mbed library sources. Supersedes mbed-src.
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targets/TARGET_NXP/TARGET_LPC11U6X/device/LPC11U6x.h
- Committer:
- <>
- Date:
- 2016-10-28
- Revision:
- 149:156823d33999
- Parent:
- targets/cmsis/TARGET_NXP/TARGET_LPC11U6X/LPC11U6x.h@ 144:ef7eb2e8f9f7
File content as of revision 149:156823d33999:
/****************************************************************************************************//** * @file LPC11U6x.h * * @brief CMSIS Cortex-M0PLUS Peripheral Access Layer Header File for * LPC11U6x from . * * @version V0.4 * @date 22. October 2013 * * @note Generated with SVDConv V2.81a * from CMSIS SVD File 'LPC11U6x.svd' Version 0.4, * * modified by Keil *******************************************************************************************************/ /** @addtogroup (null) * @{ */ /** @addtogroup LPC11U6x * @{ */ #ifndef LPC11U6X_H #define LPC11U6X_H #ifdef __cplusplus extern "C" { #endif /* ------------------------- Interrupt Number Definition ------------------------ */ typedef enum { /* ----------------- Cortex-M0PLUS 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 */ SVCall_IRQn = -5, /*!< 11 System Service Call via SVC instruction */ PendSV_IRQn = -2, /*!< 14 Pendable request for system service */ SysTick_IRQn = -1, /*!< 15 System Tick Timer */ /* --------------------- LPC11U6x Specific Interrupt Numbers -------------------- */ PIN_INT0_IRQn = 0, /*!< 0 PIN_INT0 */ PIN_INT1_IRQn = 1, /*!< 1 PIN_INT1 */ PIN_INT2_IRQn = 2, /*!< 2 PIN_INT2 */ PIN_INT3_IRQn = 3, /*!< 3 PIN_INT3 */ PIN_INT4_IRQn = 4, /*!< 4 PIN_INT4 */ PIN_INT5_IRQn = 5, /*!< 5 PIN_INT5 */ PIN_INT6_IRQn = 6, /*!< 6 PIN_INT6 */ PIN_INT7_IRQn = 7, /*!< 7 PIN_INT7 */ GINT0_IRQn = 8, /*!< 8 GINT0 */ GINT1_IRQn = 9, /*!< 9 GINT1 */ I2C1_IRQn = 10, /*!< 10 I2C1 */ USART1_4_IRQn = 11, /*!< 11 USART1_4 */ USART2_3_IRQn = 12, /*!< 12 USART2_3 */ SCT0_1_IRQn = 13, /*!< 13 SCT0_1 */ SSP1_IRQn = 14, /*!< 14 SSP1 */ I2C0_IRQn = 15, /*!< 15 I2C0 */ CT16B0_IRQn = 16, /*!< 16 CT16B0 */ CT16B1_IRQn = 17, /*!< 17 CT16B1 */ CT32B0_IRQn = 18, /*!< 18 CT32B0 */ CT32B1_IRQn = 19, /*!< 19 CT32B1 */ SSP0_IRQn = 20, /*!< 20 SSP0 */ USART0_IRQn = 21, /*!< 21 USART0 */ USB_IRQn = 22, /*!< 22 USB */ USB_FIQ_IRQn = 23, /*!< 23 USB_FIQ */ ADC_A_IRQn = 24, /*!< 24 ADC_A */ RTC_IRQn = 25, /*!< 25 RTC */ BOD_WDT_IRQn = 26, /*!< 26 BOD_WDT */ FLASH_IRQn = 27, /*!< 27 FLASH */ DMA_IRQn = 28, /*!< 28 DMA */ ADC_B_IRQn = 29, /*!< 29 ADC_B */ USBWAKEUP_IRQn = 30 /*!< 30 USBWAKEUP */ } IRQn_Type; /** @addtogroup Configuration_of_CMSIS * @{ */ /* ================================================================================ */ /* ================ Processor and Core Peripheral Section ================ */ /* ================================================================================ */ /* ----------------Configuration of the Cortex-M0PLUS Processor and Core Peripherals---------------- */ #define __CM0PLUS_REV 0x0000 /*!< Cortex-M0PLUS Core Revision */ #define __MPU_PRESENT 0 /*!< MPU present or not */ #define __NVIC_PRIO_BITS 2 /*!< Number of Bits used for Priority Levels */ #define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */ #define __VTOR_PRESENT 1 /*!< Set to 1 if CPU supports Vector Table Offset Register */ /** @} */ /* End of group Configuration_of_CMSIS */ #include "core_cm0plus.h" /*!< Cortex-M0PLUS processor and core peripherals */ #include "system_LPC11U6x.h" /*!< LPC11U6x 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 /* ================================================================================ */ /* ================ I2C0 ================ */ /* ================================================================================ */ /** * @brief I2C-bus controller (I2C0) */ typedef struct { /*!< I2C0 Structure */ __IO uint32_t CONSET; /*!< I2C Control Set Register. When a one is written to a bit of this register, the corresponding bit in the I2C control register is set. Writing a zero has no effect on the corresponding bit in the I2C control register. */ __I uint32_t STAT; /*!< I2C Status Register. During I2C operation, this register provides detailed status codes that allow software to determine the next action needed. */ __IO uint32_t DAT; /*!< I2C Data Register. During master or slave transmit mode, data to be transmitted is written to this register. During master or slave receive mode, data that has been received may be read from this register. */ __IO uint32_t ADR0; /*!