/**************************************************************************//** * @file clk_reg.h * @version V1.00 * @brief CLK register definition header file * * SPDX-License-Identifier: Apache-2.0 * @copyright (C) 2017-2020 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #ifndef __CLK_REG_H__ #define __CLK_REG_H__ #if defined ( __CC_ARM ) #pragma anon_unions #endif /** @addtogroup REGISTER Control Register @{ */ /** @addtogroup CLK System Clock Controller(CLK) Memory Mapped Structure for CLK Controller @{ */ typedef struct { /** * @var CLK_T::PWRCTL * Offset: 0x00 System Power-down Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |HXTEN |HXT Enable Bit (Write Protect) * | | |The bit default value is set by flash controller user configuration register CONFIG0 [26] * | | |When the default clock source is from HXT, this bit is set to 1 automatically. * | | |0 = 4~24 MHz external high speed crystal (HXT) Disabled. * | | |1 = 4~24 MHz external high speed crystal (HXT) Enabled. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[1] |LXTEN |LXT Enable Bit (Write Protect) * | | |0 = 32.768 kHz external low speed crystal (LXT) Disabled. * | | |1 = 32.768 kHz external low speed crystal (LXT) Enabled. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[2] |HIRCEN |HIRC Enable Bit (Write Protect) * | | |0 = 12 MHz internal high speed RC oscillator (HIRC) Disabled. * | | |1 = 12 MHz internal high speed RC oscillator (HIRC) Enabled. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[3] |LIRCEN |LIRC Enable Bit (Write Protect) * | | |0 = 10 kHz internal low speed RC oscillator (LIRC) Disabled. * | | |1 = 10 kHz internal low speed RC oscillator (LIRC) Enabled. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[4] |PDWKDLY |Enable the Wake-up Delay Counter (Write Protect) * | | |When the chip wakes up from Power-down mode, the clock control will delay certain clock cycles to wait system clock stable. * | | |The delayed clock cycle is 4096 clock cycles when chip works at 4~24 MHz external high speed crystal oscillator (HXT), and 256 clock cycles when chip works at 12 MHz internal high speed RC oscillator (HIRC). * | | |0 = Clock cycles delay Disabled. * | | |1 = Clock cycles delay Enabled. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[5] |PDWKIEN |Power-down Mode Wake-up Interrupt Enable Bit (Write Protect) * | | |0 = Power-down mode wake-up interrupt Disabled. * | | |1 = Power-down mode wake-up interrupt Enabled. * | | |Note1: The interrupt will occur when both PDWKIF and PDWKIEN are high. * | | |Note2: This bit is write protected. Refer to the SYS_REGLCTL register. * |[6] |PDWKIF |Power-down Mode Wake-up Interrupt Status * | | |Set by "Power-down wake-up event", it indicates that resume from Power-down mode. * | | |The flag is set if any wake-up source is occurred. Refer Power Modes and Wake-up Sources chapter. * | | |Note1: Write 1 to clear the bit to 0. * | | |Note2: This bit works only if PDWKIEN (CLK_PWRCTL[5]) set to 1. * |[7] |PDEN |System Power-down Enable (Write Protect) * | | |When this bit is set to 1, Power-down mode is enabled and chip keeps active till the CPU sleep mode is also active and then the chip enters Power-down mode. * | | |When chip wakes up from Power-down mode, this bit is auto cleared * | | |Users need to set this bit again for next Power-down. * | | |In Power-down mode, HXT and the HIRC will be disabled in this mode, but LXT and LIRC are not controlled by Power-down mode. * | | |In Power-down mode, the PLL and system clock are disabled, and ignored the clock source selection * | | |The clocks of peripheral are not controlled by Power-down mode, if the peripheral clock source is from LXT or LIRC. * | | |0 = Chip will not enter Power-down mode after CPU sleep command WFI. * | | |1 = Chip enters Power-down mode after CPU sleep command WFI. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[11:10] |HXTGAIN |HXT Gain Control Bit (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |Gain control is used to enlarge the gain of crystal to make sure crystal work normally * | | |If gain control is enabled, crystal will consume more power than gain control off. * | | |00 = HXT frequency is lower than from 8 MHz. * | | |01 = HXT frequency is from 8 MHz to 12 MHz. * | | |10 = HXT frequency is from 12 MHz to 16 MHz. * | | |11 = HXT frequency is higher than 16 MHz. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[12] |HXTSELTYP |HXT Crystal Type Select Bit (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |0 = Select INV type. * | | |1 = Select GM type. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[13] |HXTTBEN |HXT Crystal TURBO Mode (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |0 = HXT Crystal TURBO mode disabled. * | | |1 = HXT Crystal TURBO mode enabled. * |[17:16] |HIRCSTBS |HIRC Stable Count Select (Write Protect) * | | |00 = HIRC stable count is 64 clocks. * | | |01 = HIRC stable count is 24 clocks. * | | |others = Reserved. * |[18] |HIRCEN |HIRC48M Enable Bit (Write Protect) * | | |0 = 48 MHz internal high speed RC oscillator (HIRC) Disabled. * | | |1 = 48 MHz internal high speed RC oscillator (HIRC) Enabled. * @var CLK_T::AHBCLK * Offset: 0x04 AHB Devices Clock Enable Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1] |PDMACKEN |PDMA Controller Clock Enable Bit * | | |0 = PDMA peripheral clock Disabled. * | | |1 = PDMA peripheral clock Enabled. * |[2] |ISPCKEN |Flash ISP Controller Clock Enable Bit * | | |0 = Flash ISP peripheral clock Disabled. * | | |1 = Flash ISP peripheral clock Enabled. * |[3] |EBICKEN |EBI Controller Clock Enable Bit * | | |0 = EBI peripheral clock Disabled. * | | |1 = EBI peripheral clock Enabled. * |[5] |EMACCKEN |Ethernet Controller Clock Enable Bit * | | |0 = Ethernet Controller engine clock Disabled. * | | |1 = Ethernet Controller engine clock Enabled. * |[6] |SDH0CKEN |SD0 Controller Clock Enable Bit * | | |0 = SD0 engine clock Disabled. * | | |1 = SD0 engine clock Enabled. * |[7] |CRCCKEN |CRC Generator Controller Clock Enable Bit * | | |0 = CRC peripheral clock Disabled. * | | |1 = CRC peripheral clock Enabled. * |[10] |HSUSBDCKEN|HSUSB Device Clock Enable Bit * | | |0 = HSUSB device controller's clock Disabled. * | | |1 = HSUSB device controller's clock Enabled. * |[12] |CRPTCKEN |Cryptographic Accelerator Clock Enable Bit * | | |0 = Cryptographic Accelerator clock Disabled. * | | |1 = Cryptographic Accelerator clock Enabled. * |[14] |SPIMCKEN |SPIM Controller Clock Enable Bit * | | |0 = SPIM controller clock Disabled. * | | |1 = SPIM controller clock Enabled. * |[15] |FMCIDLE |Flash Memory Controller Clock Enable Bit in IDLE Mode * | | |0 = FMC clock Disabled when chip is under IDLE mode. * | | |1 = FMC clock Enabled when chip is under IDLE mode. * |[16] |USBHCKEN |USB HOST Controller Clock Enable Bit * | | |0 = USB HOST peripheral clock Disabled. * | | |1 = USB HOST peripheral clock Enabled. * |[17] |SDH1CKEN |SD1 Controller Clock Enable Bit * | | |0 = SD1 engine clock Disabled. * | | |1 = SD1 engine clock Enabled. * @var CLK_T::APBCLK0 * Offset: 0x08 APB Devices Clock Enable Control Register 0 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |WDTCKEN |Watchdog Timer Clock Enable Bit (Write Protect) * | | |0 = Watchdog timer clock Disabled. * | | |1 = Watchdog timer clock Enabled. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[1] |RTCCKEN |Real-time-clock APB Interface Clock Enable Bit * | | |This bit is used to control the RTC APB clock only * | | |The RTC peripheral clock source is selected from RTCSEL(CLK_CLKSEL3[8]) * | | |It can be selected to 32.768 kHz external low speed crystal or 10 kHz internal low speed RC oscillator (LIRC). * | | |0 = RTC clock Disabled. * | | |1 = RTC clock Enabled. * |[2] |TMR0CKEN |Timer0 Clock Enable Bit * | | |0 = Timer0 clock Disabled. * | | |1 = Timer0 clock Enabled. * |[3] |TMR1CKEN |Timer1 Clock Enable Bit * | | |0 = Timer1 clock Disabled. * | | |1 = Timer1 clock Enabled. * |[4] |TMR2CKEN |Timer2 Clock Enable Bit * | | |0 = Timer2 clock Disabled. * | | |1 = Timer2 clock Enabled. * |[5] |TMR3CKEN |Timer3 Clock Enable Bit * | | |0 = Timer3 clock Disabled. * | | |1 = Timer3 clock Enabled. * |[6] |CLKOCKEN |CLKO Clock Enable Bit * | | |0 = CLKO clock Disabled. * | | |1 = CLKO clock Enabled. * |[7] |ACMP01CKEN|Analog Comparator 0/1 Clock Enable Bit * | | |0 = Analog comparator 0/1 clock Disabled. * | | |1 = Analog comparator 0/1 clock Enabled. * |[8] |I2C0CKEN |I2C0 Clock Enable Bit * | | |0 = I2C0 clock Disabled. * | | |1 = I2C0 clock Enabled. * |[9] |I2C1CKEN |I2C1 Clock Enable Bit * | | |0 = I2C1 clock Disabled. * | | |1 = I2C1 clock Enabled. * |[10] |I2C2CKEN |I2C2 Clock Enable Bit * | | |0 = I2C2 clock Disabled. * | | |1 = I2C2 clock Enabled. * |[12] |QSPI0CKEN |QSPI0 Clock Enable Bit * | | |0 = QSPI0 clock Disabled. * | | |1 = QSPI0 clock Enabled. * |[13] |SPI0CKEN |SPI0 Clock Enable Bit * | | |0 = SPI0 clock Disabled. * | | |1 = SPI0 clock Enabled. * |[14] |SPI1CKEN |SPI1 Clock Enable Bit * | | |0 = SPI1 clock Disabled. * | | |1 = SPI1 clock Enabled. * |[15] |SPI2CKEN |SPI2 Clock Enable Bit * | | |0 = SPI2 clock Disabled. * | | |1 = SPI2 clock Enabled. * |[16] |UART0CKEN |UART0 Clock Enable Bit * | | |0 = UART0 clock Disabled. * | | |1 = UART0 clock Enabled. * |[17] |UART1CKEN |UART1 Clock Enable Bit * | | |0 = UART1 clock Disabled. * | | |1 = UART1 clock Enabled. * |[18] |UART2CKEN |UART2 Clock Enable Bit * | | |0 = UART2 clock Disabled. * | | |1 = UART2 clock Enabled. * |[19] |UART3CKEN |UART3 Clock Enable Bit * | | |0 = UART3 clock Disabled. * | | |1 = UART3 clock Enabled. * |[20] |UART4CKEN |UART4 Clock Enable Bit * | | |0 = UART4 clock Disabled. * | | |1 = UART4 clock Enabled. * |[21] |UART5CKEN |UART5 Clock Enable Bit * | | |0 = UART5 clock Disabled. * | | |1 = UART5 clock Enabled. * |[24] |CAN0CKEN |CAN0 Clock Enable Bit * | | |0 = CAN0 clock Disabled. * | | |1 = CAN0 clock Enabled. * |[25] |CAN1CKEN |CAN1 Clock Enable Bit * | | |0 = CAN1 clock Disabled. * | | |1 = CAN1 clock Enabled. * |[26] |OTGCKEN |USB OTG Clock Enable Bit * | | |0 = USB OTG clock Disabled. * | | |1 = USB OTG clock Enabled. * |[27] |USBDCKEN |USB Device Clock Enable Bit * | | |0 = USB Device clock Disabled. * | | |1 = USB Device clock Enabled. * |[28] |EADCCKEN |Enhanced Analog-digital-converter (EADC) Clock Enable Bit * | | |0 = EADC clock Disabled. * | | |1 = EADC clock Enabled. * |[29] |I2S0CKEN |I2S0 Clock Enable Bit * | | |0 = I2S0 Clock Disabled. * | | |1 = I2S0 Clock Enabled. * |[30] |HSOTGCKEN |HSUSB OTG Clock Enable Bit * | | |0 = HSUSB OTG clock Disabled. * | | |1 = HSUSB OTG clock Enabled. * @var CLK_T::APBCLK1 * Offset: 0x0C APB Devices Clock Enable Control Register 1 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |SC0CKEN |SC0 Clock Enable Bit * | | |0 = SC0 clock Disabled. * | | |1 = SC0 clock Enabled. * |[1] |SC1CKEN |SC1 Clock Enable Bit * | | |0 = SC1 clock Disabled. * | | |1 = SC1 clock Enabled. * |[2] |SC2CKEN |SC2 Clock Enable Bit * | | |0 = SC2 clock