- fix F411 F334 systeminit when HSI used - portinout always read IDR regardless of port direction
Fork of mbed-src by
targets/cmsis/TARGET_NXP/TARGET_LPC15XX/LPC15xx.h
- Committer:
- Geremia
- Date:
- 2014-09-27
- Revision:
- 332:e299ae530e63
- Parent:
- 245:b4dea936db71
File content as of revision 332:e299ae530e63:
/****************************************************************************************************//** * @file LPC15xx.h * * @brief CMSIS Cortex-M3 Peripheral Access Layer Header File for * LPC15xx from . * * @version V0.3 * @date 17. July 2013 * * @note Generated with SVDConv V2.80 * from CMSIS SVD File 'H2_v0.3.svd' Version 0.3, * * modified by Keil * modified by ytsuboi *******************************************************************************************************/ /** @addtogroup (null) * @{ */ /** @addtogroup LPC15xx * @{ */ #ifndef LPC15XX_H #define LPC15XX_H #ifdef __cplusplus extern "C" { #endif /* ------------------------- Interrupt Number Definition ------------------------ */ typedef enum { /* ------------------- Cortex-M3 Processor Exceptions Numbers ------------------- */ Reset_IRQn = -15, /*!< 1 Reset Vector, invoked on Power up and warm reset */ NonMaskableInt_IRQn = -14, /*!< 2 Non maskable Interrupt, cannot be stopped or preempted */ HardFault_IRQn = -13, /*!< 3 Hard Fault, all classes of Fault */ MemoryManagement_IRQn = -12, /*!< 4 Memory Management, MPU mismatch, including Access Violation and No Match */ BusFault_IRQn = -11, /*!< 5 Bus Fault, Pre-Fetch-, Memory Access Fault, other address/memory related Fault */ UsageFault_IRQn = -10, /*!< 6 Usage Fault, i.e. Undef Instruction, Illegal State Transition */ SVCall_IRQn = -5, /*!< 11 System Service Call via SVC instruction */ DebugMonitor_IRQn = -4, /*!< 12 Debug Monitor */ PendSV_IRQn = -2, /*!< 14 Pendable request for system service */ SysTick_IRQn = -1, /*!< 15 System Tick Timer */ /* --------------------- LPC15xx Specific Interrupt Numbers --------------------- */ WDT_IRQn = 0, /*!< 0 WDT */ BOD_IRQn = 1, /*!< 1 BOD */ FLASH_IRQn = 2, /*!< 2 FLASH */ EE_IRQn = 3, /*!< 3 EE */ DMA_IRQn = 4, /*!< 4 DMA */ GINT0_IRQn = 5, /*!< 5 GINT0 */ GINT1_IRQn = 6, /*!< 6 GINT1 */ PIN_INT0_IRQn = 7, /*!< 7 PIN_INT0 */ PIN_INT1_IRQn = 8, /*!< 8 PIN_INT1 */ PIN_INT2_IRQn = 9, /*!< 9 PIN_INT2 */ PIN_INT3_IRQn = 10, /*!< 10 PIN_INT3 */ PIN_INT4_IRQn = 11, /*!< 11 PIN_INT4 */ PIN_INT5_IRQn = 12, /*!< 12 PIN_INT5 */ PIN_INT6_IRQn = 13, /*!< 13 PIN_INT6 */ PIN_INT7_IRQn = 14, /*!< 14 PIN_INT7 */ RIT_IRQn = 15, /*!< 15 RIT */ SCT0_IRQn = 16, /*!< 16 SCT0 */ SCT1_IRQn = 17, /*!< 17 SCT1 */ SCT2_IRQn = 18, /*!< 18 SCT2 */ SCT3_IRQn = 19, /*!< 19 SCT3 */ MRT_IRQn = 20, /*!< 20 MRT */ UART0_IRQn = 21, /*!< 21 UART0 */ UART1_IRQn = 22, /*!< 22 UART1 */ UART2_IRQn = 23, /*!< 23 UART2 */ I2C0_IRQn = 24, /*!< 24 I2C0 */ SPI0_IRQn = 25, /*!< 25 SPI0 */ SPI1_IRQn = 26, /*!< 26 SPI1 */ C_CAN0_IRQn = 27, /*!< 27 C_CAN0 */ USB_IRQ_IRQn = 28, /*!< 28 USB_IRQ */ USB_FIQ_IRQn = 29, /*!< 29 USB_FIQ */ USBWAKEUP_IRQn = 30, /*!< 30 USBWAKEUP */ ADC0_SEQA_IRQn = 31, /*!< 31 ADC0_SEQA */ ADC0_SEQB_IRQn = 32, /*!< 32 ADC0_SEQB */ ADC0_THCMP_IRQn = 33, /*!< 33 ADC0_THCMP */ ADC0_OVR_IRQn = 34, /*!< 34 ADC0_OVR */ ADC1_SEQA_IRQn = 35, /*!< 35 ADC1_SEQA */ ADC1_SEQB_IRQn = 36, /*!< 36 ADC1_SEQB */ ADC1_THCMP_IRQn = 37, /*!< 37 ADC1_THCMP */ ADC1_OVR_IRQn = 38, /*!< 38 ADC1_OVR */ DAC_IRQn = 39, /*!< 39 DAC */ CMP0_IRQn = 40, /*!< 40 CMP0 */ CMP1_IRQn = 41, /*!< 41 CMP1 */ CMP2_IRQn = 42, /*!< 42 CMP2 */ CMP3_IRQn = 43, /*!< 43 CMP3 */ QEI_IRQn = 44, /*!< 44 QEI */ RTC_ALARM_IRQn = 45, /*!< 45 RTC_ALARM */ RTC_WAKE_IRQn = 46 /*!< 46 RTC_WAKE */ } IRQn_Type; /** @addtogroup Configuration_of_CMSIS * @{ */ /* ================================================================================ */ /* ================ Processor and Core Peripheral Section ================ */ /* ================================================================================ */ /* ----------------Configuration of the Cortex-M3 Processor and Core Peripherals---------------- */ #define __CM3_REV 0x0201 /*!< Cortex-M3 Core Revision */ #define __MPU_PRESENT 0 /*!< MPU present or not */ #define __NVIC_PRIO_BITS 3 /*!< Number of Bits used for Priority Levels */ #define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */ /** @} */ /* End of group Configuration_of_CMSIS */ #include "core_cm3.h" /*!< Cortex-M3 processor and core peripherals */ #include "system_LPC15xx.h" /*!< LPC15xx System */ /* ================================================================================ */ /* ================ Device Specific Peripheral Section ================ */ /* ================================================================================ */ /** @addtogroup Device_Peripheral_Registers * @{ */ /* ------------------- Start of section using anonymous unions ------------------ */ #if defined(__CC_ARM) #pragma push #pragma anon_unions #elif defined(__ICCARM__) #pragma language=extended #elif defined(__GNUC__) /* anonymous unions are enabled by default */ #elif defined(__TMS470__) /* anonymous unions are enabled by default */ #elif defined(__TASKING__) #pragma warning 586 #else #warning Not supported compiler type #endif /* ================================================================================ */ /* ================ GPIO_PORT ================ */ /* ================================================================================ */ /** * @brief General Purpose I/O (GPIO) (GPIO_PORT) */ typedef struct { /*!< GPIO_PORT Structure */ __IO uint8_t B[76]; /*!< Byte pin registers */ __I uint32_t RESERVED0[45]; __IO uint32_t W[76]; /*!< Word pin registers */ __I uint32_t RESERVED1[1908]; __IO uint32_t DIR[3]; /*!< Port Direction registers */ __I uint32_t RESERVED2[29]; __IO uint32_t MASK[3]; /*!< Port Mask register */ __I uint32_t RESERVED3[29]; __IO uint32_t PIN[3]; /*!< Port pin register */ __I uint32_t RESERVED4[29]; __IO uint32_t MPIN[3]; /*!< Masked port register */ __I uint32_t RESERVED5[29]; __IO uint32_t SET[3]; /*!< Write: Set port register Read: port output bits */ __I uint32_t RESERVED6[29]; __O uint32_t CLR[3]; /*!< Clear port */ __I uint32_t RESERVED7[29]; __O uint32_t NOT[3]; /*!< Toggle port */ } LPC_GPIO_PORT_Type; /* ================================================================================ */ /* ================ DMA ================ */ /* ================================================================================ */ /** * @brief DMA controller (DMA) */ typedef struct { /*!< DMA Structure */ __IO uint32_t CTRL; /*!< DMA control. */ __I uint32_t INTSTAT; /*!< Interrupt status. */ __IO uint32_t SRAMBASE; /*!< SRAM address of the channel configuration table. */ __I uint32_t RESERVED0[5]; __IO uint32_t ENABLESET0; /*!< Channel Enable read and Set for all DMA channels. */ __I uint32_t RESERVED1; __O uint32_t ENABLECLR0; /*!< Channel Enable Clear for all DMA channels. */ __I uint32_t RESERVED2; __I uint32_t ACTIVE0; /*!< Channel Active status for all DMA channels. */ __I uint32_t RESERVED3; __I uint32_t BUSY0; /*!< Channel Busy status for all DMA channels. */ __I uint32_t RESERVED4; __IO uint32_t ERRINT0; /*!< Error Interrupt status for all DMA channels. */ __I uint32_t RESERVED5; __IO uint32_t INTENSET0; /*!< Interrupt Enable read and Set for all DMA channels. */ __I uint32_t RESERVED6; __O uint32_t INTENCLR0; /*!< Interrupt Enable Clear for all DMA channels. */ __I uint32_t RESERVED7; __IO uint32_t INTA0; /*!< Interrupt A status for all DMA channels. */ __I uint32_t RESERVED8; __IO uint32_t INTB0; /*!< Interrupt B status for all DMA channels. */ __I uint32_t RESERVED9; __O uint32_t SETVALID0; /*!< Set ValidPending control bits for all DMA channels. */ __I uint32_t RESERVED10; __O uint32_t SETTRIG0; /*!< Set Trigger control bits for all DMA channels. */ __I uint32_t RESERVED11; __O uint32_t ABORT0; /*!