< I2C Slave Address Register 0. Contains the 7-bit slave address for operation of the I2C interface in slave mode, and is not used in master mode. The least significant bit determines whether a slave responds to the General Call address. */ __IO uint32_t SCLH; /*!< SCH Duty Cycle Register High Half Word. Determines the high time of the I2C clock. */ __IO uint32_t SCLL; /*!< SCL Duty Cycle Register Low Half Word. Determines the low time of the I2C clock. I2nSCLL and I2nSCLH together determine the clock frequency generated by an I2C master and certain times used in slave mode. */ __O uint32_t CONCLR; /*!< I2C Control Clear Register. When a one is written to a bit of this register, the corresponding bit in the I2C control register is cleared. Writing a zero has no effect on the corresponding bit in the I2C control register. */ __IO uint32_t MMCTRL; /*!< Monitor mode control register. */ __IO uint32_t ADR1; /*!< I2C Slave Address Register. Contains the 7-bit slave address for operation of the I2C interface in slave mode, and is not used in master mode. The least significant bit determines whether a slave responds to the General Call address. */ __IO uint32_t ADR2; /*!< I2C Slave Address Register. Contains the 7-bit slave address for operation of the I2C interface in slave mode, and is not used in master mode. The least significant bit determines whether a slave responds to the General Call address. */ __IO uint32_t ADR3; /*!< I2C Slave Address Register. Contains the 7-bit slave address for operation of the I2C interface in slave mode, and is not used in master mode. The least significant bit determines whether a slave responds to the General Call address. */ __I uint32_t DATA_BUFFER; /*!< Data buffer register. The contents of the 8 MSBs of the I2DAT shift register will be transferred to the DATA_BUFFER automatically after every nine bits (8 bits of data plus ACK or NACK) has been received on the bus. */ __IO uint32_t MASK0; /*!< I2C Slave address mask register. This mask register is associated with I2ADR0 to determine an address match. The mask register has no effect when comparing to the General Call address (0000000). */ __IO uint32_t MASK1; /*!< I2C Slave address mask register. This mask register is associated with I2ADR0 to determine an address match. The mask register has no effect when comparing to the General Call address (0000000). */ __IO uint32_t MASK2; /*!< I2C Slave address mask register. This mask register is associated with I2ADR0 to determine an address match. The mask register has no effect when comparing to the General Call address (0000000). */ __IO uint32_t MASK3; /*!< I2C Slave address mask register. This mask register is associated with I2ADR0 to determine an address match. The mask register has no effect when comparing to the General Call address (0000000). */ } LPC_I2C0_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. */ __IO uint32_t CLKSEL; /*!< Watchdog clock select register. */ __IO uint32_t WARNINT; /*!< Watchdog Warning Interrupt compare value. */ __IO uint32_t WINDOW; /*!< Watchdog Window compare value. */ } LPC_WWDT_Type; /* ================================================================================ */ /* ================ USART0 ================ */ /* ================================================================================ */ /** * @brief USART0 (USART0) */ typedef struct { /*!< USART0 Structure */ union { __IO uint32_t DLL; /*!< Divisor Latch LSB. Least significant byte of the baud rate divisor value. The full divisor is used to generate a baud rate from the fractional rate divider. (DLAB=1) */ __O uint32_t THR; /*!< Transmit Holding Register. The next character to be transmitted is written here. (DLAB=0) */ __I uint32_t RBR; /*!< Receiver Buffer Register. Contains the next received character to be read. (DLAB=0) */ }; union { __IO uint32_t IER; /*!< Interrupt Enable Register. Contains individual interrupt enable bits for the 7 potential USART interrupts. (DLAB=0) */ __IO uint32_t DLM; /*!< Divisor Latch MSB. Most significant byte of the baud rate divisor value. The full divisor is used to generate a baud rate from the fractional rate divider. (DLAB=1) */ }; union { __O uint32_t FCR; /*!< FIFO Control Register. Controls USART FIFO usage and modes. */ __I uint32_t IIR; /*!< Interrupt ID Register. Identifies which interrupt(s) are pending. */ }; __IO uint32_t LCR; /*!< Line Control Register. Contains controls for frame formatting and break generation. */ __IO uint32_t MCR; /*!< Modem Control Register. */ __I uint32_t LSR; /*!< Line Status Register. Contains flags for transmit and receive status, including line errors. */ __I uint32_t MSR; /*!