diff --git a/README.rst b/README.rst index efbfa354b..0d6b147d9 100644 --- a/README.rst +++ b/README.rst @@ -167,7 +167,9 @@ Supported CPUs | | +-------------------+--------+------+-----------+------------------------+-------------------+ | | | 54, 55 | ✔ | | ✔ | lpc_ip3511 | | | +---------+-------------------+--------+------+-----------+------------------------+-------------------+ -| | MCX | N9, A15 | ✔ | | ✔ | ci_fs, ci_hs | | +| | MCX | N9 | ✔ | | ✔ | ci_fs, ci_hs | | +| | +-------------------+--------+------+-----------+------------------------+-------------------+ +| | | A15 | ✔ | | | ci_fs | | +--------------+---------+-------------------+--------+------+-----------+------------------------+-------------------+ | Raspberry Pi | RP2040, RP2350 | ✔ | ✔ | ✖ | rp2040, pio_usb | | +--------------+-----+-----------------------+--------+------+-----------+------------------------+-------------------+ diff --git a/docs/reference/boards.rst b/docs/reference/boards.rst index 4739467bc..5786b2182 100644 --- a/docs/reference/boards.rst +++ b/docs/reference/boards.rst @@ -165,6 +165,7 @@ lpcxpresso55s28 LPCXpresso55s28 lpc55 ht lpcxpresso55s69 LPCXpresso55s69 lpc55 https://www.nxp.com/design/design-center/software/development-software/mcuxpresso-software-and-tools-/lpcxpresso-boards/lpcxpresso55s69-development-board:LPC55S69-EVK mcu_link MCU Link lpc55 https://www.nxp.com/design/design-center/software/development-software/mcuxpresso-software-and-tools-/mcu-link-debug-probe:MCU-LINK frdm_mcxa153 Freedom MCXA153 mcx https://www.nxp.com/design/design-center/development-boards-and-designs/FRDM-MCXA153 +frdm_mcxa156 Freedom MCXA156 mcx https://www.nxp.com/design/design-center/development-boards-and-designs/FRDM-MCXA156 frdm_mcxn947 Freedom MCXN947 mcx https://www.nxp.com/design/design-center/development-boards-and-designs/FRDM-MCXN947 mcxn947brk MCXN947 Breakout mcx n/a ================== ========================================= ============= ========================================================================================================================================================================= ====== diff --git a/hw/bsp/lpc51/family.cmake b/hw/bsp/lpc51/family.cmake index 2146c29f7..09d97d256 100644 --- a/hw/bsp/lpc51/family.cmake +++ b/hw/bsp/lpc51/family.cmake @@ -36,7 +36,7 @@ function(add_board_target BOARD_TARGET) # driver ${SDK_DIR}/drivers/lpc_gpio/fsl_gpio.c ${SDK_DIR}/drivers/flexcomm/fsl_flexcomm.c - ${SDK_DIR}/drivers/flexcomm/fsl_usart.c + ${SDK_DIR}/drivers/flexcomm/usart/fsl_usart.c # mcu ${SDK_DIR}/devices/${MCU_VARIANT}/system_${MCU_VARIANT}.c ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_clock.c diff --git a/hw/bsp/lpc51/family.mk b/hw/bsp/lpc51/family.mk index b41b5438e..91d1261cb 100644 --- a/hw/bsp/lpc51/family.mk +++ b/hw/bsp/lpc51/family.mk @@ -28,15 +28,16 @@ SRC_C += \ $(MCU_DIR)/drivers/fsl_reset.c \ $(SDK_DIR)/drivers/lpc_gpio/fsl_gpio.c \ $(SDK_DIR)/drivers/flexcomm/fsl_flexcomm.c \ - $(SDK_DIR)/drivers/flexcomm/fsl_usart.c + $(SDK_DIR)/drivers/flexcomm/usart/fsl_usart.c INC += \ - $(TOP)/$(BOARD_PATH) \ - $(TOP)/lib/CMSIS_5/CMSIS/Core/Include \ + $(TOP)/$(BOARD_PATH) \ + $(TOP)/lib/CMSIS_5/CMSIS/Core/Include \ $(TOP)/$(MCU_DIR) \ $(TOP)/$(MCU_DIR)/drivers \ $(TOP)/$(SDK_DIR)/drivers/common \ $(TOP)/$(SDK_DIR)/drivers/flexcomm \ + $(TOP)/$(SDK_DIR)/drivers/flexcomm/usart \ $(TOP)/$(SDK_DIR)/drivers/lpc_iocon \ $(TOP)/$(SDK_DIR)/drivers/lpc_gpio diff --git a/hw/bsp/lpc54/family.cmake b/hw/bsp/lpc54/family.cmake