EVCTRL_PEREO7_Pos)
#define RTC_MODE1_EVCTRL_PEREO_Pos 0 /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval x Event Output Enable */
#define RTC_MODE1_EVCTRL_PEREO_Msk (_U_(0xFF) << RTC_MODE1_EVCTRL_PEREO_Pos)
#define RTC_MODE1_EVCTRL_PEREO(value) (RTC_MODE1_EVCTRL_PEREO_Msk & ((value) << RTC_MODE1_EVCTRL_PEREO_Pos))
#define RTC_MODE1_EVCTRL_CMPEO0_Pos 8 /**< \brief (RTC_MODE1_EVCTRL) Compare 0 Event Output Enable */
#define RTC_MODE1_EVCTRL_CMPEO0 (_U_(1) << RTC_MODE1_EVCTRL_CMPEO0_Pos)
#define RTC_MODE1_EVCTRL_CMPEO1_Pos 9 /**< \brief (RTC_MODE1_EVCTRL) Compare 1 Event Output Enable */
#define RTC_MODE1_EVCTRL_CMPEO1 (_U_(1) << RTC_MODE1_EVCTRL_CMPEO1_Pos)
#define RTC_MODE1_EVCTRL_CMPEO2_Pos 10 /**< \brief (RTC_MODE1_EVCTRL) Compare 2 Event Output Enable */
#define RTC_MODE1_EVCTRL_CMPEO2 (_U_(1) << RTC_MODE1_EVCTRL_CMPEO2_Pos)
#define RTC_MODE1_EVCTRL_CMPEO3_Pos 11 /**< \brief (RTC_MODE1_EVCTRL) Compare 3 Event Output Enable */
#define RTC_MODE1_EVCTRL_CMPEO3 (_U_(1) << RTC_MODE1_EVCTRL_CMPEO3_Pos)
#define RTC_MODE1_EVCTRL_CMPEO_Pos 8 /**< \brief (RTC_MODE1_EVCTRL) Compare x Event Output Enable */
#define RTC_MODE1_EVCTRL_CMPEO_Msk (_U_(0xF) << RTC_MODE1_EVCTRL_CMPEO_Pos)
#define RTC_MODE1_EVCTRL_CMPEO(value) (RTC_MODE1_EVCTRL_CMPEO_Msk & ((value) << RTC_MODE1_EVCTRL_CMPEO_Pos))
#define RTC_MODE1_EVCTRL_TAMPEREO_Pos 14 /**< \brief (RTC_MODE1_EVCTRL) Tamper Event Output Enable */
#define RTC_MODE1_EVCTRL_TAMPEREO (_U_(0x1) << RTC_MODE1_EVCTRL_TAMPEREO_Pos)
#define RTC_MODE1_EVCTRL_OVFEO_Pos 15 /**< \brief (RTC_MODE1_EVCTRL) Overflow Event Output Enable */
#define RTC_MODE1_EVCTRL_OVFEO (_U_(0x1) << RTC_MODE1_EVCTRL_OVFEO_Pos)
#define RTC_MODE1_EVCTRL_TAMPEVEI_Pos 16 /**< \brief (RTC_MODE1_EVCTRL) Tamper Event Input Enable */
#define RTC_MODE1_EVCTRL_TAMPEVEI (_U_(0x1) << RTC_MODE1_EVCTRL_TAMPEVEI_Pos)
#define RTC_MODE1_EVCTRL_MASK _U_(0x0001CFFF) /**< \brief (RTC_MODE1_EVCTRL) MASK Register */
/* -------- RTC_MODE2_EVCTRL : (RTC Offset: 0x04) (R/W 32) MODE2 MODE2 Event Control -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t PEREO0:1; /*!< bit: 0 Periodic Interval 0 Event Output Enable */
uint32_t PEREO1:1; /*!< bit: 1 Periodic Interval 1 Event Output Enable */
uint32_t PEREO2:1; /*!< bit: 2 Periodic Interval 2 Event Output Enable */
uint32_t PEREO3:1; /*!< bit: 3 Periodic Interval 3 Event Output Enable */
uint32_t PEREO4:1; /*!< bit: 4 Periodic Interval 4 Event Output Enable */
uint32_t PEREO5:1; /*!< bit: 5 Periodic Interval 5 Event Output Enable */
uint32_t PEREO6:1; /*!< bit: 6 Periodic Interval 6 Event Output Enable */
uint32_t PEREO7:1; /*!< bit: 7 Periodic Interval 7 Event Output Enable */
uint32_t ALARMEO0:1; /*!< bit: 8 Alarm 0 Event Output Enable */
uint32_t ALARMEO1:1; /*!< bit: 9 Alarm 1 Event Output Enable */
uint32_t :4; /*!< bit: 10..13 Reserved */
uint32_t TAMPEREO:1; /*!< bit: 14 Tamper Event Output Enable */
uint32_t OVFEO:1; /*!< bit: 15 Overflow Event Output Enable */
uint32_t TAMPEVEI:1; /*!< bit: 16 Tamper Event Input Enable */
uint32_t :15; /*!< bit: 17..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t PEREO:8; /*!< bit: 0.. 7 Periodic Interval x Event Output Enable */
uint32_t ALARMEO:2; /*!< bit: 8.. 9 Alarm x Event Output Enable */
uint32_t :22; /*!< bit: 10..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE2_EVCTRL_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_EVCTRL_OFFSET 0x04 /**< \brief (RTC_MODE2_EVCTRL offset) MODE2 Event Control */
#define RTC_MODE2_EVCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_EVCTRL reset_value) MODE2 Event Control */
#define RTC_MODE2_EVCTRL_PEREO0_Pos 0 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 0 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO0 (_U_(1) << RTC_MODE2_EVCTRL_PEREO0_Pos)
#define RTC_MODE2_EVCTRL_PEREO1_Pos 1 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 1 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO1 (_U_(1) << RTC_MODE2_EVCTRL_PEREO1_Pos)
#define RTC_MODE2_EVCTRL_PEREO2_Pos 2 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 2 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO2 (_U_(1) << RTC_MODE2_EVCTRL_PEREO2_Pos)
#define RTC_MODE2_EVCTRL_PEREO3_Pos 3 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 3 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO3 (_U_(1) << RTC_MODE2_EVCTRL_PEREO3_Pos)
#define RTC_MODE2_EVCTRL_PEREO4_Pos 4 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 4 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO4 (_U_(1) << RTC_MODE2_EVCTRL_PEREO4_Pos)
#define RTC_MODE2_EVCTRL_PEREO5_Pos 5 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 5 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO5 (_U_(1) << RTC_MODE2_EVCTRL_PEREO5_Pos)
#define RTC_MODE2_EVCTRL_PEREO6_Pos 6 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 6 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO6 (_U_(1) << RTC_MODE2_EVCTRL_PEREO6_Pos)
#define RTC_MODE2_EVCTRL_PEREO7_Pos 7 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 7 Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO7 (_U_(1) << RTC_MODE2_EVCTRL_PEREO7_Pos)
#define RTC_MODE2_EVCTRL_PEREO_Pos 0 /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval x Event Output Enable */
#define RTC_MODE2_EVCTRL_PEREO_Msk (_U_(0xFF) << RTC_MODE2_EVCTRL_PEREO_Pos)
#define RTC_MODE2_EVCTRL_PEREO(value) (RTC_MODE2_EVCTRL_PEREO_Msk & ((value) << RTC_MODE2_EVCTRL_PEREO_Pos))
#define RTC_MODE2_EVCTRL_ALARMEO0_Pos 8 /**< \brief (RTC_MODE2_EVCTRL) Alarm 0 Event Output Enable */
#define RTC_MODE2_EVCTRL_ALARMEO0 (_U_(1) << RTC_MODE2_EVCTRL_ALARMEO0_Pos)
#define RTC_MODE2_EVCTRL_ALARMEO1_Pos 9 /**< \brief (RTC_MODE2_EVCTRL) Alarm 1 Event Output Enable */
#define RTC_MODE2_EVCTRL_ALARMEO1 (_U_(1) << RTC_MODE2_EVCTRL_ALARMEO1_Pos)
#define RTC_MODE2_EVCTRL_ALARMEO_Pos 8 /**< \brief (RTC_MODE2_EVCTRL) Alarm x Event Output Enable */
#define RTC_MODE2_EVCTRL_ALARMEO_Msk (_U_(0x3) << RTC_MODE2_EVCTRL_ALARMEO_Pos)
#define RTC_MODE2_EVCTRL_ALARMEO(value) (RTC_MODE2_EVCTRL_ALARMEO_Msk & ((value) << RTC_MODE2_EVCTRL_ALARMEO_Pos))
#define RTC_MODE2_EVCTRL_TAMPEREO_Pos 14 /**< \brief (RTC_MODE2_EVCTRL) Tamper Event Output Enable */
#define RTC_MODE2_EVCTRL_TAMPEREO (_U_(0x1) << RTC_MODE2_EVCTRL_TAMPEREO_Pos)
#define RTC_MODE2_EVCTRL_OVFEO_Pos 15 /**< \brief (RTC_MODE2_EVCTRL) Overflow Event Output Enable */
#define RTC_MODE2_EVCTRL_OVFEO (_U_(0x1) << RTC_MODE2_EVCTRL_OVFEO_Pos)
#define RTC_MODE2_EVCTRL_TAMPEVEI_Pos 16 /**< \brief (RTC_MODE2_EVCTRL) Tamper Event Input Enable */
#define RTC_MODE2_EVCTRL_TAMPEVEI (_U_(0x1) << RTC_MODE2_EVCTRL_TAMPEVEI_Pos)
#define RTC_MODE2_EVCTRL_MASK _U_(0x0001C3FF) /**< \brief (RTC_MODE2_EVCTRL) MASK Register */
/* -------- RTC_MODE0_INTENCLR : (RTC Offset: 0x08) (R/W 16) MODE0 MODE0 Interrupt Enable Clear -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 Interrupt Enable */
uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 Interrupt Enable */
uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 Interrupt Enable */
uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 Interrupt Enable */
uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 Interrupt Enable */
uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 Interrupt Enable */
uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 Interrupt Enable */
uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 Interrupt Enable */
uint16_t CMP0:1; /*!< bit: 8 Compare 0 Interrupt Enable */
uint16_t CMP1:1; /*!< bit: 9 Compare 1 Interrupt Enable */
uint16_t :4; /*!< bit: 10..13 Reserved */
uint16_t TAMPER:1; /*!< bit: 14 Tamper Enable */
uint16_t OVF:1; /*!< bit: 15 Overflow Interrupt Enable */
} bit; /*!< Structure used for bit access */
struct {
uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x Interrupt Enable */
uint16_t CMP:2; /*!< bit: 8.. 9 Compare x Interrupt Enable */
uint16_t :6; /*!< bit: 10..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE0_INTENCLR_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_INTENCLR_OFFSET 0x08 /**< \brief (RTC_MODE0_INTENCLR offset) MODE0 Interrupt Enable Clear */
#define RTC_MODE0_INTENCLR_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE0_INTENCLR reset_value) MODE0 Interrupt Enable Clear */
#define RTC_MODE0_INTENCLR_PER0_Pos 0 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 0 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER0 (_U_(1) << RTC_MODE0_INTENCLR_PER0_Pos)
#define RTC_MODE0_INTENCLR_PER1_Pos 1 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 1 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER1 (_U_(1) << RTC_MODE0_INTENCLR_PER1_Pos)
#define RTC_MODE0_INTENCLR_PER2_Pos 2 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 2 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER2 (_U_(1) << RTC_MODE0_INTENCLR_PER2_Pos)
#define RTC_MODE0_INTENCLR_PER3_Pos 3 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 3 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER3 (_U_(1) << RTC_MODE0_INTENCLR_PER3_Pos)
#define RTC_MODE0_INTENCLR_PER4_Pos 4 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 4 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER4 (_U_(1) << RTC_MODE0_INTENCLR_PER4_Pos)
#define RTC_MODE0_INTENCLR_PER5_Pos 5 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 5 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER5 (_U_(1) << RTC_MODE0_INTENCLR_PER5_Pos)
#define RTC_MODE0_INTENCLR_PER6_Pos 6 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 6 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER6 (_U_(1) << RTC_MODE0_INTENCLR_PER6_Pos)
#define RTC_MODE0_INTENCLR_PER7_Pos 7 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 7 Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER7 (_U_(1) << RTC_MODE0_INTENCLR_PER7_Pos)
#define RTC_MODE0_INTENCLR_PER_Pos 0 /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval x Interrupt Enable */
#define RTC_MODE0_INTENCLR_PER_Msk (_U_(0xFF) << RTC_MODE0_INTENCLR_PER_Pos)
#define RTC_MODE0_INTENCLR_PER(value) (RTC_MODE0_INTENCLR_PER_Msk & ((value) << RTC_MODE0_INTENCLR_PER_Pos))
#define RTC_MODE0_INTENCLR_CMP0_Pos 8 /**< \brief (RTC_MODE0_INTENCLR) Compare 0 Interrupt Enable */
#define RTC_MODE0_INTENCLR_CMP0 (_U_(1) << RTC_MODE0_INTENCLR_CMP0_Pos)
#define RTC_MODE0_INTENCLR_CMP1_Pos 9 /**< \brief (RTC_MODE0_INTENCLR) Compare 1 Interrupt Enable */
#define RTC_MODE0_INTENCLR_CMP1 (_U_(1) << RTC_MODE0_INTENCLR_CMP1_Pos)
#define RTC_MODE0_INTENCLR_CMP_Pos 8 /**< \brief (RTC_MODE0_INTENCLR) Compare x Interrupt Enable */
#define RTC_MODE0_INTENCLR_CMP_Msk (_U_(0x3) << RTC_MODE0_INTENCLR_CMP_Pos)
#define RTC_MODE0_INTENCLR_CMP(value) (RTC_MODE0_INTENCLR_CMP_Msk & ((value) << RTC_MODE0_INTENCLR_CMP_Pos))
#define RTC_MODE0_INTENCLR_TAMPER_Pos 14 /**< \brief (RTC_MODE0_INTENCLR) Tamper Enable */
#define RTC_MODE0_INTENCLR_TAMPER (_U_(0x1) << RTC_MODE0_INTENCLR_TAMPER_Pos)
#define RTC_MODE0_INTENCLR_OVF_Pos 15 /**< \brief (RTC_MODE0_INTENCLR) Overflow Interrupt Enable */
#define RTC_MODE0_INTENCLR_OVF (_U_(0x1) << RTC_MODE0_INTENCLR_OVF_Pos)
#define RTC_MODE0_INTENCLR_MASK _U_(0xC3FF) /**< \brief (RTC_MODE0_INTENCLR) MASK Register */
/* -------- RTC_MODE1_INTENCLR : (RTC Offset: 0x08) (R/W 16) MODE1 MODE1 Interrupt Enable Clear -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 Interrupt Enable */
uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 Interrupt Enable */
uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 Interrupt Enable */
uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 Interrupt Enable */
uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 Interrupt Enable */
uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 Interrupt Enable */
uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 Interrupt Enable */
uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 Interrupt Enable */
uint16_t CMP0:1; /*!< bit: 8 Compare 0 Interrupt Enable */
uint16_t CMP1:1; /*!< bit: 9 Compare 1 Interrupt Enable */
uint16_t CMP2:1; /*!< bit: 10 Compare 2 Interrupt Enable */
uint16_t CMP3:1; /*!< bit: 11 Compare 3 Interrupt Enable */
uint16_t :2; /*!< bit: 12..13 Reserved */
uint16_t TAMPER:1; /*!< bit: 14 Tamper Enable */
uint16_t OVF:1; /*!< bit: 15 Overflow Interrupt Enable */
} bit; /*!< Structure used for bit access */
struct {
uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x Interrupt Enable */
