takashi kadono
Color Oled(SSD1331) connect to STMicroelectronics Nucleo-F466
mbed-os/targets/TARGET_NUVOTON/TARGET_M2351/device/Reg/rtc_reg.h
- Committer:
- kadonotakashi
- Date:
- 2018-10-11
- Revision:
- 3:f3764f852aa8
- Parent:
- 0:8fdf9a60065b
File content as of revision 3:f3764f852aa8:
/**************************************************************************//**
* @file rtc_reg.h
* @version V1.00
* @brief RTC register definition header file
*
* @copyright (C) 2017 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#ifndef __RTC_REG_H__
#define __RTC_REG_H__
/*---------------------- Real Time Clock Controller -------------------------*/
/**
@addtogroup RTC Real Time Clock Controller(RTC)
Memory Mapped Structure for RTC Controller
@{ */
typedef struct
{
/**
* @var RTC_T::INIT
* Offset: 0x00 RTC Initiation Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |INIT_ACTIVE|RTC Active Status (Read Only)
* | | |0 = RTC is at reset state.
* | | |1 = RTC is at normal active state.
* |[31:1] |INIT |RTC Initiation
* | | |When RTC block is powered on, RTC is at reset state
* | | |User has to write a number (0x a5eb1357) to INIT to make RTC leaving reset state
* | | |Once the INIT is written as 0xa5eb1357, the RTC will be in un-reset state permanently.
* | | |The INIT is a write-only field and read value will be always 0.
* @var RTC_T::RWEN
* Offset: 0x04 RTC Access Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[15:0] |RWEN |RTC Register Access Enable Password (Write Only)
* | | |Writing 0xA965 to this field will enable RTC accessible period keeps 1024 RTC clocks.
* | | |Note: Writing other value will clear RWENF and disable RTC register access function immediately.
* |[16] |RWENF |RTC Register Access Enable Flag (Read Only)
* | | |0 = RTC register read/write Disabled.
* | | |1 = RTC register read/write Enabled.
* | | |This bit will be set after RTC_RWEN[15:0] register is load a 0xA965, and be cleared automatically after 1024 RTC clocks expired.
* | | |Note: RWENF will be mask to 0 during RTCBUSY is 1, and first turn on RTCCKEN (CLK_APBCLK[1]) also.
* |[24] |RTCBUSY |RTC Write Busy Flag
* | | |This bit indicates RTC registers are busy or not. RTC register R/W is invalid during RTCBUSY.
* | | |0: RTC registers are readable and writable.
* | | |1: RTC registers can't R/W, RTC under Busy Status.
* | | |Note: RTCBUSY flag will be set when execute write RTC register command exceed 6 times within 1120 PCLK cycles or PCLKRTC switch on first few cycles.
* | | |Note: The bit reflect RWENF (RWENF = 0 when RTCBUSY).
* @var RTC_T::FREQADJ
* Offset: 0x08 RTC Frequency Compensation Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[21:0] |FREQADJ |Frequency Compensation Register
* | | |User must to get actual LXT frequency for RTC application.
* | | |FCR = 0x200000 * (32768 / LXT frequency).
* | | |Note: This formula is suitable only when RTC clock source is from LXT, RTCSEL (CLK_CLKSEL3[8]) is 0.
* | | |If set RTCSEL (CLK_CLKSEL3[8]) to 1, RTC clock source is from LIRC.
* | | |User can set FREQADJ to execute LIRC compensation for RTC counter more accurate and the formula as below,
* | | |FCR = 0x80000 * (32768 / LIRC frequency).
* @var RTC_T::TIME
* Offset: 0x0C RTC Time Loading Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |SEC |1-Sec Time Digit (0~9)
* |[6:4] |TENSEC |10-Sec Time Digit (0~5)
* |[11:8] |MIN |1-Min Time Digit (0~9)
* |[14:12] |TENMIN |10-Min Time Digit (0~5)
* |[19:16] |HR |1-Hour Time Digit (0~9)
* |[21:20] |TENHR |10-Hour Time Digit (0~2)
* | | |When RTC runs as 12-hour time scale mode, RTC_TIME[21] (the high bit of TENHR[1:0]) means AM/PM indication (If RTC_TIME[21] is 1, it indicates PM time message.)
* |[30:24] |HZCNT |Index of sub-second counter(0x00 ~0x7F)
* @var RTC_T::CAL
* Offset: 0x10 RTC Calendar Loading Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |DAY |1-Day Calendar Digit (0~9)
* |[5:4] |TENDAY |10-Day Calendar Digit (0~3)
* |[11:8] |MON |1-Month Calendar Digit (0~9)
* |[12] |TENMON |10-Month Calendar Digit (0~1)
* |[19:16] |YEAR |1-Year Calendar Digit (0~9)
* |[23:20] |TENYEAR |10-Year Calendar Digit (0~9)
* @var RTC_T::CLKFMT
* Offset: 0x14 RTC Time Scale Selection Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |24HEN |24-hour / 12-hour Time Scale Selection
* | | |Indicates that RTC_TIME and RTC_TALM are in 24-hour time scale or 12-hour time scale
* | | |0 = 12-hour time scale with AM and PM indication selected.
* | | |1 = 24-hour time scale selected.
* |[8] |HZCNTEN |Sub-second Counter Enable Bit
* | | |0 = HZCNT disabled in RTC_TIME and RTC_TALM.
* | | |1 = HZCNT enabled in RTC_TIME and RTC_TALM .
* @var RTC_T::WEEKDAY
* Offset: 0x18 RTC Day of the Week Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[2:0] |WEEKDAY |Day of the Week Register
* | | |000 = Sunday.
* | | |001 = Monday.
* | | |010 = Tuesday.
* | | |011 = Wednesday.
* | | |100 = Thursday.
* | | |101 = Friday.
* | | |110 = Saturday.
* | | |111 = Reserved.
* @var RTC_T::TALM
* Offset: 0x1C RTC Time Alarm Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |SEC |1-Sec Time Digit of Alarm Setting (0~9)
* |[6:4] |TENSEC |10-Sec Time Digit of Alarm Setting (0~5)
* |[11:8] |MIN |1-Min Time Digit of Alarm Setting (0~9)
* |[14:12] |TENMIN |10-Min Time Digit of Alarm Setting (0~5)
* |[19:16] |HR |1-Hour Time Digit of Alarm Setting (0~9)
* |[21:20] |TENHR |10-Hour Time Digit of Alarm Setting (0~2)
* | | |When RTC runs as 12-hour time scale mode, RTC_TIME[21] (the high bit of TENHR[1:0]) means AM/PM indication (If RTC_TIME[21] is 1, it indicates PM time message.)
* |[30:24] |HZCNT |Index of sub-second counter(0x00 ~0x7F)
* @var RTC_T::CALM
* Offset: 0x20 RTC Calendar Alarm Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |DAY |1-Day Calendar Digit of Alarm Setting (0~9)
* |[5:4] |TENDAY |10-Day Calendar Digit of Alarm Setting (0~3)
* |[11:8] |MON |1-Month Calendar Digit of Alarm Setting (0~9)
* |[12] |TENMON |10-Month Calendar Digit of Alarm Setting (0~1)
* |[19:16] |YEAR |1-Year Calendar Digit of Alarm Setting (0~9)
* |[23:20] |TENYEAR |10-Year Calendar Digit of Alarm Setting (0~9)
* @var RTC_T::LEAPYEAR
* Offset: 0x24 RTC Leap Year Indicator Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |LEAPYEAR |Leap Year Indication Register (Read Only)
* | | |0 = This year is not a leap year.
* | | |1 = This year is leap year.
* @var RTC_T::INTEN
* Offset: 0x28 RTC Interrupt Enable Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ALMIEN |Alarm Interrupt Enable Bit
* | | |Set ALMIEN to 1 can also enable chip wake-up function when RTC alarm interrupt event is generated.
* | | |0 = RTC Alarm interrupt Disabled.
* | | |1 = RTC Alarm interrupt Enabled.
* |[1] |TICKIEN |Time Tick Interrupt Enable Bit
* | | |Set TICKIEN to 1 can also enable chip wake-up function when RTC tick interrupt event is generated.
* | | |0 = RTC Time Tick interrupt Disabled.
* | | |1 = RTC Time Tick interrupt Enabled.
* |[8] |TAMP0IEN |Tamper 0 Interrupt Enable Bit
* | | |Set TAMP0IEN to 1 can also enable chip wake-up function when tamper 0 interrupt event is generated.
* | | |0 = Tamper 0 interrupt Disabled.
* | | |1 = Tamper 0 interrupt Enabled.
* |[9] |TAMP1IEN |Tamper 1 or Pair 0 Interrupt Enable Bit
* | | |Set TAMP1IEN to 1 can also enable chip wake-up function when tamper 1 interrupt event is generated.
* | | |0 = Tamper 1 or Pair 0 interrupt Disabled.
* | | |1 = Tamper 1 or Pair 0 interrupt Enabled.
* |[10] |TAMP2IEN |Tamper 2 Interrupt Enable Bit
* | | |Set TAMP2IEN to 1 can also enable chip wake-up function when tamper 2 interrupt event is generated.
* | | |0 = Tamper 2 interrupt Disabled.
* | | |1 = Tamper 2 interrupt Enabled.
* |[11] |TAMP3IEN |Tamper 3 or Pair 1 Interrupt Enable Bit
* | | |Set TAMP3IEN to 1 can also enable chip wake-up function when tamper 3 interrupt event is generated.
* | | |0 = Tamper 3 or Pair 1 interrupt Disabled.
* | | |1 = Tamper 3 or Pair 1 interrupt Enabled.
* |[12] |TAMP4IEN |Tamper 4 Interrupt Enable Bit
* | | |Set TAMP4IEN to 1 can also enable chip wake-up function when tamper 4 interrupt event is generated.
* | | |0 = Tamper 4 interrupt Disabled.
* | | |1 = Tamper 4 interrupt Enabled.
* |[13] |TAMP5IEN |Tamper 5 or Pair 2 Interrupt Enable Bit
* | | |Set TAMP5IEN to 1 can also enable chip wake-up function when tamper 5 interrupt event is generated.
* | | |0 = Tamper 5 or Pair 2 interrupt Disabled.
* | | |1 = Tamper 5 or Pair 2 interrupt Enabled.
* |[24] |CLKFIEN |LXT Clock Frequency Monitor Fail Interrupt Enable Bit
* | | |0 = LXT Frequency Fail interrupt Disabled.
* | | |1 = LXT Frequency Fail interrupt Enabled.
* |[25] |CLKSPIEN |LXT Clock Frequency Monitor Stop Interrupt Enable Bit
* | | |0 = LXT Frequency Stop interrupt Disabled.
* | | |1 = LXT Frequency Stop interrupt Enabled.
* @var RTC_T::INTSTS
* Offset: 0x2C RTC Interrupt Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ALMIF |RTC Alarm Interrupt Flag
* | | |0 = Alarm condition is not matched.
* | | |1 = Alarm condition is matched.
* | | |Note: Write 1 to clear this bit.
* |[1] |TICKIF |RTC Time Tick Interrupt Flag
* | | |0 = Tick condition does not occur.
* | | |1 = Tick condition occur.
* | | |Note: Write 1 to clear this bit.
* |[8] |TAMP0IF |Tamper 0 Interrupt Flag
* | | |0 = No Tamper 0 interrupt flag is generated.
* | | |1 = Tamper 0 interrupt flag is generated.
* | | |Note1: Write 1 to clear this bit.
* | | |Note2: Clear all TAPMxIF will clear RTC_TAMPTIME and RTC_TAMPCAL automatically.
* |[9] |TAMP1IF |Tamper 1 or Pair 0 Interrupt Flag
* | | |0 = No Tamper 1 or Pair 0 interrupt flag is generated.
* | | |1 = Tamper 1 or Pair 0 interrupt flag is generated.
* | | |Note1: Write 1 to clear this bit.
* | | |Note2: Clear all TAPMxIF will clear RTC_TAMPTIME and RTC_TAMPCAL automatically.
* |[10] |TAMP2IF |Tamper 2 Interrupt Flag
* | | |0 = No Tamper 2 interrupt flag is generated.
* | | |1 = Tamper 2 interrupt flag is generated.
* | | |Note1: Write 1 to clear this bit.
* | | |Note2: Clear all TAPMxIF will clear RTC_TAMPTIME and RTC_TAMPCAL automatically.
* |[11] |TAMP3IF |Tamper 3 or Pair 1 Interrupt Flag
* | | |0 = No Tamper 3 or Pair 1 interrupt flag is generated.
* | | |1 = Tamper 3 or Pair 1 interrupt flag is generated.
* | | |Note1: Write 1 to clear this bit.
* | | |Note2: Clear all TAPMxIF will clear RTC_TAMPTIME and RTC_TAMPCAL automatically.