< Channel Abort control for all DMA channels. */ __I uint32_t RESERVED12[225]; __IO uint32_t CFG0; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT0; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG0; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED13; __IO uint32_t CFG1; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT1; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG1; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED14; __IO uint32_t CFG2; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT2; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG2; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED15; __IO uint32_t CFG3; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT3; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG3; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED16; __IO uint32_t CFG4; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT4; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG4; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED17; __IO uint32_t CFG5; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT5; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG5; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED18; __IO uint32_t CFG6; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT6; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG6; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED19; __IO uint32_t CFG7; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT7; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG7; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED20; __IO uint32_t CFG8; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT8; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG8; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED21; __IO uint32_t CFG9; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT9; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG9; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED22; __IO uint32_t CFG10; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT10; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG10; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED23; __IO uint32_t CFG11; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT11; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG11; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED24; __IO uint32_t CFG12; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT12; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG12; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED25; __IO uint32_t CFG13; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT13; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG13; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED26; __IO uint32_t CFG14; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT14; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG14; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED27; __IO uint32_t CFG15; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT15; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG15; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED28; __IO uint32_t CFG16; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT16; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG16; /*!< Transfer configuration register for DMA channel 0. */ __I uint32_t RESERVED29; __IO uint32_t CFG17; /*!< Configuration register for DMA channel 0. */ __I uint32_t CTLSTAT17; /*!< Control and status register for DMA channel 0. */ __IO uint32_t XFERCFG17; /*!< Transfer configuration register for DMA channel 0. */ } LPC_DMA_Type; /* ================================================================================ */ /* ================ USB ================ */ /* ================================================================================ */ /** * @brief USB device controller (USB) */ typedef struct { /*!< USB Structure */ __IO uint32_t DEVCMDSTAT; /*!< USB Device Command/Status register */ __IO uint32_t INFO; /*!< USB Info register */ __IO uint32_t EPLISTSTART; /*!< USB EP Command/Status List start address */ __IO uint32_t DATABUFSTART; /*!< USB Data buffer start address */ __IO uint32_t LPM; /*!< Link Power Management register */ __IO uint32_t EPSKIP; /*!< USB Endpoint skip */ __IO uint32_t EPINUSE; /*!< USB Endpoint Buffer in use */ __IO uint32_t EPBUFCFG; /*!< USB Endpoint Buffer Configuration register */ __IO uint32_t INTSTAT; /*!< USB interrupt status register */ __IO uint32_t INTEN; /*!< USB interrupt enable register */ __IO uint32_t INTSETSTAT; /*!< USB set interrupt status register */ __IO uint32_t INTROUTING; /*!< USB interrupt routing register */ __I uint32_t RESERVED0; __I uint32_t EPTOGGLE; /*!< USB Endpoint toggle register */ } LPC_USB_Type; /* ================================================================================ */ /* ================ CRC ================ */ /* ================================================================================ */ /** * @brief Cyclic Redundancy Check (CRC) engine (CRC) */ typedef struct { /*!< CRC Structure */ __IO uint32_t MODE; /*!< CRC mode register */ __IO uint32_t SEED; /*!< CRC seed register */ union { __O uint32_t WR_DATA; /*!< CRC data register */ __I uint32_t SUM; /*!< CRC checksum register */ }; } LPC_CRC_Type; /* ================================================================================ */ /* ================ SCT0 ================ */ /* ================================================================================ */ /** * @brief Large State Configurable Timers 0/1 (SCT0/1) (SCT0) */ typedef struct { /*!< SCT0 Structure */ __IO uint32_t CONFIG; /*!< SCT configuration register */ __IO uint32_t CTRL; /*!< SCT control register */ __IO uint32_t LIMIT; /*!< SCT limit register */ __IO uint32_t HALT; /*!< SCT halt condition register */ __IO uint32_t STOP; /*!< SCT stop condition register */ __IO uint32_t START; /*!< SCT start condition register */ __IO uint32_t DITHER; /*!< SCT dither condition register */ __I uint32_t RESERVED0[9]; __IO uint32_t COUNT; /*!< SCT counter register */ __IO uint32_t STATE; /*!< SCT state register */ __I uint32_t INPUT; /*!< SCT input register */ __IO uint32_t REGMODE; /*!< SCT match/capture registers mode register */ __IO uint32_t OUTPUT; /*!< SCT output register */ __IO uint32_t OUTPUTDIRCTRL; /*!< SCT output counter direction control register */ __IO uint32_t RES; /*!< SCT conflict resolution register */ __IO uint32_t DMAREQ0; /*!< SCT DMA request 0 register */ __IO uint32_t DMAREQ1; /*!< SCT DMA request 1 register */ __I uint32_t RESERVED1[35]; __IO uint32_t EVEN; /*!< SCT event enable register */ __IO uint32_t EVFLAG; /*!< SCT event flag register */ __IO uint32_t CONEN; /*!< SCT conflict enable register */ __IO uint32_t CONFLAG; /*!< SCT conflict flag register */ union { __I uint32_t CAP0; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH0; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __I uint32_t CAP1; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH1; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __I uint32_t CAP2; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH2; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __I uint32_t CAP3; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH3; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __I uint32_t CAP4; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH4; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __I uint32_t CAP5; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH5; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __I uint32_t CAP6; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH6; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __IO uint32_t MATCH7; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP7; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; union { __I uint32_t CAP8; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH8; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __IO uint32_t MATCH9; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP9; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCH10; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP10; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCH11; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP11; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCH12; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP12; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCH13; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP13; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; union { __I uint32_t CAP14; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ __IO uint32_t MATCH14; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ }; union { __IO uint32_t MATCH15; /*!< SCT match value register of match channels 0 to 15; REGMOD0 to REGMODE15 = 0 */ __I uint32_t CAP15; /*!< SCT capture register of capture channel 0 to 15; REGMOD0 to REGMODE15 = 1 */ }; __IO uint32_t FRACMAT0; /*!< Fractional match registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMAT1; /*!< Fractional match registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMAT2; /*!< Fractional match registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMAT3; /*!