uint16_t CMP:4; /*!< bit: 8..11 Compare x Interrupt Enable */
uint16_t :4; /*!< bit: 12..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_INTENCLR_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_INTENCLR_OFFSET 0x08 /**< \brief (RTC_MODE1_INTENCLR offset) MODE1 Interrupt Enable Clear */
#define RTC_MODE1_INTENCLR_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_INTENCLR reset_value) MODE1 Interrupt Enable Clear */
#define RTC_MODE1_INTENCLR_PER0_Pos 0 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 0 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER0 (_U_(1) << RTC_MODE1_INTENCLR_PER0_Pos)
#define RTC_MODE1_INTENCLR_PER1_Pos 1 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 1 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER1 (_U_(1) << RTC_MODE1_INTENCLR_PER1_Pos)
#define RTC_MODE1_INTENCLR_PER2_Pos 2 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 2 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER2 (_U_(1) << RTC_MODE1_INTENCLR_PER2_Pos)
#define RTC_MODE1_INTENCLR_PER3_Pos 3 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 3 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER3 (_U_(1) << RTC_MODE1_INTENCLR_PER3_Pos)
#define RTC_MODE1_INTENCLR_PER4_Pos 4 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 4 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER4 (_U_(1) << RTC_MODE1_INTENCLR_PER4_Pos)
#define RTC_MODE1_INTENCLR_PER5_Pos 5 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 5 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER5 (_U_(1) << RTC_MODE1_INTENCLR_PER5_Pos)
#define RTC_MODE1_INTENCLR_PER6_Pos 6 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 6 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER6 (_U_(1) << RTC_MODE1_INTENCLR_PER6_Pos)
#define RTC_MODE1_INTENCLR_PER7_Pos 7 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 7 Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER7 (_U_(1) << RTC_MODE1_INTENCLR_PER7_Pos)
#define RTC_MODE1_INTENCLR_PER_Pos 0 /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval x Interrupt Enable */
#define RTC_MODE1_INTENCLR_PER_Msk (_U_(0xFF) << RTC_MODE1_INTENCLR_PER_Pos)
#define RTC_MODE1_INTENCLR_PER(value) (RTC_MODE1_INTENCLR_PER_Msk & ((value) << RTC_MODE1_INTENCLR_PER_Pos))
#define RTC_MODE1_INTENCLR_CMP0_Pos 8 /**< \brief (RTC_MODE1_INTENCLR) Compare 0 Interrupt Enable */
#define RTC_MODE1_INTENCLR_CMP0 (_U_(1) << RTC_MODE1_INTENCLR_CMP0_Pos)
#define RTC_MODE1_INTENCLR_CMP1_Pos 9 /**< \brief (RTC_MODE1_INTENCLR) Compare 1 Interrupt Enable */
#define RTC_MODE1_INTENCLR_CMP1 (_U_(1) << RTC_MODE1_INTENCLR_CMP1_Pos)
#define RTC_MODE1_INTENCLR_CMP2_Pos 10 /**< \brief (RTC_MODE1_INTENCLR) Compare 2 Interrupt Enable */
#define RTC_MODE1_INTENCLR_CMP2 (_U_(1) << RTC_MODE1_INTENCLR_CMP2_Pos)
#define RTC_MODE1_INTENCLR_CMP3_Pos 11 /**< \brief (RTC_MODE1_INTENCLR) Compare 3 Interrupt Enable */
#define RTC_MODE1_INTENCLR_CMP3 (_U_(1) << RTC_MODE1_INTENCLR_CMP3_Pos)
#define RTC_MODE1_INTENCLR_CMP_Pos 8 /**< \brief (RTC_MODE1_INTENCLR) Compare x Interrupt Enable */
#define RTC_MODE1_INTENCLR_CMP_Msk (_U_(0xF) << RTC_MODE1_INTENCLR_CMP_Pos)
#define RTC_MODE1_INTENCLR_CMP(value) (RTC_MODE1_INTENCLR_CMP_Msk & ((value) << RTC_MODE1_INTENCLR_CMP_Pos))
#define RTC_MODE1_INTENCLR_TAMPER_Pos 14 /**< \brief (RTC_MODE1_INTENCLR) Tamper Enable */
#define RTC_MODE1_INTENCLR_TAMPER (_U_(0x1) << RTC_MODE1_INTENCLR_TAMPER_Pos)
#define RTC_MODE1_INTENCLR_OVF_Pos 15 /**< \brief (RTC_MODE1_INTENCLR) Overflow Interrupt Enable */
#define RTC_MODE1_INTENCLR_OVF (_U_(0x1) << RTC_MODE1_INTENCLR_OVF_Pos)
#define RTC_MODE1_INTENCLR_MASK _U_(0xCFFF) /**< \brief (RTC_MODE1_INTENCLR) MASK Register */
/* -------- RTC_MODE2_INTENCLR : (RTC Offset: 0x08) (R/W 16) MODE2 MODE2 Interrupt Enable Clear -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 Interrupt Enable */
uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 Interrupt Enable */
uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 Interrupt Enable */
uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 Interrupt Enable */
uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 Interrupt Enable */
uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 Interrupt Enable */
uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 Interrupt Enable */
uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 Interrupt Enable */
uint16_t ALARM0:1; /*!< bit: 8 Alarm 0 Interrupt Enable */
uint16_t ALARM1:1; /*!< bit: 9 Alarm 1 Interrupt Enable */
uint16_t :4; /*!< bit: 10..13 Reserved */
uint16_t TAMPER:1; /*!< bit: 14 Tamper Enable */
uint16_t OVF:1; /*!< bit: 15 Overflow Interrupt Enable */
} bit; /*!< Structure used for bit access */
struct {
uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x Interrupt Enable */
uint16_t ALARM:2; /*!< bit: 8.. 9 Alarm x Interrupt Enable */
uint16_t :6; /*!< bit: 10..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE2_INTENCLR_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_INTENCLR_OFFSET 0x08 /**< \brief (RTC_MODE2_INTENCLR offset) MODE2 Interrupt Enable Clear */
#define RTC_MODE2_INTENCLR_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE2_INTENCLR reset_value) MODE2 Interrupt Enable Clear */
#define RTC_MODE2_INTENCLR_PER0_Pos 0 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 0 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER0 (_U_(1) << RTC_MODE2_INTENCLR_PER0_Pos)
#define RTC_MODE2_INTENCLR_PER1_Pos 1 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 1 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER1 (_U_(1) << RTC_MODE2_INTENCLR_PER1_Pos)
#define RTC_MODE2_INTENCLR_PER2_Pos 2 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 2 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER2 (_U_(1) << RTC_MODE2_INTENCLR_PER2_Pos)
#define RTC_MODE2_INTENCLR_PER3_Pos 3 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 3 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER3 (_U_(1) << RTC_MODE2_INTENCLR_PER3_Pos)
#define RTC_MODE2_INTENCLR_PER4_Pos 4 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 4 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER4 (_U_(1) << RTC_MODE2_INTENCLR_PER4_Pos)
#define RTC_MODE2_INTENCLR_PER5_Pos 5 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 5 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER5 (_U_(1) << RTC_MODE2_INTENCLR_PER5_Pos)
#define RTC_MODE2_INTENCLR_PER6_Pos 6 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 6 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER6 (_U_(1) << RTC_MODE2_INTENCLR_PER6_Pos)
#define RTC_MODE2_INTENCLR_PER7_Pos 7 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 7 Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER7 (_U_(1) << RTC_MODE2_INTENCLR_PER7_Pos)
#define RTC_MODE2_INTENCLR_PER_Pos 0 /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval x Interrupt Enable */
#define RTC_MODE2_INTENCLR_PER_Msk (_U_(0xFF) << RTC_MODE2_INTENCLR_PER_Pos)
#define RTC_MODE2_INTENCLR_PER(value) (RTC_MODE2_INTENCLR_PER_Msk & ((value) << RTC_MODE2_INTENCLR_PER_Pos))
#define RTC_MODE2_INTENCLR_ALARM0_Pos 8 /**< \brief (RTC_MODE2_INTENCLR) Alarm 0 Interrupt Enable */
#define RTC_MODE2_INTENCLR_ALARM0 (_U_(1) << RTC_MODE2_INTENCLR_ALARM0_Pos)
#define RTC_MODE2_INTENCLR_ALARM1_Pos 9 /**< \brief (RTC_MODE2_INTENCLR) Alarm 1 Interrupt Enable */
#define RTC_MODE2_INTENCLR_ALARM1 (_U_(1) << RTC_MODE2_INTENCLR_ALARM1_Pos)
#define RTC_MODE2_INTENCLR_ALARM_Pos 8 /**< \brief (RTC_MODE2_INTENCLR) Alarm x Interrupt Enable */
#define RTC_MODE2_INTENCLR_ALARM_Msk (_U_(0x3) << RTC_MODE2_INTENCLR_ALARM_Pos)
#define RTC_MODE2_INTENCLR_ALARM(value) (RTC_MODE2_INTENCLR_ALARM_Msk & ((value) << RTC_MODE2_INTENCLR_ALARM_Pos))
#define RTC_MODE2_INTENCLR_TAMPER_Pos 14 /**< \brief (RTC_MODE2_INTENCLR) Tamper Enable */
#define RTC_MODE2_INTENCLR_TAMPER (_U_(0x1) << RTC_MODE2_INTENCLR_TAMPER_Pos)
#define RTC_MODE2_INTENCLR_OVF_Pos 15 /**< \brief (RTC_MODE2_INTENCLR) Overflow Interrupt Enable */
#define RTC_MODE2_INTENCLR_OVF (_U_(0x1) << RTC_MODE2_INTENCLR_OVF_Pos)
#define RTC_MODE2_INTENCLR_MASK _U_(0xC3FF) /**< \brief (RTC_MODE2_INTENCLR) MASK Register */
/* -------- RTC_MODE0_INTENSET : (RTC Offset: 0x0A) (R/W 16) MODE0 MODE0 Interrupt Enable Set -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 Interrupt Enable */
uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 Interrupt Enable */
uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 Interrupt Enable */
uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 Interrupt Enable */
uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 Interrupt Enable */
uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 Interrupt Enable */
uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 Interrupt Enable */
uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 Interrupt Enable */
uint16_t CMP0:1; /*!< bit: 8 Compare 0 Interrupt Enable */
uint16_t CMP1:1; /*!< bit: 9 Compare 1 Interrupt Enable */
uint16_t :4; /*!< bit: 10..13 Reserved */
uint16_t TAMPER:1; /*!< bit: 14 Tamper Enable */
uint16_t OVF:1; /*!< bit: 15 Overflow Interrupt Enable */
} bit; /*!< Structure used for bit access */
struct {
uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x Interrupt Enable */
uint16_t CMP:2; /*!< bit: 8.. 9 Compare x Interrupt Enable */
uint16_t :6; /*!< bit: 10..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE0_INTENSET_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_INTENSET_OFFSET 0x0A /**< \brief (RTC_MODE0_INTENSET offset) MODE0 Interrupt Enable Set */
#define RTC_MODE0_INTENSET_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE0_INTENSET reset_value) MODE0 Interrupt Enable Set */
#define RTC_MODE0_INTENSET_PER0_Pos 0 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 0 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER0 (_U_(1) << RTC_MODE0_INTENSET_PER0_Pos)
#define RTC_MODE0_INTENSET_PER1_Pos 1 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 1 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER1 (_U_(1) << RTC_MODE0_INTENSET_PER1_Pos)
#define RTC_MODE0_INTENSET_PER2_Pos 2 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 2 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER2 (_U_(1) << RTC_MODE0_INTENSET_PER2_Pos)
#define RTC_MODE0_INTENSET_PER3_Pos 3 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 3 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER3 (_U_(1) << RTC_MODE0_INTENSET_PER3_Pos)
#define RTC_MODE0_INTENSET_PER4_Pos 4 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 4 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER4 (_U_(1) << RTC_MODE0_INTENSET_PER4_Pos)
#define RTC_MODE0_INTENSET_PER5_Pos 5 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 5 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER5 (_U_(1) << RTC_MODE0_INTENSET_PER5_Pos)
#define RTC_MODE0_INTENSET_PER6_Pos 6 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 6 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER6 (_U_(1) << RTC_MODE0_INTENSET_PER6_Pos)
#define RTC_MODE0_INTENSET_PER7_Pos 7 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 7 Interrupt Enable */
#define RTC_MODE0_INTENSET_PER7 (_U_(1) << RTC_MODE0_INTENSET_PER7_Pos)
#define RTC_MODE0_INTENSET_PER_Pos 0 /**< \brief (RTC_MODE0_INTENSET) Periodic Interval x Interrupt Enable */
#define RTC_MODE0_INTENSET_PER_Msk (_U_(0xFF) << RTC_MODE0_INTENSET_PER_Pos)
#define RTC_MODE0_INTENSET_PER(value) (RTC_MODE0_INTENSET_PER_Msk & ((value) << RTC_MODE0_INTENSET_PER_Pos))
#define RTC_MODE0_INTENSET_CMP0_Pos 8 /**< \brief (RTC_MODE0_INTENSET) Compare 0 Interrupt Enable */
#define RTC_MODE0_INTENSET_CMP0 (_U_(1) << RTC_MODE0_INTENSET_CMP0_Pos)
#define RTC_MODE0_INTENSET_CMP1_Pos 9 /**< \brief (RTC_MODE0_INTENSET) Compare 1 Interrupt Enable */
#define RTC_MODE0_INTENSET_CMP1 (_U_(1) << RTC_MODE0_INTENSET_CMP1_Pos)
#define RTC_MODE0_INTENSET_CMP_Pos 8 /**< \brief (RTC_MODE0_INTENSET) Compare x Interrupt Enable */
#define RTC_MODE0_INTENSET_CMP_Msk (_U_(0x3) << RTC_MODE0_INTENSET_CMP_Pos)
#define RTC_MODE0_INTENSET_CMP(value) (RTC_MODE0_INTENSET_CMP_Msk & ((value) << RTC_MODE0_INTENSET_CMP_Pos))
#define RTC_MODE0_INTENSET_TAMPER_Pos 14 /**< \brief (RTC_MODE0_INTENSET) Tamper Enable */
#define RTC_MODE0_INTENSET_TAMPER (_U_(0x1) << RTC_MODE0_INTENSET_TAMPER_Pos)
