Fork of mbed-src file paths change. LPC1114FN28 use only.

Fork of mbed-src by mbed official

Information

この情報は2013/10/28時点での解決方法です。
現在はmbed-src、標準ライブラリで問題なくコンパイルが可能です。

・使う物
LPC1114FN28
mbed SDK

LPC1114FN28でmbed-SDKのLibraryを使うとCompile出来ない。(2013/10/28) /media/uploads/minicube/mbed_lpc1114_sdk.png

パスが通ってないだけのようなのでファイルを以下に移動する。

mbed-src\targets\cmsis\TARGET_NXP\TARGET_LPC11XX_11CXX\
mbed-src\targets\cmsis\TARGET_NXP\TARGET_LPC11XX_11CXX\TARGET_LPC11XX\

にあるファイルをすべて

mbed-src\targets\cmsis\TARGET_NXP\

へ移動

mbed-src\targets\cmsis\TARGET_NXP\TARGET_LPC11XX_11CXX\にある

TOOLCHAIN_ARM_MICRO

をフォルダごと

mbed-src\targets\cmsis\TARGET_NXP\

へ移動

mbed-src\targets\hal\TARGET_NXP\TARGET_LPC11XX_11CXX\
mbed-src\targets\hal\TARGET_NXP\TARGET_LPC11XX_11CXX\TARGET_LPC11XX\

にあるファイルをすべて

mbed-src\targets\hal\TARGET_NXP\

へ移動

移動後は以下のような構成になると思います。
※不要なファイルは削除してあります。

/media/uploads/minicube/mbed_lpc1114_sdk_tree.png


ファイルの移動が面倒なので以下に本家からフォークしたライブラリを置いておきます。

Import librarymbed-src-LPC1114FN28

Fork of mbed-src file paths change. LPC1114FN28 use only.


エラーが出力される場合

"TOOLCHAIN_ARM_MICRO"が無いとエラーになる。

Error: Undefined symbol _initial_sp (referred from entry2.o).
Error: Undefined symbol _heap_base (referred from malloc.o).
Error: Undefined symbol _heap_limit (referred from malloc.o).

LPC1114FN28はMicrolibを使ってCompileされるため上記のエラーになるようです。

Committer:
bogdanm
Date:
Tue Sep 10 15:14:19 2013 +0300
Revision:
20:4263a77256ae
Sync with git revision 171dda705c947bf910926a0b73d6a4797802554d

Who changed what in which revision?