Disabled. * | | |1 = SC2 clock Enabled. * |[6] |SPI3CKEN |SPI3 Clock Enable Bit * | | |0 = SPI3 clock Disabled. * | | |1 = SPI3 clock Enabled. * |[8] |USCI0CKEN |USCI0 Clock Enable Bit * | | |0 = USCI0 clock Disabled. * | | |1 = USCI0 clock Enabled. * |[9] |USCI1CKEN |USCI1 Clock Enable Bit * | | |0 = USCI1 clock Disabled. * | | |1 = USCI1 clock Enabled. * |[12] |DACCKEN |DAC Clock Enable Bit * | | |0 = DAC clock Disabled. * | | |1 = DAC clock Enabled. * |[16] |EPWM0CKEN |EPWM0 Clock Enable Bit * | | |0 = EPWM0 clock Disabled. * | | |1 = EPWM0 clock Enabled. * |[17] |EPWM1CKEN |EPWM1 Clock Enable Bit * | | |0 = EPWM1 clock Disabled. * | | |1 = EPWM1 clock Enabled. * |[18] |BPWM0CKEN |BPWM0 Clock Enable Bit * | | |0 = BPWM0 clock Disabled. * | | |1 = BPWM0 clock Enabled. * |[19] |BPWM1CKEN |BPWM1 Clock Enable Bit * | | |0 = BPWM1 clock Disabled. * | | |1 = BPWM1 clock Enabled. * |[22] |QEI0CKEN |QEI0 Clock Enable Bit * | | |0 = QEI0 clock Disabled. * | | |1 = QEI0 clock Enabled. * |[23] |QEI1CKEN |QEI1 Clock Enable Bit * | | |0 = QEI1 clock Disabled. * | | |1 = QEI1 clock Enabled. * |[26] |ECAP0CKEN |ECAP0 Clock Enable Bit * | | |0 = ECAP0 clock Disabled. * | | |1 = ECAP0 clock Enabled. * |[27] |ECAP1CKEN |ECAP1 Clock Enable Bit * | | |0 = ECAP1 clock Disabled. * | | |1 = ECAP1 clock Enabled. * |[30] |OPACKEN |OP Amplifier (OPA) Clock Enable Bit * | | |0 = OPA clock Disabled. * | | |1 = OPA clock Enabled. * @var CLK_T::CLKSEL0 * Offset: 0x10 Clock Source Select Control Register 0 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[2:0] |HCLKSEL |HCLK Clock Source Selection (Write Protect) * | | |Before clock switching, the related clock sources (both pre-select and new-select) must be turned on. * | | |The default value is reloaded from the value of CFOSC (CONFIG0[26]) in user configuration register of Flash controller by any reset * | | |Therefore the default value is either 000b or 111b. * | | |000 = Clock source from HXT. * | | |001 = Clock source from LXT. * | | |010 = Clock source from PLL. * | | |011 = Clock source from LIRC. * | | |111 = Clock source from HIRC. * | | |Other = Reserved. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[5:3] |STCLKSEL |Cortex-M4 SysTick Clock Source Selection (Write Protect) * | | |If SYST_CTRL[2]=0, SysTick uses listed clock source below. * | | |000 = Clock source from HXT. * | | |001 = Clock source from LXT. * | | |010 = Clock source from HXT/2. * | | |011 = Clock source from HCLK/2. * | | |111 = Clock source from HIRC/2. * | | |Note: if SysTick clock source is not from HCLK (i.e * | | |SYST_CTRL[2] = 0), SysTick clock source must less than or equal to HCLK/2. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[8] |USBSEL |USB Clock Source Selection (Write Protect) * | | |0 = Clock source from RC48M. * | | |1 = Clock source from PLL. * |[21:20] |SDH0SEL |SD0 Engine Clock Source Selection (Write Protect) * | | |00 = Clock source from HXT clock. * | | |01 = Clock source from PLL clock. * | | |10 = Clock source from HCLK. * | | |11 = Clock source from HIRC clock. * |[23:22] |SDH1SEL |SD1 Engine Clock Source Selection (Write Protect) * | | |00 = Clock source from HXT clock. * | | |01 = Clock source from PLL clock. * | | |10 = Clock source from HCLK. * | | |11 = Clock source from HIRC clock. * @var CLK_T::CLKSEL1 * Offset: 0x14 Clock Source Select Control Register 1 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1:0] |WDTSEL |Watchdog Timer Clock Source Selection (Write Protect) * | | |00 = Reserved. * | | |01 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |10 = Clock source from HCLK/2048. * | | |11 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[10:8] |TMR0SEL |TIMER0 Clock Source Selection * | | |000 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |001 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |010 = Clock source from PCLK0. * | | |011 = Clock source from external clock TM0 pin. * | | |101 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * | | |111 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * | | |Others = Reserved. * |[14:12] |TMR1SEL |TIMER1 Clock Source Selection * | | |000 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |001 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |010 = Clock source from PCLK0. * | | |011 = Clock source from external clock TM1 pin. * | | |101 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * | | |111 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * | | |Others = Reserved. * |[18:16] |TMR2SEL |TIMER2 Clock Source Selection * | | |000 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |001 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |010 = Clock source from PCLK1. * | | |011 = Clock source from external clock TM2 pin. * | | |101 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * | | |111 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * | | |Others = Reserved. * |[22:20] |TMR3SEL |TIMER3 Clock Source Selection * | | |000 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |001 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |010 = Clock source from PCLK1. * | | |011 = Clock source from external clock TM3 pin. * | | |101 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * | | |111 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * | | |Others = Reserved. * |[25:24] |UART0SEL |UART0 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[27:26] |UART1SEL |UART1 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[29:28] |CLKOSEL |Clock Divider Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |10 = Clock source from HCLK. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[31:30] |WWDTSEL |Window Watchdog Timer Clock Source Selection * | | |10 = Clock source from HCLK/2048. * | | |11 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * | | |Others = Reserved. * @var CLK_T::CLKSEL2 * Offset: 0x18 Clock Source Select Control Register 2 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |EPWM0SEL |EPWM0 Clock Source Selection * | | |The peripheral clock source of EPWM0 is defined by EPWM0SEL. * | | |0 = Clock source from PLL. * | | |1 = Clock source from PCLK0. * |[1] |EPWM1SEL |EPWM1 Clock Source Selection * | | |The peripheral clock source of EPWM1 is defined by EPWM1SEL. * | | |0 = Clock source from PLL. * | | |1 = Clock source from PCLK1. * |[3:2] |QSPI0SEL |QSPI0 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK0. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[5:4] |SPI0SEL |SPI0 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK1. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[7:6] |SPI1SEL |SPI1 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK0. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[8] |BPWM0SEL |BPWM0 Clock Source Selection * | | |The peripheral clock source of BPWM0 is defined by BPWM0SEL. * | | |0 = Clock source from PLL. * | | |1 = Clock source from PCLK0. * |[9] |BPWM1SEL |BPWM1 Clock Source Selection * | | |The peripheral clock source of BPWM1 is defined by BPWM1SEL. * | | |0 = Clock source from PLL. * | | |1 = Clock source from PCLK1. * |[11:10] |SPI2SEL |SPI2 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK1. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[13:12] |SPI3SEL |SPI3 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK0. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * @var CLK_T::CLKSEL3 * Offset: 0x1C Clock Source Select Control Register 3 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1:0] |SC0SEL |SC0 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK0. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[3:2] |SC1SEL |SC0 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK1. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[5:4] |SC2SEL |SC2 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from PCLK0. * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[8] |RTCSEL |RTC Clock Source Selection * | | |0 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |1 = Clock source from 10 kHz internal low speed RC oscillator (LIRC). * |[17:16] |I2S0SEL |I2S0 Clock Source Selection * | | |00 = Clock source from HXT clock. * | | |01 = Clock source from PLL clock. * | | |10 = Clock source from PCLK. * | | |11 = Clock source from HIRC clock. * |[25:24] |UART2SEL |UART2 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[27:26] |UART3SEL |UART3 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[29:28] |UART4SEL |UART4 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * |[31:30] |UART5SEL |UART5 Clock Source Selection * | | |00 = Clock source from 4~24 MHz external high speed crystal oscillator (HXT). * | | |01 = Clock source from PLL. * | | |10 = Clock source from 32.768 kHz external low speed crystal oscillator (LXT). * | | |11 = Clock source from 12 MHz internal high speed RC oscillator (HIRC). * @var CLK_T::CLKDIV0 * Offset: 0x20 Clock Divider Number Register 0 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[3:0] |HCLKDIV |HCLK Clock Divide Number From HCLK Clock Source * | | |HCLK clock frequency = (HCLK clock source frequency) / (HCLKDIV + 1). * |[7:4] |USBDIV |USB Clock Divide Number From PLL Clock * | | |USB clock frequency = (PLL frequency) / (USBDIV + 1). * |[11:8] |UART0DIV |UART0 Clock Divide Number From UART0 Clock Source * | | |UART0 clock frequency = (UART0 clock source frequency) / (UART0DIV + 1). * |[15:12] |UART1DIV |UART1 Clock Divide Number From UART1 Clock Source * | | |UART1 clock frequency = (UART1 clock source frequency) / (UART1DIV + 1). * |[23:16] |EADCDIV |EADC Clock Divide Number From EADC Clock Source * | | |EADC clock frequency = (EADC clock source frequency) / (EADCDIV + 1). * |[31:24] |SDH0DIV |SD0 Clock Divide Number From SD0 Clock Source * | | |SD0 clock frequency = (SD0 clock source frequency) / (SDH0DIV + 1). * @var CLK_T::CLKDIV1 * Offset: 0x24 Clock Divider Number Register 1 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[7:0] |SC0DIV |SC0 Clock Divide Number From SC0 Clock Source * | | |SC0 clock frequency = (SC0 clock source frequency ) / (SC0DIV + 1). * |[15:8] |SC1DIV |SC1 Clock Divide Number From SC1 Clock Source * | | |SC1 clock frequency = (SC1 clock source frequency ) / (SC1DIV + 1). * |[23:16] |SC2DIV |SC2 Clock Divide Number From SC2 Clock Source * | | |SC2 clock frequency = (SC2 clock source frequency ) / (SC2DIV + 1). * @var CLK_T::CLKDIV3 * Offset: 0x2C Clock Divider Number Register 3 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[23:16] |EMACDIV |Ethernet Clock Divide Number Form HCLK * | | |EMAC MDCLK clock frequency = (HCLK) / (EMACDIV + 1). * |[31:24] |SDH1DIV |SD1 Clock Divide Number From SD1 Clock Source * | | |SD1 clock frequency = (SD1 clock source frequency) / (SDH1DIV + 1). * @var CLK_T::CLKDIV4 * Offset: 0x30 Clock Divider Number Register 4 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[3:0] |UART2DIV |UART2 Clock Divide Number From UART2 Clock Source * | | |UART2 clock frequency = (UART2 clock source frequency) / (UART2DIV + 1). * |[7:4] |UART3DIV |UART3 Clock Divide Number From UART3 Clock Source * | | |UART3 clock frequency = (UART3 clock source frequency) / (UART3DIV + 1). * |[11:8] |UART4DIV |UART4 Clock Divide Number From UART4 Clock Source * | | |UART4 clock frequency = (UART4 clock source frequency) / (UART4DIV + 1). * |[15:12] |UART5DIV |UART5 Clock Divide Number From UART5 Clock Source * | | |UART5 clock frequency = (UART5 clock source frequency) / (UART5DIV + 1). * @var CLK_T::PCLKDIV * Offset: 0x34 APB Clock Divider Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[2:0] |APB0DIV |APB0 Clock Divider * | | |APB0 clock can be divided from HCLK * | | |000: PCLK0 = HCLK. * | | |001: PCLK0 = 1/2 HCLK. * | | |010: PCLK0 = 1/4 HCLK. * | | |011: PCLK0 = 1/8 HCLK. * | | |100: PCLK0 = 1/16 HCLK. * | | |Others: Reserved. * |[6:4] |APB1DIV |APB1 Clock Divider * | | |APB1 clock can be divided from HCLK * | | |000: PCLK1 = HCLK. * | | |001: PCLK1 = 1/2 HCLK. * | | |010: PCLK1 = 1/4 HCLK. * | | |011: PCLK1 = 1/8 HCLK. * | | |100: PCLK1 = 1/16 HCLK. * | | |Others: Reserved. * @var CLK_T::PLLCTL * Offset: 0x40 PLL Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[8:0] |FBDIV |PLL Feedback Divider Control (Write Protect) * | | |Refer to the formulas below the table. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[13:9] |INDIV |PLL Input Divider Control (Write Protect) * | | |Refer to the formulas below the table. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[15:14] |OUTDIV |PLL Output Divider Control (Write Protect) * | | |Refer to the formulas below the table. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[16] |PD |Power-down Mode (Write Protect) * | | |If set the PDEN bit to 1 in CLK_PWRCTL register, the PLL will enter Power-down mode, too. * | | |0 = PLL is in normal mode. * | | |1 = PLL is in Power-down mode (default). * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[17] |BP |PLL Bypass Control (Write Protect) * | | |0 = PLL is in normal mode (default). * | | |1 = PLL clock output is same as PLL input clock FIN. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[18] |OE |PLL OE (FOUT Enable) Pin Control (Write Protect) * | | |0 = PLL FOUT Enabled. * | | |1 = PLL FOUT is fixed low. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[19] |PLLSRC |PLL Source Clock Selection (Write Protect) * | | |0 = PLL source clock from 4~24 MHz external high-speed crystal oscillator (HXT). * | | |1 = PLL source clock from 12 MHz internal high-speed oscillator (HIRC). * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[23] |STBSEL |PLL Stable Counter Selection (Write Protect) * | | |0 = PLL stable time is 6144 PLL source clock (suitable for source clock is equal to or less than 12 MHz). * | | |1 = PLL stable time is 12288 PLL source clock (suitable for source clock is larger than 12 MHz). * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * @var CLK_T::STATUS * Offset: 0x50 Clock Status Monitor Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |HXTSTB |HXT Clock Source Stable Flag (Read Only) * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock is not stable or disabled. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock is stable and enabled. * |[1] |LXTSTB |LXT Clock Source Stable Flag (Read Only) * | | |0 = 32.768 kHz external low speed crystal oscillator (LXT) clock is not stable or disabled. * | | |1 = 32.768 kHz external low speed crystal oscillator (LXT) clock is stabled and enabled. * |[2] |PLLSTB |Internal PLL Clock Source Stable Flag (Read Only) * | | |0 = Internal PLL clock is not stable or disabled. * | | |1 = Internal PLL clock is stable and enabled. * |[3] |LIRCSTB |LIRC Clock Source Stable Flag (Read Only) * | | |0 = 10 kHz internal low speed RC oscillator (LIRC) clock is not stable or disabled. * | | |1 = 10 kHz internal low speed RC oscillator (LIRC) clock is stable and enabled. * |[4] |HIRCSTB |HIRC Clock Source Stable Flag (Read Only) * | | |0 = 12 MHz internal high speed RC oscillator (HIRC) clock is not stable or disabled. * | | |1 = 12 MHz internal high speed RC oscillator (HIRC) clock is stable and enabled. * | | |Note: This bit is read only. * |[6] |HIRC48MSTB|HIRC 48MHz Clock Source Stable Flag (Read Only) * | | |0 = 48 MHz internal high speed RC oscillator (HIRC) clock is not stable or disabled. * | | |1 = 48 MHz internal high speed RC oscillator (HIRC) clock is stable and enabled. * | | |Note: This bit is read only. * |[7] |CLKSFAIL |Clock Switching Fail Flag (Read Only) * | | |This bit is updated when software switches system clock source * | | |If switch target clock is stable, this bit will be set to 0 * | | |If switch target clock is not stable, this bit will be set to 1. * | | |0 = Clock switching success. * | | |1 = Clock switching failure. * | | |Note: Write 1 to clear the bit to 0. * @var CLK_T::CLKOCTL * Offset: 0x60 Clock Output Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[3:0] |FREQSEL |Clock Output Frequency Selection * | | |The formula of output frequency is * | | |Fout = Fin/2(N+1). * | | |Fin is the input clock frequency. * | | |Fout is the frequency of divider output clock. * | | |N is the 4-bit value of FREQSEL[3:0]. * |[4] |CLKOEN |Clock Output Enable Bit * | | |0 = Clock Output function Disabled. * | | |1 = Clock Output function Enabled. * |[5] |DIV1EN |Clock Output Divide One Enable Bit * | | |0 = Clock Output will output clock with source frequency divided by FREQSEL. * | | |1 = Clock Output will output clock with source frequency. * |[6] |CLK1HZEN |Clock Output 1Hz Enable Bit * | | |0 = 1 Hz clock output for 32.768 kHz frequency compensation Disabled. * | | |1 = 1 Hz clock output for 32.768 kHz frequency compensation Enabled. * @var CLK_T::CLKDCTL * Offset: 0x70 Clock Fail Detector Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[4] |HXTFDEN |HXT Clock Fail Detector Enable Bit * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock fail detector Disabled. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock fail detector Enabled. * |[5] |HXTFIEN |HXT Clock Fail Interrupt Enable Bit * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock fail interrupt Disabled. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock fail interrupt Enabled. * |[12] |LXTFDEN |LXT Clock Fail Detector Enable Bit * | | |0 = 32.768 kHz external low speed crystal oscillator (LXT) clock fail detector Disabled. * | | |1 = 32.768 kHz external low speed crystal oscillator (LXT) clock fail detector Enabled. * |[13] |LXTFIEN |LXT Clock Fail Interrupt Enable Bit * | | |0 = 32.768 kHz external low speed crystal oscillator (LXT) clock fail interrupt Disabled. * | | |1 = 32.768 kHz external low speed crystal oscillator (LXT) clock fail interrupt Enabled. * |[16] |HXTFQDEN |HXT Clock Frequency Range Detector Enable Bit * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock frequency range detector Disabled. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock frequency range detector Enabled. * |[17] |HXTFQIEN |HXT Clock Frequency Range Detector Interrupt Enable Bit * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock frequency range detector fail interrupt Disabled. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock frequency range detector fail interrupt Enabled. * @var CLK_T::CLKDSTS * Offset: 0x74 Clock Fail Detector Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |HXTFIF |HXT Clock Fail Interrupt Flag * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock is normal. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock stops. * | | |Note: Write 1 to clear the bit to 0. * |[1] |LXTFIF |LXT Clock Fail Interrupt Flag * | | |0 = 32.768 kHz external low speed crystal oscillator (LXT) clock is normal. * | | |1 = 32.768 kHz external low speed crystal oscillator (LXT) stops. * | | |Note: Write 1 to clear the bit to 0. * |[8] |HXTFQIF |HXT Clock Frequency Range Detector Interrupt Flag * | | |0 = 4~24 MHz external high speed crystal oscillator (HXT) clock frequency is normal. * | | |1 = 4~24 MHz external high speed crystal oscillator (HXT) clock frequency is abnormal. * | | |Note: Write 1 to clear the bit to 0. * @var CLK_T::CDUPB * Offset: 0x78 Clock Frequency Range Detector Upper Boundary Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[9:0] |UPERBD |HXT Clock Frequency Range Detector Upper Boundary Value * | | |The bits define the maximum value of frequency range detector window. * | | |When HXT frequency higher than this maximum frequency value, the HXT Clock Frequency Range Detector Interrupt Flag will set to 1. * @var CLK_T::CDLOWB * Offset: 0x7C Clock Frequency Range Detector Lower Boundary Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[9:0] |LOWERBD |HXT Clock Frequency Range Detector Lower Boundary Value * | | |The bits define the minimum value of frequency range detector window. * | | |When HXT frequency lower than this minimum frequency value, the HXT Clock Frequency Range Detector Interrupt Flag will set to 1. * @var CLK_T::PMUCTL * Offset: 0x90 Power Manager Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[2:0] |PDMSEL |Power-down Mode Selection (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |These bits control chip power-down mode grade selection when CPU execute WFI/WFE instruction. * | | |000 = Power-down mode is selected. (PD) * | | |001 = Low leakage Power-down mode is selected (LLPD). * | | |010 =Fast wake-up Power-down mode is selected (FWPD). * | | |011 = Reserved. * | | |100 = Standby Power-down mode 0 is selected (SPD0) (SRAM retention). * | | |101 = Standby Power-down mode 1 is selected (SPD1). * | | |110 = Deep Power-down mode is selected (DPD). * | | |111 = Reserved. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[3] |DPDHOLDEN |Deep-Power-Down Mode GPIO Hold Enable * | | |0 = When GPIO enters deep power-down mode, all I/O status are tri-state. * | | |1 = When GPIO enters deep power-down mode, all I/O status are hold to keep normal operating status. * | | | After chip was waked up from deep power-down mode, the I/O are still keep hold status until user set CLK_IOPDCTL[0] * | | | to release I/O hold status. * |[8] |WKTMREN |Wake-up Timer Enable (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |0 = Wake-up timer disable at DPD/SPD mode. * | | |1 = Wake-up timer enabled at DPD/SPD mode. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[11:9] |WKTMRIS |Wake-up Timer Time-out Interval Select (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |These bits control wake-up timer time-out interval when chip at DPD/SPD mode. * | | |000 = Time-out interval is 128 OSC10K clocks (12.8 ms). * | | |001 = Time-out interval is 256 OSC10K clocks (25.6 ms). * | | |010 = Time-out interval is 512 OSC10K clocks (51.2 ms). * | | |011 = Time-out interval is 1024 OSC10K clocks (102.4ms). * | | |100 = Time-out interval is 4096 OSC10K clocks (409.6ms). * | | |101 = Time-out interval is 8192 OSC10K clocks (819.2ms). * | | |110 = Time-out interval is 16384 OSC10K clocks (1638.4ms). * | | |111 = Time-out interval is 65536 OSC10K clocks (6553.6ms). * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[17:16] |WKPINEN |Wake-up Pin Enable (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |00 = Wake-up pin disable at Deep Power-down mode. * | | |01 = Wake-up pin rising edge enabled at Deep Power-down mode. * | | |10 = Wake-up pin falling edge enabled at Deep Power-down mode. * | | |11 = Wake-up pin both edge enabled at Deep Power-down mode. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[18] |ACMPSPWK |ACMP Standby Power-down Mode Wake-up Enable (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |0 = ACMP wake-up disable at Standby Power-down mode. * | | |1 = ACMP wake-up enabled at Standby Power-down mode. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * |[23] |RTCWKEN |RTC Wake-up Enable (Write Protect) * | | |This is a protected register. Please refer to open lock sequence to program it. * | | |0 = RTC wake-up disable at Deep Power-down mode or Standby Power-down mode. * | | |1 = RTC wake-up enabled at Deep Power-down mode or Standby Power-down mode. * | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. * @var CLK_T::PMUSTS * Offset: 0x94 Power Manager Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |PINWK |Pin Wake-up Flag (Read Only) * | | |This flag indicates that wake-up of chip from Deep Power-down mode was requested by a transition of the WAKEUP pin (GPC.0) * | | |This flag is cleared when DPD mode is entered. * |[1] |TMRWK |Timer Wake-up Flag (Read Only) * | | |This flag indicates that wake-up of chip from Deep Power-down mode (DPD) or Standby Power-down (SPD) mode was requested by wakeup timer time-out * | | |This flag is cleared when DPD or SPD mode is entered. * |[2] |RTCWK |RTC Wake-up Flag (Read Only) * | | |This flag indicates that wakeup of device from Deep Power-down mode (DPD) or Standby Power-down (SPD) mode was requested with a RTC alarm, tick time or tamper happened * | | |This flag is cleared when DPD or SPD mode is entered. * |[8] |GPAWK |GPA Wake-up Flag (Read Only) * | | |This flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPA group pins * | | |This flag is cleared when SPD mode is entered. * |[9] |GPBWK |GPB Wake-up Flag (Read Only) * | | |This flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPB group pins * | | |This flag is cleared when SPD mode is entered. * |[10] |GPCWK |GPC Wake-up Flag (Read Only) * | | |This flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPC group pins * | | |This flag is cleared when SPD mode is entered. * |[11] |GPDWK |GPD Wake-up Flag (Read Only) * | | |This flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPD group pins * | | |This flag is cleared when SPD mode is entered. * |[12] |LVRWK |LVR Wake-up Flag (Read Only) * | | |This flag indicates that wakeup of device from Standby Power-down mode was requested with a LVR happened * | | |This flag is cleared when SPD mode is entered. * |[13] |BODWK |BOD Wake-up Flag (Read Only) * | | |This flag indicates that wakeup of device from Standby Power-down mode (SPD) was requested with a BOD happened * | | |This flag is cleared when SPD mode is entered. * |[14] |ACMPWK |ACMP Wake-up Flag (Read Only) * | | |This flag indicates that wakeup of device from Standby Power-down mode (SPD) was requested with a ACMP transition * | | |This flag is cleared when SPD mode is entered. * |[31] |CLRWK |Clear Wake-up Flag * | | |0 = No clear. * | | |1 = Clear all wake-up flag. * @var CLK_T::LDOCTL * Offset: 0x98 LDO Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[18] |PDBIASEN |Power-down Bias Enable Bit * | | |0 = Reserved. * | | |1 = Power-down bias enabled. * | | |Note: This bit should set to 1 before chip enter power-down mode. * @var CLK_T::SWKDBCTL * Offset: 0x9C Standby Power-down Wake-up De-bounce Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[3:0] |SWKDBCLKSEL|Standby Power-down Wake-up De-bounce Sampling Cycle Selection * | | |0000 = Sample wake-up input once per 1 clocks. * | | |0001 = Sample wake-up input once per 2 clocks. * | | |0010 = Sample wake-up input once per 4 clocks. * | | |0011 = Sample wake-up input once per 8 clocks. * | | |0100 = Sample wake-up input once per 16 clocks. * | | |0101 = Sample wake-up input once per 32 clocks. * | | |0110 = Sample wake-up input once per 64 clocks. * | | |0111 = Sample wake-up input once per 128 clocks. * | | |1000 = Sample wake-up input once per 256 clocks. * | | |1001 = Sample wake-up input once per 2*256 clocks. * | | |1010 = Sample wake-up input once per 4*256 clocks. * | | |1011 = Sample wake-up input once per 8*256 clocks. * | | |1100 = Sample wake-up input once per 16*256 clocks. * | | |1101 = Sample wake-up input once per 32*256 clocks. * | | |1110 = Sample wake-up input once per 64*256 clocks. * | | |1111 = Sample wake-up input once per 128*256 clocks. * | | |Note: De-bounce counter clock source is the 10 kHz internal low speed RC oscillator (LIRC). * @var CLK_T::PASWKCTL * Offset: 0xA0 GPA Standby Power-down Wake-up Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |WKEN |Standby Power-down Pin Wake-up Enable Bit * | | |0 = GPA group pin wake-up function disabled. * | | |1 = GPA group pin wake-up function enabled. * |[1] |PRWKEN |Pin Rising Edge Wake-up Enable Bit * | | |0 = GPA group pin rising edge wake-up function disabled. * | | |1 = GPA group pin rising edge wake-up function enabled. * |[2] |PFWKEN |Pin Falling Edge Wake-up Enable Bit * | | |0 = GPA group pin falling edge wake-up function disabled. * | | |1 = GPA group pin falling edge wake-up function enabled. * |[7:4] |WKPSEL |GPA Standby Power-down Wake-up Pin Select * | | |0000 = GPA.0 wake-up function enabled. * | | |0001 = GPA.1 wake-up function enabled. * | | |0010 = GPA.2 wake-up function enabled. * | | |0011 = GPA.3 wake-up function enabled. * | | |0100 = GPA.4 wake-up function enabled. * | | |0101 = GPA.5 wake-up function enabled. * | | |0110 = GPA.6 wake-up function enabled. * | | |0111 = GPA.7 wake-up function enabled. * | | |1000 = GPA.8 wake-up function enabled. * | | |1001 = GPA.9 wake-up function enabled. * | | |1010 = GPA.10 wake-up function enabled. * | | |1011 = GPA.11 wake-up function enabled. * | | |1100 = GPA.12 wake-up function enabled. * | | |1101 = GPA.13 wake-up function enabled. * | | |1110 = GPA.14 wake-up function enabled. * | | |1111 = GPA.15 wake-up function enabled. * |[8] |DBEN |GPA Input Signal De-bounce Enable Bit * | | |The DBEN bit is used to enable the de-bounce function for each corresponding IO * | | |If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the wake-up * | | |The de-bounce clock source is the 10 kHz internal low speed RC oscillator. * | | |0 = Standby power-down wake-up pin De-bounce function disable. * | | |1 = Standby power-down wake-up pin De-bounce function enable. * | | |The de-bounce function is valid only for edge triggered. * @var CLK_T::PBSWKCTL * Offset: 0xA4 GPB Standby Power-down Wake-up Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |WKEN |Standby Power-down Pin Wake-up Enable Bit * | | |0 = GPB group pin wake-up function disabled. * | | |1 = GPB group pin wake-up function enabled. * |[1] |PRWKEN |Pin Rising Edge Wake-up Enable Bit * | | |0 = GPB group pin rising edge wake-up function disabled. * | | |1 = GPB group pin rising edge wake-up function enabled. * |[2] |PFWKEN |Pin Falling Edge Wake-up Enable Bit * | | |0 = GPB group pin falling edge wake-up function disabled. * | | |1 = GPB group pin falling edge wake-up function enabled. * |[7:4] |WKPSEL |GPB Standby Power-down Wake-up Pin Select * | | |0000 = GPB.0 wake-up function enabled. * | | |0001 = GPB.1 wake-up function enabled. * | | |0010 = GPB.2 wake-up function enabled. * | | |0011 = GPB.3 wake-up function enabled. * | | |0100 = GPB.4 wake-up function enabled. * | | |0101 = GPB.5 wake-up function enabled. * | | |0110 = GPB.6 wake-up function enabled. * | | |0111 = GPB.7 wake-up function enabled. * | | |1000 = GPB.8 wake-up function enabled. * | | |1001 = GPB.9 wake-up function enabled. * | | |1010 = GPB.10 wake-up function enabled. * | | |1011 = GPB.11 wake-up function enabled. * | | |1100 = GPB.12 wake-up function enabled. * | | |1101 = GPB.13 wake-up function enabled. * | | |1110 = GPB.14 wake-up function enabled. * | | |1111 = GPB.15 wake-up function enabled. * |[8] |DBEN |GPB Input Signal De-bounce Enable Bit * | | |The DBEN bit is used to enable the de-bounce function for each corresponding IO * | | |If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the wake-up * | | |The de-bounce clock source is the 10 kHz internal low speed RC oscillator. * | | |0 = Standby power-down wake-up pin De-bounce function disable. * | | |1 = Standby power-down wake-up pin De-bounce function enable. * | | |The de-bounce function is valid only for edge triggered. * @var CLK_T::PCSWKCTL * Offset: 0xA8 GPC Standby Power-down Wake-up Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |WKEN |Standby Power-down Pin Wake-up Enable Bit * | | |0 = GPC group pin wake-up function disabled. * | | |1 = GPC group pin wake-up function enabled. * |[1] |PRWKEN |Pin Rising Edge Wake-up Enable Bit * | | |0 = GPC group pin rising edge wake-up function disabled. * | | |1 = GPC group pin rising edge wake-up function enabled. * |[2] |PFWKEN |Pin Falling Edge Wake-up Enable Bit * | | |0 = GPC group pin falling edge wake-up function disabled. * | | |1 = GPC group pin falling edge wake-up function enabled. * |[7:4] |WKPSEL |GPC Standby Power-down Wake-up Pin Select * | | |0000 = GPC.0 wake-up function enabled. * | | |0001 = GPC.1 wake-up function enabled. * | | |0010 = GPC.2 wake-up function enabled. * | | |0011 = GPC.3 wake-up function enabled. * | | |0100 = GPC.4 wake-up function enabled. * | | |0101 = GPC.5 wake-up function enabled. * | | |0110 = GPC.6 wake-up function enabled. * | | |0111 = GPC.7 wake-up function enabled. * | | |1000 = GPC.8 wake-up function enabled. * | | |1001 = GPC.9 wake-up function enabled. * | | |1010 = GPC.10 wake-up function enabled. * | | |1011 = GPC.11 wake-up function enabled. * | | |1100 = GPC.12 wake-up function enabled. * | | |1101 = GPC.13 wake-up function enabled. * | | |1110 = GPC.14 wake-up function enabled. * | | |1111 = GPC.15 wake-up function enabled. * |[8] |DBEN |GPC Input Signal De-bounce Enable Bit * | | |The DBEN bit is used to enable the de-bounce function for each corresponding IO * | | |If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the wake-up * | | |The de-bounce clock source is the 10 kHz internal low speed RC oscillator. * | | |0 = Standby power-down wake-up pin De-bounce function disable. * | | |1 = Standby power-down wake-up pin De-bounce function enable. * | | |The de-bounce function is valid only for edge triggered. * @var CLK_T::PDSWKCTL * Offset: 0xAC GPD Standby Power-down Wake-up Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |WKEN |Standby Power-down Pin Wake-up Enable Bit * | | |0 = GPD group pin wake-up function disabled. * | | |1 = GPD group pin wake-up function enabled. * |[1] |PRWKEN |Pin Rising