#define RTC_MODE0_INTENSET_OVF_Pos 15 /**< \brief (RTC_MODE0_INTENSET) Overflow Interrupt Enable */
#define RTC_MODE0_INTENSET_OVF (_U_(0x1) << RTC_MODE0_INTENSET_OVF_Pos)
#define RTC_MODE0_INTENSET_MASK _U_(0xC3FF) /**< \brief (RTC_MODE0_INTENSET) MASK Register */
/* -------- RTC_MODE1_INTENSET : (RTC Offset: 0x0A) (R/W 16) MODE1 MODE1 Interrupt Enable Set -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 Interrupt Enable */
uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 Interrupt Enable */
uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 Interrupt Enable */
uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 Interrupt Enable */
uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 Interrupt Enable */
uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 Interrupt Enable */
uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 Interrupt Enable */
uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 Interrupt Enable */
uint16_t CMP0:1; /*!< bit: 8 Compare 0 Interrupt Enable */
uint16_t CMP1:1; /*!< bit: 9 Compare 1 Interrupt Enable */
uint16_t CMP2:1; /*!< bit: 10 Compare 2 Interrupt Enable */
uint16_t CMP3:1; /*!< bit: 11 Compare 3 Interrupt Enable */
uint16_t :2; /*!< bit: 12..13 Reserved */
uint16_t TAMPER:1; /*!< bit: 14 Tamper Enable */
uint16_t OVF:1; /*!< bit: 15 Overflow Interrupt Enable */
} bit; /*!< Structure used for bit access */
struct {
uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x Interrupt Enable */
uint16_t CMP:4; /*!< bit: 8..11 Compare x Interrupt Enable */
uint16_t :4; /*!< bit: 12..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_INTENSET_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_INTENSET_OFFSET 0x0A /**< \brief (RTC_MODE1_INTENSET offset) MODE1 Interrupt Enable Set */
#define RTC_MODE1_INTENSET_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_INTENSET reset_value) MODE1 Interrupt Enable Set */
#define RTC_MODE1_INTENSET_PER0_Pos 0 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 0 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER0 (_U_(1) << RTC_MODE1_INTENSET_PER0_Pos)
#define RTC_MODE1_INTENSET_PER1_Pos 1 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 1 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER1 (_U_(1) << RTC_MODE1_INTENSET_PER1_Pos)
#define RTC_MODE1_INTENSET_PER2_Pos 2 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 2 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER2 (_U_(1) << RTC_MODE1_INTENSET_PER2_Pos)
#define RTC_MODE1_INTENSET_PER3_Pos 3 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 3 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER3 (_U_(1) << RTC_MODE1_INTENSET_PER3_Pos)
#define RTC_MODE1_INTENSET_PER4_Pos 4 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 4 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER4 (_U_(1) << RTC_MODE1_INTENSET_PER4_Pos)
#define RTC_MODE1_INTENSET_PER5_Pos 5 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 5 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER5 (_U_(1) << RTC_MODE1_INTENSET_PER5_Pos)
#define RTC_MODE1_INTENSET_PER6_Pos 6 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 6 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER6 (_U_(1) << RTC_MODE1_INTENSET_PER6_Pos)
#define RTC_MODE1_INTENSET_PER7_Pos 7 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 7 Interrupt Enable */
#define RTC_MODE1_INTENSET_PER7 (_U_(1) << RTC_MODE1_INTENSET_PER7_Pos)
#define RTC_MODE1_INTENSET_PER_Pos 0 /**< \brief (RTC_MODE1_INTENSET) Periodic Interval x Interrupt Enable */
#define RTC_MODE1_INTENSET_PER_Msk (_U_(0xFF) << RTC_MODE1_INTENSET_PER_Pos)
#define RTC_MODE1_INTENSET_PER(value) (RTC_MODE1_INTENSET_PER_Msk & ((value) << RTC_MODE1_INTENSET_PER_Pos))
#define RTC_MODE1_INTENSET_CMP0_Pos 8 /**< \brief (RTC_MODE1_INTENSET) Compare 0 Interrupt Enable */
#define RTC_MODE1_INTENSET_CMP0 (_U_(1) << RTC_MODE1_INTENSET_CMP0_Pos)
#define RTC_MODE1_INTENSET_CMP1_Pos 9 /**< \brief (RTC_MODE1_INTENSET) Compare 1 Interrupt Enable */
#define RTC_MODE1_INTENSET_CMP1 (_U_(1) << RTC_MODE1_INTENSET_CMP1_Pos)
#define RTC_MODE1_INTENSET_CMP2_Pos 10 /**< \brief (RTC_MODE1_INTENSET) Compare 2 Interrupt Enable */
#define RTC_MODE1_INTENSET_CMP2 (_U_(1) << RTC_MODE1_INTENSET_CMP2_Pos)
#define RTC_MODE1_INTENSET_CMP3_Pos 11 /**< \brief (RTC_MODE1_INTENSET) Compare 3 Interrupt Enable */
#define RTC_MODE1_INTENSET_CMP3 (_U_(1) << RTC_MODE1_INTENSET_CMP3_Pos)
#define RTC_MODE1_INTENSET_CMP_Pos 8 /**< \brief (RTC_MODE1_INTENSET) Compare x Interrupt Enable */
#define RTC_MODE1_INTENSET_CMP_Msk (_U_(0xF) << RTC_MODE1_INTENSET_CMP_Pos)
#define RTC_MODE1_INTENSET_CMP(value) (RTC_MODE1_INTENSET_CMP_Msk & ((value) << RTC_MODE1_INTENSET_CMP_Pos))
#define RTC_MODE1_INTENSET_TAMPER_Pos 14 /**< \brief (RTC_MODE1_INTENSET) Tamper Enable */
#define RTC_MODE1_INTENSET_TAMPER (_U_(0x1) << RTC_MODE1_INTENSET_TAMPER_Pos)
#define RTC_MODE1_INTENSET_OVF_Pos 15 /**< \brief (RTC_MODE1_INTENSET) Overflow Interrupt Enable */
#define RTC_MODE1_INTENSET_OVF (_U_(0x1) << RTC_MODE1_INTENSET_OVF_Pos)
#define RTC_MODE1_INTENSET_MASK _U_(0xCFFF) /**< \brief (RTC_MODE1_INTENSET) MASK Register */
/* -------- RTC_MODE2_INTENSET : (RTC Offset: 0x0A) (R/W 16) MODE2 MODE2 Interrupt Enable Set -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 Enable */
uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 Enable */
uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 Enable */
uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 Enable */
uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 Enable */
uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 Enable */
uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 Enable */
uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 Enable */
uint16_t ALARM0:1; /*!< bit: 8 Alarm 0 Interrupt Enable */
uint16_t ALARM1:1; /*!< bit: 9 Alarm 1 Interrupt Enable */
uint16_t :4; /*!< bit: 10..13 Reserved */
uint16_t TAMPER:1; /*!< bit: 14 Tamper Enable */
uint16_t OVF:1; /*!< bit: 15 Overflow Interrupt Enable */
} bit; /*!< Structure used for bit access */
struct {
uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x Enable */
uint16_t ALARM:2; /*!< bit: 8.. 9 Alarm x Interrupt Enable */
uint16_t :6; /*!< bit: 10..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE2_INTENSET_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_INTENSET_OFFSET 0x0A /**< \brief (RTC_MODE2_INTENSET offset) MODE2 Interrupt Enable Set */
#define RTC_MODE2_INTENSET_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE2_INTENSET reset_value) MODE2 Interrupt Enable Set */
#define RTC_MODE2_INTENSET_PER0_Pos 0 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 0 Enable */
#define RTC_MODE2_INTENSET_PER0 (_U_(1) << RTC_MODE2_INTENSET_PER0_Pos)
#define RTC_MODE2_INTENSET_PER1_Pos 1 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 1 Enable */
#define RTC_MODE2_INTENSET_PER1 (_U_(1) << RTC_MODE2_INTENSET_PER1_Pos)
#define RTC_MODE2_INTENSET_PER2_Pos 2 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 2 Enable */
#define RTC_MODE2_INTENSET_PER2 (_U_(1) << RTC_MODE2_INTENSET_PER2_Pos)
#define RTC_MODE2_INTENSET_PER3_Pos 3 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 3 Enable */
#define RTC_MODE2_INTENSET_PER3 (_U_(1) << RTC_MODE2_INTENSET_PER3_Pos)
#define RTC_MODE2_INTENSET_PER4_Pos 4 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 4 Enable */
#define RTC_MODE2_INTENSET_PER4 (_U_(1) << RTC_MODE2_INTENSET_PER4_Pos)
#define RTC_MODE2_INTENSET_PER5_Pos 5 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 5 Enable */
#define RTC_MODE2_INTENSET_PER5 (_U_(1) << RTC_MODE2_INTENSET_PER5_Pos)
#define RTC_MODE2_INTENSET_PER6_Pos 6 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 6 Enable */
#define RTC_MODE2_INTENSET_PER6 (_U_(1) << RTC_MODE2_INTENSET_PER6_Pos)
#define RTC_MODE2_INTENSET_PER7_Pos 7 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 7 Enable */
#define RTC_MODE2_INTENSET_PER7 (_U_(1) << RTC_MODE2_INTENSET_PER7_Pos)
#define RTC_MODE2_INTENSET_PER_Pos 0 /**< \brief (RTC_MODE2_INTENSET) Periodic Interval x Enable */
#define RTC_MODE2_INTENSET_PER_Msk (_U_(0xFF) << RTC_MODE2_INTENSET_PER_Pos)
#define RTC_MODE2_INTENSET_PER(value) (RTC_MODE2_INTENSET_PER_Msk & ((value) << RTC_MODE2_INTENSET_PER_Pos))
#define RTC_MODE2_INTENSET_ALARM0_Pos 8 /**< \brief (RTC_MODE2_INTENSET) Alarm 0 Interrupt Enable */
#define RTC_MODE2_INTENSET_ALARM0 (_U_(1) << RTC_MODE2_INTENSET_ALARM0_Pos)
#define RTC_MODE2_INTENSET_ALARM1_Pos 9 /**< \brief (RTC_MODE2_INTENSET) Alarm 1 Interrupt Enable */
#define RTC_MODE2_INTENSET_ALARM1 (_U_(1) << RTC_MODE2_INTENSET_ALARM1_Pos)
#define RTC_MODE2_INTENSET_ALARM_Pos 8 /**< \brief (RTC_MODE2_INTENSET) Alarm x Interrupt Enable */
#define RTC_MODE2_INTENSET_ALARM_Msk (_U_(0x3) << RTC_MODE2_INTENSET_ALARM_Pos)
#define RTC_MODE2_INTENSET_ALARM(value) (RTC_MODE2_INTENSET_ALARM_Msk & ((value) << RTC_MODE2_INTENSET_ALARM_Pos))
#define RTC_MODE2_INTENSET_TAMPER_Pos 14 /**< \brief (RTC_MODE2_INTENSET) Tamper Enable */
#define RTC_MODE2_INTENSET_TAMPER (_U_(0x1) << RTC_MODE2_INTENSET_TAMPER_Pos)
#define RTC_MODE2_INTENSET_OVF_Pos 15 /**< \brief (RTC_MODE2_INTENSET) Overflow Interrupt Enable */
#define RTC_MODE2_INTENSET_OVF (_U_(0x1) << RTC_MODE2_INTENSET_OVF_Pos)
#define RTC_MODE2_INTENSET_MASK _U_(0xC3FF) /**< \brief (RTC_MODE2_INTENSET) MASK Register */
/* -------- RTC_MODE0_INTFLAG : (RTC Offset: 0x0C) (R/W 16) MODE0 MODE0 Interrupt Flag Status and Clear -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union { // __I to avoid read-modify-write on write-to-clear register
struct {
__I uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 */
__I uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 */
__I uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 */
__I uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 */
__I uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 */
__I uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 */
__I uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 */
__I uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 */
__I uint16_t CMP0:1; /*!< bit: 8 Compare 0 */
__I uint16_t CMP1:1; /*!< bit: 9 Compare 1 */
__I uint16_t :4; /*!< bit: 10..13 Reserved */
__I uint16_t TAMPER:1; /*!< bit: 14 Tamper */
__I uint16_t OVF:1; /*!< bit: 15 Overflow */
} bit; /*!< Structure used for bit access */
struct {
__I uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x */
__I uint16_t CMP:2; /*!< bit: 8.. 9 Compare x */
__I uint16_t :6; /*!< bit: 10..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE0_INTFLAG_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_INTFLAG_OFFSET 0x0C /**< \brief (RTC_MODE0_INTFLAG offset) MODE0 Interrupt Flag Status and Clear */
#define RTC_MODE0_INTFLAG_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE0_INTFLAG reset_value) MODE0 Interrupt Flag Status and Clear */
#define RTC_MODE0_INTFLAG_PER0_Pos 0 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 0 */
#define RTC_MODE0_INTFLAG_PER0 (_U_(1) << RTC_MODE0_INTFLAG_PER0_Pos)
#define RTC_MODE0_INTFLAG_PER1_Pos 1 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 1 */
#define RTC_MODE0_INTFLAG_PER1 (_U_(1) << RTC_MODE0_INTFLAG_PER1_Pos)
#define RTC_MODE0_INTFLAG_PER2_Pos 2 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 2 */
#define RTC_MODE0_INTFLAG_PER2 (_U_(1) << RTC_MODE0_INTFLAG_PER2_Pos)
#define RTC_MODE0_INTFLAG_PER3_Pos 3 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 3 */
#define RTC_MODE0_INTFLAG_PER3 (_U_(1) << RTC_MODE0_INTFLAG_PER3_Pos)
#define RTC_MODE0_INTFLAG_PER4_Pos 4 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 4 */
#define RTC_MODE0_INTFLAG_PER4 (_U_(1) << RTC_MODE0_INTFLAG_PER4_Pos)
#define RTC_MODE0_INTFLAG_PER5_Pos 5 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 5 */
#define RTC_MODE0_INTFLAG_PER5 (_U_(1) << RTC_MODE0_INTFLAG_PER5_Pos)
#define RTC_MODE0_INTFLAG_PER6_Pos 6 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 6 */
#define RTC_MODE0_INTFLAG_PER6 (_U_(1) << RTC_MODE0_INTFLAG_PER6_Pos)
#define RTC_MODE0_INTFLAG_PER7_Pos 7 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 7 */
#define RTC_MODE0_INTFLAG_PER7 (_U_(1) << RTC_MODE0_INTFLAG_PER7_Pos)
#define RTC_MODE0_INTFLAG_PER_Pos 0 /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval x */
#define RTC_MODE0_INTFLAG_PER_Msk (_U_(0xFF) << RTC_MODE0_INTFLAG_PER_Pos)