UserRevisionLine numberNew contents of line
bogdanm 20:4263a77256ae 1 /*
bogdanm 20:4263a77256ae 2 * @brief LPC43xx/LPC18xx MCU header
bogdanm 20:4263a77256ae 3 *
bogdanm 20:4263a77256ae 4 * Copyright(C) NXP Semiconductors, 2012
bogdanm 20:4263a77256ae 5 * All rights reserved.
bogdanm 20:4263a77256ae 6 *
bogdanm 20:4263a77256ae 7 * Software that is described herein is for illustrative purposes only
bogdanm 20:4263a77256ae 8 * which provides customers with programming information regarding the
bogdanm 20:4263a77256ae 9 * LPC products. This software is supplied "AS IS" without any warranties of
bogdanm 20:4263a77256ae 10 * any kind, and NXP Semiconductors and its licensor disclaim any and
bogdanm 20:4263a77256ae 11 * all warranties, express or implied, including all implied warranties of
bogdanm 20:4263a77256ae 12 * merchantability, fitness for a particular purpose and non-infringement of
bogdanm 20:4263a77256ae 13 * intellectual property rights. NXP Semiconductors assumes no responsibility
bogdanm 20:4263a77256ae 14 * or liability for the use of the software, conveys no license or rights under any
bogdanm 20:4263a77256ae 15 * patent, copyright, mask work right, or any other intellectual property rights in
bogdanm 20:4263a77256ae 16 * or to any products. NXP Semiconductors reserves the right to make changes
bogdanm 20:4263a77256ae 17 * in the software without notification. NXP Semiconductors also makes no
bogdanm 20:4263a77256ae 18 * representation or warranty that such application will be suitable for the
bogdanm 20:4263a77256ae 19 * specified use without further testing or modification.
bogdanm 20:4263a77256ae 20 *
bogdanm 20:4263a77256ae 21 * Permission to use, copy, modify, and distribute this software and its
bogdanm 20:4263a77256ae 22 * documentation is hereby granted, under NXP Semiconductors' and its
bogdanm 20:4263a77256ae 23 * licensor's relevant copyrights in the software, without fee, provided that it
bogdanm 20:4263a77256ae 24 * is used in conjunction with NXP Semiconductors microcontrollers. This
bogdanm 20:4263a77256ae 25 * copyright, permission, and disclaimer notice must appear in all copies of
bogdanm 20:4263a77256ae 26 * this code.
bogdanm 20:4263a77256ae 27 *
bogdanm 20:4263a77256ae 28 * Simplified version of NXP LPCOPEN LPC43XX/LPC18XX headers
bogdanm 20:4263a77256ae 29 * 05/15/13 Micromint USA <support@micromint.com>
bogdanm 20:4263a77256ae 30 */
bogdanm 20:4263a77256ae 31
bogdanm 20:4263a77256ae 32 #ifndef __LPC43XX_H
bogdanm 20:4263a77256ae 33 #define __LPC43XX_H
bogdanm 20:4263a77256ae 34
bogdanm 20:4263a77256ae 35 #ifdef __cplusplus
bogdanm 20:4263a77256ae 36 extern "C" {
bogdanm 20:4263a77256ae 37 #endif
bogdanm 20:4263a77256ae 38
bogdanm 20:4263a77256ae 39 /** @defgroup LPC43XX_H: LPC43xx include file
bogdanm 20:4263a77256ae 40 * @ingroup LPC43XX_Headers
bogdanm 20:4263a77256ae 41 * @{
bogdanm 20:4263a77256ae 42 */
bogdanm 20:4263a77256ae 43
bogdanm 20:4263a77256ae 44 /* Treat __CORE_Mx as CORE_Mx for mbed builds */
bogdanm 20:4263a77256ae 45 #if defined(__CORTEX_M0) && !defined(CORE_M0)
bogdanm 20:4263a77256ae 46 #define CORE_M0
bogdanm 20:4263a77256ae 47 #endif
bogdanm 20:4263a77256ae 48 #if defined(__CORTEX_M3) && !defined(CORE_M3)
bogdanm 20:4263a77256ae 49 #define CORE_M3
bogdanm 20:4263a77256ae 50 #endif
bogdanm 20:4263a77256ae 51 /* Default to M4 core if no core explicitly declared */
bogdanm 20:4263a77256ae 52 #if !defined(CORE_M0) && !defined(CORE_M3)
bogdanm 20:4263a77256ae 53 #define CORE_M4
bogdanm 20:4263a77256ae 54 #endif
bogdanm 20:4263a77256ae 55
bogdanm 20:4263a77256ae 56 /* Start of section using anonymous unions */
bogdanm 20:4263a77256ae 57 #if defined(__ARMCC_VERSION)
bogdanm 20:4263a77256ae 58 // Kill warning "#pragma push with no matching #pragma pop"
bogdanm 20:4263a77256ae 59 #pragma diag_suppress 2525
bogdanm 20:4263a77256ae 60 #pragma push
bogdanm 20:4263a77256ae 61 #pragma anon_unions
bogdanm 20:4263a77256ae 62 #elif defined(__CWCC__)
bogdanm 20:4263a77256ae 63 #pragma push
bogdanm 20:4263a77256ae 64 #pragma cpp_extensions on
bogdanm 20:4263a77256ae 65 #elif defined(__IAR_SYSTEMS_ICC__)
bogdanm 20:4263a77256ae 66 //#pragma push // FIXME not usable for IAR
bogdanm 20:4263a77256ae 67 #pragma language=extended
bogdanm 20:4263a77256ae 68 #else /* defined(__GNUC__) and others */
bogdanm 20:4263a77256ae 69 /* Assume anonymous unions are enabled by default */
bogdanm 20:4263a77256ae 70 #endif
bogdanm 20:4263a77256ae 71
bogdanm 20:4263a77256ae 72 #if defined(CORE_M4)
bogdanm 20:4263a77256ae 73 /**
bogdanm 20:4263a77256ae 74 * @brief LPC43xx Cortex CMSIS definitions
bogdanm 20:4263a77256ae 75 */
bogdanm 20:4263a77256ae 76
bogdanm 20:4263a77256ae 77 #define __CM4_REV 0x0000 /*!< Cortex-M4 Core Revision */
bogdanm 20:4263a77256ae 78 #define __MPU_PRESENT 1 /*!< MPU present or not */
bogdanm 20:4263a77256ae 79 #define __NVIC_PRIO_BITS 3 /*!< Number of Bits used for Priority Levels */
bogdanm 20:4263a77256ae 80 #define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */
bogdanm 20:4263a77256ae 81 #define __FPU_PRESENT 1 /*!< FPU present or not */
bogdanm 20:4263a77256ae 82 #define CHIP_LPC43XX /*!< LPCOPEN */
bogdanm 20:4263a77256ae 83
bogdanm 20:4263a77256ae 84 /**
bogdanm 20:4263a77256ae 85 * @brief LPC43xx peripheral interrupt numbers
bogdanm 20:4263a77256ae 86 */
bogdanm 20:4263a77256ae 87
bogdanm 20:4263a77256ae 88 typedef enum {
bogdanm 20:4263a77256ae 89 /* ------------------------- Cortex-M4 Processor Exceptions Numbers ----------------------------- */
bogdanm 20:4263a77256ae 90 Reset_IRQn = -15,/*!< 1 Reset Vector, invoked on Power up and warm reset */
bogdanm 20:4263a77256ae 91 NonMaskableInt_IRQn = -14,/*!< 2 Non maskable Interrupt, cannot be stopped or preempted */
bogdanm 20:4263a77256ae 92 HardFault_IRQn = -13,/*!< 3 Hard Fault, all classes of Fault */
bogdanm 20:4263a77256ae 93 MemoryManagement_IRQn = -12,/*!< 4 Memory Management, MPU mismatch, including Access Violation and No Match */
bogdanm 20:4263a77256ae 94 BusFault_IRQn = -11,/*!< 5 Bus Fault, Pre-Fetch-, Memory Access Fault, other address/memory related Fault */
bogdanm 20:4263a77256ae 95 UsageFault_IRQn = -10,/*!< 6 Usage Fault, i.e. Undef Instruction, Illegal State Transition */
bogdanm 20:4263a77256ae 96 SVCall_IRQn = -5,/*!< 11 System Service Call via SVC instruction */
bogdanm 20:4263a77256ae 97 DebugMonitor_IRQn = -4,/*!< 12 Debug Monitor */
bogdanm 20:4263a77256ae 98 PendSV_IRQn = -2,/*!< 14 Pendable request for system service */
bogdanm 20:4263a77256ae 99 SysTick_IRQn = -1,/*!< 15 System Tick Timer */
bogdanm 20:4263a77256ae 100
bogdanm 20:4263a77256ae 101 /* --------------------------- LPC18xx/43xx Specific Interrupt Numbers ------------------------------- */
bogdanm 20:4263a77256ae 102 DAC_IRQn = 0,/*!< 0 DAC */
bogdanm 20:4263a77256ae 103 M0CORE_IRQn = 1,/*!< 1 M0a */
bogdanm 20:4263a77256ae 104 DMA_IRQn = 2,/*!< 2 DMA */
bogdanm 20:4263a77256ae 105 RESERVED1_IRQn = 3,/*!< 3 EZH/EDM */
bogdanm 20:4263a77256ae 106 RESERVED2_IRQn = 4,
bogdanm 20:4263a77256ae 107 ETHERNET_IRQn = 5,/*!< 5 ETHERNET */
bogdanm 20:4263a77256ae 108 SDIO_IRQn = 6,/*!< 6 SDIO */
bogdanm 20:4263a77256ae 109 LCD_IRQn = 7,/*!< 7 LCD */
bogdanm 20:4263a77256ae 110 USB0_IRQn = 8,/*!< 8 USB0 */
bogdanm 20:4263a77256ae 111 USB1_IRQn = 9,/*!< 9 USB1 */
bogdanm 20:4263a77256ae 112 SCT_IRQn = 10,/*!< 10 SCT */
bogdanm 20:4263a77256ae 113 RITIMER_IRQn = 11,/*!< 11 RITIMER */
bogdanm 20:4263a77256ae 114 TIMER0_IRQn = 12,/*!< 12 TIMER0 */
bogdanm 20:4263a77256ae 115 TIMER1_IRQn = 13,/*!< 13 TIMER1 */
bogdanm 20:4263a77256ae 116 TIMER2_IRQn = 14,/*!< 14 TIMER2 */
bogdanm 20:4263a77256ae 117 TIMER3_IRQn = 15,/*!< 15 TIMER3 */
bogdanm 20:4263a77256ae 118 MCPWM_IRQn = 16,/*!< 16 MCPWM */
bogdanm 20:4263a77256ae 119 ADC0_IRQn = 17,/*!< 17 ADC0 */
bogdanm 20:4263a77256ae 120 I2C0_IRQn = 18,/*!< 18 I2C0 */
bogdanm 20:4263a77256ae 121 I2C1_IRQn = 19,/*!< 19 I2C1 */
bogdanm 20:4263a77256ae 122 SPI_INT_IRQn = 20,/*!< 20 SPI_INT */
bogdanm 20:4263a77256ae 123 ADC1_IRQn = 21,/*!< 21 ADC1 */
bogdanm 20:4263a77256ae 124 SSP0_IRQn = 22,/*!< 22 SSP0 */
bogdanm 20:4263a77256ae 125 SSP1_IRQn = 23,/*!< 23 SSP1 */
bogdanm 20:4263a77256ae 126 USART0_IRQn = 24,/*!< 24 USART0 */
bogdanm 20:4263a77256ae 127 UART1_IRQn = 25,/*!< 25 UART1 */
bogdanm 20:4263a77256ae 128 USART2_IRQn = 26,/*!< 26 USART2 */
bogdanm 20:4263a77256ae 129 USART3_IRQn = 27,/*!< 27 USART3 */
bogdanm 20:4263a77256ae 130 I2S0_IRQn = 28,/*!< 28 I2S0 */
bogdanm 20:4263a77256ae 131 I2S1_IRQn = 29,/*!< 29 I2S1 */
bogdanm 20:4263a77256ae 132 RESERVED4_IRQn = 30,
bogdanm 20:4263a77256ae 133 SGPIO_INT_IRQn = 31,/*!< 31 SGPIO_IINT */
bogdanm 20:4263a77256ae 134 PIN_INT0_IRQn = 32,/*!< 32 PIN_INT0 */
bogdanm 20:4263a77256ae 135 PIN_INT1_IRQn = 33,/*!< 33 PIN_INT1 */
bogdanm 20:4263a77256ae 136 PIN_INT2_IRQn = 34,/*!< 34 PIN_INT2 */
bogdanm 20:4263a77256ae 137 PIN_INT3_IRQn = 35,/*!< 35 PIN_INT3 */
bogdanm 20:4263a77256ae 138 PIN_INT4_IRQn = 36,/*!< 36 PIN_INT4 */
bogdanm 20:4263a77256ae 139 PIN_INT5_IRQn = 37,/*!< 37 PIN_INT5 */
bogdanm 20:4263a77256ae 140 PIN_INT6_IRQn = 38,/*!< 38 PIN_INT6 */
bogdanm 20:4263a77256ae 141 PIN_INT7_IRQn = 39,/*!< 39 PIN_INT7 */
bogdanm 20:4263a77256ae 142 GINT0_IRQn = 40,/*!< 40 GINT0 */
bogdanm 20:4263a77256ae 143 GINT1_IRQn = 41,/*!< 41 GINT1 */
bogdanm 20:4263a77256ae 144 EVENTROUTER_IRQn = 42,/*!< 42 EVENTROUTER */
bogdanm 20:4263a77256ae 145 C_CAN1_IRQn = 43,/*!< 43 C_CAN1 */
bogdanm 20:4263a77256ae 146 RESERVED6_IRQn = 44,
bogdanm 20:4263a77256ae 147 RESERVED7_IRQn = 45,/*!< 45 VADC */
bogdanm 20:4263a77256ae 148 ATIMER_IRQn = 46,/*!< 46 ATIMER */
bogdanm 20:4263a77256ae 149 RTC_IRQn = 47,/*!< 47 RTC */
bogdanm 20:4263a77256ae 150 RESERVED8_IRQn = 48,
bogdanm 20:4263a77256ae 151 WWDT_IRQn = 49,/*!< 49 WWDT */
bogdanm 20:4263a77256ae 152 RESERVED9_IRQn = 50,
bogdanm 20:4263a77256ae 153 C_CAN0_IRQn = 51,/*!< 51 C_CAN0 */
bogdanm 20:4263a77256ae 154 QEI_IRQn = 52,/*!< 52 QEI */
bogdanm 20:4263a77256ae 155 } IRQn_Type;
bogdanm 20:4263a77256ae 156
bogdanm 20:4263a77256ae 157 #include "core_cm4.h" /*!< Cortex-M4 processor and core peripherals */
bogdanm 20:4263a77256ae 158
bogdanm 20:4263a77256ae 159 #elif defined(CORE_M3)
bogdanm 20:4263a77256ae 160 /**
bogdanm 20:4263a77256ae 161 * @brief LPC18xx Cortex CMSIS definitions
bogdanm 20:4263a77256ae 162 */
bogdanm 20:4263a77256ae 163 #define __MPU_PRESENT 1 /*!< MPU present or not */
bogdanm 20:4263a77256ae 164 #define __NVIC_PRIO_BITS 3 /*!< Number of Bits used for Priority Levels */
bogdanm 20:4263a77256ae 165 #define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */
bogdanm 20:4263a77256ae 166 #define __FPU_PRESENT 0 /*!< FPU present or not */
bogdanm 20:4263a77256ae 167 #define CHIP_LPC18XX /*!< LPCOPEN */
bogdanm 20:4263a77256ae 168
bogdanm 20:4263a77256ae 169 /**
bogdanm 20:4263a77256ae 170 * @brief LPC18xx peripheral interrupt numbers
bogdanm 20:4263a77256ae 171 */
bogdanm 20:4263a77256ae 172
bogdanm 20:4263a77256ae 173 typedef enum {
bogdanm 20:4263a77256ae 174 /* ------------------------- Cortex-M3 Processor Exceptions Numbers ----------------------------- */
bogdanm 20:4263a77256ae 175 Reset_IRQn = -15,/*!< 1 Reset Vector, invoked on Power up and warm reset */
bogdanm 20:4263a77256ae 176 NonMaskableInt_IRQn = -14,/*!< 2 Non maskable Interrupt, cannot be stopped or preempted */
bogdanm 20:4263a77256ae 177 HardFault_IRQn = -13,/*!< 3 Hard Fault, all classes of Fault */
bogdanm 20:4263a77256ae 178 MemoryManagement_IRQn = -12,/*!< 4 Memory Management, MPU mismatch, including Access Violation and No Match */
bogdanm 20:4263a77256ae 179 BusFault_IRQn = -11,/*!< 5 Bus Fault, Pre-Fetch-, Memory Access Fault, other address/memory related Fault */
bogdanm 20:4263a77256ae 180 UsageFault_IRQn = -10,/*!< 6 Usage Fault, i.e. Undef Instruction, Illegal State Transition */
bogdanm 20:4263a77256ae 181 SVCall_IRQn = -5, /*!< 11 System Service Call via SVC instruction */
bogdanm 20:4263a77256ae 182 DebugMonitor_IRQn = -4, /*!< 12 Debug Monitor */
bogdanm 20:4263a77256ae 183 PendSV_IRQn = -2, /*!< 14 Pendable request for system service */
bogdanm 20:4263a77256ae 184 SysTick_IRQn = -1, /*!< 15 System Tick Timer */
bogdanm 20:4263a77256ae 185
bogdanm 20:4263a77256ae 186 /* --------------------------- LPC18xx/43xx Specific Interrupt Numbers ------------------------------- */
bogdanm 20:4263a77256ae 187 DAC_IRQn = 0,/*!< 0 DAC */
bogdanm 20:4263a77256ae 188 RESERVED0_IRQn = 1,
bogdanm 20:4263a77256ae 189 DMA_IRQn = 2,/*!< 2 DMA */
bogdanm 20:4263a77256ae 190 RESERVED1_IRQn = 3,/*!< 3 EZH/EDM */
bogdanm 20:4263a77256ae 191 RESERVED2_IRQn = 4,
bogdanm 20:4263a77256ae 192 ETHERNET_IRQn = 5,/*!< 5 ETHERNET */
bogdanm 20:4263a77256ae 193 SDIO_IRQn = 6,/*!< 6 SDIO */
bogdanm 20:4263a77256ae 194 LCD_IRQn = 7,/*!< 7 LCD */
bogdanm 20:4263a77256ae 195 USB0_IRQn = 8,/*!< 8 USB0 */
bogdanm 20:4263a77256ae 196 USB1_IRQn = 9,/*!< 9 USB1 */
bogdanm 20:4263a77256ae 197 SCT_IRQn = 10,/*!< 10 SCT */
bogdanm 20:4263a77256ae 198 RITIMER_IRQn = 11,/*!< 11 RITIMER */
bogdanm 20:4263a77256ae 199 TIMER0_IRQn = 12,/*!< 12 TIMER0 */
bogdanm 20:4263a77256ae 200 TIMER1_IRQn = 13,/*!< 13 TIMER1 */
bogdanm 20:4263a77256ae 201 TIMER2_IRQn = 14,/*!< 14 TIMER2 */
bogdanm 20:4263a77256ae 202 TIMER3_IRQn = 15,/*!< 15 TIMER3 */
bogdanm 20:4263a77256ae 203 MCPWM_IRQn = 16,/*!< 16 MCPWM */
bogdanm 20:4263a77256ae 204 ADC0_IRQn = 17,/*!< 17 ADC0 */
bogdanm 20:4263a77256ae 205 I2C0_IRQn = 18,/*!< 18 I2C0 */
bogdanm 20:4263a77256ae 206 I2C1_IRQn = 19,/*!< 19 I2C1 */
bogdanm 20:4263a77256ae 207 RESERVED3_IRQn = 20,
bogdanm 20:4263a77256ae 208 ADC1_IRQn = 21,/*!< 21 ADC1 */
bogdanm 20:4263a77256ae 209 SSP0_IRQn = 22,/*!< 22 SSP0 */
bogdanm 20:4263a77256ae 210 SSP1_IRQn = 23,/*!< 23 SSP1 */
bogdanm 20:4263a77256ae 211 USART0_IRQn = 24,/*!< 24 USART0 */
bogdanm 20:4263a77256ae 212 UART1_IRQn = 25,/*!< 25 UART1 */
bogdanm 20:4263a77256ae 213 USART2_IRQn = 26,/*!< 26 USART2 */
bogdanm 20:4263a77256ae 214 USART3_IRQn = 27,/*!< 27 USART3 */
bogdanm 20:4263a77256ae 215 I2S0_IRQn = 28,/*!< 28 I2S0 */
bogdanm 20:4263a77256ae 216 I2S1_IRQn = 29,/*!< 29 I2S1 */
bogdanm 20:4263a77256ae 217 RESERVED4_IRQn = 30,
bogdanm 20:4263a77256ae 218 RESERVED5_IRQn = 31,
bogdanm 20:4263a77256ae 219 PIN_INT0_IRQn = 32,/*!< 32 PIN_INT0 */
bogdanm 20:4263a77256ae 220 PIN_INT1_IRQn = 33,/*!< 33 PIN_INT1 */
bogdanm 20:4263a77256ae 221 PIN_INT2_IRQn = 34,/*!< 34 PIN_INT2 */
bogdanm 20:4263a77256ae 222 PIN_INT3_IRQn = 35,/*!< 35 PIN_INT3 */
bogdanm 20:4263a77256ae 223 PIN_INT4_IRQn = 36,/*!< 36 PIN_INT4 */
bogdanm 20:4263a77256ae 224 PIN_INT5_IRQn = 37,/*!< 37 PIN_INT5 */
bogdanm 20:4263a77256ae 225 PIN_INT6_IRQn = 38,/*!< 38 PIN_INT6 */
bogdanm 20:4263a77256ae 226 PIN_INT7_IRQn = 39,/*!< 39 PIN_INT7 */
bogdanm 20:4263a77256ae 227 GINT0_IRQn = 40,/*!< 40 GINT0 */
bogdanm 20:4263a77256ae 228 GINT1_IRQn = 41,/*!< 41 GINT1 */
bogdanm 20:4263a77256ae 229 EVENTROUTER_IRQn = 42,/*!< 42 EVENTROUTER */
bogdanm 20:4263a77256ae 230 C_CAN1_IRQn = 43,/*!< 43 C_CAN1 */
bogdanm 20:4263a77256ae 231 RESERVED6_IRQn = 44,
bogdanm 20:4263a77256ae 232 RESERVED7_IRQn = 45,/*!< 45 VADC */
bogdanm 20:4263a77256ae 233 ATIMER_IRQn = 46,/*!< 46 ATIMER */
bogdanm 20:4263a77256ae 234 RTC_IRQn = 47,/*!< 47 RTC */
bogdanm 20:4263a77256ae 235 RESERVED8_IRQn = 48,
bogdanm 20:4263a77256ae 236 WWDT_IRQn = 49,/*!< 49 WWDT */
bogdanm 20:4263a77256ae 237 RESERVED9_IRQn = 50,
bogdanm 20:4263a77256ae 238 C_CAN0_IRQn = 51,/*!< 51 C_CAN0 */
bogdanm 20:4263a77256ae 239 QEI_IRQn = 52,/*!< 52 QEI */
bogdanm 20:4263a77256ae 240 } IRQn_Type;
bogdanm 20:4263a77256ae 241
bogdanm 20:4263a77256ae 242 #include "core_cm3.h" /*!< Cortex-M3 processor and core peripherals */
bogdanm 20:4263a77256ae 243
bogdanm 20:4263a77256ae 244 #elif defined(CORE_M0)
bogdanm 20:4263a77256ae 245 /**
bogdanm 20:4263a77256ae 246 * @brief LPC43xx (M0 Core) Cortex CMSIS definitions
bogdanm 20:4263a77256ae 247 */
bogdanm 20:4263a77256ae 248
bogdanm 20:4263a77256ae 249 #define __MPU_PRESENT 0 /*!< MPU present or not */
bogdanm 20:4263a77256ae 250 #define __NVIC_PRIO_BITS 2 /*!< Number of Bits used for Priority Levels */
bogdanm 20:4263a77256ae 251 #define __Vendor_SysTickConfig 0 /*!< Set to 1 if different SysTick Config is used */
bogdanm 20:4263a77256ae 252 #define __FPU_PRESENT 0 /*!< FPU present or not */
bogdanm 20:4263a77256ae 253 #define CHIP_LPC43XX /*!< LPCOPEN */
bogdanm 20:4263a77256ae 254
bogdanm 20:4263a77256ae 255 /**
bogdanm 20:4263a77256ae 256 * @brief LPC43xx (M0 Core) peripheral interrupt numbers
bogdanm 20:4263a77256ae 257 */
bogdanm 20:4263a77256ae 258
bogdanm 20:4263a77256ae 259 typedef enum {
bogdanm 20:4263a77256ae 260 /* ------------------------- Cortex-M0 Processor Exceptions Numbers ----------------------------- */
bogdanm 20:4263a77256ae 261 Reset_IRQn = -15,/*!< 1 Reset Vector, invoked on Power up and warm reset */
bogdanm 20:4263a77256ae 262 NonMaskableInt_IRQn = -14,/*!< 2 Non maskable Interrupt, cannot be stopped or preempted */
bogdanm 20:4263a77256ae 263 HardFault_IRQn = -13,/*!< 3 Hard Fault, all classes of Fault */
bogdanm 20:4263a77256ae 264 SVCall_IRQn = -5, /*!< 11 System Service Call via SVC instruction */
bogdanm 20:4263a77256ae 265 DebugMonitor_IRQn = -4, /*!< 12 Debug Monitor */
bogdanm 20:4263a77256ae 266 PendSV_IRQn = -2, /*!< 14 Pendable request for system service */
bogdanm 20:4263a77256ae 267 SysTick_IRQn = -1, /*!< 15 System Tick Timer */
bogdanm 20:4263a77256ae 268
bogdanm 20:4263a77256ae 269 /* --------------------------- LPC18xx/43xx Specific Interrupt Numbers ------------------------------- */
bogdanm 20:4263a77256ae 270 DAC_IRQn = 0,/*!< 0 DAC */
bogdanm 20:4263a77256ae 271 M0_M4CORE_IRQn = 1,/*!< 1 M0a */
bogdanm 20:4263a77256ae 272 DMA_IRQn = 2,/*!< 2 DMA r */
bogdanm 20:4263a77256ae 273 RESERVED1_IRQn = 3,/*!< 3 EZH/EDM */
bogdanm 20:4263a77256ae 274 FLASHEEPROM_IRQn = 4,/*!< 4 ORed Flash EEPROM Bank A, B, EEPROM */
bogdanm 20:4263a77256ae 275 ETHERNET_IRQn = 5,/*!< 5 ETHERNET */
bogdanm 20:4263a77256ae 276 SDIO_IRQn = 6,/*!< 6 SDIO */
bogdanm 20:4263a77256ae 277 LCD_IRQn = 7,/*!< 7 LCD */
bogdanm 20:4263a77256ae 278 USB0_IRQn = 8,/*!< 8 USB0 */
bogdanm 20:4263a77256ae 279 USB1_IRQn = 9,/*!< 9 USB1 */
bogdanm 20:4263a77256ae 280 SCT_IRQn = 10,/*!< 10 SCT */
bogdanm 20:4263a77256ae 281 RITIMER_IRQn = 11,/*!< 11 ORed RITIMER, WDT */
bogdanm 20:4263a77256ae 282 TIMER0_IRQn = 12,/*!< 12 TIMER0 */
bogdanm 20:4263a77256ae 283 GINT1_IRQn = 13,/*!< 13 GINT1 */
bogdanm 20:4263a77256ae 284 PIN_INT4_IRQn = 14,/*!< 14 GPIO 4 */
bogdanm 20:4263a77256ae 285 TIMER3_IRQn = 15,/*!< 15 TIMER3 */
bogdanm 20:4263a77256ae 286 MCPWM_IRQn = 16,/*!< 16 MCPWM */
bogdanm 20:4263a77256ae 287 ADC0_IRQn = 17,/*!< 17 ADC0 */
bogdanm 20:4263a77256ae 288 I2C0_IRQn = 18,/*!< 18 ORed I2C0, I2C1 */
bogdanm 20:4263a77256ae 289 SGPIO_INT_IRQn = 19,/*!< 19 SGPIO */
bogdanm 20:4263a77256ae 290 SPI_INT_IRQn = 20,/*!< 20 SPI_INT */
bogdanm 20:4263a77256ae 291 ADC1_IRQn = 21,/*!< 21 ADC1 */
bogdanm 20:4263a77256ae 292 SSP0_IRQn = 22,/*!< 22 ORed SSP0, SSP1 */
bogdanm 20:4263a77256ae 293 EVENTROUTER_IRQn = 23,/*!< 23 EVENTROUTER */
bogdanm 20:4263a77256ae 294 USART0_IRQn = 24,/*!< 24 USART0 */
bogdanm 20:4263a77256ae 295 UART1_IRQn = 25,/*!< 25 UART1 */
bogdanm 20:4263a77256ae 296 USART2_IRQn = 26,/*!< 26 USART2 */
bogdanm 20:4263a77256ae 297 USART3_IRQn = 27,/*!< 27 USART3 */
bogdanm 20:4263a77256ae 298 I2S0_IRQn = 28,/*!< 28 ORed I2S0, I2S1 */
bogdanm 20:4263a77256ae 299 C_CAN0_IRQn = 29,/*!< 29 C_CAN0 */
bogdanm 20:4263a77256ae 300 I2S1_IRQn = 29,/*!< 29 I2S1 */
bogdanm 20:4263a77256ae 301 RESERVED2_IRQn = 30,
bogdanm 20:4263a77256ae 302 RESERVED3_IRQn = 31,
bogdanm 20:4263a77256ae 303 } IRQn_Type;
bogdanm 20:4263a77256ae 304
bogdanm 20:4263a77256ae 305 #include "core_cm0.h" /*!< Cortex-M4 processor and core peripherals */
bogdanm 20:4263a77256ae 306 #else
bogdanm 20:4263a77256ae 307 #error Please #define CORE_M0, CORE_M3 or CORE_M4
bogdanm 20:4263a77256ae 308 #endif
bogdanm 20:4263a77256ae 309
bogdanm 20:4263a77256ae 310 #include "system_LPC43xx.h"
bogdanm 20:4263a77256ae 311
bogdanm 20:4263a77256ae 312 /**
bogdanm 20:4263a77256ae 313 * @brief State Configurable Timer register block structure
bogdanm 20:4263a77256ae 314 */
bogdanm 20:4263a77256ae 315 #define LPC_SCT_BASE 0x40000000
bogdanm 20:4263a77256ae 316 #define CONFIG_SCT_nEV (16) /*!< Number of events */
bogdanm 20:4263a77256ae 317 #define CONFIG_SCT_nRG (16) /*!< Number of match/compare registers */
bogdanm 20:4263a77256ae 318 #define CONFIG_SCT_nOU (16) /*!< Number of outputs */
bogdanm 20:4263a77256ae 319
bogdanm 20:4263a77256ae 320 typedef struct {