* |[12] |TAMP4IF |Tamper 4 Interrupt Flag
* | | |0 = No Tamper 4 interrupt flag is generated.
* | | |1 = Tamper 4 interrupt flag is generated.
* | | |Note1: Write 1 to clear this bit.
* | | |Note2: Clear all TAPMxIF will clear RTC_TAMPTIME and RTC_TAMPCAL automatically.
* |[13] |TAMP5IF |Tamper 5 or Pair 2 Interrupt Flag
* | | |0 = No Tamper 5 or Pair 2 interrupt flag is generated.
* | | |1 = Tamper 5 or Pair 2 interrupt flag is generated.
* | | |Note1: Write 1 to clear this bit.
* | | |Note2: Clear all TAPMxIF will clear RTC_TAMPTIME and RTC_TAMPCAL automatically.
* |[24] |CLKFIF |LXT Clock Frequency Monitor Fail Interrupt Flag
* | | |0 = LXT frequency is normal.
* | | |1 = LXT frequency is abnormal.
* | | |Note1: Write 1 to clear the bit to 0.
* | | |Note2: LXT detector will automatic disable when Fail/Stop Flag rise, resume after Fail/Stop Flag clear.
* |[25] |CLKSPIF |LXT Clock Frequency Monitor Stop Interrupt Flag
* | | |0 = LXT frequency is normal.
* | | |1 = LXT frequency is almost stop ..
* | | |Note1: Write 1 to clear the bit to 0.
* | | |Note2: LXT detector will automatic disable when Fail/Stop Flag rise, resume after Fail/Stop Flag clear.
* @var RTC_T::TICK
* Offset: 0x30 RTC Time Tick Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[2:0] |TICK |Time Tick Register
* | | |These bits are used to select RTC time tick period for Periodic Time Tick Interrupt request.
* | | |000 = Time tick is 1 second.
* | | |001 = Time tick is 1/2 second.
* | | |010 = Time tick is 1/4 second.
* | | |011 = Time tick is 1/8 second.
* | | |100 = Time tick is 1/16 second.
* | | |101 = Time tick is 1/32 second.
* | | |110 = Time tick is 1/64 second.
* | | |111 = Time tick is 1/128 second.
* | | |Note: This register can be read back after the RTC register access enable bit RWENF (RTC_RWEN[16]) is active.
* @var RTC_T::TAMSK
* Offset: 0x34 RTC Time Alarm Mask Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |MSEC |Mask 1-Sec Time Digit of Alarm Setting (0~9)
* |[1] |MTENSEC |Mask 10-Sec Time Digit of Alarm Setting (0~5)
* |[2] |MMIN |Mask 1-Min Time Digit of Alarm Setting (0~9)
* |[3] |MTENMIN |Mask 10-Min Time Digit of Alarm Setting (0~5)
* |[4] |MHR |Mask 1-Hour Time Digit of Alarm Setting (0~9)
* | | |Note: MHR function is only for 24-hour time scale mode.
* |[5] |MTENHR |Mask 10-Hour Time Digit of Alarm Setting (0~2)
* | | |Note: MTENHR function is only for 24-hour time scale mode.
* @var RTC_T::CAMSK
* Offset: 0x38 RTC Calendar Alarm Mask Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |MDAY |Mask 1-Day Calendar Digit of Alarm Setting (0~9)
* |[1] |MTENDAY |Mask 10-Day Calendar Digit of Alarm Setting (0~3)
* |[2] |MMON |Mask 1-Month Calendar Digit of Alarm Setting (0~9)
* |[3] |MTENMON |Mask 10-Month Calendar Digit of Alarm Setting (0~1)
* |[4] |MYEAR |Mask 1-Year Calendar Digit of Alarm Setting (0~9)
* |[5] |MTENYEAR |Mask 10-Year Calendar Digit of Alarm Setting (0~9)
* @var RTC_T::SPRCTL
* Offset: 0x3C RTC Spare Functional Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[2] |SPRRWEN |Spare Register Enable Bit
* | | |0 = Spare register is Disabled.
* | | |1 = Spare register is Enabled.
* | | |Note: When spare register is disabled, RTC_SPR0 ~ RTC_SPR19 cannot be accessed.
* |[5] |SPRCSTS |SPR Clear Flag
* | | |This bit indicates if the RTC_SPR0 ~RTC_SPR19 content is cleared when specify snoop event is detected.
* | | |0 = Spare register content is not cleared.
* | | |1 = Spare register content is cleared.
* | | |Writes 1 to clear this bit.
* | | |Note: This bit keep 1 when RTC_INTSTS[13:8] or RTC_INTSTS[25:24] are not equal zero.
* |[16] |LXTFCLR |LXT Clock Monitor Fail/Stop to Clear Spare Enable Bit
* | | |0 = LXT monitor Fail/Stop to clear Spare register content is Disabled..
* | | |1 = LXT monitor Fail/Stop to clear Spare register content is Enabled.
* @var RTC_T::SPR[20]
* Offset: 0x40 ~ 0x8C RTC Spare Register 0 ~ 19
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |SPARE |Spare Register
* | | |This field is used to store back-up information defined by user.
* | | |This field will be cleared by hardware automatically once a tamper pin event is detected.
* | | |Before storing back-up information in to RTC_SPRx register, user should write 0xA965 to RTC_RWEN[15:0] to make sure register read/write enable bit REWNF (RTC_RWEN[16]) is enabled.
* @var RTC_T::LXTCTL
* Offset: 0x100 RTC 32.768 kHz Oscillator Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |LIRC32KEN |LIRC 32K Source Enable Bit
* | | |0 = LIRC32K Disabled.
* | | |1 = LIRC32K.Enabled.
* |[3:1] |GAIN |Oscillator Gain Option
* | | |User can select oscillator gain according to crystal external loading and operating temperature range
* | | |The larger gain value corresponding to stronger driving capability and higher power consumption.
* | | |000 = L0 mode.
* | | |001 = L1 mode.
* | | |010 = L2 mode.
* | | |011 = L3 mode.
* | | |100 = L4 mode.
* | | |101 = L5 mode.
* | | |110 = L6 mode.
* | | |111 = L7 mode (Default).
* |[7] |C32KS |Clock 32K Source Selection:
* | | |0 = Internal 32K clock is from 32K crystal .
* | | |1 = Internal 32K clock is from LIRC32K.
* @var RTC_T::GPIOCTL0
* Offset: 0x104 RTC GPIO Control 0 Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[1:0] |OPMODE0 |IO Operation Mode
* | | |00 = PF.0 is input only mode, without pull-up resistor.
* | | |01 = PF.0 is output push pull mode.
* | | |10 = PF.0 is open drain mode.
* | | |11 = PF.0 is quasi-bidirectional mode with internal pull up.
* |[2] |DOUT0 |IO Output Data
* | | |0 = PF.0 output low.
* | | |1 = PF.0 output high.
* |[3] |CTLSEL0 |IO Pin State Backup Selection
* | | |When low speed 32 kHz oscillator is disabled, PF.0 pin (X32KO pin) can be used as GPIO function
* | | |User can program CTLSEL0 to decide PF.0 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL0 control register.
* | | |0 = PF.0 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL0 = 1 when system power is turned off.
* | | |1 = PF.0 pin I/O function is controlled by VBAT power domain.
* | | |PF.0 pin function and I/O status are controlled by OPMODE0[1:0] and DOUT0 after CTLSEL0 is set to 1.
* | | |Note: CTLSEL0 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[5:4] |PUSEL0 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.0 I/O pull-up or pull-down.
* | | |00 = PF.0 pull-up and pull-up disable.
* | | |01 = PF.0 pull-down enable.
* | | |10 = PF.0 pull-up enable.
* | | |11 = PF.0 pull-up and pull-up disable.
* | | |Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE0 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE0 set as input tri-state mode.
* |[9:8] |OPMODE1 |IO Operation Mode
* | | |00 = PF.1 is input only mode, without pull-up resistor.
* | | |01 = PF.1 is output push pull mode.
* | | |10 = PF.1 is open drain mode.
* | | |11 = PF.1 is quasi-bidirectional mode with internal pull up.
* |[10] |DOUT1 |IO Output Data
* | | |0 = PF.1 output low.
* | | |1 = PF.1 output high.
* |[11] |CTLSEL1 |IO Pin State Backup Selection
* | | |When low speed 32 kHz oscillator is disabled, PF.1 pin (X32KI pin) can be used as GPIO function
* | | |User can program CTLSEL1 to decide PF.1 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL0 control register.
* | | |0 = PF.1 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL1 = 1 when system power is turned off.
* | | |1 = PF.1 pin I/O function is controlled by VBAT power domain.
* | | |PF.1 pin function and I/O status are controlled by OPMODE1[1:0] and DOUT1 after CTLSEL1 is set to 1.
* | | |Note: CTLSEL1 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[13:12] |PUSEL1 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.1 I/O pull-up or pull-down.
* | | |00 = PF.1 pull-up and pull-up disable.
* | | |01 = PF.1 pull-down enable.
* | | |10 = PF.1 pull-up enable.
* | | |11 = PF.1 pull-up and pull-up disable.
* | | |Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE1 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE1 set as input tri-state mode.
* |[17:16] |OPMODE2 |IO Operation Mode
* | | |00 = PF.2 is input only mode, without pull-up resistor.
* | | |01 = PF.2 is output push pull mode.
* | | |10 = PF.2 is open drain mode.
* | | |11 = PF.2 is quasi-bidirectional mode with internal pull up.
* |[18] |DOUT2 |IO Output Data
* | | |0 = PF.2 output low.
* | | |1 = PF.2 output high.
* |[19] |CTLSEL2 |IO Pin State Backup Selection
* | | |When TAMP0EN is disabled, PF.2 pin (TAMPER0 pin) can be used as GPIO function
* | | |User can program CTLSEL2 to decide PF.2 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL0 control register.
* | | |0 = PF.2 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL2 = 1 when system power is turned off.
* | | |1 = PF.2 pin I/O function is controlled by VBAT power domain.
* | | |PF.2 pin function and I/O status are controlled by OPMODE2[1:0] and DOUT2 after CTLSEL2 is set to 1.
* | | |Note: CTLSEL2 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[21:20] |PUSEL2 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.2 I/O pull-up or pull-down.
* | | |00 = PF.2 pull-up and pull-up disable.
* | | |01 = PF.2 pull-down enable.
* | | |10 = PF.2 pull-up enable.
* | | |11 = PF.2 pull-up and pull-up disable.
* | | |Note1:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE2 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE2 set as input tri-state mode.
* |[25:24] |OPMODE3 |IO Operation Mode
* | | |00 = PF.7 is input only mode, without pull-up resistor.
* | | |01 = PF.7 is output push pull mode.
* | | |10 = PF.7 is open drain mode.
* | | |11 = PF.7 is quasi-bidirectional mode with with internal pull up.
* |[26] |DOUT3 |IO Output Data
* | | |0 = PF.7 output low.
* | | |1 = PF.7 output high.
* |[27] |CTLSEL3 |IO Pin State Backup Selection
* | | |When TAMP1EN is disabled, PF.7 pin (TAMPER1 pin) can be used as GPIO function
* | | |User can program CTLSEL3 to decide PF.7 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL0 control register.
* | | |0 = PF.7 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL3 = 1 when system power is turned off.
* | | |1 = PF.7 pin I/O function is controlled by VBAT power domain.
* | | |PF.7 pin function and I/O status are controlled by OPMODE3[1:0] and DOUT3 after CTLSEL3 is set to 1.
* | | |Note: CTLSEL3 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[29:28] |PUSEL3 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.7 I/O pull-up or pull-down.
* | | |00 = PF.7 pull-up and pull-down disable.
* | | |01 = PF.7 pull-down enable.
* | | |10 = PF.7 pull-up enable.
* | | |11 = PF.7 pull-up and pull-down disable.
* | | |Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE3 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE3 set as input tri-state mode.
* @var RTC_T::GPIOCTL1
* Offset: 0x108 RTC GPIO Control 1 Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[1:0] |OPMODE4 |IO Operation Mode
* | | |00 = PF.8 is input only mode, without pull-up resistor.
* | | |01 = PF.8 is output push pull mode.
* | | |10 = PF.8 is open drain mode.
* | | |11 = PF.8 is quasi-bidirectional mode with with internal pull up.
* |[2] |DOUT4 |IO Output Data
* | | |0 = PF.8 output low.
* | | |1 = PF.8 output high.
* |[3] |CTLSEL4 |IO Pin State Backup Selection
* | | |When TAMP2EN is disabled, PF.8 pin (TAMPER2 pin) can be used as GPIO function
* | | |User can program CTLSEL4 to decide PF.8 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL1 control register.
* | | |0 = PF.8 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL4 = 1 when system power is turned off.