#define RTC_MODE0_INTFLAG_PER(value) (RTC_MODE0_INTFLAG_PER_Msk & ((value) << RTC_MODE0_INTFLAG_PER_Pos))
#define RTC_MODE0_INTFLAG_CMP0_Pos 8 /**< \brief (RTC_MODE0_INTFLAG) Compare 0 */
#define RTC_MODE0_INTFLAG_CMP0 (_U_(1) << RTC_MODE0_INTFLAG_CMP0_Pos)
#define RTC_MODE0_INTFLAG_CMP1_Pos 9 /**< \brief (RTC_MODE0_INTFLAG) Compare 1 */
#define RTC_MODE0_INTFLAG_CMP1 (_U_(1) << RTC_MODE0_INTFLAG_CMP1_Pos)
#define RTC_MODE0_INTFLAG_CMP_Pos 8 /**< \brief (RTC_MODE0_INTFLAG) Compare x */
#define RTC_MODE0_INTFLAG_CMP_Msk (_U_(0x3) << RTC_MODE0_INTFLAG_CMP_Pos)
#define RTC_MODE0_INTFLAG_CMP(value) (RTC_MODE0_INTFLAG_CMP_Msk & ((value) << RTC_MODE0_INTFLAG_CMP_Pos))
#define RTC_MODE0_INTFLAG_TAMPER_Pos 14 /**< \brief (RTC_MODE0_INTFLAG) Tamper */
#define RTC_MODE0_INTFLAG_TAMPER (_U_(0x1) << RTC_MODE0_INTFLAG_TAMPER_Pos)
#define RTC_MODE0_INTFLAG_OVF_Pos 15 /**< \brief (RTC_MODE0_INTFLAG) Overflow */
#define RTC_MODE0_INTFLAG_OVF (_U_(0x1) << RTC_MODE0_INTFLAG_OVF_Pos)
#define RTC_MODE0_INTFLAG_MASK _U_(0xC3FF) /**< \brief (RTC_MODE0_INTFLAG) MASK Register */
/* -------- RTC_MODE1_INTFLAG : (RTC Offset: 0x0C) (R/W 16) MODE1 MODE1 Interrupt Flag Status and Clear -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union { // __I to avoid read-modify-write on write-to-clear register
struct {
__I uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 */
__I uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 */
__I uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 */
__I uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 */
__I uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 */
__I uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 */
__I uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 */
__I uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 */
__I uint16_t CMP0:1; /*!< bit: 8 Compare 0 */
__I uint16_t CMP1:1; /*!< bit: 9 Compare 1 */
__I uint16_t CMP2:1; /*!< bit: 10 Compare 2 */
__I uint16_t CMP3:1; /*!< bit: 11 Compare 3 */
__I uint16_t :2; /*!< bit: 12..13 Reserved */
__I uint16_t TAMPER:1; /*!< bit: 14 Tamper */
__I uint16_t OVF:1; /*!< bit: 15 Overflow */
} bit; /*!< Structure used for bit access */
struct {
__I uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x */
__I uint16_t CMP:4; /*!< bit: 8..11 Compare x */
__I uint16_t :4; /*!< bit: 12..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_INTFLAG_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_INTFLAG_OFFSET 0x0C /**< \brief (RTC_MODE1_INTFLAG offset) MODE1 Interrupt Flag Status and Clear */
#define RTC_MODE1_INTFLAG_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_INTFLAG reset_value) MODE1 Interrupt Flag Status and Clear */
#define RTC_MODE1_INTFLAG_PER0_Pos 0 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 0 */
#define RTC_MODE1_INTFLAG_PER0 (_U_(1) << RTC_MODE1_INTFLAG_PER0_Pos)
#define RTC_MODE1_INTFLAG_PER1_Pos 1 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 1 */
#define RTC_MODE1_INTFLAG_PER1 (_U_(1) << RTC_MODE1_INTFLAG_PER1_Pos)
#define RTC_MODE1_INTFLAG_PER2_Pos 2 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 2 */
#define RTC_MODE1_INTFLAG_PER2 (_U_(1) << RTC_MODE1_INTFLAG_PER2_Pos)
#define RTC_MODE1_INTFLAG_PER3_Pos 3 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 3 */
#define RTC_MODE1_INTFLAG_PER3 (_U_(1) << RTC_MODE1_INTFLAG_PER3_Pos)
#define RTC_MODE1_INTFLAG_PER4_Pos 4 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 4 */
#define RTC_MODE1_INTFLAG_PER4 (_U_(1) << RTC_MODE1_INTFLAG_PER4_Pos)
#define RTC_MODE1_INTFLAG_PER5_Pos 5 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 5 */
#define RTC_MODE1_INTFLAG_PER5 (_U_(1) << RTC_MODE1_INTFLAG_PER5_Pos)
#define RTC_MODE1_INTFLAG_PER6_Pos 6 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 6 */
#define RTC_MODE1_INTFLAG_PER6 (_U_(1) << RTC_MODE1_INTFLAG_PER6_Pos)
#define RTC_MODE1_INTFLAG_PER7_Pos 7 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 7 */
#define RTC_MODE1_INTFLAG_PER7 (_U_(1) << RTC_MODE1_INTFLAG_PER7_Pos)
#define RTC_MODE1_INTFLAG_PER_Pos 0 /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval x */
#define RTC_MODE1_INTFLAG_PER_Msk (_U_(0xFF) << RTC_MODE1_INTFLAG_PER_Pos)
#define RTC_MODE1_INTFLAG_PER(value) (RTC_MODE1_INTFLAG_PER_Msk & ((value) << RTC_MODE1_INTFLAG_PER_Pos))
#define RTC_MODE1_INTFLAG_CMP0_Pos 8 /**< \brief (RTC_MODE1_INTFLAG) Compare 0 */
#define RTC_MODE1_INTFLAG_CMP0 (_U_(1) << RTC_MODE1_INTFLAG_CMP0_Pos)
#define RTC_MODE1_INTFLAG_CMP1_Pos 9 /**< \brief (RTC_MODE1_INTFLAG) Compare 1 */
#define RTC_MODE1_INTFLAG_CMP1 (_U_(1) << RTC_MODE1_INTFLAG_CMP1_Pos)
#define RTC_MODE1_INTFLAG_CMP2_Pos 10 /**< \brief (RTC_MODE1_INTFLAG) Compare 2 */
#define RTC_MODE1_INTFLAG_CMP2 (_U_(1) << RTC_MODE1_INTFLAG_CMP2_Pos)
#define RTC_MODE1_INTFLAG_CMP3_Pos 11 /**< \brief (RTC_MODE1_INTFLAG) Compare 3 */
#define RTC_MODE1_INTFLAG_CMP3 (_U_(1) << RTC_MODE1_INTFLAG_CMP3_Pos)
#define RTC_MODE1_INTFLAG_CMP_Pos 8 /**< \brief (RTC_MODE1_INTFLAG) Compare x */
#define RTC_MODE1_INTFLAG_CMP_Msk (_U_(0xF) << RTC_MODE1_INTFLAG_CMP_Pos)
#define RTC_MODE1_INTFLAG_CMP(value) (RTC_MODE1_INTFLAG_CMP_Msk & ((value) << RTC_MODE1_INTFLAG_CMP_Pos))
#define RTC_MODE1_INTFLAG_TAMPER_Pos 14 /**< \brief (RTC_MODE1_INTFLAG) Tamper */
#define RTC_MODE1_INTFLAG_TAMPER (_U_(0x1) << RTC_MODE1_INTFLAG_TAMPER_Pos)
#define RTC_MODE1_INTFLAG_OVF_Pos 15 /**< \brief (RTC_MODE1_INTFLAG) Overflow */
#define RTC_MODE1_INTFLAG_OVF (_U_(0x1) << RTC_MODE1_INTFLAG_OVF_Pos)
#define RTC_MODE1_INTFLAG_MASK _U_(0xCFFF) /**< \brief (RTC_MODE1_INTFLAG) MASK Register */
/* -------- RTC_MODE2_INTFLAG : (RTC Offset: 0x0C) (R/W 16) MODE2 MODE2 Interrupt Flag Status and Clear -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union { // __I to avoid read-modify-write on write-to-clear register
struct {
__I uint16_t PER0:1; /*!< bit: 0 Periodic Interval 0 */
__I uint16_t PER1:1; /*!< bit: 1 Periodic Interval 1 */
__I uint16_t PER2:1; /*!< bit: 2 Periodic Interval 2 */
__I uint16_t PER3:1; /*!< bit: 3 Periodic Interval 3 */
__I uint16_t PER4:1; /*!< bit: 4 Periodic Interval 4 */
__I uint16_t PER5:1; /*!< bit: 5 Periodic Interval 5 */
__I uint16_t PER6:1; /*!< bit: 6 Periodic Interval 6 */
__I uint16_t PER7:1; /*!< bit: 7 Periodic Interval 7 */
__I uint16_t ALARM0:1; /*!< bit: 8 Alarm 0 */
__I uint16_t ALARM1:1; /*!< bit: 9 Alarm 1 */
__I uint16_t :4; /*!< bit: 10..13 Reserved */
__I uint16_t TAMPER:1; /*!< bit: 14 Tamper */
__I uint16_t OVF:1; /*!< bit: 15 Overflow */
} bit; /*!< Structure used for bit access */
struct {
__I uint16_t PER:8; /*!< bit: 0.. 7 Periodic Interval x */
__I uint16_t ALARM:2; /*!< bit: 8.. 9 Alarm x */
__I uint16_t :6; /*!< bit: 10..15 Reserved */
} vec; /*!< Structure used for vec access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE2_INTFLAG_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_INTFLAG_OFFSET 0x0C /**< \brief (RTC_MODE2_INTFLAG offset) MODE2 Interrupt Flag Status and Clear */
#define RTC_MODE2_INTFLAG_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE2_INTFLAG reset_value) MODE2 Interrupt Flag Status and Clear */
#define RTC_MODE2_INTFLAG_PER0_Pos 0 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 0 */
#define RTC_MODE2_INTFLAG_PER0 (_U_(1) << RTC_MODE2_INTFLAG_PER0_Pos)
#define RTC_MODE2_INTFLAG_PER1_Pos 1 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 1 */
#define RTC_MODE2_INTFLAG_PER1 (_U_(1) << RTC_MODE2_INTFLAG_PER1_Pos)
#define RTC_MODE2_INTFLAG_PER2_Pos 2 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 2 */
#define RTC_MODE2_INTFLAG_PER2 (_U_(1) << RTC_MODE2_INTFLAG_PER2_Pos)
#define RTC_MODE2_INTFLAG_PER3_Pos 3 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 3 */
#define RTC_MODE2_INTFLAG_PER3 (_U_(1) << RTC_MODE2_INTFLAG_PER3_Pos)
#define RTC_MODE2_INTFLAG_PER4_Pos 4 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 4 */
#define RTC_MODE2_INTFLAG_PER4 (_U_(1) << RTC_MODE2_INTFLAG_PER4_Pos)
#define RTC_MODE2_INTFLAG_PER5_Pos 5 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 5 */
#define RTC_MODE2_INTFLAG_PER5 (_U_(1) << RTC_MODE2_INTFLAG_PER5_Pos)
#define RTC_MODE2_INTFLAG_PER6_Pos 6 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 6 */
#define RTC_MODE2_INTFLAG_PER6 (_U_(1) << RTC_MODE2_INTFLAG_PER6_Pos)
#define RTC_MODE2_INTFLAG_PER7_Pos 7 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 7 */
#define RTC_MODE2_INTFLAG_PER7 (_U_(1) << RTC_MODE2_INTFLAG_PER7_Pos)
#define RTC_MODE2_INTFLAG_PER_Pos 0 /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval x */
#define RTC_MODE2_INTFLAG_PER_Msk (_U_(0xFF) << RTC_MODE2_INTFLAG_PER_Pos)
#define RTC_MODE2_INTFLAG_PER(value) (RTC_MODE2_INTFLAG_PER_Msk & ((value) << RTC_MODE2_INTFLAG_PER_Pos))
#define RTC_MODE2_INTFLAG_ALARM0_Pos 8 /**< \brief (RTC_MODE2_INTFLAG) Alarm 0 */
#define RTC_MODE2_INTFLAG_ALARM0 (_U_(1) << RTC_MODE2_INTFLAG_ALARM0_Pos)
#define RTC_MODE2_INTFLAG_ALARM1_Pos 9 /**< \brief (RTC_MODE2_INTFLAG) Alarm 1 */
#define RTC_MODE2_INTFLAG_ALARM1 (_U_(1) << RTC_MODE2_INTFLAG_ALARM1_Pos)
#define RTC_MODE2_INTFLAG_ALARM_Pos 8 /**< \brief (RTC_MODE2_INTFLAG) Alarm x */
#define RTC_MODE2_INTFLAG_ALARM_Msk (_U_(0x3) << RTC_MODE2_INTFLAG_ALARM_Pos)
#define RTC_MODE2_INTFLAG_ALARM(value) (RTC_MODE2_INTFLAG_ALARM_Msk & ((value) << RTC_MODE2_INTFLAG_ALARM_Pos))
#define RTC_MODE2_INTFLAG_TAMPER_Pos 14 /**< \brief (RTC_MODE2_INTFLAG) Tamper */
#define RTC_MODE2_INTFLAG_TAMPER (_U_(0x1) << RTC_MODE2_INTFLAG_TAMPER_Pos)
#define RTC_MODE2_INTFLAG_OVF_Pos 15 /**< \brief (RTC_MODE2_INTFLAG) Overflow */
#define RTC_MODE2_INTFLAG_OVF (_U_(0x1) << RTC_MODE2_INTFLAG_OVF_Pos)
#define RTC_MODE2_INTFLAG_MASK _U_(0xC3FF) /**< \brief (RTC_MODE2_INTFLAG) MASK Register */
/* -------- RTC_DBGCTRL : (RTC Offset: 0x0E) (R/W 8) Debug Control -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint8_t DBGRUN:1; /*!< bit: 0 Run During Debug */
uint8_t :7; /*!< bit: 1.. 7 Reserved */
} bit; /*!< Structure used for bit access */
uint8_t reg; /*!< Type used for register access */
} RTC_DBGCTRL_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_DBGCTRL_OFFSET 0x0E /**< \brief (RTC_DBGCTRL offset) Debug Control */
#define RTC_DBGCTRL_RESETVALUE _U_(0x00) /**< \brief (RTC_DBGCTRL reset_value) Debug Control */
#define RTC_DBGCTRL_DBGRUN_Pos 0 /**< \brief (RTC_DBGCTRL) Run During Debug */
#define RTC_DBGCTRL_DBGRUN (_U_(0x1) << RTC_DBGCTRL_DBGRUN_Pos)
#define RTC_DBGCTRL_MASK _U_(0x01) /**< \brief (RTC_DBGCTRL) MASK Register */
/* -------- RTC_MODE0_SYNCBUSY : (RTC Offset: 0x10) (R/ 32) MODE0 MODE0 Synchronization Busy Status -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t SWRST:1; /*!< bit: 0 Software Reset Busy */
uint32_t ENABLE:1; /*!< bit: 1 Enable Bit Busy */
uint32_t FREQCORR:1; /*!< bit: 2 FREQCORR Register Busy */
uint32_t COUNT:1; /*!< bit: 3 COUNT Register Busy */
uint32_t :1; /*!< bit: 4 Reserved */
uint32_t COMP0:1; /*!< bit: 5 COMP 0 Register Busy */
uint32_t COMP1:1; /*!< bit: 6 COMP 1 Register Busy */
uint32_t :8; /*!< bit: 7..14 Reserved */
uint32_t COUNTSYNC:1; /*!< bit: 15 Count Synchronization Enable Bit Busy */
uint32_t GP0:1; /*!< bit: 16 General Purpose 0 Register Busy */
uint32_t GP1:1; /*!< bit: 17 General Purpose 1 Register Busy */
uint32_t GP2:1; /*!< bit: 18 General Purpose 2 Register Busy */
uint32_t GP3:1; /*!< bit: 19 General Purpose 3 Register Busy */
uint32_t :12; /*!< bit: 20..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t :5; /*!< bit: 0.. 4 Reserved */
uint32_t COMP:2; /*!< bit: 5.. 6 COMP x Register Busy */
uint32_t :9; /*!< bit: 7..15 Reserved */
uint32_t GP:4; /*!< bit: 16..19 General Purpose x Register Busy */
uint32_t :12; /*!< bit: 20..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE0_SYNCBUSY_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_SYNCBUSY_OFFSET 0x10 /**< \brief (RTC_MODE0_SYNCBUSY offset) MODE0 Synchronization Busy Status */
#define RTC_MODE0_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_SYNCBUSY reset_value) MODE0 Synchronization Busy Status */
#define RTC_MODE0_SYNCBUSY_SWRST_Pos 0 /**< \brief (RTC_MODE0_SYNCBUSY) Software Reset Busy */
#define RTC_MODE0_SYNCBUSY_SWRST (_U_(0x1) << RTC_MODE0_SYNCBUSY_SWRST_Pos)
#define RTC_MODE0_SYNCBUSY_ENABLE_Pos 1 /**< \brief (RTC_MODE0_SYNCBUSY) Enable Bit Busy */
#define RTC_MODE0_SYNCBUSY_ENABLE (_U_(0x1) << RTC_MODE0_SYNCBUSY_ENABLE_Pos)