bogdanm 20:4263a77256ae 321 __IO uint32_t CONFIG; /*!< Configuration Register */
bogdanm 20:4263a77256ae 322 union {
bogdanm 20:4263a77256ae 323 __IO uint32_t CTRL_U; /*!< Control Register */
bogdanm 20:4263a77256ae 324 struct {
bogdanm 20:4263a77256ae 325 __IO uint16_t CTRL_L; /*!< Low control register */
bogdanm 20:4263a77256ae 326 __IO uint16_t CTRL_H; /*!< High control register */
bogdanm 20:4263a77256ae 327 };
bogdanm 20:4263a77256ae 328
bogdanm 20:4263a77256ae 329 };
bogdanm 20:4263a77256ae 330
bogdanm 20:4263a77256ae 331 __IO uint16_t LIMIT_L; /*!< limit register for counter L */
bogdanm 20:4263a77256ae 332 __IO uint16_t LIMIT_H; /*!< limit register for counter H */
bogdanm 20:4263a77256ae 333 __IO uint16_t HALT_L; /*!< halt register for counter L */
bogdanm 20:4263a77256ae 334 __IO uint16_t HALT_H; /*!< halt register for counter H */
bogdanm 20:4263a77256ae 335 __IO uint16_t STOP_L; /*!< stop register for counter L */
bogdanm 20:4263a77256ae 336 __IO uint16_t STOP_H; /*!< stop register for counter H */
bogdanm 20:4263a77256ae 337 __IO uint16_t START_L; /*!< start register for counter L */
bogdanm 20:4263a77256ae 338 __IO uint16_t START_H; /*!< start register for counter H */
bogdanm 20:4263a77256ae 339 uint32_t RESERVED1[10]; /*!< 0x03C reserved */
bogdanm 20:4263a77256ae 340 union {
bogdanm 20:4263a77256ae 341 __IO uint32_t COUNT_U; /*!< counter register */
bogdanm 20:4263a77256ae 342 struct {
bogdanm 20:4263a77256ae 343 __IO uint16_t COUNT_L; /*!< counter register for counter L */
bogdanm 20:4263a77256ae 344 __IO uint16_t COUNT_H; /*!< counter register for counter H */
bogdanm 20:4263a77256ae 345 };
bogdanm 20:4263a77256ae 346
bogdanm 20:4263a77256ae 347 };
bogdanm 20:4263a77256ae 348
bogdanm 20:4263a77256ae 349 __IO uint16_t STATE_L; /*!< state register for counter L */
bogdanm 20:4263a77256ae 350 __IO uint16_t STATE_H; /*!< state register for counter H */
bogdanm 20:4263a77256ae 351 __I uint32_t INPUT; /*!< input register */
bogdanm 20:4263a77256ae 352 __IO uint16_t REGMODE_L; /*!< match - capture registers mode register L */
bogdanm 20:4263a77256ae 353 __IO uint16_t REGMODE_H; /*!< match - capture registers mode register H */
bogdanm 20:4263a77256ae 354 __IO uint32_t OUTPUT; /*!< output register */
bogdanm 20:4263a77256ae 355 __IO uint32_t OUTPUTDIRCTRL; /*!< output counter direction Control Register */
bogdanm 20:4263a77256ae 356 __IO uint32_t RES; /*!< conflict resolution register */
bogdanm 20:4263a77256ae 357 __IO uint32_t DMA0REQUEST; /*!< DMA0 Request Register */
bogdanm 20:4263a77256ae 358 __IO uint32_t DMA1REQUEST; /*!< DMA1 Request Register */
bogdanm 20:4263a77256ae 359 uint32_t RESERVED2[35];
bogdanm 20:4263a77256ae 360 __IO uint32_t EVEN; /*!< event enable register */
bogdanm 20:4263a77256ae 361 __IO uint32_t EVFLAG; /*!< event flag register */
bogdanm 20:4263a77256ae 362 __IO uint32_t CONEN; /*!< conflict enable register */
bogdanm 20:4263a77256ae 363 __IO uint32_t CONFLAG; /*!< conflict flag register */
bogdanm 20:4263a77256ae 364 union {
bogdanm 20:4263a77256ae 365 __IO union { /*!< ... Match / Capture value */
bogdanm 20:4263a77256ae 366 uint32_t U; /*!< SCTMATCH[i].U Unified 32-bit register */
bogdanm 20:4263a77256ae 367 struct {
bogdanm 20:4263a77256ae 368 uint16_t L; /*!< SCTMATCH[i].L Access to L value */
bogdanm 20:4263a77256ae 369 uint16_t H; /*!< SCTMATCH[i].H Access to H value */
bogdanm 20:4263a77256ae 370 };
bogdanm 20:4263a77256ae 371
bogdanm 20:4263a77256ae 372 } MATCH[CONFIG_SCT_nRG];
bogdanm 20:4263a77256ae 373
bogdanm 20:4263a77256ae 374 __I union {
bogdanm 20:4263a77256ae 375 uint32_t U; /*!< SCTCAP[i].U Unified 32-bit register */
bogdanm 20:4263a77256ae 376 struct {
bogdanm 20:4263a77256ae 377 uint16_t L; /*!< SCTCAP[i].L Access to L value */
bogdanm 20:4263a77256ae 378 uint16_t H; /*!< SCTCAP[i].H Access to H value */
bogdanm 20:4263a77256ae 379 };
bogdanm 20:4263a77256ae 380
bogdanm 20:4263a77256ae 381 } CAP[CONFIG_SCT_nRG];
bogdanm 20:4263a77256ae 382
bogdanm 20:4263a77256ae 383 };
bogdanm 20:4263a77256ae 384
bogdanm 20:4263a77256ae 385 uint32_t RESERVED3[32 - CONFIG_SCT_nRG]; /*!< ...-0x17C reserved */
bogdanm 20:4263a77256ae 386 union {
bogdanm 20:4263a77256ae 387 __IO uint16_t MATCH_L[CONFIG_SCT_nRG]; /*!< 0x180-... Match Value L counter */
bogdanm 20:4263a77256ae 388 __I uint16_t CAP_L[CONFIG_SCT_nRG]; /*!< 0x180-... Capture Value L counter */
bogdanm 20:4263a77256ae 389 };
bogdanm 20:4263a77256ae 390
bogdanm 20:4263a77256ae 391 uint16_t RESERVED4[32 - CONFIG_SCT_nRG]; /*!< ...-0x1BE reserved */
bogdanm 20:4263a77256ae 392 union {
bogdanm 20:4263a77256ae 393 __IO uint16_t MATCH_H[CONFIG_SCT_nRG]; /*!< 0x1C0-... Match Value H counter */
bogdanm 20:4263a77256ae 394 __I uint16_t CAP_H[CONFIG_SCT_nRG]; /*!< 0x1C0-... Capture Value H counter */
bogdanm 20:4263a77256ae 395 };
bogdanm 20:4263a77256ae 396
bogdanm 20:4263a77256ae 397 uint16_t RESERVED5[32 - CONFIG_SCT_nRG]; /*!< ...-0x1FE reserved */
bogdanm 20:4263a77256ae 398 union {
bogdanm 20:4263a77256ae 399 __IO union { /*!< 0x200-... Match Reload / Capture Control value */
bogdanm 20:4263a77256ae 400 uint32_t U; /*!< SCTMATCHREL[i].U Unified 32-bit register */
bogdanm 20:4263a77256ae 401 struct {
bogdanm 20:4263a77256ae 402 uint16_t L; /*!< SCTMATCHREL[i].L Access to L value */
bogdanm 20:4263a77256ae 403 uint16_t H; /*!< SCTMATCHREL[i].H Access to H value */
bogdanm 20:4263a77256ae 404 };
bogdanm 20:4263a77256ae 405
bogdanm 20:4263a77256ae 406 } MATCHREL[CONFIG_SCT_nRG];
bogdanm 20:4263a77256ae 407
bogdanm 20:4263a77256ae 408 __IO union {
bogdanm 20:4263a77256ae 409 uint32_t U; /*!< SCTCAPCTRL[i].U Unified 32-bit register */
bogdanm 20:4263a77256ae 410 struct {
bogdanm 20:4263a77256ae 411 uint16_t L; /*!< SCTCAPCTRL[i].L Access to L value */
bogdanm 20:4263a77256ae 412 uint16_t H; /*!< SCTCAPCTRL[i].H Access to H value */
bogdanm 20:4263a77256ae 413 };
bogdanm 20:4263a77256ae 414
bogdanm 20:4263a77256ae 415 } CAPCTRL[CONFIG_SCT_nRG];
bogdanm 20:4263a77256ae 416
bogdanm 20:4263a77256ae 417 };
bogdanm 20:4263a77256ae 418
bogdanm 20:4263a77256ae 419 uint32_t RESERVED6[32 - CONFIG_SCT_nRG]; /*!< ...-0x27C reserved */
bogdanm 20:4263a77256ae 420 union {
bogdanm 20:4263a77256ae 421 __IO uint16_t MATCHREL_L[CONFIG_SCT_nRG]; /*!< 0x280-... Match Reload value L counter */
bogdanm 20:4263a77256ae 422 __IO uint16_t CAPCTRL_L[CONFIG_SCT_nRG]; /*!< 0x280-... Capture Control value L counter */
bogdanm 20:4263a77256ae 423 };
bogdanm 20:4263a77256ae 424
bogdanm 20:4263a77256ae 425 uint16_t RESERVED7[32 - CONFIG_SCT_nRG]; /*!< ...-0x2BE reserved */
bogdanm 20:4263a77256ae 426 union {
bogdanm 20:4263a77256ae 427 __IO uint16_t MATCHREL_H[CONFIG_SCT_nRG]; /*!< 0x2C0-... Match Reload value H counter */
bogdanm 20:4263a77256ae 428 __IO uint16_t CAPCTRL_H[CONFIG_SCT_nRG]; /*!< 0x2C0-... Capture Control value H counter */
bogdanm 20:4263a77256ae 429 };
bogdanm 20:4263a77256ae 430
bogdanm 20:4263a77256ae 431 uint16_t RESERVED8[32 - CONFIG_SCT_nRG]; /*!< ...-0x2FE reserved */
bogdanm 20:4263a77256ae 432 __IO struct { /*!< 0x300-0x3FC SCTEVENT[i].STATE / SCTEVENT[i].CTRL*/
bogdanm 20:4263a77256ae 433 uint32_t STATE; /*!< Event State Register */
bogdanm 20:4263a77256ae 434 uint32_t CTRL; /*!< Event Control Register */
bogdanm 20:4263a77256ae 435 } EVENT[CONFIG_SCT_nEV];
bogdanm 20:4263a77256ae 436
bogdanm 20:4263a77256ae 437 uint32_t RESERVED9[128 - 2 * CONFIG_SCT_nEV]; /*!< ...-0x4FC reserved */
bogdanm 20:4263a77256ae 438 __IO struct { /*!< 0x500-0x57C SCTOUT[i].SET / SCTOUT[i].CLR */
bogdanm 20:4263a77256ae 439 uint32_t SET; /*!< Output n Set Register */
bogdanm 20:4263a77256ae 440 uint32_t CLR; /*!< Output n Clear Register */
bogdanm 20:4263a77256ae 441 } OUT[CONFIG_SCT_nOU];
bogdanm 20:4263a77256ae 442
bogdanm 20:4263a77256ae 443 uint32_t RESERVED10[191 - 2 * CONFIG_SCT_nOU]; /*!< ...-0x7F8 reserved */
bogdanm 20:4263a77256ae 444 __I uint32_t MODULECONTENT; /*!< 0x7FC Module Content */
bogdanm 20:4263a77256ae 445 } LPC_SCT_T;
bogdanm 20:4263a77256ae 446
bogdanm 20:4263a77256ae 447 /**
bogdanm 20:4263a77256ae 448 * @brief GPDMA Channel register block structure
bogdanm 20:4263a77256ae 449 */
bogdanm 20:4263a77256ae 450 #define LPC_GPDMA_BASE 0x40002000
bogdanm 20:4263a77256ae 451
bogdanm 20:4263a77256ae 452 typedef struct {
bogdanm 20:4263a77256ae 453 __IO uint32_t SRCADDR; /*!< DMA Channel Source Address Register */
bogdanm 20:4263a77256ae 454 __IO uint32_t DESTADDR; /*!< DMA Channel Destination Address Register */
bogdanm 20:4263a77256ae 455 __IO uint32_t LLI; /*!< DMA Channel Linked List Item Register */
bogdanm 20:4263a77256ae 456 __IO uint32_t CONTROL; /*!< DMA Channel Control Register */
bogdanm 20:4263a77256ae 457 __IO uint32_t CONFIG; /*!< DMA Channel Configuration Register */
bogdanm 20:4263a77256ae 458 __I uint32_t RESERVED1[3];
bogdanm 20:4263a77256ae 459 } LPC_GPDMA_CH_T;
bogdanm 20:4263a77256ae 460
bogdanm 20:4263a77256ae 461 #define GPDMA_CHANNELS 8
bogdanm 20:4263a77256ae 462
bogdanm 20:4263a77256ae 463 /**
bogdanm 20:4263a77256ae 464 * @brief GPDMA register block
bogdanm 20:4263a77256ae 465 */
bogdanm 20:4263a77256ae 466 typedef struct { /*!< GPDMA Structure */
bogdanm 20:4263a77256ae 467 __I uint32_t INTSTAT; /*!< DMA Interrupt Status Register */
bogdanm 20:4263a77256ae 468 __I uint32_t INTTCSTAT; /*!< DMA Interrupt Terminal Count Request Status Register */
bogdanm 20:4263a77256ae 469 __O uint32_t INTTCCLEAR; /*!< DMA Interrupt Terminal Count Request Clear Register */
bogdanm 20:4263a77256ae 470 __I uint32_t INTERRSTAT; /*!< DMA Interrupt Error Status Register */
bogdanm 20:4263a77256ae 471 __O uint32_t INTERRCLR; /*!< DMA Interrupt Error Clear Register */
bogdanm 20:4263a77256ae 472 __I uint32_t RAWINTTCSTAT; /*!< DMA Raw Interrupt Terminal Count Status Register */
bogdanm 20:4263a77256ae 473 __I uint32_t RAWINTERRSTAT; /*!< DMA Raw Error Interrupt Status Register */
bogdanm 20:4263a77256ae 474 __I uint32_t ENBLDCHNS; /*!< DMA Enabled Channel Register */
bogdanm 20:4263a77256ae 475 __IO uint32_t SOFTBREQ; /*!< DMA Software Burst Request Register */
bogdanm 20:4263a77256ae 476 __IO uint32_t SOFTSREQ; /*!< DMA Software Single Request Register */
bogdanm 20:4263a77256ae 477 __IO uint32_t SOFTLBREQ; /*!< DMA Software Last Burst Request Register */
bogdanm 20:4263a77256ae 478 __IO uint32_t SOFTLSREQ; /*!< DMA Software Last Single Request Register */
bogdanm 20:4263a77256ae 479 __IO uint32_t CONFIG; /*!< DMA Configuration Register */
bogdanm 20:4263a77256ae 480 __IO uint32_t SYNC; /*!< DMA Synchronization Register */
bogdanm 20:4263a77256ae 481 __I uint32_t RESERVED0[50];
bogdanm 20:4263a77256ae 482 LPC_GPDMA_CH_T CH[GPDMA_CHANNELS];
bogdanm 20:4263a77256ae 483 } LPC_GPDMA_T;
bogdanm 20:4263a77256ae 484
bogdanm 20:4263a77256ae 485 /**
bogdanm 20:4263a77256ae 486 * @brief SD/MMC & SDIO register block structure
bogdanm 20:4263a77256ae 487 */
bogdanm 20:4263a77256ae 488 #define LPC_SDMMC_BASE 0x40004000
bogdanm 20:4263a77256ae 489
bogdanm 20:4263a77256ae 490 typedef struct { /*!< SDMMC Structure */
bogdanm 20:4263a77256ae 491 __IO uint32_t CTRL; /*!< Control Register */
bogdanm 20:4263a77256ae 492 __IO uint32_t PWREN; /*!< Power Enable Register */
bogdanm 20:4263a77256ae 493 __IO uint32_t CLKDIV; /*!< Clock Divider Register */
bogdanm 20:4263a77256ae 494 __IO uint32_t CLKSRC; /*!< SD Clock Source Register */
bogdanm 20:4263a77256ae 495 __IO uint32_t CLKENA; /*!< Clock Enable Register */
bogdanm 20:4263a77256ae 496 __IO uint32_t TMOUT; /*!< Timeout Register */
bogdanm 20:4263a77256ae 497 __IO uint32_t CTYPE; /*!< Card Type Register */
bogdanm 20:4263a77256ae 498 __IO uint32_t BLKSIZ; /*!< Block Size Register */
bogdanm 20:4263a77256ae 499 __IO uint32_t BYTCNT; /*!< Byte Count Register */
bogdanm 20:4263a77256ae 500 __IO uint32_t INTMASK; /*!< Interrupt Mask Register */
bogdanm 20:4263a77256ae 501 __IO uint32_t CMDARG; /*!< Command Argument Register */
bogdanm 20:4263a77256ae 502 __IO uint32_t CMD; /*!< Command Register */
bogdanm 20:4263a77256ae 503 __I uint32_t RESP0; /*!< Response Register 0 */
bogdanm 20:4263a77256ae 504 __I uint32_t RESP1; /*!< Response Register 1 */
bogdanm 20:4263a77256ae 505 __I uint32_t RESP2; /*!< Response Register 2 */
bogdanm 20:4263a77256ae 506 __I uint32_t RESP3; /*!< Response Register 3 */
bogdanm 20:4263a77256ae 507 __I uint32_t MINTSTS; /*!< Masked Interrupt Status Register */
bogdanm 20:4263a77256ae 508 __IO uint32_t RINTSTS; /*!< Raw Interrupt Status Register */
bogdanm 20:4263a77256ae 509 __I uint32_t STATUS; /*!< Status Register */
bogdanm 20:4263a77256ae 510 __IO uint32_t FIFOTH; /*!< FIFO Threshold Watermark Register */
bogdanm 20:4263a77256ae 511 __I uint32_t CDETECT; /*!< Card Detect Register */
bogdanm 20:4263a77256ae 512 __I uint32_t WRTPRT; /*!< Write Protect Register */
bogdanm 20:4263a77256ae 513 __IO uint32_t GPIO; /*!< General Purpose Input/Output Register */
bogdanm 20:4263a77256ae 514 __I uint32_t TCBCNT; /*!< Transferred CIU Card Byte Count Register */
bogdanm 20:4263a77256ae 515 __I uint32_t TBBCNT; /*!< Transferred Host to BIU-FIFO Byte Count Register */
bogdanm 20:4263a77256ae 516 __IO uint32_t DEBNCE; /*!< Debounce Count Register */
bogdanm 20:4263a77256ae 517 __IO uint32_t USRID; /*!< User ID Register */
bogdanm 20:4263a77256ae 518 __I uint32_t VERID; /*!< Version ID Register */
bogdanm 20:4263a77256ae 519 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 520 __IO uint32_t UHS_REG; /*!< UHS-1 Register */
bogdanm 20:4263a77256ae 521 __IO uint32_t RST_N; /*!< Hardware Reset */
bogdanm 20:4263a77256ae 522 __I uint32_t RESERVED1;
bogdanm 20:4263a77256ae 523 __IO uint32_t BMOD; /*!< Bus Mode Register */
bogdanm 20:4263a77256ae 524 __O uint32_t PLDMND; /*!< Poll Demand Register */
bogdanm 20:4263a77256ae 525 __IO uint32_t DBADDR; /*!< Descriptor List Base Address Register */
bogdanm 20:4263a77256ae 526 __IO uint32_t IDSTS; /*!< Internal DMAC Status Register */
bogdanm 20:4263a77256ae 527 __IO uint32_t IDINTEN; /*!< Internal DMAC Interrupt Enable Register */
bogdanm 20:4263a77256ae 528 __I uint32_t DSCADDR; /*!< Current Host Descriptor Address Register */
bogdanm 20:4263a77256ae 529 __I uint32_t BUFADDR; /*!< Current Buffer Descriptor Address Register */
bogdanm 20:4263a77256ae 530 } LPC_SDMMC_T;
bogdanm 20:4263a77256ae 531
bogdanm 20:4263a77256ae 532 /**
bogdanm 20:4263a77256ae 533 * @brief External Memory Controller (EMC) register block structure
bogdanm 20:4263a77256ae 534 */
bogdanm 20:4263a77256ae 535 #define LPC_EMC_BASE 0x40005000
bogdanm 20:4263a77256ae 536
bogdanm 20:4263a77256ae 537 typedef struct { /*!< EMC Structure */
bogdanm 20:4263a77256ae 538 __IO uint32_t CONTROL; /*!< Controls operation of the memory controller. */
bogdanm 20:4263a77256ae 539 __I uint32_t STATUS; /*!< Provides EMC status information. */
bogdanm 20:4263a77256ae 540 __IO uint32_t CONFIG; /*!< Configures operation of the memory controller. */
bogdanm 20:4263a77256ae 541 __I uint32_t RESERVED0[5];
bogdanm 20:4263a77256ae 542 __IO uint32_t DYNAMICCONTROL; /*!< Controls dynamic memory operation. */
bogdanm 20:4263a77256ae 543 __IO uint32_t DYNAMICREFRESH; /*!< Configures dynamic memory refresh operation. */
bogdanm 20:4263a77256ae 544 __IO uint32_t DYNAMICREADCONFIG; /*!< Configures the dynamic memory read strategy. */
bogdanm 20:4263a77256ae 545 __I uint32_t RESERVED1;
bogdanm 20:4263a77256ae 546 __IO uint32_t DYNAMICRP; /*!< Selects the precharge command period. */
bogdanm 20:4263a77256ae 547 __IO uint32_t DYNAMICRAS; /*!< Selects the active to precharge command period. */
bogdanm 20:4263a77256ae 548 __IO uint32_t DYNAMICSREX; /*!< Selects the self-refresh exit time. */
bogdanm 20:4263a77256ae 549 __IO uint32_t DYNAMICAPR; /*!< Selects the last-data-out to active command time. */
bogdanm 20:4263a77256ae 550 __IO uint32_t DYNAMICDAL; /*!< Selects the data-in to active command time. */
bogdanm 20:4263a77256ae 551 __IO uint32_t DYNAMICWR; /*!< Selects the write recovery time. */
bogdanm 20:4263a77256ae 552 __IO uint32_t DYNAMICRC; /*!< Selects the active to active command period. */
bogdanm 20:4263a77256ae 553 __IO uint32_t DYNAMICRFC; /*!< Selects the auto-refresh period. */
bogdanm 20:4263a77256ae 554 __IO uint32_t DYNAMICXSR; /*!< Selects the exit self-refresh to active command time. */
bogdanm 20:4263a77256ae 555 __IO uint32_t DYNAMICRRD; /*!< Selects the active bank A to active bank B latency. */
bogdanm 20:4263a77256ae 556 __IO uint32_t DYNAMICMRD; /*!< Selects the load mode register to active command time. */
bogdanm 20:4263a77256ae 557 __I uint32_t RESERVED2[9];
bogdanm 20:4263a77256ae 558 __IO uint32_t STATICEXTENDEDWAIT; /*!< Selects time for long static memory read and write transfers. */
bogdanm 20:4263a77256ae 559 __I uint32_t RESERVED3[31];
bogdanm 20:4263a77256ae 560 __IO uint32_t DYNAMICCONFIG0; /*!< Selects the configuration information for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 561 __IO uint32_t DYNAMICRASCAS0; /*!< Selects the RAS and CAS latencies for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 562 __I uint32_t RESERVED4[6];
bogdanm 20:4263a77256ae 563 __IO uint32_t DYNAMICCONFIG1; /*!< Selects the configuration information for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 564 __IO uint32_t DYNAMICRASCAS1; /*!< Selects the RAS and CAS latencies for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 565 __I uint32_t RESERVED5[6];
bogdanm 20:4263a77256ae 566 __IO uint32_t DYNAMICCONFIG2; /*!< Selects the configuration information for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 567 __IO uint32_t DYNAMICRASCAS2; /*!< Selects the RAS and CAS latencies for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 568 __I uint32_t RESERVED6[6];
bogdanm 20:4263a77256ae 569 __IO uint32_t DYNAMICCONFIG3; /*!< Selects the configuration information for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 570 __IO uint32_t DYNAMICRASCAS3; /*!< Selects the RAS and CAS latencies for dynamic memory chip select n. */
bogdanm 20:4263a77256ae 571 __I uint32_t RESERVED7[38];
bogdanm 20:4263a77256ae 572 __IO uint32_t STATICCONFIG0; /*!< Selects the memory configuration for static chip select n. */
bogdanm 20:4263a77256ae 573 __IO uint32_t STATICWAITWEN0; /*!< Selects the delay from chip select n to write enable. */
bogdanm 20:4263a77256ae 574 __IO uint32_t STATICWAITOEN0; /*!< Selects the delay from chip select n or address change, whichever is later, to output enable. */
bogdanm 20:4263a77256ae 575 __IO uint32_t STATICWAITRD0; /*!< Selects the delay from chip select n to a read access. */
bogdanm 20:4263a77256ae 576 __IO uint32_t STATICWAITPAG0; /*!< Selects the delay for asynchronous page mode sequential accesses for chip select n. */
bogdanm 20:4263a77256ae 577 __IO uint32_t STATICWAITWR0; /*!< Selects the delay from chip select n to a write access. */
bogdanm 20:4263a77256ae 578 __IO uint32_t STATICWAITTURN0; /*!< Selects bus turnaround cycles */
bogdanm 20:4263a77256ae 579 __I uint32_t RESERVED8;
bogdanm 20:4263a77256ae 580 __IO uint32_t STATICCONFIG1; /*!< Selects the memory configuration for static chip select n. */
bogdanm 20:4263a77256ae 581 __IO uint32_t STATICWAITWEN1; /*!< Selects the delay from chip select n to write enable. */
bogdanm 20:4263a77256ae 582 __IO uint32_t STATICWAITOEN1; /*!< Selects the delay from chip select n or address change, whichever is later, to output enable. */
bogdanm 20:4263a77256ae 583 __IO uint32_t STATICWAITRD1; /*!< Selects the delay from chip select n to a read access. */
bogdanm 20:4263a77256ae 584 __IO uint32_t STATICWAITPAG1; /*!< Selects the delay for asynchronous page mode sequential accesses for chip select n. */
bogdanm 20:4263a77256ae 585 __IO uint32_t STATICWAITWR1; /*!< Selects the delay from chip select n to a write access. */
bogdanm 20:4263a77256ae 586 __IO uint32_t STATICWAITTURN1; /*!< Selects bus turnaround cycles */
bogdanm 20:4263a77256ae 587 __I uint32_t RESERVED9;
bogdanm 20:4263a77256ae 588 __IO uint32_t STATICCONFIG2; /*!< Selects the memory configuration for static chip select n. */
bogdanm 20:4263a77256ae 589 __IO uint32_t STATICWAITWEN2; /*!< Selects the delay from chip select n to write enable. */
bogdanm 20:4263a77256ae 590 __IO uint32_t STATICWAITOEN2; /*!< Selects the delay from chip select n or address change, whichever is later, to output enable. */
bogdanm 20:4263a77256ae 591 __IO uint32_t STATICWAITRD2; /*!< Selects the delay from chip select n to a read access. */
bogdanm 20:4263a77256ae 592 __IO uint32_t STATICWAITPAG2; /*!< Selects the delay for asynchronous page mode sequential accesses for chip select n. */
bogdanm 20:4263a77256ae 593 __IO uint32_t STATICWAITWR2; /*!< Selects the delay from chip select n to a write access. */
