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targets/TARGET_Maxim/TARGET_MAX32630/device/max3263x.h
- Committer:
- ranaumarnaeem
- Date:
- 2017-05-23
- Revision:
- 165:2dd56e6daeec
- Parent:
- 157:ff67d9f36b67
File content as of revision 165:2dd56e6daeec:
/** * @file * @brief MAX3263X device specific definitions for the core, peripherals, * features, memory, and IRQs. */ /* ***************************************************************************** * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name of Maxim Integrated * Products, Inc. shall not be used except as stated in the Maxim Integrated * Products, Inc. Branding Policy. * * The mere transfer of this software does not imply any licenses * of trade secrets, proprietary technology, copyrights, patents, * trademarks, maskwork rights, or any other form of intellectual * property whatsoever. Maxim Integrated Products, Inc. retains all * ownership rights. * * * $Date: 2016-10-31 17:08:23 -0500 (Mon, 31 Oct 2016) $ * $Revision: 24858 $ * *************************************************************************** */ /* **** Includes **** */ #include <stdint.h> /* Define to prevent redundant inclusion */ #ifndef _MAX3263X_H_ #define _MAX3263X_H_ /** * @ingroup cmsis_product * @defgroup product_name MAX3263X * @brief MAX3263X device specific definitions for the core, peripherals, * features, memory, and IRQs. * @details The <b><em>MAX32630/MAX32631</em></b> is an ARM® * Cortex®-M4F 32-bit microcontroller with a floating point * unit, ideal for the emerging category of wearable medical and * fitness applications. The architecture combines ultra-low power * high-efficiency signal processing functionality with * significantly reduced power consumption and ease of use. The * device features four powerful and flexible power modes. A * peripheral management unit (PMU) enables intelligent peripheral * control with up to six channels to significantly reduce power * consumption. Built-in dynamic clock gating and * firmware-controlled power gating allows the user to optimize * power for the specific application. Multiple SPI, UART and * I²C serial interfaces, as well as 1-Wire® master and * USB, allow for interconnection to a wide variety of external * sensors. A four-input, 10-bit ADC with selectable references is * available to monitor analog input from external sensors and * meters. The small 100-ball WLP package provides a tiny, 4.37mm x * 4.37mm footprint. The <b><em>MAX32630/MAX32631</em></b> include * a hardware AES engine. The <b>@em MAX32631</b> is a secure * version of the <b>@em MAX32630</b>. It incorporates a trust * protection unit (TPU) with encryption and advanced security * features. These features include a modular arithmetic * accelerator (MAA) for fast ECDSA, a hardware PRNG entropy * generator, and a secure boot loader. * @{ */ #ifndef FALSE /** * @internal False */ #define FALSE (0) #endif #ifndef TRUE /** * @internal True */ #define TRUE (1) #endif /* COMPILER SPECIFIC DEFINES (IAR, ARMCC and GNUC) */ #if defined ( __GNUC__ ) #define __weak __attribute__((weak)) /**< GNUC weak function keyword. */ #elif defined ( __CC_ARM) #define inline __inline /**< inline keyword for Keil compiler. */ #pragma anon_unions #endif /**@}*/ /** * @ingroup product_name * @defgroup nvic_table Nested Interrupt Vector Table (NVIC) * Device specific interrupt request NVIC entries. * @{ */ /** * \MXIM_Device Nested Interrupt Vector Table (NVIC). * @details * NVIC Peripheral Entry numbers and Offsets are shown in the table below. * * | Entry | Offset | Peripheral | * |-------: | ------: | :------------------------------------ | * | 0x10 | 0x0040 | CLKMAN | * | 0x11 | 0x0044 | PWRMAN | * | 0x12 | 0x0048 | Flash Controller | * | 0x13 | 0x004C | RTC Counter match with Compare 0 | * | 0x14 | 0x0050 | RTC Counter match with Compare 1 | * | 0x15 | 0x0054 | RTC Prescaler interval compare match | * | 0x16 | 0x0058 | RTC Overflow | * | 0x17 | 0x005C | Peripheral Management Unit (PMU/DMA) | * | 0x18 | 0x0060 | USB | * | 0x19 | 0x0064 | AES | * | 0x1A | 0x0068 | MAA | * | 0x1B | 0x006C | Watchdog 0 timeout | * | 0x1C | 0x0070 | Watchdog 0 pre-window (fed too early)| * | 0x1D | 0x0074 | Watchdog 1 timeout | * | 0x1E | 0x0078 | Watchdog 1 pre-window (fed too early)| * | 0x1F | 0x007C | GPIO Port 0 | * | 0x20 | 0x0080 | GPIO Port 1 | * | 0x21 | 0x0084 | GPIO Port 2 | * | 0x22 | 0x0088 | GPIO Port 3 | * | 0x23 | 0x008C | GPIO Port 4 | * | 0x24 | 0x0090 | GPIO Port 5 | * | 0x25 | 0x0094 | GPIO Port 6 | * | 0x26 | 0x0098 | Timer 0 (32-bit, 16-bit #0) | * | 0x27 | 0x009C | Timer 0 (16-bit #1) | * | 0x28 | 0x00A0 | Timer 1 (32-bit, 16-bit #0) | * | 0x29 | 0x00A4 | Timer 1 (16-bit #1) | * | 0x2A | 0x00A8 | Timer 2 (32-bit, 16-bit #0) | * | 0x2B | 0x00AC | Timer 2 (16-bit #1) | * | 0x2C | 0x00B0 | Timer 3 (32-bit, 16-bit #0) | * | 0x2D | 0x00B4 | Timer 3 (16-bit #1) | * | 0x2E | 0x00B8 | Timer 4 (32-bit, 16-bit #0) | * | 0x2F | 0x00BC | Timer 4 (16-bit #1) | * | 0x30 | 0x00C0 | Timer 5 (32-bit, 16-bit #0) | * | 0x31 | 0x00C4 | Timer 5 (16-bit #1) | * | 0x32 | 0x00C8 | UART 0 | * | 0x33 | 0x00CC | UART 1 | * | 0x34 | 0x00D0 | UART 2 | * | 0x35 | 0x00D4 | UART 3 | * | 0x36 | 0x00D8 | Pulse Trains | * | 0x37 | 0x00DC | I2C Master 0 | * | 0x38 | 0x00E0 | I2C Master 1 | * | 0x39 | 0x00E4 | I2C Master 2 | * | 0x3A | 0x00E8 | I2C Slave | * | 0x3B | 0x00EC | SPI Master 0 | * | 0x3C | 0x00F0 | SPI Master 1 | * | 0x3D | 0x00F4 | SPI Master 2 | * | 0x3E | 0x00F8 | SPI Bridge | * | 0x3F | 0x00FC | 1-Wire Master | * | 0x40 | 0x0100 | ADC | * | 0x41 | 0x0104 | SPI Slave | * | 0x42 | 0x0108 | GPIO Port 7 | * | 0x43 | 0x010C | GPIO Port 8 | */ /** * Enumeration type of all \MXIM_Device NVIC entries. */ typedef enum { NonMaskableInt_IRQn = -14, /**< ARM Core : Non-maskable IRQ */ HardFault_IRQn = -13, /**< ARM Core : Hard Fault IRQ */ MemoryManagement_IRQn = -12, /**< ARM Core : Memory Management IRQ */ BusFault_IRQn = -11, /**< ARM Core : Bus Fault IRQ */ UsageFault_IRQn = -10, /**< ARM Core : Usage Fault IRQ */ SVCall_IRQn = -5, /**< ARM Core : SVCall IRQ */ DebugMonitor_IRQn = -4, /**< ARM Core : Debug Monitor IRQ */ PendSV_IRQn = -2, /**< ARM Core : PendSV IRQ */ SysTick_IRQn = -1, /**< ARM Core : SysTick IRQ */ CLKMAN_IRQn = 0, /**< CLKMAN */ PWRMAN_IRQn, /**< PWRMAN */ FLC_IRQn, /**< Flash Controller */ RTC0_IRQn, /**< RTC Counter match with Compare 0 */ RTC1_IRQn, /**< RTC Counter match with Compare 1 */ RTC2_IRQn, /**< RTC Prescaler interval compare match */ RTC3_IRQn, /**< RTC Overflow */ PMU_IRQn, /**< Peripheral Management Unit (PMU/DMA) */ USB_IRQn, /**< USB */ AES_IRQn, /**< AES */ MAA_IRQn, /**< MAA */ WDT0_IRQn, /**< Watchdog 0 timeout */ WDT0_P_IRQn, /**< Watchdog 0 pre-window (fed too early) */ WDT1_IRQn, /**< Watchdog 1 timeout */ WDT1_P_IRQn, /**< Watchdog 1 pre-window (fed too early) */ GPIO_P0_IRQn, /**< GPIO Port 0 */ GPIO_P1_IRQn, /**< GPIO Port 1 */ GPIO_P2_IRQn, /**< GPIO Port 2 */ GPIO_P3_IRQn, /**< GPIO Port 3 */ GPIO_P4_IRQn, /**< GPIO Port 4 */ GPIO_P5_IRQn, /**< GPIO Port 5 */ GPIO_P6_IRQn, /**< GPIO Port 6 */ TMR0_0_IRQn, /**< Timer 0 (32-bit, 16-bit #0) */ TMR0_1_IRQn, /**< Timer 0 (16-bit #1) */ TMR1_0_IRQn, /**< Timer 1 (32-bit, 16-bit #0) */ TMR1_1_IRQn, /**< Timer 1 (16-bit #1) */ TMR2_0_IRQn, /**< Timer 2 (32-bit, 16-bit #0) */ TMR2_1_IRQn, /**< Timer 2 (16-bit #1) */ TMR3_0_IRQn, /**< Timer 3 (32-bit, 16-bit #0) */ TMR3_1_IRQn, /**< Timer 3 (16-bit #1) */ TMR4_0_IRQn, /**< Timer 4 (32-bit, 16-bit #0) */ TMR4_1_IRQn, /**< Timer 4 (16-bit #1) */ TMR5_0_IRQn, /**< Timer 5 (32-bit, 16-bit #0) */ TMR5_1_IRQn, /**< Timer 5 (16-bit #1) */ UART0_IRQn, /**< UART 0 */ UART1_IRQn, /**< UART 1 */ UART2_IRQn, /**< UART 2 */ UART3_IRQn, /**< UART 3 */ PT_IRQn, /**< Pulse Trains */ I2CM0_IRQn, /**< I2C Master 0 */ I2CM1_IRQn, /**< I2C Master 1 */ I2CM2_IRQn, /**< I2C Master 2 */ I2CS_IRQn, /**< I2C Slave */ SPIM0_IRQn, /**< SPI Master 0 */ SPIM1_IRQn, /**< SPI Master 1 */ SPIM2_IRQn, /**< SPI Master 2 */ SPIB_IRQn, /**< SPI Bridge */ OWM_IRQn, /**< 1-Wire Master */ AFE_IRQn, /**< ADC */ SPIS_IRQn, /**< SPI Slave */ GPIO_P7_IRQn, /**< GPIO Port 7 */ GPIO_P8_IRQn, /**< GPIO Port 8 */ MXC_IRQ_EXT_COUNT /**< Total number of non-core IRQ vectors. */ } IRQn_Type; #define MXC_IRQ_COUNT (MXC_IRQ_EXT_COUNT + 16) /**< Total number of device IRQs inclusive of core and non-core IRQ vectors. */ /**@}end of group nvic_table*/ /* ================================================================================ */ /* ================ Processor and Core Peripheral Section ================ */ /* ================================================================================ */ /** * @ingroup product_name * @defgroup Cortex_M4 Cortex-M Configuration * @{ */ /* ---------------------- Configuration of the Cortex-M Processor and Core Peripherals ---------------------- */ #define __CM4_REV 0x0100 /**< Cortex-M4 Core Revision */ #define __MPU_PRESENT 1 /**< MPU is present */ #define __NVIC_PRIO_BITS 3 /**< Number of Bits used for IRQ Priority Levels */ #define __Vendor_SysTickConfig 0 /**< Using standard CMSIS SysTickConfig */ #define __FPU_PRESENT 1 /**< FPU is Present */ /**@} end of ingroup Cortex_M4*/ #include <core_cm4.h> /*!