< Fractional match registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMAT4; /*!< Fractional match registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMAT5; /*!< Fractional match registers 0 to 5 for SCT match value registers 0 to 5. */ __I uint32_t RESERVED2[42]; union { __IO uint32_t CAPCTRL0; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL0; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t MATCHREL1; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ __IO uint32_t CAPCTRL1; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCHREL2; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ __IO uint32_t CAPCTRL2; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ }; union { __IO uint32_t CAPCTRL3; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL3; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t CAPCTRL4; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL4; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t CAPCTRL5; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL5; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t MATCHREL6; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ __IO uint32_t CAPCTRL6; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCHREL7; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ __IO uint32_t CAPCTRL7; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ }; union { __IO uint32_t CAPCTRL8; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL8; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t CAPCTRL9; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL9; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t CAPCTRL10; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL10; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t CAPCTRL11; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL11; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t MATCHREL12; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ __IO uint32_t CAPCTRL12; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ }; union { __IO uint32_t MATCHREL13; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ __IO uint32_t CAPCTRL13; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ }; union { __IO uint32_t CAPCTRL14; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL14; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; union { __IO uint32_t CAPCTRL15; /*!< SCT capture control register 0 to 15; REGMOD0 = 1 to REGMODE15 = 1 */ __IO uint32_t MATCHREL15; /*!< SCT match reload value register 0 to 15; REGMOD0 = 0 to REGMODE15 = 0 */ }; __IO uint32_t FRACMATREL0; /*!< Fractional match reload registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMATREL1; /*!< Fractional match reload registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMATREL2; /*!< Fractional match reload registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMATREL3; /*!< Fractional match reload registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMATREL4; /*!< Fractional match reload registers 0 to 5 for SCT match value registers 0 to 5. */ __IO uint32_t FRACMATREL5; /*!< Fractional match reload registers 0 to 5 for SCT match value registers 0 to 5. */ __I uint32_t RESERVED3[42]; __IO uint32_t EV0_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV0_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV1_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV1_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV2_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV2_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV3_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV3_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV4_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV4_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV5_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV5_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV6_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV6_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV7_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV7_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV8_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV8_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV9_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV9_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV10_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV10_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV11_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV11_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV12_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV12_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV13_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV13_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV14_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV14_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV15_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV15_CTRL; /*!< SCT event control register 0 */ __I uint32_t RESERVED4[96]; __IO uint32_t OUT0_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT0_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT1_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT1_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT2_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT2_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT3_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT3_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT4_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT4_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT5_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT5_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT6_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT6_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT7_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT7_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT8_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT8_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT9_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT9_CLR; /*!< SCT output 0 clear register */ } LPC_SCT0_Type; /* ================================================================================ */ /* ================ SCT2 ================ */ /* ================================================================================ */ /** * @brief Small State Configurable Timers 2/3 (SCT2/3) (SCT2) */ typedef struct { /*!< SCT2 Structure */ __IO uint32_t CONFIG; /*!< SCT configuration register */ __IO uint32_t CTRL; /*!< SCT control register */ __IO uint32_t LIMIT; /*!< SCT limit register */ __IO uint32_t HALT; /*!< SCT halt condition register */ __IO uint32_t STOP; /*!< SCT stop condition register */ __IO uint32_t START; /*!< SCT start condition register */ __I uint32_t RESERVED0[10]; __IO uint32_t COUNT; /*!< SCT counter register */ __IO uint32_t STATE; /*!< SCT state register */ __I uint32_t INPUT; /*!< SCT input register */ __IO uint32_t REGMODE; /*!< SCT match/capture registers mode register */ __IO uint32_t OUTPUT; /*!< SCT output register */ __IO uint32_t OUTPUTDIRCTRL; /*!< SCT output counter direction control register */ __IO uint32_t RES; /*!< SCT conflict resolution register */ __IO uint32_t DMAREQ0; /*!< SCT DMA request 0 register */ __IO uint32_t DMAREQ1; /*!< SCT DMA request 1 register */ __I uint32_t RESERVED1[35]; __IO uint32_t EVEN; /*!< SCT event enable register */ __IO uint32_t EVFLAG; /*!< SCT event flag register */ __IO uint32_t CONEN; /*!< SCT conflict enable register */ __IO uint32_t CONFLAG; /*!< SCT conflict flag register */ union { __I uint32_t CAP0; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ __IO uint32_t MATCH0; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ }; union { __I uint32_t CAP1; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ __IO uint32_t MATCH1; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ }; union { __I uint32_t CAP2; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ __IO uint32_t MATCH2; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ }; union { __IO uint32_t MATCH3; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ __I uint32_t CAP3; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ }; union { __I uint32_t CAP4; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ __IO uint32_t MATCH4; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ }; union { __IO uint32_t MATCH5; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ __I uint32_t CAP5; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ }; union { __I uint32_t CAP6; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ __IO uint32_t MATCH6; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ }; union { __I uint32_t CAP7; /*!