bogdanm 20:4263a77256ae 594 __IO uint32_t STATICWAITTURN2; /*!< Selects bus turnaround cycles */
bogdanm 20:4263a77256ae 595 __I uint32_t RESERVED10;
bogdanm 20:4263a77256ae 596 __IO uint32_t STATICCONFIG3; /*!< Selects the memory configuration for static chip select n. */
bogdanm 20:4263a77256ae 597 __IO uint32_t STATICWAITWEN3; /*!< Selects the delay from chip select n to write enable. */
bogdanm 20:4263a77256ae 598 __IO uint32_t STATICWAITOEN3; /*!< Selects the delay from chip select n or address change, whichever is later, to output enable. */
bogdanm 20:4263a77256ae 599 __IO uint32_t STATICWAITRD3; /*!< Selects the delay from chip select n to a read access. */
bogdanm 20:4263a77256ae 600 __IO uint32_t STATICWAITPAG3; /*!< Selects the delay for asynchronous page mode sequential accesses for chip select n. */
bogdanm 20:4263a77256ae 601 __IO uint32_t STATICWAITWR3; /*!< Selects the delay from chip select n to a write access. */
bogdanm 20:4263a77256ae 602 __IO uint32_t STATICWAITTURN3; /*!< Selects bus turnaround cycles */
bogdanm 20:4263a77256ae 603 } LPC_EMC_T;
bogdanm 20:4263a77256ae 604
bogdanm 20:4263a77256ae 605 /**
bogdanm 20:4263a77256ae 606 * @brief USB High-Speed register block structure
bogdanm 20:4263a77256ae 607 */
bogdanm 20:4263a77256ae 608 #define LPC_USB0_BASE 0x40006000
bogdanm 20:4263a77256ae 609 #define LPC_USB1_BASE 0x40007000
bogdanm 20:4263a77256ae 610
bogdanm 20:4263a77256ae 611 typedef struct { /*!< USB Structure */
bogdanm 20:4263a77256ae 612 __I uint32_t RESERVED0[64];
bogdanm 20:4263a77256ae 613 __I uint32_t CAPLENGTH; /*!< Capability register length */
bogdanm 20:4263a77256ae 614 __I uint32_t HCSPARAMS; /*!< Host controller structural parameters */
bogdanm 20:4263a77256ae 615 __I uint32_t HCCPARAMS; /*!< Host controller capability parameters */
bogdanm 20:4263a77256ae 616 __I uint32_t RESERVED1[5];
bogdanm 20:4263a77256ae 617 __I uint32_t DCIVERSION; /*!< Device interface version number */
bogdanm 20:4263a77256ae 618 __I uint32_t RESERVED2[7];
bogdanm 20:4263a77256ae 619 union {
bogdanm 20:4263a77256ae 620 __IO uint32_t USBCMD_H; /*!< USB command (host mode) */
bogdanm 20:4263a77256ae 621 __IO uint32_t USBCMD_D; /*!< USB command (device mode) */
bogdanm 20:4263a77256ae 622 };
bogdanm 20:4263a77256ae 623
bogdanm 20:4263a77256ae 624 union {
bogdanm 20:4263a77256ae 625 __IO uint32_t USBSTS_H; /*!< USB status (host mode) */
bogdanm 20:4263a77256ae 626 __IO uint32_t USBSTS_D; /*!< USB status (device mode) */
bogdanm 20:4263a77256ae 627 };
bogdanm 20:4263a77256ae 628
bogdanm 20:4263a77256ae 629 union {
bogdanm 20:4263a77256ae 630 __IO uint32_t USBINTR_H; /*!< USB interrupt enable (host mode) */
bogdanm 20:4263a77256ae 631 __IO uint32_t USBINTR_D; /*!< USB interrupt enable (device mode) */
bogdanm 20:4263a77256ae 632 };
bogdanm 20:4263a77256ae 633
bogdanm 20:4263a77256ae 634 union {
bogdanm 20:4263a77256ae 635 __IO uint32_t FRINDEX_H; /*!< USB frame index (host mode) */
bogdanm 20:4263a77256ae 636 __I uint32_t FRINDEX_D; /*!< USB frame index (device mode) */
bogdanm 20:4263a77256ae 637 };
bogdanm 20:4263a77256ae 638
bogdanm 20:4263a77256ae 639 __I uint32_t RESERVED3;
bogdanm 20:4263a77256ae 640 union {
bogdanm 20:4263a77256ae 641 __IO uint32_t PERIODICLISTBASE; /*!< Frame list base address */
bogdanm 20:4263a77256ae 642 __IO uint32_t DEVICEADDR; /*!< USB device address */
bogdanm 20:4263a77256ae 643 };
bogdanm 20:4263a77256ae 644
bogdanm 20:4263a77256ae 645 union {
bogdanm 20:4263a77256ae 646 __IO uint32_t ASYNCLISTADDR; /*!< Address of endpoint list in memory (host mode) */
bogdanm 20:4263a77256ae 647 __IO uint32_t ENDPOINTLISTADDR; /*!< Address of endpoint list in memory (device mode) */
bogdanm 20:4263a77256ae 648 };
bogdanm 20:4263a77256ae 649
bogdanm 20:4263a77256ae 650 __IO uint32_t TTCTRL; /*!< Asynchronous buffer status for embedded TT (host mode) */
bogdanm 20:4263a77256ae 651 __IO uint32_t BURSTSIZE; /*!< Programmable burst size */
bogdanm 20:4263a77256ae 652 __IO uint32_t TXFILLTUNING; /*!< Host transmit pre-buffer packet tuning (host mode) */
bogdanm 20:4263a77256ae 653 __I uint32_t RESERVED4[2];
bogdanm 20:4263a77256ae 654 __IO uint32_t ULPIVIEWPORT; /*!< ULPI viewport */
bogdanm 20:4263a77256ae 655 __IO uint32_t BINTERVAL; /*!< Length of virtual frame */
bogdanm 20:4263a77256ae 656 __IO uint32_t ENDPTNAK; /*!< Endpoint NAK (device mode) */
bogdanm 20:4263a77256ae 657 __IO uint32_t ENDPTNAKEN; /*!< Endpoint NAK Enable (device mode) */
bogdanm 20:4263a77256ae 658 __I uint32_t RESERVED5;
bogdanm 20:4263a77256ae 659 union {
bogdanm 20:4263a77256ae 660 __IO uint32_t PORTSC1_H; /*!< Port 1 status/control (host mode) */
bogdanm 20:4263a77256ae 661 __IO uint32_t PORTSC1_D; /*!< Port 1 status/control (device mode) */
bogdanm 20:4263a77256ae 662 };
bogdanm 20:4263a77256ae 663
bogdanm 20:4263a77256ae 664 __I uint32_t RESERVED6[7];
bogdanm 20:4263a77256ae 665 __IO uint32_t OTGSC; /*!< OTG status and control */
bogdanm 20:4263a77256ae 666 union {
bogdanm 20:4263a77256ae 667 __IO uint32_t USBMODE_H; /*!< USB mode (host mode) */
bogdanm 20:4263a77256ae 668 __IO uint32_t USBMODE_D; /*!< USB mode (device mode) */
bogdanm 20:4263a77256ae 669 };
bogdanm 20:4263a77256ae 670
bogdanm 20:4263a77256ae 671 __IO uint32_t ENDPTSETUPSTAT; /*!< Endpoint setup status */
bogdanm 20:4263a77256ae 672 __IO uint32_t ENDPTPRIME; /*!< Endpoint initialization */
bogdanm 20:4263a77256ae 673 __IO uint32_t ENDPTFLUSH; /*!< Endpoint de-initialization */
bogdanm 20:4263a77256ae 674 __I uint32_t ENDPTSTAT; /*!< Endpoint status */
bogdanm 20:4263a77256ae 675 __IO uint32_t ENDPTCOMPLETE; /*!< Endpoint complete */
bogdanm 20:4263a77256ae 676 __IO uint32_t ENDPTCTRL[6]; /*!< Endpoint control 0 */
bogdanm 20:4263a77256ae 677 } LPC_USBHS_T;
bogdanm 20:4263a77256ae 678
bogdanm 20:4263a77256ae 679 /**
bogdanm 20:4263a77256ae 680 * @brief LCD Controller register block structure
bogdanm 20:4263a77256ae 681 */
bogdanm 20:4263a77256ae 682 #define LPC_LCD_BASE 0x40008000
bogdanm 20:4263a77256ae 683
bogdanm 20:4263a77256ae 684 typedef struct { /*!< LCD Structure */
bogdanm 20:4263a77256ae 685 __IO uint32_t TIMH; /*!< Horizontal Timing Control register */
bogdanm 20:4263a77256ae 686 __IO uint32_t TIMV; /*!< Vertical Timing Control register */
bogdanm 20:4263a77256ae 687 __IO uint32_t POL; /*!< Clock and Signal Polarity Control register */
bogdanm 20:4263a77256ae 688 __IO uint32_t LE; /*!< Line End Control register */
bogdanm 20:4263a77256ae 689 __IO uint32_t UPBASE; /*!< Upper Panel Frame Base Address register */
bogdanm 20:4263a77256ae 690 __IO uint32_t LPBASE; /*!< Lower Panel Frame Base Address register */
bogdanm 20:4263a77256ae 691 __IO uint32_t CTRL; /*!< LCD Control register */
bogdanm 20:4263a77256ae 692 __IO uint32_t INTMSK; /*!< Interrupt Mask register */
bogdanm 20:4263a77256ae 693 __I uint32_t INTRAW; /*!< Raw Interrupt Status register */
bogdanm 20:4263a77256ae 694 __I uint32_t INTSTAT; /*!< Masked Interrupt Status register */
bogdanm 20:4263a77256ae 695 __O uint32_t INTCLR; /*!< Interrupt Clear register */
bogdanm 20:4263a77256ae 696 __I uint32_t UPCURR; /*!< Upper Panel Current Address Value register */
bogdanm 20:4263a77256ae 697 __I uint32_t LPCURR; /*!< Lower Panel Current Address Value register */
bogdanm 20:4263a77256ae 698 __I uint32_t RESERVED0[115];
bogdanm 20:4263a77256ae 699 __IO uint16_t PAL[256]; /*!< 256x16-bit Color Palette registers */
bogdanm 20:4263a77256ae 700 __I uint32_t RESERVED1[256];
bogdanm 20:4263a77256ae 701 __IO uint32_t CRSR_IMG[256];/*!< Cursor Image registers */
bogdanm 20:4263a77256ae 702 __IO uint32_t CRSR_CTRL; /*!< Cursor Control register */
bogdanm 20:4263a77256ae 703 __IO uint32_t CRSR_CFG; /*!< Cursor Configuration register */
bogdanm 20:4263a77256ae 704 __IO uint32_t CRSR_PAL0; /*!< Cursor Palette register 0 */
bogdanm 20:4263a77256ae 705 __IO uint32_t CRSR_PAL1; /*!< Cursor Palette register 1 */
bogdanm 20:4263a77256ae 706 __IO uint32_t CRSR_XY; /*!< Cursor XY Position register */
bogdanm 20:4263a77256ae 707 __IO uint32_t CRSR_CLIP; /*!< Cursor Clip Position register */
bogdanm 20:4263a77256ae 708 __I uint32_t RESERVED2[2];
bogdanm 20:4263a77256ae 709 __IO uint32_t CRSR_INTMSK; /*!< Cursor Interrupt Mask register */
bogdanm 20:4263a77256ae 710 __O uint32_t CRSR_INTCLR; /*!< Cursor Interrupt Clear register */
bogdanm 20:4263a77256ae 711 __I uint32_t CRSR_INTRAW; /*!< Cursor Raw Interrupt Status register */
bogdanm 20:4263a77256ae 712 __I uint32_t CRSR_INTSTAT;/*!< Cursor Masked Interrupt Status register */
bogdanm 20:4263a77256ae 713 } LPC_LCD_T;
bogdanm 20:4263a77256ae 714
bogdanm 20:4263a77256ae 715 /**
bogdanm 20:4263a77256ae 716 * @brief EEPROM register block structure
bogdanm 20:4263a77256ae 717 */
bogdanm 20:4263a77256ae 718 #define LPC_EEPROM_BASE 0x4000E000
bogdanm 20:4263a77256ae 719
bogdanm 20:4263a77256ae 720 typedef struct { /* EEPROM Structure */
bogdanm 20:4263a77256ae 721 __IO uint32_t CMD; /*!< EEPROM command register */
bogdanm 20:4263a77256ae 722 uint32_t RESERVED0;
bogdanm 20:4263a77256ae 723 __IO uint32_t RWSTATE; /*!< EEPROM read wait state register */
bogdanm 20:4263a77256ae 724 __IO uint32_t AUTOPROG; /*!< EEPROM auto programming register */
bogdanm 20:4263a77256ae 725 __IO uint32_t WSTATE; /*!< EEPROM wait state register */
bogdanm 20:4263a77256ae 726 __IO uint32_t CLKDIV; /*!< EEPROM clock divider register */
bogdanm 20:4263a77256ae 727 __IO uint32_t PWRDWN; /*!< EEPROM power-down register */
bogdanm 20:4263a77256ae 728 uint32_t RESERVED2[1007];
bogdanm 20:4263a77256ae 729 __O uint32_t INTENCLR; /*!< EEPROM interrupt enable clear */
bogdanm 20:4263a77256ae 730 __O uint32_t INTENSET; /*!< EEPROM interrupt enable set */
bogdanm 20:4263a77256ae 731 __I uint32_t INTSTAT; /*!< EEPROM interrupt status */
bogdanm 20:4263a77256ae 732 __I uint32_t INTEN; /*!< EEPROM interrupt enable */
bogdanm 20:4263a77256ae 733 __O uint32_t INTSTATCLR; /*!< EEPROM interrupt status clear */
bogdanm 20:4263a77256ae 734 __O uint32_t INTSTATSET; /*!< EEPROM interrupt status set */
bogdanm 20:4263a77256ae 735 } LPC_EEPROM_T;
bogdanm 20:4263a77256ae 736
bogdanm 20:4263a77256ae 737 /**
bogdanm 20:4263a77256ae 738 * @brief 10/100 MII & RMII Ethernet with timestamping register block structure
bogdanm 20:4263a77256ae 739 */
bogdanm 20:4263a77256ae 740 #define LPC_ETHERNET_BASE 0x40010000
bogdanm 20:4263a77256ae 741
bogdanm 20:4263a77256ae 742 typedef struct { /*!< ETHERNET Structure */
bogdanm 20:4263a77256ae 743 __IO uint32_t MAC_CONFIG; /*!< MAC configuration register */
bogdanm 20:4263a77256ae 744 __IO uint32_t MAC_FRAME_FILTER; /*!< MAC frame filter */
bogdanm 20:4263a77256ae 745 __IO uint32_t MAC_HASHTABLE_HIGH; /*!< Hash table high register */
bogdanm 20:4263a77256ae 746 __IO uint32_t MAC_HASHTABLE_LOW; /*!< Hash table low register */
bogdanm 20:4263a77256ae 747 __IO uint32_t MAC_MII_ADDR; /*!< MII address register */
bogdanm 20:4263a77256ae 748 __IO uint32_t MAC_MII_DATA; /*!< MII data register */
bogdanm 20:4263a77256ae 749 __IO uint32_t MAC_FLOW_CTRL; /*!< Flow control register */
bogdanm 20:4263a77256ae 750 __IO uint32_t MAC_VLAN_TAG; /*!< VLAN tag register */
bogdanm 20:4263a77256ae 751 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 752 __I uint32_t MAC_DEBUG; /*!< Debug register */
bogdanm 20:4263a77256ae 753 __IO uint32_t MAC_RWAKE_FRFLT; /*!< Remote wake-up frame filter */
bogdanm 20:4263a77256ae 754 __IO uint32_t MAC_PMT_CTRL_STAT; /*!< PMT control and status */
bogdanm 20:4263a77256ae 755 __I uint32_t RESERVED1[2];
bogdanm 20:4263a77256ae 756 __I uint32_t MAC_INTR; /*!< Interrupt status register */
bogdanm 20:4263a77256ae 757 __IO uint32_t MAC_INTR_MASK; /*!< Interrupt mask register */
bogdanm 20:4263a77256ae 758 __IO uint32_t MAC_ADDR0_HIGH; /*!< MAC address 0 high register */
bogdanm 20:4263a77256ae 759 __IO uint32_t MAC_ADDR0_LOW; /*!< MAC address 0 low register */
bogdanm 20:4263a77256ae 760 __I uint32_t RESERVED2[430];
bogdanm 20:4263a77256ae 761 __IO uint32_t MAC_TIMESTP_CTRL; /*!< Time stamp control register */
bogdanm 20:4263a77256ae 762 __IO uint32_t SUBSECOND_INCR; /*!< Sub-second increment register */
bogdanm 20:4263a77256ae 763 __I uint32_t SECONDS; /*!< System time seconds register */
bogdanm 20:4263a77256ae 764 __I uint32_t NANOSECONDS; /*!< System time nanoseconds register */
bogdanm 20:4263a77256ae 765 __IO uint32_t SECONDSUPDATE; /*!< System time seconds update register */
bogdanm 20:4263a77256ae 766 __IO uint32_t NANOSECONDSUPDATE; /*!< System time nanoseconds update register */
bogdanm 20:4263a77256ae 767 __IO uint32_t ADDEND; /*!< Time stamp addend register */
bogdanm 20:4263a77256ae 768 __IO uint32_t TARGETSECONDS; /*!< Target time seconds register */
bogdanm 20:4263a77256ae 769 __IO uint32_t TARGETNANOSECONDS; /*!< Target time nanoseconds register */
bogdanm 20:4263a77256ae 770 __IO uint32_t HIGHWORD; /*!< System time higher word seconds register */
bogdanm 20:4263a77256ae 771 __I uint32_t TIMESTAMPSTAT; /*!< Time stamp status register */
bogdanm 20:4263a77256ae 772 __IO uint32_t PPSCTRL; /*!< PPS control register */
bogdanm 20:4263a77256ae 773 __I uint32_t AUXNANOSECONDS; /*!< Auxiliary time stamp nanoseconds register */
bogdanm 20:4263a77256ae 774 __I uint32_t AUXSECONDS; /*!< Auxiliary time stamp seconds register */
bogdanm 20:4263a77256ae 775 __I uint32_t RESERVED3[562];
bogdanm 20:4263a77256ae 776 __IO uint32_t DMA_BUS_MODE; /*!< Bus Mode Register */
bogdanm 20:4263a77256ae 777 __IO uint32_t DMA_TRANS_POLL_DEMAND; /*!< Transmit poll demand register */
bogdanm 20:4263a77256ae 778 __IO uint32_t DMA_REC_POLL_DEMAND; /*!< Receive poll demand register */
bogdanm 20:4263a77256ae 779 __IO uint32_t DMA_REC_DES_ADDR; /*!< Receive descriptor list address register */
bogdanm 20:4263a77256ae 780 __IO uint32_t DMA_TRANS_DES_ADDR; /*!< Transmit descriptor list address register */
bogdanm 20:4263a77256ae 781 __IO uint32_t DMA_STAT; /*!< Status register */
bogdanm 20:4263a77256ae 782 __IO uint32_t DMA_OP_MODE; /*!< Operation mode register */
bogdanm 20:4263a77256ae 783 __IO uint32_t DMA_INT_EN; /*!< Interrupt enable register */
bogdanm 20:4263a77256ae 784 __I uint32_t DMA_MFRM_BUFOF; /*!< Missed frame and buffer overflow register */
bogdanm 20:4263a77256ae 785 __IO uint32_t DMA_REC_INT_WDT; /*!< Receive interrupt watchdog timer register */
bogdanm 20:4263a77256ae 786 __I uint32_t RESERVED4[8];
bogdanm 20:4263a77256ae 787 __I uint32_t DMA_CURHOST_TRANS_DES; /*!< Current host transmit descriptor register */
bogdanm 20:4263a77256ae 788 __I uint32_t DMA_CURHOST_REC_DES; /*!< Current host receive descriptor register */
bogdanm 20:4263a77256ae 789 __I uint32_t DMA_CURHOST_TRANS_BUF; /*!< Current host transmit buffer address register */
bogdanm 20:4263a77256ae 790 __I uint32_t DMA_CURHOST_REC_BUF; /*!< Current host receive buffer address register */
bogdanm 20:4263a77256ae 791 } LPC_ENET_T;
bogdanm 20:4263a77256ae 792
bogdanm 20:4263a77256ae 793 /**
bogdanm 20:4263a77256ae 794 * @brief Alarm Timer register block structure
bogdanm 20:4263a77256ae 795 */
bogdanm 20:4263a77256ae 796 #define LPC_ATIMER_BASE 0x40040000
bogdanm 20:4263a77256ae 797
bogdanm 20:4263a77256ae 798 typedef struct { /*!< ATIMER Structure */
bogdanm 20:4263a77256ae 799 __IO uint32_t DOWNCOUNTER; /*!< Downcounter register */
bogdanm 20:4263a77256ae 800 __IO uint32_t PRESET; /*!< Preset value register */
bogdanm 20:4263a77256ae 801 __I uint32_t RESERVED0[1012];
bogdanm 20:4263a77256ae 802 __O uint32_t CLR_EN; /*!< Interrupt clear enable register */
bogdanm 20:4263a77256ae 803 __O uint32_t SET_EN; /*!< Interrupt set enable register */
bogdanm 20:4263a77256ae 804 __I uint32_t STATUS; /*!< Status register */
bogdanm 20:4263a77256ae 805 __I uint32_t ENABLE; /*!< Enable register */
bogdanm 20:4263a77256ae 806 __O uint32_t CLR_STAT; /*!< Clear register */
bogdanm 20:4263a77256ae 807 __O uint32_t SET_STAT; /*!< Set register */
bogdanm 20:4263a77256ae 808 } LPC_ATIMER_T;
bogdanm 20:4263a77256ae 809
bogdanm 20:4263a77256ae 810 /**
bogdanm 20:4263a77256ae 811 * @brief Register File register block structure
bogdanm 20:4263a77256ae 812 */
bogdanm 20:4263a77256ae 813 #define LPC_REGFILE_BASE 0x40041000
bogdanm 20:4263a77256ae 814
bogdanm 20:4263a77256ae 815 typedef struct {
bogdanm 20:4263a77256ae 816 __IO uint32_t REGFILE[64]; /*!< General purpose storage register */
bogdanm 20:4263a77256ae 817 } LPC_REGFILE_T;
bogdanm 20:4263a77256ae 818
bogdanm 20:4263a77256ae 819 /**
bogdanm 20:4263a77256ae 820 * @brief Power Management Controller register block structure
bogdanm 20:4263a77256ae 821 */
bogdanm 20:4263a77256ae 822 #define LPC_PMC_BASE 0x40042000
bogdanm 20:4263a77256ae 823
bogdanm 20:4263a77256ae 824 typedef struct { /*!< PMC Structure */
bogdanm 20:4263a77256ae 825 __IO uint32_t PD0_SLEEP0_HW_ENA; /*!< Hardware sleep event enable register */
bogdanm 20:4263a77256ae 826 __I uint32_t RESERVED0[6];
bogdanm 20:4263a77256ae 827 __IO uint32_t PD0_SLEEP0_MODE; /*!< Sleep power mode register */
bogdanm 20:4263a77256ae 828 } LPC_PMC_T;
bogdanm 20:4263a77256ae 829
bogdanm 20:4263a77256ae 830 /**
bogdanm 20:4263a77256ae 831 * @brief CREG Register Block
bogdanm 20:4263a77256ae 832 */
bogdanm 20:4263a77256ae 833 #define LPC_CREG_BASE 0x40043000
bogdanm 20:4263a77256ae 834
bogdanm 20:4263a77256ae 835 typedef struct { /*!< CREG Structure */
bogdanm 20:4263a77256ae 836 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 837 __IO uint32_t CREG0; /*!< Chip configuration register 32 kHz oscillator output and BOD control register. */
bogdanm 20:4263a77256ae 838 __I uint32_t RESERVED1[62];
bogdanm 20:4263a77256ae 839 __IO uint32_t MXMEMMAP; /*!< ARM Cortex-M3/M4 memory mapping */
bogdanm 20:4263a77256ae 840 #if defined(CHIP_LPC18XX)
bogdanm 20:4263a77256ae 841 __I uint32_t RESERVED2[5];
bogdanm 20:4263a77256ae 842 #else
bogdanm 20:4263a77256ae 843 __I uint32_t RESERVED2;
bogdanm 20:4263a77256ae 844 __I uint32_t CREG1; /*!< Configuration Register 1 */
bogdanm 20:4263a77256ae 845 __I uint32_t CREG2; /*!< Configuration Register 2 */
bogdanm 20:4263a77256ae 846 __I uint32_t CREG3; /*!< Configuration Register 3 */
bogdanm 20:4263a77256ae 847 __I uint32_t CREG4; /*!< Configuration Register 4 */
bogdanm 20:4263a77256ae 848 #endif
bogdanm 20:4263a77256ae 849 __IO uint32_t CREG5; /*!< Chip configuration register 5. Controls JTAG access. */
bogdanm 20:4263a77256ae 850 __IO uint32_t DMAMUX; /*!< DMA muxing control */
bogdanm 20:4263a77256ae 851 __IO uint32_t FLASHCFGA; /*!< Flash accelerator configuration register for flash bank A */
bogdanm 20:4263a77256ae 852 __IO uint32_t FLASHCFGB; /*!< Flash accelerator configuration register for flash bank B */
bogdanm 20:4263a77256ae 853 __IO uint32_t ETBCFG; /*!< ETB RAM configuration */
bogdanm 20:4263a77256ae 854 __IO uint32_t CREG6; /*!< Chip configuration register 6. */
bogdanm 20:4263a77256ae 855 #if defined(CHIP_LPC18XX)
bogdanm 20:4263a77256ae 856 __I uint32_t RESERVED4[52];
bogdanm 20:4263a77256ae 857 #else
bogdanm 20:4263a77256ae 858 __IO uint32_t M4TXEVENT; /*!< M4 IPC event register */
bogdanm 20:4263a77256ae 859 __I uint32_t RESERVED4[51];
bogdanm 20:4263a77256ae 860 #endif
bogdanm 20:4263a77256ae 861 __I uint32_t CHIPID; /*!< Part ID */
bogdanm 20:4263a77256ae 862 #if defined(CHIP_LPC18XX)
bogdanm 20:4263a77256ae 863 __I uint32_t RESERVED5[191];
bogdanm 20:4263a77256ae 864 #else
bogdanm 20:4263a77256ae 865 __I uint32_t RESERVED5[127];
bogdanm 20:4263a77256ae 866 __IO uint32_t M0TXEVENT; /*!< M0 IPC Event register */
bogdanm 20:4263a77256ae 867 __IO uint32_t M0APPMEMMAP; /*!< ARM Cortex M0 memory mapping */
bogdanm 20:4263a77256ae 868 __I uint32_t RESERVED6[62];
bogdanm 20:4263a77256ae 869 #endif
bogdanm 20:4263a77256ae 870 __IO uint32_t USB0FLADJ; /*!< USB0 frame length adjust register */
bogdanm 20:4263a77256ae 871 __I uint32_t RESERVED7[63];
bogdanm 20:4263a77256ae 872 __IO uint32_t USB1FLADJ; /*!< USB1 frame length adjust register */
bogdanm 20:4263a77256ae 873 } LPC_CREG_T;
bogdanm 20:4263a77256ae 874
bogdanm 20:4263a77256ae 875 /**
bogdanm 20:4263a77256ae 876 * @brief Event Router register structure
bogdanm 20:4263a77256ae 877 */
bogdanm 20:4263a77256ae 878 #define LPC_EVRT_BASE 0x40044000
bogdanm 20:4263a77256ae 879
bogdanm 20:4263a77256ae 880 typedef struct { /*!< EVENTROUTER Structure */
bogdanm 20:4263a77256ae 881 __IO uint32_t HILO; /*!< Level configuration register */
bogdanm 20:4263a77256ae 882 __IO uint32_t EDGE; /*!< Edge configuration */
bogdanm 20:4263a77256ae 883 __I uint32_t RESERVED0[1012];
bogdanm 20:4263a77256ae 884 __O uint32_t CLR_EN; /*!< Event clear enable register */