< Modem Status Register. */ __IO uint32_t SCR; /*!< Scratch Pad Register. Eight-bit temporary storage for software. */ __IO uint32_t ACR; /*!< Auto-baud Control Register. Contains controls for the auto-baud feature. */ __IO uint32_t ICR; /*!< IrDA Control Register. Enables and configures the IrDA (remote control) mode. */ __IO uint32_t FDR; /*!< Fractional Divider Register. Generates a clock input for the baud rate divider. */ __IO uint32_t OSR; /*!< Oversampling Register. Controls the degree of oversampling during each bit time. */ __IO uint32_t TER; /*!< Transmit Enable Register. Turns off USART transmitter for use with software flow control. */ __I uint32_t RESERVED0[3]; __IO uint32_t HDEN; /*!< Half duplex enable register. */ __I uint32_t RESERVED1; __IO uint32_t SCICTRL; /*!< Smart Card Interface Control register. Enables and configures the Smart Card Interface feature. */ __IO uint32_t RS485CTRL; /*!< RS-485/EIA-485 Control. Contains controls to configure various aspects of RS-485/EIA-485 modes. */ __IO uint32_t RS485ADRMATCH; /*!< RS-485/EIA-485 address match. Contains the address match value for RS-485/EIA-485 mode. */ __IO uint32_t RS485DLY; /*!< RS-485/EIA-485 direction control delay. */ __IO uint32_t SYNCCTRL; /*!< Synchronous mode control register. */ } LPC_USART0_Type; /* ================================================================================ */ /* ================ CT16B0 ================ */ /* ================================================================================ */ /** * @brief 16-bit counter/timers CT16B0 (CT16B0) */ typedef struct { /*!< CT16B0 Structure */ __IO uint32_t IR; /*!< Interrupt Register. The IR can be written to clear interrupts. The IR can be read to identify which of eight possible interrupt sources are pending. */ __IO uint32_t TCR; /*!< Timer Control Register. The TCR is used to control the Timer Counter functions. The Timer Counter can be disabled or reset through the TCR. */ __IO uint32_t TC; /*!< Timer Counter. The 16-bit TC is incremented every PR+1 cycles of PCLK. The TC is controlled through the TCR. */ __IO uint32_t PR; /*!< Prescale Register. When the Prescale Counter (below) is equal to this value, the next clock increments the TC and clears the PC. */ __IO uint32_t PC; /*!< Prescale Counter. The 16-bit PC is a counter which is incremented to the value stored in PR. When the value in PR is reached, the TC is incremented and the PC is cleared. The PC is observable and controllable through the bus interface. */ __IO uint32_t MCR; /*!< Match Control Register. The MCR is used to control if an interrupt is generated and if the TC is reset when a Match occurs. */ __IO uint32_t MR0; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t MR1; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t MR2; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t MR3; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t CCR; /*!< Capture Control Register. The CCR controls which edges of the capture inputs are used to load the Capture Registers and whether or not an interrupt is generated when a capture takes place. */ __I uint32_t CR0; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAP input. */ __I uint32_t CR1; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAP input. */ __I uint32_t CR2; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAP input. */ __I uint32_t RESERVED0; __IO uint32_t EMR; /*!< External Match Register. The EMR controls the match function and the external match pins CT16B0_MAT[1:0] and CT16B1_MAT[1:0]. */ __I uint32_t RESERVED1[12]; __IO uint32_t CTCR; /*!< Count Control Register. The CTCR selects between Timer and Counter mode, and in Counter mode selects the signal and edge(s) for counting. */ __IO uint32_t PWMC; /*!< PWM Control Register. The PWMCON enables PWM mode for the external match pins CT16B0_MAT[1:0] and CT16B1_MAT[1:0]. */ } LPC_CT16B0_Type; /* ================================================================================ */ /* ================ CT32B0 ================ */ /* ================================================================================ */ /** * @brief 32-bit counter/timers CT32B0 (CT32B0) */ typedef struct { /*!< CT32B0 Structure */ __IO uint32_t IR; /*!< Interrupt Register. The IR can be written to clear interrupts. The IR can be read to identify which of eight possible interrupt sources are pending. */ __IO uint32_t TCR; /*!< Timer Control Register. The TCR is used to control the Timer Counter functions. The Timer Counter can be disabled or reset through the TCR. */ __IO uint32_t TC; /*!