* | | |1 = PF.8 pin I/O function is controlled by VBAT power domain.
* | | |PF.8 pin function and I/O status are controlled by OPMODE4[1:0] and DOUT4 after CTLSEL4 is set to 1.
* | | |Note: CTLSEL4 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[5:4] |PUSEL4 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.8 I/O pull-up or pull-down.
* | | |00 = PF.8 pull-up and pull-down disable.
* | | |01 = PF.8 pull-down enable.
* | | |10 = PF.8 pull-up enable.
* | | |11 = PF.8 pull-up and pull-down disable.
* | | |Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE4 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE4 set as input tri-state mode.
* |[9:8] |OPMODE5 |IO Operation Mode
* | | |00 = PF.9 is input only mode, without pull-up resistor.
* | | |01 = PF.9 is output push pull mode.
* | | |10 = PF.9 is open drain mode.
* | | |11 = PF.9 is quasi-bidirectional mode with with internal pull up.
* |[10] |DOUT5 |IO Output Data
* | | |0 = PF.9 output low.
* | | |1 = PF.9 output high.
* |[11] |CTLSEL5 |IO Pin State Backup Selection
* | | |When TAMP3EN is disabled, PF.9 pin (TAMPER3 pin) can be used as GPIO function
* | | |User can program CTLSEL5 to decide PF.9 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL1 control register.
* | | |0 = PF.9 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL5 = 1 when system power is turned off.
* | | |1 = PF.9 pin I/O function is controlled by VBAT power domain.
* | | |PF.9 pin function and I/O status are controlled by OPMODE5[1:0] and DOUT5 after CTLSEL5 is set to 1.
* | | |Note: CTLSEL5 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[13:12] |PUSEL5 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.9 I/O pull-up or pull-down.
* | | |00 = PF.9 pull-up and pull-down disable.
* | | |01 = PF.9 pull-down enable.
* | | |10 = PF.9 pull-up enable.
* | | |11 = PF.9 pull-up and pull-down disable.
* | | |.Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE5 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE5 set as input tri-state mode.
* |[17:16] |OPMODE6 |IO Operation Mode
* | | |00 = PF.10 is input only mode, without pull-up resistor.
* | | |01 = PF.10 is output push pull mode.
* | | |10 = PF.10 is open drain mode.
* | | |11 = PF.10 is quasi-bidirectional mode with with internal pull up.
* |[18] |DOUT6 |IO Output Data
* | | |0 = PF.10 output low.
* | | |1 = PF.10 output high.
* |[19] |CTLSEL6 |IO Pin State Backup Selection
* | | |When TAMP4EN is disabled, PF.10 pin (TAMPER4 pin) can be used as GPIO function
* | | |User can program CTLSEL6 to decide PF.10 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL1 control register.
* | | |0 = PF.10 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL6 = 1 when system power is turned off.
* | | |1 = PF.10 pin I/O function is controlled by VBAT power domain.
* | | |PF.10 pin function and I/O status are controlled by OPMODE6[1:0] and DOUT6 after CTLSEL6 is set to 1.
* | | |Note: CTLSEL6 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[21:20] |PUSEL6 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.10 I/O pull-up or pull-down.
* | | |00 = PF.10 pull-up and pull-down disable.
* | | |01 = PF.10 pull-down enable.
* | | |10 = PF.10 pull-up enable.
* | | |11 = PF.10 pull-up and pull-down disable.
* | | |Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE6 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE6 set as input tri-state mode.
* |[25:24] |OPMODE7 |IO Operation Mode
* | | |00 = PF.11 is input only mode, without pull-up resistor.
* | | |01 = PF.11 is output push pull mode.
* | | |10 = PF.11 is open drain mode.
* | | |11 = PF.11 is quasi-bidirectional mode with with internal pull up.
* |[26] |DOUT7 |IO Output Data
* | | |0 = PF.11 output low.
* | | |1 = PF.11 output high.
* |[27] |CTLSEL7 |IO Pin State Backup Selection
* | | |When TAMP5EN is disabled, PF.11 pin (TAMPER5 pin) can be used as GPIO function
* | | |User can program CTLSEL7 to decide PF.11 I/O function is controlled by system power domain GPIO module or VBAT power domain RTC_GPIOCTL1 control register.
* | | |0 = PF.11 pin I/O function is controlled by GPIO module.
* | | |Hardware auto becomes CTLSEL7 = 1 when system power is turned off.
* | | |1 = PF.11 pin I/O function is controlled by VBAT power domain.
* | | |PF.11 pin function and I/O status are controlled by OPMODE7[1:0] and DOUT7 after CTLSEL7 is set to 1.
* | | |Note: CTLSEL7 will automatically be set by hardware to 1 when system power is off and RTC_INIT[0] (RTC Active Status) is 1.
* |[29:28] |PUSEL7 |IO Pull-up and Pull-down Enable Bit
* | | |Determine PF.11 I/O pull-up or pull-down.
* | | |00 = PF.11 pull-up and pull-down disable.
* | | |01 = PF.11 pull-down enable.
* | | |10 = PF.11 pull-up enable.
* | | |11 = PF.11 pull-up and pull-down disable.
* | | |Note:
* | | |Basically, the pull-up control and pull-down control has following behavior limitation.
* | | |The independent pull-up control register only valid when OPMODE7 set as input tri-state and open-drain mode.
* | | |The independent pull-down control register only valid when OPMODE7 set as input tri-state mode.
* @var RTC_T::DSTCTL
* Offset: 0x110 RTC Daylight Saving Time Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ADDHR |Add 1 Hour
* | | |0 = No effect.
* | | |1 = Indicates RTC hour digit has been added one hour for summer time change.
* |[1] |SUBHR |Subtract 1 Hour
* | | |0 = No effect.
* | | |1 = Indicates RTC hour digit has been subtracted one hour for winter time change.
* |[2] |DSBAK |Daylight Saving Back
* | | |0= Daylight Saving Change is not performed.
* | | |1= Daylight Saving Change is performed.
* @var RTC_T::TAMPCTL
* Offset: 0x120 RTC Tamper Pin Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |DYN1ISS |Dynamic Pair 1 Input Source Select
* | | |This bit determine Tamper 3 input is from Tamper 2 or Tamper 0 in dynamic mode.
* | | |0 = Tamper input is from Tamper 2.
* | | |1 = Tamper input is from Tamper 0.
* | | |Note: This bit has effect only when DYNPR1EN (RTC_TAMPCTL[16]) and DYNPR0EN (RTC_TAMPCTL[15]) are set
* |[1] |DYN2ISS |Dynamic Pair 2 Input Source Select
* | | |This bit determine Tamper 5 input is from Tamper 4 or Tamper 0 in dynamic mode.
* | | |0 = Tamper input is from Tamper 4.
* | | |1 = Tamper input is from Tamper 0.
* | | |Note: This bit has effect only when DYNPR2EN (RTC_TAMPCTL[24]) and DYNPR0EN (RTC_TAMPCTL[15]) are set
* |[3:2] |DYNSRC |Dynamic Reference Pattern
* | | |This fields determine the new reference pattern when current pattern run out in dynamic pair mode.
* | | |00 or 10 = The new reference pattern is generated by random number generator when the reference pattern run out.
* | | |01 = The new reference pattern is repeated previous random value when the reference pattern run out.
* | | |11 = The new reference pattern is repeated from SEED (RTC_TAMPSEED[31:0]) when the reference pattern run out.
* | | |Note: After revise this bit, the SEEDRLD (RTC_TAMPCTL[4]) should be set.
* |[4] |SEEDRLD |Reload New Seed for PRNG Engine
* | | |Setting this bit, the tamper configuration will be reload.
* | | |0 = Generating key based on the current seed.
* | | |1 = Reload new seed.
* | | |Note: Before set this bit, the tamper configuration should be set to complete.
* |[7:5] |DYNRATE |Dynamic Change Rate
* | | |This item is choice the dynamic tamper output change rate.
* | | |000 = 2^10 * RTC_CLK.
* | | |001 = 2^11 * RTC_CLK.
* | | |010 = 2^12 * RTC_CLK.
* | | |011 = 2^13 * RTC_CLK.
* | | |100 = 2^14 * RTC_CLK.
* | | |101 = 2^15 * RTC_CLK.
* | | |110 = 2^16 * RTC_CLK.
* | | |111 = 2^17 * RTC_CLK.
* | | |Note: After revise this field, set SEEDRLD (RTC_TAMPCTL[4]) can reload chage rate immediately.
* |[8] |TAMP0EN |Tamper0 Detect Enable Bit
* | | |0 = Tamper 0 detect Disabled.
* | | |1 = Tamper 0 detect Enabled.
* | | |Note1: The reference is RTC-clock . Tamper detector need sync 2 ~ 3 RTC-clock.
* |[9] |TAMP0LV |Tamper 0 Level
* | | |This bit depend on level attribute of tamper pin for static tamper detection.
* | | |0 = Detect voltage level is low.
* | | |1 = Detect voltage level is high.
* |[10] |TAMP0DBEN |Tamper 0 De-bounce Enable Bit
* | | |0 = Tamper 0 de-bounce Disabled.
* | | |1 = Tamper 0 de-bounce Enabled.
* |[12] |TAMP1EN |Tamper 1 Detect Enable Bit
* | | |0 = Tamper 1 detect Disabled.
* | | |1 = Tamper 1 detect Enabled.
* | | |Note1: The reference is RTC-clock . Tamper detector need sync 2 ~ 3 RTC-clock.
* |[13] |TAMP1LV |Tamper 1 Level
* | | |This bit depend on level attribute of tamper pin for static tamper detection.
* | | |0 = Detect voltage level is low.
* | | |1 = Detect voltage level is high.
* |[14] |TAMP1DBEN |Tamper 1 De-bounce Enable Bit
* | | |0 = Tamper 1 de-bounce Disabled.
* | | |1 = Tamper 1 de-bounce Enabled.
* |[15] |DYNPR0EN |Dynamic Pair 0 Enable Bit
* | | |0 = Static detect.
* | | |1 = Dynamic detect.
* |[16] |TAMP2EN |Tamper 2 Detect Enable Bit
* | | |0 = Tamper 2 detect Disabled.
* | | |1 = Tamper 2 detect Enabled.
* | | |Note1: The reference is RTC-clock . Tamper detector need sync 2 ~ 3 RTC-clock.
* |[17] |TAMP2LV |Tamper 2 Level
* | | |This bit depend on level attribute of tamper pin for static tamper detection.
* | | |0 = Detect voltage level is low.
* | | |1 = Detect voltage level is high.
* |[18] |TAMP2DBEN |Tamper 2 De-bounce Enable Bit
* | | |0 = Tamper 2 de-bounce Disabled.
* | | |1 = Tamper 2 de-bounce Enabled.
* |[20] |TAMP3EN |Tamper 3 Detect Enable Bit
* | | |0 = Tamper 3 detect Disabled.
* | | |1 = Tamper 3 detect Enabled.
* | | |Note1: The reference is RTC-clock . Tamper detector need sync 2 ~ 3 RTC-clock.
* |[21] |TAMP3LV |Tamper 3 Level
* | | |This bit depend on level attribute of tamper pin for static tamper detection.
* | | |0 = Detect voltage level is low.
* | | |1 = Detect voltage level is high.
* |[22] |TAMP3DBEN |Tamper 3 De-bounce Enable Bit
* | | |0 = Tamper 3 de-bounce Disabled.
* | | |1 = Tamper 3 de-bounce Enabled.
* |[23] |DYNPR1EN |Dynamic Pair 1 Enable Bit
* | | |0 = Static detect.
* | | |1 = Dynamic detect.
* |[24] |TAMP4EN |Tamper4 Detect Enable Bit
* | | |0 = Tamper 4 detect Disabled.
* | | |1 = Tamper 4 detect Enabled.
* | | |Note1: The reference is RTC-clock . Tamper detector need sync 2 ~ 3 RTC-clock.
* |[25] |TAMP4LV |Tamper 4 Level
* | | |This bit depend on level attribute of tamper pin for static tamper detection.
* | | |0 = Detect voltage level is low.
* | | |1 = Detect voltage level is high.
* |[26] |TAMP4DBEN |Tamper 4 De-bounce Enable Bit
* | | |0 = Tamper 4 de-bounce Disabled.
* | | |1 = Tamper 4 de-bounce Enabled.
* |[28] |TAMP5EN |Tamper 5 Detect Enable Bit
* | | |0 = Tamper 5 detect Disabled.
* | | |1 = Tamper 5 detect Enabled.
* | | |Note1: The reference is RTC-clock . Tamper detector need sync 2 ~ 3 RTC-clock.
* |[29] |TAMP5LV |Tamper 5 Level
* | | |This bit depend on level attribute of tamper pin for static tamper detection.