bogdanm 20:4263a77256ae 885 __O uint32_t SET_EN; /*!< Event set enable register */
bogdanm 20:4263a77256ae 886 __I uint32_t STATUS; /*!< Status register */
bogdanm 20:4263a77256ae 887 __I uint32_t ENABLE; /*!< Enable register */
bogdanm 20:4263a77256ae 888 __O uint32_t CLR_STAT; /*!< Clear register */
bogdanm 20:4263a77256ae 889 __O uint32_t SET_STAT; /*!< Set register */
bogdanm 20:4263a77256ae 890 } LPC_EVRT_T;
bogdanm 20:4263a77256ae 891
bogdanm 20:4263a77256ae 892 /**
bogdanm 20:4263a77256ae 893 * @brief Real Time Clock register block structure
bogdanm 20:4263a77256ae 894 */
bogdanm 20:4263a77256ae 895 #define LPC_RTC_BASE 0x40046000
bogdanm 20:4263a77256ae 896 #define RTC_EV_SUPPORT 1 /* Event Monitor/Recorder support */
bogdanm 20:4263a77256ae 897
bogdanm 20:4263a77256ae 898 typedef enum IP_RTC_TIMEINDEX {
bogdanm 20:4263a77256ae 899 RTC_TIMETYPE_SECOND, /*!< Second */
bogdanm 20:4263a77256ae 900 RTC_TIMETYPE_MINUTE, /*!< Month */
bogdanm 20:4263a77256ae 901 RTC_TIMETYPE_HOUR, /*!< Hour */
bogdanm 20:4263a77256ae 902 RTC_TIMETYPE_DAYOFMONTH, /*!< Day of month */
bogdanm 20:4263a77256ae 903 RTC_TIMETYPE_DAYOFWEEK, /*!< Day of week */
bogdanm 20:4263a77256ae 904 RTC_TIMETYPE_DAYOFYEAR, /*!< Day of year */
bogdanm 20:4263a77256ae 905 RTC_TIMETYPE_MONTH, /*!< Month */
bogdanm 20:4263a77256ae 906 RTC_TIMETYPE_YEAR, /*!< Year */
bogdanm 20:4263a77256ae 907 RTC_TIMETYPE_LAST
bogdanm 20:4263a77256ae 908 } IP_RTC_TIMEINDEX_T;
bogdanm 20:4263a77256ae 909
bogdanm 20:4263a77256ae 910 #if RTC_EV_SUPPORT
bogdanm 20:4263a77256ae 911 typedef enum LPC_RTC_EV_CHANNEL {
bogdanm 20:4263a77256ae 912 RTC_EV_CHANNEL_1 = 0,
bogdanm 20:4263a77256ae 913 RTC_EV_CHANNEL_2,
bogdanm 20:4263a77256ae 914 RTC_EV_CHANNEL_3,
bogdanm 20:4263a77256ae 915 RTC_EV_CHANNEL_NUM,
bogdanm 20:4263a77256ae 916 } LPC_RTC_EV_CHANNEL_T;
bogdanm 20:4263a77256ae 917 #endif /*RTC_EV_SUPPORT*/
bogdanm 20:4263a77256ae 918
bogdanm 20:4263a77256ae 919 typedef struct { /*!< RTC Structure */
bogdanm 20:4263a77256ae 920 __IO uint32_t ILR; /*!< Interrupt Location Register */
bogdanm 20:4263a77256ae 921 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 922 __IO uint32_t CCR; /*!< Clock Control Register */
bogdanm 20:4263a77256ae 923 __IO uint32_t CIIR; /*!< Counter Increment Interrupt Register */
bogdanm 20:4263a77256ae 924 __IO uint32_t AMR; /*!< Alarm Mask Register */
bogdanm 20:4263a77256ae 925 __I uint32_t CTIME[3]; /*!< Consolidated Time Register 0,1,2 */
bogdanm 20:4263a77256ae 926 __IO uint32_t TIME[RTC_TIMETYPE_LAST]; /*!< Timer field registers */
bogdanm 20:4263a77256ae 927 __IO uint32_t CALIBRATION; /*!< Calibration Value Register */
bogdanm 20:4263a77256ae 928 __I uint32_t RESERVED1[7];
bogdanm 20:4263a77256ae 929 __IO uint32_t ALRM[RTC_TIMETYPE_LAST]; /*!< Alarm field registers */
bogdanm 20:4263a77256ae 930 #if RTC_EV_SUPPORT
bogdanm 20:4263a77256ae 931 __IO uint32_t ERSTATUS; /*!< Event Monitor/Recorder Status register*/
bogdanm 20:4263a77256ae 932 __IO uint32_t ERCONTROL; /*!< Event Monitor/Recorder Control register*/
bogdanm 20:4263a77256ae 933 __I uint32_t ERCOUNTERS; /*!< Event Monitor/Recorder Counters register*/
bogdanm 20:4263a77256ae 934 __I uint32_t RESERVED2;
bogdanm 20:4263a77256ae 935 __I uint32_t ERFIRSTSTAMP[RTC_EV_CHANNEL_NUM]; /*!<Event Monitor/Recorder First Stamp registers*/
bogdanm 20:4263a77256ae 936 __I uint32_t RESERVED3;
bogdanm 20:4263a77256ae 937 __I uint32_t ERLASTSTAMP[RTC_EV_CHANNEL_NUM]; /*!<Event Monitor/Recorder Last Stamp registers*/
bogdanm 20:4263a77256ae 938 #endif /*RTC_EV_SUPPORT*/
bogdanm 20:4263a77256ae 939 } LPC_RTC_T;
bogdanm 20:4263a77256ae 940
bogdanm 20:4263a77256ae 941 /**
bogdanm 20:4263a77256ae 942 * @brief LPC18XX/43XX CGU register block structure
bogdanm 20:4263a77256ae 943 */
bogdanm 20:4263a77256ae 944 #define LPC_CGU_BASE 0x40050000
bogdanm 20:4263a77256ae 945 #define LPC_CCU1_BASE 0x40051000
bogdanm 20:4263a77256ae 946 #define LPC_CCU2_BASE 0x40052000
bogdanm 20:4263a77256ae 947 /**
bogdanm 20:4263a77256ae 948 * These are possible input clocks for the CGU and can come
bogdanm 20:4263a77256ae 949 * from both external (crystal) and internal (PLL) sources. These
bogdanm 20:4263a77256ae 950 * clock inputs can be routed to the base clocks (@ref CGU_BASE_CLK_T).
bogdanm 20:4263a77256ae 951 */
bogdanm 20:4263a77256ae 952 typedef enum CGU_CLKIN {
bogdanm 20:4263a77256ae 953 CLKIN_32K, /*!< External 32KHz input */
bogdanm 20:4263a77256ae 954 CLKIN_IRC, /*!< Internal IRC (12MHz) input */
bogdanm 20:4263a77256ae 955 CLKIN_ENET_RX, /*!< External ENET_RX pin input */
bogdanm 20:4263a77256ae 956 CLKIN_ENET_TX, /*!< External ENET_TX pin input */
bogdanm 20:4263a77256ae 957 CLKIN_CLKIN, /*!< External GPCLKIN pin input */
bogdanm 20:4263a77256ae 958 CLKIN_RESERVED1,
bogdanm 20:4263a77256ae 959 CLKIN_CRYSTAL, /*!< External (main) crystal pin input */
bogdanm 20:4263a77256ae 960 CLKIN_USBPLL, /*!< Internal USB PLL input */
bogdanm 20:4263a77256ae 961 CLKIN_AUDIOPLL, /*!< Internal Audio PLL input */
bogdanm 20:4263a77256ae 962 CLKIN_MAINPLL, /*!< Internal Main PLL input */
bogdanm 20:4263a77256ae 963 CLKIN_RESERVED2,
bogdanm 20:4263a77256ae 964 CLKIN_RESERVED3,
bogdanm 20:4263a77256ae 965 CLKIN_IDIVA, /*!< Internal divider A input */
bogdanm 20:4263a77256ae 966 CLKIN_IDIVB, /*!< Internal divider B input */
bogdanm 20:4263a77256ae 967 CLKIN_IDIVC, /*!< Internal divider C input */
bogdanm 20:4263a77256ae 968 CLKIN_IDIVD, /*!< Internal divider D input */
bogdanm 20:4263a77256ae 969 CLKIN_IDIVE, /*!< Internal divider E input */
bogdanm 20:4263a77256ae 970 CLKINPUT_PD /*!< External 32KHz input */
bogdanm 20:4263a77256ae 971 } CGU_CLKIN_T;
bogdanm 20:4263a77256ae 972
bogdanm 20:4263a77256ae 973 #define CLKIN_PLL0USB CLKIN_USBPLL
bogdanm 20:4263a77256ae 974 #define CLKIN_PLL0AUDIO CLKIN_AUDIOPLL
bogdanm 20:4263a77256ae 975 #define CLKIN_PLL1 CLKIN_MAINPLL
bogdanm 20:4263a77256ae 976
bogdanm 20:4263a77256ae 977 /**
bogdanm 20:4263a77256ae 978 * CGU base clocks are clocks that are associated with a single input clock
bogdanm 20:4263a77256ae 979 * and are routed out to 1 or more peripherals. For example, the CLK_BASE_PERIPH
bogdanm 20:4263a77256ae 980 * clock can be configured to use the CLKIN_MAINPLL input clock, which will in
bogdanm 20:4263a77256ae 981 * turn route that clock to the CLK_PERIPH_BUS, CLK_PERIPH_CORE, and
bogdanm 20:4263a77256ae 982 * CLK_PERIPH_SGPIO periphral clocks.
bogdanm 20:4263a77256ae 983 */
bogdanm 20:4263a77256ae 984 typedef enum CGU_BASE_CLK {
bogdanm 20:4263a77256ae 985 CLK_BASE_SAFE, /*!< Base clock for WDT oscillator, IRC input only */
bogdanm 20:4263a77256ae 986 CLK_BASE_USB0, /*!< Base USB clock for USB0, USB PLL input only */
bogdanm 20:4263a77256ae 987 #if defined(CHIP_LPC43XX)
bogdanm 20:4263a77256ae 988 CLK_BASE_PERIPH, /*!< Base clock for SGPIO */
bogdanm 20:4263a77256ae 989 #else
bogdanm 20:4263a77256ae 990 CLK_BASE_RESERVED1,
bogdanm 20:4263a77256ae 991 #endif
bogdanm 20:4263a77256ae 992 CLK_BASE_USB1, /*!< Base USB clock for USB1 */
bogdanm 20:4263a77256ae 993 CLK_BASE_MX, /*!< Base clock for CPU core */
bogdanm 20:4263a77256ae 994 CLK_BASE_SPIFI, /*!< Base clock for SPIFI */
bogdanm 20:4263a77256ae 995 #if defined(CHIP_LPC43XX)
bogdanm 20:4263a77256ae 996 CLK_BASE_SPI, /*!< Base clock for SPI */
bogdanm 20:4263a77256ae 997 #else
bogdanm 20:4263a77256ae 998 CLK_BASE_RESERVED2,
bogdanm 20:4263a77256ae 999 #endif
bogdanm 20:4263a77256ae 1000 CLK_BASE_PHY_RX, /*!< Base clock for PHY RX */
bogdanm 20:4263a77256ae 1001 CLK_BASE_PHY_TX, /*!< Base clock for PHY TX */
bogdanm 20:4263a77256ae 1002 CLK_BASE_APB1, /*!< Base clock for APB1 group */
bogdanm 20:4263a77256ae 1003 CLK_BASE_APB3, /*!< Base clock for APB3 group */
bogdanm 20:4263a77256ae 1004 CLK_BASE_LCD, /*!< Base clock for LCD pixel clock */
bogdanm 20:4263a77256ae 1005 #if defined(CHIP_LPC43XX)
bogdanm 20:4263a77256ae 1006 CLK_BASE_VADC, /*!< Base clock for VADC */
bogdanm 20:4263a77256ae 1007 #else
bogdanm 20:4263a77256ae 1008 CLK_BASE_RESERVED3,
bogdanm 20:4263a77256ae 1009 #endif
bogdanm 20:4263a77256ae 1010 CLK_BASE_SDIO, /*!< Base clock for SDIO */
bogdanm 20:4263a77256ae 1011 CLK_BASE_SSP0, /*!< Base clock for SSP0 */
bogdanm 20:4263a77256ae 1012 CLK_BASE_SSP1, /*!< Base clock for SSP1 */
bogdanm 20:4263a77256ae 1013 CLK_BASE_UART0, /*!< Base clock for UART0 */
bogdanm 20:4263a77256ae 1014 CLK_BASE_UART1, /*!< Base clock for UART1 */
bogdanm 20:4263a77256ae 1015 CLK_BASE_UART2, /*!< Base clock for UART2 */
bogdanm 20:4263a77256ae 1016 CLK_BASE_UART3, /*!< Base clock for UART3 */
bogdanm 20:4263a77256ae 1017 CLK_BASE_OUT, /*!< Base clock for CLKOUT pin */
bogdanm 20:4263a77256ae 1018 CLK_BASE_RESERVED4,
bogdanm 20:4263a77256ae 1019 CLK_BASE_RESERVED5,
bogdanm 20:4263a77256ae 1020 CLK_BASE_RESERVED6,
bogdanm 20:4263a77256ae 1021 CLK_BASE_RESERVED7,
bogdanm 20:4263a77256ae 1022 CLK_BASE_APLL, /*!< Base clock for audio PLL */
bogdanm 20:4263a77256ae 1023 CLK_BASE_CGU_OUT0, /*!< Base clock for CGUOUT0 pin */
bogdanm 20:4263a77256ae 1024 CLK_BASE_CGU_OUT1, /*!< Base clock for CGUOUT1 pin */
bogdanm 20:4263a77256ae 1025 CLK_BASE_LAST,
bogdanm 20:4263a77256ae 1026 CLK_BASE_NONE = CLK_BASE_LAST
bogdanm 20:4263a77256ae 1027 } CGU_BASE_CLK_T;
bogdanm 20:4263a77256ae 1028
bogdanm 20:4263a77256ae 1029 /**
bogdanm 20:4263a77256ae 1030 * CGU dividers provide an extra clock state where a specific clock can be
bogdanm 20:4263a77256ae 1031 * divided before being routed to a peripheral group. A divider accepts an
bogdanm 20:4263a77256ae 1032 * input clock and then divides it. To use the divided clock for a base clock
bogdanm 20:4263a77256ae 1033 * group, use the divider as the input clock for the base clock (for example,
bogdanm 20:4263a77256ae 1034 * use CLKIN_IDIVB, where CLKIN_MAINPLL might be the input into the divider).
bogdanm 20:4263a77256ae 1035 */
bogdanm 20:4263a77256ae 1036 typedef enum CGU_IDIV {
bogdanm 20:4263a77256ae 1037 CLK_IDIV_A, /*!< CGU clock divider A */
bogdanm 20:4263a77256ae 1038 CLK_IDIV_B, /*!< CGU clock divider B */
bogdanm 20:4263a77256ae 1039 CLK_IDIV_C, /*!< CGU clock divider A */
bogdanm 20:4263a77256ae 1040 CLK_IDIV_D, /*!< CGU clock divider D */
bogdanm 20:4263a77256ae 1041 CLK_IDIV_E, /*!< CGU clock divider E */
bogdanm 20:4263a77256ae 1042 CLK_IDIV_LAST
bogdanm 20:4263a77256ae 1043 } CGU_IDIV_T;
bogdanm 20:4263a77256ae 1044
bogdanm 20:4263a77256ae 1045 /**
bogdanm 20:4263a77256ae 1046 * Peripheral clocks are individual clocks routed to peripherals. Although
bogdanm 20:4263a77256ae 1047 * multiple peripherals may share a same base clock, each peripheral's clock
bogdanm 20:4263a77256ae 1048 * can be enabled or disabled individually. Some peripheral clocks also have
bogdanm 20:4263a77256ae 1049 * additional dividers associated with them.
bogdanm 20:4263a77256ae 1050 */
bogdanm 20:4263a77256ae 1051 typedef enum CCU_CLK {
bogdanm 20:4263a77256ae 1052 /* CCU1 clocks */
bogdanm 20:4263a77256ae 1053 CLK_APB3_BUS, /*!< APB3 bus clock from base clock CLK_BASE_APB3 */
bogdanm 20:4263a77256ae 1054 CLK_APB3_I2C1, /*!< I2C1 register/perigheral clock from base clock CLK_BASE_APB3 */
bogdanm 20:4263a77256ae 1055 CLK_APB3_DAC, /*!< DAC peripheral clock from base clock CLK_BASE_APB3 */
bogdanm 20:4263a77256ae 1056 CLK_APB3_ADC0, /*!< ADC0 register/perigheral clock from base clock CLK_BASE_APB3 */
bogdanm 20:4263a77256ae 1057 CLK_APB3_ADC1, /*!< ADC1 register/perigheral clock from base clock CLK_BASE_APB3 */
bogdanm 20:4263a77256ae 1058 CLK_APB3_CAN0, /*!< CAN0 register/perigheral clock from base clock CLK_BASE_APB3 */
bogdanm 20:4263a77256ae 1059 CLK_APB1_BUS = 32, /*!< APB1 bus clock clock from base clock CLK_BASE_APB1 */
bogdanm 20:4263a77256ae 1060 CLK_APB1_MOTOCON, /*!< Motor controller register/perigheral clock from base clock CLK_BASE_APB1 */
bogdanm 20:4263a77256ae 1061 CLK_APB1_I2C0, /*!< I2C0 register/perigheral clock from base clock CLK_BASE_APB1 */
bogdanm 20:4263a77256ae 1062 CLK_APB1_I2S, /*!< I2S register/perigheral clock from base clock CLK_BASE_APB1 */
bogdanm 20:4263a77256ae 1063 CLK_APB1_CAN1, /*!< CAN1 register/perigheral clock from base clock CLK_BASE_APB1 */
bogdanm 20:4263a77256ae 1064 CLK_SPIFI = 64, /*!< SPIFI SCKI input clock from base clock CLK_BASE_SPIFI */
bogdanm 20:4263a77256ae 1065 CLK_MX_BUS = 96, /*!< M3/M4 BUS core clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1066 CLK_MX_SPIFI, /*!< SPIFI register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1067 CLK_MX_GPIO, /*!< GPIO register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1068 CLK_MX_LCD, /*!< LCD register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1069 CLK_MX_ETHERNET, /*!< ETHERNET register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1070 CLK_MX_USB0, /*!< USB0 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1071 CLK_MX_EMC, /*!< EMC clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1072 CLK_MX_SDIO, /*!< SDIO register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1073 CLK_MX_DMA, /*!< DMA register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1074 CLK_MX_MXCORE, /*!< M3/M4 CPU core clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1075 RESERVED_ALIGN = CLK_MX_MXCORE + 3,
bogdanm 20:4263a77256ae 1076 CLK_MX_SCT, /*!< SCT register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1077 CLK_MX_USB1, /*!< USB1 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1078 CLK_MX_EMC_DIV, /*!< ENC divider clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1079 CLK_MX_FLASHA, /*!< FLASHA bank clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1080 CLK_MX_FLASHB, /*!< FLASHB bank clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1081 #if defined(CHIP_LPC43XX)
bogdanm 20:4263a77256ae 1082 CLK_M4_M0APP, /*!< M0 app CPU core clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1083 CLK_MX_VADC, /*!< VADC clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1084 #else
bogdanm 20:4263a77256ae 1085 CLK_RESERVED1,
bogdanm 20:4263a77256ae 1086 CLK_RESERVED2,
bogdanm 20:4263a77256ae 1087 #endif
bogdanm 20:4263a77256ae 1088 CLK_MX_EEPROM, /*!< EEPROM clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1089 CLK_MX_WWDT = 128, /*!< WWDT register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1090 CLK_MX_UART0, /*!< UART0 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1091 CLK_MX_UART1, /*!< UART1 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1092 CLK_MX_SSP0, /*!< SSP0 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1093 CLK_MX_TIMER0, /*!< TIMER0 register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1094 CLK_MX_TIMER1, /*!< TIMER1 register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1095 CLK_MX_SCU, /*!< SCU register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1096 CLK_MX_CREG, /*!< CREG clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1097 CLK_MX_RITIMER = 160, /*!< RITIMER register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1098 CLK_MX_UART2, /*!< UART3 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1099 CLK_MX_UART3, /*!< UART4 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1100 CLK_MX_TIMER2, /*!< TIMER2 register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1101 CLK_MX_TIMER3, /*!< TIMER3 register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1102 CLK_MX_SSP1, /*!< SSP1 register clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1103 CLK_MX_QEI, /*!< QEI register/perigheral clock from base clock CLK_BASE_MX */
bogdanm 20:4263a77256ae 1104 #if defined(CHIP_LPC43XX)
bogdanm 20:4263a77256ae 1105 CLK_PERIPH_BUS = 192, /*!< Peripheral bus clock from base clock CLK_BASE_PERIPH */
bogdanm 20:4263a77256ae 1106 CLK_RESERVED3,
bogdanm 20:4263a77256ae 1107 CLK_PERIPH_CORE, /*!< Peripheral core clock from base clock CLK_BASE_PERIPH */
bogdanm 20:4263a77256ae 1108 CLK_PERIPH_SGPIO, /*!< SGPIO clock from base clock CLK_BASE_PERIPH */
bogdanm 20:4263a77256ae 1109 #else
bogdanm 20:4263a77256ae 1110 CLK_RESERVED3 = 192,
bogdanm 20:4263a77256ae 1111 CLK_RESERVED3A,
bogdanm 20:4263a77256ae 1112 CLK_RESERVED4,
bogdanm 20:4263a77256ae 1113 CLK_RESERVED5,
bogdanm 20:4263a77256ae 1114 #endif
bogdanm 20:4263a77256ae 1115 CLK_USB0 = 224, /*!< USB0 clock from base clock CLK_BASE_USB0 */
bogdanm 20:4263a77256ae 1116 CLK_USB1 = 256, /*!< USB1 clock from base clock CLK_BASE_USB1 */
bogdanm 20:4263a77256ae 1117 #if defined(CHIP_LPC43XX)
bogdanm 20:4263a77256ae 1118 CLK_SPI = 288, /*!< SPI clock from base clock CLK_BASE_SPI */
bogdanm 20:4263a77256ae 1119 CLK_VADC, /*!< VADC clock from base clock CLK_BASE_VADC */
bogdanm 20:4263a77256ae 1120 #else
bogdanm 20:4263a77256ae 1121 CLK_RESERVED7 = 320,
bogdanm 20:4263a77256ae 1122 CLK_RESERVED8,
bogdanm 20:4263a77256ae 1123 #endif
bogdanm 20:4263a77256ae 1124 CLK_CCU1_LAST,
bogdanm 20:4263a77256ae 1125
bogdanm 20:4263a77256ae 1126 /* CCU2 clocks */
bogdanm 20:4263a77256ae 1127 CLK_CCU2_START,
bogdanm 20:4263a77256ae 1128 CLK_APLL = CLK_CCU2_START, /*!< Audio PLL clock from base clock CLK_BASE_APLL */
bogdanm 20:4263a77256ae 1129 RESERVED_ALIGNB = CLK_CCU2_START + 31,
bogdanm 20:4263a77256ae 1130 CLK_APB2_UART3, /*!< UART3 clock from base clock CLK_BASE_UART3 */
bogdanm 20:4263a77256ae 1131 RESERVED_ALIGNC = CLK_CCU2_START + 63,
bogdanm 20:4263a77256ae 1132 CLK_APB2_UART2, /*!< UART2 clock from base clock CLK_BASE_UART2 */
bogdanm 20:4263a77256ae 1133 RESERVED_ALIGND = CLK_CCU2_START + 95,
bogdanm 20:4263a77256ae 1134 CLK_APB0_UART1, /*!< UART1 clock from base clock CLK_BASE_UART1 */
bogdanm 20:4263a77256ae 1135 RESERVED_ALIGNE = CLK_CCU2_START + 127,
bogdanm 20:4263a77256ae 1136 CLK_APB0_UART0, /*!< UART0 clock from base clock CLK_BASE_UART0 */
bogdanm 20:4263a77256ae 1137 RESERVED_ALIGNF = CLK_CCU2_START + 159,
bogdanm 20:4263a77256ae 1138 CLK_APB2_SSP1, /*!< SSP1 clock from base clock CLK_BASE_SSP1 */
bogdanm 20:4263a77256ae 1139 RESERVED_ALIGNG = CLK_CCU2_START + 191,
bogdanm 20:4263a77256ae 1140 CLK_APB0_SSP0, /*!< SSP0 clock from base clock CLK_BASE_SSP0 */
bogdanm 20:4263a77256ae 1141 RESERVED_ALIGNH = CLK_CCU2_START + 223,
bogdanm 20:4263a77256ae 1142 CLK_APB2_SDIO, /*!< SDIO clock from base clock CLK_BASE_SDIO */
bogdanm 20:4263a77256ae 1143 CLK_CCU2_LAST
bogdanm 20:4263a77256ae 1144 } CCU_CLK_T;
bogdanm 20:4263a77256ae 1145
bogdanm 20:4263a77256ae 1146 /**
bogdanm 20:4263a77256ae 1147 * Audio or USB PLL selection
bogdanm 20:4263a77256ae 1148 */
bogdanm 20:4263a77256ae 1149 typedef enum CHIP_CGU_USB_AUDIO_PLL {
bogdanm 20:4263a77256ae 1150 CGU_USB_PLL,
bogdanm 20:4263a77256ae 1151 CGU_AUDIO_PLL
bogdanm 20:4263a77256ae 1152 } CHIP_CGU_USB_AUDIO_PLL_T;
bogdanm 20:4263a77256ae 1153
bogdanm 20:4263a77256ae 1154 /**
bogdanm 20:4263a77256ae 1155 * PLL register block
bogdanm 20:4263a77256ae 1156 */
bogdanm 20:4263a77256ae 1157 typedef struct {
bogdanm 20:4263a77256ae 1158 __I uint32_t PLL_STAT; /*!< PLL status register */
bogdanm 20:4263a77256ae 1159 __IO uint32_t PLL_CTRL; /*!< PLL control register */
bogdanm 20:4263a77256ae 1160 __IO uint32_t PLL_MDIV; /*!< PLL M-divider register */
bogdanm 20:4263a77256ae 1161 __IO uint32_t PLL_NP_DIV; /*!< PLL N/P-divider register */
bogdanm 20:4263a77256ae 1162 } CGU_PLL_REG_T;
bogdanm 20:4263a77256ae 1163
bogdanm 20:4263a77256ae 1164 typedef struct { /*!< (@ 0x40050000) CGU Structure */
bogdanm 20:4263a77256ae 1165 __I uint32_t RESERVED0[5];
bogdanm 20:4263a77256ae 1166 __IO uint32_t FREQ_MON; /*!< (@ 0x40050014) Frequency monitor register */
bogdanm 20:4263a77256ae 1167 __IO uint32_t XTAL_OSC_CTRL; /*!< (@ 0x40050018) Crystal oscillator control register */
bogdanm 20:4263a77256ae 1168 CGU_PLL_REG_T PLL[CGU_AUDIO_PLL + 1]; /*!< (@ 0x4005001C) USB and audio PLL blocks */
bogdanm 20:4263a77256ae 1169 __IO uint32_t PLL0AUDIO_FRAC; /*!< (@ 0x4005003C) PLL0 (audio) */
bogdanm 20:4263a77256ae 1170 __I uint32_t PLL1_STAT; /*!< (@ 0x40050040) PLL1 status register */
bogdanm 20:4263a77256ae 1171 __IO uint32_t PLL1_CTRL; /*!< (@ 0x40050044) PLL1 control register */
bogdanm 20:4263a77256ae 1172 __IO uint32_t IDIV_CTRL[CLK_IDIV_LAST];/*!< (@ 0x40050048) Integer divider A-E control registers */
bogdanm 20:4263a77256ae 1173 __IO uint32_t BASE_CLK[CLK_BASE_LAST]; /*!< (@ 0x4005005C) Start of base clock registers */
bogdanm 20:4263a77256ae 1174 } LPC_CGU_T;
bogdanm 20:4263a77256ae 1175
bogdanm 20:4263a77256ae 1176 /**
bogdanm 20:4263a77256ae 1177 * @brief CCU clock config/status register pair
bogdanm 20:4263a77256ae 1178 */
bogdanm 20:4263a77256ae 1179 typedef struct {
bogdanm 20:4263a77256ae 1180 __IO uint32_t CFG; /*!< CCU clock configuration register */
bogdanm 20:4263a77256ae 1181 __I uint32_t STAT; /*!< CCU clock status register */