< Cortex-M4 processor and core peripherals */ #include "system_max3263x.h" /*!< System Header */ /* ================================================================================ */ /* ================== Device Specific Memory Section ================== */ /* ================================================================================ */ /** * @ingroup product_name * @{ */ #define MXC_FLASH_MEM_BASE 0x00000000UL /**< Internal Flash Memory Start Address. */ #define MXC_FLASH_PAGE_SIZE 0x00002000UL /**< Internal Flash Memory Page Size. */ #define MXC_FLASH_FULL_MEM_SIZE 0x00200000UL /**< Internal Flash Memory Size. */ #define MXC_SYS_MEM_BASE 0x20000000UL /**< System Memory Start Address. */ #define MXC_SRAM_FULL_MEM_SIZE 0x00080000UL /**< Internal SRAM Size. */ #define MXC_EXT_FLASH_MEM_BASE 0x10000000UL /**< External Flash Memory Start Address, SPIX interface. */ /* ================================================================================ */ /* ================ Device Specific Peripheral Section ================ */ /* ================================================================================ */ /* Base addresses and configuration settings for all MAX3263X peripheral modules. */ /* *************************************************************************** */ /* System Manager Settings */ #define MXC_BASE_SYSMAN ((uint32_t)0x40000000UL) #define MXC_SYSMAN ((mxc_sysman_regs_t *)MXC_BASE_SYSMAN) /* *************************************************************************** */ /* System Clock Manager */ #define MXC_BASE_CLKMAN ((uint32_t)0x40000400UL) #define MXC_CLKMAN ((mxc_clkman_regs_t *)MXC_BASE_CLKMAN) /* *************************************************************************** */ /* System Power Manager */ #define MXC_BASE_PWRMAN ((uint32_t)0x40000800UL) #define MXC_PWRMAN ((mxc_pwrman_regs_t *)MXC_BASE_PWRMAN) /* *************************************************************************** */ /* Real Time Clock */ #define MXC_BASE_RTCTMR ((uint32_t)0x40000A00UL) #define MXC_RTCTMR ((mxc_rtctmr_regs_t *)MXC_BASE_RTCTMR) #define MXC_BASE_RTCCFG ((uint32_t)0x40000A70UL) #define MXC_RTCCFG ((mxc_rtccfg_regs_t *)MXC_BASE_RTCCFG) #define MXC_RTCTMR_GET_IRQ(i) (IRQn_Type)(i == 0 ? RTC0_IRQn : \ i == 1 ? RTC1_IRQn : \ i == 2 ? RTC2_IRQn : \ i == 3 ? RTC3_IRQn : 0) /* *************************************************************************** */ /* Power Sequencer */ #define MXC_BASE_PWRSEQ ((uint32_t)0x40000A30UL) #define MXC_PWRSEQ ((mxc_pwrseq_regs_t *)MXC_BASE_PWRSEQ) /* *************************************************************************** */ /* System I/O Manager */ /**@} end of ingroup product_name*/ /** * @ingroup ioman_registers * @{ */ #define MXC_BASE_IOMAN ((uint32_t)0x40000C00UL) /**< Base Peripheral Address for IOMAN */ #define MXC_IOMAN ((mxc_ioman_regs_t *)MXC_BASE_IOMAN) /**< Pointer to the #mxc_ioman_regs_t structure representing the IOMAN Registers. */ /**@}*/ /** * @ingroup product_name * @{ */ /* *************************************************************************** */ /* Shadow Trim Registers */ #define MXC_BASE_TRIM ((uint32_t)0x40001000UL) #define MXC_TRIM ((mxc_trim_regs_t *)MXC_BASE_TRIM) /* *************************************************************************** */ /* Flash Controller */ #define MXC_BASE_FLC ((uint32_t)0x40002000UL) #define MXC_FLC ((mxc_flc_regs_t *)MXC_BASE_FLC) #define MXC_FLC_PAGE_SIZE_SHIFT (13) #define MXC_FLC_PAGE_SIZE (1 << MXC_FLC_PAGE_SIZE_SHIFT) #define MXC_FLC_PAGE_ERASE_MSK ((~(1 << (MXC_FLC_PAGE_SIZE_SHIFT - 1))) >> MXC_FLC_PAGE_SIZE_SHIFT) << MXC_FLC_PAGE_SIZE_SHIFT /* *************************************************************************** */ /* Instruction Cache */ #define MXC_BASE_ICC ((uint32_t)0x40003000UL) #define MXC_ICC ((mxc_icc_regs_t *)MXC_BASE_ICC) /**@} end of ingroup product_name*/ /* *************************************************************************** */ /* SPI XIP Interface */ /** * @ingroup spix_registers * @{ */ #define MXC_BASE_SPIX ((uint32_t)0x40004000UL) /**< SPIX Base Peripheral