#define RTC_MODE0_SYNCBUSY_FREQCORR_Pos 2 /**< \brief (RTC_MODE0_SYNCBUSY) FREQCORR Register Busy */
#define RTC_MODE0_SYNCBUSY_FREQCORR (_U_(0x1) << RTC_MODE0_SYNCBUSY_FREQCORR_Pos)
#define RTC_MODE0_SYNCBUSY_COUNT_Pos 3 /**< \brief (RTC_MODE0_SYNCBUSY) COUNT Register Busy */
#define RTC_MODE0_SYNCBUSY_COUNT (_U_(0x1) << RTC_MODE0_SYNCBUSY_COUNT_Pos)
#define RTC_MODE0_SYNCBUSY_COMP0_Pos 5 /**< \brief (RTC_MODE0_SYNCBUSY) COMP 0 Register Busy */
#define RTC_MODE0_SYNCBUSY_COMP0 (_U_(1) << RTC_MODE0_SYNCBUSY_COMP0_Pos)
#define RTC_MODE0_SYNCBUSY_COMP1_Pos 6 /**< \brief (RTC_MODE0_SYNCBUSY) COMP 1 Register Busy */
#define RTC_MODE0_SYNCBUSY_COMP1 (_U_(1) << RTC_MODE0_SYNCBUSY_COMP1_Pos)
#define RTC_MODE0_SYNCBUSY_COMP_Pos 5 /**< \brief (RTC_MODE0_SYNCBUSY) COMP x Register Busy */
#define RTC_MODE0_SYNCBUSY_COMP_Msk (_U_(0x3) << RTC_MODE0_SYNCBUSY_COMP_Pos)
#define RTC_MODE0_SYNCBUSY_COMP(value) (RTC_MODE0_SYNCBUSY_COMP_Msk & ((value) << RTC_MODE0_SYNCBUSY_COMP_Pos))
#define RTC_MODE0_SYNCBUSY_COUNTSYNC_Pos 15 /**< \brief (RTC_MODE0_SYNCBUSY) Count Synchronization Enable Bit Busy */
#define RTC_MODE0_SYNCBUSY_COUNTSYNC (_U_(0x1) << RTC_MODE0_SYNCBUSY_COUNTSYNC_Pos)
#define RTC_MODE0_SYNCBUSY_GP0_Pos 16 /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose 0 Register Busy */
#define RTC_MODE0_SYNCBUSY_GP0 (_U_(1) << RTC_MODE0_SYNCBUSY_GP0_Pos)
#define RTC_MODE0_SYNCBUSY_GP1_Pos 17 /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose 1 Register Busy */
#define RTC_MODE0_SYNCBUSY_GP1 (_U_(1) << RTC_MODE0_SYNCBUSY_GP1_Pos)
#define RTC_MODE0_SYNCBUSY_GP2_Pos 18 /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose 2 Register Busy */
#define RTC_MODE0_SYNCBUSY_GP2 (_U_(1) << RTC_MODE0_SYNCBUSY_GP2_Pos)
#define RTC_MODE0_SYNCBUSY_GP3_Pos 19 /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose 3 Register Busy */
#define RTC_MODE0_SYNCBUSY_GP3 (_U_(1) << RTC_MODE0_SYNCBUSY_GP3_Pos)
#define RTC_MODE0_SYNCBUSY_GP_Pos 16 /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose x Register Busy */
#define RTC_MODE0_SYNCBUSY_GP_Msk (_U_(0xF) << RTC_MODE0_SYNCBUSY_GP_Pos)
#define RTC_MODE0_SYNCBUSY_GP(value) (RTC_MODE0_SYNCBUSY_GP_Msk & ((value) << RTC_MODE0_SYNCBUSY_GP_Pos))
#define RTC_MODE0_SYNCBUSY_MASK _U_(0x000F806F) /**< \brief (RTC_MODE0_SYNCBUSY) MASK Register */
/* -------- RTC_MODE1_SYNCBUSY : (RTC Offset: 0x10) (R/ 32) MODE1 MODE1 Synchronization Busy Status -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t SWRST:1; /*!< bit: 0 Software Reset Bit Busy */
uint32_t ENABLE:1; /*!< bit: 1 Enable Bit Busy */
uint32_t FREQCORR:1; /*!< bit: 2 FREQCORR Register Busy */
uint32_t COUNT:1; /*!< bit: 3 COUNT Register Busy */
uint32_t PER:1; /*!< bit: 4 PER Register Busy */
uint32_t COMP0:1; /*!< bit: 5 COMP 0 Register Busy */
uint32_t COMP1:1; /*!< bit: 6 COMP 1 Register Busy */
uint32_t COMP2:1; /*!< bit: 7 COMP 2 Register Busy */
uint32_t COMP3:1; /*!< bit: 8 COMP 3 Register Busy */
uint32_t :6; /*!< bit: 9..14 Reserved */
uint32_t COUNTSYNC:1; /*!< bit: 15 Count Synchronization Enable Bit Busy */
uint32_t GP0:1; /*!< bit: 16 General Purpose 0 Register Busy */
uint32_t GP1:1; /*!< bit: 17 General Purpose 1 Register Busy */
uint32_t GP2:1; /*!< bit: 18 General Purpose 2 Register Busy */
uint32_t GP3:1; /*!< bit: 19 General Purpose 3 Register Busy */
uint32_t :12; /*!< bit: 20..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t :5; /*!< bit: 0.. 4 Reserved */
uint32_t COMP:4; /*!< bit: 5.. 8 COMP x Register Busy */
uint32_t :7; /*!< bit: 9..15 Reserved */
uint32_t GP:4; /*!< bit: 16..19 General Purpose x Register Busy */
uint32_t :12; /*!< bit: 20..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE1_SYNCBUSY_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_SYNCBUSY_OFFSET 0x10 /**< \brief (RTC_MODE1_SYNCBUSY offset) MODE1 Synchronization Busy Status */
#define RTC_MODE1_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE1_SYNCBUSY reset_value) MODE1 Synchronization Busy Status */
#define RTC_MODE1_SYNCBUSY_SWRST_Pos 0 /**< \brief (RTC_MODE1_SYNCBUSY) Software Reset Bit Busy */
#define RTC_MODE1_SYNCBUSY_SWRST (_U_(0x1) << RTC_MODE1_SYNCBUSY_SWRST_Pos)
#define RTC_MODE1_SYNCBUSY_ENABLE_Pos 1 /**< \brief (RTC_MODE1_SYNCBUSY) Enable Bit Busy */
#define RTC_MODE1_SYNCBUSY_ENABLE (_U_(0x1) << RTC_MODE1_SYNCBUSY_ENABLE_Pos)
#define RTC_MODE1_SYNCBUSY_FREQCORR_Pos 2 /**< \brief (RTC_MODE1_SYNCBUSY) FREQCORR Register Busy */
#define RTC_MODE1_SYNCBUSY_FREQCORR (_U_(0x1) << RTC_MODE1_SYNCBUSY_FREQCORR_Pos)
#define RTC_MODE1_SYNCBUSY_COUNT_Pos 3 /**< \brief (RTC_MODE1_SYNCBUSY) COUNT Register Busy */
#define RTC_MODE1_SYNCBUSY_COUNT (_U_(0x1) << RTC_MODE1_SYNCBUSY_COUNT_Pos)
#define RTC_MODE1_SYNCBUSY_PER_Pos 4 /**< \brief (RTC_MODE1_SYNCBUSY) PER Register Busy */
#define RTC_MODE1_SYNCBUSY_PER (_U_(0x1) << RTC_MODE1_SYNCBUSY_PER_Pos)
#define RTC_MODE1_SYNCBUSY_COMP0_Pos 5 /**< \brief (RTC_MODE1_SYNCBUSY) COMP 0 Register Busy */
#define RTC_MODE1_SYNCBUSY_COMP0 (_U_(1) << RTC_MODE1_SYNCBUSY_COMP0_Pos)
#define RTC_MODE1_SYNCBUSY_COMP1_Pos 6 /**< \brief (RTC_MODE1_SYNCBUSY) COMP 1 Register Busy */
#define RTC_MODE1_SYNCBUSY_COMP1 (_U_(1) << RTC_MODE1_SYNCBUSY_COMP1_Pos)
#define RTC_MODE1_SYNCBUSY_COMP2_Pos 7 /**< \brief (RTC_MODE1_SYNCBUSY) COMP 2 Register Busy */
#define RTC_MODE1_SYNCBUSY_COMP2 (_U_(1) << RTC_MODE1_SYNCBUSY_COMP2_Pos)
#define RTC_MODE1_SYNCBUSY_COMP3_Pos 8 /**< \brief (RTC_MODE1_SYNCBUSY) COMP 3 Register Busy */
#define RTC_MODE1_SYNCBUSY_COMP3 (_U_(1) << RTC_MODE1_SYNCBUSY_COMP3_Pos)
#define RTC_MODE1_SYNCBUSY_COMP_Pos 5 /**< \brief (RTC_MODE1_SYNCBUSY) COMP x Register Busy */
#define RTC_MODE1_SYNCBUSY_COMP_Msk (_U_(0xF) << RTC_MODE1_SYNCBUSY_COMP_Pos)
#define RTC_MODE1_SYNCBUSY_COMP(value) (RTC_MODE1_SYNCBUSY_COMP_Msk & ((value) << RTC_MODE1_SYNCBUSY_COMP_Pos))
#define RTC_MODE1_SYNCBUSY_COUNTSYNC_Pos 15 /**< \brief (RTC_MODE1_SYNCBUSY) Count Synchronization Enable Bit Busy */
#define RTC_MODE1_SYNCBUSY_COUNTSYNC (_U_(0x1) << RTC_MODE1_SYNCBUSY_COUNTSYNC_Pos)
#define RTC_MODE1_SYNCBUSY_GP0_Pos 16 /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose 0 Register Busy */
#define RTC_MODE1_SYNCBUSY_GP0 (_U_(1) << RTC_MODE1_SYNCBUSY_GP0_Pos)
#define RTC_MODE1_SYNCBUSY_GP1_Pos 17 /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose 1 Register Busy */
#define RTC_MODE1_SYNCBUSY_GP1 (_U_(1) << RTC_MODE1_SYNCBUSY_GP1_Pos)
#define RTC_MODE1_SYNCBUSY_GP2_Pos 18 /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose 2 Register Busy */
#define RTC_MODE1_SYNCBUSY_GP2 (_U_(1) << RTC_MODE1_SYNCBUSY_GP2_Pos)
#define RTC_MODE1_SYNCBUSY_GP3_Pos 19 /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose 3 Register Busy */
#define RTC_MODE1_SYNCBUSY_GP3 (_U_(1) << RTC_MODE1_SYNCBUSY_GP3_Pos)
#define RTC_MODE1_SYNCBUSY_GP_Pos 16 /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose x Register Busy */
#define RTC_MODE1_SYNCBUSY_GP_Msk (_U_(0xF) << RTC_MODE1_SYNCBUSY_GP_Pos)
#define RTC_MODE1_SYNCBUSY_GP(value) (RTC_MODE1_SYNCBUSY_GP_Msk & ((value) << RTC_MODE1_SYNCBUSY_GP_Pos))
#define RTC_MODE1_SYNCBUSY_MASK _U_(0x000F81FF) /**< \brief (RTC_MODE1_SYNCBUSY) MASK Register */
/* -------- RTC_MODE2_SYNCBUSY : (RTC Offset: 0x10) (R/ 32) MODE2 MODE2 Synchronization Busy Status -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t SWRST:1; /*!< bit: 0 Software Reset Bit Busy */
uint32_t ENABLE:1; /*!< bit: 1 Enable Bit Busy */
uint32_t FREQCORR:1; /*!< bit: 2 FREQCORR Register Busy */
uint32_t CLOCK:1; /*!< bit: 3 CLOCK Register Busy */
uint32_t :1; /*!< bit: 4 Reserved */
uint32_t ALARM0:1; /*!< bit: 5 ALARM 0 Register Busy */
uint32_t ALARM1:1; /*!< bit: 6 ALARM 1 Register Busy */
uint32_t :4; /*!< bit: 7..10 Reserved */
uint32_t MASK0:1; /*!< bit: 11 MASK 0 Register Busy */
uint32_t MASK1:1; /*!< bit: 12 MASK 1 Register Busy */
uint32_t :2; /*!< bit: 13..14 Reserved */
uint32_t CLOCKSYNC:1; /*!< bit: 15 Clock Synchronization Enable Bit Busy */
uint32_t GP0:1; /*!< bit: 16 General Purpose 0 Register Busy */
uint32_t GP1:1; /*!< bit: 17 General Purpose 1 Register Busy */
uint32_t GP2:1; /*!< bit: 18 General Purpose 2 Register Busy */
uint32_t GP3:1; /*!< bit: 19 General Purpose 3 Register Busy */
uint32_t :12; /*!< bit: 20..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t :5; /*!< bit: 0.. 4 Reserved */
uint32_t ALARM:2; /*!< bit: 5.. 6 ALARM x Register Busy */
uint32_t :4; /*!< bit: 7..10 Reserved */
uint32_t MASK:2; /*!< bit: 11..12 MASK x Register Busy */
uint32_t :3; /*!< bit: 13..15 Reserved */
uint32_t GP:4; /*!< bit: 16..19 General Purpose x Register Busy */
uint32_t :12; /*!< bit: 20..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE2_SYNCBUSY_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_SYNCBUSY_OFFSET 0x10 /**< \brief (RTC_MODE2_SYNCBUSY offset) MODE2 Synchronization Busy Status */
#define RTC_MODE2_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_SYNCBUSY reset_value) MODE2 Synchronization Busy Status */
#define RTC_MODE2_SYNCBUSY_SWRST_Pos 0 /**< \brief (RTC_MODE2_SYNCBUSY) Software Reset Bit Busy */
#define RTC_MODE2_SYNCBUSY_SWRST (_U_(0x1) << RTC_MODE2_SYNCBUSY_SWRST_Pos)
#define RTC_MODE2_SYNCBUSY_ENABLE_Pos 1 /**< \brief (RTC_MODE2_SYNCBUSY) Enable Bit Busy */
#define RTC_MODE2_SYNCBUSY_ENABLE (_U_(0x1) << RTC_MODE2_SYNCBUSY_ENABLE_Pos)
#define RTC_MODE2_SYNCBUSY_FREQCORR_Pos 2 /**< \brief (RTC_MODE2_SYNCBUSY) FREQCORR Register Busy */
#define RTC_MODE2_SYNCBUSY_FREQCORR (_U_(0x1) << RTC_MODE2_SYNCBUSY_FREQCORR_Pos)
#define RTC_MODE2_SYNCBUSY_CLOCK_Pos 3 /**< \brief (RTC_MODE2_SYNCBUSY) CLOCK Register Busy */
#define RTC_MODE2_SYNCBUSY_CLOCK (_U_(0x1) << RTC_MODE2_SYNCBUSY_CLOCK_Pos)
#define RTC_MODE2_SYNCBUSY_ALARM0_Pos 5 /**< \brief (RTC_MODE2_SYNCBUSY) ALARM 0 Register Busy */
#define RTC_MODE2_SYNCBUSY_ALARM0 (_U_(1) << RTC_MODE2_SYNCBUSY_ALARM0_Pos)
#define RTC_MODE2_SYNCBUSY_ALARM1_Pos 6 /**< \brief (RTC_MODE2_SYNCBUSY) ALARM 1 Register Busy */
#define RTC_MODE2_SYNCBUSY_ALARM1 (_U_(1) << RTC_MODE2_SYNCBUSY_ALARM1_Pos)
#define RTC_MODE2_SYNCBUSY_ALARM_Pos 5 /**< \brief (RTC_MODE2_SYNCBUSY) ALARM x Register Busy */
#define RTC_MODE2_SYNCBUSY_ALARM_Msk (_U_(0x3) << RTC_MODE2_SYNCBUSY_ALARM_Pos)
#define RTC_MODE2_SYNCBUSY_ALARM(value) (RTC_MODE2_SYNCBUSY_ALARM_Msk & ((value) << RTC_MODE2_SYNCBUSY_ALARM_Pos))
#define RTC_MODE2_SYNCBUSY_MASK0_Pos 11 /**< \brief (RTC_MODE2_SYNCBUSY) MASK 0 Register Busy */
#define RTC_MODE2_SYNCBUSY_MASK0 (_U_(1) << RTC_MODE2_SYNCBUSY_MASK0_Pos)
#define RTC_MODE2_SYNCBUSY_MASK1_Pos 12 /**< \brief (RTC_MODE2_SYNCBUSY) MASK 1 Register Busy */
#define RTC_MODE2_SYNCBUSY_MASK1 (_U_(1) << RTC_MODE2_SYNCBUSY_MASK1_Pos)
#define RTC_MODE2_SYNCBUSY_MASK_Pos 11 /**< \brief (RTC_MODE2_SYNCBUSY) MASK x Register Busy */
#define RTC_MODE2_SYNCBUSY_MASK_Msk (_U_(0x3) << RTC_MODE2_SYNCBUSY_MASK_Pos)
#define RTC_MODE2_SYNCBUSY_MASK(value) (RTC_MODE2_SYNCBUSY_MASK_Msk & ((value) << RTC_MODE2_SYNCBUSY_MASK_Pos))
#define RTC_MODE2_SYNCBUSY_CLOCKSYNC_Pos 15 /**< \brief (RTC_MODE2_SYNCBUSY) Clock Synchronization Enable Bit Busy */
#define RTC_MODE2_SYNCBUSY_CLOCKSYNC (_U_(0x1) << RTC_MODE2_SYNCBUSY_CLOCKSYNC_Pos)
#define RTC_MODE2_SYNCBUSY_GP0_Pos 16 /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose 0 Register Busy */
#define RTC_MODE2_SYNCBUSY_GP0 (_U_(1) << RTC_MODE2_SYNCBUSY_GP0_Pos)
#define RTC_MODE2_SYNCBUSY_GP1_Pos 17 /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose 1 Register Busy */
#define RTC_MODE2_SYNCBUSY_GP1 (_U_(1) << RTC_MODE2_SYNCBUSY_GP1_Pos)
#define RTC_MODE2_SYNCBUSY_GP2_Pos 18 /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose 2 Register Busy */
#define RTC_MODE2_SYNCBUSY_GP2 (_U_(1) << RTC_MODE2_SYNCBUSY_GP2_Pos)
#define RTC_MODE2_SYNCBUSY_GP3_Pos 19 /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose 3 Register Busy */
#define RTC_MODE2_SYNCBUSY_GP3 (_U_(1) << RTC_MODE2_SYNCBUSY_GP3_Pos)
#define RTC_MODE2_SYNCBUSY_GP_Pos 16 /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose x Register Busy */
#define RTC_MODE2_SYNCBUSY_GP_Msk (_U_(0xF) << RTC_MODE2_SYNCBUSY_GP_Pos)
#define RTC_MODE2_SYNCBUSY_GP(value) (RTC_MODE2_SYNCBUSY_GP_Msk & ((value) << RTC_MODE2_SYNCBUSY_GP_Pos))
#define RTC_MODE2_SYNCBUSY_MASK_ _U_(0x000F986F) /**< \brief (RTC_MODE2_SYNCBUSY) MASK Register */