bogdanm 20:4263a77256ae 1182 } CCU_CFGSTAT_T;
bogdanm 20:4263a77256ae 1183
bogdanm 20:4263a77256ae 1184 /**
bogdanm 20:4263a77256ae 1185 * @brief CCU1 register block structure
bogdanm 20:4263a77256ae 1186 */
bogdanm 20:4263a77256ae 1187 typedef struct { /*!< (@ 0x40051000) CCU1 Structure */
bogdanm 20:4263a77256ae 1188 __IO uint32_t PM; /*!< (@ 0x40051000) CCU1 power mode register */
bogdanm 20:4263a77256ae 1189 __I uint32_t BASE_STAT; /*!< (@ 0x40051004) CCU1 base clocks status register */
bogdanm 20:4263a77256ae 1190 __I uint32_t RESERVED0[62];
bogdanm 20:4263a77256ae 1191 CCU_CFGSTAT_T CLKCCU[CLK_CCU1_LAST]; /*!< (@ 0x40051100) Start of CCU1 clock registers */
bogdanm 20:4263a77256ae 1192 } LPC_CCU1_T;
bogdanm 20:4263a77256ae 1193
bogdanm 20:4263a77256ae 1194 /**
bogdanm 20:4263a77256ae 1195 * @brief CCU2 register block structure
bogdanm 20:4263a77256ae 1196 */
bogdanm 20:4263a77256ae 1197 typedef struct { /*!< (@ 0x40052000) CCU2 Structure */
bogdanm 20:4263a77256ae 1198 __IO uint32_t PM; /*!< (@ 0x40052000) Power mode register */
bogdanm 20:4263a77256ae 1199 __I uint32_t BASE_STAT; /*!< (@ 0x40052004) CCU base clocks status register */
bogdanm 20:4263a77256ae 1200 __I uint32_t RESERVED0[62];
bogdanm 20:4263a77256ae 1201 CCU_CFGSTAT_T CLKCCU[CLK_CCU2_LAST - CLK_CCU1_LAST]; /*!< (@ 0x40052100) Start of CCU2 clock registers */
bogdanm 20:4263a77256ae 1202 } LPC_CCU2_T;
bogdanm 20:4263a77256ae 1203
bogdanm 20:4263a77256ae 1204 /**
bogdanm 20:4263a77256ae 1205 * @brief RGU register structure
bogdanm 20:4263a77256ae 1206 */
bogdanm 20:4263a77256ae 1207 #define LPC_RGU_BASE 0x40053000
bogdanm 20:4263a77256ae 1208
bogdanm 20:4263a77256ae 1209 typedef enum CHIP_RGU_RST {
bogdanm 20:4263a77256ae 1210 RGU_CORE_RST,
bogdanm 20:4263a77256ae 1211 RGU_PERIPH_RST,
bogdanm 20:4263a77256ae 1212 RGU_MASTER_RST,
bogdanm 20:4263a77256ae 1213 RGU_WWDT_RST = 4,
bogdanm 20:4263a77256ae 1214 RGU_CREG_RST,
bogdanm 20:4263a77256ae 1215 RGU_BUS_RST = 8,
bogdanm 20:4263a77256ae 1216 RGU_SCU_RST,
bogdanm 20:4263a77256ae 1217 RGU_M3_RST = 13,
bogdanm 20:4263a77256ae 1218 RGU_LCD_RST = 16,
bogdanm 20:4263a77256ae 1219 RGU_USB0_RST,
bogdanm 20:4263a77256ae 1220 RGU_USB1_RST,
bogdanm 20:4263a77256ae 1221 RGU_DMA_RST,
bogdanm 20:4263a77256ae 1222 RGU_SDIO_RST,
bogdanm 20:4263a77256ae 1223 RGU_EMC_RST,
bogdanm 20:4263a77256ae 1224 RGU_ETHERNET_RST,
bogdanm 20:4263a77256ae 1225 RGU_FLASHA_RST = 25,
bogdanm 20:4263a77256ae 1226 RGU_EEPROM_RST = 27,
bogdanm 20:4263a77256ae 1227 RGU_GPIO_RST,
bogdanm 20:4263a77256ae 1228 RGU_FLASHB_RST,
bogdanm 20:4263a77256ae 1229 RGU_TIMER0_RST = 32,
bogdanm 20:4263a77256ae 1230 RGU_TIMER1_RST,
bogdanm 20:4263a77256ae 1231 RGU_TIMER2_RST,
bogdanm 20:4263a77256ae 1232 RGU_TIMER3_RST,
bogdanm 20:4263a77256ae 1233 RGU_RITIMER_RST,
bogdanm 20:4263a77256ae 1234 RGU_SCT_RST,
bogdanm 20:4263a77256ae 1235 RGU_MOTOCONPWM_RST,
bogdanm 20:4263a77256ae 1236 RGU_QEI_RST,
bogdanm 20:4263a77256ae 1237 RGU_ADC0_RST,
bogdanm 20:4263a77256ae 1238 RGU_ADC1_RST,
bogdanm 20:4263a77256ae 1239 RGU_DAC_RST,
bogdanm 20:4263a77256ae 1240 RGU_UART0_RST = 44,
bogdanm 20:4263a77256ae 1241 RGU_UART1_RST,
bogdanm 20:4263a77256ae 1242 RGU_UART2_RST,
bogdanm 20:4263a77256ae 1243 RGU_UART3_RST,
bogdanm 20:4263a77256ae 1244 RGU_I2C0_RST,
bogdanm 20:4263a77256ae 1245 RGU_I2C1_RST,
bogdanm 20:4263a77256ae 1246 RGU_SSP0_RST,
bogdanm 20:4263a77256ae 1247 RGU_SSP1_RST,
bogdanm 20:4263a77256ae 1248 RGU_I2S_RST,
bogdanm 20:4263a77256ae 1249 RGU_SPIFI_RST,
bogdanm 20:4263a77256ae 1250 RGU_CAN1_RST,
bogdanm 20:4263a77256ae 1251 RGU_CAN0_RST,
bogdanm 20:4263a77256ae 1252 #ifdef CHIP_LPC43XX
bogdanm 20:4263a77256ae 1253 RGU_M0APP_RST,
bogdanm 20:4263a77256ae 1254 RGU_SGPIO_RST,
bogdanm 20:4263a77256ae 1255 RGU_SPI_RST,
bogdanm 20:4263a77256ae 1256 #endif
bogdanm 20:4263a77256ae 1257 RGU_LAST_RST = 63,
bogdanm 20:4263a77256ae 1258 } CHIP_RGU_RST_T;
bogdanm 20:4263a77256ae 1259
bogdanm 20:4263a77256ae 1260 typedef struct { /*!< RGU Structure */
bogdanm 20:4263a77256ae 1261 __I uint32_t RESERVED0[64];
bogdanm 20:4263a77256ae 1262 __O uint32_t RESET_CTRL0; /*!< Reset control register 0 */
bogdanm 20:4263a77256ae 1263 __O uint32_t RESET_CTRL1; /*!< Reset control register 1 */
bogdanm 20:4263a77256ae 1264 __I uint32_t RESERVED1[2];
bogdanm 20:4263a77256ae 1265 __IO uint32_t RESET_STATUS0; /*!< Reset status register 0 */
bogdanm 20:4263a77256ae 1266 __IO uint32_t RESET_STATUS1; /*!< Reset status register 1 */
bogdanm 20:4263a77256ae 1267 __IO uint32_t RESET_STATUS2; /*!< Reset status register 2 */
bogdanm 20:4263a77256ae 1268 __IO uint32_t RESET_STATUS3; /*!< Reset status register 3 */
bogdanm 20:4263a77256ae 1269 __I uint32_t RESERVED2[12];
bogdanm 20:4263a77256ae 1270 __I uint32_t RESET_ACTIVE_STATUS0; /*!< Reset active status register 0 */
bogdanm 20:4263a77256ae 1271 __I uint32_t RESET_ACTIVE_STATUS1; /*!< Reset active status register 1 */
bogdanm 20:4263a77256ae 1272 __I uint32_t RESERVED3[170];
bogdanm 20:4263a77256ae 1273 __IO uint32_t RESET_EXT_STAT[RGU_LAST_RST + 1];/*!< Reset external status registers */
bogdanm 20:4263a77256ae 1274 } LPC_RGU_T;
bogdanm 20:4263a77256ae 1275
bogdanm 20:4263a77256ae 1276 /**
bogdanm 20:4263a77256ae 1277 * @brief Windowed Watchdog register block structure
bogdanm 20:4263a77256ae 1278 */
bogdanm 20:4263a77256ae 1279 #define LPC_WWDT_BASE 0x40080000
bogdanm 20:4263a77256ae 1280
bogdanm 20:4263a77256ae 1281 typedef struct { /*!< WWDT Structure */
bogdanm 20:4263a77256ae 1282 __IO uint32_t MOD; /*!< Watchdog mode register. This register contains the basic mode and status of the Watchdog Timer. */
bogdanm 20:4263a77256ae 1283 __IO uint32_t TC; /*!< Watchdog timer constant register. This register determines the time-out value. */
bogdanm 20:4263a77256ae 1284 __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. */
bogdanm 20:4263a77256ae 1285 __I uint32_t TV; /*!< Watchdog timer value register. This register reads out the current value of the Watchdog timer. */
bogdanm 20:4263a77256ae 1286 #ifdef WATCHDOG_CLKSEL_SUPPORT
bogdanm 20:4263a77256ae 1287 __IO uint32_t CLKSEL; /*!< Watchdog clock select register. */
bogdanm 20:4263a77256ae 1288 #else
bogdanm 20:4263a77256ae 1289 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 1290 #endif
bogdanm 20:4263a77256ae 1291 #ifdef WATCHDOG_WINDOW_SUPPORT
bogdanm 20:4263a77256ae 1292 __IO uint32_t WARNINT; /*!< Watchdog warning interrupt register. This register contains the Watchdog warning interrupt compare value. */
bogdanm 20:4263a77256ae 1293 __IO uint32_t WINDOW; /*!< Watchdog timer window register. This register contains the Watchdog window value. */
bogdanm 20:4263a77256ae 1294 #endif
bogdanm 20:4263a77256ae 1295 } LPC_WWDT_T;
bogdanm 20:4263a77256ae 1296
bogdanm 20:4263a77256ae 1297 /**
bogdanm 20:4263a77256ae 1298 * @brief USART register block structure
bogdanm 20:4263a77256ae 1299 */
bogdanm 20:4263a77256ae 1300 #define LPC_USART0_BASE 0x40081000
bogdanm 20:4263a77256ae 1301 #define LPC_UART1_BASE 0x40082000
bogdanm 20:4263a77256ae 1302 #define LPC_USART2_BASE 0x400C1000
bogdanm 20:4263a77256ae 1303 #define LPC_USART3_BASE 0x400C2000
bogdanm 20:4263a77256ae 1304
bogdanm 20:4263a77256ae 1305 typedef struct { /*!< USARTn Structure */
bogdanm 20:4263a77256ae 1306
bogdanm 20:4263a77256ae 1307 union {
bogdanm 20:4263a77256ae 1308 __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). */
bogdanm 20:4263a77256ae 1309 __O uint32_t THR; /*!< Transmit Holding Register. The next character to be transmitted is written here (DLAB = 0). */
bogdanm 20:4263a77256ae 1310 __I uint32_t RBR; /*!< Receiver Buffer Register. Contains the next received character to be read (DLAB = 0). */
bogdanm 20:4263a77256ae 1311 };
bogdanm 20:4263a77256ae 1312
bogdanm 20:4263a77256ae 1313 union {
bogdanm 20:4263a77256ae 1314 __IO uint32_t IER; /*!< Interrupt Enable Register. Contains individual interrupt enable bits for the 7 potential UART interrupts (DLAB = 0). */
bogdanm 20:4263a77256ae 1315 __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). */
bogdanm 20:4263a77256ae 1316 };
bogdanm 20:4263a77256ae 1317
bogdanm 20:4263a77256ae 1318 union {
bogdanm 20:4263a77256ae 1319 __O uint32_t FCR; /*!< FIFO Control Register. Controls UART FIFO usage and modes. */
bogdanm 20:4263a77256ae 1320 __I uint32_t IIR; /*!< Interrupt ID Register. Identifies which interrupt(s) are pending. */
bogdanm 20:4263a77256ae 1321 };
bogdanm 20:4263a77256ae 1322
bogdanm 20:4263a77256ae 1323 __IO uint32_t LCR; /*!< Line Control Register. Contains controls for frame formatting and break generation. */
bogdanm 20:4263a77256ae 1324 __IO uint32_t MCR; /*!< Modem Control Register. Only present on USART ports with full modem support. */
bogdanm 20:4263a77256ae 1325 __I uint32_t LSR; /*!< Line Status Register. Contains flags for transmit and receive status, including line errors. */
bogdanm 20:4263a77256ae 1326 __I uint32_t MSR; /*!< Modem Status Register. Only present on USART ports with full modem support. */
bogdanm 20:4263a77256ae 1327 __IO uint32_t SCR; /*!< Scratch Pad Register. Eight-bit temporary storage for software. */
bogdanm 20:4263a77256ae 1328 __IO uint32_t ACR; /*!< Auto-baud Control Register. Contains controls for the auto-baud feature. */
bogdanm 20:4263a77256ae 1329 __IO uint32_t ICR; /*!< IrDA control register (not all UARTS) */
bogdanm 20:4263a77256ae 1330 __IO uint32_t FDR; /*!< Fractional Divider Register. Generates a clock input for the baud rate divider. */
bogdanm 20:4263a77256ae 1331 __IO uint32_t OSR; /*!< Oversampling Register. Controls the degree of oversampling during each bit time. Only on some UARTS. */
bogdanm 20:4263a77256ae 1332 __IO uint32_t TER1; /*!< Transmit Enable Register. Turns off USART transmitter for use with software flow control. */
bogdanm 20:4263a77256ae 1333 uint32_t RESERVED0[3];
bogdanm 20:4263a77256ae 1334 __IO uint32_t HDEN; /*!< Half-duplex enable Register- only on some UARTs */
bogdanm 20:4263a77256ae 1335 __I uint32_t RESERVED1[1];
bogdanm 20:4263a77256ae 1336 __IO uint32_t SCICTRL; /*!< Smart card interface control register- only on some UARTs */
bogdanm 20:4263a77256ae 1337 __IO uint32_t RS485CTRL; /*!< RS-485/EIA-485 Control. Contains controls to configure various aspects of RS-485/EIA-485 modes. */
bogdanm 20:4263a77256ae 1338 __IO uint32_t RS485ADRMATCH; /*!< RS-485/EIA-485 address match. Contains the address match value for RS-485/EIA-485 mode. */
bogdanm 20:4263a77256ae 1339 __IO uint32_t RS485DLY; /*!< RS-485/EIA-485 direction control delay. */
bogdanm 20:4263a77256ae 1340 union {
bogdanm 20:4263a77256ae 1341 __IO uint32_t SYNCCTRL; /*!< Synchronous mode control register. Only on USARTs. */
bogdanm 20:4263a77256ae 1342 __I uint32_t FIFOLVL; /*!< FIFO Level register. Provides the current fill levels of the transmit and receive FIFOs. */
bogdanm 20:4263a77256ae 1343 };
bogdanm 20:4263a77256ae 1344
bogdanm 20:4263a77256ae 1345 __IO uint32_t TER2; /*!< Transmit Enable Register. Only on LPC177X_8X UART4 and LPC18XX/43XX USART0/2/3. */
bogdanm 20:4263a77256ae 1346 } LPC_USART_T;
bogdanm 20:4263a77256ae 1347
bogdanm 20:4263a77256ae 1348 /**
bogdanm 20:4263a77256ae 1349 * @brief SSP register block structure
bogdanm 20:4263a77256ae 1350 */
bogdanm 20:4263a77256ae 1351 #define LPC_SSP0_BASE 0x40083000
bogdanm 20:4263a77256ae 1352 #define LPC_SSP1_BASE 0x400C5000
bogdanm 20:4263a77256ae 1353
bogdanm 20:4263a77256ae 1354 typedef struct { /*!< SSPn Structure */
bogdanm 20:4263a77256ae 1355 __IO uint32_t CR0; /*!< Control Register 0. Selects the serial clock rate, bus type, and data size. */
bogdanm 20:4263a77256ae 1356 __IO uint32_t CR1; /*!< Control Register 1. Selects master/slave and other modes. */
bogdanm 20:4263a77256ae 1357 __IO uint32_t DR; /*!< Data Register. Writes fill the transmit FIFO, and reads empty the receive FIFO. */
bogdanm 20:4263a77256ae 1358 __I uint32_t SR; /*!< Status Register */
bogdanm 20:4263a77256ae 1359 __IO uint32_t CPSR; /*!< Clock Prescale Register */
bogdanm 20:4263a77256ae 1360 __IO uint32_t IMSC; /*!< Interrupt Mask Set and Clear Register */
bogdanm 20:4263a77256ae 1361 __I uint32_t RIS; /*!< Raw Interrupt Status Register */
bogdanm 20:4263a77256ae 1362 __I uint32_t MIS; /*!< Masked Interrupt Status Register */
bogdanm 20:4263a77256ae 1363 __O uint32_t ICR; /*!< SSPICR Interrupt Clear Register */
bogdanm 20:4263a77256ae 1364 __IO uint32_t DMACR; /*!< SSPn DMA control register */
bogdanm 20:4263a77256ae 1365 } LPC_SSP_T;
bogdanm 20:4263a77256ae 1366
bogdanm 20:4263a77256ae 1367 /**
bogdanm 20:4263a77256ae 1368 * @brief 32-bit Standard timer register block structure
bogdanm 20:4263a77256ae 1369 */
bogdanm 20:4263a77256ae 1370 typedef struct { /*!< TIMERn Structure */
bogdanm 20:4263a77256ae 1371 __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. */
bogdanm 20:4263a77256ae 1372 __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. */
bogdanm 20:4263a77256ae 1373 __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. */
bogdanm 20:4263a77256ae 1374 __IO uint32_t PR; /*!< Prescale Register. The Prescale Counter (below) is equal to this value, the next clock increments the TC and clears the PC. */
bogdanm 20:4263a77256ae 1375 __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. */
bogdanm 20:4263a77256ae 1376 __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. */
bogdanm 20:4263a77256ae 1377 __IO uint32_t MR[4]; /*!< 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 MR matches the TC. */
bogdanm 20:4263a77256ae 1378 __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. */
bogdanm 20:4263a77256ae 1379 __IO uint32_t CR[4]; /*!< Capture Register. CR is loaded with the value of TC when there is an event on the CAPn.0 input. */
bogdanm 20:4263a77256ae 1380 __IO uint32_t EMR; /*!< External Match Register. The EMR controls the external match pins MATn.0-3 (MAT0.0-3 and MAT1.0-3 respectively). */
bogdanm 20:4263a77256ae 1381 __I uint32_t RESERVED0[12];
bogdanm 20:4263a77256ae 1382 __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. */
bogdanm 20:4263a77256ae 1383 } LPC_TIMER_T;
bogdanm 20:4263a77256ae 1384
bogdanm 20:4263a77256ae 1385 #define LPC_TIMER0_BASE 0x40084000
bogdanm 20:4263a77256ae 1386 #define LPC_TIMER1_BASE 0x40085000
bogdanm 20:4263a77256ae 1387 #define LPC_TIMER2_BASE 0x400C3000
bogdanm 20:4263a77256ae 1388 #define LPC_TIMER3_BASE 0x400C4000
bogdanm 20:4263a77256ae 1389
bogdanm 20:4263a77256ae 1390 /**
bogdanm 20:4263a77256ae 1391 * @brief System Control Unit register block
bogdanm 20:4263a77256ae 1392 */
bogdanm 20:4263a77256ae 1393 #define LPC_SCU_BASE 0x40086000
bogdanm 20:4263a77256ae 1394
bogdanm 20:4263a77256ae 1395 typedef struct {
bogdanm 20:4263a77256ae 1396 __IO uint32_t SFSP[16][32];
bogdanm 20:4263a77256ae 1397 __I uint32_t RESERVED0[256];
bogdanm 20:4263a77256ae 1398 __IO uint32_t SFSCLK[4]; /*!< Pin configuration register for pins CLK0-3 */
bogdanm 20:4263a77256ae 1399 __I uint32_t RESERVED16[28];
bogdanm 20:4263a77256ae 1400 __IO uint32_t SFSUSB; /*!< Pin configuration register for USB */
bogdanm 20:4263a77256ae 1401 __IO uint32_t SFSI2C0; /*!< Pin configuration register for I2C0-bus pins */
bogdanm 20:4263a77256ae 1402 __IO uint32_t ENAIO[3]; /*!< Analog function select registers */
bogdanm 20:4263a77256ae 1403 __I uint32_t RESERVED17[27];
bogdanm 20:4263a77256ae 1404 __IO uint32_t EMCDELAYCLK; /*!< EMC clock delay register */
bogdanm 20:4263a77256ae 1405 __I uint32_t RESERVED18[63];
bogdanm 20:4263a77256ae 1406 __IO uint32_t PINTSEL0; /*!< Pin interrupt select register for pin interrupts 0 to 3. */
bogdanm 20:4263a77256ae 1407 __IO uint32_t PINTSEL1; /*!< Pin interrupt select register for pin interrupts 4 to 7. */
bogdanm 20:4263a77256ae 1408 } LPC_SCU_T;
bogdanm 20:4263a77256ae 1409
bogdanm 20:4263a77256ae 1410 /**
bogdanm 20:4263a77256ae 1411 * SCU function and mode selection definitions
bogdanm 20:4263a77256ae 1412 * See the User Manual for specific modes and functions supoprted by the
bogdanm 20:4263a77256ae 1413 * various LPC18xx/43xx devices. Functionality can vary per device.
bogdanm 20:4263a77256ae 1414 */
bogdanm 20:4263a77256ae 1415 #define SCU_MODE_MODE_INACT (0x0 << 3) /*!< Disable pull-down and pull-up resistor at resistor at pad */
bogdanm 20:4263a77256ae 1416 #define SCU_MODE_MODE_PULLDOWN (0x1 << 3) /*!< Enable pull-down resistor at pad */
bogdanm 20:4263a77256ae 1417 #define SCU_MODE_MODE_PULLUP_DIS (0x2 << 3) /*!< Disable pull-up resistor at pad */
bogdanm 20:4263a77256ae 1418 #define SCU_MODE_MODE_REPEATER (0x3 << 3) /*!< Enable pull-down and pull-up resistor at resistor at pad (repeater mode) */
bogdanm 20:4263a77256ae 1419 #define SCU_MODE_HIGHSPEEDSLEW_EN (0x1 << 5) /*!< Enable high-speed slew */
bogdanm 20:4263a77256ae 1420 #define SCU_MODE_INBUFF_EN (0x1 << 6) /*!< Enable Input buffer */
bogdanm 20:4263a77256ae 1421 #define SCU_MODE_ZIF_DIS (0x1 << 7) /*!< Disable input glitch filter */
bogdanm 20:4263a77256ae 1422 #define SCU_MODE_4MA_DRIVESTR (0x0 << 8) /*!< Normal drive: 4mA drive strength */
bogdanm 20:4263a77256ae 1423 #define SCU_MODE_8MA_DRIVESTR (0x1 << 8) /*!< Medium drive: 8mA drive strength */
bogdanm 20:4263a77256ae 1424 #define SCU_MODE_14MA_DRIVESTR (0x2 << 8) /*!< High drive: 14mA drive strength */
bogdanm 20:4263a77256ae 1425 #define SCU_MODE_20MA_DRIVESTR (0x3 << 8) /*!< Ultra high- drive: 20mA drive strength */
bogdanm 20:4263a77256ae 1426
bogdanm 20:4263a77256ae 1427 /* Common SCU configurations */
bogdanm 20:4263a77256ae 1428 #define SCU_PINIO_FAST (SCU_MODE_MODE_PULLUP_DIS | SCU_MODE_HIGHSPEEDSLEW_EN | SCU_MODE_INBUFF_EN | SCU_MODE_ZIF_DIS)
bogdanm 20:4263a77256ae 1429 #define SCU_PINIO_PULLUP (SCU_MODE_INBUFF_EN)
bogdanm 20:4263a77256ae 1430 #define SCU_PINIO_PULLDOWN (SCU_MODE_MODE_PULLDOWN | SCU_MODE_MODE_PULLUP_DIS | SCU_MODE_INBUFF_EN)
bogdanm 20:4263a77256ae 1431 #define SCU_PINIO_PULLNONE (SCU_MODE_MODE_PULLUP_DIS | SCU_MODE_INBUFF_EN)
bogdanm 20:4263a77256ae 1432
bogdanm 20:4263a77256ae 1433 /* Calculate SCU offset and register address from group and pin number */
bogdanm 20:4263a77256ae 1434 #define SCU_OFF(group, num) ((0x80 * group) + (0x04 * num))
bogdanm 20:4263a77256ae 1435 #define SCU_REG(group, num) ((__IO uint32_t *)(LPC_SCU_BASE + SCU_OFF(group, num)))
bogdanm 20:4263a77256ae 1436
bogdanm 20:4263a77256ae 1437 /**
bogdanm 20:4263a77256ae 1438 * @brief GPIO pin interrupt register block structure
bogdanm 20:4263a77256ae 1439 */
bogdanm 20:4263a77256ae 1440 #define LPC_GPIO_PIN_INT_BASE 0x40087000
bogdanm 20:4263a77256ae 1441
bogdanm 20:4263a77256ae 1442 typedef struct { /*!< GPIO_PIN_INT Structure */
bogdanm 20:4263a77256ae 1443 __IO uint32_t ISEL; /*!< Pin Interrupt Mode register */
bogdanm 20:4263a77256ae 1444 __IO uint32_t IENR; /*!< Pin Interrupt Enable (Rising) register */
bogdanm 20:4263a77256ae 1445 __O uint32_t SIENR; /*!< Set Pin Interrupt Enable (Rising) register */
bogdanm 20:4263a77256ae 1446 __O uint32_t CIENR; /*!< Clear Pin Interrupt Enable (Rising) register */
bogdanm 20:4263a77256ae 1447 __IO uint32_t IENF; /*!< Pin Interrupt Enable Falling Edge / Active Level register */
bogdanm 20:4263a77256ae 1448 __O uint32_t SIENF; /*!< Set Pin Interrupt Enable Falling Edge / Active Level register */
bogdanm 20:4263a77256ae 1449 __O uint32_t CIENF; /*!< Clear Pin Interrupt Enable Falling Edge / Active Level address */
bogdanm 20:4263a77256ae 1450 __IO uint32_t RISE; /*!< Pin Interrupt Rising Edge register */
bogdanm 20:4263a77256ae 1451 __IO uint32_t FALL; /*!< Pin Interrupt Falling Edge register */
bogdanm 20:4263a77256ae 1452 __IO uint32_t IST; /*!< Pin Interrupt Status register */
bogdanm 20:4263a77256ae 1453 } LPC_GPIOPININT_T;
bogdanm 20:4263a77256ae 1454
bogdanm 20:4263a77256ae 1455 typedef enum LPC_GPIOPININT_MODE {
bogdanm 20:4263a77256ae 1456 GPIOPININT_RISING_EDGE = 0x01,
bogdanm 20:4263a77256ae 1457 GPIOPININT_FALLING_EDGE = 0x02,
bogdanm 20:4263a77256ae 1458 GPIOPININT_ACTIVE_HIGH_LEVEL = 0x04,
bogdanm 20:4263a77256ae 1459 GPIOPININT_ACTIVE_LOW_LEVEL = 0x08
bogdanm 20:4263a77256ae 1460 } LPC_GPIOPININT_MODE_T;
bogdanm 20:4263a77256ae 1461
bogdanm 20:4263a77256ae 1462 /**
bogdanm 20:4263a77256ae 1463 * @brief GPIO grouped interrupt register block structure
bogdanm 20:4263a77256ae 1464 */
bogdanm 20:4263a77256ae 1465 #define LPC_GPIO_GROUP_INT0_BASE 0x40088000
bogdanm 20:4263a77256ae 1466 #define LPC_GPIO_GROUP_INT1_BASE 0x40089000
bogdanm 20:4263a77256ae 1467
bogdanm 20:4263a77256ae 1468 typedef struct { /*!< GPIO_GROUP_INTn Structure */
bogdanm 20:4263a77256ae 1469 __IO uint32_t CTRL; /*!< GPIO grouped interrupt control register */
bogdanm 20:4263a77256ae 1470 __I uint32_t RESERVED0[7];