Edge Wake-up Enable Bit * | | |0 = GPD group pin rising edge wake-up function disabled. * | | |1 = GPD group pin rising edge wake-up function enabled. * |[2] |PFWKEN |Pin Falling Edge Wake-up Enable Bit * | | |0 = GPD group pin falling edge wake-up function disabled. * | | |1 = GPD group pin falling edge wake-up function enabled. * |[7:4] |WKPSEL |GPD Standby Power-down Wake-up Pin Select * | | |0000 = GPD.0 wake-up function enabled. * | | |0001 = GPD.1 wake-up function enabled. * | | |0010 = GPD.2 wake-up function enabled. * | | |0011 = GPD.3 wake-up function enabled. * | | |0100 = GPD.4 wake-up function enabled. * | | |0101 = GPD.5 wake-up function enabled. * | | |0110 = GPD.6 wake-up function enabled. * | | |0111 = GPD.7 wake-up function enabled. * | | |1000 = GPD.8 wake-up function enabled. * | | |1001 = GPD.9 wake-up function enabled. * | | |1010 = GPD.10 wake-up function enabled. * | | |1011 = GPD.11 wake-up function enabled. * | | |1100 = GPD.12 wake-up function enabled. * | | |1101 = GPD.13 wake-up function enabled. * | | |1110 = GPD.14 wake-up function enabled. * | | |1111 = GPD.15 wake-up function enabled. * |[8] |DBEN |GPD Input Signal De-bounce Enable Bit * | | |The DBEN bit is used to enable the de-bounce function for each corresponding IO * | | |If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the wake-up * | | |The de-bounce clock source is the 10 kHz internal low speed RC oscillator. * | | |0 = Standby power-down wake-up pin De-bounce function disable. * | | |1 = Standby power-down wake-up pin De-bounce function enable. * | | |The de-bounce function is valid only for edge triggered. * @var CLK_T::IOPDCTL * Offset: 0xB0 GPIO Standby Power-down Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |IOHR |GPIO Hold Release * | | |When GPIO enter standby power-down mode, all I/O status are hold to keep normal operating status * | | |After chip was waked up from standby power-down mode, the I/O are still keep hold status until user set this bit to release I/O hold status. * | | |This bit is auto cleared by hardware. */ __IO uint32_t PWRCTL; /*!< [0x0000] System Power-down Control Register */ __IO uint32_t AHBCLK; /*!< [0x0004] AHB Devices Clock Enable Control Register */ __IO uint32_t APBCLK0; /*!< [0x0008] APB Devices Clock Enable Control Register 0 */ __IO uint32_t APBCLK1; /*!< [0x000c] APB Devices Clock Enable Control Register 1 */ __IO uint32_t CLKSEL0; /*!< [0x0010] Clock Source Select Control Register 0 */ __IO uint32_t CLKSEL1; /*!< [0x0014] Clock Source Select Control Register 1 */ __IO uint32_t CLKSEL2; /*!< [0x0018] Clock Source Select Control Register 2 */ __IO uint32_t CLKSEL3; /*!< [0x001c] Clock Source Select Control Register 3 */ __IO uint32_t CLKDIV0; /*!< [0x0020] Clock Divider Number Register 0 */ __IO uint32_t CLKDIV1; /*!< [0x0024] Clock Divider Number Register 1 */ __IO uint32_t CLKDIV2; /*!< [0x0028] Clock Divider Number Register 2 */ __IO uint32_t CLKDIV3; /*!< [0x002c] Clock Divider Number Register 3 */ __IO uint32_t CLKDIV4; /*!< [0x0030] Clock Divider Number Register 4 */ __IO uint32_t PCLKDIV; /*!< [0x0034] APB Clock Divider Register */ /** @cond HIDDEN_SYMBOLS */ __I uint32_t RESERVE1[2]; /** @endcond */ __IO uint32_t PLLCTL; /*!< [0x0040] PLL Control Register */ /** @cond HIDDEN_SYMBOLS */ __I uint32_t RESERVE2[3]; /** @endcond */ __I uint32_t STATUS; /*!< [0x0050] Clock Status Monitor Register */ /** @cond HIDDEN_SYMBOLS */ __I uint32_t RESERVE3[3]; /** @endcond */ __IO uint32_t CLKOCTL; /*!< [0x0060] Clock Output Control Register */ /** @cond HIDDEN_SYMBOLS */ __I uint32_t RESERVE4[3]; /** @endcond */ __IO uint32_t CLKDCTL; /*!< [0x0070] Clock Fail Detector Control Register */ __IO uint32_t CLKDSTS; /*!< [0x0074] Clock Fail Detector Status Register */ __IO uint32_t CDUPB; /*!< [0x0078] Clock Frequency Range Detector Upper Boundary Register */ __IO uint32_t CDLOWB; /*!< [0x007c] Clock Frequency Range Detector Lower Boundary Register */ /** @cond HIDDEN_SYMBOLS */ __I uint32_t RESERVE5[4]; /** @endcond */ __IO uint32_t PMUCTL; /*!< [0x0090] Power Manager Control Register */ __IO uint32_t PMUSTS; /*!< [0x0094] Power Manager Status Register */ __IO uint32_t LDOCTL; /*!< [0x0098] LDO Control Register */ __IO uint32_t SWKDBCTL; /*!< [0x009c] Standby Power-down Wake-up De-bounce Control Register */ __IO uint32_t PASWKCTL; /*!< [0x00a0] GPA Standby Power-down Wake-up Control Register */ __IO uint32_t PBSWKCTL; /*!< [0x00a4] GPB Standby Power-down Wake-up Control Register */ __IO uint32_t PCSWKCTL; /*!< [0x00a8] GPC Standby Power-down Wake-up Control Register */ __IO uint32_t PDSWKCTL; /*!< [0x00ac] GPD Standby Power-down Wake-up Control Register */ __IO uint32_t IOPDCTL; /*!< [0x00b0] GPIO Standby Power-down Control Register */ } CLK_T; /** @addtogroup CLK_CONST CLK Bit Field Definition Constant Definitions for CLK Controller @{ */ #define CLK_PWRCTL_HXTEN_Pos (0) /*!< CLK_T::PWRCTL: HXTEN Position */ #define CLK_PWRCTL_HXTEN_Msk (0x1ul << CLK_PWRCTL_HXTEN_Pos) /*!< CLK_T::PWRCTL: HXTEN Mask */ #define CLK_PWRCTL_LXTEN_Pos (1) /*!< CLK_T::PWRCTL: LXTEN Position */ #define CLK_PWRCTL_LXTEN_Msk (0x1ul << CLK_PWRCTL_LXTEN_Pos) /*!< CLK_T::PWRCTL: LXTEN Mask */ #define CLK_PWRCTL_HIRCEN_Pos (2) /*!< CLK_T::PWRCTL: HIRCEN Position */ #define CLK_PWRCTL_HIRCEN_Msk (0x1ul << CLK_PWRCTL_HIRCEN_Pos) /*!< CLK_T::PWRCTL: HIRCEN Mask */ #define CLK_PWRCTL_LIRCEN_Pos (3) /*!< CLK_T::PWRCTL: LIRCEN Position */ #define CLK_PWRCTL_LIRCEN_Msk (0x1ul << CLK_PWRCTL_LIRCEN_Pos) /*!< CLK_T::PWRCTL: LIRCEN Mask */ #define CLK_PWRCTL_PDWKDLY_Pos (4) /*!< CLK_T::PWRCTL: PDWKDLY Position */ #define CLK_PWRCTL_PDWKDLY_Msk (0x1ul << CLK_PWRCTL_PDWKDLY_Pos) /*!< CLK_T::PWRCTL: PDWKDLY Mask */ #define CLK_PWRCTL_PDWKIEN_Pos (5) /*!< CLK_T::PWRCTL: PDWKIEN Position */ #define CLK_PWRCTL_PDWKIEN_Msk (0x1ul << CLK_PWRCTL_PDWKIEN_Pos) /*!< CLK_T::PWRCTL: PDWKIEN Mask */ #define CLK_PWRCTL_PDWKIF_Pos (6) /*!< CLK_T::PWRCTL: PDWKIF Position */ #define CLK_PWRCTL_PDWKIF_Msk (0x1ul << CLK_PWRCTL_PDWKIF_Pos) /*!< CLK_T::PWRCTL: PDWKIF Mask */ #define CLK_PWRCTL_PDEN_Pos (7) /*!< CLK_T::PWRCTL: PDEN Position */ #define CLK_PWRCTL_PDEN_Msk (0x1ul << CLK_PWRCTL_PDEN_Pos) /*!< CLK_T::PWRCTL: PDEN Mask */ #define CLK_PWRCTL_HXTGAIN_Pos (10) /*!< CLK_T::PWRCTL: HXTGAIN Position */ #define CLK_PWRCTL_HXTGAIN_Msk (0x3ul << CLK_PWRCTL_HXTGAIN_Pos) /*!< CLK_T::PWRCTL: HXTGAIN Mask */ #define CLK_PWRCTL_HXTSELTYP_Pos (12) /*!< CLK_T::PWRCTL: HXTSELTYP Position */ #define CLK_PWRCTL_HXTSELTYP_Msk (0x1ul << CLK_PWRCTL_HXTSELTYP_Pos) /*!< CLK_T::PWRCTL: HXTSELTYP Mask */ #define CLK_PWRCTL_HXTTBEN_Pos (13) /*!< CLK_T::PWRCTL: HXTTBEN Position */ #define CLK_PWRCTL_HXTTBEN_Msk (0x1ul << CLK_PWRCTL_HXTTBEN_Pos) /*!< CLK_T::PWRCTL: HXTTBEN Mask */ #define CLK_PWRCTL_HIRCSTBS_Pos (16) /*!< CLK_T::PWRCTL: HIRCSTBS Position */ #define CLK_PWRCTL_HIRCSTBS_Msk (0x3ul << CLK_PWRCTL_HIRCSTBS_Pos) /*!< CLK_T::PWRCTL: HIRCSTBS Mask */ #define CLK_PWRCTL_HIRC48MEN_Pos (18) /*!< CLK_T::PWRCTL: HIRC48MEN Position */ #define CLK_PWRCTL_HIRC48MEN_Msk (0x1ul << CLK_PWRCTL_HIRC48MEN_Pos) /*!< CLK_T::PWRCTL: HIRC48MEN Mask */ #define CLK_AHBCLK_PDMACKEN_Pos (1) /*!< CLK_T::AHBCLK: PDMACKEN Position */ #define CLK_AHBCLK_PDMACKEN_Msk (0x1ul << CLK_AHBCLK_PDMACKEN_Pos) /*!< CLK_T::AHBCLK: PDMACKEN Mask */ #define CLK_AHBCLK_ISPCKEN_Pos (2) /*!< CLK_T::AHBCLK: ISPCKEN Position */ #define CLK_AHBCLK_ISPCKEN_Msk (0x1ul << CLK_AHBCLK_ISPCKEN_Pos) /*!< CLK_T::AHBCLK: ISPCKEN Mask */ #define CLK_AHBCLK_EBICKEN_Pos (3) /*!< CLK_T::AHBCLK: EBICKEN Position */ #define CLK_AHBCLK_EBICKEN_Msk (0x1ul << CLK_AHBCLK_EBICKEN_Pos) /*!< CLK_T::AHBCLK: EBICKEN Mask */ #define CLK_AHBCLK_EMACCKEN_Pos (5) /*!< CLK_T::AHBCLK: EMACCKEN Position */ #define CLK_AHBCLK_EMACCKEN_Msk (0x1ul << CLK_AHBCLK_EMACCKEN_Pos) /*!< CLK_T::AHBCLK: EMACCKEN Mask */ #define CLK_AHBCLK_SDH0CKEN_Pos (6) /*!< CLK_T::AHBCLK: SDH0CKEN Position */ #define CLK_AHBCLK_SDH0CKEN_Msk (0x1ul << CLK_AHBCLK_SDH0CKEN_Pos) /*!< CLK_T::AHBCLK: SDH0CKEN Mask */ #define CLK_AHBCLK_CRCCKEN_Pos (7) /*!< CLK_T::AHBCLK: CRCCKEN Position */ #define CLK_AHBCLK_CRCCKEN_Msk (0x1ul << CLK_AHBCLK_CRCCKEN_Pos) /*!< CLK_T::AHBCLK: CRCCKEN Mask */ #define CLK_AHBCLK_CCAPCKEN_Pos (8) /*!< CLK_T::AHBCLK: CCAPCKEN Position */ #define CLK_AHBCLK_CCAPCKEN_Msk (0x1ul << CLK_AHBCLK_CCAPCKEN_Pos) /*!< CLK_T::AHBCLK: CCAPCKEN Mask */ #define CLK_AHBCLK_SENCKEN_Pos (9) /*!< CLK_T::AHBCLK: SENCKEN Position */ #define CLK_AHBCLK_SENCKEN_Msk (0x1ul << CLK_AHBCLK_SENCKEN_Pos) /*!< CLK_T::AHBCLK: SENCKEN Mask */ #define CLK_AHBCLK_HSUSBDCKEN_Pos (10) /*!< CLK_T::AHBCLK: HSUSBDCKEN Position */ #define CLK_AHBCLK_HSUSBDCKEN_Msk (0x1ul << CLK_AHBCLK_HSUSBDCKEN_Pos) /*!< CLK_T::AHBCLK: HSUSBDCKEN Mask */ #define CLK_AHBCLK_CRPTCKEN_Pos (12) /*!< CLK_T::AHBCLK: CRPTCKEN Position */ #define CLK_AHBCLK_CRPTCKEN_Msk (0x1ul << CLK_AHBCLK_CRPTCKEN_Pos) /*!< CLK_T::AHBCLK: CRPTCKEN Mask */ #define CLK_AHBCLK_SPIMCKEN_Pos (14) /*!< CLK_T::AHBCLK: SPIMCKEN Position */ #define CLK_AHBCLK_SPIMCKEN_Msk (0x1ul << CLK_AHBCLK_SPIMCKEN_Pos) /*!< CLK_T::AHBCLK: SPIMCKEN Mask */ #define CLK_AHBCLK_FMCIDLE_Pos (15) /*!< CLK_T::AHBCLK: FMCIDLE Position */ #define CLK_AHBCLK_FMCIDLE_Msk (0x1ul << CLK_AHBCLK_FMCIDLE_Pos) /*!< CLK_T::AHBCLK: FMCIDLE Mask */ #define CLK_AHBCLK_USBHCKEN_Pos (16) /*!< CLK_T::AHBCLK: USBHCKEN Position */ #define CLK_AHBCLK_USBHCKEN_Msk (0x1ul << CLK_AHBCLK_USBHCKEN_Pos) /*!< CLK_T::AHBCLK: USBHCKEN Mask */ #define CLK_AHBCLK_SDH1CKEN_Pos (17) /*!< CLK_T::AHBCLK: SDH1CKEN Position */ #define CLK_AHBCLK_SDH1CKEN_Msk (0x1ul << CLK_AHBCLK_SDH1CKEN_Pos) /*!< CLK_T::AHBCLK: SDH1CKEN Mask */ #define CLK_APBCLK0_WDTCKEN_Pos (0) /*!< CLK_T::APBCLK0: WDTCKEN Position */ #define CLK_APBCLK0_WDTCKEN_Msk (0x1ul << CLK_APBCLK0_WDTCKEN_Pos) /*!< CLK_T::APBCLK0: WDTCKEN Mask */ #define CLK_APBCLK0_RTCCKEN_Pos (1) /*!< CLK_T::APBCLK0: RTCCKEN Position */ #define CLK_APBCLK0_RTCCKEN_Msk (0x1ul << CLK_APBCLK0_RTCCKEN_Pos) /*!< CLK_T::APBCLK0: RTCCKEN Mask */ #define CLK_APBCLK0_TMR0CKEN_Pos (2) /*!< CLK_T::APBCLK0: TMR0CKEN Position */ #define CLK_APBCLK0_TMR0CKEN_Msk (0x1ul << CLK_APBCLK0_TMR0CKEN_Pos) /*!< CLK_T::APBCLK0: TMR0CKEN Mask */ #define CLK_APBCLK0_TMR1CKEN_Pos (3) /*!< CLK_T::APBCLK0: TMR1CKEN Position */ #define CLK_APBCLK0_TMR1CKEN_Msk (0x1ul << CLK_APBCLK0_TMR1CKEN_Pos) /*!< CLK_T::APBCLK0: TMR1CKEN Mask */ #define CLK_APBCLK0_TMR2CKEN_Pos (4) /*!< CLK_T::APBCLK0: TMR2CKEN Position */ #define CLK_APBCLK0_TMR2CKEN_Msk (0x1ul << CLK_APBCLK0_TMR2CKEN_Pos) /*!< CLK_T::APBCLK0: TMR2CKEN Mask */ #define CLK_APBCLK0_TMR3CKEN_Pos (5) /*!< CLK_T::APBCLK0: TMR3CKEN Position */ #define CLK_APBCLK0_TMR3CKEN_Msk (0x1ul << CLK_APBCLK0_TMR3CKEN_Pos) /*!< CLK_T::APBCLK0: TMR3CKEN Mask */ #define CLK_APBCLK0_CLKOCKEN_Pos (6) /*!< CLK_T::APBCLK0: CLKOCKEN Position */ #define CLK_APBCLK0_CLKOCKEN_Msk (0x1ul << CLK_APBCLK0_CLKOCKEN_Pos) /*!< CLK_T::APBCLK0: CLKOCKEN Mask */ #define CLK_APBCLK0_ACMP01CKEN_Pos (7) /*!