/* -------- RTC_FREQCORR : (RTC Offset: 0x14) (R/W 8) Frequency Correction -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint8_t VALUE:7; /*!< bit: 0.. 6 Correction Value */
uint8_t SIGN:1; /*!< bit: 7 Correction Sign */
} bit; /*!< Structure used for bit access */
uint8_t reg; /*!< Type used for register access */
} RTC_FREQCORR_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_FREQCORR_OFFSET 0x14 /**< \brief (RTC_FREQCORR offset) Frequency Correction */
#define RTC_FREQCORR_RESETVALUE _U_(0x00) /**< \brief (RTC_FREQCORR reset_value) Frequency Correction */
#define RTC_FREQCORR_VALUE_Pos 0 /**< \brief (RTC_FREQCORR) Correction Value */
#define RTC_FREQCORR_VALUE_Msk (_U_(0x7F) << RTC_FREQCORR_VALUE_Pos)
#define RTC_FREQCORR_VALUE(value) (RTC_FREQCORR_VALUE_Msk & ((value) << RTC_FREQCORR_VALUE_Pos))
#define RTC_FREQCORR_SIGN_Pos 7 /**< \brief (RTC_FREQCORR) Correction Sign */
#define RTC_FREQCORR_SIGN (_U_(0x1) << RTC_FREQCORR_SIGN_Pos)
#define RTC_FREQCORR_MASK _U_(0xFF) /**< \brief (RTC_FREQCORR) MASK Register */
/* -------- RTC_MODE0_COUNT : (RTC Offset: 0x18) (R/W 32) MODE0 MODE0 Counter Value -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t COUNT:32; /*!< bit: 0..31 Counter Value */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE0_COUNT_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_COUNT_OFFSET 0x18 /**< \brief (RTC_MODE0_COUNT offset) MODE0 Counter Value */
#define RTC_MODE0_COUNT_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_COUNT reset_value) MODE0 Counter Value */
#define RTC_MODE0_COUNT_COUNT_Pos 0 /**< \brief (RTC_MODE0_COUNT) Counter Value */
#define RTC_MODE0_COUNT_COUNT_Msk (_U_(0xFFFFFFFF) << RTC_MODE0_COUNT_COUNT_Pos)
#define RTC_MODE0_COUNT_COUNT(value) (RTC_MODE0_COUNT_COUNT_Msk & ((value) << RTC_MODE0_COUNT_COUNT_Pos))
#define RTC_MODE0_COUNT_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_MODE0_COUNT) MASK Register */
/* -------- RTC_MODE1_COUNT : (RTC Offset: 0x18) (R/W 16) MODE1 MODE1 Counter Value -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t COUNT:16; /*!< bit: 0..15 Counter Value */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_COUNT_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_COUNT_OFFSET 0x18 /**< \brief (RTC_MODE1_COUNT offset) MODE1 Counter Value */
#define RTC_MODE1_COUNT_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_COUNT reset_value) MODE1 Counter Value */
#define RTC_MODE1_COUNT_COUNT_Pos 0 /**< \brief (RTC_MODE1_COUNT) Counter Value */
#define RTC_MODE1_COUNT_COUNT_Msk (_U_(0xFFFF) << RTC_MODE1_COUNT_COUNT_Pos)
#define RTC_MODE1_COUNT_COUNT(value) (RTC_MODE1_COUNT_COUNT_Msk & ((value) << RTC_MODE1_COUNT_COUNT_Pos))
#define RTC_MODE1_COUNT_MASK _U_(0xFFFF) /**< \brief (RTC_MODE1_COUNT) MASK Register */
/* -------- RTC_MODE2_CLOCK : (RTC Offset: 0x18) (R/W 32) MODE2 MODE2 Clock Value -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t SECOND:6; /*!< bit: 0.. 5 Second */
uint32_t MINUTE:6; /*!< bit: 6..11 Minute */
uint32_t HOUR:5; /*!< bit: 12..16 Hour */
uint32_t DAY:5; /*!< bit: 17..21 Day */
uint32_t MONTH:4; /*!< bit: 22..25 Month */
uint32_t YEAR:6; /*!< bit: 26..31 Year */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE2_CLOCK_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_CLOCK_OFFSET 0x18 /**< \brief (RTC_MODE2_CLOCK offset) MODE2 Clock Value */
#define RTC_MODE2_CLOCK_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_CLOCK reset_value) MODE2 Clock Value */
#define RTC_MODE2_CLOCK_SECOND_Pos 0 /**< \brief (RTC_MODE2_CLOCK) Second */
#define RTC_MODE2_CLOCK_SECOND_Msk (_U_(0x3F) << RTC_MODE2_CLOCK_SECOND_Pos)
#define RTC_MODE2_CLOCK_SECOND(value) (RTC_MODE2_CLOCK_SECOND_Msk & ((value) << RTC_MODE2_CLOCK_SECOND_Pos))
#define RTC_MODE2_CLOCK_MINUTE_Pos 6 /**< \brief (RTC_MODE2_CLOCK) Minute */
#define RTC_MODE2_CLOCK_MINUTE_Msk (_U_(0x3F) << RTC_MODE2_CLOCK_MINUTE_Pos)
#define RTC_MODE2_CLOCK_MINUTE(value) (RTC_MODE2_CLOCK_MINUTE_Msk & ((value) << RTC_MODE2_CLOCK_MINUTE_Pos))
#define RTC_MODE2_CLOCK_HOUR_Pos 12 /**< \brief (RTC_MODE2_CLOCK) Hour */
#define RTC_MODE2_CLOCK_HOUR_Msk (_U_(0x1F) << RTC_MODE2_CLOCK_HOUR_Pos)
#define RTC_MODE2_CLOCK_HOUR(value) (RTC_MODE2_CLOCK_HOUR_Msk & ((value) << RTC_MODE2_CLOCK_HOUR_Pos))
#define RTC_MODE2_CLOCK_HOUR_AM_Val _U_(0x0) /**< \brief (RTC_MODE2_CLOCK) AM when CLKREP in 12-hour */
#define RTC_MODE2_CLOCK_HOUR_PM_Val _U_(0x10) /**< \brief (RTC_MODE2_CLOCK) PM when CLKREP in 12-hour */
#define RTC_MODE2_CLOCK_HOUR_AM (RTC_MODE2_CLOCK_HOUR_AM_Val << RTC_MODE2_CLOCK_HOUR_Pos)
#define RTC_MODE2_CLOCK_HOUR_PM (RTC_MODE2_CLOCK_HOUR_PM_Val << RTC_MODE2_CLOCK_HOUR_Pos)
#define RTC_MODE2_CLOCK_DAY_Pos 17 /**< \brief (RTC_MODE2_CLOCK) Day */
#define RTC_MODE2_CLOCK_DAY_Msk (_U_(0x1F) << RTC_MODE2_CLOCK_DAY_Pos)
#define RTC_MODE2_CLOCK_DAY(value) (RTC_MODE2_CLOCK_DAY_Msk & ((value) << RTC_MODE2_CLOCK_DAY_Pos))
#define RTC_MODE2_CLOCK_MONTH_Pos 22 /**< \brief (RTC_MODE2_CLOCK) Month */
#define RTC_MODE2_CLOCK_MONTH_Msk (_U_(0xF) << RTC_MODE2_CLOCK_MONTH_Pos)
#define RTC_MODE2_CLOCK_MONTH(value) (RTC_MODE2_CLOCK_MONTH_Msk & ((value) << RTC_MODE2_CLOCK_MONTH_Pos))
#define RTC_MODE2_CLOCK_YEAR_Pos 26 /**< \brief (RTC_MODE2_CLOCK) Year */
#define RTC_MODE2_CLOCK_YEAR_Msk (_U_(0x3F) << RTC_MODE2_CLOCK_YEAR_Pos)
#define RTC_MODE2_CLOCK_YEAR(value) (RTC_MODE2_CLOCK_YEAR_Msk & ((value) << RTC_MODE2_CLOCK_YEAR_Pos))
#define RTC_MODE2_CLOCK_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_MODE2_CLOCK) MASK Register */
/* -------- RTC_MODE1_PER : (RTC Offset: 0x1C) (R/W 16) MODE1 MODE1 Counter Period -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t PER:16; /*!< bit: 0..15 Counter Period */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_PER_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_PER_OFFSET 0x1C /**< \brief (RTC_MODE1_PER offset) MODE1 Counter Period */
#define RTC_MODE1_PER_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_PER reset_value) MODE1 Counter Period */
#define RTC_MODE1_PER_PER_Pos 0 /**< \brief (RTC_MODE1_PER) Counter Period */
#define RTC_MODE1_PER_PER_Msk (_U_(0xFFFF) << RTC_MODE1_PER_PER_Pos)
#define RTC_MODE1_PER_PER(value) (RTC_MODE1_PER_PER_Msk & ((value) << RTC_MODE1_PER_PER_Pos))
#define RTC_MODE1_PER_MASK _U_(0xFFFF) /**< \brief (RTC_MODE1_PER) MASK Register */
/* -------- RTC_MODE0_COMP : (RTC Offset: 0x20) (R/W 32) MODE0 MODE0 Compare n Value -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t COMP:32; /*!< bit: 0..31 Compare Value */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE0_COMP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_COMP_OFFSET 0x20 /**< \brief (RTC_MODE0_COMP offset) MODE0 Compare n Value */
#define RTC_MODE0_COMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_COMP reset_value) MODE0 Compare n Value */
#define RTC_MODE0_COMP_COMP_Pos 0 /**< \brief (RTC_MODE0_COMP) Compare Value */
#define RTC_MODE0_COMP_COMP_Msk (_U_(0xFFFFFFFF) << RTC_MODE0_COMP_COMP_Pos)
#define RTC_MODE0_COMP_COMP(value) (RTC_MODE0_COMP_COMP_Msk & ((value) << RTC_MODE0_COMP_COMP_Pos))
#define RTC_MODE0_COMP_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_MODE0_COMP) MASK Register */
/* -------- RTC_MODE1_COMP : (RTC Offset: 0x20) (R/W 16) MODE1 MODE1 Compare n Value -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint16_t COMP:16; /*!< bit: 0..15 Compare Value */
} bit; /*!< Structure used for bit access */
uint16_t reg; /*!< Type used for register access */
} RTC_MODE1_COMP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_COMP_OFFSET 0x20 /**< \brief (RTC_MODE1_COMP offset) MODE1 Compare n Value */
#define RTC_MODE1_COMP_RESETVALUE _U_(0x0000) /**< \brief (RTC_MODE1_COMP reset_value) MODE1 Compare n Value */
#define RTC_MODE1_COMP_COMP_Pos 0 /**< \brief (RTC_MODE1_COMP) Compare Value */
#define RTC_MODE1_COMP_COMP_Msk (_U_(0xFFFF) << RTC_MODE1_COMP_COMP_Pos)
#define RTC_MODE1_COMP_COMP(value) (RTC_MODE1_COMP_COMP_Msk & ((value) << RTC_MODE1_COMP_COMP_Pos))
#define RTC_MODE1_COMP_MASK _U_(0xFFFF) /**< \brief (RTC_MODE1_COMP) MASK Register */
/* -------- RTC_MODE2_ALARM : (RTC Offset: 0x20) (R/W 32) MODE2 MODE2_ALARM Alarm n Value -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t SECOND:6; /*!< bit: 0.. 5 Second */
uint32_t MINUTE:6; /*!< bit: 6..11 Minute */
uint32_t HOUR:5; /*!< bit: 12..16 Hour */
uint32_t DAY:5; /*!< bit: 17..21 Day */
uint32_t MONTH:4; /*!< bit: 22..25 Month */
uint32_t YEAR:6; /*!< bit: 26..31 Year */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE2_ALARM_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_ALARM_OFFSET 0x20 /**< \brief (RTC_MODE2_ALARM offset) MODE2_ALARM Alarm n Value */
#define RTC_MODE2_ALARM_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_ALARM reset_value) MODE2_ALARM Alarm n Value */
#define RTC_MODE2_ALARM_SECOND_Pos 0 /**< \brief (RTC_MODE2_ALARM) Second */
#define RTC_MODE2_ALARM_SECOND_Msk (_U_(0x3F) << RTC_MODE2_ALARM_SECOND_Pos)
#define RTC_MODE2_ALARM_SECOND(value) (RTC_MODE2_ALARM_SECOND_Msk & ((value) << RTC_MODE2_ALARM_SECOND_Pos))
#define RTC_MODE2_ALARM_MINUTE_Pos 6 /**< \brief (RTC_MODE2_ALARM) Minute */
#define RTC_MODE2_ALARM_MINUTE_Msk (_U_(0x3F) << RTC_MODE2_ALARM_MINUTE_Pos)
#define RTC_MODE2_ALARM_MINUTE(value) (RTC_MODE2_ALARM_MINUTE_Msk & ((value) << RTC_MODE2_ALARM_MINUTE_Pos))
#define RTC_MODE2_ALARM_HOUR_Pos 12 /**< \brief (RTC_MODE2_ALARM) Hour */
#define RTC_MODE2_ALARM_HOUR_Msk (_U_(0x1F) << RTC_MODE2_ALARM_HOUR_Pos)
#define RTC_MODE2_ALARM_HOUR(value) (RTC_MODE2_ALARM_HOUR_Msk & ((value) << RTC_MODE2_ALARM_HOUR_Pos))
#define RTC_MODE2_ALARM_HOUR_AM_Val _U_(0x0) /**< \brief (RTC_MODE2_ALARM) Morning hour */
#define RTC_MODE2_ALARM_HOUR_PM_Val _U_(0x10) /**< \brief (RTC_MODE2_ALARM) Afternoon hour */
#define RTC_MODE2_ALARM_HOUR_AM (RTC_MODE2_ALARM_HOUR_AM_Val << RTC_MODE2_ALARM_HOUR_Pos)
#define RTC_MODE2_ALARM_HOUR_PM (RTC_MODE2_ALARM_HOUR_PM_Val << RTC_MODE2_ALARM_HOUR_Pos)
#define RTC_MODE2_ALARM_DAY_Pos 17 /**< \brief (RTC_MODE2_ALARM) Day */
#define RTC_MODE2_ALARM_DAY_Msk (_U_(0x1F) << RTC_MODE2_ALARM_DAY_Pos)
#define RTC_MODE2_ALARM_DAY(value) (RTC_MODE2_ALARM_DAY_Msk & ((value) << RTC_MODE2_ALARM_DAY_Pos))
#define RTC_MODE2_ALARM_MONTH_Pos 22 /**< \brief (RTC_MODE2_ALARM) Month */
#define RTC_MODE2_ALARM_MONTH_Msk (_U_(0xF) << RTC_MODE2_ALARM_MONTH_Pos)
#define RTC_MODE2_ALARM_MONTH(value) (RTC_MODE2_ALARM_MONTH_Msk & ((value) << RTC_MODE2_ALARM_MONTH_Pos))
#define RTC_MODE2_ALARM_YEAR_Pos 26 /**< \brief (RTC_MODE2_ALARM) Year */
#define RTC_MODE2_ALARM_YEAR_Msk (_U_(0x3F) << RTC_MODE2_ALARM_YEAR_Pos)
#define RTC_MODE2_ALARM_YEAR(value) (RTC_MODE2_ALARM_YEAR_Msk & ((value) << RTC_MODE2_ALARM_YEAR_Pos))
#define RTC_MODE2_ALARM_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_MODE2_ALARM) MASK Register */
/* -------- RTC_MODE2_MASK : (RTC Offset: 0x24) (R/W 8) MODE2 MODE2_ALARM Alarm n Mask -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint8_t SEL:3; /*!< bit: 0.. 2 Alarm Mask Selection */
uint8_t :5; /*!< bit: 3.. 7 Reserved */
} bit; /*!< Structure used for bit access */
uint8_t reg; /*!< Type used for register access */
} RTC_MODE2_MASK_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_MASK_OFFSET 0x24 /**< \brief (RTC_MODE2_MASK offset) MODE2_ALARM Alarm n Mask */
#define RTC_MODE2_MASK_RESETVALUE _U_(0x00) /**< \brief (RTC_MODE2_MASK reset_value) MODE2_ALARM Alarm n Mask */
#define RTC_MODE2_MASK_SEL_Pos 0 /**< \brief (RTC_MODE2_MASK) Alarm Mask Selection */
#define RTC_MODE2_MASK_SEL_Msk (_U_(0x7) << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL(value) (RTC_MODE2_MASK_SEL_Msk & ((value) << RTC_MODE2_MASK_SEL_Pos))
#define RTC_MODE2_MASK_SEL_OFF_Val _U_(0x0) /**< \brief (RTC_MODE2_MASK) Alarm Disabled */
#define RTC_MODE2_MASK_SEL_SS_Val _U_(0x1) /**< \brief (RTC_MODE2_MASK) Match seconds only */
#define RTC_MODE2_MASK_SEL_MMSS_Val _U_(0x2) /**< \brief (RTC_MODE2_MASK) Match seconds and minutes only */
#define RTC_MODE2_MASK_SEL_HHMMSS_Val _U_(0x3) /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, and hours only */
#define RTC_MODE2_MASK_SEL_DDHHMMSS_Val _U_(0x4) /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, hours, and days only */
#define RTC_MODE2_MASK_SEL_MMDDHHMMSS_Val _U_(0x5) /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, hours, days, and months only */
#define RTC_MODE2_MASK_SEL_YYMMDDHHMMSS_Val _U_(0x6) /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, hours, days, months, and years */