* | | |0 = Detect voltage level is low.
* | | |1 = Detect voltage level is high.
* |[30] |TAMP5DBEN |Tamper 5 De-bounce Enable Bit
* | | |0 = Tamper 5 de-bounce Disabled.
* | | |1 = Tamper 5 de-bounce Enabled.
* |[31] |DYNPR2EN |Dynamic Pair 2 Enable Bit
* | | |0 = Static detect.
* | | |1 = Dynamic detect.
* @var RTC_T::TAMPSEED
* Offset: 0x128 RTC Tamper Dynamic Seed Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |SEED |Seed Value
* @var RTC_T::TAMPTIME
* Offset: 0x130 RTC Tamper Time Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |SEC |1-Sec Time Digit of TAMPER Time (0~9)
* |[6:4] |TENSEC |10-Sec Time Digit of TAMPER Time (0~5)
* |[11:8] |MIN |1-Min Time Digit of TAMPER Time (0~9)
* |[14:12] |TENMIN |10-Min Time Digit of TAMPER Time (0~5)
* |[19:16] |HR |1-Hour Time Digit of TAMPER Time (0~9)
* |[21:20] |TENHR |10-Hour Time Digit of TAMPER Time (0~2) Note: 24-hour time scale only .
* |[30:24] |HZCNT |Index of sub-second counter(0x00 ~0x7F)
* @var RTC_T::TAMPCAL
* Offset: 0x134 RTC Tamper Calendar Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |DAY |1-Day Calendar Digit of TAMPER Calendar (0~9)
* |[5:4] |TENDAY |10-Day Calendar Digit of TAMPER Calendar (0~3)
* |[11:8] |MON |1-Month Calendar Digit of TAMPER Calendar (0~9)
* |[12] |TENMON |10-Month Calendar Digit of TAMPER Calendar (0~1)
* |[19:16] |YEAR |1-Year Calendar Digit of TAMPER Calendar (0~9)
* |[23:20] |TENYEAR |10-Year Calendar Digit of TAMPER Calendar (0~9)
* @var RTC_T::CLKDCTL
* Offset: 0x140 Clock Fail Detector Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |LXTFDEN |LXT Clock Fail/Stop Detector Enable Bit
* | | |0 = LXT clock fail/stop detector Disabled.
* | | |1 = LXT clock fail/stop detector Enabled.
* | | |Note:
* |[1] |LXTFSW |LXT Clock Fail Detector Switch LIRC32K Enable Bit
* | | |0 = LXT Clock Fail Detector Switch LIRC32K Disabled.
* | | |1 = Enabled
* | | |If LXT clock fail detector flag CLKFIF (RTC_INTSTS[24]) is generated, RTC clock source will switch to LIRC32K automatically.
* |[2] |LXTSPSW |LXT Clock Stop Detector Switch LIRC32K Enable Bit
* | | |0 = LXT Clock Stop Detector Switch LIRC32K Disabled.
* | | |1 = Enabled
* | | |If LXT clock stop detector flag CLKSPIF (RTC_INTSTS[25]) is generated, RTC clock source will switch to LIRC32K automatically
* |[16] |CLKSWLIRCF|LXT Clock Detector Fail/Stop Switch LIRC32K Flag (Read Only)
* | | |0 = RTC clock source from LXT.
* | | |1 = RTC clock source from LIRC32K .
* |[17] |LXTFASTF |LXT Faster Than LIRX32K Flag (Read Only)
* | | |0 = LXT frequency is slowly.
* | | |1 = LXT frequency faster than LIRC32K.
* @var RTC_T::CDBR
* Offset: 0x144 Clock Frequency Detector Boundary Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[7:0] |STOPBD |LXT Clock Frequency Detector Stop Boundary
* | | |The bits define the stop value of frequency monitor window.
* | | |When LXT frequency monitor counter lower than Clock Frequency Detector Stop Boundary , the LXT frequency detect Stop interrupt flag will set to 1.
* | | |Note: The boundary is defined as the maximum value of LXT among 256 LIRC32K clock time.
* |[23:16] |FAILBD |LXT Clock Frequency Detector Fail Boundary
* | | |The bits define the fail value of frequency monitor window.
* | | |When LXT frequency monitor counter lower than Clock Frequency Detector fail Boundary , the LXT frequency detect fail interrupt flag will set to 1.
* | | |Note: The boundary is defined as the minimum value of LXT among 256 LIRC32K clock time.
*/
__IO uint32_t INIT; /*!< [0x0000] RTC Initiation Register */
__IO uint32_t RWEN; /*!< [0x0004] RTC Access Enable Register */
__IO uint32_t FREQADJ; /*!< [0x0008] RTC Frequency Compensation Register */
__IO uint32_t TIME; /*!< [0x000c] RTC Time Loading Register */
__IO uint32_t CAL; /*!< [0x0010] RTC Calendar Loading Register */
__IO uint32_t CLKFMT; /*!< [0x0014] RTC Time Scale Selection Register */
__IO uint32_t WEEKDAY; /*!< [0x0018] RTC Day of the Week Register */
__IO uint32_t TALM; /*!< [0x001c] RTC Time Alarm Register */
__IO uint32_t CALM; /*!< [0x0020] RTC Calendar Alarm Register */
__I uint32_t LEAPYEAR; /*!< [0x0024] RTC Leap Year Indicator Register */
__IO uint32_t INTEN; /*!< [0x0028] RTC Interrupt Enable Register */
__IO uint32_t INTSTS; /*!< [0x002c] RTC Interrupt Status Register */
__IO uint32_t TICK; /*!< [0x0030] RTC Time Tick Register */
__IO uint32_t TAMSK; /*!< [0x0034] RTC Time Alarm Mask Register */
__IO uint32_t CAMSK; /*!< [0x0038] RTC Calendar Alarm Mask Register */
__IO uint32_t SPRCTL; /*!< [0x003c] RTC Spare Functional Control Register */
__IO uint32_t SPR[20]; /*!< [0x0040] ~ [0x008C] RTC Spare Register 0 ~ 19 */
__I uint32_t RESERVE0[28]; /* 0x90 ~ 0xFC */
__IO uint32_t LXTCTL; /*!< [0x0100] RTC 32.768 kHz Oscillator Control Register */
__IO uint32_t GPIOCTL0; /*!< [0x0104] RTC GPIO Control 0 Register */
__IO uint32_t GPIOCTL1; /*!< [0x0108] RTC GPIO Control 1 Register */
__I uint32_t RESERVE1[1];
__IO uint32_t DSTCTL; /*!< [0x0110] RTC Daylight Saving Time Control Register */
__I uint32_t RESERVE2[3];
__IO uint32_t TAMPCTL; /*!< [0x0120] RTC Tamper Pin Control Register */
__I uint32_t RESERVE3[1];
__IO uint32_t TAMPSEED; /*!< [0x0128] RTC Tamper Dynamic Seed Register */
__I uint32_t RESERVE4[1];
__I uint32_t TAMPTIME; /*!< [0x0130] RTC Tamper Time Register */
__I uint32_t TAMPCAL; /*!< [0x0134] RTC Tamper Calendar Register */
__I uint32_t RESERVE5[2];
__IO uint32_t CLKDCTL; /*!< [0x0140] Clock Fail Detector Control Register */
__IO uint32_t CDBR; /*!< [0x0144] Clock Frequency Detector Boundary Register */
} RTC_T;
/**
@addtogroup RTC_CONST RTC Bit Field Definition
Constant Definitions for RTC Controller
@{ */
#define RTC_INIT_ACTIVE_Pos (0) /*!< RTC_T::INIT: ACTIVE Position */
#define RTC_INIT_ACTIVE_Msk (0x1ul << RTC_INIT_ACTIVE_Pos) /*!< RTC_T::INIT: ACTIVE Mask */
#define RTC_INIT_INIT_Pos (1) /*!< RTC_T::INIT: INIT Position */
#define RTC_INIT_INIT_Msk (0x7ffffffful << RTC_INIT_INIT_Pos) /*!< RTC_T::INIT: INIT Mask */
#define RTC_RWEN_RWEN_Pos (0) /*!< RTC_T::RWEN: RWEN Position */
#define RTC_RWEN_RWEN_Msk (0xfffful << RTC_RWEN_RWEN_Pos) /*!< RTC_T::RWEN: RWEN Mask */
#define RTC_RWEN_RWENF_Pos (16) /*!< RTC_T::RWEN: RWENF Position */
#define RTC_RWEN_RWENF_Msk (0x1ul << RTC_RWEN_RWENF_Pos) /*!< RTC_T::RWEN: RWENF Mask */
#define RTC_RWEN_RTCBUSY_Pos (24) /*!< RTC_T::RWEN: RTCBUSY Position */
#define RTC_RWEN_RTCBUSY_Msk (0x1ul << RTC_RWEN_RTCBUSY_Pos) /*!< RTC_T::RWEN: RTCBUSY Mask */
#define RTC_FREQADJ_FREQADJ_Pos (0) /*!< RTC_T::FREQADJ: FREQADJ Position */
#define RTC_FREQADJ_FREQADJ_Msk (0x3ffffful << RTC_FREQADJ_FREQADJ_Pos) /*!< RTC_T::FREQADJ: FREQADJ Mask */
#define RTC_TIME_SEC_Pos (0) /*!< RTC_T::TIME: SEC Position */
#define RTC_TIME_SEC_Msk (0xful << RTC_TIME_SEC_Pos) /*!< RTC_T::TIME: SEC Mask */
#define RTC_TIME_TENSEC_Pos (4) /*!< RTC_T::TIME: TENSEC Position */
#define RTC_TIME_TENSEC_Msk (0x7ul << RTC_TIME_TENSEC_Pos) /*!< RTC_T::TIME: TENSEC Mask */
#define RTC_TIME_MIN_Pos (8) /*!< RTC_T::TIME: MIN Position */
#define RTC_TIME_MIN_Msk (0xful << RTC_TIME_MIN_Pos) /*!< RTC_T::TIME: MIN Mask */
#define RTC_TIME_TENMIN_Pos (12) /*!< RTC_T::TIME: TENMIN Position */
#define RTC_TIME_TENMIN_Msk (0x7ul << RTC_TIME_TENMIN_Pos) /*!< RTC_T::TIME: TENMIN Mask */