Address. */ #define MXC_SPIX ((mxc_spix_regs_t *)MXC_BASE_SPIX) /**< SPIX pointer to the #mxc_spix_regs_t register structure type. */ /**@} end of ingroup spix_registers*/ /** * @ingroup product_name * @{ */ /* *************************************************************************** */ /* Peripheral Management Unit */ #define MXC_CFG_PMU_CHANNELS (6) #define MXC_BASE_PMU0 ((uint32_t)0x40005000UL) #define MXC_PMU0 ((mxc_pmu_regs_t *)MXC_BASE_PMU0) #define MXC_BASE_PMU1 ((uint32_t)0x40005020UL) #define MXC_PMU1 ((mxc_pmu_regs_t *)MXC_BASE_PMU1) #define MXC_BASE_PMU2 ((uint32_t)0x40005040UL) #define MXC_PMU2 ((mxc_pmu_regs_t *)MXC_BASE_PMU2) #define MXC_BASE_PMU3 ((uint32_t)0x40005060UL) #define MXC_PMU3 ((mxc_pmu_regs_t *)MXC_BASE_PMU3) #define MXC_BASE_PMU4 ((uint32_t)0x40005080UL) #define MXC_PMU4 ((mxc_pmu_regs_t *)MXC_BASE_PMU4) #define MXC_BASE_PMU5 ((uint32_t)0x400050A0UL) #define MXC_PMU5 ((mxc_pmu_regs_t *)MXC_BASE_PMU5) #define MXC_PMU_GET_BASE(i) ((i) == 0 ? MXC_BASE_PMU0 : \ (i) == 1 ? MXC_BASE_PMU1 : \ (i) == 2 ? MXC_BASE_PMU2 : \ (i) == 3 ? MXC_BASE_PMU3 : \ (i) == 4 ? MXC_BASE_PMU4 : \ (i) == 5 ? MXC_BASE_PMU5 : 0) #define MXC_PMU_GET_PMU(i) ((i) == 0 ? MXC_PMU0 : \ (i) == 1 ? MXC_PMU1 : \ (i) == 2 ? MXC_PMU2 : \ (i) == 3 ? MXC_PMU3 : \ (i) == 4 ? MXC_PMU4 : \ (i) == 5 ? MXC_PMU5 : 0) #define MXC_PMU_GET_IDX(p) ((p) == MXC_PMU0 ? 0 : \ (p) == MXC_PMU1 ? 1 : \ (p) == MXC_PMU2 ? 2 : \ (p) == MXC_PMU3 ? 3 : \ (p) == MXC_PMU4 ? 4 : \ (p) == MXC_PMU5 ? 5 : -1) /* *************************************************************************** */ /* USB Device Controller */ #define MXC_BASE_USB ((uint32_t)0x40100000UL) #define MXC_USB ((mxc_usb_regs_t *)MXC_BASE_USB) #define MXC_USB_MAX_PACKET (64) #define MXC_USB_NUM_EP (8) /* *************************************************************************** */ /* CRC-16/CRC-32 Engine */ #define MXC_BASE_CRC ((uint32_t)0x40006000UL) #define MXC_CRC ((mxc_crc_regs_t *)MXC_BASE_CRC) #define MXC_BASE_CRC_DATA ((uint32_t)0x40101000UL) #define MXC_CRC_DATA ((mxc_crc_data_regs_t *)MXC_BASE_CRC_DATA) /* *************************************************************************** */ /* Pseudo-random number generator (PRNG) */ #define MXC_BASE_PRNG ((uint32_t)0x40007000UL) #define MXC_PRNG ((mxc_prng_regs_t *)MXC_BASE_PRNG) /* *************************************************************************** */ /* AES Cryptographic Engine */ #define MXC_BASE_AES ((uint32_t)0x40007400UL) #define MXC_AES ((mxc_aes_regs_t *)MXC_BASE_AES) #define MXC_BASE_AES_MEM ((uint32_t)0x40102000UL) #define MXC_AES_MEM ((mxc_aes_mem_regs_t *)MXC_BASE_AES_MEM) /* *************************************************************************** */ /* MAA Cryptographic Engine */ #define MXC_BASE_MAA ((uint32_t)0x40007800UL) #define MXC_MAA ((mxc_maa_regs_t *)MXC_BASE_MAA) #define MXC_BASE_MAA_MEM ((uint32_t)0x40102800UL) #define MXC_MAA_MEM ((mxc_maa_mem_regs_t *)MXC_BASE_MAA_MEM) /* *************************************************************************** */ /* Trust Protection Unit (TPU) */ #define MXC_BASE_TPU ((uint32_t)0x40007000UL) #define MXC_TPU ((mxc_tpu_regs_t *)MXC_BASE_TPU) #define MXC_BASE_TPU_TSR ((uint32_t)0x40007C00UL) #define MXC_TPU_TSR ((mxc_tpu_tsr_regs_t *)MXC_BASE_TPU_TSR) /**@} end of ingroup product_name*/ /* *************************************************************************** */ /* Watchdog Timers */ /** * @ingroup wdt_registers * @{ */ #define MXC_CFG_WDT_INSTANCES (2) /**< Define for the number of timers on the \MXIM_Device */ #define MXC_BASE_WDT0 ((uint32_t)0x40008000UL) /**< Base Peripheral Address for WDT 0 */ #define MXC_WDT0 ((mxc_wdt_regs_t *)MXC_BASE_WDT0) /**< Pointer to the #mxc_wdt_regs_t structure representing WDT0 Registers. */ #define MXC_BASE_WDT1 ((uint32_t)0x40009000UL) /**< Base Peripheral Address for WDT 1 */ #define MXC_WDT1 ((mxc_wdt_regs_t *)MXC_BASE_WDT1) /**< Pointer to the #mxc_wdt_regs_t structure representing WDT1 Registers. */ /** * Macro that returns the WDT[i] IRQ, where i=0 to i < #MXC_CFG_WDT_INSTANCES. */ #define MXC_WDT_GET_IRQ(i) (IRQn_Type)((i) == 0 ? WDT0_IRQn : \ (i) == 1 ? WDT1_IRQn : 0) #define MXC_WDT_GET_IRQ_P(i) (IRQn_Type)((i) == 0 ? WDT0_P_IRQn : \ (i) == 1 ? WDT1_P_IRQn : 0) /** * Macro to return the base address for a requested Watchdog Timer index number. * @p i WDT instance number. * @p returns the base peripheral address for the requested Watchdog Timer instance. */ #define MXC_WDT_GET_BASE(i) ((i) == 0 ? MXC_BASE_WDT0 : \ (i) == 1 ? MXC_BASE_WDT1 : 0) /** * Macro to return a pointer to the #mxc_tmr_regs_t object for the requested Watchdog Timer. * @p i Watchdog Timer instance number. * @p returns a pointer to a #mxc_wdt_regs_t for the requested WDT number. */ #define MXC_WDT_GET_WDT(i) ((i) == 0 ? MXC_WDT0 : \ (i) == 1 ? MXC_WDT1 : 0) /** * Macro to return the index number for a given #mxc_wdt_regs_t structure. * @p p pointer to a #mxc_wdt_regs_t structure. * @p returns a watchdog timer instance number. */ #define MXC_WDT_GET_IDX(i) ((i) == MXC_WDT0 ? 