#define RTC_MODE2_MASK_SEL_OFF (RTC_MODE2_MASK_SEL_OFF_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL_SS (RTC_MODE2_MASK_SEL_SS_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL_MMSS (RTC_MODE2_MASK_SEL_MMSS_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL_HHMMSS (RTC_MODE2_MASK_SEL_HHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL_DDHHMMSS (RTC_MODE2_MASK_SEL_DDHHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL_MMDDHHMMSS (RTC_MODE2_MASK_SEL_MMDDHHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_SEL_YYMMDDHHMMSS (RTC_MODE2_MASK_SEL_YYMMDDHHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
#define RTC_MODE2_MASK_MASK _U_(0x07) /**< \brief (RTC_MODE2_MASK) MASK Register */
/* -------- RTC_GP : (RTC Offset: 0x40) (R/W 32) General Purpose -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t GP:32; /*!< bit: 0..31 General Purpose */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_GP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_GP_OFFSET 0x40 /**< \brief (RTC_GP offset) General Purpose */
#define RTC_GP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_GP reset_value) General Purpose */
#define RTC_GP_GP_Pos 0 /**< \brief (RTC_GP) General Purpose */
#define RTC_GP_GP_Msk (_U_(0xFFFFFFFF) << RTC_GP_GP_Pos)
#define RTC_GP_GP(value) (RTC_GP_GP_Msk & ((value) << RTC_GP_GP_Pos))
#define RTC_GP_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_GP) MASK Register */
/* -------- RTC_TAMPCTRL : (RTC Offset: 0x60) (R/W 32) Tamper Control -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t IN0ACT:2; /*!< bit: 0.. 1 Tamper Input 0 Action */
uint32_t IN1ACT:2; /*!< bit: 2.. 3 Tamper Input 1 Action */
uint32_t IN2ACT:2; /*!< bit: 4.. 5 Tamper Input 2 Action */
uint32_t IN3ACT:2; /*!< bit: 6.. 7 Tamper Input 3 Action */
uint32_t IN4ACT:2; /*!< bit: 8.. 9 Tamper Input 4 Action */
uint32_t :6; /*!< bit: 10..15 Reserved */
uint32_t TAMLVL0:1; /*!< bit: 16 Tamper Level Select 0 */
uint32_t TAMLVL1:1; /*!< bit: 17 Tamper Level Select 1 */
uint32_t TAMLVL2:1; /*!< bit: 18 Tamper Level Select 2 */
uint32_t TAMLVL3:1; /*!< bit: 19 Tamper Level Select 3 */
uint32_t TAMLVL4:1; /*!< bit: 20 Tamper Level Select 4 */
uint32_t :3; /*!< bit: 21..23 Reserved */
uint32_t DEBNC0:1; /*!< bit: 24 Debouncer Enable 0 */
uint32_t DEBNC1:1; /*!< bit: 25 Debouncer Enable 1 */
uint32_t DEBNC2:1; /*!< bit: 26 Debouncer Enable 2 */
uint32_t DEBNC3:1; /*!< bit: 27 Debouncer Enable 3 */
uint32_t DEBNC4:1; /*!< bit: 28 Debouncer Enable 4 */
uint32_t :3; /*!< bit: 29..31 Reserved */
} bit; /*!< Structure used for bit access */
struct {
uint32_t :16; /*!< bit: 0..15 Reserved */
uint32_t TAMLVL:5; /*!< bit: 16..20 Tamper Level Select x */
uint32_t :3; /*!< bit: 21..23 Reserved */
uint32_t DEBNC:5; /*!< bit: 24..28 Debouncer Enable x */
uint32_t :3; /*!< bit: 29..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_TAMPCTRL_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_TAMPCTRL_OFFSET 0x60 /**< \brief (RTC_TAMPCTRL offset) Tamper Control */
#define RTC_TAMPCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_TAMPCTRL reset_value) Tamper Control */
#define RTC_TAMPCTRL_IN0ACT_Pos 0 /**< \brief (RTC_TAMPCTRL) Tamper Input 0 Action */
#define RTC_TAMPCTRL_IN0ACT_Msk (_U_(0x3) << RTC_TAMPCTRL_IN0ACT_Pos)
#define RTC_TAMPCTRL_IN0ACT(value) (RTC_TAMPCTRL_IN0ACT_Msk & ((value) << RTC_TAMPCTRL_IN0ACT_Pos))
#define RTC_TAMPCTRL_IN0ACT_OFF_Val _U_(0x0) /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
#define RTC_TAMPCTRL_IN0ACT_WAKE_Val _U_(0x1) /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
#define RTC_TAMPCTRL_IN0ACT_CAPTURE_Val _U_(0x2) /**< \brief (RTC_TAMPCTRL) Capture timestamp */
#define RTC_TAMPCTRL_IN0ACT_ACTL_Val _U_(0x3) /**< \brief (RTC_TAMPCTRL) Compare IN0 to OUT */
#define RTC_TAMPCTRL_IN0ACT_OFF (RTC_TAMPCTRL_IN0ACT_OFF_Val << RTC_TAMPCTRL_IN0ACT_Pos)
#define RTC_TAMPCTRL_IN0ACT_WAKE (RTC_TAMPCTRL_IN0ACT_WAKE_Val << RTC_TAMPCTRL_IN0ACT_Pos)
#define RTC_TAMPCTRL_IN0ACT_CAPTURE (RTC_TAMPCTRL_IN0ACT_CAPTURE_Val << RTC_TAMPCTRL_IN0ACT_Pos)
#define RTC_TAMPCTRL_IN0ACT_ACTL (RTC_TAMPCTRL_IN0ACT_ACTL_Val << RTC_TAMPCTRL_IN0ACT_Pos)
#define RTC_TAMPCTRL_IN1ACT_Pos 2 /**< \brief (RTC_TAMPCTRL) Tamper Input 1 Action */
#define RTC_TAMPCTRL_IN1ACT_Msk (_U_(0x3) << RTC_TAMPCTRL_IN1ACT_Pos)
#define RTC_TAMPCTRL_IN1ACT(value) (RTC_TAMPCTRL_IN1ACT_Msk & ((value) << RTC_TAMPCTRL_IN1ACT_Pos))
#define RTC_TAMPCTRL_IN1ACT_OFF_Val _U_(0x0) /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
#define RTC_TAMPCTRL_IN1ACT_WAKE_Val _U_(0x1) /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
#define RTC_TAMPCTRL_IN1ACT_CAPTURE_Val _U_(0x2) /**< \brief (RTC_TAMPCTRL) Capture timestamp */
#define RTC_TAMPCTRL_IN1ACT_ACTL_Val _U_(0x3) /**< \brief (RTC_TAMPCTRL) Compare IN1 to OUT */
#define RTC_TAMPCTRL_IN1ACT_OFF (RTC_TAMPCTRL_IN1ACT_OFF_Val << RTC_TAMPCTRL_IN1ACT_Pos)
#define RTC_TAMPCTRL_IN1ACT_WAKE (RTC_TAMPCTRL_IN1ACT_WAKE_Val << RTC_TAMPCTRL_IN1ACT_Pos)
#define RTC_TAMPCTRL_IN1ACT_CAPTURE (RTC_TAMPCTRL_IN1ACT_CAPTURE_Val << RTC_TAMPCTRL_IN1ACT_Pos)
#define RTC_TAMPCTRL_IN1ACT_ACTL (RTC_TAMPCTRL_IN1ACT_ACTL_Val << RTC_TAMPCTRL_IN1ACT_Pos)
#define RTC_TAMPCTRL_IN2ACT_Pos 4 /**< \brief (RTC_TAMPCTRL) Tamper Input 2 Action */
#define RTC_TAMPCTRL_IN2ACT_Msk (_U_(0x3) << RTC_TAMPCTRL_IN2ACT_Pos)
#define RTC_TAMPCTRL_IN2ACT(value) (RTC_TAMPCTRL_IN2ACT_Msk & ((value) << RTC_TAMPCTRL_IN2ACT_Pos))
#define RTC_TAMPCTRL_IN2ACT_OFF_Val _U_(0x0) /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
#define RTC_TAMPCTRL_IN2ACT_WAKE_Val _U_(0x1) /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
#define RTC_TAMPCTRL_IN2ACT_CAPTURE_Val _U_(0x2) /**< \brief (RTC_TAMPCTRL) Capture timestamp */
#define RTC_TAMPCTRL_IN2ACT_ACTL_Val _U_(0x3) /**< \brief (RTC_TAMPCTRL) Compare IN2 to OUT */
#define RTC_TAMPCTRL_IN2ACT_OFF (RTC_TAMPCTRL_IN2ACT_OFF_Val << RTC_TAMPCTRL_IN2ACT_Pos)
#define RTC_TAMPCTRL_IN2ACT_WAKE (RTC_TAMPCTRL_IN2ACT_WAKE_Val << RTC_TAMPCTRL_IN2ACT_Pos)
#define RTC_TAMPCTRL_IN2ACT_CAPTURE (RTC_TAMPCTRL_IN2ACT_CAPTURE_Val << RTC_TAMPCTRL_IN2ACT_Pos)
#define RTC_TAMPCTRL_IN2ACT_ACTL (RTC_TAMPCTRL_IN2ACT_ACTL_Val << RTC_TAMPCTRL_IN2ACT_Pos)
#define RTC_TAMPCTRL_IN3ACT_Pos 6 /**< \brief (RTC_TAMPCTRL) Tamper Input 3 Action */
#define RTC_TAMPCTRL_IN3ACT_Msk (_U_(0x3) << RTC_TAMPCTRL_IN3ACT_Pos)
#define RTC_TAMPCTRL_IN3ACT(value) (RTC_TAMPCTRL_IN3ACT_Msk & ((value) << RTC_TAMPCTRL_IN3ACT_Pos))
#define RTC_TAMPCTRL_IN3ACT_OFF_Val _U_(0x0) /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
#define RTC_TAMPCTRL_IN3ACT_WAKE_Val _U_(0x1) /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
#define RTC_TAMPCTRL_IN3ACT_CAPTURE_Val _U_(0x2) /**< \brief (RTC_TAMPCTRL) Capture timestamp */
#define RTC_TAMPCTRL_IN3ACT_ACTL_Val _U_(0x3) /**< \brief (RTC_TAMPCTRL) Compare IN3 to OUT */
#define RTC_TAMPCTRL_IN3ACT_OFF (RTC_TAMPCTRL_IN3ACT_OFF_Val << RTC_TAMPCTRL_IN3ACT_Pos)
#define RTC_TAMPCTRL_IN3ACT_WAKE (RTC_TAMPCTRL_IN3ACT_WAKE_Val << RTC_TAMPCTRL_IN3ACT_Pos)
#define RTC_TAMPCTRL_IN3ACT_CAPTURE (RTC_TAMPCTRL_IN3ACT_CAPTURE_Val << RTC_TAMPCTRL_IN3ACT_Pos)
#define RTC_TAMPCTRL_IN3ACT_ACTL (RTC_TAMPCTRL_IN3ACT_ACTL_Val << RTC_TAMPCTRL_IN3ACT_Pos)
#define RTC_TAMPCTRL_IN4ACT_Pos 8 /**< \brief (RTC_TAMPCTRL) Tamper Input 4 Action */
#define RTC_TAMPCTRL_IN4ACT_Msk (_U_(0x3) << RTC_TAMPCTRL_IN4ACT_Pos)
#define RTC_TAMPCTRL_IN4ACT(value) (RTC_TAMPCTRL_IN4ACT_Msk & ((value) << RTC_TAMPCTRL_IN4ACT_Pos))
#define RTC_TAMPCTRL_IN4ACT_OFF_Val _U_(0x0) /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
#define RTC_TAMPCTRL_IN4ACT_WAKE_Val _U_(0x1) /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
#define RTC_TAMPCTRL_IN4ACT_CAPTURE_Val _U_(0x2) /**< \brief (RTC_TAMPCTRL) Capture timestamp */
#define RTC_TAMPCTRL_IN4ACT_ACTL_Val _U_(0x3) /**< \brief (RTC_TAMPCTRL) Compare IN4 to OUT */
#define RTC_TAMPCTRL_IN4ACT_OFF (RTC_TAMPCTRL_IN4ACT_OFF_Val << RTC_TAMPCTRL_IN4ACT_Pos)
#define RTC_TAMPCTRL_IN4ACT_WAKE (RTC_TAMPCTRL_IN4ACT_WAKE_Val << RTC_TAMPCTRL_IN4ACT_Pos)
#define RTC_TAMPCTRL_IN4ACT_CAPTURE (RTC_TAMPCTRL_IN4ACT_CAPTURE_Val << RTC_TAMPCTRL_IN4ACT_Pos)
#define RTC_TAMPCTRL_IN4ACT_ACTL (RTC_TAMPCTRL_IN4ACT_ACTL_Val << RTC_TAMPCTRL_IN4ACT_Pos)
#define RTC_TAMPCTRL_TAMLVL0_Pos 16 /**< \brief (RTC_TAMPCTRL) Tamper Level Select 0 */
#define RTC_TAMPCTRL_TAMLVL0 (_U_(1) << RTC_TAMPCTRL_TAMLVL0_Pos)
#define RTC_TAMPCTRL_TAMLVL1_Pos 17 /**< \brief (RTC_TAMPCTRL) Tamper Level Select 1 */
#define RTC_TAMPCTRL_TAMLVL1 (_U_(1) << RTC_TAMPCTRL_TAMLVL1_Pos)
#define RTC_TAMPCTRL_TAMLVL2_Pos 18 /**< \brief (RTC_TAMPCTRL) Tamper Level Select 2 */
#define RTC_TAMPCTRL_TAMLVL2 (_U_(1) << RTC_TAMPCTRL_TAMLVL2_Pos)
#define RTC_TAMPCTRL_TAMLVL3_Pos 19 /**< \brief (RTC_TAMPCTRL) Tamper Level Select 3 */
#define RTC_TAMPCTRL_TAMLVL3 (_U_(1) << RTC_TAMPCTRL_TAMLVL3_Pos)
#define RTC_TAMPCTRL_TAMLVL4_Pos 20 /**< \brief (RTC_TAMPCTRL) Tamper Level Select 4 */
#define RTC_TAMPCTRL_TAMLVL4 (_U_(1) << RTC_TAMPCTRL_TAMLVL4_Pos)
#define RTC_TAMPCTRL_TAMLVL_Pos 16 /**< \brief (RTC_TAMPCTRL) Tamper Level Select x */
#define RTC_TAMPCTRL_TAMLVL_Msk (_U_(0x1F) << RTC_TAMPCTRL_TAMLVL_Pos)
#define RTC_TAMPCTRL_TAMLVL(value) (RTC_TAMPCTRL_TAMLVL_Msk & ((value) << RTC_TAMPCTRL_TAMLVL_Pos))
#define RTC_TAMPCTRL_DEBNC0_Pos 24 /**< \brief (RTC_TAMPCTRL) Debouncer Enable 0 */
#define RTC_TAMPCTRL_DEBNC0 (_U_(1) << RTC_TAMPCTRL_DEBNC0_Pos)
#define RTC_TAMPCTRL_DEBNC1_Pos 25 /**< \brief (RTC_TAMPCTRL) Debouncer Enable 1 */
#define RTC_TAMPCTRL_DEBNC1 (_U_(1) << RTC_TAMPCTRL_DEBNC1_Pos)
#define RTC_TAMPCTRL_DEBNC2_Pos 26 /**< \brief (RTC_TAMPCTRL) Debouncer Enable 2 */
#define RTC_TAMPCTRL_DEBNC2 (_U_(1) << RTC_TAMPCTRL_DEBNC2_Pos)
#define RTC_TAMPCTRL_DEBNC3_Pos 27 /**< \brief (RTC_TAMPCTRL) Debouncer Enable 3 */
#define RTC_TAMPCTRL_DEBNC3 (_U_(1) << RTC_TAMPCTRL_DEBNC3_Pos)
#define RTC_TAMPCTRL_DEBNC4_Pos 28 /**< \brief (RTC_TAMPCTRL) Debouncer Enable 4 */
#define RTC_TAMPCTRL_DEBNC4 (_U_(1) << RTC_TAMPCTRL_DEBNC4_Pos)
#define RTC_TAMPCTRL_DEBNC_Pos 24 /**< \brief (RTC_TAMPCTRL) Debouncer Enable x */
#define RTC_TAMPCTRL_DEBNC_Msk (_U_(0x1F) << RTC_TAMPCTRL_DEBNC_Pos)
#define RTC_TAMPCTRL_DEBNC(value) (RTC_TAMPCTRL_DEBNC_Msk & ((value) << RTC_TAMPCTRL_DEBNC_Pos))
#define RTC_TAMPCTRL_MASK _U_(0x1F1F03FF) /**< \brief (RTC_TAMPCTRL) MASK Register */
/* -------- RTC_MODE0_TIMESTAMP : (RTC Offset: 0x64) (R/ 32) MODE0 MODE0 Timestamp -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t COUNT:32; /*!< bit: 0..31 Count Timestamp Value */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE0_TIMESTAMP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE0_TIMESTAMP_OFFSET 0x64 /**< \brief (RTC_MODE0_TIMESTAMP offset) MODE0 Timestamp */
#define RTC_MODE0_TIMESTAMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_TIMESTAMP reset_value) MODE0 Timestamp */
#define RTC_MODE0_TIMESTAMP_COUNT_Pos 0 /**< \brief (RTC_MODE0_TIMESTAMP) Count Timestamp Value */
#define RTC_MODE0_TIMESTAMP_COUNT_Msk (_U_(0xFFFFFFFF) << RTC_MODE0_TIMESTAMP_COUNT_Pos)
#define RTC_MODE0_TIMESTAMP_COUNT(value) (RTC_MODE0_TIMESTAMP_COUNT_Msk & ((value) << RTC_MODE0_TIMESTAMP_COUNT_Pos))
#define RTC_MODE0_TIMESTAMP_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_MODE0_TIMESTAMP) MASK Register */
/* -------- RTC_MODE1_TIMESTAMP : (RTC Offset: 0x64) (R/ 32) MODE1 MODE1 Timestamp -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t COUNT:16; /*!< bit: 0..15 Count Timestamp Value */
uint32_t :16; /*!< bit: 16..31 Reserved */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE1_TIMESTAMP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE1_TIMESTAMP_OFFSET 0x64 /**< \brief (RTC_MODE1_TIMESTAMP offset) MODE1 Timestamp */
#define RTC_MODE1_TIMESTAMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE1_TIMESTAMP reset_value) MODE1 Timestamp */
#define RTC_MODE1_TIMESTAMP_COUNT_Pos 0 /**< \brief (RTC_MODE1_TIMESTAMP) Count Timestamp Value */
#define RTC_MODE1_TIMESTAMP_COUNT_Msk (_U_(0xFFFF) << RTC_MODE1_TIMESTAMP_COUNT_Pos)
#define RTC_MODE1_TIMESTAMP_COUNT(value) (RTC_MODE1_TIMESTAMP_COUNT_Msk & ((value) << RTC_MODE1_TIMESTAMP_COUNT_Pos))
#define RTC_MODE1_TIMESTAMP_MASK _U_(0x0000FFFF) /**< \brief (RTC_MODE1_TIMESTAMP) MASK Register */