< CLK_T::APBCLK0: ACMP01CKEN Position */ #define CLK_APBCLK0_ACMP01CKEN_Msk (0x1ul << CLK_APBCLK0_ACMP01CKEN_Pos) /*!< CLK_T::APBCLK0: ACMP01CKEN Mask */ #define CLK_APBCLK0_I2C0CKEN_Pos (8) /*!< CLK_T::APBCLK0: I2C0CKEN Position */ #define CLK_APBCLK0_I2C0CKEN_Msk (0x1ul << CLK_APBCLK0_I2C0CKEN_Pos) /*!< CLK_T::APBCLK0: I2C0CKEN Mask */ #define CLK_APBCLK0_I2C1CKEN_Pos (9) /*!< CLK_T::APBCLK0: I2C1CKEN Position */ #define CLK_APBCLK0_I2C1CKEN_Msk (0x1ul << CLK_APBCLK0_I2C1CKEN_Pos) /*!< CLK_T::APBCLK0: I2C1CKEN Mask */ #define CLK_APBCLK0_I2C2CKEN_Pos (10) /*!< CLK_T::APBCLK0: I2C2CKEN Position */ #define CLK_APBCLK0_I2C2CKEN_Msk (0x1ul << CLK_APBCLK0_I2C2CKEN_Pos) /*!< CLK_T::APBCLK0: I2C2CKEN Mask */ #define CLK_APBCLK0_QSPI0CKEN_Pos (12) /*!< CLK_T::APBCLK0: QSPI0CKEN Position */ #define CLK_APBCLK0_QSPI0CKEN_Msk (0x1ul << CLK_APBCLK0_QSPI0CKEN_Pos) /*!< CLK_T::APBCLK0: QSPI0CKEN Mask */ #define CLK_APBCLK0_SPI0CKEN_Pos (13) /*!< CLK_T::APBCLK0: SPI0CKEN Position */ #define CLK_APBCLK0_SPI0CKEN_Msk (0x1ul << CLK_APBCLK0_SPI0CKEN_Pos) /*!< CLK_T::APBCLK0: SPI0CKEN Mask */ #define CLK_APBCLK0_SPI1CKEN_Pos (14) /*!< CLK_T::APBCLK0: SPI1CKEN Position */ #define CLK_APBCLK0_SPI1CKEN_Msk (0x1ul << CLK_APBCLK0_SPI1CKEN_Pos) /*!< CLK_T::APBCLK0: SPI1CKEN Mask */ #define CLK_APBCLK0_SPI2CKEN_Pos (15) /*!< CLK_T::APBCLK0: SPI2CKEN Position */ #define CLK_APBCLK0_SPI2CKEN_Msk (0x1ul << CLK_APBCLK0_SPI2CKEN_Pos) /*!< CLK_T::APBCLK0: SPI2CKEN Mask */ #define CLK_APBCLK0_UART0CKEN_Pos (16) /*!< CLK_T::APBCLK0: UART0CKEN Position */ #define CLK_APBCLK0_UART0CKEN_Msk (0x1ul << CLK_APBCLK0_UART0CKEN_Pos) /*!< CLK_T::APBCLK0: UART0CKEN Mask */ #define CLK_APBCLK0_UART1CKEN_Pos (17) /*!< CLK_T::APBCLK0: UART1CKEN Position */ #define CLK_APBCLK0_UART1CKEN_Msk (0x1ul << CLK_APBCLK0_UART1CKEN_Pos) /*!< CLK_T::APBCLK0: UART1CKEN Mask */ #define CLK_APBCLK0_UART2CKEN_Pos (18) /*!< CLK_T::APBCLK0: UART2CKEN Position */ #define CLK_APBCLK0_UART2CKEN_Msk (0x1ul << CLK_APBCLK0_UART2CKEN_Pos) /*!< CLK_T::APBCLK0: UART2CKEN Mask */ #define CLK_APBCLK0_UART3CKEN_Pos (19) /*!< CLK_T::APBCLK0: UART3CKEN Position */ #define CLK_APBCLK0_UART3CKEN_Msk (0x1ul << CLK_APBCLK0_UART3CKEN_Pos) /*!< CLK_T::APBCLK0: UART3CKEN Mask */ #define CLK_APBCLK0_UART4CKEN_Pos (20) /*!< CLK_T::APBCLK0: UART4CKEN Position */ #define CLK_APBCLK0_UART4CKEN_Msk (0x1ul << CLK_APBCLK0_UART4CKEN_Pos) /*!< CLK_T::APBCLK0: UART4CKEN Mask */ #define CLK_APBCLK0_UART5CKEN_Pos (21) /*!< CLK_T::APBCLK0: UART5CKEN Position */ #define CLK_APBCLK0_UART5CKEN_Msk (0x1ul << CLK_APBCLK0_UART5CKEN_Pos) /*!< CLK_T::APBCLK0: UART5CKEN Mask */ #define CLK_APBCLK0_UART6CKEN_Pos (22) /*!< CLK_T::APBCLK0: UART6CKEN Position */ #define CLK_APBCLK0_UART6CKEN_Msk (0x1ul << CLK_APBCLK0_UART6CKEN_Pos) /*!< CLK_T::APBCLK0: UART6CKEN Mask */ #define CLK_APBCLK0_UART7CKEN_Pos (23) /*!< CLK_T::APBCLK0: UART7CKEN Position */ #define CLK_APBCLK0_UART7CKEN_Msk (0x1ul << CLK_APBCLK0_UART7CKEN_Pos) /*!< CLK_T::APBCLK0: UART7CKEN Mask */ #define CLK_APBCLK0_CAN0CKEN_Pos (24) /*!< CLK_T::APBCLK0: CAN0CKEN Position */ #define CLK_APBCLK0_CAN0CKEN_Msk (0x1ul << CLK_APBCLK0_CAN0CKEN_Pos) /*!< CLK_T::APBCLK0: CAN0CKEN Mask */ #define CLK_APBCLK0_CAN1CKEN_Pos (25) /*!< CLK_T::APBCLK0: CAN1CKEN Position */ #define CLK_APBCLK0_CAN1CKEN_Msk (0x1ul << CLK_APBCLK0_CAN1CKEN_Pos) /*!< CLK_T::APBCLK0: CAN1CKEN Mask */ #define CLK_APBCLK0_OTGCKEN_Pos (26) /*!< CLK_T::APBCLK0: OTGCKEN Position */ #define CLK_APBCLK0_OTGCKEN_Msk (0x1ul << CLK_APBCLK0_OTGCKEN_Pos) /*!< CLK_T::APBCLK0: OTGCKEN Mask */ #define CLK_APBCLK0_USBDCKEN_Pos (27) /*!< CLK_T::APBCLK0: USBDCKEN Position */ #define CLK_APBCLK0_USBDCKEN_Msk (0x1ul << CLK_APBCLK0_USBDCKEN_Pos) /*!< CLK_T::APBCLK0: USBDCKEN Mask */ #define CLK_APBCLK0_EADCCKEN_Pos (28) /*!< CLK_T::APBCLK0: EADCCKEN Position */ #define CLK_APBCLK0_EADCCKEN_Msk (0x1ul << CLK_APBCLK0_EADCCKEN_Pos) /*!< CLK_T::APBCLK0: EADCCKEN Mask */ #define CLK_APBCLK0_I2S0CKEN_Pos (29) /*!< CLK_T::APBCLK0: I2S0CKEN Position */ #define CLK_APBCLK0_I2S0CKEN_Msk (0x1ul << CLK_APBCLK0_I2S0CKEN_Pos) /*!< CLK_T::APBCLK0: I2S0CKEN Mask */ #define CLK_APBCLK0_HSOTGCKEN_Pos (30) /*!< CLK_T::APBCLK0: HSOTGCKEN Position */ #define CLK_APBCLK0_HSOTGCKEN_Msk (0x1ul << CLK_APBCLK0_HSOTGCKEN_Pos) /*!< CLK_T::APBCLK0: HSOTGCKEN Mask */ #define CLK_APBCLK1_SC0CKEN_Pos (0) /*!< CLK_T::APBCLK1: SC0CKEN Position */ #define CLK_APBCLK1_SC0CKEN_Msk (0x1ul << CLK_APBCLK1_SC0CKEN_Pos) /*!< CLK_T::APBCLK1: SC0CKEN Mask */ #define CLK_APBCLK1_SC1CKEN_Pos (1) /*!< CLK_T::APBCLK1: SC1CKEN Position */ #define CLK_APBCLK1_SC1CKEN_Msk (0x1ul << CLK_APBCLK1_SC1CKEN_Pos) /*!< CLK_T::APBCLK1: SC1CKEN Mask */ #define CLK_APBCLK1_SC2CKEN_Pos (2) /*!< CLK_T::APBCLK1: SC2CKEN Position */ #define CLK_APBCLK1_SC2CKEN_Msk (0x1ul << CLK_APBCLK1_SC2CKEN_Pos) /*!< CLK_T::APBCLK1: SC2CKEN Mask */ #define CLK_APBCLK1_QSPI1CKEN_Pos (4) /*!< CLK_T::APBCLK1: QSPI1CKEN Position */ #define CLK_APBCLK1_QSPI1CKEN_Msk (0x1ul << CLK_APBCLK1_QSPI1CKEN_Pos) /*!< CLK_T::APBCLK1: QSPI1CKEN Mask */ #define CLK_APBCLK1_SPI3CKEN_Pos (6) /*!< CLK_T::APBCLK1: SPI3CKEN Position */ #define CLK_APBCLK1_SPI3CKEN_Msk (0x1ul << CLK_APBCLK1_SPI3CKEN_Pos) /*!< CLK_T::APBCLK1: SPI3CKEN Mask */ #define CLK_APBCLK1_USCI0CKEN_Pos (8) /*!< CLK_T::APBCLK1: USCI0CKEN Position */ #define CLK_APBCLK1_USCI0CKEN_Msk (0x1ul << CLK_APBCLK1_USCI0CKEN_Pos) /*!< CLK_T::APBCLK1: USCI0CKEN Mask */ #define CLK_APBCLK1_USCI1CKEN_Pos (9) /*!< CLK_T::APBCLK1: USCI1CKEN Position */ #define CLK_APBCLK1_USCI1CKEN_Msk (0x1ul << CLK_APBCLK1_USCI1CKEN_Pos) /*!< CLK_T::APBCLK1: USCI1CKEN Mask */ #define CLK_APBCLK1_DACCKEN_Pos (12) /*!< CLK_T::APBCLK1: DACCKEN Position */ #define CLK_APBCLK1_DACCKEN_Msk (0x1ul << CLK_APBCLK1_DACCKEN_Pos) /*!< CLK_T::APBCLK1: DACCKEN Mask */ #define CLK_APBCLK1_EPWM0CKEN_Pos (16) /*!< CLK_T::APBCLK1: EPWM0CKEN Position */ #define CLK_APBCLK1_EPWM0CKEN_Msk (0x1ul << CLK_APBCLK1_EPWM0CKEN_Pos) /*!< CLK_T::APBCLK1: EPWM0CKEN Mask */ #define CLK_APBCLK1_EPWM1CKEN_Pos (17) /*!< CLK_T::APBCLK1: EPWM1CKEN Position */ #define CLK_APBCLK1_EPWM1CKEN_Msk (0x1ul << CLK_APBCLK1_EPWM1CKEN_Pos) /*!< CLK_T::APBCLK1: EPWM1CKEN Mask */ #define CLK_APBCLK1_BPWM0CKEN_Pos (18) /*!< CLK_T::APBCLK1: BPWM0CKEN Position */ #define CLK_APBCLK1_BPWM0CKEN_Msk (0x1ul << CLK_APBCLK1_BPWM0CKEN_Pos) /*!< CLK_T::APBCLK1: BPWM0CKEN Mask */ #define CLK_APBCLK1_BPWM1CKEN_Pos (19) /*!< CLK_T::APBCLK1: BPWM1CKEN Position */ #define CLK_APBCLK1_BPWM1CKEN_Msk (0x1ul << CLK_APBCLK1_BPWM1CKEN_Pos) /*!< CLK_T::APBCLK1: BPWM1CKEN Mask */ #define CLK_APBCLK1_QEI0CKEN_Pos (22) /*!< CLK_T::APBCLK1: QEI0CKEN Position */ #define CLK_APBCLK1_QEI0CKEN_Msk (0x1ul << CLK_APBCLK1_QEI0CKEN_Pos) /*!< CLK_T::APBCLK1: QEI0CKEN Mask */ #define CLK_APBCLK1_QEI1CKEN_Pos (23) /*!< CLK_T::APBCLK1: QEI1CKEN Position */ #define CLK_APBCLK1_QEI1CKEN_Msk (0x1ul << CLK_APBCLK1_QEI1CKEN_Pos) /*!< CLK_T::APBCLK1: QEI1CKEN Mask */ #define CLK_APBCLK1_TRNGCKEN_Pos (25) /*!< CLK_T::APBCLK1: TRNGCKEN Position */ #define CLK_APBCLK1_TRNGCKEN_Msk (0x1ul << CLK_APBCLK1_TRNGCKEN_Pos) /*!< CLK_T::APBCLK1: TRNGCKEN Mask */ #define CLK_APBCLK1_ECAP0CKEN_Pos (26) /*!< CLK_T::APBCLK1: ECAP0CKEN Position */ #define CLK_APBCLK1_ECAP0CKEN_Msk (0x1ul << CLK_APBCLK1_ECAP0CKEN_Pos) /*!< CLK_T::APBCLK1: ECAP0CKEN Mask */ #define CLK_APBCLK1_ECAP1CKEN_Pos (27) /*!< CLK_T::APBCLK1: ECAP1CKEN Position */ #define CLK_APBCLK1_ECAP1CKEN_Msk (0x1ul << CLK_APBCLK1_ECAP1CKEN_Pos) /*!< CLK_T::APBCLK1: ECAP1CKEN Mask */ #define CLK_APBCLK1_CAN2CKEN_Pos (28) /*!< CLK_T::APBCLK1: CAN2CKEN Position */ #define CLK_APBCLK1_CAN2CKEN_Msk (0x1ul << CLK_APBCLK1_CAN2CKEN_Pos) /*!< CLK_T::APBCLK1: CAN2CKEN Mask */ #define CLK_APBCLK1_OPACKEN_Pos (30) /*!< CLK_T::APBCLK1: OPACKEN Position */ #define CLK_APBCLK1_OPACKEN_Msk (0x1ul << CLK_APBCLK1_OPACKEN_Pos) /*!< CLK_T::APBCLK1: OPACKEN Mask */ #define CLK_APBCLK1_EADC1CKEN_Pos (31) /*!< CLK_T::APBCLK1: EADC1CKEN Position */ #define CLK_APBCLK1_EADC1CKEN_Msk (0x1ul << CLK_APBCLK1_EADC1CKEN_Pos) /*!< CLK_T::APBCLK1: EADC1CKEN Mask */ #define CLK_CLKSEL0_HCLKSEL_Pos (0) /*!< CLK_T::CLKSEL0: HCLKSEL Position */ #define CLK_CLKSEL0_HCLKSEL_Msk (0x7ul << CLK_CLKSEL0_HCLKSEL_Pos) /*!< CLK_T::CLKSEL0: HCLKSEL Mask */ #define CLK_CLKSEL0_STCLKSEL_Pos (3) /*!< CLK_T::CLKSEL0: STCLKSEL Position */ #define CLK_CLKSEL0_STCLKSEL_Msk (0x7ul << CLK_CLKSEL0_STCLKSEL_Pos) /*!< CLK_T::CLKSEL0: STCLKSEL Mask */ #define CLK_CLKSEL0_USBSEL_Pos (8) /*!< CLK_T::CLKSEL0: PCLK0SEL Position */ #define CLK_CLKSEL0_USBSEL_Msk (0x1ul << CLK_CLKSEL0_USBSEL_Pos) /*!< CLK_T::CLKSEL0: PCLK0SEL Mask */ #define CLK_CLKSEL0_CCAPSEL_Pos (16) /*!< CLK_T::CLKSEL0: CCAPSEL Position */ #define CLK_CLKSEL0_CCAPSEL_Msk (0x3ul << CLK_CLKSEL0_CCAPSEL_Pos) /*!< CLK_T::CLKSEL0: CCAPSEL Mask */ #define CLK_CLKSEL0_SDH0SEL_Pos (20) /*!< CLK_T::CLKSEL0: SDH0SEL Position */ #define CLK_CLKSEL0_SDH0SEL_Msk (0x3ul << CLK_CLKSEL0_SDH0SEL_Pos) /*!< CLK_T::CLKSEL0: SDH0SEL Mask */ #define CLK_CLKSEL0_SDH1SEL_Pos (22) /*!< CLK_T::CLKSEL0: SDH1SEL Position */ #define CLK_CLKSEL0_SDH1SEL_Msk (0x3ul << CLK_CLKSEL0_SDH1SEL_Pos) /*!< CLK_T::CLKSEL0: SDH1SEL Mask */ #define CLK_CLKSEL1_WDTSEL_Pos (0) /*!< CLK_T::CLKSEL1: WDTSEL Position */ #define CLK_CLKSEL1_WDTSEL_Msk (0x3ul << CLK_CLKSEL1_WDTSEL_Pos) /*!< CLK_T::CLKSEL1: WDTSEL Mask */ #define CLK_CLKSEL1_TMR0SEL_Pos (8) /*!< CLK_T::CLKSEL1: TMR0SEL Position */ #define CLK_CLKSEL1_TMR0SEL_Msk (0x7ul << CLK_CLKSEL1_TMR0SEL_Pos) /*!< CLK_T::CLKSEL1: TMR0SEL Mask */ #define CLK_CLKSEL1_TMR1SEL_Pos (12) /*!< CLK_T::CLKSEL1: TMR1SEL Position */ #define CLK_CLKSEL1_TMR1SEL_Msk (0x7ul << CLK_CLKSEL1_TMR1SEL_Pos) /*!< CLK_T::CLKSEL1: TMR1SEL Mask */ #define CLK_CLKSEL1_TMR2SEL_Pos (16) /*!< CLK_T::CLKSEL1: TMR2SEL Position */ #define CLK_CLKSEL1_TMR2SEL_Msk (0x7ul << CLK_CLKSEL1_TMR2SEL_Pos) /*!< CLK_T::CLKSEL1: TMR2SEL Mask */ #define CLK_CLKSEL1_TMR3SEL_Pos (20) /*!< CLK_T::CLKSEL1: TMR3SEL Position */ #define CLK_CLKSEL1_TMR3SEL_Msk (0x7ul << CLK_CLKSEL1_TMR3SEL_Pos) /*!< CLK_T::CLKSEL1: TMR3SEL Mask */ #define CLK_CLKSEL1_UART0SEL_Pos (24) /*!< CLK_T::CLKSEL1: UART0SEL Position */ #define CLK_CLKSEL1_UART0SEL_Msk (0x3ul << CLK_CLKSEL1_UART0SEL_Pos) /*!< CLK_T::CLKSEL1: UART0SEL Mask */ #define CLK_CLKSEL1_UART1SEL_Pos (26) /*!< CLK_T::CLKSEL1: UART1SEL Position */ #define CLK_CLKSEL1_UART1SEL_Msk (0x3ul << CLK_CLKSEL1_UART1SEL_Pos) /*!< CLK_T::CLKSEL1: UART1SEL Mask */ #define CLK_CLKSEL1_CLKOSEL_Pos (28) /*!< CLK_T::CLKSEL1: CLKOSEL Position */ #define CLK_CLKSEL1_CLKOSEL_Msk (0x3ul << CLK_CLKSEL1_CLKOSEL_Pos) /*!< CLK_T::CLKSEL1: CLKOSEL Mask */ #define CLK_CLKSEL1_WWDTSEL_Pos (30) /*!< CLK_T::CLKSEL1: WWDTSEL Position */ #define CLK_CLKSEL1_WWDTSEL_Msk (0x3ul << CLK_CLKSEL1_WWDTSEL_Pos) /*!< CLK_T::CLKSEL1: WWDTSEL Mask */ #define CLK_CLKSEL2_EPWM0SEL_Pos (0) /*!< CLK_T::CLKSEL2: EPWM0SEL Position */ #define CLK_CLKSEL2_EPWM0SEL_Msk (0x1ul << CLK_CLKSEL2_EPWM0SEL_Pos) /*!< CLK_T::CLKSEL2: EPWM0SEL Mask */ #define CLK_CLKSEL2_EPWM1SEL_Pos (1) /*!