#define RTC_TIME_HR_Pos (16) /*!< RTC_T::TIME: HR Position */
#define RTC_TIME_HR_Msk (0xful << RTC_TIME_HR_Pos) /*!< RTC_T::TIME: HR Mask */
#define RTC_TIME_TENHR_Pos (20) /*!< RTC_T::TIME: TENHR Position */
#define RTC_TIME_TENHR_Msk (0x3ul << RTC_TIME_TENHR_Pos) /*!< RTC_T::TIME: TENHR Mask */
#define RTC_TIME_HZCNT_Pos (24) /*!< RTC_T::TIME: HZCNT Position */
#define RTC_TIME_HZCNT_Msk (0x7ful << RTC_TIME_HZCNT_Pos) /*!< RTC_T::TIME: HZCNT Mask */
#define RTC_CAL_DAY_Pos (0) /*!< RTC_T::CAL: DAY Position */
#define RTC_CAL_DAY_Msk (0xful << RTC_CAL_DAY_Pos) /*!< RTC_T::CAL: DAY Mask */
#define RTC_CAL_TENDAY_Pos (4) /*!< RTC_T::CAL: TENDAY Position */
#define RTC_CAL_TENDAY_Msk (0x3ul << RTC_CAL_TENDAY_Pos) /*!< RTC_T::CAL: TENDAY Mask */
#define RTC_CAL_MON_Pos (8) /*!< RTC_T::CAL: MON Position */
#define RTC_CAL_MON_Msk (0xful << RTC_CAL_MON_Pos) /*!< RTC_T::CAL: MON Mask */
#define RTC_CAL_TENMON_Pos (12) /*!< RTC_T::CAL: TENMON Position */
#define RTC_CAL_TENMON_Msk (0x1ul << RTC_CAL_TENMON_Pos) /*!< RTC_T::CAL: TENMON Mask */
#define RTC_CAL_YEAR_Pos (16) /*!< RTC_T::CAL: YEAR Position */
#define RTC_CAL_YEAR_Msk (0xful << RTC_CAL_YEAR_Pos) /*!< RTC_T::CAL: YEAR Mask */
#define RTC_CAL_TENYEAR_Pos (20) /*!< RTC_T::CAL: TENYEAR Position */
#define RTC_CAL_TENYEAR_Msk (0xful << RTC_CAL_TENYEAR_Pos) /*!< RTC_T::CAL: TENYEAR Mask */
#define RTC_CLKFMT_24HEN_Pos (0) /*!< RTC_T::CLKFMT: 24HEN Position */
#define RTC_CLKFMT_24HEN_Msk (0x1ul << RTC_CLKFMT_24HEN_Pos) /*!< RTC_T::CLKFMT: 24HEN Mask */
#define RTC_CLKFMT_HZCNTEN_Pos (8) /*!< RTC_T::CLKFMT: HZCNTEN Position */
#define RTC_CLKFMT_HZCNTEN_Msk (0x1ul << RTC_CLKFMT_HZCNTEN_Pos) /*!< RTC_T::CLKFMT: HZCNTEN Mask */
#define RTC_WEEKDAY_WEEKDAY_Pos (0) /*!< RTC_T::WEEKDAY: WEEKDAY Position */
#define RTC_WEEKDAY_WEEKDAY_Msk (0x7ul << RTC_WEEKDAY_WEEKDAY_Pos) /*!< RTC_T::WEEKDAY: WEEKDAY Mask */
#define RTC_TALM_SEC_Pos (0) /*!< RTC_T::TALM: SEC Position */
#define RTC_TALM_SEC_Msk (0xful << RTC_TALM_SEC_Pos) /*!< RTC_T::TALM: SEC Mask */
#define RTC_TALM_TENSEC_Pos (4) /*!< RTC_T::TALM: TENSEC Position */
#define RTC_TALM_TENSEC_Msk (0x7ul << RTC_TALM_TENSEC_Pos) /*!< RTC_T::TALM: TENSEC Mask */
#define RTC_TALM_MIN_Pos (8) /*!< RTC_T::TALM: MIN Position */
#define RTC_TALM_MIN_Msk (0xful << RTC_TALM_MIN_Pos) /*!< RTC_T::TALM: MIN Mask */
#define RTC_TALM_TENMIN_Pos (12) /*!< RTC_T::TALM: TENMIN Position */
#define RTC_TALM_TENMIN_Msk (0x7ul << RTC_TALM_TENMIN_Pos) /*!< RTC_T::TALM: TENMIN Mask */
#define RTC_TALM_HR_Pos (16) /*!< RTC_T::TALM: HR Position */
#define RTC_TALM_HR_Msk (0xful << RTC_TALM_HR_Pos) /*!< RTC_T::TALM: HR Mask */
#define RTC_TALM_TENHR_Pos (20) /*!< RTC_T::TALM: TENHR Position */
#define RTC_TALM_TENHR_Msk (0x3ul << RTC_TALM_TENHR_Pos) /*!< RTC_T::TALM: TENHR Mask */
#define RTC_TALM_HZCNT_Pos (24) /*!< RTC_T::TALM: HZCNT Position */
#define RTC_TALM_HZCNT_Msk (0x7ful << RTC_TALM_HZCNT_Pos) /*!< RTC_T::TALM: HZCNT Mask */
#define RTC_CALM_DAY_Pos (0) /*!< RTC_T::CALM: DAY Position */
#define RTC_CALM_DAY_Msk (0xful << RTC_CALM_DAY_Pos) /*!< RTC_T::CALM: DAY Mask */
#define RTC_CALM_TENDAY_Pos (4) /*!< RTC_T::CALM: TENDAY Position */
#define RTC_CALM_TENDAY_Msk (0x3ul << RTC_CALM_TENDAY_Pos) /*!< RTC_T::CALM: TENDAY Mask */
#define RTC_CALM_MON_Pos (8) /*!< RTC_T::CALM: MON Position */
#define RTC_CALM_MON_Msk (0xful << RTC_CALM_MON_Pos) /*!< RTC_T::CALM: MON Mask */
#define RTC_CALM_TENMON_Pos (12) /*!< RTC_T::CALM: TENMON Position */
#define RTC_CALM_TENMON_Msk (0x1ul << RTC_CALM_TENMON_Pos) /*!< RTC_T::CALM: TENMON Mask */
#define RTC_CALM_YEAR_Pos (16) /*!< RTC_T::CALM: YEAR Position */
#define RTC_CALM_YEAR_Msk (0xful << RTC_CALM_YEAR_Pos) /*!< RTC_T::CALM: YEAR Mask */
#define RTC_CALM_TENYEAR_Pos (20) /*!< RTC_T::CALM: TENYEAR Position */
#define RTC_CALM_TENYEAR_Msk (0xful << RTC_CALM_TENYEAR_Pos) /*!< RTC_T::CALM: TENYEAR Mask */
#define RTC_LEAPYEAR_LEAPYEAR_Pos (0) /*!< RTC_T::LEAPYEAR: LEAPYEAR Position */
#define RTC_LEAPYEAR_LEAPYEAR_Msk (0x1ul << RTC_LEAPYEAR_LEAPYEAR_Pos) /*!< RTC_T::LEAPYEAR: LEAPYEAR Mask */
#define RTC_INTEN_ALMIEN_Pos (0) /*!< RTC_T::INTEN: ALMIEN Position */
#define RTC_INTEN_ALMIEN_Msk (0x1ul << RTC_INTEN_ALMIEN_Pos) /*!< RTC_T::INTEN: ALMIEN Mask */
#define RTC_INTEN_TICKIEN_Pos (1) /*!< RTC_T::INTEN: TICKIEN Position */
#define RTC_INTEN_TICKIEN_Msk (0x1ul << RTC_INTEN_TICKIEN_Pos) /*!< RTC_T::INTEN: TICKIEN Mask */
#define RTC_INTEN_TAMP0IEN_Pos (8) /*!< RTC_T::INTEN: TAMP0IEN Position */
#define RTC_INTEN_TAMP0IEN_Msk (0x1ul << RTC_INTEN_TAMP0IEN_Pos) /*!< RTC_T::INTEN: TAMP0IEN Mask */
#define RTC_INTEN_TAMP1IEN_Pos (9) /*!< RTC_T::INTEN: TAMP1IEN Position */
#define RTC_INTEN_TAMP1IEN_Msk (0x1ul << RTC_INTEN_TAMP1IEN_Pos) /*!< RTC_T::INTEN: TAMP1IEN Mask */
#define RTC_INTEN_TAMP2IEN_Pos (10) /*!< RTC_T::INTEN: TAMP2IEN Position */
#define RTC_INTEN_TAMP2IEN_Msk (0x1ul << RTC_INTEN_TAMP2IEN_Pos) /*!< RTC_T::INTEN: TAMP2IEN Mask */
#define RTC_INTEN_TAMP3IEN_Pos (11) /*!< RTC_T::INTEN: TAMP3IEN Position */
#define RTC_INTEN_TAMP3IEN_Msk (0x1ul << RTC_INTEN_TAMP3IEN_Pos) /*!< RTC_T::INTEN: TAMP3IEN Mask */
#define RTC_INTEN_TAMP4IEN_Pos (12) /*!< RTC_T::INTEN: TAMP4IEN Position */
#define RTC_INTEN_TAMP4IEN_Msk (0x1ul << RTC_INTEN_TAMP4IEN_Pos) /*!< RTC_T::INTEN: TAMP4IEN Mask */
#define RTC_INTEN_TAMP5IEN_Pos (13) /*!< RTC_T::INTEN: TAMP5IEN Position */
#define RTC_INTEN_TAMP5IEN_Msk (0x1ul << RTC_INTEN_TAMP5IEN_Pos) /*!< RTC_T::INTEN: TAMP5IEN Mask */
#define RTC_INTEN_CLKFIEN_Pos (24) /*!< RTC_T::INTEN: CLKFIEN Position */
#define RTC_INTEN_CLKFIEN_Msk (0x1ul << RTC_INTEN_CLKFIEN_Pos) /*!< RTC_T::INTEN: CLKFIEN Mask */
#define RTC_INTEN_CLKSPIEN_Pos (25) /*!< RTC_T::INTEN: CLKSPIEN Position */
#define RTC_INTEN_CLKSPIEN_Msk (0x1ul << RTC_INTEN_CLKSPIEN_Pos) /*!< RTC_T::INTEN: CLKSPIEN Mask */
#define RTC_INTSTS_ALMIF_Pos (0) /*!< RTC_T::INTSTS: ALMIF Position */
#define RTC_INTSTS_ALMIF_Msk (0x1ul << RTC_INTSTS_ALMIF_Pos) /*!< RTC_T::INTSTS: ALMIF Mask */
#define RTC_INTSTS_TICKIF_Pos (1) /*!< RTC_T::INTSTS: TICKIF Position */
#define RTC_INTSTS_TICKIF_Msk (0x1ul << RTC_INTSTS_TICKIF_Pos) /*!< RTC_T::INTSTS: TICKIF Mask */
#define RTC_INTSTS_TAMP0IF_Pos (8) /*!< RTC_T::INTSTS: TAMP0IF Position */
#define RTC_INTSTS_TAMP0IF_Msk (0x1ul << RTC_INTSTS_TAMP0IF_Pos) /*!< RTC_T::INTSTS: TAMP0IF Mask */
#define RTC_INTSTS_TAMP1IF_Pos (9) /*!< RTC_T::INTSTS: TAMP1IF Position */
#define RTC_INTSTS_TAMP1IF_Msk (0x1ul << RTC_INTSTS_TAMP1IF_Pos) /*!< RTC_T::INTSTS: TAMP1IF Mask */
#define RTC_INTSTS_TAMP2IF_Pos (10) /*!< RTC_T::INTSTS: TAMP2IF Position */
#define RTC_INTSTS_TAMP2IF_Msk (0x1ul << RTC_INTSTS_TAMP2IF_Pos) /*!< RTC_T::INTSTS: TAMP2IF Mask */
#define RTC_INTSTS_TAMP3IF_Pos (11) /*!< RTC_T::INTSTS: TAMP3IF Position */
#define RTC_INTSTS_TAMP3IF_Msk (0x1ul << RTC_INTSTS_TAMP3IF_Pos) /*!< RTC_T::INTSTS: TAMP3IF Mask */
#define RTC_INTSTS_TAMP4IF_Pos (12) /*!< RTC_T::INTSTS: TAMP4IF Position */
#define RTC_INTSTS_TAMP4IF_Msk (0x1ul << RTC_INTSTS_TAMP4IF_Pos) /*!< RTC_T::INTSTS: TAMP4IF Mask */
#define RTC_INTSTS_TAMP5IF_Pos (13) /*!< RTC_T::INTSTS: TAMP5IF Position */
#define RTC_INTSTS_TAMP5IF_Msk (0x1ul << RTC_INTSTS_TAMP5IF_Pos) /*!< RTC_T::INTSTS: TAMP5IF Mask */