/* -------- RTC_MODE2_TIMESTAMP : (RTC Offset: 0x64) (R/ 32) MODE2 MODE2 Timestamp -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t SECOND:6; /*!< bit: 0.. 5 Second Timestamp Value */
uint32_t MINUTE:6; /*!< bit: 6..11 Minute Timestamp Value */
uint32_t HOUR:5; /*!< bit: 12..16 Hour Timestamp Value */
uint32_t DAY:5; /*!< bit: 17..21 Day Timestamp Value */
uint32_t MONTH:4; /*!< bit: 22..25 Month Timestamp Value */
uint32_t YEAR:6; /*!< bit: 26..31 Year Timestamp Value */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_MODE2_TIMESTAMP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_MODE2_TIMESTAMP_OFFSET 0x64 /**< \brief (RTC_MODE2_TIMESTAMP offset) MODE2 Timestamp */
#define RTC_MODE2_TIMESTAMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_TIMESTAMP reset_value) MODE2 Timestamp */
#define RTC_MODE2_TIMESTAMP_SECOND_Pos 0 /**< \brief (RTC_MODE2_TIMESTAMP) Second Timestamp Value */
#define RTC_MODE2_TIMESTAMP_SECOND_Msk (_U_(0x3F) << RTC_MODE2_TIMESTAMP_SECOND_Pos)
#define RTC_MODE2_TIMESTAMP_SECOND(value) (RTC_MODE2_TIMESTAMP_SECOND_Msk & ((value) << RTC_MODE2_TIMESTAMP_SECOND_Pos))
#define RTC_MODE2_TIMESTAMP_MINUTE_Pos 6 /**< \brief (RTC_MODE2_TIMESTAMP) Minute Timestamp Value */
#define RTC_MODE2_TIMESTAMP_MINUTE_Msk (_U_(0x3F) << RTC_MODE2_TIMESTAMP_MINUTE_Pos)
#define RTC_MODE2_TIMESTAMP_MINUTE(value) (RTC_MODE2_TIMESTAMP_MINUTE_Msk & ((value) << RTC_MODE2_TIMESTAMP_MINUTE_Pos))
#define RTC_MODE2_TIMESTAMP_HOUR_Pos 12 /**< \brief (RTC_MODE2_TIMESTAMP) Hour Timestamp Value */
#define RTC_MODE2_TIMESTAMP_HOUR_Msk (_U_(0x1F) << RTC_MODE2_TIMESTAMP_HOUR_Pos)
#define RTC_MODE2_TIMESTAMP_HOUR(value) (RTC_MODE2_TIMESTAMP_HOUR_Msk & ((value) << RTC_MODE2_TIMESTAMP_HOUR_Pos))
#define RTC_MODE2_TIMESTAMP_HOUR_AM_Val _U_(0x0) /**< \brief (RTC_MODE2_TIMESTAMP) AM when CLKREP in 12-hour */
#define RTC_MODE2_TIMESTAMP_HOUR_PM_Val _U_(0x10) /**< \brief (RTC_MODE2_TIMESTAMP) PM when CLKREP in 12-hour */
#define RTC_MODE2_TIMESTAMP_HOUR_AM (RTC_MODE2_TIMESTAMP_HOUR_AM_Val << RTC_MODE2_TIMESTAMP_HOUR_Pos)
#define RTC_MODE2_TIMESTAMP_HOUR_PM (RTC_MODE2_TIMESTAMP_HOUR_PM_Val << RTC_MODE2_TIMESTAMP_HOUR_Pos)
#define RTC_MODE2_TIMESTAMP_DAY_Pos 17 /**< \brief (RTC_MODE2_TIMESTAMP) Day Timestamp Value */
#define RTC_MODE2_TIMESTAMP_DAY_Msk (_U_(0x1F) << RTC_MODE2_TIMESTAMP_DAY_Pos)
#define RTC_MODE2_TIMESTAMP_DAY(value) (RTC_MODE2_TIMESTAMP_DAY_Msk & ((value) << RTC_MODE2_TIMESTAMP_DAY_Pos))
#define RTC_MODE2_TIMESTAMP_MONTH_Pos 22 /**< \brief (RTC_MODE2_TIMESTAMP) Month Timestamp Value */
#define RTC_MODE2_TIMESTAMP_MONTH_Msk (_U_(0xF) << RTC_MODE2_TIMESTAMP_MONTH_Pos)
#define RTC_MODE2_TIMESTAMP_MONTH(value) (RTC_MODE2_TIMESTAMP_MONTH_Msk & ((value) << RTC_MODE2_TIMESTAMP_MONTH_Pos))
#define RTC_MODE2_TIMESTAMP_YEAR_Pos 26 /**< \brief (RTC_MODE2_TIMESTAMP) Year Timestamp Value */
#define RTC_MODE2_TIMESTAMP_YEAR_Msk (_U_(0x3F) << RTC_MODE2_TIMESTAMP_YEAR_Pos)
#define RTC_MODE2_TIMESTAMP_YEAR(value) (RTC_MODE2_TIMESTAMP_YEAR_Msk & ((value) << RTC_MODE2_TIMESTAMP_YEAR_Pos))
#define RTC_MODE2_TIMESTAMP_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_MODE2_TIMESTAMP) MASK Register */
/* -------- RTC_TAMPID : (RTC Offset: 0x68) (R/W 32) Tamper ID -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t TAMPID0:1; /*!< bit: 0 Tamper Input 0 Detected */
uint32_t TAMPID1:1; /*!< bit: 1 Tamper Input 1 Detected */
uint32_t TAMPID2:1; /*!< bit: 2 Tamper Input 2 Detected */
uint32_t TAMPID3:1; /*!< bit: 3 Tamper Input 3 Detected */
uint32_t TAMPID4:1; /*!< bit: 4 Tamper Input 4 Detected */
uint32_t :26; /*!< bit: 5..30 Reserved */
uint32_t TAMPEVT:1; /*!< bit: 31 Tamper Event Detected */
} bit; /*!< Structure used for bit access */
struct {
uint32_t TAMPID:5; /*!< bit: 0.. 4 Tamper Input x Detected */
uint32_t :27; /*!< bit: 5..31 Reserved */
} vec; /*!< Structure used for vec access */
uint32_t reg; /*!< Type used for register access */
} RTC_TAMPID_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_TAMPID_OFFSET 0x68 /**< \brief (RTC_TAMPID offset) Tamper ID */
#define RTC_TAMPID_RESETVALUE _U_(0x00000000) /**< \brief (RTC_TAMPID reset_value) Tamper ID */
#define RTC_TAMPID_TAMPID0_Pos 0 /**< \brief (RTC_TAMPID) Tamper Input 0 Detected */
#define RTC_TAMPID_TAMPID0 (_U_(1) << RTC_TAMPID_TAMPID0_Pos)
#define RTC_TAMPID_TAMPID1_Pos 1 /**< \brief (RTC_TAMPID) Tamper Input 1 Detected */
#define RTC_TAMPID_TAMPID1 (_U_(1) << RTC_TAMPID_TAMPID1_Pos)
#define RTC_TAMPID_TAMPID2_Pos 2 /**< \brief (RTC_TAMPID) Tamper Input 2 Detected */
#define RTC_TAMPID_TAMPID2 (_U_(1) << RTC_TAMPID_TAMPID2_Pos)
#define RTC_TAMPID_TAMPID3_Pos 3 /**< \brief (RTC_TAMPID) Tamper Input 3 Detected */
#define RTC_TAMPID_TAMPID3 (_U_(1) << RTC_TAMPID_TAMPID3_Pos)
#define RTC_TAMPID_TAMPID4_Pos 4 /**< \brief (RTC_TAMPID) Tamper Input 4 Detected */
#define RTC_TAMPID_TAMPID4 (_U_(1) << RTC_TAMPID_TAMPID4_Pos)
#define RTC_TAMPID_TAMPID_Pos 0 /**< \brief (RTC_TAMPID) Tamper Input x Detected */
#define RTC_TAMPID_TAMPID_Msk (_U_(0x1F) << RTC_TAMPID_TAMPID_Pos)
#define RTC_TAMPID_TAMPID(value) (RTC_TAMPID_TAMPID_Msk & ((value) << RTC_TAMPID_TAMPID_Pos))
#define RTC_TAMPID_TAMPEVT_Pos 31 /**< \brief (RTC_TAMPID) Tamper Event Detected */
#define RTC_TAMPID_TAMPEVT (_U_(0x1) << RTC_TAMPID_TAMPEVT_Pos)
#define RTC_TAMPID_MASK _U_(0x8000001F) /**< \brief (RTC_TAMPID) MASK Register */
/* -------- RTC_BKUP : (RTC Offset: 0x80) (R/W 32) Backup -------- */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
struct {
uint32_t BKUP:32; /*!< bit: 0..31 Backup */
} bit; /*!< Structure used for bit access */
uint32_t reg; /*!< Type used for register access */
} RTC_BKUP_Type;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#define RTC_BKUP_OFFSET 0x80 /**< \brief (RTC_BKUP offset) Backup */
#define RTC_BKUP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_BKUP reset_value) Backup */
#define RTC_BKUP_BKUP_Pos 0 /**< \brief (RTC_BKUP) Backup */
#define RTC_BKUP_BKUP_Msk (_U_(0xFFFFFFFF) << RTC_BKUP_BKUP_Pos)
#define RTC_BKUP_BKUP(value) (RTC_BKUP_BKUP_Msk & ((value) << RTC_BKUP_BKUP_Pos))
#define RTC_BKUP_MASK _U_(0xFFFFFFFF) /**< \brief (RTC_BKUP) MASK Register */
/** \brief RtcMode2Alarm hardware registers */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef struct {
__IO RTC_MODE2_ALARM_Type ALARM; /**< \brief Offset: 0x00 (R/W 32) MODE2_ALARM Alarm n Value */
__IO RTC_MODE2_MASK_Type MASK; /**< \brief Offset: 0x04 (R/W 8) MODE2_ALARM Alarm n Mask */
RoReg8 Reserved1[0x3];
} RtcMode2Alarm;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
/** \brief RTC_MODE0 hardware registers */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef struct { /* 32-bit Counter with Single 32-bit Compare */
__IO RTC_MODE0_CTRLA_Type CTRLA; /**< \brief Offset: 0x00 (R/W 16) MODE0 Control A */
__IO RTC_MODE0_CTRLB_Type CTRLB; /**< \brief Offset: 0x02 (R/W 16) MODE0 Control B */
__IO RTC_MODE0_EVCTRL_Type EVCTRL; /**< \brief Offset: 0x04 (R/W 32) MODE0 Event Control */
__IO RTC_MODE0_INTENCLR_Type INTENCLR; /**< \brief Offset: 0x08 (R/W 16) MODE0 Interrupt Enable Clear */
__IO RTC_MODE0_INTENSET_Type INTENSET; /**< \brief Offset: 0x0A (R/W 16) MODE0 Interrupt Enable Set */
__IO RTC_MODE0_INTFLAG_Type INTFLAG; /**< \brief Offset: 0x0C (R/W 16) MODE0 Interrupt Flag Status and Clear */
__IO RTC_DBGCTRL_Type DBGCTRL; /**< \brief Offset: 0x0E (R/W 8) Debug Control */
RoReg8 Reserved1[0x1];
__I RTC_MODE0_SYNCBUSY_Type SYNCBUSY; /**< \brief Offset: 0x10 (R/ 32) MODE0 Synchronization Busy Status */
__IO RTC_FREQCORR_Type FREQCORR; /**< \brief Offset: 0x14 (R/W 8) Frequency Correction */
RoReg8 Reserved2[0x3];
__IO RTC_MODE0_COUNT_Type COUNT; /**< \brief Offset: 0x18 (R/W 32) MODE0 Counter Value */
RoReg8 Reserved3[0x4];
__IO RTC_MODE0_COMP_Type COMP[2]; /**< \brief Offset: 0x20 (R/W 32) MODE0 Compare n Value */
RoReg8 Reserved4[0x18];
__IO RTC_GP_Type GP[4]; /**< \brief Offset: 0x40 (R/W 32) General Purpose */
RoReg8 Reserved5[0x10];
__IO RTC_TAMPCTRL_Type TAMPCTRL; /**< \brief Offset: 0x60 (R/W 32) Tamper Control */
__I RTC_MODE0_TIMESTAMP_Type TIMESTAMP; /**< \brief Offset: 0x64 (R/ 32) MODE0 Timestamp */
__IO RTC_TAMPID_Type TAMPID; /**< \brief Offset: 0x68 (R/W 32) Tamper ID */
RoReg8 Reserved6[0x14];
__IO RTC_BKUP_Type BKUP[8]; /**< \brief Offset: 0x80 (R/W 32) Backup */
} RtcMode0;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
/** \brief RTC_MODE1 hardware registers */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef struct { /* 16-bit Counter with Two 16-bit Compares */
__IO RTC_MODE1_CTRLA_Type CTRLA; /**< \brief Offset: 0x00 (R/W 16) MODE1 Control A */
__IO RTC_MODE1_CTRLB_Type CTRLB; /**< \brief Offset: 0x02 (R/W 16) MODE1 Control B */
__IO RTC_MODE1_EVCTRL_Type EVCTRL; /**< \brief Offset: 0x04 (R/W 32) MODE1 Event Control */
__IO RTC_MODE1_INTENCLR_Type INTENCLR; /**< \brief Offset: 0x08 (R/W 16) MODE1 Interrupt Enable Clear */
__IO RTC_MODE1_INTENSET_Type INTENSET; /**< \brief Offset: 0x0A (R/W 16) MODE1 Interrupt Enable Set */
__IO RTC_MODE1_INTFLAG_Type INTFLAG; /**< \brief Offset: 0x0C (R/W 16) MODE1 Interrupt Flag Status and Clear */
__IO RTC_DBGCTRL_Type DBGCTRL; /**< \brief Offset: 0x0E (R/W 8) Debug Control */
RoReg8 Reserved1[0x1];
__I RTC_MODE1_SYNCBUSY_Type SYNCBUSY; /**< \brief Offset: 0x10 (R/ 32) MODE1 Synchronization Busy Status */
__IO RTC_FREQCORR_Type FREQCORR; /**< \brief Offset: 0x14 (R/W 8) Frequency Correction */
RoReg8 Reserved2[0x3];
__IO RTC_MODE1_COUNT_Type COUNT; /**< \brief Offset: 0x18 (R/W 16) MODE1 Counter Value */
RoReg8 Reserved3[0x2];
__IO RTC_MODE1_PER_Type PER; /**< \brief Offset: 0x1C (R/W 16) MODE1 Counter Period */
RoReg8 Reserved4[0x2];
__IO RTC_MODE1_COMP_Type COMP[4]; /**< \brief Offset: 0x20 (R/W 16) MODE1 Compare n Value */
RoReg8 Reserved5[0x18];
__IO RTC_GP_Type GP[4]; /**< \brief Offset: 0x40 (R/W 32) General Purpose */
RoReg8 Reserved6[0x10];
__IO RTC_TAMPCTRL_Type TAMPCTRL; /**< \brief Offset: 0x60 (R/W 32) Tamper Control */
__I RTC_MODE1_TIMESTAMP_Type TIMESTAMP; /**< \brief Offset: 0x64 (R/ 32) MODE1 Timestamp */
__IO RTC_TAMPID_Type TAMPID; /**< \brief Offset: 0x68 (R/W 32) Tamper ID */
RoReg8 Reserved7[0x14];
__IO RTC_BKUP_Type BKUP[8]; /**< \brief Offset: 0x80 (R/W 32) Backup */
} RtcMode1;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
/** \brief RTC_MODE2 hardware registers */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef struct { /* Clock/Calendar with Alarm */
__IO RTC_MODE2_CTRLA_Type CTRLA; /**< \brief Offset: 0x00 (R/W 16) MODE2 Control A */
__IO RTC_MODE2_CTRLB_Type CTRLB; /**< \brief Offset: 0x02 (R/W 16) MODE2 Control B */
__IO RTC_MODE2_EVCTRL_Type EVCTRL; /**< \brief Offset: 0x04 (R/W 32) MODE2 Event Control */
__IO RTC_MODE2_INTENCLR_Type INTENCLR; /**< \brief Offset: 0x08 (R/W 16) MODE2 Interrupt Enable Clear */
__IO RTC_MODE2_INTENSET_Type INTENSET; /**< \brief Offset: 0x0A (R/W 16) MODE2 Interrupt Enable Set */
__IO RTC_MODE2_INTFLAG_Type INTFLAG; /**< \brief Offset: 0x0C (R/W 16) MODE2 Interrupt Flag Status and Clear */
__IO RTC_DBGCTRL_Type DBGCTRL; /**< \brief Offset: 0x0E (R/W 8) Debug Control */
RoReg8 Reserved1[0x1];
__I RTC_MODE2_SYNCBUSY_Type SYNCBUSY; /**< \brief Offset: 0x10 (R/ 32) MODE2 Synchronization Busy Status */
__IO RTC_FREQCORR_Type FREQCORR; /**< \brief Offset: 0x14 (R/W 8) Frequency Correction */
RoReg8 Reserved2[0x3];
__IO RTC_MODE2_CLOCK_Type CLOCK; /**< \brief Offset: 0x18 (R/W 32) MODE2 Clock Value */
RoReg8 Reserved3[0x4];
RtcMode2Alarm Mode2Alarm[2]; /**< \brief Offset: 0x20 RtcMode2Alarm groups [NUM_OF_ALARMS] */
RoReg8 Reserved4[0x10];
__IO RTC_GP_Type GP[4]; /**< \brief Offset: 0x40 (R/W 32) General Purpose */
RoReg8 Reserved5[0x10];
__IO RTC_TAMPCTRL_Type TAMPCTRL; /**< \brief Offset: 0x60 (R/W 32) Tamper Control */
__I RTC_MODE2_TIMESTAMP_Type TIMESTAMP; /**< \brief Offset: 0x64 (R/ 32) MODE2 Timestamp */
__IO RTC_TAMPID_Type TAMPID; /**< \brief Offset: 0x68 (R/W 32) Tamper ID */
RoReg8 Reserved6[0x14];
__IO RTC_BKUP_Type BKUP[8]; /**< \brief Offset: 0x80 (R/W 32) Backup */
} RtcMode2;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
typedef union {
RtcMode0 MODE0; /**< \brief Offset: 0x00 32-bit Counter with Single 32-bit Compare */
RtcMode1 MODE1; /**< \brief Offset: 0x00 16-bit Counter with Two 16-bit Compares */
RtcMode2 MODE2; /**< \brief Offset: 0x00 Clock/Calendar with Alarm */
} Rtc;
#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
/*@}*/
#endif /* _SAMD51_RTC_COMPONENT_ */