< SCT capture register of capture channel 0 to 7; REGMOD0 to REGMODE7 = 1 */ __IO uint32_t MATCH7; /*!< SCT match value register of match channels 0 to 7; REGMOD0 to REGMODE7 = 0 */ }; __I uint32_t RESERVED2[56]; union { __IO uint32_t CAPCTRL0; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ __IO uint32_t MATCHREL0; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ }; union { __IO uint32_t CAPCTRL1; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ __IO uint32_t MATCHREL1; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ }; union { __IO uint32_t CAPCTRL2; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ __IO uint32_t MATCHREL2; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ }; union { __IO uint32_t MATCHREL3; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ __IO uint32_t CAPCTRL3; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ }; union { __IO uint32_t CAPCTRL4; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ __IO uint32_t MATCHREL4; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ }; union { __IO uint32_t MATCHREL5; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ __IO uint32_t CAPCTRL5; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ }; union { __IO uint32_t CAPCTRL6; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ __IO uint32_t MATCHREL6; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ }; union { __IO uint32_t CAPCTRL7; /*!< SCT capture control register 0 to 7; REGMOD0 = 1 to REGMODE7 = 1 */ __IO uint32_t MATCHREL7; /*!< SCT match reload value register 0 to 7; REGMOD0 = 0 to REGMODE7 = 0 */ }; __I uint32_t RESERVED3[56]; __IO uint32_t EV0_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV0_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV1_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV1_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV2_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV2_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV3_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV3_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV4_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV4_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV5_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV5_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV6_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV6_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV7_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV7_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV8_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV8_CTRL; /*!< SCT event control register 0 */ __IO uint32_t EV9_STATE; /*!< SCT event state register 0 */ __IO uint32_t EV9_CTRL; /*!< SCT event control register 0 */ __I uint32_t RESERVED4[108]; __IO uint32_t OUT0_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT0_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT1_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT1_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT2_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT2_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT3_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT3_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT4_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT4_CLR; /*!< SCT output 0 clear register */ __IO uint32_t OUT5_SET; /*!< SCT output 0 set register */ __IO uint32_t OUT5_CLR; /*!< SCT output 0 clear register */ } LPC_SCT2_Type; /* ================================================================================ */ /* ================ ADC0 ================ */ /* ================================================================================ */ /** * @brief 12-bit ADC controller ADC0/1 (ADC0) */ typedef struct { /*!< ADC0 Structure */ __IO uint32_t CTRL; /*!< A/D Control Register. Contains the clock divide value, enable bits for each sequence and the A/D power-down bit. */ __IO uint32_t INSEL; /*!< A/D Input Select Register: Selects between external pin and internal source for various channels */ __IO uint32_t SEQA_CTRL; /*!< A/D Conversion Sequence-A control Register: Controls triggering and channel selection for conversion sequence-A. Also specifies interrupt mode for sequence-A. */ __IO uint32_t SEQB_CTRL; /*!< A/D Conversion Sequence-B Control Register: Controls triggering and channel selection for conversion sequence-B. Also specifies interrupt mode for sequence-B. */ __IO uint32_t SEQA_GDAT; /*!< A/D Sequence-A Global Data Register. This register contains the result of the most recent A/D conversion performed under sequence-A */ __IO uint32_t SEQB_GDAT; /*!< A/D Sequence-B Global Data Register. This register contains the result of the most recent A/D conversion performed under sequence-B */ __I uint32_t RESERVED0[2]; __I uint32_t DAT[12]; /*!< A/D Channel 0 Data Register. This register contains the result of the most recent conversion completed on channel 0. */ __IO uint32_t THR0_LOW; /*!< A/D Low Compare Threshold Register 0 : Contains the lower threshold level for automatic threshold comparison for any channels linked to threshold pair 0. */ __IO uint32_t THR1_LOW; /*!< A/D Low Compare Threshold Register 1: Contains the lower threshold level for automatic threshold comparison for any channels linked to threshold pair 1. */ __IO uint32_t THR0_HIGH; /*!< A/D High Compare Threshold Register 0: Contains the upper threshold level for automatic threshold comparison for any channels linked to threshold pair 0. */ __IO uint32_t THR1_HIGH; /*!< A/D High Compare Threshold Register 1: Contains the upper threshold level for automatic threshold comparison for any channels linked to threshold pair 1. */ __I uint32_t CHAN_THRSEL; /*!< A/D Channel-Threshold Select Register. Specifies which set of threshold compare registers are to be used for each channel */ __IO uint32_t INTEN; /*!< A/D Interrupt Enable Register. This register contains enable bits that enable the sequence-A, sequence-B, threshold compare and data overrun interrupts to be generated. */ __I uint32_t FLAGS; /*!< A/D Flags Register. Contains the four interrupt request flags and the individual component overrun and threshold-compare flags. (The overrun bits replicate information stored in the result registers). */ __IO uint32_t TRM; /*!< ADC trim register. */ } LPC_ADC0_Type; /* ================================================================================ */ /* ================ DAC ================ */ /* ================================================================================ */ /** * @brief 12-bit DAC Modification (DAC) */ typedef struct { /*!< DAC Structure */ __IO uint32_t VAL; /*!< D/A Converter Value Register. This register contains the digital value to be converted to analog. */ __IO uint32_t CTRL; /*!< DAC Control register. This register contains bits to configure DAC operation and the interrupt/dma request flag. */ __IO uint32_t CNTVAL; /*!< DAC Counter Value register. This register contains the reload value for the internal DAC DMA/Interrupt timer. */ } LPC_DAC_Type; /* ================================================================================ */ /* ================ ACMP ================ */ /* ================================================================================ */ /** * @brief Analog comparators ACMP0/1/2/3 (ACMP) */ typedef struct { /*!< ACMP Structure */ __IO uint32_t CTRL; /*!< Comparator block control register */ __IO uint32_t CMP0; /*!< Comparator 0 source control */ __IO uint32_t CMPFILTR0; /*!< Comparator 0 pin filter set-up */ __IO uint32_t CMP1; /*!< Comparator 1 source control */ __IO uint32_t CMPFILTR1; /*!< Comparator 0 pin filter set-up */ __IO uint32_t CMP2; /*!< Comparator 2 source control */ __IO uint32_t CMPFILTR2; /*!< Comparator 0 pin filter set-up */ __IO uint32_t CMP3; /*!< Comparator 3 source control */ __IO uint32_t CMPFILTR3; /*!< Comparator 0 pin filter set-up */ } LPC_ACMP_Type; /* ================================================================================ */ /* ================ INMUX ================ */ /* ================================================================================ */ /** * @brief Input multiplexing (INMUX) (INMUX) */ typedef struct { /*!< INMUX Structure */ __IO uint32_t SCT0_INMUX[7]; /*!< Pinmux register for SCT0 input 0 */ __I uint32_t RESERVED0; __IO uint32_t SCT1_INMUX[7]; /*!