#define RTC_INTSTS_CLKFIF_Pos (24) /*!< RTC_T::INTSTS: CLKFIF Position */
#define RTC_INTSTS_CLKFIF_Msk (0x1ul << RTC_INTSTS_CLKFIF_Pos) /*!< RTC_T::INTSTS: CLKFIF Mask */
#define RTC_INTSTS_CLKSPIF_Pos (25) /*!< RTC_T::INTSTS: CLKSPIF Position */
#define RTC_INTSTS_CLKSPIF_Msk (0x1ul << RTC_INTSTS_CLKSPIF_Pos) /*!< RTC_T::INTSTS: CLKSPIF Mask */
#define RTC_TICK_TICK_Pos (0) /*!< RTC_T::TICK: TICK Position */
#define RTC_TICK_TICK_Msk (0x7ul << RTC_TICK_TICK_Pos) /*!< RTC_T::TICK: TICK Mask */
#define RTC_TAMSK_MSEC_Pos (0) /*!< RTC_T::TAMSK: MSEC Position */
#define RTC_TAMSK_MSEC_Msk (0x1ul << RTC_TAMSK_MSEC_Pos) /*!< RTC_T::TAMSK: MSEC Mask */
#define RTC_TAMSK_MTENSEC_Pos (1) /*!< RTC_T::TAMSK: MTENSEC Position */
#define RTC_TAMSK_MTENSEC_Msk (0x1ul << RTC_TAMSK_MTENSEC_Pos) /*!< RTC_T::TAMSK: MTENSEC Mask */
#define RTC_TAMSK_MMIN_Pos (2) /*!< RTC_T::TAMSK: MMIN Position */
#define RTC_TAMSK_MMIN_Msk (0x1ul << RTC_TAMSK_MMIN_Pos) /*!< RTC_T::TAMSK: MMIN Mask */
#define RTC_TAMSK_MTENMIN_Pos (3) /*!< RTC_T::TAMSK: MTENMIN Position */
#define RTC_TAMSK_MTENMIN_Msk (0x1ul << RTC_TAMSK_MTENMIN_Pos) /*!< RTC_T::TAMSK: MTENMIN Mask */
#define RTC_TAMSK_MHR_Pos (4) /*!< RTC_T::TAMSK: MHR Position */
#define RTC_TAMSK_MHR_Msk (0x1ul << RTC_TAMSK_MHR_Pos) /*!< RTC_T::TAMSK: MHR Mask */
#define RTC_TAMSK_MTENHR_Pos (5) /*!< RTC_T::TAMSK: MTENHR Position */
#define RTC_TAMSK_MTENHR_Msk (0x1ul << RTC_TAMSK_MTENHR_Pos) /*!< RTC_T::TAMSK: MTENHR Mask */
#define RTC_CAMSK_MDAY_Pos (0) /*!< RTC_T::CAMSK: MDAY Position */
#define RTC_CAMSK_MDAY_Msk (0x1ul << RTC_CAMSK_MDAY_Pos) /*!< RTC_T::CAMSK: MDAY Mask */
#define RTC_CAMSK_MTENDAY_Pos (1) /*!< RTC_T::CAMSK: MTENDAY Position */
#define RTC_CAMSK_MTENDAY_Msk (0x1ul << RTC_CAMSK_MTENDAY_Pos) /*!< RTC_T::CAMSK: MTENDAY Mask */
#define RTC_CAMSK_MMON_Pos (2) /*!< RTC_T::CAMSK: MMON Position */
#define RTC_CAMSK_MMON_Msk (0x1ul << RTC_CAMSK_MMON_Pos) /*!< RTC_T::CAMSK: MMON Mask */
#define RTC_CAMSK_MTENMON_Pos (3) /*!< RTC_T::CAMSK: MTENMON Position */
#define RTC_CAMSK_MTENMON_Msk (0x1ul << RTC_CAMSK_MTENMON_Pos) /*!< RTC_T::CAMSK: MTENMON Mask */
#define RTC_CAMSK_MYEAR_Pos (4) /*!< RTC_T::CAMSK: MYEAR Position */
#define RTC_CAMSK_MYEAR_Msk (0x1ul << RTC_CAMSK_MYEAR_Pos) /*!< RTC_T::CAMSK: MYEAR Mask */
#define RTC_CAMSK_MTENYEAR_Pos (5) /*!< RTC_T::CAMSK: MTENYEAR Position */
#define RTC_CAMSK_MTENYEAR_Msk (0x1ul << RTC_CAMSK_MTENYEAR_Pos) /*!< RTC_T::CAMSK: MTENYEAR Mask */
#define RTC_SPRCTL_SPRRWEN_Pos (2) /*!< RTC_T::SPRCTL: SPRRWEN Position */
#define RTC_SPRCTL_SPRRWEN_Msk (0x1ul << RTC_SPRCTL_SPRRWEN_Pos) /*!< RTC_T::SPRCTL: SPRRWEN Mask */
#define RTC_SPRCTL_SPRCSTS_Pos (5) /*!< RTC_T::SPRCTL: SPRCSTS Position */
#define RTC_SPRCTL_SPRCSTS_Msk (0x1ul << RTC_SPRCTL_SPRCSTS_Pos) /*!< RTC_T::SPRCTL: SPRCSTS Mask */
#define RTC_SPRCTL_LXTFCLR_Pos (16) /*!< RTC_T::SPRCTL: LXTFCLR Position */
#define RTC_SPRCTL_LXTFCLR_Msk (0x1ul << RTC_SPRCTL_LXTFCLR_Pos) /*!< RTC_T::SPRCTL: LXTFCLR Mask */
#define RTC_SPR0_SPARE_Pos (0) /*!< RTC_T::SPR0: SPARE Position */
#define RTC_SPR0_SPARE_Msk (0xfffffffful << RTC_SPR0_SPARE_Pos) /*!< RTC_T::SPR0: SPARE Mask */
#define RTC_SPR1_SPARE_Pos (0) /*!< RTC_T::SPR1: SPARE Position */
#define RTC_SPR1_SPARE_Msk (0xfffffffful << RTC_SPR1_SPARE_Pos) /*!< RTC_T::SPR1: SPARE Mask */
#define RTC_SPR2_SPARE_Pos (0) /*!< RTC_T::SPR2: SPARE Position */
#define RTC_SPR2_SPARE_Msk (0xfffffffful << RTC_SPR2_SPARE_Pos) /*!< RTC_T::SPR2: SPARE Mask */
#define RTC_SPR3_SPARE_Pos (0) /*!< RTC_T::SPR3: SPARE Position */
#define RTC_SPR3_SPARE_Msk (0xfffffffful << RTC_SPR3_SPARE_Pos) /*!< RTC_T::SPR3: SPARE Mask */
#define RTC_SPR4_SPARE_Pos (0) /*!< RTC_T::SPR4: SPARE Position */
#define RTC_SPR4_SPARE_Msk (0xfffffffful << RTC_SPR4_SPARE_Pos) /*!< RTC_T::SPR4: SPARE Mask */
#define RTC_SPR5_SPARE_Pos (0) /*!< RTC_T::SPR5: SPARE Position */
#define RTC_SPR5_SPARE_Msk (0xfffffffful << RTC_SPR5_SPARE_Pos) /*!< RTC_T::SPR5: SPARE Mask */
#define RTC_SPR6_SPARE_Pos (0) /*!< RTC_T::SPR6: SPARE Position */
#define RTC_SPR6_SPARE_Msk (0xfffffffful << RTC_SPR6_SPARE_Pos) /*!< RTC_T::SPR6: SPARE Mask */
#define RTC_SPR7_SPARE_Pos (0) /*!< RTC_T::SPR7: SPARE Position */
#define RTC_SPR7_SPARE_Msk (0xfffffffful << RTC_SPR7_SPARE_Pos) /*!< RTC_T::SPR7: SPARE Mask */
#define RTC_SPR8_SPARE_Pos (0) /*!< RTC_T::SPR8: SPARE Position */
#define RTC_SPR8_SPARE_Msk (0xfffffffful << RTC_SPR8_SPARE_Pos) /*!< RTC_T::SPR8: SPARE Mask */
#define RTC_SPR9_SPARE_Pos (0) /*!< RTC_T::SPR9: SPARE Position */
#define RTC_SPR9_SPARE_Msk (0xfffffffful << RTC_SPR9_SPARE_Pos) /*!< RTC_T::SPR9: SPARE Mask */
#define RTC_SPR10_SPARE_Pos (0) /*!< RTC_T::SPR10: SPARE Position */
#define RTC_SPR10_SPARE_Msk (0xfffffffful << RTC_SPR10_SPARE_Pos) /*!< RTC_T::SPR10: SPARE Mask */
#define RTC_SPR11_SPARE_Pos (0) /*!< RTC_T::SPR11: SPARE Position */
#define RTC_SPR11_SPARE_Msk (0xfffffffful << RTC_SPR11_SPARE_Pos) /*!< RTC_T::SPR11: SPARE Mask */
#define RTC_SPR12_SPARE_Pos (0) /*!< RTC_T::SPR12: SPARE Position */
#define RTC_SPR12_SPARE_Msk (0xfffffffful << RTC_SPR12_SPARE_Pos) /*!< RTC_T::SPR12: SPARE Mask */
#define RTC_SPR13_SPARE_Pos (0) /*!< RTC_T::SPR13: SPARE Position */
#define RTC_SPR13_SPARE_Msk (0xfffffffful << RTC_SPR13_SPARE_Pos) /*!< RTC_T::SPR13: SPARE Mask */
#define RTC_SPR14_SPARE_Pos (0) /*!< RTC_T::SPR14: SPARE Position */
#define RTC_SPR14_SPARE_Msk (0xfffffffful << RTC_SPR14_SPARE_Pos) /*!< RTC_T::SPR14: SPARE Mask */
#define RTC_SPR15_SPARE_Pos (0) /*!< RTC_T::SPR15: SPARE Position */
#define RTC_SPR15_SPARE_Msk (0xfffffffful << RTC_SPR15_SPARE_Pos) /*!< RTC_T::SPR15: SPARE Mask */
#define RTC_SPR16_SPARE_Pos (0) /*!< RTC_T::SPR16: SPARE Position */
#define RTC_SPR16_SPARE_Msk (0xfffffffful << RTC_SPR16_SPARE_Pos) /*!< RTC_T::SPR16: SPARE Mask */
#define RTC_SPR17_SPARE_Pos (0) /*!< RTC_T::SPR17: SPARE Position */
#define RTC_SPR17_SPARE_Msk (0xfffffffful << RTC_SPR17_SPARE_Pos) /*!< RTC_T::SPR17: SPARE Mask */
#define RTC_SPR18_SPARE_Pos (0) /*!< RTC_T::SPR18: SPARE Position */
#define RTC_SPR18_SPARE_Msk (0xfffffffful << RTC_SPR18_SPARE_Pos) /*!< RTC_T::SPR18: SPARE Mask */
#define RTC_SPR19_SPARE_Pos (0) /*!< RTC_T::SPR19: SPARE Position */
#define RTC_SPR19_SPARE_Msk (0xfffffffful << RTC_SPR19_SPARE_Pos) /*!< RTC_T::SPR19: SPARE Mask */
#define RTC_LXTCTL_LIRC32KEN_Pos (0) /*!< RTC_T::LXTCTL: LIRC32KEN Position */
#define RTC_LXTCTL_LIRC32KEN_Msk (0x1ul << RTC_LXTCTL_LIRC32KEN_Pos) /*!< RTC_T::LXTCTL: LIRC32KEN Mask */
#define RTC_LXTCTL_GAIN_Pos (1) /*!< RTC_T::LXTCTL: GAIN Position */
#define RTC_LXTCTL_GAIN_Msk (0x7ul << RTC_LXTCTL_GAIN_Pos) /*!< RTC_T::LXTCTL: GAIN Mask */
#define RTC_LXTCTL_C32KS_Pos (7) /*!< RTC_T::LXTCTL: C32KS Position */
#define RTC_LXTCTL_C32KS_Msk (0x1ul << RTC_LXTCTL_C32KS_Pos) /*!< RTC_T::LXTCTL: C32KS Mask */
#define RTC_GPIOCTL0_OPMODE0_Pos (0) /*!< RTC_T::GPIOCTL0: OPMODE0 Position */
#define RTC_GPIOCTL0_OPMODE0_Msk (0x3ul << RTC_GPIOCTL0_OPMODE0_Pos) /*!< RTC_T::GPIOCTL0: OPMODE0 Mask */
#define RTC_GPIOCTL0_DOUT0_Pos (2) /*!< RTC_T::GPIOCTL0: DOUT0 Position */
#define RTC_GPIOCTL0_DOUT0_Msk (0x1ul << RTC_GPIOCTL0_DOUT0_Pos) /*!< RTC_T::GPIOCTL0: DOUT0 Mask */
#define RTC_GPIOCTL0_CTLSEL0_Pos (3) /*!< RTC_T::GPIOCTL0: CTLSEL0 Position */