< Timer Counter. The 32-bit TC is incremented every PR+1 cycles of PCLK. The TC is controlled through the TCR. */ __IO uint32_t PR; /*!< Prescale Register. When the Prescale Counter (below) is equal to this value, the next clock increments the TC and clears the PC. */ __IO uint32_t PC; /*!< Prescale Counter. The 32-bit PC is a counter which is incremented to the value stored in PR. When the value in PR is reached, the TC is incremented and the PC is cleared. The PC is observable and controllable through the bus interface. */ __IO uint32_t MCR; /*!< Match Control Register. The MCR is used to control if an interrupt is generated and if the TC is reset when a Match occurs. */ __IO uint32_t MR0; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t MR1; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t MR2; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t MR3; /*!< Match Register. MR can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC. */ __IO uint32_t CCR; /*!< Capture Control Register. The CCR controls which edges of the capture inputs are used to load the Capture Registers and whether or not an interrupt is generated when a capture takes place. */ __I uint32_t CR0; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAP input. */ __I uint32_t CR1; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAP input. */ __I uint32_t CR2; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAP input. */ __I uint32_t RESERVED0; __IO uint32_t EMR; /*!< External Match Register. The EMR controls the match function and the external match pins CT32Bn_MAT[3:0]. */ __I uint32_t RESERVED1[12]; __IO uint32_t CTCR; /*!< Count Control Register. The CTCR selects between Timer and Counter mode, and in Counter mode selects the signal and edge(s) for counting. */ __IO uint32_t PWMC; /*!< PWM Control Register. The PWMCON enables PWM mode for the external match pins CT32Bn_MAT[3:0]. */ } LPC_CT32B0_Type; /* ================================================================================ */ /* ================ ADC ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=Kylin12-bit Analog-to-Digital Converter (ADC) Modification date=5/13/2013 Major revision=0 Minor revision=1 (ADC) */ typedef struct { /*!< ADC 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. */ __I uint32_t RESERVED0; __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 RESERVED1[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_ADC_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; /* ================================================================================ */ /* ================ DMATRIGMUX ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=KylinDMA controller Modification date=5/13/2013 Major revision=0 Minor revision=1 (DMATRIGMUX) */ typedef struct { /*!< DMATRIGMUX Structure */ __IO uint32_t DMA_ITRIG_PINMUX[16]; /*!< Trigger input select register for DMA channel 0. */ } LPC_DMATRIGMUX_Type; /* ================================================================================ */ /* ================ PMU ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=KylinPower Management Unit (PMU) Modification date=5/13/2013 Major revision=0 Minor revision=1 (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; /* ================================================================================ */ /* ================ FLASHCTRL ================ */ /* ================================================================================ */ /** * @brief Flash controller (FLASHCTRL) */ typedef struct { /*!< FLASHCTRL Structure */ __I uint32_t RESERVED0[4]; __IO uint32_t FLASHCFG; /*!< Flash configuration register */ __I uint32_t RESERVED1[3]; __IO uint32_t FMSSTART; /*!< Signature start address register */ __IO uint32_t FMSSTOP; /*!< Signature stop-address register */ __I uint32_t RESERVED2; __I uint32_t FMSW0; /*!< Signature Word */ } LPC_FLASHCTRL_Type; /* ================================================================================ */ /* ================ SSP0 ================ */ /* ================================================================================ */ /** * @brief SSP/SPI (SSP0) */ typedef struct { /*!< SSP0 Structure */ __IO uint32_t CR0; /*!< Control Register 0. Selects the serial clock rate, bus type, and data size. */ __IO uint32_t CR1; /*!< Control Register 1. Selects master/slave and other modes. */ __IO uint32_t DR; /*!< Data Register. Writes fill the transmit FIFO, and reads empty the receive FIFO. */ __I uint32_t SR; /*!< Status Register */ __IO uint32_t CPSR; /*!< Clock Prescale Register */ __IO uint32_t IMSC; /*!