< CLK_T::CLKSEL2: EPWM1SEL Position */ #define CLK_CLKSEL2_EPWM1SEL_Msk (0x1ul << CLK_CLKSEL2_EPWM1SEL_Pos) /*!< CLK_T::CLKSEL2: EPWM1SEL Mask */ #define CLK_CLKSEL2_QSPI0SEL_Pos (2) /*!< CLK_T::CLKSEL2: QSPI0SEL Position */ #define CLK_CLKSEL2_QSPI0SEL_Msk (0x3ul << CLK_CLKSEL2_QSPI0SEL_Pos) /*!< CLK_T::CLKSEL2: QSPI0SEL Mask */ #define CLK_CLKSEL2_SPI0SEL_Pos (4) /*!< CLK_T::CLKSEL2: SPI0SEL Position */ #define CLK_CLKSEL2_SPI0SEL_Msk (0x3ul << CLK_CLKSEL2_SPI0SEL_Pos) /*!< CLK_T::CLKSEL2: SPI0SEL Mask */ #define CLK_CLKSEL2_SPI1SEL_Pos (6) /*!< CLK_T::CLKSEL2: SPI1SEL Position */ #define CLK_CLKSEL2_SPI1SEL_Msk (0x3ul << CLK_CLKSEL2_SPI1SEL_Pos) /*!< CLK_T::CLKSEL2: SPI1SEL Mask */ #define CLK_CLKSEL2_BPWM0SEL_Pos (8) /*!< CLK_T::CLKSEL2: BPWM0SEL Position */ #define CLK_CLKSEL2_BPWM0SEL_Msk (0x1ul << CLK_CLKSEL2_BPWM0SEL_Pos) /*!< CLK_T::CLKSEL2: BPWM0SEL Mask */ #define CLK_CLKSEL2_BPWM1SEL_Pos (9) /*!< CLK_T::CLKSEL2: BPWM1SEL Position */ #define CLK_CLKSEL2_BPWM1SEL_Msk (0x1ul << CLK_CLKSEL2_BPWM1SEL_Pos) /*!< CLK_T::CLKSEL2: BPWM1SEL Mask */ #define CLK_CLKSEL2_SPI2SEL_Pos (10) /*!< CLK_T::CLKSEL2: SPI2SEL Position */ #define CLK_CLKSEL2_SPI2SEL_Msk (0x3ul << CLK_CLKSEL2_SPI2SEL_Pos) /*!< CLK_T::CLKSEL2: SPI2SEL Mask */ #define CLK_CLKSEL2_SPI3SEL_Pos (12) /*!< CLK_T::CLKSEL2: SPI3SEL Position */ #define CLK_CLKSEL2_SPI3SEL_Msk (0x3ul << CLK_CLKSEL2_SPI3SEL_Pos) /*!< CLK_T::CLKSEL2: SPI3SEL Mask */ #define CLK_CLKSEL3_SC0SEL_Pos (0) /*!< CLK_T::CLKSEL3: SC0SEL Position */ #define CLK_CLKSEL3_SC0SEL_Msk (0x3ul << CLK_CLKSEL3_SC0SEL_Pos) /*!< CLK_T::CLKSEL3: SC0SEL Mask */ #define CLK_CLKSEL3_SC1SEL_Pos (2) /*!< CLK_T::CLKSEL3: SC1SEL Position */ #define CLK_CLKSEL3_SC1SEL_Msk (0x3ul << CLK_CLKSEL3_SC1SEL_Pos) /*!< CLK_T::CLKSEL3: SC1SEL Mask */ #define CLK_CLKSEL3_SC2SEL_Pos (4) /*!< CLK_T::CLKSEL3: SC2SEL Position */ #define CLK_CLKSEL3_SC2SEL_Msk (0x3ul << CLK_CLKSEL3_SC2SEL_Pos) /*!< CLK_T::CLKSEL3: SC2SEL Mask */ #define CLK_CLKSEL3_RTCSEL_Pos (8) /*!< CLK_T::CLKSEL3: RTCSEL Position */ #define CLK_CLKSEL3_RTCSEL_Msk (0x1ul << CLK_CLKSEL3_RTCSEL_Pos) /*!< CLK_T::CLKSEL3: RTCSEL Mask */ #define CLK_CLKSEL3_QSPI1SEL_Pos (12) /*!< CLK_T::CLKSEL3: QSPI1SEL Position */ #define CLK_CLKSEL3_QSPI1SEL_Msk (0x3ul << CLK_CLKSEL3_QSPI1SEL_Pos) /*!< CLK_T::CLKSEL3: QSPI1SEL Mask */ #define CLK_CLKSEL3_I2S0SEL_Pos (16) /*!< CLK_T::CLKSEL3: I2S0SEL Position */ #define CLK_CLKSEL3_I2S0SEL_Msk (0x3ul << CLK_CLKSEL3_I2S0SEL_Pos) /*!< CLK_T::CLKSEL3: I2S0SEL Mask */ #define CLK_CLKSEL3_UART6SEL_Pos (20) /*!< CLK_T::CLKSEL3: UART6SEL Position */ #define CLK_CLKSEL3_UART6SEL_Msk (0x3ul << CLK_CLKSEL3_UART6SEL_Pos) /*!< CLK_T::CLKSEL3: UART6SEL Mask */ #define CLK_CLKSEL3_UART7SEL_Pos (22) /*!< CLK_T::CLKSEL3: UART7SEL Position */ #define CLK_CLKSEL3_UART7SEL_Msk (0x3ul << CLK_CLKSEL3_UART7SEL_Pos) /*!< CLK_T::CLKSEL3: UART7SEL Mask */ #define CLK_CLKSEL3_UART2SEL_Pos (24) /*!< CLK_T::CLKSEL3: UART2SEL Position */ #define CLK_CLKSEL3_UART2SEL_Msk (0x3ul << CLK_CLKSEL3_UART2SEL_Pos) /*!< CLK_T::CLKSEL3: UART2SEL Mask */ #define CLK_CLKSEL3_UART3SEL_Pos (26) /*!< CLK_T::CLKSEL3: UART3SEL Position */ #define CLK_CLKSEL3_UART3SEL_Msk (0x3ul << CLK_CLKSEL3_UART3SEL_Pos) /*!< CLK_T::CLKSEL3: UART3SEL Mask */ #define CLK_CLKSEL3_UART4SEL_Pos (28) /*!< CLK_T::CLKSEL3: UART4SEL Position */ #define CLK_CLKSEL3_UART4SEL_Msk (0x3ul << CLK_CLKSEL3_UART4SEL_Pos) /*!< CLK_T::CLKSEL3: UART4SEL Mask */ #define CLK_CLKSEL3_UART5SEL_Pos (30) /*!< CLK_T::CLKSEL3: UART5SEL Position */ #define CLK_CLKSEL3_UART5SEL_Msk (0x3ul << CLK_CLKSEL3_UART5SEL_Pos) /*!< CLK_T::CLKSEL3: UART5SEL Mask */ #define CLK_CLKDIV0_HCLKDIV_Pos (0) /*!< CLK_T::CLKDIV0: HCLKDIV Position */ #define CLK_CLKDIV0_HCLKDIV_Msk (0xful << CLK_CLKDIV0_HCLKDIV_Pos) /*!< CLK_T::CLKDIV0: HCLKDIV Mask */ #define CLK_CLKDIV0_USBDIV_Pos (4) /*!< CLK_T::CLKDIV0: USBDIV Position */ #define CLK_CLKDIV0_USBDIV_Msk (0xful << CLK_CLKDIV0_USBDIV_Pos) /*!< CLK_T::CLKDIV0: USBDIV Mask */ #define CLK_CLKDIV0_UART0DIV_Pos (8) /*!< CLK_T::CLKDIV0: UART0DIV Position */ #define CLK_CLKDIV0_UART0DIV_Msk (0xful << CLK_CLKDIV0_UART0DIV_Pos) /*!< CLK_T::CLKDIV0: UART0DIV Mask */ #define CLK_CLKDIV0_UART1DIV_Pos (12) /*!< CLK_T::CLKDIV0: UART1DIV Position */ #define CLK_CLKDIV0_UART1DIV_Msk (0xful << CLK_CLKDIV0_UART1DIV_Pos) /*!< CLK_T::CLKDIV0: UART1DIV Mask */ #define CLK_CLKDIV0_EADCDIV_Pos (16) /*!< CLK_T::CLKDIV0: EADCDIV Position */ #define CLK_CLKDIV0_EADCDIV_Msk (0xfful << CLK_CLKDIV0_EADCDIV_Pos) /*!< CLK_T::CLKDIV0: EADCDIV Mask */ #define CLK_CLKDIV0_SDH0DIV_Pos (24) /*!< CLK_T::CLKDIV0: SDH0DIV Position */ #define CLK_CLKDIV0_SDH0DIV_Msk (0xfful << CLK_CLKDIV0_SDH0DIV_Pos) /*!< CLK_T::CLKDIV0: SDH0DIV Mask */ #define CLK_CLKDIV1_SC0DIV_Pos (0) /*!< CLK_T::CLKDIV1: SC0DIV Position */ #define CLK_CLKDIV1_SC0DIV_Msk (0xfful << CLK_CLKDIV1_SC0DIV_Pos) /*!< CLK_T::CLKDIV1: SC0DIV Mask */ #define CLK_CLKDIV1_SC1DIV_Pos (8) /*!< CLK_T::CLKDIV1: SC1DIV Position */ #define CLK_CLKDIV1_SC1DIV_Msk (0xfful << CLK_CLKDIV1_SC1DIV_Pos) /*!< CLK_T::CLKDIV1: SC1DIV Mask */ #define CLK_CLKDIV1_SC2DIV_Pos (16) /*!< CLK_T::CLKDIV1: SC2DIV Position */ #define CLK_CLKDIV1_SC2DIV_Msk (0xfful << CLK_CLKDIV1_SC2DIV_Pos) /*!< CLK_T::CLKDIV1: SC2DIV Mask */ #define CLK_CLKDIV2_I2SDIV_Pos (0) /*!< CLK_T::CLKDIV2: I2SDIV Position */ #define CLK_CLKDIV2_I2SDIV_Msk (0xful << CLK_CLKDIV2_I2SDIV_Pos) /*!< CLK_T::CLKDIV2: I2SDIV Mask */ #define CLK_CLKDIV2_EADC1DIV_Pos (24) /*!< CLK_T::CLKDIV2: EADC1DIV Position */ #define CLK_CLKDIV2_EADC1DIV_Msk (0xfful << CLK_CLKDIV2_EADC1DIV_Pos) /*!< CLK_T::CLKDIV2: EADC1DIV Mask */ #define CLK_CLKDIV3_CCAPDIV_Pos (0) /*!< CLK_T::CLKDIV3: CCAPDIV Position */ #define CLK_CLKDIV3_CCAPDIV_Msk (0xfful << CLK_CLKDIV3_CCAPDIV_Pos) /*!< CLK_T::CLKDIV3: CCAPDIV Mask */ #define CLK_CLKDIV3_VSENSEDIV_Pos (8) /*!< CLK_T::CLKDIV3: VSENSEDIV Position */ #define CLK_CLKDIV3_VSENSEDIV_Msk (0xfful << CLK_CLKDIV3_VSENSEDIV_Pos) /*!< CLK_T::CLKDIV3: VSENSEDIV Mask */ #define CLK_CLKDIV3_EMACDIV_Pos (16) /*!< CLK_T::CLKDIV3: EMACDIV Position */ #define CLK_CLKDIV3_EMACDIV_Msk (0xfful << CLK_CLKDIV3_EMACDIV_Pos) /*!< CLK_T::CLKDIV3: EMACDIV Mask */ #define CLK_CLKDIV3_SDH1DIV_Pos (24) /*!< CLK_T::CLKDIV3: SDH1DIV Position */ #define CLK_CLKDIV3_SDH1DIV_Msk (0xfful << CLK_CLKDIV3_SDH1DIV_Pos) /*!< CLK_T::CLKDIV3: SDH1DIV Mask */ #define CLK_CLKDIV4_UART2DIV_Pos (0) /*!< CLK_T::CLKDIV4: UART2DIV Position */ #define CLK_CLKDIV4_UART2DIV_Msk (0xful << CLK_CLKDIV4_UART2DIV_Pos) /*!< CLK_T::CLKDIV4: UART2DIV Mask */ #define CLK_CLKDIV4_UART3DIV_Pos (4) /*!< CLK_T::CLKDIV4: UART3DIV Position */ #define CLK_CLKDIV4_UART3DIV_Msk (0xful << CLK_CLKDIV4_UART3DIV_Pos) /*!< CLK_T::CLKDIV4: UART3DIV Mask */ #define CLK_CLKDIV4_UART4DIV_Pos (8) /*!< CLK_T::CLKDIV4: UART4DIV Position */ #define CLK_CLKDIV4_UART4DIV_Msk (0xful << CLK_CLKDIV4_UART4DIV_Pos) /*!< CLK_T::CLKDIV4: UART4DIV Mask */ #define CLK_CLKDIV4_UART5DIV_Pos (12) /*!< CLK_T::CLKDIV4: UART5DIV Position */ #define CLK_CLKDIV4_UART5DIV_Msk (0xful << CLK_CLKDIV4_UART5DIV_Pos) /*!< CLK_T::CLKDIV4: UART5DIV Mask */ #define CLK_CLKDIV4_UART6DIV_Pos (16) /*!< CLK_T::CLKDIV4: UART6DIV Position */ #define CLK_CLKDIV4_UART6DIV_Msk (0xful << CLK_CLKDIV4_UART6DIV_Pos) /*!< CLK_T::CLKDIV4: UART6DIV Mask */ #define CLK_CLKDIV4_UART7DIV_Pos (20) /*!< CLK_T::CLKDIV4: UART7DIV Position */ #define CLK_CLKDIV4_UART7DIV_Msk (0xful << CLK_CLKDIV4_UART7DIV_Pos) /*!< CLK_T::CLKDIV4: UART7DIV Mask */ #define CLK_PCLKDIV_APB0DIV_Pos (0) /*!< CLK_T::PCLKDIV: APB0DIV Position */ #define CLK_PCLKDIV_APB0DIV_Msk (0x7ul << CLK_PCLKDIV_APB0DIV_Pos) /*!< CLK_T::PCLKDIV: APB0DIV Mask */ #define CLK_PCLKDIV_APB1DIV_Pos (4) /*!< CLK_T::PCLKDIV: APB1DIV Position */ #define CLK_PCLKDIV_APB1DIV_Msk (0x7ul << CLK_PCLKDIV_APB1DIV_Pos) /*!< CLK_T::PCLKDIV: APB1DIV Mask */ #define CLK_PLLCTL_FBDIV_Pos (0) /*!< CLK_T::PLLCTL: FBDIV Position */ #define CLK_PLLCTL_FBDIV_Msk (0x1fful << CLK_PLLCTL_FBDIV_Pos) /*!< CLK_T::PLLCTL: FBDIV Mask */ #define CLK_PLLCTL_INDIV_Pos (9) /*!< CLK_T::PLLCTL: INDIV Position */ #define CLK_PLLCTL_INDIV_Msk (0x1ful << CLK_PLLCTL_INDIV_Pos) /*!< CLK_T::PLLCTL: INDIV Mask */ #define CLK_PLLCTL_OUTDIV_Pos (14) /*!< CLK_T::PLLCTL: OUTDIV Position */ #define CLK_PLLCTL_OUTDIV_Msk (0x3ul << CLK_PLLCTL_OUTDIV_Pos) /*!< CLK_T::PLLCTL: OUTDIV Mask */ #define CLK_PLLCTL_PD_Pos (16) /*!< CLK_T::PLLCTL: PD Position */ #define CLK_PLLCTL_PD_Msk (0x1ul << CLK_PLLCTL_PD_Pos) /*!< CLK_T::PLLCTL: PD Mask */ #define CLK_PLLCTL_BP_Pos (17) /*!< CLK_T::PLLCTL: BP Position */ #define CLK_PLLCTL_BP_Msk (0x1ul << CLK_PLLCTL_BP_Pos) /*!< CLK_T::PLLCTL: BP Mask */ #define CLK_PLLCTL_OE_Pos (18) /*!< CLK_T::PLLCTL: OE Position */ #define CLK_PLLCTL_OE_Msk (0x1ul << CLK_PLLCTL_OE_Pos) /*!< CLK_T::PLLCTL: OE Mask */ #define CLK_PLLCTL_PLLSRC_Pos (19) /*!< CLK_T::PLLCTL: PLLSRC Position */ #define CLK_PLLCTL_PLLSRC_Msk (0x1ul << CLK_PLLCTL_PLLSRC_Pos) /*!< CLK_T::PLLCTL: PLLSRC Mask */ #define CLK_PLLCTL_STBSEL_Pos (23) /*!< CLK_T::PLLCTL: STBSEL Position */ #define CLK_PLLCTL_STBSEL_Msk (0x1ul << CLK_PLLCTL_STBSEL_Pos) /*!< CLK_T::PLLCTL: STBSEL Mask */ #define CLK_STATUS_HXTSTB_Pos (0) /*!< CLK_T::STATUS: HXTSTB Position */ #define CLK_STATUS_HXTSTB_Msk (0x1ul << CLK_STATUS_HXTSTB_Pos) /*!< CLK_T::STATUS: HXTSTB Mask */ #define CLK_STATUS_LXTSTB_Pos (1) /*!< CLK_T::STATUS: LXTSTB Position */ #define CLK_STATUS_LXTSTB_Msk (0x1ul << CLK_STATUS_LXTSTB_Pos) /*!< CLK_T::STATUS: LXTSTB Mask */ #define CLK_STATUS_PLLSTB_Pos (2) /*!< CLK_T::STATUS: PLLSTB Position */ #define CLK_STATUS_PLLSTB_Msk (0x1ul << CLK_STATUS_PLLSTB_Pos) /*!< CLK_T::STATUS: PLLSTB Mask */ #define CLK_STATUS_LIRCSTB_Pos (3) /*!< CLK_T::STATUS: LIRCSTB Position */ #define CLK_STATUS_LIRCSTB_Msk (0x1ul << CLK_STATUS_LIRCSTB_Pos) /*!< CLK_T::STATUS: LIRCSTB Mask */ #define CLK_STATUS_HIRCSTB_Pos (4) /*!< CLK_T::STATUS: HIRCSTB Position */ #define CLK_STATUS_HIRCSTB_Msk (0x1ul << CLK_STATUS_HIRCSTB_Pos) /*!< CLK_T::STATUS: HIRCSTB Mask */ #define CLK_STATUS_HIRC48MSTB_Pos (6) /*!< CLK_T::STATUS: HIRC48MSTB Position */ #define CLK_STATUS_HIRC48MSTB_Msk (0x1ul << CLK_STATUS_HIRC48MSTB_Pos) /*!< CLK_T::STATUS: HIRC48MSTB Mask */ #define CLK_STATUS_CLKSFAIL_Pos (7) /*!< CLK_T::STATUS: CLKSFAIL Position */ #define CLK_STATUS_CLKSFAIL_Msk (0x1ul << CLK_STATUS_CLKSFAIL_Pos) /*!< CLK_T::STATUS: CLKSFAIL Mask */ #define CLK_CLKOCTL_FREQSEL_Pos (0) /*!< CLK_T::CLKOCTL: FREQSEL Position */ #define CLK_CLKOCTL_FREQSEL_Msk (0xful << CLK_CLKOCTL_FREQSEL_Pos) /*!< CLK_T::CLKOCTL: FREQSEL Mask */ #define CLK_CLKOCTL_CLKOEN_Pos (4) /*!< CLK_T::CLKOCTL: CLKOEN Position */ #define CLK_CLKOCTL_CLKOEN_Msk (0x1ul << CLK_CLKOCTL_CLKOEN_Pos) /*!< CLK_T::CLKOCTL: CLKOEN Mask */ #define CLK_CLKOCTL_DIV1EN_Pos (5) /*!< CLK_T::CLKOCTL: DIV1EN Position */ #define CLK_CLKOCTL_DIV1EN_Msk (0x1ul << CLK_CLKOCTL_DIV1EN_Pos) /*!< CLK_T::CLKOCTL: DIV1EN Mask */ #define CLK_CLKOCTL_CLK1HZEN_Pos (6) /*!< CLK_T::CLKOCTL: CLK1HZEN Position */ #define CLK_CLKOCTL_CLK1HZEN_Msk (0x1ul << CLK_CLKOCTL_CLK1HZEN_Pos) /*!