#define RTC_GPIOCTL0_CTLSEL0_Msk (0x1ul << RTC_GPIOCTL0_CTLSEL0_Pos) /*!< RTC_T::GPIOCTL0: CTLSEL0 Mask */
#define RTC_GPIOCTL0_PUSEL0_Pos (4) /*!< RTC_T::GPIOCTL0: PUSEL0 Position */
#define RTC_GPIOCTL0_PUSEL0_Msk (0x3ul << RTC_GPIOCTL0_PUSEL0_Pos) /*!< RTC_T::GPIOCTL0: PUSEL0 Mask */
#define RTC_GPIOCTL0_OPMODE1_Pos (8) /*!< RTC_T::GPIOCTL0: OPMODE1 Position */
#define RTC_GPIOCTL0_OPMODE1_Msk (0x3ul << RTC_GPIOCTL0_OPMODE1_Pos) /*!< RTC_T::GPIOCTL0: OPMODE1 Mask */
#define RTC_GPIOCTL0_DOUT1_Pos (10) /*!< RTC_T::GPIOCTL0: DOUT1 Position */
#define RTC_GPIOCTL0_DOUT1_Msk (0x1ul << RTC_GPIOCTL0_DOUT1_Pos) /*!< RTC_T::GPIOCTL0: DOUT1 Mask */
#define RTC_GPIOCTL0_CTLSEL1_Pos (11) /*!< RTC_T::GPIOCTL0: CTLSEL1 Position */
#define RTC_GPIOCTL0_CTLSEL1_Msk (0x1ul << RTC_GPIOCTL0_CTLSEL1_Pos) /*!< RTC_T::GPIOCTL0: CTLSEL1 Mask */
#define RTC_GPIOCTL0_PUSEL1_Pos (12) /*!< RTC_T::GPIOCTL0: PUSEL1 Position */
#define RTC_GPIOCTL0_PUSEL1_Msk (0x3ul << RTC_GPIOCTL0_PUSEL1_Pos) /*!< RTC_T::GPIOCTL0: PUSEL1 Mask */
#define RTC_GPIOCTL0_OPMODE2_Pos (16) /*!< RTC_T::GPIOCTL0: OPMODE2 Position */
#define RTC_GPIOCTL0_OPMODE2_Msk (0x3ul << RTC_GPIOCTL0_OPMODE2_Pos) /*!< RTC_T::GPIOCTL0: OPMODE2 Mask */
#define RTC_GPIOCTL0_DOUT2_Pos (18) /*!< RTC_T::GPIOCTL0: DOUT2 Position */
#define RTC_GPIOCTL0_DOUT2_Msk (0x1ul << RTC_GPIOCTL0_DOUT2_Pos) /*!< RTC_T::GPIOCTL0: DOUT2 Mask */
#define RTC_GPIOCTL0_CTLSEL2_Pos (19) /*!< RTC_T::GPIOCTL0: CTLSEL2 Position */
#define RTC_GPIOCTL0_CTLSEL2_Msk (0x1ul << RTC_GPIOCTL0_CTLSEL2_Pos) /*!< RTC_T::GPIOCTL0: CTLSEL2 Mask */
#define RTC_GPIOCTL0_PUSEL2_Pos (20) /*!< RTC_T::GPIOCTL0: PUSEL2 Position */
#define RTC_GPIOCTL0_PUSEL2_Msk (0x3ul << RTC_GPIOCTL0_PUSEL2_Pos) /*!< RTC_T::GPIOCTL0: PUSEL2 Mask */
#define RTC_GPIOCTL0_OPMODE3_Pos (24) /*!< RTC_T::GPIOCTL0: OPMODE3 Position */
#define RTC_GPIOCTL0_OPMODE3_Msk (0x3ul << RTC_GPIOCTL0_OPMODE3_Pos) /*!< RTC_T::GPIOCTL0: OPMODE3 Mask */
#define RTC_GPIOCTL0_DOUT3_Pos (26) /*!< RTC_T::GPIOCTL0: DOUT3 Position */
#define RTC_GPIOCTL0_DOUT3_Msk (0x1ul << RTC_GPIOCTL0_DOUT3_Pos) /*!< RTC_T::GPIOCTL0: DOUT3 Mask */
#define RTC_GPIOCTL0_CTLSEL3_Pos (27) /*!< RTC_T::GPIOCTL0: CTLSEL3 Position */
#define RTC_GPIOCTL0_CTLSEL3_Msk (0x1ul << RTC_GPIOCTL0_CTLSEL3_Pos) /*!< RTC_T::GPIOCTL0: CTLSEL3 Mask */
#define RTC_GPIOCTL0_PUSEL3_Pos (28) /*!< RTC_T::GPIOCTL0: PUSEL3 Position */
#define RTC_GPIOCTL0_PUSEL3_Msk (0x3ul << RTC_GPIOCTL0_PUSEL3_Pos) /*!< RTC_T::GPIOCTL0: PUSEL3 Mask */
#define RTC_GPIOCTL1_OPMODE4_Pos (0) /*!< RTC_T::GPIOCTL1: OPMODE4 Position */
#define RTC_GPIOCTL1_OPMODE4_Msk (0x3ul << RTC_GPIOCTL1_OPMODE4_Pos) /*!< RTC_T::GPIOCTL1: OPMODE4 Mask */
#define RTC_GPIOCTL1_DOUT4_Pos (2) /*!< RTC_T::GPIOCTL1: DOUT4 Position */
#define RTC_GPIOCTL1_DOUT4_Msk (0x1ul << RTC_GPIOCTL1_DOUT4_Pos) /*!< RTC_T::GPIOCTL1: DOUT4 Mask */
#define RTC_GPIOCTL1_CTLSEL4_Pos (3) /*!< RTC_T::GPIOCTL1: CTLSEL4 Position */
#define RTC_GPIOCTL1_CTLSEL4_Msk (0x1ul << RTC_GPIOCTL1_CTLSEL4_Pos) /*!< RTC_T::GPIOCTL1: CTLSEL4 Mask */
#define RTC_GPIOCTL1_PUSEL4_Pos (4) /*!< RTC_T::GPIOCTL1: PUSEL4 Position */
#define RTC_GPIOCTL1_PUSEL4_Msk (0x3ul << RTC_GPIOCTL1_PUSEL4_Pos) /*!< RTC_T::GPIOCTL1: PUSEL4 Mask */
#define RTC_GPIOCTL1_OPMODE5_Pos (8) /*!< RTC_T::GPIOCTL1: OPMODE5 Position */
#define RTC_GPIOCTL1_OPMODE5_Msk (0x3ul << RTC_GPIOCTL1_OPMODE5_Pos) /*!< RTC_T::GPIOCTL1: OPMODE5 Mask */
#define RTC_GPIOCTL1_DOUT5_Pos (10) /*!< RTC_T::GPIOCTL1: DOUT5 Position */
#define RTC_GPIOCTL1_DOUT5_Msk (0x1ul << RTC_GPIOCTL1_DOUT5_Pos) /*!< RTC_T::GPIOCTL1: DOUT5 Mask */
#define RTC_GPIOCTL1_CTLSEL5_Pos (11) /*!< RTC_T::GPIOCTL1: CTLSEL5 Position */
#define RTC_GPIOCTL1_CTLSEL5_Msk (0x1ul << RTC_GPIOCTL1_CTLSEL5_Pos) /*!< RTC_T::GPIOCTL1: CTLSEL5 Mask */
#define RTC_GPIOCTL1_PUSEL5_Pos (12) /*!< RTC_T::GPIOCTL1: PUSEL5 Position */
#define RTC_GPIOCTL1_PUSEL5_Msk (0x3ul << RTC_GPIOCTL1_PUSEL5_Pos) /*!< RTC_T::GPIOCTL1: PUSEL5 Mask */
#define RTC_GPIOCTL1_OPMODE6_Pos (16) /*!< RTC_T::GPIOCTL1: OPMODE6 Position */
#define RTC_GPIOCTL1_OPMODE6_Msk (0x3ul << RTC_GPIOCTL1_OPMODE6_Pos) /*!< RTC_T::GPIOCTL1: OPMODE6 Mask */
#define RTC_GPIOCTL1_DOUT6_Pos (18) /*!< RTC_T::GPIOCTL1: DOUT6 Position */
#define RTC_GPIOCTL1_DOUT6_Msk (0x1ul << RTC_GPIOCTL1_DOUT6_Pos) /*!< RTC_T::GPIOCTL1: DOUT6 Mask */
#define RTC_GPIOCTL1_CTLSEL6_Pos (19) /*!< RTC_T::GPIOCTL1: CTLSEL6 Position */
#define RTC_GPIOCTL1_CTLSEL6_Msk (0x1ul << RTC_GPIOCTL1_CTLSEL6_Pos) /*!< RTC_T::GPIOCTL1: CTLSEL6 Mask */
#define RTC_GPIOCTL1_PUSEL6_Pos (20) /*!< RTC_T::GPIOCTL1: PUSEL6 Position */
#define RTC_GPIOCTL1_PUSEL6_Msk (0x3ul << RTC_GPIOCTL1_PUSEL6_Pos) /*!< RTC_T::GPIOCTL1: PUSEL6 Mask */
#define RTC_GPIOCTL1_OPMODE7_Pos (24) /*!< RTC_T::GPIOCTL1: OPMODE7 Position */
#define RTC_GPIOCTL1_OPMODE7_Msk (0x3ul << RTC_GPIOCTL1_OPMODE7_Pos) /*!< RTC_T::GPIOCTL1: OPMODE7 Mask */
#define RTC_GPIOCTL1_DOUT7_Pos (26) /*!< RTC_T::GPIOCTL1: DOUT7 Position */
#define RTC_GPIOCTL1_DOUT7_Msk (0x1ul << RTC_GPIOCTL1_DOUT7_Pos) /*!< RTC_T::GPIOCTL1: DOUT7 Mask */
#define RTC_GPIOCTL1_CTLSEL7_Pos (27) /*!< RTC_T::GPIOCTL1: CTLSEL7 Position */
#define RTC_GPIOCTL1_CTLSEL7_Msk (0x1ul << RTC_GPIOCTL1_CTLSEL7_Pos) /*!< RTC_T::GPIOCTL1: CTLSEL7 Mask */
#define RTC_GPIOCTL1_PUSEL7_Pos (28) /*!< RTC_T::GPIOCTL1: PUSEL7 Position */
#define RTC_GPIOCTL1_PUSEL7_Msk (0x3ul << RTC_GPIOCTL1_PUSEL7_Pos) /*!< RTC_T::GPIOCTL1: PUSEL7 Mask */
#define RTC_DSTCTL_ADDHR_Pos (0) /*!< RTC_T::DSTCTL: ADDHR Position */
#define RTC_DSTCTL_ADDHR_Msk (0x1ul << RTC_DSTCTL_ADDHR_Pos) /*!< RTC_T::DSTCTL: ADDHR Mask */
#define RTC_DSTCTL_SUBHR_Pos (1) /*!< RTC_T::DSTCTL: SUBHR Position */
#define RTC_DSTCTL_SUBHR_Msk (0x1ul << RTC_DSTCTL_SUBHR_Pos) /*!< RTC_T::DSTCTL: SUBHR Mask */
#define RTC_DSTCTL_DSBAK_Pos (2) /*!< RTC_T::DSTCTL: DSBAK Position */
#define RTC_DSTCTL_DSBAK_Msk (0x1ul << RTC_DSTCTL_DSBAK_Pos) /*!< RTC_T::DSTCTL: DSBAK Mask */
#define RTC_TAMPCTL_DYN1ISS_Pos (0) /*!< RTC_T::TAMPCTL: DYN1ISS Position */
#define RTC_TAMPCTL_DYN1ISS_Msk (0x1ul << RTC_TAMPCTL_DYN1ISS_Pos) /*!< RTC_T::TAMPCTL: DYN1ISS Mask */
#define RTC_TAMPCTL_DYN2ISS_Pos (1) /*!< RTC_T::TAMPCTL: DYN2ISS Position */
#define RTC_TAMPCTL_DYN2ISS_Msk (0x1ul << RTC_TAMPCTL_DYN2ISS_Pos) /*!< RTC_T::TAMPCTL: DYN2ISS Mask */
#define RTC_TAMPCTL_DYNSRC_Pos (2) /*!< RTC_T::TAMPCTL: DYNSRC Position */
#define RTC_TAMPCTL_DYNSRC_Msk (0x3ul << RTC_TAMPCTL_DYNSRC_Pos) /*!< RTC_T::TAMPCTL: DYNSRC Mask */
#define RTC_TAMPCTL_SEEDRLD_Pos (4) /*!< RTC_T::TAMPCTL: SEEDRLD Position */
#define RTC_TAMPCTL_SEEDRLD_Msk (0x1ul << RTC_TAMPCTL_SEEDRLD_Pos) /*!< RTC_T::TAMPCTL: SEEDRLD Mask */
#define RTC_TAMPCTL_DYNRATE_Pos (5) /*!< RTC_T::TAMPCTL: DYNRATE Position */
#define RTC_TAMPCTL_DYNRATE_Msk (0x7ul << RTC_TAMPCTL_DYNRATE_Pos) /*!< RTC_T::TAMPCTL: DYNRATE Mask */
#define RTC_TAMPCTL_TAMP0EN_Pos (8) /*!< RTC_T::TAMPCTL: TAMP0EN Position */
#define RTC_TAMPCTL_TAMP0EN_Msk (0x1ul << RTC_TAMPCTL_TAMP0EN_Pos) /*!< RTC_T::TAMPCTL: TAMP0EN Mask */
#define RTC_TAMPCTL_TAMP0LV_Pos (9) /*!< RTC_T::TAMPCTL: TAMP0LV Position */
#define RTC_TAMPCTL_TAMP0LV_Msk (0x1ul << RTC_TAMPCTL_TAMP0LV_Pos) /*!< RTC_T::TAMPCTL: TAMP0LV Mask */
#define RTC_TAMPCTL_TAMP0DBEN_Pos (10) /*!< RTC_T::TAMPCTL: TAMP0DBEN Position */