< Interrupt Mask Set and Clear Register */ __I uint32_t RIS; /*!< Raw Interrupt Status Register */ __I uint32_t MIS; /*!< Masked Interrupt Status Register */ __O uint32_t ICR; /*!< SSPICR Interrupt Clear Register */ } LPC_SSP0_Type; /* ================================================================================ */ /* ================ IOCON ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=KylinI/O control (IOCON) Modification date=5/13/2013 Major revision=0 Minor revision=1 (IOCON) */ typedef struct { /*!< IOCON Structure */ __IO uint32_t PIO0_0; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_1; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_2; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_3; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_4; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_5; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_6; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_7; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_8; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_9; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_10; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_11; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_12; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_13; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_14; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_15; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_16; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_17; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_18; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_19; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_20; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_21; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_22; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO0_23; /*!< I/O configuration for port PIO0 */ __IO uint32_t PIO1_0; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_1; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_2; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_3; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_4; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_5; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_6; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_7; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_8; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_9; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_10; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_11; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_12; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_13; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_14; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_15; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_16; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_17; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_18; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_19; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_20; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_21; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_22; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_23; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_24; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_25; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_26; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_27; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_28; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_29; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_30; /*!< I/O configuration for port PIO1 */ __IO uint32_t PIO1_31; /*!< I/O configuration for port PIO1 */ __I uint32_t RESERVED0[4]; __IO uint32_t PIO2_0; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_1; /*!< I/O configuration for port PIO2 */ __I uint32_t RESERVED1; __IO uint32_t PIO2_2; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_3; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_4; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_5; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_6; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_7; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_8; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_9; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_10; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_11; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_12; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_13; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_14; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_15; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_16; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_17; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_18; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_19; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_20; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_21; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_22; /*!