0: \ (i) == MXC_WDT1 ? 1: -1) /**@} end of ingroup wdt_registers */ /* *************************************************************************** */ /* Always-On Watchdog Timer */ /** * @ingroup wdt2_registers * @{ */ #define MXC_BASE_WDT2 ((uint32_t)0x40007C60UL) /**< Base Peripheral Address for WDT 2 */ #define MXC_WDT2 ((mxc_wdt2_regs_t *)MXC_BASE_WDT2) /**< Pointer to the #mxc_wdt2_regs_t structure representing the WDT2 hardware registers. */ /**@} end of ingroup wdt2_registers */ /* *************************************************************************** */ /* General Purpose I/O Ports (GPIO) */ /** * @ingroup gpio_registers * @{ */ #define MXC_GPIO_NUM_PORTS (9) /**< Number of GPIO Ports for the \MXIM_Device. */ #define MXC_GPIO_MAX_PINS_PER_PORT (8) /**< Number of port pins per port for the \MXIM_Device */ #define MXC_BASE_GPIO ((uint32_t)0x4000A000UL) /**< GPIO Base Peripheral Offset */ #define MXC_GPIO ((mxc_gpio_regs_t *)MXC_BASE_GPIO) /**< Pointer to the #mxc_gpio_regs_t object representing GPIO Registers. */ /** * Macro that returns the GPIO[i] IRQ, where i=0 to i < #MXC_GPIO_NUM_PORTS. */ #define MXC_GPIO_GET_IRQ(i) (IRQn_Type)((i) == 0 ? GPIO_P0_IRQn : \ (i) == 1 ? GPIO_P1_IRQn : \ (i) == 2 ? GPIO_P2_IRQn : \ (i) == 3 ? GPIO_P3_IRQn : \ (i) == 4 ? GPIO_P4_IRQn : \ (i) == 5 ? GPIO_P5_IRQn : \ (i) == 6 ? GPIO_P6_IRQn : \ (i) == 7 ? GPIO_P7_IRQn : \ (i) == 8 ? GPIO_P8_IRQn : 0) /**@} end of ingroup gpio_registers */ /* *************************************************************************** */ /* 16/32 bit Timer/Counters */ /** * @ingroup tmr_registers * @{ */ #define MXC_CFG_TMR_INSTANCES (6) /**< Define for the number of timers on the \MXIM_Device */ #define MXC_BASE_TMR0 ((uint32_t)0x4000B000UL) /**< Base Address for Timer 0 */ #define MXC_TMR0 ((mxc_tmr_regs_t *)MXC_BASE_TMR0) /**< Pointer to a #mxc_tmr_regs_t structure representing Timer 0 */ #define MXC_BASE_TMR1 ((uint32_t)0x4000C000UL) /**< Base Address for Timer 1 */ #define MXC_TMR1 ((mxc_tmr_regs_t *)MXC_BASE_TMR1) /**< Pointer to a #mxc_tmr_regs_t structure representing Timer 1 */ #define MXC_BASE_TMR2 ((uint32_t)0x4000D000UL) /**< Base Address for Timer 2 */ #define MXC_TMR2 ((mxc_tmr_regs_t *)MXC_BASE_TMR2) /**< Pointer to a #mxc_tmr_regs_t structure representing Timer 2 */ #define MXC_BASE_TMR3 ((uint32_t)0x4000E000UL) /**< Base Address for Timer 3 */ #define MXC_TMR3 ((mxc_tmr_regs_t *)MXC_BASE_TMR3) /**< Pointer to a #mxc_tmr_regs_t structure representing Timer 3 */ #define MXC_BASE_TMR4 ((uint32_t)0x4000F000UL) /**< Base Address for Timer 4 */ #define MXC_TMR4 ((mxc_tmr_regs_t *)MXC_BASE_TMR4) /**< Pointer to a #mxc_tmr_regs_t structure representing Timer 4 */ #define MXC_BASE_TMR5 ((uint32_t)0x40010000UL) /**< Base Address for Timer 5 */ #define MXC_TMR5 ((mxc_tmr_regs_t *)MXC_BASE_TMR5) /**< Pointer to a #mxc_tmr_regs_t structure representing Timer 5 */ /** * Macro that returns an #IRQn_Type for the requested 32-bit timer interrupt. */ #define MXC_TMR_GET_IRQ_32(i) (IRQn_Type)((i) == 0 ? TMR0_0_IRQn : \ (i) == 1 ? TMR1_0_IRQn : \ (i) == 2 ? TMR2_0_IRQn : \ (i) == 3 ? TMR3_0_IRQn : \ (i) == 4 ? TMR4_0_IRQn : \ (i) == 5 ? TMR5_0_IRQn : 0) /** * Macro that returns an IRQn_Type for the requested 16-bit timer interrupt number. */ #define MXC_TMR_GET_IRQ_16(i) (IRQn_Type)((i) == 0 ? TMR0_0_IRQn : \ (i) == 1 ? TMR1_0_IRQn : \ (i) == 2 ? TMR2_0_IRQn : \ (i) == 3 ? TMR3_0_IRQn : \ (i) == 4 ? TMR4_0_IRQn : \ (i) == 5 ? TMR5_0_IRQn : \ (i) == 6 ? TMR0_1_IRQn : \ (i) == 7 ? TMR1_1_IRQn : \ (i) == 8 ? TMR2_1_IRQn : \ (i) == 9 ? TMR3_1_IRQn : \ (i) == 10 ? TMR4_1_IRQn : \ (i) == 11 ? TMR5_1_IRQn : 0) /** * Macro to return the base address for a given Timer index number. * @p i Timer instance number. * @p returns the base peripheral address for the requested timer instance. */ #define MXC_TMR_GET_BASE(i) ((i) == 0 ? MXC_BASE_TMR0 : \ (i) == 1 ? MXC_BASE_TMR1 : \ (i) == 2 ? MXC_BASE_TMR2 : \ (i) == 3 ? MXC_BASE_TMR3 : \ (i) == 4 ? MXC_BASE_TMR4 : \ (i) == 5 ? MXC_BASE_TMR5 : 0) /** * Macro to return a pointer to the #mxc_tmr_regs_t structure for a given Timer Instance. * @p i Timer instance number. * @p returns a pointer to a #mxc_tmr_regs_t for the requested timer number. */ #define MXC_TMR_GET_TMR(i) ((i) == 0 ? MXC_TMR0 : \ (i) == 1 ? MXC_TMR1 : \ (i) == 2 ? MXC_TMR2 : \ (i) == 3 ? MXC_TMR3 : \ (i) == 4 ? MXC_TMR4 : \ (i) == 5 ? MXC_TMR5 : 0) /** * Macro to return the index number for a given pointer to a #mxc_tmr_regs_t structure. * @p p pointer to a #mxc_tmr_regs_t structure. * @p returns a timer instance number. */ #define MXC_TMR_GET_IDX(p) ((p) == MXC_TMR0 ? 0 : \ (p) == MXC_TMR1 ? 1 : \ (p) == MXC_TMR2 ? 2 : \ (p) == MXC_TMR3 ? 3 : \ (p) == MXC_TMR4 ? 4 : \ (p) == MXC_TMR5 ? 5 : -1) /**@} end of ingroup tmr_registers */ /** * @ingroup product_name * @{ */ /* *************************************************************************** */ /* Pulse Train Generation */ #define MXC_CFG_PT_INSTANCES (16) #define MXC_BASE_PTG ((uint32_t)0x40011000UL) #define MXC_PTG ((mxc_ptg_regs_t *)MXC_BASE_PTG) #define MXC_BASE_PT0 ((uint32_t)0x40011020UL) #define MXC_PT0 ((mxc_pt_regs_t *)MXC_BASE_PT0) #define MXC_BASE_PT1 ((uint32_t)0x40011040UL) #define MXC_PT1 ((mxc_pt_regs_t *)MXC_BASE_PT1) #define MXC_BASE_PT2 ((uint32_t)0x40011060UL) #define MXC_PT2 ((mxc_pt_regs_t *)MXC_BASE_PT2) #define MXC_BASE_PT3 ((uint32_t)0x40011080UL) #define MXC_PT3 ((mxc_pt_regs_t *)MXC_BASE_PT3) #define MXC_BASE_PT4 ((uint32_t)0x400110A0UL) #define MXC_PT4 ((mxc_pt_regs_t *)MXC_BASE_PT4) #define MXC_BASE_PT5 ((uint32_t)0x400110C0UL) #define MXC_PT5 ((mxc_pt_regs_t *)MXC_BASE_PT5) #define MXC_BASE_PT6 ((uint32_t)0x400110E0UL) #define MXC_PT6 ((mxc_pt_regs_t *)MXC_BASE_PT6) #define MXC_BASE_PT7 ((uint32_t)0x40011100UL) #define MXC_PT7 ((mxc_pt_regs_t *)MXC_BASE_PT7) #define MXC_BASE_PT8 ((uint32_t)0x40011120UL) #define MXC_PT8 ((mxc_pt_regs_t *)MXC_BASE_PT8) #define MXC_BASE_PT9 ((uint32_t)0x40011140UL) #define MXC_PT9 ((mxc_pt_regs_t *)MXC_BASE_PT9) #define MXC_BASE_PT10 ((uint32_t)0x40011160UL) #define MXC_PT10 ((mxc_pt_regs_t *)MXC_BASE_PT10) #define MXC_BASE_PT11 ((uint32_t)0x40011180UL) #define MXC_PT11 ((mxc_pt_regs_t *)MXC_BASE_PT11) #define MXC_BASE_PT12 ((uint32_t)0x400111A0UL) #define MXC_PT12 ((mxc_pt_regs_t *)MXC_BASE_PT12) #define MXC_BASE_PT13 ((uint32_t)0x400111C0UL) #define MXC_PT13 ((mxc_pt_regs_t *)MXC_BASE_PT13) #define MXC_BASE_PT14 ((uint32_t)0x400111E0UL) #define MXC_PT14 ((mxc_pt_regs_t *)MXC_BASE_PT14) #define MXC_BASE_PT15 ((uint32_t)0x40011200UL) #define MXC_PT15 ((mxc_pt_regs_t *)MXC_BASE_PT15) #define MXC_PT_GET_BASE(i) ((i) == 0 ? MXC_BASE_PT0 : \ (i) == 1 ? MXC_BASE_PT1 : \ (i) == 2 ? MXC_BASE_PT2 : \ (i) == 3 ? MXC_BASE_PT3 : \ (i) == 4 ? MXC_BASE_PT4 : \ (i) == 5 ? MXC_BASE_PT5 : \ (i) == 6 ? MXC_BASE_PT6 : \ (i) == 7 ? MXC_BASE_PT7 : \ (i) == 8 ? MXC_BASE_PT8 : \ (i) == 9 ? MXC_BASE_PT9 : \ (i) == 10 ? MXC_BASE_PT10 : \ (i) == 11 ? MXC_BASE_PT11 : \ (i) == 12 ? MXC_BASE_PT12 : \ (i) == 13 ? MXC_BASE_PT13 : \ (i) == 14 ? MXC_BASE_PT14 : \ (i) == 15 ? MXC_BASE_PT15 : 0) #define MXC_PT_GET_PT(i) ((i) == 0 ? MXC_PT0 : \ (i) == 1 ? MXC_PT1 : \ (i) == 2 ? MXC_PT2 : \ (i) == 3 ? MXC_PT3 : \ (i) == 4 ? MXC_PT4 : \ (i) == 5 ? MXC_PT5 : \ (i) == 6 ? MXC_PT6 : \ (i) == 7 ? MXC_PT7 : \ (i) == 8 ? MXC_PT8 : \ (i) == 9 ? MXC_PT9 : \ (i) == 10 ? MXC_PT10 : \ (i) == 11 ? MXC_PT11 : \ (i) == 12 ? MXC_PT12 : \ (i) == 13 ? MXC_PT13 : \ (i) == 14 ? MXC_PT14 : \ (i) == 15 ? MXC_PT15 : 0) #define MXC_PT_GET_IDX(p) ((p) == MXC_PT0 ? 0 : \ (p) == MXC_PT1 ? 1 : \ (p) == MXC_PT2 ? 2 : \ (p) == MXC_PT3 ? 3 : \ (p) == MXC_PT4 ? 4 : \ (p) == MXC_PT5 ? 5 : \ (p) == MXC_PT6 ? 6 : \ (p) == MXC_PT7 ? 7 : \ (p) == MXC_PT8 ? 8 : \ (p) == MXC_PT9 ? 9 : \ (p) == MXC_PT10 ? 10 : \ (p) == MXC_PT11 ? 11 : \ (p) == MXC_PT12 ? 12 : \ (p) == MXC_PT13 ? 13 : \ (p) == MXC_PT14 ? 14 : \ (p) == MXC_PT15 ? 