#define RTC_TAMPCTL_TAMP0DBEN_Msk (0x1ul << RTC_TAMPCTL_TAMP0DBEN_Pos) /*!< RTC_T::TAMPCTL: TAMP0DBEN Mask */
#define RTC_TAMPCTL_TAMP1EN_Pos (12) /*!< RTC_T::TAMPCTL: TAMP1EN Position */
#define RTC_TAMPCTL_TAMP1EN_Msk (0x1ul << RTC_TAMPCTL_TAMP1EN_Pos) /*!< RTC_T::TAMPCTL: TAMP1EN Mask */
#define RTC_TAMPCTL_TAMP1LV_Pos (13) /*!< RTC_T::TAMPCTL: TAMP1LV Position */
#define RTC_TAMPCTL_TAMP1LV_Msk (0x1ul << RTC_TAMPCTL_TAMP1LV_Pos) /*!< RTC_T::TAMPCTL: TAMP1LV Mask */
#define RTC_TAMPCTL_TAMP1DBEN_Pos (14) /*!< RTC_T::TAMPCTL: TAMP1DBEN Position */
#define RTC_TAMPCTL_TAMP1DBEN_Msk (0x1ul << RTC_TAMPCTL_TAMP1DBEN_Pos) /*!< RTC_T::TAMPCTL: TAMP1DBEN Mask */
#define RTC_TAMPCTL_DYNPR0EN_Pos (15) /*!< RTC_T::TAMPCTL: DYNPR0EN Position */
#define RTC_TAMPCTL_DYNPR0EN_Msk (0x1ul << RTC_TAMPCTL_DYNPR0EN_Pos) /*!< RTC_T::TAMPCTL: DYNPR0EN Mask */
#define RTC_TAMPCTL_TAMP2EN_Pos (16) /*!< RTC_T::TAMPCTL: TAMP2EN Position */
#define RTC_TAMPCTL_TAMP2EN_Msk (0x1ul << RTC_TAMPCTL_TAMP2EN_Pos) /*!< RTC_T::TAMPCTL: TAMP2EN Mask */
#define RTC_TAMPCTL_TAMP2LV_Pos (17) /*!< RTC_T::TAMPCTL: TAMP2LV Position */
#define RTC_TAMPCTL_TAMP2LV_Msk (0x1ul << RTC_TAMPCTL_TAMP2LV_Pos) /*!< RTC_T::TAMPCTL: TAMP2LV Mask */
#define RTC_TAMPCTL_TAMP2DBEN_Pos (18) /*!< RTC_T::TAMPCTL: TAMP2DBEN Position */
#define RTC_TAMPCTL_TAMP2DBEN_Msk (0x1ul << RTC_TAMPCTL_TAMP2DBEN_Pos) /*!< RTC_T::TAMPCTL: TAMP2DBEN Mask */
#define RTC_TAMPCTL_TAMP3EN_Pos (20) /*!< RTC_T::TAMPCTL: TAMP3EN Position */
#define RTC_TAMPCTL_TAMP3EN_Msk (0x1ul << RTC_TAMPCTL_TAMP3EN_Pos) /*!< RTC_T::TAMPCTL: TAMP3EN Mask */
#define RTC_TAMPCTL_TAMP3LV_Pos (21) /*!< RTC_T::TAMPCTL: TAMP3LV Position */
#define RTC_TAMPCTL_TAMP3LV_Msk (0x1ul << RTC_TAMPCTL_TAMP3LV_Pos) /*!< RTC_T::TAMPCTL: TAMP3LV Mask */
#define RTC_TAMPCTL_TAMP3DBEN_Pos (22) /*!< RTC_T::TAMPCTL: TAMP3DBEN Position */
#define RTC_TAMPCTL_TAMP3DBEN_Msk (0x1ul << RTC_TAMPCTL_TAMP3DBEN_Pos) /*!< RTC_T::TAMPCTL: TAMP3DBEN Mask */
#define RTC_TAMPCTL_DYNPR1EN_Pos (23) /*!< RTC_T::TAMPCTL: DYNPR1EN Position */
#define RTC_TAMPCTL_DYNPR1EN_Msk (0x1ul << RTC_TAMPCTL_DYNPR1EN_Pos) /*!< RTC_T::TAMPCTL: DYNPR1EN Mask */
#define RTC_TAMPCTL_TAMP4EN_Pos (24) /*!< RTC_T::TAMPCTL: TAMP4EN Position */
#define RTC_TAMPCTL_TAMP4EN_Msk (0x1ul << RTC_TAMPCTL_TAMP4EN_Pos) /*!< RTC_T::TAMPCTL: TAMP4EN Mask */
#define RTC_TAMPCTL_TAMP4LV_Pos (25) /*!< RTC_T::TAMPCTL: TAMP4LV Position */
#define RTC_TAMPCTL_TAMP4LV_Msk (0x1ul << RTC_TAMPCTL_TAMP4LV_Pos) /*!< RTC_T::TAMPCTL: TAMP4LV Mask */
#define RTC_TAMPCTL_TAMP4DBEN_Pos (26) /*!< RTC_T::TAMPCTL: TAMP4DBEN Position */
#define RTC_TAMPCTL_TAMP4DBEN_Msk (0x1ul << RTC_TAMPCTL_TAMP4DBEN_Pos) /*!< RTC_T::TAMPCTL: TAMP4DBEN Mask */
#define RTC_TAMPCTL_TAMP5EN_Pos (28) /*!< RTC_T::TAMPCTL: TAMP5EN Position */
#define RTC_TAMPCTL_TAMP5EN_Msk (0x1ul << RTC_TAMPCTL_TAMP5EN_Pos) /*!< RTC_T::TAMPCTL: TAMP5EN Mask */
#define RTC_TAMPCTL_TAMP5LV_Pos (29) /*!< RTC_T::TAMPCTL: TAMP5LV Position */
#define RTC_TAMPCTL_TAMP5LV_Msk (0x1ul << RTC_TAMPCTL_TAMP5LV_Pos) /*!< RTC_T::TAMPCTL: TAMP5LV Mask */
#define RTC_TAMPCTL_TAMP5DBEN_Pos (30) /*!< RTC_T::TAMPCTL: TAMP5DBEN Position */
#define RTC_TAMPCTL_TAMP5DBEN_Msk (0x1ul << RTC_TAMPCTL_TAMP5DBEN_Pos) /*!< RTC_T::TAMPCTL: TAMP5DBEN Mask */
#define RTC_TAMPCTL_DYNPR2EN_Pos (31) /*!< RTC_T::TAMPCTL: DYNPR2EN Position */
#define RTC_TAMPCTL_DYNPR2EN_Msk (0x1ul << RTC_TAMPCTL_DYNPR2EN_Pos) /*!< RTC_T::TAMPCTL: DYNPR2EN Mask */
#define RTC_TAMPSEED_SEED_Pos (0) /*!< RTC_T::TAMPSEED: SEED Position */
#define RTC_TAMPSEED_SEED_Msk (0xfffffffful << RTC_TAMPSEED_SEED_Pos) /*!< RTC_T::TAMPSEED: SEED Mask */
#define RTC_TAMPTIME_SEC_Pos (0) /*!< RTC_T::TAMPTIME: SEC Position */
#define RTC_TAMPTIME_SEC_Msk (0xful << RTC_TAMPTIME_SEC_Pos) /*!< RTC_T::TAMPTIME: SEC Mask */
#define RTC_TAMPTIME_TENSEC_Pos (4) /*!< RTC_T::TAMPTIME: TENSEC Position */
#define RTC_TAMPTIME_TENSEC_Msk (0x7ul << RTC_TAMPTIME_TENSEC_Pos) /*!< RTC_T::TAMPTIME: TENSEC Mask */
#define RTC_TAMPTIME_MIN_Pos (8) /*!< RTC_T::TAMPTIME: MIN Position */
#define RTC_TAMPTIME_MIN_Msk (0xful << RTC_TAMPTIME_MIN_Pos) /*!< RTC_T::TAMPTIME: MIN Mask */
#define RTC_TAMPTIME_TENMIN_Pos (12) /*!< RTC_T::TAMPTIME: TENMIN Position */
#define RTC_TAMPTIME_TENMIN_Msk (0x7ul << RTC_TAMPTIME_TENMIN_Pos) /*!< RTC_T::TAMPTIME: TENMIN Mask */
#define RTC_TAMPTIME_HR_Pos (16) /*!< RTC_T::TAMPTIME: HR Position */
#define RTC_TAMPTIME_HR_Msk (0xful << RTC_TAMPTIME_HR_Pos) /*!< RTC_T::TAMPTIME: HR Mask */
#define RTC_TAMPTIME_TENHR_Pos (20) /*!< RTC_T::TAMPTIME: TENHR Position */
#define RTC_TAMPTIME_TENHR_Msk (0x3ul << RTC_TAMPTIME_TENHR_Pos) /*!< RTC_T::TAMPTIME: TENHR Mask */
#define RTC_TAMPTIME_HZCNT_Pos (24) /*!< RTC_T::TAMPTIME: HZCNT Position */
#define RTC_TAMPTIME_HZCNT_Msk (0x7ful << RTC_TAMPTIME_HZCNT_Pos) /*!< RTC_T::TAMPTIME: HZCNT Mask */
#define RTC_TAMPCAL_DAY_Pos (0) /*!< RTC_T::TAMPCAL: DAY Position */
#define RTC_TAMPCAL_DAY_Msk (0xful << RTC_TAMPCAL_DAY_Pos) /*!< RTC_T::TAMPCAL: DAY Mask */
#define RTC_TAMPCAL_TENDAY_Pos (4) /*!< RTC_T::TAMPCAL: TENDAY Position */
#define RTC_TAMPCAL_TENDAY_Msk (0x3ul << RTC_TAMPCAL_TENDAY_Pos) /*!< RTC_T::TAMPCAL: TENDAY Mask */
#define RTC_TAMPCAL_MON_Pos (8) /*!< RTC_T::TAMPCAL: MON Position */
#define RTC_TAMPCAL_MON_Msk (0xful << RTC_TAMPCAL_MON_Pos) /*!< RTC_T::TAMPCAL: MON Mask */
#define RTC_TAMPCAL_TENMON_Pos (12) /*!< RTC_T::TAMPCAL: TENMON Position */
#define RTC_TAMPCAL_TENMON_Msk (0x1ul << RTC_TAMPCAL_TENMON_Pos) /*!< RTC_T::TAMPCAL: TENMON Mask */
#define RTC_TAMPCAL_YEAR_Pos (16) /*!< RTC_T::TAMPCAL: YEAR Position */
#define RTC_TAMPCAL_YEAR_Msk (0xful << RTC_TAMPCAL_YEAR_Pos) /*!< RTC_T::TAMPCAL: YEAR Mask */
#define RTC_TAMPCAL_TENYEAR_Pos (20) /*!< RTC_T::TAMPCAL: TENYEAR Position */
#define RTC_TAMPCAL_TENYEAR_Msk (0xful << RTC_TAMPCAL_TENYEAR_Pos) /*!< RTC_T::TAMPCAL: TENYEAR Mask */
#define RTC_CLKDCTL_LXTFDEN_Pos (0) /*!< RTC_T::CLKDCTL: LXTFDEN Position */
#define RTC_CLKDCTL_LXTFDEN_Msk (0x1ul << RTC_CLKDCTL_LXTFDEN_Pos) /*!< RTC_T::CLKDCTL: LXTFDEN Mask */
#define RTC_CLKDCTL_LXTFSW_Pos (1) /*!< RTC_T::CLKDCTL: LXTFSW Position */
#define RTC_CLKDCTL_LXTFSW_Msk (0x1ul << RTC_CLKDCTL_LXTFSW_Pos) /*!< RTC_T::CLKDCTL: LXTFSW Mask */
#define RTC_CLKDCTL_LXTSPSW_Pos (2) /*!< RTC_T::CLKDCTL: LXTSPSW Position */
#define RTC_CLKDCTL_LXTSPSW_Msk (0x1ul << RTC_CLKDCTL_LXTSPSW_Pos) /*!< RTC_T::CLKDCTL: LXTSPSW Mask */
#define RTC_CLKDCTL_CLKSWLIRCF_Pos (16) /*!< RTC_T::CLKDCTL: CLKSWLIRCF Position */
#define RTC_CLKDCTL_CLKSWLIRCF_Msk (0x1ul << RTC_CLKDCTL_CLKSWLIRCF_Pos) /*!< RTC_T::CLKDCTL: CLKSWLIRCF Mask */
#define RTC_CLKDCTL_LXTFASTF_Pos (17) /*!< RTC_T::CLKDCTL: LXTFASTF Position */
#define RTC_CLKDCTL_LXTFASTF_Msk (0x1ul << RTC_CLKDCTL_LXTFASTF_Pos) /*!< RTC_T::CLKDCTL: LXTFASTF Mask */
#define RTC_CDBR_STOPBD_Pos (0) /*!< RTC_T::CDBR: STOPBD Position */
#define RTC_CDBR_STOPBD_Msk (0xfful << RTC_CDBR_STOPBD_Pos) /*!< RTC_T::CDBR: STOPBD Mask */
#define RTC_CDBR_FAILBD_Pos (16) /*!< RTC_T::CDBR: FAILBD Position */
#define RTC_CDBR_FAILBD_Msk (0xfful << RTC_CDBR_FAILBD_Pos) /*!< RTC_T::CDBR: FAILBD Mask */
/**@}*/ /* RTC_CONST */
/**@}*/ /* end of RTC register group */
#endif /* __RTC_REG_H__ */