< I/O configuration for port PIO2 */ __IO uint32_t PIO2_23; /*!< I/O configuration for port PIO2 */ } LPC_IOCON_Type; /* ================================================================================ */ /* ================ SYSCON ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=KylinSystem configuration (SYSCON) Modification date=5/13/2013 Major revision=0 Minor revision=1 (SYSCON) */ typedef struct { /*!< SYSCON Structure */ __IO uint32_t SYSMEMREMAP; /*!< System memory remap */ __IO uint32_t PRESETCTRL; /*!< Peripheral reset control */ __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 */ __I uint32_t RESERVED0; __IO uint32_t RTCOSCCTRL; /*!< RTC oscillator 32 kHz output control */ __IO uint32_t SYSOSCCTRL; /*!< System oscillator control */ __IO uint32_t WDTOSCCTRL; /*!< Watchdog oscillator control */ __I uint32_t RESERVED1[2]; __IO uint32_t SYSRSTSTAT; /*!< System reset status register */ __I uint32_t RESERVED2[3]; __IO uint32_t SYSPLLCLKSEL; /*!< System PLL clock source select */ __IO uint32_t SYSPLLCLKUEN; /*!< System PLL clock source update enable */ __IO uint32_t USBPLLCLKSEL; /*!< USB PLL clock source select */ __IO uint32_t USBPLLCLKUEN; /*!< USB PLL clock source update enable */ __I uint32_t RESERVED3[8]; __IO uint32_t MAINCLKSEL; /*!< Main clock source select */ __IO uint32_t MAINCLKUEN; /*!< Main clock source update enable */ __IO uint32_t SYSAHBCLKDIV; /*!< System clock divider */ __I uint32_t RESERVED4; __IO uint32_t SYSAHBCLKCTRL; /*!< System clock control */ __I uint32_t RESERVED5[4]; __IO uint32_t SSP0CLKDIV; /*!< SSP0 clock divider */ __IO uint32_t USART0CLKDIV; /*!< USART0 clock divider */ __IO uint32_t SSP1CLKDIV; /*!< SSP1 clock divider */ __IO uint32_t FRGCLKDIV; /*!< Clock divider for the common fractional baud rate generator of USART1 to USART4 */ __I uint32_t RESERVED6[7]; __IO uint32_t USBCLKSEL; /*!< USB clock source select */ __IO uint32_t USBCLKUEN; /*!< USB clock source update enable */ __IO uint32_t USBCLKDIV; /*!< USB clock source divider */ __I uint32_t RESERVED7[5]; __IO uint32_t CLKOUTSEL; /*!< CLKOUT clock source select */ __IO uint32_t CLKOUTUEN; /*!< CLKOUT clock source update enable */ __IO uint32_t CLKOUTDIV; /*!< CLKOUT clock divider */ __I uint32_t RESERVED8; __IO uint32_t UARTFRGDIV; /*!< USART fractional generator divider value */ __IO uint32_t UARTFRGMULT; /*!< USART fractional generator multiplier value */ __I uint32_t RESERVED9; __IO uint32_t EXTTRACECMD; /*!< External trace buffer command register */ __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 1 */ __I uint32_t RESERVED10[10]; __IO uint32_t IOCONCLKDIV6; /*!< Peripheral clock 6 to the IOCON block for programmable glitch filter */ __IO uint32_t IOCONCLKDIV5; /*!< Peripheral clock 5 to the IOCON block for programmable glitch filter */ __IO uint32_t IOCONCLKDIV4; /*!< Peripheral clock 4 to the IOCON block for programmable glitch filter */ __IO uint32_t IOCONCLKDIV3; /*!< Peripheral clock 3 to the IOCON block for programmable glitch filter */ __IO uint32_t IOCONCLKDIV2; /*!< Peripheral clock 2 to the IOCON block for programmable glitch filter */ __IO uint32_t IOCONCLKDIV1; /*!< Peripheral clock 1 to the IOCON block for programmable glitch filter */ __IO uint32_t IOCONCLKDIV0; /*!< Peripheral clock 0 to the IOCON block for programmable glitch filter */ __IO uint32_t BODCTRL; /*!< Brown-Out Detect */ __IO uint32_t SYSTCKCAL; /*!< System tick counter calibration */ __IO uint32_t AHBMATRIXPRIO; /*!< AHB matrix priority configuration */ __I uint32_t RESERVED11[5]; __IO uint32_t IRQLATENCY; /*!< IRQ delay. Allows trade-off between interrupt latency and determinism. */ __IO uint32_t NMISRC; /*!< NMI Source Control */ union { __IO uint32_t PINTSEL[8]; struct { __IO uint32_t PINTSEL0; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL1; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL2; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL3; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL4; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL5; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL6; /*!