15 : -1) /* *************************************************************************** */ /* UART / Serial Port Interface */ #define MXC_CFG_UART_INSTANCES (4) #define MXC_UART_FIFO_DEPTH (32) #define MXC_BASE_UART0 ((uint32_t)0x40012000UL) #define MXC_UART0 ((mxc_uart_regs_t *)MXC_BASE_UART0) #define MXC_BASE_UART1 ((uint32_t)0x40013000UL) #define MXC_UART1 ((mxc_uart_regs_t *)MXC_BASE_UART1) /**< UART Port 1 Base Address */ #define MXC_BASE_UART2 ((uint32_t)0x40014000UL) #define MXC_UART2 ((mxc_uart_regs_t *)MXC_BASE_UART2) #define MXC_BASE_UART3 ((uint32_t)0x40015000UL) #define MXC_UART3 ((mxc_uart_regs_t *)MXC_BASE_UART3) #define MXC_BASE_UART0_FIFO ((uint32_t)0x40103000UL) #define MXC_UART0_FIFO ((mxc_uart_fifo_regs_t *)MXC_BASE_UART0_FIFO) #define MXC_BASE_UART1_FIFO ((uint32_t)0x40104000UL) #define MXC_UART1_FIFO ((mxc_uart_fifo_regs_t *)MXC_BASE_UART1_FIFO) #define MXC_BASE_UART2_FIFO ((uint32_t)0x40105000UL) #define MXC_UART2_FIFO ((mxc_uart_fifo_regs_t *)MXC_BASE_UART2_FIFO) #define MXC_BASE_UART3_FIFO ((uint32_t)0x40106000UL) #define MXC_UART3_FIFO ((mxc_uart_fifo_regs_t *)MXC_BASE_UART3_FIFO) #define MXC_UART_GET_IRQ(i) (IRQn_Type)((i) == 0 ? UART0_IRQn : \ (i) == 1 ? UART1_IRQn : \ (i) == 2 ? UART2_IRQn : \ (i) == 3 ? UART3_IRQn : 0) #define MXC_UART_GET_BASE(i) ((i) == 0 ? MXC_BASE_UART0 : \ (i) == 1 ? MXC_BASE_UART1 : \ (i) == 2 ? MXC_BASE_UART2 : \ (i) == 3 ? MXC_BASE_UART3 : 0) #define MXC_UART_GET_UART(i) ((i) == 0 ? MXC_UART0 : \ (i) == 1 ? MXC_UART1 : \ (i) == 2 ? MXC_UART2 : \ (i) == 3 ? MXC_UART3 : 0) #define MXC_UART_GET_IDX(p) ((p) == MXC_UART0 ? 0 : \ (p) == MXC_UART1 ? 1 : \ (p) == MXC_UART2 ? 2 : \ (p) == MXC_UART3 ? 3 : -1) #define MXC_UART_GET_BASE_FIFO(i) ((i) == 0 ? MXC_BASE_UART0_FIFO : \ (i) == 1 ? MXC_BASE_UART1_FIFO : \ (i) == 2 ? MXC_BASE_UART2_FIFO : \ (i) == 3 ? MXC_BASE_UART3_FIFO : 0) #define MXC_UART_GET_FIFO(i) ((i) == 0 ? MXC_UART0_FIFO : \ (i) == 1 ? MXC_UART1_FIFO : \ (i) == 2 ? MXC_UART2_FIFO : \ (i) == 3 ? MXC_UART3_FIFO : 0) /* *************************************************************************** */ /* I2C Master Interface */ #define MXC_CFG_I2CM_INSTANCES (3) #define MXC_I2CM_FIFO_DEPTH (8) #define MXC_BASE_I2CM0 ((uint32_t)0x40016000UL) #define MXC_I2CM0 ((mxc_i2cm_regs_t *)MXC_BASE_I2CM0) #define MXC_BASE_I2CM1 ((uint32_t)0x40017000UL) #define MXC_I2CM1 ((mxc_i2cm_regs_t *)MXC_BASE_I2CM1) #define MXC_BASE_I2CM2 ((uint32_t)0x40018000UL) #define MXC_I2CM2 ((mxc_i2cm_regs_t *)MXC_BASE_I2CM2) #define MXC_BASE_I2CM0_FIFO ((uint32_t)0x40107000UL) #define MXC_I2CM0_FIFO ((mxc_i2cm_fifo_regs_t *)MXC_BASE_I2CM0_FIFO) #define MXC_BASE_I2CM1_FIFO ((uint32_t)0x40108000UL) #define MXC_I2CM1_FIFO ((mxc_i2cm_fifo_regs_t *)MXC_BASE_I2CM1_FIFO) #define MXC_BASE_I2CM2_FIFO ((uint32_t)0x40109000UL) #define MXC_I2CM2_FIFO ((mxc_i2cm_fifo_regs_t *)MXC_BASE_I2CM2_FIFO) #define MXC_I2CM_GET_IRQ(i) (IRQn_Type)((i) == 0 ? I2CM0_IRQn : \ (i) == 1 ? I2CM1_IRQn : \ (i) == 2 ? I2CM2_IRQn : 0) #define MXC_I2CM_GET_BASE(i) ((i) == 0 ? MXC_BASE_I2CM0 : \ (i) == 1 ? MXC_BASE_I2CM1 : \ (i) == 2 ? MXC_BASE_I2CM2 : 0) #define MXC_I2CM_GET_I2CM(i) ((i) == 0 ? MXC_I2CM0 : \ (i) == 1 ? MXC_I2CM1 : \ (i) == 2 ? MXC_I2CM2 : 0) #define MXC_I2CM_GET_IDX(p) ((p) == MXC_I2CM0 ? 0 : \ (p) == MXC_I2CM1 ? 1 : \ (p) == MXC_I2CM2 ? 2 : -1) #define MXC_I2CM_GET_BASE_FIFO(i) ((i) == 0 ? MXC_BASE_I2CM0_FIFO : \ (i) == 1 ? MXC_BASE_I2CM1_FIFO : \ (i) == 2 ? MXC_BASE_I2CM2_FIFO : 0) #define MXC_I2CM_GET_FIFO(i) ((i) == 0 ? MXC_I2CM0_FIFO : \ (i) == 1 ? MXC_I2CM1_FIFO : \ (i) == 2 ? MXC_I2CM2_FIFO : 0) /* *************************************************************************** */ /* I2C Slave Interface (Mailbox type) */ #define MXC_CFG_I2CS_INSTANCES (1) #define MXC_CFG_I2CS_BUFFER_SIZE (32) #define MXC_BASE_I2CS ((uint32_t)0x40019000UL) #define MXC_I2CS ((mxc_i2cs_regs_t *)MXC_BASE_I2CS) #define MXC_I2CS_GET_IRQ(i) (IRQn_Type)((i) == 0 ? I2CS_IRQn : 0) #define MXC_I2CS_GET_BASE(i) ((i) == 0 ? MXC_BASE_I2CS : 0) #define MXC_I2CS_GET_I2CS(i) ((i) == 0 ? MXC_I2CS : 0) #define MXC_I2CS_GET_IDX(p) ((p) == MXC_I2CS ? 0 : -1) /* *************************************************************************** */ /* SPI Master Interface */ #define MXC_CFG_SPIM_INSTANCES (3) #define MXC_CFG_SPIM_FIFO_DEPTH (16) #define MXC_BASE_SPIM0 ((uint32_t)0x4001A000UL) #define MXC_SPIM0 ((mxc_spim_regs_t *)MXC_BASE_SPIM0) #define MXC_BASE_SPIM1 ((uint32_t)0x4001B000UL) #define MXC_SPIM1 ((mxc_spim_regs_t *)MXC_BASE_SPIM1) #define MXC_BASE_SPIM2 ((uint32_t)0x4001C000UL) #define MXC_SPIM2 ((mxc_spim_regs_t *)MXC_BASE_SPIM2) #define MXC_BASE_SPIM0_FIFO ((uint32_t)0x4010A000UL) #define MXC_SPIM0_FIFO ((mxc_spim_fifo_regs_t *)MXC_BASE_SPIM0_FIFO) #define MXC_BASE_SPIM1_FIFO ((uint32_t)0x4010B000UL) #define MXC_SPIM1_FIFO ((mxc_spim_fifo_regs_t *)MXC_BASE_SPIM1_FIFO) #define MXC_BASE_SPIM2_FIFO ((uint32_t)0x4010C000UL) #define MXC_SPIM2_FIFO ((mxc_spim_fifo_regs_t *)MXC_BASE_SPIM2_FIFO) #define MXC_SPIM_GET_IRQ(i) (IRQn_Type)((i) == 0 ? SPIM0_IRQn : \ (i) == 1 ? SPIM1_IRQn : \ (i) == 2 ? SPIM2_IRQn : 0) #define MXC_SPIM_GET_BASE(i) ((i) == 0 ? MXC_BASE_SPIM0 : \ (i) == 1 ? MXC_BASE_SPIM1 : \ (i) == 2 ? MXC_BASE_SPIM2 : 0) #define MXC_SPIM_GET_SPIM(i) ((i) == 0 ? MXC_SPIM0 : \ (i) == 1 ? MXC_SPIM1 : \ (i) == 2 ? MXC_SPIM2 : 0) #define MXC_SPIM_GET_IDX(p) ((p) == MXC_SPIM0 ? 