< Pinmux register for SCT1 input 0 */ __I uint32_t RESERVED1; __IO uint32_t SCT2_INMUX[3]; /*!< Pinmux register for SCT2 input 0 */ __I uint32_t RESERVED2[5]; __IO uint32_t SCT3_INMUX[3]; /*!< Pinmux register for SCT3 input 0 */ __I uint32_t RESERVED3[21]; __IO uint32_t PINTSEL[8]; /*!< Pin interrupt select register 0 */ __IO uint32_t DMA_ITRIG_INMUX[18]; /*!< Trigger input for DMA channel 0 select register. */ __I uint32_t RESERVED4[14]; __IO uint32_t FREQMEAS_REF; /*!< Clock selection for frequency measurement function reference clock */ __IO uint32_t FREQMEAS_TARGET; /*!< Clock selection for frequency measurement function target clock */ } LPC_INMUX_Type; /* ================================================================================ */ /* ================ RTC ================ */ /* ================================================================================ */ /** * @brief Real-Time Clock (RTC) (RTC) */ typedef struct { /*!< RTC Structure */ __IO uint32_t CTRL; /*!< RTC control register */ __IO uint32_t MATCH; /*!< RTC match register */ __IO uint32_t COUNT; /*!< RTC counter register */ __IO uint32_t WAKE; /*!< RTC high-resolution/wake-up timer control register */ } LPC_RTC_Type; /* ================================================================================ */ /* ================ WWDT ================ */ /* ================================================================================ */ /** * @brief Windowed Watchdog Timer (WWDT) (WWDT) */ typedef struct { /*!< WWDT Structure */ __IO uint32_t MOD; /*!< Watchdog mode register. This register contains the basic mode and status of the Watchdog Timer. */ __IO uint32_t TC; /*!< Watchdog timer constant register. This 24-bit register determines the time-out value. */ __O uint32_t FEED; /*!< Watchdog feed sequence register. Writing 0xAA followed by 0x55 to this register reloads the Watchdog timer with the value contained in WDTC. */ __I uint32_t TV; /*!< Watchdog timer value register. This 24-bit register reads out the current value of the Watchdog timer. */ __I uint32_t RESERVED0; __IO uint32_t WARNINT; /*!< Watchdog Warning Interrupt compare value. */ __IO uint32_t WINDOW; /*!< Watchdog Window compare value. */ } LPC_WWDT_Type; /* ================================================================================ */ /* ================ SWM ================ */ /* ================================================================================ */ /** * @brief Switch Matrix (SWM) (SWM) */ typedef struct { /*!< SWM Structure */ union { __IO uint32_t PINASSIGN[16]; struct { __IO uint32_t PINASSIGN0; /*!< Pin assign register 0. Assign movable functions U0_TXD, U0_RXD, U0_RTS, U0_CTS. */ __IO uint32_t PINASSIGN1; /*!< Pin assign register 1. Assign movable functions U0_SCLK, U1_TXD, U1_RXD, U1_RTS. */ __IO uint32_t PINASSIGN2; /*!< Pin assign register 2. Assign movable functions U1_CTS, U1_SCLK, U2_TXD, U2_RXD. */ __IO uint32_t PINASSIGN3; /*!< Pin assign register 3. Assign movable function . */ __IO uint32_t PINASSIGN4; /*!< Pin assign register 4. Assign movable functions */ __IO uint32_t PINASSIGN5; /*!< Pin assign register 5. Assign movable functions */ __IO uint32_t PINASSIGN6; /*!< Pin assign register 6. Assign movable functions */ __IO uint32_t PINASSIGN7; /*!< Pin assign register 7. Assign movable functions */ __IO uint32_t PINASSIGN8; /*!< Pin assign register 8. Assign movable functions */ __IO uint32_t PINASSIGN9; /*!< Pin assign register 9. Assign movable functions */ __IO uint32_t PINASSIGN10; /*!< Pin assign register 10. Assign movable functions */ __IO uint32_t PINASSIGN11; /*!< Pin assign register 11. Assign movable functions */ __IO uint32_t PINASSIGN12; /*!< Pin assign register 12. Assign movable functions */ __IO uint32_t PINASSIGN13; /*!< Pin assign register 13. Assign movable functions */ __IO uint32_t PINASSIGN14; /*!< Pin assign register 14. Assign movable functions */ __IO uint32_t PINASSIGN15; /*!< Pin assign register 15. Assign movable functions */ }; }; __I uint32_t RESERVED0[96]; __IO uint32_t PINENABLE0; /*!< Pin enable register 0. Enables fixed-pin functions */ __IO uint32_t PINENABLE1; /*!< Pin enable register 0. Enables fixed-pin functions */ } LPC_SWM_Type; /* ================================================================================ */ /* ================ PMU ================ */ /* ================================================================================ */ /** * @brief Power Management Unit (PMU) (PMU) */ typedef struct { /*!< PMU Structure */ __IO uint32_t PCON; /*!< Power control register */ __IO uint32_t GPREG0; /*!< General purpose register 0 */ __IO uint32_t GPREG1; /*!< General purpose register 0 */ __IO uint32_t GPREG2; /*!< General purpose register 0 */ __IO uint32_t GPREG3; /*!< General purpose register 0 */ __IO uint32_t DPDCTRL; /*!< Deep power-down control register */ } LPC_PMU_Type; /* ================================================================================ */ /* ================ USART0 ================ */ /* ================================================================================ */ /** * @brief USART0 (USART0) */ typedef struct { /*!< USART0 Structure */ __IO uint32_t CFG; /*!< USART Configuration register. Basic USART configuration settings that typically are not changed during operation. */ __IO uint32_t CTRL; /*!< USART Control register. USART control settings that are more likely to change during operation. */ __IO uint32_t STAT; /*!< USART Status register. The complete status value can be read here. Writing ones clears some bits in the register. Some bits can be cleared by writing a 1 to them. */ __IO uint32_t INTENSET; /*!< Interrupt Enable read and Set register. Contains an individual interrupt enable bit for each potential USART interrupt. A complete value may be read from this register. Writing a 1 to any implemented bit position causes that bit to be set. */ __O uint32_t INTENCLR; /*!< Interrupt Enable Clear register. Allows clearing any combination of bits in the INTENSET register. Writing a 1 to any implemented bit position causes the corresponding bit to be cleared. */ __I uint32_t RXDATA; /*!< Receiver Data register. Contains the last character received. */ __I uint32_t RXDATASTAT; /*!< Receiver Data with Status register. Combines the last character received with the current USART receive status. Allows DMA or software to recover incoming data and status together. */ __IO uint32_t TXDATA; /*!< Transmit Data register. Data to be transmitted is written here. */ __IO uint32_t BRG; /*!< Baud Rate Generator register. 16-bit integer baud rate divisor value. */ __I uint32_t INTSTAT; /*!< Interrupt status register. Reflects interrupts that are currently enabled. */ } LPC_USART0_Type; /* ================================================================================ */ /* ================ SPI0 ================ */ /* ================================================================================ */ /** * @brief SPI0 (SPI0) */ typedef struct { /*!< SPI0 Structure */ __IO uint32_t CFG; /*!< SPI Configuration register */ __IO uint32_t DLY; /*!< SPI Delay register */ __IO uint32_t STAT; /*!< SPI Status. Some status flags can be cleared by writing a 1 to that bit position */ __IO uint32_t INTENSET; /*!< SPI Interrupt Enable read and Set. A complete value may be read from this register. Writing a 1 to any implemented bit position causes that bit to be set. */ __O uint32_t INTENCLR; /*!< SPI Interrupt Enable Clear. Writing a 1 to any implemented bit position causes the corresponding bit in INTENSET to be cleared. */ __I uint32_t RXDAT; /*!< SPI Receive Data */ __IO uint32_t TXDATCTL; /*!< SPI Transmit Data with Control */ __IO uint32_t TXDAT; /*!< SPI Transmit Data with Control */ __IO uint32_t TXCTL; /*!< SPI Transmit Control */ __IO uint32_t DIV; /*!< SPI clock Divider */ __I uint32_t INTSTAT; /*!< SPI Interrupt Status */ } LPC_SPI0_Type; /* ================================================================================ */ /* ================ I2C0 ================ */ /* ================================================================================ */ /** * @brief I2C-bus interface (I2C0) */ typedef struct { /*!< I2C0 Structure */ __IO uint32_t CFG; /*!< Configuration for shared functions. */ __IO uint32_t STAT; /*!< Status register for Master, Slave, and Monitor functions. */ __IO uint32_t INTENSET; /*!< Interrupt Enable Set and read register. */ __O uint32_t INTENCLR; /*!< Interrupt Enable Clear register. */ __IO uint32_t TIMEOUT; /*!< Time-out value register. */ __IO uint32_t DIV; /*!