< GPIO Pin Interrupt Select register 0 */ __IO uint32_t PINTSEL7; /*!< GPIO Pin Interrupt Select register 0 */ }; }; __IO uint32_t USBCLKCTRL; /*!< USB clock control */ __I uint32_t USBCLKST; /*!< USB clock status */ __I uint32_t RESERVED12[25]; __IO uint32_t STARTERP0; /*!< Start logic 0 interrupt wake-up enable register 0 */ __I uint32_t RESERVED13[3]; __IO uint32_t STARTERP1; /*!< Start logic 1 interrupt wake-up enable register 1 */ __I uint32_t RESERVED14[6]; __IO uint32_t PDSLEEPCFG; /*!< Power-down states in deep-sleep mode */ __IO uint32_t PDAWAKECFG; /*!< Power-down states for wake-up from deep-sleep */ __IO uint32_t PDRUNCFG; /*!< Power configuration register */ __I uint32_t RESERVED15[110]; __I uint32_t DEVICE_ID; /*!< Device ID */ } LPC_SYSCON_Type; /* ================================================================================ */ /* ================ USART4 ================ */ /* ================================================================================ */ /** * @brief USART4 (USART4) */ typedef struct { /*!< USART4 Structure */ __IO uint32_t CFG; /*!< USART Configuration register. Basic USART configuration settings that typically are not changed during operation. */ __IO uint32_t CTL; /*!< 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 RXDAT; /*!< Receiver Data register. Contains the last character received. */ __I uint32_t RXDATSTAT; /*!< 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 TXDAT; /*!< 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. */ __IO uint32_t OSR; /*!< Oversample selection register for asynchronous communication. */ __IO uint32_t ADDR; /*!< Address register for automatic address matching. */ } LPC_USART4_Type; /* ================================================================================ */ /* ================ GINT0 ================ */ /* ================================================================================ */ /** * @brief GPIO group interrupt 0 (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 enable register */ } LPC_GINT0_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; /* ================================================================================ */ /* ================ DMA ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=KylinDMA controller Modification date=5/13/2013 Major revision=0 Minor revision=1 (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. */ } LPC_DMA_Type; /* ================================================================================ */ /* ================ SCT0 ================ */ /* ================================================================================ */ /** * @brief Product name title=Kylin UM Chapter title=KylinState Configurable Timers (SCT0/1) Modification date=5/14/2013 Major revision=0 Minor revision=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 */ __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 { __IO uint32_t CAP0; /*!< SCT capture register of capture channel 0 to 4; REGMOD0 to REGMODE4 = 1 */ __IO uint32_t MATCH0; /*!< SCT match value register of match channels 0 to 4; REGMOD0 to REGMODE4 = 0 */ }; union { __IO uint32_t CAP1; /*!< SCT capture register of capture channel 0 to 4; REGMOD0 to REGMODE4 = 1 */ __IO uint32_t MATCH1; /*!< SCT match value register of match channels 0 to 4; REGMOD0 to REGMODE4 = 0 */ }; union { __IO uint32_t MATCH2; /*!< SCT match value register of match channels 0 to 4; REGMOD0 to REGMODE4 = 0 */ __IO uint32_t CAP2; /*!< SCT capture register of capture channel 0 to 4; REGMOD0 to REGMODE4 = 1 */ }; union { __IO uint32_t CAP3; /*!< SCT capture register of capture channel 0 to 4; REGMOD0 to REGMODE4 = 1 */ __IO uint32_t MATCH3; /*!< SCT match value register of match channels 0 to 4; REGMOD0 to REGMODE4 = 0 */ }; union { __IO uint32_t CAP4; /*!< SCT capture register of capture channel 0 to 4; REGMOD0 to REGMODE4 = 1 */ __IO uint32_t MATCH4; /*!< SCT match value register of match channels 0 to 4; REGMOD0 to REGMODE4 = 0 */ }; __I uint32_t RESERVED2[59]; union { __IO uint32_t CAPCTRL0; /*!< SCT capture control register 0 to 4; REGMOD0 = 1 to REGMODE4 = 1 */ __IO uint32_t MATCHREL0; /*!< SCT match reload value register 0 to 4; REGMOD0 = 0 to REGMODE4 = 0 */ }; union { __IO uint32_t MATCHREL1; /*!< SCT match reload value register 0 to 4; REGMOD0 = 0 to REGMODE4 = 0 */ __IO uint32_t CAPCTRL1; /*!< SCT capture control register 0 to 4; REGMOD0 = 1 to REGMODE4 = 1 */ }; union { __IO uint32_t MATCHREL2; /*!< SCT match reload value register 0 to 4; REGMOD0 = 0 to REGMODE4 = 0 */ __IO uint32_t CAPCTRL2; /*!