0 : \ (p) == MXC_SPIM1 ? 1 : \ (p) == MXC_SPIM2 ? 2 : -1) #define MXC_SPIM_GET_BASE_FIFO(i) ((i) == 0 ? MXC_BASE_SPIM0_FIFO : \ (i) == 1 ? MXC_BASE_SPIM1_FIFO : \ (i) == 2 ? MXC_BASE_SPIM2_FIFO : 0) #define MXC_SPIM_GET_SPIM_FIFO(i) ((i) == 0 ? MXC_SPIM0_FIFO : \ (i) == 1 ? MXC_SPIM1_FIFO : \ (i) == 2 ? MXC_SPIM2_FIFO : 0) /* *************************************************************************** */ /* 1-Wire Master Interface */ #define MXC_CFG_OWM_INSTANCES (1) #define MXC_BASE_OWM ((uint32_t)0x4001E000UL) #define MXC_OWM ((mxc_owm_regs_t *)MXC_BASE_OWM) #define MXC_OWM_GET_IRQ(i) (IRQn_Type)((i) == 0 ? OWM_IRQn : 0) #define MXC_OWM_GET_BASE(i) ((i) == 0 ? MXC_BASE_OWM : 0) #define MXC_OWM_GET_OWM(i) ((i) == 0 ? MXC_OWM : 0) #define MXC_OWM_GET_IDX(p) ((p) == MXC_OWM ? 0 : -1) /* *************************************************************************** */ /* ADC / AFE */ #define MXC_CFG_ADC_FIFO_DEPTH (32) #define MXC_BASE_ADC ((uint32_t)0x4001F000UL) #define MXC_ADC ((mxc_adc_regs_t *)MXC_BASE_ADC) /* *************************************************************************** */ /* SPIB AHB-to-SPI Bridge */ #define MXC_BASE_SPIB ((uint32_t)0x4000D000UL) #define MXC_SPIB ((mxc_spib_regs_t *)MXC_BASE_SPIB) /* *************************************************************************** */ /* SPI Slave Interface */ #define MXC_BASE_SPIS ((uint32_t)0x40020000UL) #define MXC_SPIS ((mxc_spis_regs_t *)MXC_BASE_SPIS) #define MXC_BASE_SPIS_FIFO ((uint32_t)0x4010E000UL) #define MXC_SPIS_FIFO ((mxc_spis_fifo_regs_t *)MXC_BASE_SPIS_FIFO) /* *************************************************************************** */ /* Bit Shifting */ #define MXC_F_BIT_0 (1 << 0) #define MXC_F_BIT_1 (1 << 1) #define MXC_F_BIT_2 (1 << 2) #define MXC_F_BIT_3 (1 << 3) #define MXC_F_BIT_4 (1 << 4) #define MXC_F_BIT_5 (1 << 5) #define MXC_F_BIT_6 (1 << 6) #define MXC_F_BIT_7 (1 << 7) #define MXC_F_BIT_8 (1 << 8) #define MXC_F_BIT_9 (1 << 9) #define MXC_F_BIT_10 (1 << 10) #define MXC_F_BIT_11 (1 << 11) #define MXC_F_BIT_12 (1 << 12) #define MXC_F_BIT_13 (1 << 13) #define MXC_F_BIT_14 (1 << 14) #define MXC_F_BIT_15 (1 << 15) #define MXC_F_BIT_16 (1 << 16) #define MXC_F_BIT_17 (1 << 17) #define MXC_F_BIT_18 (1 << 18) #define MXC_F_BIT_19 (1 << 19) #define MXC_F_BIT_20 (1 << 20) #define MXC_F_BIT_21 (1 << 21) #define MXC_F_BIT_22 (1 << 22) #define MXC_F_BIT_23 (1 << 23) #define MXC_F_BIT_24 (1 << 24) #define MXC_F_BIT_25 (1 << 25) #define MXC_F_BIT_26 (1 << 26) #define MXC_F_BIT_27 (1 << 27) #define MXC_F_BIT_28 (1 << 28) #define MXC_F_BIT_29 (1 << 29) #define MXC_F_BIT_30 (1 << 30) #define MXC_F_BIT_31 (1 << 31) /* *************************************************************************** */ #define MXC_SET_FIELD(reg, clr, set) (*(volatile uint32_t *)reg = ((*(volatile uint32_t *)reg & ~clr) | set)) /* *************************************************************************** */ #define BITBAND(reg, bit) ((0xf0000000 & (uint32_t)(reg)) + 0x2000000 + (((uint32_t)(reg) & 0x0fffffff) << 5) + ((bit) << 2)) #define MXC_CLRBIT(reg, bit) (*(volatile uint32_t *)BITBAND(reg, bit) = 0) #define MXC_SETBIT(reg, bit) (*(volatile uint32_t *)BITBAND(reg, bit) = 1) #define MXC_GETBIT(reg, bit) (*(volatile uint32_t *)BITBAND(reg, bit)) /* *************************************************************************** */ /* SCB CPACR Register Definitions */ /* Note: Added by Maxim Integrated, as these are missing from CMSIS/Core/Include/core_cm4.h */ #define SCB_CPACR_CP10_Pos 20 /*!< SCB CPACR: Coprocessor 10 Position */ #define SCB_CPACR_CP10_Msk (0x3UL << SCB_CPACR_CP10_Pos) /*!< SCB CPACR: Coprocessor 10 Mask */ #define SCB_CPACR_CP11_Pos 22 /*!< SCB CPACR: Coprocessor 11 Position */ #define SCB_CPACR_CP11_Msk (0x3UL << SCB_CPACR_CP11_Pos) /*!< SCB CPACR: Coprocessor 11 Mask */ /**@} end of ingroup product_name */ #endif /* _MAX3263X_H_ */