index 90497b9fb..66320870a 100644 --- a/hw/bsp/lpc54/family.cmake +++ b/hw/bsp/lpc54/family.cmake @@ -44,7 +44,7 @@ function(add_board_target BOARD_TARGET) ${SDK_DIR}/drivers/lpc_gpio/fsl_gpio.c ${SDK_DIR}/drivers/common/fsl_common_arm.c ${SDK_DIR}/drivers/flexcomm/fsl_flexcomm.c - ${SDK_DIR}/drivers/flexcomm/fsl_usart.c + ${SDK_DIR}/drivers/flexcomm/usart/fsl_usart.c # mcu ${SDK_DIR}/devices/${MCU_VARIANT}/system_${MCU_CORE}.c ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_clock.c @@ -56,6 +56,7 @@ function(add_board_target BOARD_TARGET) # driver ${SDK_DIR}/drivers/common ${SDK_DIR}/drivers/flexcomm + ${SDK_DIR}/drivers/flexcomm/usart ${SDK_DIR}/drivers/lpc_iocon ${SDK_DIR}/drivers/lpc_gpio ${SDK_DIR}/drivers/lpuart diff --git a/hw/bsp/lpc54/family.mk b/hw/bsp/lpc54/family.mk index ea4c9c39c..8dc70f621 100644 --- a/hw/bsp/lpc54/family.mk +++ b/hw/bsp/lpc54/family.mk @@ -36,7 +36,7 @@ SRC_C += \ $(MCU_DIR)/drivers/fsl_reset.c \ $(SDK_DIR)/drivers/lpc_gpio/fsl_gpio.c \ $(SDK_DIR)/drivers/flexcomm/fsl_flexcomm.c \ - $(SDK_DIR)/drivers/flexcomm/fsl_usart.c \ + $(SDK_DIR)/drivers/flexcomm/usart/fsl_usart.c \ $(SDK_DIR)/drivers/common/fsl_common_arm.c INC += \ @@ -46,6 +46,7 @@ INC += \ $(TOP)/$(MCU_DIR)/drivers \ $(TOP)/$(SDK_DIR)/drivers/common \ $(TOP)/$(SDK_DIR)/drivers/flexcomm \ + $(TOP)/$(SDK_DIR)/drivers/flexcomm/usart \ $(TOP)/$(SDK_DIR)/drivers/lpc_iocon \ $(TOP)/$(SDK_DIR)/drivers/lpc_gpio diff --git a/hw/bsp/lpc55/family.cmake b/hw/bsp/lpc55/family.cmake index cd1eb5f78..a89548635 100644 --- a/hw/bsp/lpc55/family.cmake +++ b/hw/bsp/lpc55/family.cmake @@ -44,7 +44,7 @@ function(add_board_target BOARD_TARGET) ${SDK_DIR}/drivers/lpc_gpio/fsl_gpio.c ${SDK_DIR}/drivers/common/fsl_common_arm.c ${SDK_DIR}/drivers/flexcomm/fsl_flexcomm.c - ${SDK_DIR}/drivers/flexcomm/fsl_usart.c + ${SDK_DIR}/drivers/flexcomm/usart/fsl_usart.c # mcu ${SDK_DIR}/devices/${MCU_VARIANT}/system_${MCU_CORE}.c ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_clock.c @@ -56,9 +56,9 @@ function(add_board_target BOARD_TARGET) # driver ${SDK_DIR}/drivers/common ${SDK_DIR}/drivers/flexcomm + ${SDK_DIR}/drivers/flexcomm/usart ${SDK_DIR}/drivers/lpc_iocon ${SDK_DIR}/drivers/lpc_gpio - ${SDK_DIR}/drivers/lpuart ${SDK_DIR}/drivers/sctimer # mcu ${SDK_DIR}/devices/${MCU_VARIANT} diff --git a/hw/bsp/lpc55/family.mk b/hw/bsp/lpc55/family.mk index d82e85904..b83942c87 100644 --- a/hw/bsp/lpc55/family.mk +++ b/hw/bsp/lpc55/family.mk @@ -45,7 +45,7 @@ SRC_C += \ $(SDK_DIR)/drivers/lpc_gpio/fsl_gpio.c \ $(SDK_DIR)/drivers/common/fsl_common_arm.c \ $(SDK_DIR)/drivers/flexcomm/fsl_flexcomm.c \ - $(SDK_DIR)/drivers/flexcomm/fsl_usart.c \ + $(SDK_DIR)/drivers/flexcomm/usart/fsl_usart.c \ lib/sct_neopixel/sct_neopixel.c INC += \ @@ -55,11 +55,10 @@ INC += \ $(TOP)/$(MCU_DIR) \ $(TOP)/$(MCU_DIR)/drivers \ $(TOP)/$(SDK_DIR)/drivers/common \ - $(TOP)/$(SDK_DIR)/drivers/flexcomm \ + $(TOP)/$(SDK_DIR)/drivers/flexcomm/usart \ + $(TOP)/$(SDK_DIR)/drivers/flexcomm/ \ $(TOP)/$(SDK_DIR)/drivers/lpc_iocon \ $(TOP)/$(SDK_DIR)/drivers/lpc_gpio \ $(TOP)/$(SDK_DIR)/drivers/sctimer SRC_S += $(MCU_DIR)/gcc/startup_$(MCU_CORE).S - -LIBS += $(TOP)/$(MCU_DIR)/gcc/libpower_hardabi.a diff --git a/hw/bsp/mcx/boards/frdm_mcxa153/board.h b/hw/bsp/mcx/boards/frdm_mcxa153/board.h index fb1290088..86f987de9 100644 --- a/hw/bsp/mcx/boards/frdm_mcxa153/board.h +++ b/hw/bsp/mcx/boards/frdm_mcxa153/board.h @@ -39,10 +39,10 @@ extern "C" { // LED #define LED_GPIO GPIO3 #define LED_CLK kCLOCK_GateGPIO3 -#define