< SCT capture control register 0 to 4; REGMOD0 = 1 to REGMODE4 = 1 */ }; union { __IO uint32_t CAPCTRL3; /*!< SCT capture control register 0 to 4; REGMOD0 = 1 to REGMODE4 = 1 */ __IO uint32_t MATCHREL3; /*!< SCT match reload value register 0 to 4; REGMOD0 = 0 to REGMODE4 = 0 */ }; union { __IO uint32_t CAPCTRL4; /*!< SCT capture control register 0 to 4; REGMOD0 = 1 to REGMODE4 = 1 */ __IO uint32_t MATCHREL4; /*!< SCT match reload value register 0 to 4; REGMOD0 = 0 to REGMODE4 = 0 */ }; __I uint32_t RESERVED3[59]; __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 */ __I uint32_t RESERVED4[116]; __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 */ } LPC_SCT0_Type; /* ================================================================================ */ /* ================ GPIO_PORT ================ */ /* ================================================================================ */ /** * @brief General Purpose I/O (GPIO) (GPIO_PORT) */ typedef struct { /*!< GPIO_PORT Structure */ __IO uint8_t B[88]; /*!< Byte pin registers */ __I uint32_t RESERVED0[42]; __IO uint32_t W[88]; /*!< Word pin registers */ __I uint32_t RESERVED1[1896]; __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; /* ================================================================================ */ /* ================ 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; /* -------------------- 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_I2C0_BASE 0x40000000UL #define LPC_WWDT_BASE 0x40004000UL #define LPC_USART0_BASE 0x40008000UL #define LPC_CT16B0_BASE 0x4000C000UL #define LPC_CT16B1_BASE 0x40010000UL #define LPC_CT32B0_BASE 0x40014000UL #define LPC_CT32B1_BASE 0x40018000UL #define LPC_ADC_BASE 0x4001C000UL #define LPC_I2C1_BASE 0x40020000UL #define LPC_RTC_BASE 0x40024000UL #define LPC_DMATRIGMUX_BASE 0x40028000UL #define LPC_PMU_BASE 0x40038000UL #define LPC_FLASHCTRL_BASE 0x4003C000UL #define LPC_SSP0_BASE 0x40040000UL #define LPC_IOCON_BASE 0x40044000UL #define LPC_SYSCON_BASE 0x40048000UL #define LPC_USART4_BASE 0x4004C000UL #define LPC_SSP1_BASE 0x40058000UL #define LPC_GINT0_BASE 0x4005C000UL #define LPC_GINT1_BASE 0x40060000UL #define LPC_USART1_BASE 0x4006C000UL #define LPC_USART2_BASE 0x40070000UL #define LPC_USART3_BASE 0x40074000UL #define LPC_USB_BASE 0x40080000UL #define LPC_CRC_BASE 0x50000000UL #define LPC_DMA_BASE 0x50004000UL #define LPC_SCT0_BASE 0x5000C000UL #define LPC_SCT1_BASE 0x5000E000UL #define LPC_GPIO_PORT_BASE 0xA0000000UL #define LPC_PINT_BASE 0xA0004000UL /* ================================================================================ */ /* ================ Peripheral declaration ================ */ /* ================================================================================ */ #define LPC_I2C0 ((LPC_I2C0_Type *) LPC_I2C0_BASE) #define LPC_WWDT ((LPC_WWDT_Type *) LPC_WWDT_BASE) #define LPC_USART0 ((LPC_USART0_Type *) LPC_USART0_BASE) #define LPC_CT16B0 ((LPC_CT16B0_Type *) LPC_CT16B0_BASE) #define LPC_CT16B1 ((LPC_CT16B0_Type *) LPC_CT16B1_BASE) #define LPC_CT32B0 ((LPC_CT32B0_Type *) LPC_CT32B0_BASE) #define LPC_CT32B1 ((LPC_CT32B0_Type *) LPC_CT32B1_BASE) #define LPC_ADC ((LPC_ADC_Type *) LPC_ADC_BASE) #define LPC_I2C1 ((LPC_I2C0_Type *) LPC_I2C1_BASE) #define LPC_RTC ((LPC_RTC_Type *) LPC_RTC_BASE) #define LPC_DMATRIGMUX ((LPC_DMATRIGMUX_Type *) LPC_DMATRIGMUX_BASE) #define LPC_PMU ((LPC_PMU_Type *) LPC_PMU_BASE) #define LPC_FLASHCTRL ((LPC_FLASHCTRL_Type *) LPC_FLASHCTRL_BASE) #define LPC_SSP0 ((LPC_SSP0_Type *) LPC_SSP0_BASE) #define LPC_IOCON ((LPC_IOCON_Type *) LPC_IOCON_BASE) #define LPC_SYSCON ((LPC_SYSCON_Type *) LPC_SYSCON_BASE) #define LPC_USART4 ((LPC_USART4_Type *) LPC_USART4_BASE) #define LPC_SSP1 ((LPC_SSP0_Type *) LPC_SSP1_BASE) #define LPC_GINT0 ((LPC_GINT0_Type *) LPC_GINT0_BASE) #define LPC_GINT1 ((LPC_GINT0_Type *) LPC_GINT1_BASE) #define LPC_USART1 ((LPC_USART4_Type *) LPC_USART1_BASE) #define LPC_USART2 ((LPC_USART4_Type *) LPC_USART2_BASE) #define LPC_USART3 ((LPC_USART4_Type *) LPC_USART3_BASE) #define LPC_USB ((LPC_USB_Type *) LPC_USB_BASE) #define LPC_CRC ((LPC_CRC_Type *) LPC_CRC_BASE) #define LPC_DMA ((LPC_DMA_Type *) LPC_DMA_BASE) #define LPC_SCT0 ((LPC_SCT0_Type *) LPC_SCT0_BASE) #define LPC_SCT1 ((LPC_SCT0_Type *) LPC_SCT1_BASE) #define LPC_GPIO_PORT ((LPC_GPIO_PORT_Type *) LPC_GPIO_PORT_BASE) #define LPC_PINT ((LPC_PINT_Type *) LPC_PINT_BASE) /** @} */ /* End of group Device_Peripheral_Registers */ /** @} */ /* End of group LPC11U6x */ /** @} */ /* End of group (null) */ #ifdef __cplusplus } #endif #endif /* LPC11U6x_H */