bogdanm 20:4263a77256ae 1471 __IO uint32_t PORT_POL[8]; /*!< GPIO grouped interrupt port polarity register */
bogdanm 20:4263a77256ae 1472 __IO uint32_t PORT_ENA[8]; /*!< GPIO grouped interrupt port m enable register */
bogdanm 20:4263a77256ae 1473 } LPC_GPIOGROUPINT_T;
bogdanm 20:4263a77256ae 1474
bogdanm 20:4263a77256ae 1475 /**
bogdanm 20:4263a77256ae 1476 * @brief Motor Control PWM register block structure
bogdanm 20:4263a77256ae 1477 */
bogdanm 20:4263a77256ae 1478 #define LPC_MCPWM_BASE 0x400A0000
bogdanm 20:4263a77256ae 1479
bogdanm 20:4263a77256ae 1480 typedef struct { /*!< MCPWM Structure */
bogdanm 20:4263a77256ae 1481 __I uint32_t CON; /*!< PWM Control read address */
bogdanm 20:4263a77256ae 1482 __O uint32_t CON_SET; /*!< PWM Control set address */
bogdanm 20:4263a77256ae 1483 __O uint32_t CON_CLR; /*!< PWM Control clear address */
bogdanm 20:4263a77256ae 1484 __I uint32_t CAPCON; /*!< Capture Control read address */
bogdanm 20:4263a77256ae 1485 __O uint32_t CAPCON_SET; /*!< Capture Control set address */
bogdanm 20:4263a77256ae 1486 __O uint32_t CAPCON_CLR; /*!< Event Control clear address */
bogdanm 20:4263a77256ae 1487 __IO uint32_t TC[3]; /*!< Timer Counter register */
bogdanm 20:4263a77256ae 1488 __IO uint32_t LIM[3]; /*!< Limit register */
bogdanm 20:4263a77256ae 1489 __IO uint32_t MAT[3]; /*!< Match register */
bogdanm 20:4263a77256ae 1490 __IO uint32_t DT; /*!< Dead time register */
bogdanm 20:4263a77256ae 1491 __IO uint32_t CCP; /*!< Communication Pattern register */
bogdanm 20:4263a77256ae 1492 __I uint32_t CAP[3]; /*!< Capture register */
bogdanm 20:4263a77256ae 1493 __I uint32_t INTEN; /*!< Interrupt Enable read address */
bogdanm 20:4263a77256ae 1494 __O uint32_t INTEN_SET; /*!< Interrupt Enable set address */
bogdanm 20:4263a77256ae 1495 __O uint32_t INTEN_CLR; /*!< Interrupt Enable clear address */
bogdanm 20:4263a77256ae 1496 __I uint32_t CNTCON; /*!< Count Control read address */
bogdanm 20:4263a77256ae 1497 __O uint32_t CNTCON_SET; /*!< Count Control set address */
bogdanm 20:4263a77256ae 1498 __O uint32_t CNTCON_CLR; /*!< Count Control clear address */
bogdanm 20:4263a77256ae 1499 __I uint32_t INTF; /*!< Interrupt flags read address */
bogdanm 20:4263a77256ae 1500 __O uint32_t INTF_SET; /*!< Interrupt flags set address */
bogdanm 20:4263a77256ae 1501 __O uint32_t INTF_CLR; /*!< Interrupt flags clear address */
bogdanm 20:4263a77256ae 1502 __O uint32_t CAP_CLR; /*!< Capture clear address */
bogdanm 20:4263a77256ae 1503 } LPC_MCPWM_T;
bogdanm 20:4263a77256ae 1504
bogdanm 20:4263a77256ae 1505 /**
bogdanm 20:4263a77256ae 1506 * @brief I2C register block structure
bogdanm 20:4263a77256ae 1507 */
bogdanm 20:4263a77256ae 1508 #define LPC_I2C0_BASE 0x400A1000
bogdanm 20:4263a77256ae 1509 #define LPC_I2C1_BASE 0x400E0000
bogdanm 20:4263a77256ae 1510
bogdanm 20:4263a77256ae 1511 typedef struct { /* I2C0 Structure */
bogdanm 20:4263a77256ae 1512 __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. */
bogdanm 20:4263a77256ae 1513 __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. */
bogdanm 20:4263a77256ae 1514 __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. */
bogdanm 20:4263a77256ae 1515 __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. */
bogdanm 20:4263a77256ae 1516 __IO uint32_t SCLH; /*!< SCH Duty Cycle Register High Half Word. Determines the high time of the I2C clock. */
bogdanm 20:4263a77256ae 1517 __IO uint32_t SCLL; /*!< SCL Duty Cycle Register Low Half Word. Determines the low time of the I2C clock. SCLL and SCLH together determine the clock frequency generated by an I2C master and certain times used in slave mode. */
bogdanm 20:4263a77256ae 1518 __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. */
bogdanm 20:4263a77256ae 1519 __IO uint32_t MMCTRL; /*!< Monitor mode control register. */
bogdanm 20:4263a77256ae 1520 __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. */
bogdanm 20:4263a77256ae 1521 __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. */
bogdanm 20:4263a77256ae 1522 __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. */
bogdanm 20:4263a77256ae 1523 __I uint32_t DATA_BUFFER; /*!< Data buffer register. The contents of the 8 MSBs of the DAT 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. */
bogdanm 20:4263a77256ae 1524 __IO uint32_t MASK[4]; /*!< I2C Slave address mask register */
bogdanm 20:4263a77256ae 1525 } LPC_I2C_T;
bogdanm 20:4263a77256ae 1526
bogdanm 20:4263a77256ae 1527 /**
bogdanm 20:4263a77256ae 1528 * @brief I2S register block structure
bogdanm 20:4263a77256ae 1529 */
bogdanm 20:4263a77256ae 1530 #define LPC_I2S0_BASE 0x400A2000
bogdanm 20:4263a77256ae 1531 #define LPC_I2S1_BASE 0x400A3000
bogdanm 20:4263a77256ae 1532
bogdanm 20:4263a77256ae 1533 typedef struct { /*!< I2S Structure */
bogdanm 20:4263a77256ae 1534 __IO uint32_t DAO; /*!< I2S Digital Audio Output Register. Contains control bits for the I2S transmit channel */
bogdanm 20:4263a77256ae 1535 __IO uint32_t DAI; /*!< I2S Digital Audio Input Register. Contains control bits for the I2S receive channel */
bogdanm 20:4263a77256ae 1536 __O uint32_t TXFIFO; /*!< I2S Transmit FIFO. Access register for the 8 x 32-bit transmitter FIFO */
bogdanm 20:4263a77256ae 1537 __I uint32_t RXFIFO; /*!< I2S Receive FIFO. Access register for the 8 x 32-bit receiver FIFO */
bogdanm 20:4263a77256ae 1538 __I uint32_t STATE; /*!< I2S Status Feedback Register. Contains status information about the I2S interface */
bogdanm 20:4263a77256ae 1539 __IO uint32_t DMA1; /*!< I2S DMA Configuration Register 1. Contains control information for DMA request 1 */
bogdanm 20:4263a77256ae 1540 __IO uint32_t DMA2; /*!< I2S DMA Configuration Register 2. Contains control information for DMA request 2 */
bogdanm 20:4263a77256ae 1541 __IO uint32_t IRQ; /*!< I2S Interrupt Request Control Register. Contains bits that control how the I2S interrupt request is generated */
bogdanm 20:4263a77256ae 1542 __IO uint32_t TXRATE; /*!< I2S Transmit MCLK divider. This register determines the I2S TX MCLK rate by specifying the value to divide PCLK by in order to produce MCLK */
bogdanm 20:4263a77256ae 1543 __IO uint32_t RXRATE; /*!< I2S Receive MCLK divider. This register determines the I2S RX MCLK rate by specifying the value to divide PCLK by in order to produce MCLK */
bogdanm 20:4263a77256ae 1544 __IO uint32_t TXBITRATE; /*!< I2S Transmit bit rate divider. This register determines the I2S transmit bit rate by specifying the value to divide TX_MCLK by in order to produce the transmit bit clock */
bogdanm 20:4263a77256ae 1545 __IO uint32_t RXBITRATE; /*!< I2S Receive bit rate divider. This register determines the I2S receive bit rate by specifying the value to divide RX_MCLK by in order to produce the receive bit clock */
bogdanm 20:4263a77256ae 1546 __IO uint32_t TXMODE; /*!< I2S Transmit mode control */
bogdanm 20:4263a77256ae 1547 __IO uint32_t RXMODE; /*!< I2S Receive mode control */
bogdanm 20:4263a77256ae 1548 } LPC_I2S_T;
bogdanm 20:4263a77256ae 1549
bogdanm 20:4263a77256ae 1550 /**
bogdanm 20:4263a77256ae 1551 * @brief CCAN Controller Area Network register block structure
bogdanm 20:4263a77256ae 1552 */
bogdanm 20:4263a77256ae 1553 #define LPC_C_CAN1_BASE 0x400A4000
bogdanm 20:4263a77256ae 1554 #define LPC_C_CAN0_BASE 0x400E2000
bogdanm 20:4263a77256ae 1555
bogdanm 20:4263a77256ae 1556 typedef struct { /*!< C_CAN message interface Structure */
bogdanm 20:4263a77256ae 1557 __IO uint32_t IF_CMDREQ; /*!< Message interface command request */
bogdanm 20:4263a77256ae 1558 union {
bogdanm 20:4263a77256ae 1559 __IO uint32_t IF_CMDMSK_R; /*!< Message interface command mask (read direction) */
bogdanm 20:4263a77256ae 1560 __IO uint32_t IF_CMDMSK_W; /*!< Message interface command mask (write direction) */
bogdanm 20:4263a77256ae 1561 };
bogdanm 20:4263a77256ae 1562
bogdanm 20:4263a77256ae 1563 __IO uint32_t IF_MSK1; /*!< Message interface mask 1 */
bogdanm 20:4263a77256ae 1564 __IO uint32_t IF_MSK2; /*!< Message interface mask 2 */
bogdanm 20:4263a77256ae 1565 __IO uint32_t IF_ARB1; /*!< Message interface arbitration 1 */
bogdanm 20:4263a77256ae 1566 __IO uint32_t IF_ARB2; /*!< Message interface arbitration 2 */
bogdanm 20:4263a77256ae 1567 __IO uint32_t IF_MCTRL; /*!< Message interface message control */
bogdanm 20:4263a77256ae 1568 __IO uint32_t IF_DA1; /*!< Message interface data A1 */
bogdanm 20:4263a77256ae 1569 __IO uint32_t IF_DA2; /*!< Message interface data A2 */
bogdanm 20:4263a77256ae 1570 __IO uint32_t IF_DB1; /*!< Message interface data B1 */
bogdanm 20:4263a77256ae 1571 __IO uint32_t IF_DB2; /*!< Message interface data B2 */
bogdanm 20:4263a77256ae 1572 __I uint32_t RESERVED[13];
bogdanm 20:4263a77256ae 1573 } LPC_CCAN_IF_T;
bogdanm 20:4263a77256ae 1574
bogdanm 20:4263a77256ae 1575 typedef struct { /*!< C_CAN Structure */
bogdanm 20:4263a77256ae 1576 __IO uint32_t CNTL; /*!< CAN control */
bogdanm 20:4263a77256ae 1577 __IO uint32_t STAT; /*!< Status register */
bogdanm 20:4263a77256ae 1578 __I uint32_t EC; /*!< Error counter */
bogdanm 20:4263a77256ae 1579 __IO uint32_t BT; /*!< Bit timing register */
bogdanm 20:4263a77256ae 1580 __I uint32_t INT; /*!< Interrupt register */
bogdanm 20:4263a77256ae 1581 __IO uint32_t TEST; /*!< Test register */
bogdanm 20:4263a77256ae 1582 __IO uint32_t BRPE; /*!< Baud rate prescaler extension register */
bogdanm 20:4263a77256ae 1583 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 1584 LPC_CCAN_IF_T IF[2];
bogdanm 20:4263a77256ae 1585 __I uint32_t RESERVED2[8];
bogdanm 20:4263a77256ae 1586 __I uint32_t TXREQ1; /*!< Transmission request 1 */
bogdanm 20:4263a77256ae 1587 __I uint32_t TXREQ2; /*!< Transmission request 2 */
bogdanm 20:4263a77256ae 1588 __I uint32_t RESERVED3[6];
bogdanm 20:4263a77256ae 1589 __I uint32_t ND1; /*!< New data 1 */
bogdanm 20:4263a77256ae 1590 __I uint32_t ND2; /*!< New data 2 */
bogdanm 20:4263a77256ae 1591 __I uint32_t RESERVED4[6];
bogdanm 20:4263a77256ae 1592 __I uint32_t IR1; /*!< Interrupt pending 1 */
bogdanm 20:4263a77256ae 1593 __I uint32_t IR2; /*!< Interrupt pending 2 */
bogdanm 20:4263a77256ae 1594 __I uint32_t RESERVED5[6];
bogdanm 20:4263a77256ae 1595 __I uint32_t MSGV1; /*!< Message valid 1 */
bogdanm 20:4263a77256ae 1596 __I uint32_t MSGV2; /*!< Message valid 2 */
bogdanm 20:4263a77256ae 1597 __I uint32_t RESERVED6[6];
bogdanm 20:4263a77256ae 1598 __IO uint32_t CLKDIV; /*!< CAN clock divider register */
bogdanm 20:4263a77256ae 1599 } LPC_CCAN_T;
bogdanm 20:4263a77256ae 1600
bogdanm 20:4263a77256ae 1601 /**
bogdanm 20:4263a77256ae 1602 * @brief Repetitive Interrupt Timer register block structure
bogdanm 20:4263a77256ae 1603 */
bogdanm 20:4263a77256ae 1604 #define LPC_RITIMER_BASE 0x400C0000
bogdanm 20:4263a77256ae 1605
bogdanm 20:4263a77256ae 1606 typedef struct { /*!< RITIMER Structure */
bogdanm 20:4263a77256ae 1607 __IO uint32_t COMPVAL; /*!< Compare register */
bogdanm 20:4263a77256ae 1608 __IO uint32_t MASK; /*!< Mask register. This register holds the 32-bit mask value. A 1 written to any bit will force a compare on the corresponding bit of the counter and compare register. */
bogdanm 20:4263a77256ae 1609 __IO uint32_t CTRL; /*!< Control register. */
bogdanm 20:4263a77256ae 1610 __IO uint32_t COUNTER; /*!< 32-bit counter */
bogdanm 20:4263a77256ae 1611 #if defined(CHIP_LPC1347)
bogdanm 20:4263a77256ae 1612 __IO uint32_t COMPVAL_H; /*!< Compare upper register */
bogdanm 20:4263a77256ae 1613 __IO uint32_t MASK_H; /*!< Mask upper register */
bogdanm 20:4263a77256ae 1614 __I uint32_t RESERVED0[1];
bogdanm 20:4263a77256ae 1615 __IO uint32_t COUNTER_H; /*!< Counter upper register */
bogdanm 20:4263a77256ae 1616 #endif
bogdanm 20:4263a77256ae 1617 } LPC_RITIMER_T;
bogdanm 20:4263a77256ae 1618
bogdanm 20:4263a77256ae 1619 /**
bogdanm 20:4263a77256ae 1620 * @brief Quadrature Encoder Interface register block structure
bogdanm 20:4263a77256ae 1621 */
bogdanm 20:4263a77256ae 1622 #define LPC_QEI_BASE 0x400C6000
bogdanm 20:4263a77256ae 1623
bogdanm 20:4263a77256ae 1624 typedef struct { /*!< QEI Structure */
bogdanm 20:4263a77256ae 1625 __O uint32_t CON; /*!< Control register */
bogdanm 20:4263a77256ae 1626 __I uint32_t STAT; /*!< Encoder status register */
bogdanm 20:4263a77256ae 1627 __IO uint32_t CONF; /*!< Configuration register */
bogdanm 20:4263a77256ae 1628 __I uint32_t POS; /*!< Position register */
bogdanm 20:4263a77256ae 1629 __IO uint32_t MAXPOS; /*!< Maximum position register */
bogdanm 20:4263a77256ae 1630 __IO uint32_t CMPOS0; /*!< position compare register 0 */
bogdanm 20:4263a77256ae 1631 __IO uint32_t CMPOS1; /*!< position compare register 1 */
bogdanm 20:4263a77256ae 1632 __IO uint32_t CMPOS2; /*!< position compare register 2 */
bogdanm 20:4263a77256ae 1633 __I uint32_t INXCNT; /*!< Index count register */
bogdanm 20:4263a77256ae 1634 __IO uint32_t INXCMP0; /*!< Index compare register 0 */
bogdanm 20:4263a77256ae 1635 __IO uint32_t LOAD; /*!< Velocity timer reload register */
bogdanm 20:4263a77256ae 1636 __I uint32_t TIME; /*!< Velocity timer register */
bogdanm 20:4263a77256ae 1637 __I uint32_t VEL; /*!< Velocity counter register */
bogdanm 20:4263a77256ae 1638 __I uint32_t CAP; /*!< Velocity capture register */
bogdanm 20:4263a77256ae 1639 __IO uint32_t VELCOMP; /*!< Velocity compare register */
bogdanm 20:4263a77256ae 1640 __IO uint32_t FILTERPHA; /*!< Digital filter register on input phase A (QEI_A) */
bogdanm 20:4263a77256ae 1641 __IO uint32_t FILTERPHB; /*!< Digital filter register on input phase B (QEI_B) */
bogdanm 20:4263a77256ae 1642 __IO uint32_t FILTERINX; /*!< Digital filter register on input index (QEI_IDX) */
bogdanm 20:4263a77256ae 1643 __IO uint32_t WINDOW; /*!< Index acceptance window register */
bogdanm 20:4263a77256ae 1644 __IO uint32_t INXCMP1; /*!< Index compare register 1 */
bogdanm 20:4263a77256ae 1645 __IO uint32_t INXCMP2; /*!< Index compare register 2 */
bogdanm 20:4263a77256ae 1646 __I uint32_t RESERVED0[993];
bogdanm 20:4263a77256ae 1647 __O uint32_t IEC; /*!< Interrupt enable clear register */
bogdanm 20:4263a77256ae 1648 __O uint32_t IES; /*!< Interrupt enable set register */
bogdanm 20:4263a77256ae 1649 __I uint32_t INTSTAT; /*!< Interrupt status register */
bogdanm 20:4263a77256ae 1650 __I uint32_t IE; /*!< Interrupt enable register */
bogdanm 20:4263a77256ae 1651 __O uint32_t CLR; /*!< Interrupt status clear register */
bogdanm 20:4263a77256ae 1652 __O uint32_t SET; /*!< Interrupt status set register */
bogdanm 20:4263a77256ae 1653 } LPC_QEI_T;
bogdanm 20:4263a77256ae 1654
bogdanm 20:4263a77256ae 1655 /**
bogdanm 20:4263a77256ae 1656 * @brief Global Input Multiplexer Array (GIMA) register block structure
bogdanm 20:4263a77256ae 1657 */
bogdanm 20:4263a77256ae 1658 #define LPC_GIMA_BASE 0x400C7000
bogdanm 20:4263a77256ae 1659
bogdanm 20:4263a77256ae 1660 typedef struct { /*!< GIMA Structure */
bogdanm 20:4263a77256ae 1661 __IO uint32_t CAP0_IN[4][4]; /*!< Timer x CAP0_y capture input multiplexer (GIMA output ((x*4)+y)) */
bogdanm 20:4263a77256ae 1662 __IO uint32_t CTIN_IN[8]; /*!< SCT CTIN_x capture input multiplexer (GIMA output (16+x)) */
bogdanm 20:4263a77256ae 1663 __IO uint32_t VADC_TRIGGER_IN; /*!< VADC trigger input multiplexer (GIMA output 24) */
bogdanm 20:4263a77256ae 1664 __IO uint32_t EVENTROUTER_13_IN; /*!< Event router input 13 multiplexer (GIMA output 25) */
bogdanm 20:4263a77256ae 1665 __IO uint32_t EVENTROUTER_14_IN; /*!< Event router input 14 multiplexer (GIMA output 26) */
bogdanm 20:4263a77256ae 1666 __IO uint32_t EVENTROUTER_16_IN; /*!< Event router input 16 multiplexer (GIMA output 27) */
bogdanm 20:4263a77256ae 1667 __IO uint32_t ADCSTART0_IN; /*!< ADC start0 input multiplexer (GIMA output 28) */
bogdanm 20:4263a77256ae 1668 __IO uint32_t ADCSTART1_IN; /*!< ADC start1 input multiplexer (GIMA output 29) */
bogdanm 20:4263a77256ae 1669 } LPC_GIMA_T;
bogdanm 20:4263a77256ae 1670
bogdanm 20:4263a77256ae 1671 /**
bogdanm 20:4263a77256ae 1672 * @brief DAC register block structure
bogdanm 20:4263a77256ae 1673 */
bogdanm 20:4263a77256ae 1674 #define LPC_DAC_BASE 0x400E1000
bogdanm 20:4263a77256ae 1675
bogdanm 20:4263a77256ae 1676 typedef struct { /*!< DAC Structure */
bogdanm 20:4263a77256ae 1677 __IO uint32_t CR; /*!< DAC register. Holds the conversion data. */
bogdanm 20:4263a77256ae 1678 __IO uint32_t CTRL; /*!< DAC control register. */
bogdanm 20:4263a77256ae 1679 __IO uint32_t CNTVAL; /*!< DAC counter value register. */
bogdanm 20:4263a77256ae 1680 } LPC_DAC_T;
bogdanm 20:4263a77256ae 1681
bogdanm 20:4263a77256ae 1682 /* After the selected settling time after this field is written with a
bogdanm 20:4263a77256ae 1683 * new VALUE, the voltage on the AOUT pin (with respect to VSSA)
bogdanm 20:4263a77256ae 1684 * is VALUE/1024 ? VREF
bogdanm 20:4263a77256ae 1685 */
bogdanm 20:4263a77256ae 1686 #define DAC_RANGE 0x3FF
bogdanm 20:4263a77256ae 1687 #define DAC_VALUE(n) ((uint32_t) ((n & DAC_RANGE) << 6))
bogdanm 20:4263a77256ae 1688 /* If this bit = 0: The settling time of the DAC is 1 microsecond max,
bogdanm 20:4263a77256ae 1689 * and the maximum current is 700 microAmpere
bogdanm 20:4263a77256ae 1690 * If this bit = 1: The settling time of the DAC is 2.5 microsecond
bogdanm 20:4263a77256ae 1691 * and the maximum current is 350 microAmpere
bogdanm 20:4263a77256ae 1692 */
bogdanm 20:4263a77256ae 1693 #define DAC_BIAS_EN ((uint32_t) (1 << 16))
bogdanm 20:4263a77256ae 1694 /* Value to reload interrupt DMA counter */
bogdanm 20:4263a77256ae 1695 #define DAC_CCNT_VALUE(n) ((uint32_t) (n & 0xffff))
bogdanm 20:4263a77256ae 1696
bogdanm 20:4263a77256ae 1697 #define DAC_DBLBUF_ENA ((uint32_t) (1 << 1))
bogdanm 20:4263a77256ae 1698 #define DAC_CNT_ENA ((uint32_t) (1 << 2))
bogdanm 20:4263a77256ae 1699 #define DAC_DMA_ENA ((uint32_t) (1 << 3))
bogdanm 20:4263a77256ae 1700 #define DAC_DACCTRL_MASK ((uint32_t) (0x0F))
bogdanm 20:4263a77256ae 1701
bogdanm 20:4263a77256ae 1702 /* Current option in DAC configuration option */
bogdanm 20:4263a77256ae 1703 typedef enum IP_DAC_CURRENT_OPT {
bogdanm 20:4263a77256ae 1704 DAC_MAX_UPDATE_RATE_1MHz = 0, /*!< Shorter settling times and higher power consumption;
bogdanm 20:4263a77256ae 1705 allows for a maximum update rate of 1 MHz */
bogdanm 20:4263a77256ae 1706 DAC_MAX_UPDATE_RATE_400kHz /*!< Longer settling times and lower power consumption;
bogdanm 20:4263a77256ae 1707 allows for a maximum update rate of 400 kHz */
bogdanm 20:4263a77256ae 1708 } IP_DAC_CURRENT_OPT_T;
bogdanm 20:4263a77256ae 1709
bogdanm 20:4263a77256ae 1710 /**
bogdanm 20:4263a77256ae 1711 * @brief ADC register block structure
bogdanm 20:4263a77256ae 1712 */
bogdanm 20:4263a77256ae 1713 #define LPC_ADC0_BASE 0x400E3000
bogdanm 20:4263a77256ae 1714 #define LPC_ADC1_BASE 0x400E4000
bogdanm 20:4263a77256ae 1715 #define ADC_ACC_10BITS
bogdanm 20:4263a77256ae 1716
bogdanm 20:4263a77256ae 1717 /**
bogdanm 20:4263a77256ae 1718 * @brief 10 or 12-bit ADC register block structure
bogdanm 20:4263a77256ae 1719 */
bogdanm 20:4263a77256ae 1720 typedef struct { /*!< ADCn Structure */
bogdanm 20:4263a77256ae 1721 __IO uint32_t CR; /*!< A/D Control Register. The AD0CR register must be written to select the operating mode before A/D conversion can occur. */
bogdanm 20:4263a77256ae 1722 __I uint32_t GDR; /*!< A/D Global Data Register. Contains the result of the most recent A/D conversion. */
bogdanm 20:4263a77256ae 1723 __I uint32_t RESERVED0;
bogdanm 20:4263a77256ae 1724 __IO uint32_t INTEN; /*!< A/D Interrupt Enable Register. This register contains enable bits that allow the DONE flag of each A/D channel to be included or excluded from contributing to the generation of an A/D interrupt. */
bogdanm 20:4263a77256ae 1725 __I uint32_t DR[8]; /*!< A/D Channel Data Register. This register contains the result of the most recent conversion completed on channel n. */
bogdanm 20:4263a77256ae 1726 __I uint32_t STAT; /*!< A/D Status Register. This register contains DONE and OVERRUN flags for all of the A/D channels, as well as the A/D interrupt flag. */
bogdanm 20:4263a77256ae 1727 } LPC_ADC_T;
bogdanm 20:4263a77256ae 1728
bogdanm 20:4263a77256ae 1729 /* ADC register support bitfields and mask */
bogdanm 20:4263a77256ae 1730 #define ADC_RANGE 0x3FF
bogdanm 20:4263a77256ae 1731 #define ADC_DR_RESULT(n) ((((n) >> 6) & 0x3FF)) /*!< Mask for getting the 10 bits ADC data read value */
bogdanm 20:4263a77256ae 1732 #define ADC_CR_BITACC(n) ((((n) & 0x7) << 17)) /*!< Number of ADC accuracy bits */
bogdanm 20:4263a77256ae 1733 #define ADC_DR_DONE(n) (((n) >> 31)) /*!< Mask for reading the ADC done status */
bogdanm 20:4263a77256ae 1734 #define ADC_DR_OVERRUN(n) ((((n) >> 30) & (1UL))) /*!< Mask for reading the ADC overrun status */