< Clock pre-divider for the entire I2C block. This determines what time increments are used for the MSTTIME and SLVTIME registers. */ __I uint32_t INTSTAT; /*!< Interrupt Status register for Master, Slave, and Monitor functions. */ __I uint32_t RESERVED0; __IO uint32_t MSTCTL; /*!< Master control register. */ __IO uint32_t MSTTIME; /*!< Master timing configuration. */ __IO uint32_t MSTDAT; /*!< Combined Master receiver and transmitter data register. */ __I uint32_t RESERVED1[5]; __IO uint32_t SLVCTL; /*!< Slave control register. */ __IO uint32_t SLVDAT; /*!< Combined Slave receiver and transmitter data register. */ __IO uint32_t SLVADR0; /*!< Slave address 0. */ __IO uint32_t SLVADR1; /*!< Slave address 0. */ __IO uint32_t SLVADR2; /*!< Slave address 0. */ __IO uint32_t SLVADR3; /*!< Slave address 0. */ __IO uint32_t SLVQUAL0; /*!< Slave Qualification for address 0. */ __I uint32_t RESERVED2[9]; __I uint32_t MONRXDAT; /*!< Monitor receiver data register. */ } LPC_I2C0_Type; /* ================================================================================ */ /* ================ QEI ================ */ /* ================================================================================ */ /** * @brief Quadrature Encoder Interface (QEI) (QEI) */ typedef struct { /*!< QEI Structure */ __O uint32_t CON; /*!< Control register */ __I uint32_t STAT; /*!< Encoder status register */ __IO uint32_t CONF; /*!< Configuration register */ __I uint32_t POS; /*!< Position register */ __IO uint32_t MAXPOS; /*!< Maximum position register */ __IO uint32_t CMPOS0; /*!< position compare register 0 */ __IO uint32_t CMPOS1; /*!< position compare register 1 */ __IO uint32_t CMPOS2; /*!< position compare register 2 */ __I uint32_t INXCNT; /*!< Index count register */ __IO uint32_t INXCMP0; /*!< Index compare register 0 */ __IO uint32_t LOAD; /*!< Velocity timer reload register */ __I uint32_t TIME; /*!< Velocity timer register */ __I uint32_t VEL; /*!< Velocity counter register */ __I uint32_t CAP; /*!< Velocity capture register */ __IO uint32_t VELCOMP; /*!< Velocity compare register */ __IO uint32_t FILTERPHA; /*!< Digital filter register on input phase A (QEI_A) */ __IO uint32_t FILTERPHB; /*!< Digital filter register on input phase B (QEI_B) */ __IO uint32_t FILTERINX; /*!< Digital filter register on input index (QEI_IDX) */ __IO uint32_t WINDOW; /*!< Index acceptance window register */ __IO uint32_t INXCMP1; /*!< Index compare register 1 */ __IO uint32_t INXCMP2; /*!< Index compare register 2 */ __I uint32_t RESERVED0[993]; __O uint32_t IEC; /*!< Interrupt enable clear register */ __O uint32_t IES; /*!< Interrupt enable set register */ __I uint32_t INTSTAT; /*!< Interrupt status register */ __O uint32_t IE; /*!< Interrupt enable clear register */ __O uint32_t CLR; /*!< Interrupt status clear register */ __O uint32_t SET; /*!< Interrupt status set register */ } LPC_QEI_Type; /* ================================================================================ */ /* ================ SYSCON ================ */ /* ================================================================================ */ /** * @brief System configuration (SYSCON) (SYSCON) */ typedef struct { /*!< SYSCON Structure */ __IO uint32_t SYSMEMREMAP; /*!< System memory remap */ __I uint32_t RESERVED0[4]; __IO uint32_t SYSTCKCAL; /*!< System tick counter calibration */ __I uint32_t RESERVED1; __IO uint32_t NMISRC; /*!< NMI Source Control */ __I uint32_t RESERVED2[8]; __IO uint32_t SYSRSTSTAT; /*!< System reset status register */ __IO uint32_t PRESETCTRL0; /*!< Peripheral reset control 0 */ __IO uint32_t PRESETCTRL1; /*!< Peripheral reset control 1 */ __I uint32_t PIOPORCAP0; /*!< POR captured PIO status 0 */ __I uint32_t PIOPORCAP1; /*!< POR captured PIO status 1 */ __I uint32_t PIOPORCAP2; /*!< POR captured PIO status 2 */ __I uint32_t RESERVED3[10]; __IO uint32_t MAINCLKSELA; /*!< Main clock source select A */ __IO uint32_t MAINCLKSELB; /*!< Main clock source select B */ __IO uint32_t USBCLKSEL; /*!< USB clock source select */ __IO uint32_t ADCASYNCCLKSEL; /*!< ADC asynchronous clock source select */ __I uint32_t RESERVED4; __IO uint32_t CLKOUTSELA; /*!< CLKOUT clock source select A */ __IO uint32_t CLKOUTSELB; /*!< CLKOUT clock source select B */ __I uint32_t RESERVED5; __IO uint32_t SYSPLLCLKSEL; /*!< System PLL clock source select */ __IO uint32_t USBPLLCLKSEL; /*!< USB PLL clock source select */ __IO uint32_t SCTPLLCLKSEL; /*!< SCT PLL clock source select */ __I uint32_t RESERVED6[5]; __IO uint32_t SYSAHBCLKDIV; /*!< System clock divider */ __IO uint32_t SYSAHBCLKCTRL0; /*!< System clock control 0 */ __IO uint32_t SYSAHBCLKCTRL1; /*!< System clock control 1 */ __IO uint32_t SYSTICKCLKDIV; /*!< SYSTICK clock divider */ __IO uint32_t UARTCLKDIV; /*!< USART clock divider. Clock divider for the USART fractional baud rate generator. */ __IO uint32_t IOCONCLKDIV; /*!< Peripheral clock to the IOCON block for programmable glitch filter */ __IO uint32_t TRACECLKDIV; /*!< ARM trace clock divider */ __I uint32_t RESERVED7[4]; __IO uint32_t USBCLKDIV; /*!< USB clock divider */ __IO uint32_t ADCASYNCCLKDIV; /*!< Asynchronous ADC clock divider */ __I uint32_t RESERVED8; __IO uint32_t CLKOUTDIV; /*!< CLKOUT clock divider */ __I uint32_t RESERVED9[11]; __IO uint32_t FRGCTRL; /*!< USART fractional baud rate generator control */ __IO uint32_t USBCLKCTRL; /*!< USB clock control */ __IO uint32_t USBCLKST; /*!< USB clock status */ __I uint32_t RESERVED10[19]; __IO uint32_t BODCTRL; /*!< Brown-Out Detect */ __I uint32_t RESERVED11; __IO uint32_t SYSOSCCTRL; /*!< System oscillator control */ __I uint32_t RESERVED12; __IO uint32_t RTCOSCCTRL; /*!< RTC oscillator control */ __I uint32_t RESERVED13; __IO uint32_t SYSPLLCTRL; /*!< System PLL control */ __I uint32_t SYSPLLSTAT; /*!< System PLL status */ __IO uint32_t USBPLLCTRL; /*!< USB PLL control */ __I uint32_t USBPLLSTAT; /*!< USB PLL status */ __IO uint32_t SCTPLLCTRL; /*!< SCT PLL control */ __I uint32_t SCTPLLSTAT; /*!< SCT PLL status */ __I uint32_t RESERVED14[21]; __IO uint32_t PDAWAKECFG; /*!< Power-down states for wake-up from deep-sleep */ __IO uint32_t PDRUNCFG; /*!< Power configuration register */ __I uint32_t RESERVED15[3]; __IO uint32_t STARTERP0; /*!< Start logic 0 wake-up enable register */ __IO uint32_t STARTERP1; /*!< Start logic 1 wake-up enable register */ } LPC_SYSCON_Type; /* ================================================================================ */ /* ================ MRT ================ */ /* ================================================================================ */ /** * @brief Multi-Rate Timer (MRT) (MRT) */ typedef struct { /*!< MRT Structure */ __IO uint32_t INTVAL0; /*!< MRT0 Time interval value register. This value is loaded into the TIMER0 register. */ __I uint32_t TIMER0; /*!< MRT0 Timer register. This register reads the value of the down-counter. */ __IO uint32_t CTRL0; /*!< MRT0 Control register. This register controls the MRT0 modes. */ __IO uint32_t STAT0; /*!< MRT0 Status register. */ __IO uint32_t INTVAL1; /*!< MRT0 Time interval value register. This value is loaded into the TIMER0 register. */ __I uint32_t TIMER1; /*!< MRT0 Timer register. This register reads the value of the down-counter. */ __IO uint32_t CTRL1; /*!< MRT0 Control register. This register controls the MRT0 modes. */ __IO uint32_t STAT1; /*!< MRT0 Status register. */ __IO uint32_t INTVAL2; /*!< MRT0 Time interval value register. This value is loaded into the TIMER0 register. */ __I uint32_t TIMER2; /*!< MRT0 Timer register. This register reads the value of the down-counter. */ __IO uint32_t CTRL2; /*!< MRT0 Control register. This register controls the MRT0 modes. */ __IO uint32_t STAT2; /*!< MRT0 Status register. */ __IO uint32_t INTVAL3; /*!< MRT0 Time interval value register. This value is loaded into the TIMER0 register. */ __I uint32_t TIMER3; /*!< MRT0 Timer register. This register reads the value of the down-counter. */ __IO uint32_t CTRL3; /*!< MRT0 Control register. This register controls the MRT0 modes. */ __IO uint32_t STAT3; /*!< MRT0 Status register. */ __I uint32_t RESERVED0[45]; __I uint32_t IDLE_CH; /*!< Idle channel register. This register returns the number of the first idle channel. */ __IO uint32_t IRQ_FLAG; /*!< Global interrupt flag register */ } LPC_MRT_Type; /* ================================================================================ */ /* ================ PINT ================ */ /* ================================================================================ */ /** * @brief Pin interruptand pattern match (PINT) (PINT) */ typedef struct { /*!