< CLK_T::CLKOCTL: CLK1HZEN Mask */ #define CLK_CLKDCTL_HXTFDEN_Pos (4) /*!< CLK_T::CLKDCTL: HXTFDEN Position */ #define CLK_CLKDCTL_HXTFDEN_Msk (0x1ul << CLK_CLKDCTL_HXTFDEN_Pos) /*!< CLK_T::CLKDCTL: HXTFDEN Mask */ #define CLK_CLKDCTL_HXTFIEN_Pos (5) /*!< CLK_T::CLKDCTL: HXTFIEN Position */ #define CLK_CLKDCTL_HXTFIEN_Msk (0x1ul << CLK_CLKDCTL_HXTFIEN_Pos) /*!< CLK_T::CLKDCTL: HXTFIEN Mask */ #define CLK_CLKDCTL_LXTFDEN_Pos (12) /*!< CLK_T::CLKDCTL: LXTFDEN Position */ #define CLK_CLKDCTL_LXTFDEN_Msk (0x1ul << CLK_CLKDCTL_LXTFDEN_Pos) /*!< CLK_T::CLKDCTL: LXTFDEN Mask */ #define CLK_CLKDCTL_LXTFIEN_Pos (13) /*!< CLK_T::CLKDCTL: LXTFIEN Position */ #define CLK_CLKDCTL_LXTFIEN_Msk (0x1ul << CLK_CLKDCTL_LXTFIEN_Pos) /*!< CLK_T::CLKDCTL: LXTFIEN Mask */ #define CLK_CLKDCTL_HXTFQDEN_Pos (16) /*!< CLK_T::CLKDCTL: HXTFQDEN Position */ #define CLK_CLKDCTL_HXTFQDEN_Msk (0x1ul << CLK_CLKDCTL_HXTFQDEN_Pos) /*!< CLK_T::CLKDCTL: HXTFQDEN Mask */ #define CLK_CLKDCTL_HXTFQIEN_Pos (17) /*!< CLK_T::CLKDCTL: HXTFQIEN Position */ #define CLK_CLKDCTL_HXTFQIEN_Msk (0x1ul << CLK_CLKDCTL_HXTFQIEN_Pos) /*!< CLK_T::CLKDCTL: HXTFQIEN Mask */ #define CLK_CLKDSTS_HXTFIF_Pos (0) /*!< CLK_T::CLKDSTS: HXTFIF Position */ #define CLK_CLKDSTS_HXTFIF_Msk (0x1ul << CLK_CLKDSTS_HXTFIF_Pos) /*!< CLK_T::CLKDSTS: HXTFIF Mask */ #define CLK_CLKDSTS_LXTFIF_Pos (1) /*!< CLK_T::CLKDSTS: LXTFIF Position */ #define CLK_CLKDSTS_LXTFIF_Msk (0x1ul << CLK_CLKDSTS_LXTFIF_Pos) /*!< CLK_T::CLKDSTS: LXTFIF Mask */ #define CLK_CLKDSTS_HXTFQIF_Pos (8) /*!< CLK_T::CLKDSTS: HXTFQIF Position */ #define CLK_CLKDSTS_HXTFQIF_Msk (0x1ul << CLK_CLKDSTS_HXTFQIF_Pos) /*!< CLK_T::CLKDSTS: HXTFQIF Mask */ #define CLK_CDUPB_UPERBD_Pos (0) /*!< CLK_T::CDUPB: UPERBD Position */ #define CLK_CDUPB_UPERBD_Msk (0x3fful << CLK_CDUPB_UPERBD_Pos) /*!< CLK_T::CDUPB: UPERBD Mask */ #define CLK_CDLOWB_LOWERBD_Pos (0) /*!< CLK_T::CDLOWB: LOWERBD Position */ #define CLK_CDLOWB_LOWERBD_Msk (0x3fful << CLK_CDLOWB_LOWERBD_Pos) /*!< CLK_T::CDLOWB: LOWERBD Mask */ #define CLK_PMUCTL_PDMSEL_Pos (0) /*!< CLK_T::PMUCTL: PDMSEL Position */ #define CLK_PMUCTL_PDMSEL_Msk (0x7ul << CLK_PMUCTL_PDMSEL_Pos) /*!< CLK_T::PMUCTL: PDMSEL Mask */ #define CLK_PMUCTL_DPDHOLDEN_Pos (3) /*!< CLK_T::PMUCTL: DPDHOLDEN Position */ #define CLK_PMUCTL_DPDHOLDEN_Msk (0x1ul << CLK_PMUCTL_DPDHOLDEN_Pos) /*!< CLK_T::PMUCTL: DPDHOLDEN Mask */ #define CLK_PMUCTL_SRETSEL_Pos (4) /*!< CLK_T::PMUCTL: SRETSEL Position */ #define CLK_PMUCTL_SRETSEL_Msk (0x7ul << CLK_PMUCTL_SRETSEL_Pos) /*!< CLK_T::PMUCTL: SRETSEL Mask */ #define CLK_PMUCTL_WKTMREN_Pos (8) /*!< CLK_T::PMUCTL: WKTMREN Position */ #define CLK_PMUCTL_WKTMREN_Msk (0x1ul << CLK_PMUCTL_WKTMREN_Pos) /*!< CLK_T::PMUCTL: WKTMREN Mask */ #define CLK_PMUCTL_WKTMRIS_Pos (9) /*!< CLK_T::PMUCTL: WKTMRIS Position */ #define CLK_PMUCTL_WKTMRIS_Msk (0xful << CLK_PMUCTL_WKTMRIS_Pos) /*!< CLK_T::PMUCTL: WKTMRIS Mask */ #define CLK_PMUCTL_WKPINEN_Pos (16) /*!< CLK_T::PMUCTL: WKPINEN Position */ #define CLK_PMUCTL_WKPINEN_Msk (0x3ul << CLK_PMUCTL_WKPINEN_Pos) /*!< CLK_T::PMUCTL: WKPINEN Mask */ #define CLK_PMUCTL_ACMPSPWK_Pos (18) /*!< CLK_T::PMUCTL: ACMPSPWK Position */ #define CLK_PMUCTL_ACMPSPWK_Msk (0x1ul << CLK_PMUCTL_ACMPSPWK_Pos) /*!< CLK_T::PMUCTL: ACMPSPWK Mask */ #define CLK_PMUCTL_RTCWKEN_Pos (23) /*!< CLK_T::PMUCTL: RTCWKEN Position */ #define CLK_PMUCTL_RTCWKEN_Msk (0x1ul << CLK_PMUCTL_RTCWKEN_Pos) /*!< CLK_T::PMUCTL: RTCWKEN Mask */ #define CLK_PMUCTL_WKPINEN1_Pos (24) /*!< CLK_T::PMUCTL: WKPINEN1 Position */ #define CLK_PMUCTL_WKPINEN1_Msk (0x3ul << CLK_PMUCTL_WKPINEN1_Pos) /*!< CLK_T::PMUCTL: WKPINEN1 Mask */ #define CLK_PMUCTL_WKPINEN2_Pos (26) /*!< CLK_T::PMUCTL: WKPINEN2 Position */ #define CLK_PMUCTL_WKPINEN2_Msk (0x3ul << CLK_PMUCTL_WKPINEN2_Pos) /*!< CLK_T::PMUCTL: WKPINEN2 Mask */ #define CLK_PMUCTL_WKPINEN3_Pos (28) /*!< CLK_T::PMUCTL: WKPINEN3 Position */ #define CLK_PMUCTL_WKPINEN3_Msk (0x3ul << CLK_PMUCTL_WKPINEN3_Pos) /*!< CLK_T::PMUCTL: WKPINEN3 Mask */ #define CLK_PMUCTL_WKPINEN4_Pos (30) /*!< CLK_T::PMUCTL: WKPINEN4 Position */ #define CLK_PMUCTL_WKPINEN4_Msk (0x3ul << CLK_PMUCTL_WKPINEN4_Pos) /*!< CLK_T::PMUCTL: WKPINEN4 Mask */ #define CLK_PMUSTS_PINWK_Pos (0) /*!< CLK_T::PMUSTS: PINWK Position */ #define CLK_PMUSTS_PINWK_Msk (0x1ul << CLK_PMUSTS_PINWK_Pos) /*!< CLK_T::PMUSTS: PINWK Mask */ #define CLK_PMUSTS_TMRWK_Pos (1) /*!< CLK_T::PMUSTS: TMRWK Position */ #define CLK_PMUSTS_TMRWK_Msk (0x1ul << CLK_PMUSTS_TMRWK_Pos) /*!< CLK_T::PMUSTS: TMRWK Mask */ #define CLK_PMUSTS_RTCWK_Pos (2) /*!< CLK_T::PMUSTS: RTCWK Position */ #define CLK_PMUSTS_RTCWK_Msk (0x1ul << CLK_PMUSTS_RTCWK_Pos) /*!< CLK_T::PMUSTS: RTCWK Mask */ #define CLK_PMUSTS_PINWK1_Pos (3) /*!< CLK_T::PMUSTS: PINWK1 Position */ #define CLK_PMUSTS_PINWK1_Msk (0x1ul << CLK_PMUSTS_PINWK1_Pos) /*!< CLK_T::PMUSTS: PINWK1 Mask */ #define CLK_PMUSTS_PINWK2_Pos (4) /*!< CLK_T::PMUSTS: PINWK2 Position */ #define CLK_PMUSTS_PINWK2_Msk (0x1ul << CLK_PMUSTS_PINWK2_Pos) /*!< CLK_T::PMUSTS: PINWK2 Mask */ #define CLK_PMUSTS_PINWK3_Pos (5) /*!< CLK_T::PMUSTS: PINWK3 Position */ #define CLK_PMUSTS_PINWK3_Msk (0x1ul << CLK_PMUSTS_PINWK3_Pos) /*!< CLK_T::PMUSTS: PINWK3 Mask */ #define CLK_PMUSTS_PINWK4_Pos (6) /*!< CLK_T::PMUSTS: PINWK4 Position */ #define CLK_PMUSTS_PINWK4_Msk (0x1ul << CLK_PMUSTS_PINWK4_Pos) /*!< CLK_T::PMUSTS: PINWK4 Mask */ #define CLK_PMUSTS_GPAWK_Pos (8) /*!< CLK_T::PMUSTS: GPAWK Position */ #define CLK_PMUSTS_GPAWK_Msk (0x1ul << CLK_PMUSTS_GPAWK_Pos) /*!< CLK_T::PMUSTS: GPAWK Mask */ #define CLK_PMUSTS_GPBWK_Pos (9) /*!< CLK_T::PMUSTS: GPBWK Position */ #define CLK_PMUSTS_GPBWK_Msk (0x1ul << CLK_PMUSTS_GPBWK_Pos) /*!< CLK_T::PMUSTS: GPBWK Mask */ #define CLK_PMUSTS_GPCWK_Pos (10) /*!< CLK_T::PMUSTS: GPCWK Position */ #define CLK_PMUSTS_GPCWK_Msk (0x1ul << CLK_PMUSTS_GPCWK_Pos) /*!< CLK_T::PMUSTS: GPCWK Mask */ #define CLK_PMUSTS_GPDWK_Pos (11) /*!< CLK_T::PMUSTS: GPDWK Position */ #define CLK_PMUSTS_GPDWK_Msk (0x1ul << CLK_PMUSTS_GPDWK_Pos) /*!< CLK_T::PMUSTS: GPDWK Mask */ #define CLK_PMUSTS_LVRWK_Pos (12) /*!< CLK_T::PMUSTS: LVRWK Position */ #define CLK_PMUSTS_LVRWK_Msk (0x1ul << CLK_PMUSTS_LVRWK_Pos) /*!< CLK_T::PMUSTS: LVRWK Mask */ #define CLK_PMUSTS_BODWK_Pos (13) /*!< CLK_T::PMUSTS: BODWK Position */ #define CLK_PMUSTS_BODWK_Msk (0x1ul << CLK_PMUSTS_BODWK_Pos) /*!< CLK_T::PMUSTS: BODWK Mask */ #define CLK_PMUSTS_ACMPWK_Pos (14) /*!< CLK_T::PMUSTS: ACMPWK Position */ #define CLK_PMUSTS_ACMPWK_Msk (0x1ul << CLK_PMUSTS_ACMPWK_Pos) /*!< CLK_T::PMUSTS: ACMPWK Mask */ #define CLK_PMUSTS_CLRWK_Pos (31) /*!< CLK_T::PMUSTS: CLRWK Position */ #define CLK_PMUSTS_CLRWK_Msk (0x1ul << CLK_PMUSTS_CLRWK_Pos) /*!< CLK_T::PMUSTS: CLRWK Mask */ #define CLK_LDOCTL_PDBIASEN_Pos (18) /*!< CLK_T::LDOCTL: PDBIASEN Position */ #define CLK_LDOCTL_PDBIASEN_Msk (0x1ul << CLK_LDOCTL_PDBIASEN_Pos) /*!< CLK_T::LDOCTL: PDBIASEN Mask */ #define CLK_SWKDBCTL_SWKDBCLKSEL_Pos (0) /*!< CLK_T::SWKDBCTL: SWKDBCLKSEL Position */ #define CLK_SWKDBCTL_SWKDBCLKSEL_Msk (0xful << CLK_SWKDBCTL_SWKDBCLKSEL_Pos) /*!< CLK_T::SWKDBCTL: SWKDBCLKSEL Mask */ #define CLK_PASWKCTL_WKEN_Pos (0) /*!< CLK_T::PASWKCTL: WKEN Position */ #define CLK_PASWKCTL_WKEN_Msk (0x1ul << CLK_PASWKCTL_WKEN_Pos) /*!< CLK_T::PASWKCTL: WKEN Mask */ #define CLK_PASWKCTL_PRWKEN_Pos (1) /*!< CLK_T::PASWKCTL: PRWKEN Position */ #define CLK_PASWKCTL_PRWKEN_Msk (0x1ul << CLK_PASWKCTL_PRWKEN_Pos) /*!< CLK_T::PASWKCTL: PRWKEN Mask */ #define CLK_PASWKCTL_PFWKEN_Pos (2) /*!< CLK_T::PASWKCTL: PFWKEN Position */ #define CLK_PASWKCTL_PFWKEN_Msk (0x1ul << CLK_PASWKCTL_PFWKEN_Pos) /*!< CLK_T::PASWKCTL: PFWKEN Mask */ #define CLK_PASWKCTL_WKPSEL_Pos (4) /*!< CLK_T::PASWKCTL: WKPSEL Position */ #define CLK_PASWKCTL_WKPSEL_Msk (0xful << CLK_PASWKCTL_WKPSEL_Pos) /*!< CLK_T::PASWKCTL: WKPSEL Mask */ #define CLK_PASWKCTL_DBEN_Pos (8) /*!< CLK_T::PASWKCTL: DBEN Position */ #define CLK_PASWKCTL_DBEN_Msk (0x1ul << CLK_PASWKCTL_DBEN_Pos) /*!< CLK_T::PASWKCTL: DBEN Mask */ #define CLK_PBSWKCTL_WKEN_Pos (0) /*!< CLK_T::PBSWKCTL: WKEN Position */ #define CLK_PBSWKCTL_WKEN_Msk (0x1ul << CLK_PBSWKCTL_WKEN_Pos) /*!< CLK_T::PBSWKCTL: WKEN Mask */ #define CLK_PBSWKCTL_PRWKEN_Pos (1) /*!< CLK_T::PBSWKCTL: PRWKEN Position */ #define CLK_PBSWKCTL_PRWKEN_Msk (0x1ul << CLK_PBSWKCTL_PRWKEN_Pos) /*!< CLK_T::PBSWKCTL: PRWKEN Mask */ #define CLK_PBSWKCTL_PFWKEN_Pos (2) /*!< CLK_T::PBSWKCTL: PFWKEN Position */ #define CLK_PBSWKCTL_PFWKEN_Msk (0x1ul << CLK_PBSWKCTL_PFWKEN_Pos) /*!< CLK_T::PBSWKCTL: PFWKEN Mask */ #define CLK_PBSWKCTL_WKPSEL_Pos (4) /*!< CLK_T::PBSWKCTL: WKPSEL Position */ #define CLK_PBSWKCTL_WKPSEL_Msk (0xful << CLK_PBSWKCTL_WKPSEL_Pos) /*!< CLK_T::PBSWKCTL: WKPSEL Mask */ #define CLK_PBSWKCTL_DBEN_Pos (8) /*!< CLK_T::PBSWKCTL: DBEN Position */ #define CLK_PBSWKCTL_DBEN_Msk (0x1ul << CLK_PBSWKCTL_DBEN_Pos) /*!< CLK_T::PBSWKCTL: DBEN Mask */ #define CLK_PCSWKCTL_WKEN_Pos (0) /*!< CLK_T::PCSWKCTL: WKEN Position */ #define CLK_PCSWKCTL_WKEN_Msk (0x1ul << CLK_PCSWKCTL_WKEN_Pos) /*!< CLK_T::PCSWKCTL: WKEN Mask */ #define CLK_PCSWKCTL_PRWKEN_Pos (1) /*!< CLK_T::PCSWKCTL: PRWKEN Position */ #define CLK_PCSWKCTL_PRWKEN_Msk (0x1ul << CLK_PCSWKCTL_PRWKEN_Pos) /*!< CLK_T::PCSWKCTL: PRWKEN Mask */ #define CLK_PCSWKCTL_PFWKEN_Pos (2) /*!< CLK_T::PCSWKCTL: PFWKEN Position */ #define CLK_PCSWKCTL_PFWKEN_Msk (0x1ul << CLK_PCSWKCTL_PFWKEN_Pos) /*!< CLK_T::PCSWKCTL: PFWKEN Mask */ #define CLK_PCSWKCTL_WKPSEL_Pos (4) /*!< CLK_T::PCSWKCTL: WKPSEL Position */ #define CLK_PCSWKCTL_WKPSEL_Msk (0xful << CLK_PCSWKCTL_WKPSEL_Pos) /*!< CLK_T::PCSWKCTL: WKPSEL Mask */ #define CLK_PCSWKCTL_DBEN_Pos (8) /*!< CLK_T::PCSWKCTL: DBEN Position */ #define CLK_PCSWKCTL_DBEN_Msk (0x1ul << CLK_PCSWKCTL_DBEN_Pos) /*!< CLK_T::PCSWKCTL: DBEN Mask */ #define CLK_PDSWKCTL_WKEN_Pos (0) /*!< CLK_T::PDSWKCTL: WKEN Position */ #define CLK_PDSWKCTL_WKEN_Msk (0x1ul << CLK_PDSWKCTL_WKEN_Pos) /*!< CLK_T::PDSWKCTL: WKEN Mask */ #define CLK_PDSWKCTL_PRWKEN_Pos (1) /*!< CLK_T::PDSWKCTL: PRWKEN Position */ #define CLK_PDSWKCTL_PRWKEN_Msk (0x1ul << CLK_PDSWKCTL_PRWKEN_Pos) /*!< CLK_T::PDSWKCTL: PRWKEN Mask */ #define CLK_PDSWKCTL_PFWKEN_Pos (2) /*!< CLK_T::PDSWKCTL: PFWKEN Position */ #define CLK_PDSWKCTL_PFWKEN_Msk (0x1ul << CLK_PDSWKCTL_PFWKEN_Pos) /*!< CLK_T::PDSWKCTL: PFWKEN Mask */ #define CLK_PDSWKCTL_WKPSEL_Pos (4) /*!< CLK_T::PDSWKCTL: WKPSEL Position */ #define CLK_PDSWKCTL_WKPSEL_Msk (0xful << CLK_PDSWKCTL_WKPSEL_Pos) /*!< CLK_T::PDSWKCTL: WKPSEL Mask */ #define CLK_PDSWKCTL_DBEN_Pos (8) /*!< CLK_T::PDSWKCTL: DBEN Position */ #define CLK_PDSWKCTL_DBEN_Msk (0x1ul << CLK_PDSWKCTL_DBEN_Pos) /*!< CLK_T::PDSWKCTL: DBEN Mask */ #define CLK_IOPDCTL_IOHR_Pos (0) /*!< CLK_T::IOPDCTL: IOHR Position */ #define CLK_IOPDCTL_IOHR_Msk (0x1ul << CLK_IOPDCTL_IOHR_Pos) /*!< CLK_T::IOPDCTL: IOHR Mask */ /**@}*/ /* CLK_CONST */ /**@}*/ /* end of CLK register group */ /**@}*/ /* end of REGISTER group */ #if defined ( __CC_ARM ) #pragma no_anon_unions #endif #endif /* __CLK_REG_H__ */