bogdanm 20:4263a77256ae 1735 #define ADC_CR_CH_SEL(n) ((1UL << (n))) /*!< Selects which of the AD0.0:7 pins is (are) to be sampled and converted */
bogdanm 20:4263a77256ae 1736 #define ADC_CR_CLKDIV(n) ((((n) & 0xFF) << 8)) /*!< The APB clock (PCLK) is divided by (this value plus one) to produce the clock for the A/D */
bogdanm 20:4263a77256ae 1737 #define ADC_CR_BURST ((1UL << 16)) /*!< Repeated conversions A/D enable bit */
bogdanm 20:4263a77256ae 1738 #define ADC_CR_PDN ((1UL << 21)) /*!< ADC convert is operational */
bogdanm 20:4263a77256ae 1739 #define ADC_CR_START_MASK ((7UL << 24)) /*!< ADC start mask bits */
bogdanm 20:4263a77256ae 1740 #define ADC_CR_START_MODE_SEL(SEL) ((SEL << 24)) /*!< Select Start Mode */
bogdanm 20:4263a77256ae 1741 #define ADC_CR_START_NOW ((1UL << 24)) /*!< Start conversion now */
bogdanm 20:4263a77256ae 1742 #define ADC_CR_START_CTOUT15 ((2UL << 24)) /*!< Start conversion when the edge selected by bit 27 occurs on CTOUT_15 */
bogdanm 20:4263a77256ae 1743 #define ADC_CR_START_CTOUT8 ((3UL << 24)) /*!< Start conversion when the edge selected by bit 27 occurs on CTOUT_8 */
bogdanm 20:4263a77256ae 1744 #define ADC_CR_START_ADCTRIG0 ((4UL << 24)) /*!< Start conversion when the edge selected by bit 27 occurs on ADCTRIG0 */
bogdanm 20:4263a77256ae 1745 #define ADC_CR_START_ADCTRIG1 ((5UL << 24)) /*!< Start conversion when the edge selected by bit 27 occurs on ADCTRIG1 */
bogdanm 20:4263a77256ae 1746 #define ADC_CR_START_MCOA2 ((6UL << 24)) /*!< Start conversion when the edge selected by bit 27 occurs on Motocon PWM output MCOA2 */
bogdanm 20:4263a77256ae 1747 #define ADC_CR_EDGE ((1UL << 27)) /*!< Start conversion on a falling edge on the selected CAP/MAT signal */
bogdanm 20:4263a77256ae 1748 #define ADC_CONFIG_MASK (ADC_CR_CLKDIV(0xFF) | ADC_CR_BITACC(0x07) | ADC_CR_PDN)
bogdanm 20:4263a77256ae 1749
bogdanm 20:4263a77256ae 1750 /* ADC status register used for IP drivers */
bogdanm 20:4263a77256ae 1751 typedef enum IP_ADC_STATUS {
bogdanm 20:4263a77256ae 1752 ADC_DR_DONE_STAT, /*!< ADC data register staus */
bogdanm 20:4263a77256ae 1753 ADC_DR_OVERRUN_STAT,/*!< ADC data overrun staus */
bogdanm 20:4263a77256ae 1754 ADC_DR_ADINT_STAT /*!< ADC interrupt status */
bogdanm 20:4263a77256ae 1755 } IP_ADC_STATUS_T;
bogdanm 20:4263a77256ae 1756
bogdanm 20:4263a77256ae 1757 /**
bogdanm 20:4263a77256ae 1758 * @brief GPIO port register block structure
bogdanm 20:4263a77256ae 1759 */
bogdanm 20:4263a77256ae 1760 #define LPC_GPIO_PORT_BASE 0x400F4000
bogdanm 20:4263a77256ae 1761
bogdanm 20:4263a77256ae 1762 typedef struct { /*!< GPIO_PORT Structure */
bogdanm 20:4263a77256ae 1763 __IO uint8_t B[128][32]; /*!< Offset 0x0000: Byte pin registers ports 0 to n; pins PIOn_0 to PIOn_31 */
bogdanm 20:4263a77256ae 1764 __IO uint32_t W[32][32]; /*!< Offset 0x1000: Word pin registers port 0 to n */
bogdanm 20:4263a77256ae 1765 __IO uint32_t DIR[32]; /*!< Offset 0x2000: Direction registers port n */
bogdanm 20:4263a77256ae 1766 __IO uint32_t MASK[32]; /*!< Offset 0x2080: Mask register port n */
bogdanm 20:4263a77256ae 1767 __IO uint32_t PIN[32]; /*!< Offset 0x2100: Portpin register port n */
bogdanm 20:4263a77256ae 1768 __IO uint32_t MPIN[32]; /*!< Offset 0x2180: Masked port register port n */
bogdanm 20:4263a77256ae 1769 __IO uint32_t SET[32]; /*!< Offset 0x2200: Write: Set register for port n Read: output bits for port n */
bogdanm 20:4263a77256ae 1770 __O uint32_t CLR[32]; /*!< Offset 0x2280: Clear port n */
bogdanm 20:4263a77256ae 1771 __O uint32_t NOT[32]; /*!< Offset 0x2300: Toggle port n */
bogdanm 20:4263a77256ae 1772 } LPC_GPIO_T;
bogdanm 20:4263a77256ae 1773
bogdanm 20:4263a77256ae 1774 /* Calculate GPIO offset and port register address from group and pin number */
bogdanm 20:4263a77256ae 1775 #define GPIO_OFF(port, pin) ((port << 5) + pin)
bogdanm 20:4263a77256ae 1776 #define GPIO_REG(port, pin) ((__IO uint32_t *)(LPC_GPIO_PORT_BASE + 0x2000 + GPIO_OFF(port, pin)))
bogdanm 20:4263a77256ae 1777
bogdanm 20:4263a77256ae 1778 /**
bogdanm 20:4263a77256ae 1779 * @brief SPI register block structure
bogdanm 20:4263a77256ae 1780 */
bogdanm 20:4263a77256ae 1781 #define LPC_SPI_BASE 0x40100000
bogdanm 20:4263a77256ae 1782
bogdanm 20:4263a77256ae 1783 typedef struct { /*!< SPI Structure */
bogdanm 20:4263a77256ae 1784 __IO uint32_t CR; /*!< SPI Control Register. This register controls the operation of the SPI. */
bogdanm 20:4263a77256ae 1785 __I uint32_t SR; /*!< SPI Status Register. This register shows the status of the SPI. */
bogdanm 20:4263a77256ae 1786 __IO uint32_t DR; /*!< SPI Data Register. This bi-directional register provides the transmit and receive data for the SPI. Transmit data is provided to the SPI0 by writing to this register. Data received by the SPI0 can be read from this register. */
bogdanm 20:4263a77256ae 1787 __IO uint32_t CCR; /*!< SPI Clock Counter Register. This register controls the frequency of a master's SCK0. */
bogdanm 20:4263a77256ae 1788 __I uint32_t RESERVED0[3];
bogdanm 20:4263a77256ae 1789 __IO uint32_t INT; /*!< SPI Interrupt Flag. This register contains the interrupt flag for the SPI interface. */
bogdanm 20:4263a77256ae 1790 } LPC_SPI_T;
bogdanm 20:4263a77256ae 1791
bogdanm 20:4263a77256ae 1792 /* SPI CFG Register BitMask */
bogdanm 20:4263a77256ae 1793 #define SPI_CR_BITMASK ((uint32_t) 0xFFC)
bogdanm 20:4263a77256ae 1794 /* Enable of controlling the number of bits per transfer */
bogdanm 20:4263a77256ae 1795 #define SPI_CR_BIT_EN ((uint32_t) (1 << 2))
bogdanm 20:4263a77256ae 1796 /* Mask of field of bit controlling */
bogdanm 20:4263a77256ae 1797 #define SPI_CR_BITS_MASK ((uint32_t) 0xF00)
bogdanm 20:4263a77256ae 1798 /* Set the number of bits per a transfer */
bogdanm 20:4263a77256ae 1799 #define SPI_CR_BITS(n) ((uint32_t) ((n << 8) & 0xF00)) /* n is in range 8-16 */
bogdanm 20:4263a77256ae 1800 /* SPI Clock Phase Select*/
bogdanm 20:4263a77256ae 1801 #define SPI_CR_CPHA_FIRST ((uint32_t) (0)) /*Capture data on the first edge, Change data on the following edge*/
bogdanm 20:4263a77256ae 1802 #define SPI_CR_CPHA_SECOND ((uint32_t) (1 << 3)) /*Change data on the first edge, Capture data on the following edge*/
bogdanm 20:4263a77256ae 1803 /* SPI Clock Polarity Select*/
bogdanm 20:4263a77256ae 1804 #define SPI_CR_CPOL_LO ((uint32_t) (0)) /* The rest state of the clock (between frames) is low.*/
bogdanm 20:4263a77256ae 1805 #define SPI_CR_CPOL_HI ((uint32_t) (1 << 4)) /* The rest state of the clock (between frames) is high.*/
bogdanm 20:4263a77256ae 1806 /* SPI Slave Mode Select */
bogdanm 20:4263a77256ae 1807 #define SPI_CR_SLAVE_EN ((uint32_t) 0)
bogdanm 20:4263a77256ae 1808 /* SPI Master Mode Select */
bogdanm 20:4263a77256ae 1809 #define SPI_CR_MASTER_EN ((uint32_t) (1 << 5))
bogdanm 20:4263a77256ae 1810 /* SPI MSB First mode enable */
bogdanm 20:4263a77256ae 1811 #define SPI_CR_MSB_FIRST_EN ((uint32_t) 0) /*Data will be transmitted and received in standard order (MSB first).*/
bogdanm 20:4263a77256ae 1812 /* SPI LSB First mode enable */
bogdanm 20:4263a77256ae 1813 #define SPI_CR_LSB_FIRST_EN ((uint32_t) (1 << 6)) /*Data will be transmitted and received in reverse order (LSB first).*/
bogdanm 20:4263a77256ae 1814 /* SPI interrupt enable */
bogdanm 20:4263a77256ae 1815 #define SPI_CR_INT_EN ((uint32_t) (1 << 7))
bogdanm 20:4263a77256ae 1816 /* SPI STAT Register BitMask */
bogdanm 20:4263a77256ae 1817 #define SPI_SR_BITMASK ((uint32_t) 0xF8)
bogdanm 20:4263a77256ae 1818 /* Slave abort Flag */
bogdanm 20:4263a77256ae 1819 #define SPI_SR_ABRT ((uint32_t) (1 << 3)) /* When 1, this bit indicates that a slave abort has occurred. */
bogdanm 20:4263a77256ae 1820 /* Mode fault Flag */
bogdanm 20:4263a77256ae 1821 #define SPI_SR_MODF ((uint32_t) (1 << 4)) /* when 1, this bit indicates that a Mode fault error has occurred. */
bogdanm 20:4263a77256ae 1822 /* Read overrun flag*/
bogdanm 20:4263a77256ae 1823 #define SPI_SR_ROVR ((uint32_t) (1 << 5)) /* When 1, this bit indicates that a read overrun has occurred. */
bogdanm 20:4263a77256ae 1824 /* Write collision flag. */
bogdanm 20:4263a77256ae 1825 #define SPI_SR_WCOL ((uint32_t) (1 << 6)) /* When 1, this bit indicates that a write collision has occurred.. */
bogdanm 20:4263a77256ae 1826 /* SPI transfer complete flag. */
bogdanm 20:4263a77256ae 1827 #define SPI_SR_SPIF ((uint32_t) (1 << 7)) /* When 1, this bit indicates when a SPI data transfer is complete.. */
bogdanm 20:4263a77256ae 1828 /**SPI error flag */
bogdanm 20:4263a77256ae 1829 #define SPI_SR_ERROR (SPI_SR_ABRT | SPI_SR_MODF | SPI_SR_ROVR | SPI_SR_WCOL)
bogdanm 20:4263a77256ae 1830 /* Enable SPI Test Mode */
bogdanm 20:4263a77256ae 1831 #define SPI_TCR_TEST(n) ((uint32_t) ((n & 0x3F) << 1))
bogdanm 20:4263a77256ae 1832 /* SPI interrupt flag */
bogdanm 20:4263a77256ae 1833 #define SPI_INT_SPIF ((uint32_t) (1 << 0))
bogdanm 20:4263a77256ae 1834 /* Receiver Data */
bogdanm 20:4263a77256ae 1835 #define SPI_DR_DATA(n) ((uint32_t) ((n) & 0xFFFF))
bogdanm 20:4263a77256ae 1836
bogdanm 20:4263a77256ae 1837 /* SPI Mode*/
bogdanm 20:4263a77256ae 1838 typedef enum LPC_SPI_MODE {
bogdanm 20:4263a77256ae 1839 SPI_MODE_MASTER = SPI_CR_MASTER_EN, /* Master Mode */
bogdanm 20:4263a77256ae 1840 SPI_MODE_SLAVE = SPI_CR_SLAVE_EN, /* Slave Mode */
bogdanm 20:4263a77256ae 1841 } LPC_SPI_MODE_T;
bogdanm 20:4263a77256ae 1842
bogdanm 20:4263a77256ae 1843 /* SPI Clock Mode*/
bogdanm 20:4263a77256ae 1844 typedef enum LPC_SPI_CLOCK_MODE {
bogdanm 20:4263a77256ae 1845 SPI_CLOCK_CPHA0_CPOL0 = SPI_CR_CPOL_LO | SPI_CR_CPHA_FIRST, /**< CPHA = 0, CPOL = 0 */
bogdanm 20:4263a77256ae 1846 SPI_CLOCK_CPHA0_CPOL1 = SPI_CR_CPOL_HI | SPI_CR_CPHA_FIRST, /**< CPHA = 0, CPOL = 1 */
bogdanm 20:4263a77256ae 1847 SPI_CLOCK_CPHA1_CPOL0 = SPI_CR_CPOL_LO | SPI_CR_CPHA_SECOND, /**< CPHA = 1, CPOL = 0 */
bogdanm 20:4263a77256ae 1848 SPI_CLOCK_CPHA1_CPOL1 = SPI_CR_CPOL_HI | SPI_CR_CPHA_SECOND, /**< CPHA = 1, CPOL = 1 */
bogdanm 20:4263a77256ae 1849 SPI_CLOCK_MODE0 = SPI_CLOCK_CPHA0_CPOL0, /**< alias */
bogdanm 20:4263a77256ae 1850 SPI_CLOCK_MODE1 = SPI_CLOCK_CPHA1_CPOL0, /**< alias */
bogdanm 20:4263a77256ae 1851 SPI_CLOCK_MODE2 = SPI_CLOCK_CPHA0_CPOL1, /**< alias */
bogdanm 20:4263a77256ae 1852 SPI_CLOCK_MODE3 = SPI_CLOCK_CPHA1_CPOL1, /**< alias */
bogdanm 20:4263a77256ae 1853 } LPC_SPI_CLOCK_MODE_T;
bogdanm 20:4263a77256ae 1854
bogdanm 20:4263a77256ae 1855 /* SPI Data Order Mode*/
bogdanm 20:4263a77256ae 1856 typedef enum LPC_SPI_DATA_ORDER {
bogdanm 20:4263a77256ae 1857 SPI_DATA_MSB_FIRST = SPI_CR_MSB_FIRST_EN, /* Standard Order */
bogdanm 20:4263a77256ae 1858 SPI_DATA_LSB_FIRST = SPI_CR_LSB_FIRST_EN, /* Reverse Order */
bogdanm 20:4263a77256ae 1859 } LPC_SPI_DATA_ORDER_T;
bogdanm 20:4263a77256ae 1860
bogdanm 20:4263a77256ae 1861 /**
bogdanm 20:4263a77256ae 1862 * @brief Serial GPIO register block structure
bogdanm 20:4263a77256ae 1863 */
bogdanm 20:4263a77256ae 1864 #define LPC_SGPIO_BASE 0x40101000
bogdanm 20:4263a77256ae 1865
bogdanm 20:4263a77256ae 1866 typedef struct { /*!< SGPIO Structure */
bogdanm 20:4263a77256ae 1867 __IO uint32_t OUT_MUX_CFG[16]; /*!< Pin multiplexer configurationregisters. */
bogdanm 20:4263a77256ae 1868 __IO uint32_t SGPIO_MUX_CFG[16]; /*!< SGPIO multiplexer configuration registers. */
bogdanm 20:4263a77256ae 1869 __IO uint32_t SLICE_MUX_CFG[16]; /*!< Slice multiplexer configuration registers. */
bogdanm 20:4263a77256ae 1870 __IO uint32_t REG[16]; /*!< Slice data registers. Eachtime COUNT0 reaches 0x0 the register shifts loading bit 31 withdata captured from DIN(n). DOUT(n) is set to REG(0) */
bogdanm 20:4263a77256ae 1871 __IO uint32_t REG_SS[16]; /*!< Slice data shadow registers. Each time POSreaches 0x0 the contents of REG_SS is exchanged with the contentof REG */
bogdanm 20:4263a77256ae 1872 __IO uint32_t PRESET[16]; /*!< Reload valueof COUNT0, loaded when COUNT0 reaches 0x0 */
bogdanm 20:4263a77256ae 1873 __IO uint32_t COUNT[16]; /*!< Down counter, counts down each clock cycle. */
bogdanm 20:4263a77256ae 1874 __IO uint32_t POS[16]; /*!< Each time COUNT0 reaches 0x0 */
bogdanm 20:4263a77256ae 1875 __IO uint32_t MASK_A; /*!< Mask for pattern match function of slice A */
bogdanm 20:4263a77256ae 1876 __IO uint32_t MASK_H; /*!< Mask for pattern match function of slice H */
bogdanm 20:4263a77256ae 1877 __IO uint32_t MASK_I; /*!< Mask for pattern match function of slice I */
bogdanm 20:4263a77256ae 1878 __IO uint32_t MASK_P; /*!< Mask for pattern match function of slice P */
bogdanm 20:4263a77256ae 1879 __I uint32_t GPIO_INREG; /*!< GPIO input status register */
bogdanm 20:4263a77256ae 1880 __IO uint32_t GPIO_OUTREG; /*!< GPIO output control register */
bogdanm 20:4263a77256ae 1881 __IO uint32_t GPIO_OENREG; /*!< GPIO OE control register */
bogdanm 20:4263a77256ae 1882 __IO uint32_t CTRL_ENABLED; /*!< Enables the slice COUNT counter */
bogdanm 20:4263a77256ae 1883 __IO uint32_t CTRL_DISABLED; /*!< Disables the slice COUNT counter */
bogdanm 20:4263a77256ae 1884 __I uint32_t RESERVED0[823];
bogdanm 20:4263a77256ae 1885 __O uint32_t CLR_EN_0; /*!< Shift clock interrupt clear mask */
bogdanm 20:4263a77256ae 1886 __O uint32_t SET_EN_0; /*!< Shift clock interrupt set mask */
bogdanm 20:4263a77256ae 1887 __I uint32_t ENABLE_0; /*!< Shift clock interrupt enable */
bogdanm 20:4263a77256ae 1888 __I uint32_t STATUS_0; /*!< Shift clock interrupt status */
bogdanm 20:4263a77256ae 1889 __O uint32_t CTR_STATUS_0; /*!< Shift clock interrupt clear status */
bogdanm 20:4263a77256ae 1890 __O uint32_t SET_STATUS_0; /*!< Shift clock interrupt set status */
bogdanm 20:4263a77256ae 1891 __I uint32_t RESERVED1[2];
bogdanm 20:4263a77256ae 1892 __O uint32_t CLR_EN_1; /*!< Capture clock interrupt clear mask */
bogdanm 20:4263a77256ae 1893 __O uint32_t SET_EN_1; /*!< Capture clock interrupt set mask */
bogdanm 20:4263a77256ae 1894 __I uint32_t ENABLE_1; /*!< Capture clock interrupt enable */
bogdanm 20:4263a77256ae 1895 __I uint32_t STATUS_1; /*!< Capture clock interrupt status */
bogdanm 20:4263a77256ae 1896 __O uint32_t CTR_STATUS_1; /*!< Capture clock interrupt clear status */
bogdanm 20:4263a77256ae 1897 __O uint32_t SET_STATUS_1; /*!< Capture clock interrupt set status */
bogdanm 20:4263a77256ae 1898 __I uint32_t RESERVED2[2];
bogdanm 20:4263a77256ae 1899 __O uint32_t CLR_EN_2; /*!< Pattern match interrupt clear mask */
bogdanm 20:4263a77256ae 1900 __O uint32_t SET_EN_2; /*!< Pattern match interrupt set mask */
bogdanm 20:4263a77256ae 1901 __I uint32_t ENABLE_2; /*!< Pattern match interrupt enable */
bogdanm 20:4263a77256ae 1902 __I uint32_t STATUS_2; /*!< Pattern match interrupt status */
bogdanm 20:4263a77256ae 1903 __O uint32_t CTR_STATUS_2; /*!< Pattern match interrupt clear status */
bogdanm 20:4263a77256ae 1904 __O uint32_t SET_STATUS_2; /*!< Pattern match interrupt set status */
bogdanm 20:4263a77256ae 1905 __I uint32_t RESERVED3[2];
bogdanm 20:4263a77256ae 1906 __O uint32_t CLR_EN_3; /*!< Input interrupt clear mask */
bogdanm 20:4263a77256ae 1907 __O uint32_t SET_EN_3; /*!< Input bit match interrupt set mask */
bogdanm 20:4263a77256ae 1908 __I uint32_t ENABLE_3; /*!< Input bit match interrupt enable */
bogdanm 20:4263a77256ae 1909 __I uint32_t STATUS_3; /*!< Input bit match interrupt status */
bogdanm 20:4263a77256ae 1910 __O uint32_t CTR_STATUS_3; /*!< Input bit match interrupt clear status */
bogdanm 20:4263a77256ae 1911 __O uint32_t SET_STATUS_3; /*!< Shift clock interrupt set status */
bogdanm 20:4263a77256ae 1912 } LPC_SGPIO_T;
bogdanm 20:4263a77256ae 1913
bogdanm 20:4263a77256ae 1914 /* End of section using anonymous unions */
bogdanm 20:4263a77256ae 1915 #if defined(__ARMCC_VERSION)
bogdanm 20:4263a77256ae 1916 #pragma pop
bogdanm 20:4263a77256ae 1917 #elif defined(__CWCC__)
bogdanm 20:4263a77256ae 1918 #pragma pop
bogdanm 20:4263a77256ae 1919 #elif defined(__IAR_SYSTEMS_ICC__)
bogdanm 20:4263a77256ae 1920 //#pragma pop // FIXME not usable for IAR
bogdanm 20:4263a77256ae 1921 #else /* defined(__GNUC__) and others */
bogdanm 20:4263a77256ae 1922 /* Leave anonymous unions enabled */
bogdanm 20:4263a77256ae 1923 #endif
bogdanm 20:4263a77256ae 1924
bogdanm 20:4263a77256ae 1925 /**
bogdanm 20:4263a77256ae 1926 * @brief LPC43xx Peripheral register set declarations
bogdanm 20:4263a77256ae 1927 */
bogdanm 20:4263a77256ae 1928 #define LPC_SCT ((LPC_SCT_T *) LPC_SCT_BASE)
bogdanm 20:4263a77256ae 1929 #define LPC_GPDMA ((LPC_GPDMA_T *) LPC_GPDMA_BASE)
bogdanm 20:4263a77256ae 1930 #define LPC_SDMMC ((LPC_SDMMC_T *) LPC_SDMMC_BASE)
bogdanm 20:4263a77256ae 1931 #define LPC_EMC ((LPC_EMC_T *) LPC_EMC_BASE)
bogdanm 20:4263a77256ae 1932 #define LPC_USB0 ((LPC_USBHS_T *) LPC_USB0_BASE)
bogdanm 20:4263a77256ae 1933 #define LPC_USB1 ((LPC_USBHS_T *) LPC_USB1_BASE)
bogdanm 20:4263a77256ae 1934 #define LPC_LCD ((LPC_LCD_T *) LPC_LCD_BASE)
bogdanm 20:4263a77256ae 1935 #define LPC_EEPROM ((LPC_EEPROM_T *) LPC_EEPROM_BASE)
bogdanm 20:4263a77256ae 1936 #define LPC_ETHERNET ((LPC_ENET_T *) LPC_ETHERNET_BASE)
bogdanm 20:4263a77256ae 1937 #define LPC_ATIMER ((LPC_ATIMER_T *) LPC_ATIMER_BASE)
bogdanm 20:4263a77256ae 1938 #define LPC_REGFILE ((LPC_REGFILE_T *) LPC_REGFILE_BASE)
bogdanm 20:4263a77256ae 1939 #define LPC_PMC ((LPC_PMC_T *) LPC_PMC_BASE)
bogdanm 20:4263a77256ae 1940 #define LPC_CREG ((LPC_CREG_T *) LPC_CREG_BASE)
bogdanm 20:4263a77256ae 1941 #define LPC_EVRT ((LPC_EVRT_T *) LPC_EVRT_BASE)
bogdanm 20:4263a77256ae 1942 #define LPC_RTC ((LPC_RTC_T *) LPC_RTC_BASE)
bogdanm 20:4263a77256ae 1943 #define LPC_CGU ((LPC_CGU_T *) LPC_CGU_BASE)
bogdanm 20:4263a77256ae 1944 #define LPC_CCU1 ((LPC_CCU1_T *) LPC_CCU1_BASE)
bogdanm 20:4263a77256ae 1945 #define LPC_CCU2 ((LPC_CCU2_T *) LPC_CCU2_BASE)
bogdanm 20:4263a77256ae 1946 #define LPC_RGU ((LPC_RGU_T *) LPC_RGU_BASE)
bogdanm 20:4263a77256ae 1947 #define LPC_WWDT ((LPC_WWDT_T *) LPC_WWDT_BASE)
bogdanm 20:4263a77256ae 1948 #define LPC_USART0 ((LPC_USART_T *) LPC_USART0_BASE)
bogdanm 20:4263a77256ae 1949 #define LPC_USART2 ((LPC_USART_T *) LPC_USART2_BASE)
bogdanm 20:4263a77256ae 1950 #define LPC_USART3 ((LPC_USART_T *) LPC_USART3_BASE)
bogdanm 20:4263a77256ae 1951 #define LPC_UART1 ((LPC_USART_T *) LPC_UART1_BASE)
bogdanm 20:4263a77256ae 1952 #define LPC_SSP0 ((LPC_SSP_T *) LPC_SSP0_BASE)
bogdanm 20:4263a77256ae 1953 #define LPC_SSP1 ((LPC_SSP_T *) LPC_SSP1_BASE)
bogdanm 20:4263a77256ae 1954 #define LPC_TIMER0 ((LPC_TIMER_T *) LPC_TIMER0_BASE)
bogdanm 20:4263a77256ae 1955 #define LPC_TIMER1 ((LPC_TIMER_T *) LPC_TIMER1_BASE)
bogdanm 20:4263a77256ae 1956 #define LPC_TIMER2 ((LPC_TIMER_T *) LPC_TIMER2_BASE)
bogdanm 20:4263a77256ae 1957 #define LPC_TIMER3 ((LPC_TIMER_T *) LPC_TIMER3_BASE)
bogdanm 20:4263a77256ae 1958 #define LPC_SCU ((LPC_SCU_T *) LPC_SCU_BASE)
bogdanm 20:4263a77256ae 1959 #define LPC_GPIO_PIN_INT ((LPC_GPIOPININT_T *) LPC_GPIO_PIN_INT_BASE)
bogdanm 20:4263a77256ae 1960 #define LPC_GPIO_GROUP_INT0 ((IP_GPIOGROUPINT_T *) LPC_GPIO_GROUP_INT0_BASE)
bogdanm 20:4263a77256ae 1961 #define LPC_GPIO_GROUP_INT1 ((IP_GPIOGROUPINT_T *) LPC_GPIO_GROUP_INT1_BASE)
bogdanm 20:4263a77256ae 1962 #define LPC_MCPWM ((LPC_MCPWM_T *) LPC_MCPWM_BASE)
bogdanm 20:4263a77256ae 1963 #define LPC_I2C0 ((LPC_I2C_T *) LPC_I2C0_BASE)
bogdanm 20:4263a77256ae 1964 #define LPC_I2C1 ((LPC_I2C_T *) LPC_I2C1_BASE)
bogdanm 20:4263a77256ae 1965 #define LPC_I2S0 ((LPC_I2S_T *) LPC_I2S0_BASE)
bogdanm 20:4263a77256ae 1966 #define LPC_I2S1 ((LPC_I2S_T *) LPC_I2S1_BASE)
bogdanm 20:4263a77256ae 1967 #define LPC_C_CAN1 ((LPC_CCAN_T *) LPC_C_CAN1_BASE)
bogdanm 20:4263a77256ae 1968 #define LPC_RITIMER ((LPC_RITIMER_T *) LPC_RITIMER_BASE)
bogdanm 20:4263a77256ae 1969 #define LPC_QEI ((LPC_QEI_T *) LPC_QEI_BASE)
bogdanm 20:4263a77256ae 1970 #define LPC_GIMA ((LPC_GIMA_T *) LPC_GIMA_BASE)
bogdanm 20:4263a77256ae 1971 #define LPC_DAC ((LPC_DAC_T *) LPC_DAC_BASE)
bogdanm 20:4263a77256ae 1972 #define LPC_C_CAN0 ((LPC_CCAN_T *) LPC_C_CAN0_BASE)
bogdanm 20:4263a77256ae 1973 #define LPC_ADC0 ((LPC_ADC_T *) LPC_ADC0_BASE)
bogdanm 20:4263a77256ae 1974 #define LPC_ADC1 ((LPC_ADC_T *) LPC_ADC1_BASE)
bogdanm 20:4263a77256ae 1975 #define LPC_GPIO_PORT ((LPC_GPIO_T *) LPC_GPIO_PORT_BASE)
bogdanm 20:4263a77256ae 1976 #define LPC_SPI ((LPC_SPI_T *) LPC_SPI_BASE)
bogdanm 20:4263a77256ae 1977 #define LPC_SGPIO ((LPC_SGPIO_T *) LPC_SGPIO_BASE)
bogdanm 20:4263a77256ae 1978
bogdanm 20:4263a77256ae 1979 /**
bogdanm 20:4263a77256ae 1980 * @}
bogdanm 20:4263a77256ae 1981 */
bogdanm 20:4263a77256ae 1982
bogdanm 20:4263a77256ae 1983 #ifdef __cplusplus
bogdanm 20:4263a77256ae 1984 }
bogdanm 20:4263a77256ae 1985 #endif
bogdanm 20:4263a77256ae 1986
bogdanm 20:4263a77256ae 1987 #endif /* __LPC43XX_H */