< PINT Structure */ __IO uint32_t ISEL; /*!< Pin Interrupt Mode register */ __IO uint32_t IENR; /*!< Pin interrupt level or rising edge interrupt enable register */ __O uint32_t SIENR; /*!< Pin interrupt level or rising edge interrupt set register */ __O uint32_t CIENR; /*!< Pin interrupt level (rising edge interrupt) clear register */ __IO uint32_t IENF; /*!< Pin interrupt active level or falling edge interrupt enable register */ __O uint32_t SIENF; /*!< Pin interrupt active level or falling edge interrupt set register */ __O uint32_t CIENF; /*!< Pin interrupt active level or falling edge interrupt clear register */ __IO uint32_t RISE; /*!< Pin interrupt rising edge register */ __IO uint32_t FALL; /*!< Pin interrupt falling edge register */ __IO uint32_t IST; /*!< Pin interrupt status register */ __IO uint32_t PMCTRL; /*!< Pattern match interrupt control register */ __IO uint32_t PMSRC; /*!< Pattern match interrupt bit-slice source register */ __IO uint32_t PMCFG; /*!< Pattern match interrupt bit slice configuration register */ } LPC_PINT_Type; /* ================================================================================ */ /* ================ GINT0 ================ */ /* ================================================================================ */ /** * @brief Group interrupt 0/1 (GINT0/1) (GINT0) */ typedef struct { /*!< GINT0 Structure */ __IO uint32_t CTRL; /*!< GPIO grouped interrupt control register */ __I uint32_t RESERVED0[7]; __IO uint32_t PORT_POL[3]; /*!< GPIO grouped interrupt port 0 polarity register */ __I uint32_t RESERVED1[5]; __IO uint32_t PORT_ENA[3]; /*!< GPIO grouped interrupt port 0 enable register */ } LPC_GINT0_Type; /* ================================================================================ */ /* ================ RIT ================ */ /* ================================================================================ */ /** * @brief Repetitive Interrupt Timer (RIT) (RIT) */ typedef struct { /*!< RIT Structure */ __IO uint32_t COMPVAL; /*!< Compare value LSB register. Holds the 32 LSBs of the compare value. */ __IO uint32_t MASK; /*!< Mask LSB register. This register holds the 32 LSB s of the mask value. A 1 written to any bit will force a compare on the corresponding bit of the counter and compare register. */ __IO uint32_t CTRL; /*!< Control register. */ __IO uint32_t COUNTER; /*!< Counter LSB register. 32 LSBs of the counter. */ __IO uint32_t COMPVAL_H; /*!< Compare value MSB register. Holds the 16 MSBs of the compare value. */ __IO uint32_t MASK_H; /*!< Mask MSB register. This register holds the 16 MSBs of the mask value. A 1 written to any bit will force a compare on the corresponding bit of the counter and compare register. */ __I uint32_t RESERVED0; __IO uint32_t COUNTER_H; /*!< Counter MSB register. 16 MSBs of the counter. */ } LPC_RIT_Type; /* ================================================================================ */ /* ================ SCTIPU ================ */ /* ================================================================================ */ /** * @brief SCT Input Processing Unit (IPU) (SCTIPU) */ typedef struct { /*!< SCTIPU Structure */ __IO uint32_t SAMPLE_CTRL; /*!< SCT IPU sample control register. Contains the input mux selects, latch/sample-enable mux selects, and sample overrride bits for the SAMPLE module. */ __I uint32_t RESERVED0[7]; __IO uint32_t ABORT_ENABLE0; /*!< SCT IPU abort enable register: Selects which input source contributes to ORed Abort Output 0. */ __IO uint32_t ABORT_SOURCE0; /*!< SCT IPU abort source register: Status register indicating which input source caused abort output 0. */ __I uint32_t RESERVED1[6]; __IO uint32_t ABORT_ENABLE1; /*!< SCT IPU abort enable register: Selects which input source contributes to ORed Abort Output 0. */ __IO uint32_t ABORT_SOURCE1; /*!< SCT IPU abort source register: Status register indicating which input source caused abort output 0. */ __I uint32_t RESERVED2[6]; __IO uint32_t ABORT_ENABLE2; /*!< SCT IPU abort enable register: Selects which input source contributes to ORed Abort Output 0. */ __IO uint32_t ABORT_SOURCE2; /*!< SCT IPU abort source register: Status register indicating which input source caused abort output 0. */ __I uint32_t RESERVED3[6]; __IO uint32_t ABORT_ENABLE3; /*!< SCT IPU abort enable register: Selects which input source contributes to ORed Abort Output 0. */ __IO uint32_t ABORT_SOURCE3; /*!< SCT IPU abort source register: Status register indicating which input source caused abort output 0. */ } LPC_SCTIPU_Type; /* ================================================================================ */ /* ================ FLASHCTRL ================ */ /* ================================================================================ */ /** * @brief Flash controller (FLASHCTRL) */ typedef struct { /*!< FLASHCTRL Structure */ __I uint32_t RESERVED0[8]; __IO uint32_t FMSSTART; /*!< Signature start address register */ __IO uint32_t FMSSTOP; /*!< Signature stop-address register */ __I uint32_t RESERVED1; __I uint32_t FMSW0; /*!< Signature word */ } LPC_FLASHCTRL_Type; /* ================================================================================ */ /* ================ C_CAN0 ================ */ /* ================================================================================ */ /** * @brief Controller Area Network C_CAN0 (C_CAN0) */ typedef struct { /*!< C_CAN0 Structure */ __IO uint32_t CANCNTL; /*!< CAN control */ __IO uint32_t CANSTAT; /*!< Status register */ __I uint32_t CANEC; /*!< Error counter */ __IO uint32_t CANBT; /*!< Bit timing register */ __I uint32_t CANINT; /*!< Interrupt register */ __IO uint32_t CANTEST; /*!< Test register */ __IO uint32_t CANBRPE; /*!< Baud rate prescaler extension register */ __I uint32_t RESERVED0; __IO uint32_t CANIF1_CMDREQ; /*!< Message interface 1 command request */ union { __IO uint32_t CANIF1_CMDMSK_R; /*!< Message interface 1 command mask (read direction) */ __IO uint32_t CANIF1_CMDMSK_W; /*!< Message interface 1 command mask (write direction) */ }; __IO uint32_t CANIF1_MSK1; /*!< Message interface 1 mask 1 */ __IO uint32_t CANIF1_MSK2; /*!< Message interface 1 mask 2 */ __IO uint32_t CANIF1_ARB1; /*!< Message interface 1 arbitration 1 */ __IO uint32_t CANIF1_ARB2; /*!< Message interface 1 arbitration 2 */ __IO uint32_t CANIF1_MCTRL; /*!< Message interface 1 message control */ __IO uint32_t CANIF1_DA1; /*!< Message interface 1 data A1 */ __IO uint32_t CANIF1_DA2; /*!< Message interface 1 data A2 */ __IO uint32_t CANIF1_DB1; /*!< Message interface 1 data B1 */ __IO uint32_t CANIF1_DB2; /*!< Message interface 1 data B2 */ __I uint32_t RESERVED1[13]; __IO uint32_t CANIF2_CMDREQ; /*!< Message interface 1 command request */ union { __IO uint32_t CANIF2_CMDMSK_W; /*!< Message interface 1 command mask (write direction) */ __IO uint32_t CANIF2_CMDMSK_R; /*!< Message interface 1 command mask (read direction) */ }; __IO uint32_t CANIF2_MSK1; /*!< Message interface 1 mask 1 */ __IO uint32_t CANIF2_MSK2; /*!< Message interface 1 mask 2 */ __IO uint32_t CANIF2_ARB1; /*!< Message interface 1 arbitration 1 */ __IO uint32_t CANIF2_ARB2; /*!< Message interface 1 arbitration 2 */ __IO uint32_t CANIF2_MCTRL; /*!< Message interface 1 message control */ __IO uint32_t CANIF2_DA1; /*!< Message interface 2 data A1 */ __IO uint32_t CANIF2_DA2; /*!< Message interface 2 data A2 */ __IO uint32_t CANIF2_DB1; /*!< Message interface 2 data B1 */ __IO uint32_t CANIF2_DB2; /*!< Message interface 2 data B2 */ __I uint32_t RESERVED2[21]; __I uint32_t CANTXREQ1; /*!< Transmission request 1 */ __I uint32_t CANTXREQ2; /*!< Transmission request 2 */ __I uint32_t RESERVED3[6]; __I uint32_t CANND1; /*!< New data 1 */ __I uint32_t CANND2; /*!< New data 2 */ __I uint32_t RESERVED4[6]; __I uint32_t CANIR1; /*!< Interrupt pending 1 */ __I uint32_t CANIR2; /*!< Interrupt pending 2 */ __I uint32_t RESERVED5[6]; __I uint32_t CANMSGV1; /*!< Message valid 1 */ __I uint32_t CANMSGV2; /*!< Message valid 2 */ __I uint32_t RESERVED6[6]; __IO uint32_t CANCLKDIV; /*!< Can clock divider register */ } LPC_C_CAN0_Type; /* ================================================================================ */ /* ================ IOCON ================ */ /* ================================================================================ */ /** * @brief I/O pin configuration (IOCON) (IOCON) */ typedef struct { /*!< IOCON Structure */ __IO uint32_t PIO0_0; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_1; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_2; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_3; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_4; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_5; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_6; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_7; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_8; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_9; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_10; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_11; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_12; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_13; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_14; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_15; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_16; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_17; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_18; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_19; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_20; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_21; /*!< Digital I/O control for port 0 pins PIO0_0 to PIO0_21. */ __IO uint32_t PIO0_22; /*!< I/O control for open-drain pin PIO0_22. This pin is used for the I2C-bus SCL function. */ __IO uint32_t PIO0_23; /*!< I/O control for open-drain pin PIO0_22. This pin is used for the I2C-bus SCL function. */ __IO uint32_t PIO0_24; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_25; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_26; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_27; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_28; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_29; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_30; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO0_31; /*!< Digital I/O control for port 0 pins PIO0_24 to PIO0_31. */ __IO uint32_t PIO1_0; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_1; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_2; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_3; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_4; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_5; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_6; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_7; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_8; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_9; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_10; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_11; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_12; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_13; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_14; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_15; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_16; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_17; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_18; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_19; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_20; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_21; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_22; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_23; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_24; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_25; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_26; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_27; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_28; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_29; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_30; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO1_31; /*!< Digital I/O control for port 1 pins PIO1_24 to PIO1_31. */ __IO uint32_t PIO2_0; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_1; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_2; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_3; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_4; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_5; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_6; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_7; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_8; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_9; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_10; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ __IO uint32_t PIO2_11; /*!< Digital I/O control for port 2 pins PIO2_0 to PIO2_11. */ } LPC_IOCON_Type; /* -------------------- End of section using anonymous unions ------------------- */ #if defined(__CC_ARM) #pragma pop #elif defined(__ICCARM__) /* leave anonymous unions enabled */ #elif defined(__GNUC__) /* anonymous unions are enabled by default */ #elif defined(__TMS470__) /* anonymous unions are enabled by default */ #elif defined(__TASKING__) #pragma warning restore #else #warning Not supported compiler type #endif /* ================================================================================ */ /* ================ Peripheral memory map ================ */ /* ================================================================================ */ #define LPC_GPIO_PORT_BASE 0x1C000000UL #define LPC_DMA_BASE 0x1C004000UL #define LPC_USB_BASE 0x1C00C000UL #define LPC_CRC_BASE 0x1C010000UL #define LPC_SCT0_BASE 0x1C018000UL #define LPC_SCT1_BASE 0x1C01C000UL #define LPC_SCT2_BASE 0x1C020000UL #define LPC_SCT3_BASE 0x1C024000UL #define LPC_ADC0_BASE 0x40000000UL #define LPC_DAC_BASE 0x40004000UL #define LPC_ACMP_BASE 0x40008000UL #define LPC_INMUX_BASE 0x40014000UL #define LPC_RTC_BASE 0x40028000UL #define LPC_WWDT_BASE 0x4002C000UL #define LPC_SWM_BASE 0x40038000UL #define LPC_PMU_BASE 0x4003C000UL #define LPC_USART0_BASE 0x40040000UL #define LPC_USART1_BASE 0x40044000UL #define LPC_SPI0_BASE 0x40048000UL #define LPC_SPI1_BASE 0x4004C000UL #define LPC_I2C0_BASE 0x40050000UL #define LPC_QEI_BASE 0x40058000UL #define LPC_SYSCON_BASE 0x40074000UL #define LPC_ADC1_BASE 0x40080000UL #define LPC_MRT_BASE 0x400A0000UL #define LPC_PINT_BASE 0x400A4000UL #define LPC_GINT0_BASE 0x400A8000UL #define LPC_GINT1_BASE 0x400AC000UL #define LPC_RIT_BASE 0x400B4000UL #define LPC_SCTIPU_BASE 0x400B8000UL #define LPC_FLASHCTRL_BASE 0x400BC000UL #define LPC_USART2_BASE 0x400C0000UL #define LPC_C_CAN0_BASE 0x400F0000UL #define LPC_IOCON_BASE 0x400F8000UL /* ================================================================================ */ /* ================ Peripheral declaration ================ */ /* ================================================================================ */ #define LPC_GPIO_PORT ((LPC_GPIO_PORT_Type *) LPC_GPIO_PORT_BASE) #define LPC_DMA ((LPC_DMA_Type *) LPC_DMA_BASE) #define LPC_USB ((LPC_USB_Type *) LPC_USB_BASE) #define LPC_CRC ((LPC_CRC_Type *) LPC_CRC_BASE) #define LPC_SCT0 ((LPC_SCT0_Type *) LPC_SCT0_BASE) #define LPC_SCT1 ((LPC_SCT0_Type *) LPC_SCT1_BASE) #define LPC_SCT2 ((LPC_SCT2_Type *) LPC_SCT2_BASE) #define LPC_SCT3 ((LPC_SCT2_Type *) LPC_SCT3_BASE) #define LPC_ADC0 ((LPC_ADC0_Type *) LPC_ADC0_BASE) #define LPC_DAC ((LPC_DAC_Type *) LPC_DAC_BASE) #define LPC_ACMP ((LPC_ACMP_Type *) LPC_ACMP_BASE) #define LPC_INMUX ((LPC_INMUX_Type *) LPC_INMUX_BASE) #define LPC_RTC ((LPC_RTC_Type *) LPC_RTC_BASE) #define LPC_WWDT ((LPC_WWDT_Type *) LPC_WWDT_BASE) #define LPC_SWM ((LPC_SWM_Type *) LPC_SWM_BASE) #define LPC_PMU ((LPC_PMU_Type *) LPC_PMU_BASE) #define LPC_USART0 ((LPC_USART0_Type *) LPC_USART0_BASE) #define LPC_USART1 ((LPC_USART0_Type *) LPC_USART1_BASE) #define LPC_SPI0 ((LPC_SPI0_Type *) LPC_SPI0_BASE) #define LPC_SPI1 ((LPC_SPI0_Type *) LPC_SPI1_BASE) #define LPC_I2C0 ((LPC_I2C0_Type *) LPC_I2C0_BASE) #define LPC_QEI ((LPC_QEI_Type *) LPC_QEI_BASE) #define LPC_SYSCON ((LPC_SYSCON_Type *) LPC_SYSCON_BASE) #define LPC_ADC1 ((LPC_ADC0_Type *) LPC_ADC1_BASE) #define LPC_MRT ((LPC_MRT_Type *) LPC_MRT_BASE) #define LPC_PINT ((LPC_PINT_Type *) LPC_PINT_BASE) #define LPC_GINT0 ((LPC_GINT0_Type *) LPC_GINT0_BASE) #define LPC_GINT1 ((LPC_GINT0_Type *) LPC_GINT1_BASE) #define LPC_RIT ((LPC_RIT_Type *) LPC_RIT_BASE) #define LPC_SCTIPU ((LPC_SCTIPU_Type *) LPC_SCTIPU_BASE) #define LPC_FLASHCTRL ((LPC_FLASHCTRL_Type *) LPC_FLASHCTRL_BASE) #define LPC_USART2 ((LPC_USART0_Type *) LPC_USART2_BASE) #define LPC_C_CAN0 ((LPC_C_CAN0_Type *) LPC_C_CAN0_BASE) #define LPC_IOCON ((LPC_IOCON_Type *) LPC_IOCON_BASE) /** @} */ /* End of group Device_Peripheral_Registers */ /** @} */ /* End of group LPC15xx */ /** @} */ /* End of group (null) */ #ifdef __cplusplus } #endif #endif /* LPC15XX_H */