LED_PIN 12 // red +#define LED_PIN 12 //red #define LED_STATE_ON 0 -// ISP button (Dummy, use unused pin +// ISP button #define BUTTON_GPIO GPIO3 #define BUTTON_CLK kCLOCK_GateGPIO3 #define BUTTON_PIN 29 //sw2 diff --git a/hw/bsp/mcx/boards/frdm_mcxa153/clock_config.c b/hw/bsp/mcx/boards/frdm_mcxa153/clock_config.c index f16bc51f6..5a132dc67 100644 --- a/hw/bsp/mcx/boards/frdm_mcxa153/clock_config.c +++ b/hw/bsp/mcx/boards/frdm_mcxa153/clock_config.c @@ -45,14 +45,13 @@ processor_version: 0.13.0 * Variables ******************************************************************************/ /* System clock frequency. */ -//uint32_t SystemCoreClock; +//extern uint32_t SystemCoreClock; /******************************************************************************* ************************ BOARD_InitBootClocks function ************************ ******************************************************************************/ void BOARD_InitBootClocks(void) { - BOARD_BootClockFRO96M(); } /******************************************************************************* @@ -386,7 +385,6 @@ void BOARD_BootClockFRO64M(void) /* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* !!Configuration name: BOARD_BootClockFRO96M -called_from_default_init: true outputs: - {id: CLK_1M_clock.outFreq, value: 1 MHz} - {id: CLK_48M_clock.outFreq, value: 48 MHz} diff --git a/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.c b/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.c index cc8f56e63..47709951b 100644 --- a/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.c +++ b/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.c @@ -4,7 +4,6 @@ * * SPDX-License-Identifier: BSD-3-Clause */ - /*********************************************************************************************************************** * This file was generated by the MCUXpresso Config Tools. Any manual edits made to this file * will be overwritten if the respective MCUXpresso Config Tools is used to update this file. @@ -18,16 +17,13 @@ product: Pins v14.0 processor: MCXA153 package_id: MCXA153VLH mcu_data: ksdk2_0 -processor_version: 0.14.3 -pin_labels: -- {pin_num: '38', pin_signal: P3_12/LPUART2_RTS_B/CT1_MAT2/PWM0_X0, label: LED_RED, identifier: LED_RED} +processor_version: 0.14.4 * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS *********** */ /* clang-format on */ #include "fsl_common.h" #include "fsl_port.h" -#include "fsl_gpio.h" #include "pin_mux.h" /* FUNCTION ************************************************************************************************************ @@ -47,8 +43,10 @@ void BOARD_InitBootPins(void) BOARD_InitPins: - options: {callFromInitBoot: 'true', coreID: cm33_core0, enableClock: 'true'} - pin_list: - - {pin_num: '38', peripheral: GPIO3, signal: 'GPIO, 12', pin_signal: P3_12/LPUART2_RTS_B/CT1_MAT2/PWM0_X0, direction: OUTPUT, gpio_init_state: 'false', slew_rate: fast, - open_drain: disable, drive_strength: low, pull_select: down, pull_enable: disable, input_buffer: enable, invert_input: normal} + - {pin_num: '51', peripheral: LPUART0, signal: RX, pin_signal: P0_2/TDO/SWO/LPUART0_RXD/LPSPI0_SCK/CT0_MAT0/UTICK_CAP0/I3C0_PUR, slew_rate: fast, open_drain: disable, + drive_strength: low, pull_select: up, pull_enable: enable, input_buffer: enable, invert_input: normal} + - {pin_num: '52', peripheral: LPUART0, signal: TX, pin_signal: P0_3/TDI/LPUART0_TXD/LPSPI0_SDO/CT0_MAT1/UTICK_CAP1/CMP0_OUT/CMP1_IN1, slew_rate: fast, open_drain: disable, + drive_strength: low, pull_select: up, pull_enable: enable, input_buffer: enable, invert_input: normal} * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS *********** */ /* clang-format on */ @@ -61,15 +59,6 @@ BOARD_InitPins: * END ****************************************************************************************************************/ void BOARD_InitPins(void) { - RESET_PeripheralReset(kLPUART0_RST_SHIFT_RSTn); - RESET_PeripheralReset(kPORT0_RST_SHIFT_RSTn); - CLOCK_SetClockDiv(kCLOCK_DivLPUART0, 1u); - CLOCK_AttachClk(kFRO12M_to_LPUART0); - - /* write to PORT0: Peripheral clock is enabled */ - CLOCK_EnableClock(kCLOCK_GatePORT0); - - /* Write to GPIO3: Peripheral clock is enabled */ CLOCK_EnableClock(kCLOCK_GateGPIO3); /* Write to PORT3: Peripheral clock is enabled */ CLOCK_EnableClock(kCLOCK_GatePORT3); @@ -78,30 +67,13 @@ void BOARD_InitPins(void) /* PORT3 peripheral is released from reset */ RESET_ReleasePeripheralReset(kPORT3_RST_SHIFT_RSTn); - const port_pin_config_t port3_12_pin38_config = {/* Internal pull-up/down resistor is disabled */ - kPORT_PullDisable, - /* Low internal pull resistor value is selected. */ - kPORT_LowPullResistor, - /* Fast slew rate is configured */ - kPORT_FastSlewRate, - /* Passive input filter is disabled */ - kPORT_PassiveFilterDisable, - /* Open drain output is disabled */ - kPORT_OpenDrainDisable, - /* Low drive strength is configured */ - kPORT_LowDriveStrength, - /* Normal drive strength is configured */ - kPORT_NormalDriveStrength, - /* Pin is configured as P3_12 */ - kPORT_MuxAlt0, - /* Digital input enabled */ - kPORT_InputBufferEnable, - /* Digital input is not inverted */ - kPORT_InputNormal, - /* Pin Control Register fields [15:0] are not locked */ - kPORT_UnlockRegister}; - /* PORT3_12 (pin 38) is configured as P3_12 */ - PORT_SetPinConfig(PORT3, 12U, &port3_12_pin38_config); + + /* Write to PORT0: Peripheral clock is enabled */ + CLOCK_EnableClock(kCLOCK_GatePORT0); + /* LPUART0 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kLPUART0_RST_SHIFT_RSTn); + /* PORT0 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kPORT0_RST_SHIFT_RSTn); const port_pin_config_t port0_2_pin51_config = {/* Internal pull-up resistor is enabled */ kPORT_PullUp, @@ -152,7 +124,6 @@ void BOARD_InitPins(void) kPORT_UnlockRegister}; /* PORT0_3 (pin 52) is configured as LPUART0_TXD */ PORT_SetPinConfig(PORT0, 3U, &port0_3_pin52_config); - } /*********************************************************************************************************************** * EOF diff --git a/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.h b/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.h index 06b6fdee9..2c0e617a5 100644 --- a/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.h +++ b/hw/bsp/mcx/boards/frdm_mcxa153/pin_mux.h @@ -1,9 +1,13 @@ /* - * Copyright 2022 NXP + * Copyright 2023 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ +/*********************************************************************************************************************** + * This file was generated by the MCUXpresso Config Tools. Any manual edits made to this file + * will be overwritten if the respective MCUXpresso Config Tools is used to update this file. + **********************************************************************************************************************/ #ifndef _PIN_MUX_H_ #define _PIN_MUX_H_ diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/board.cmake b/hw/bsp/mcx/boards/frdm_mcxa156/board.cmake new file mode 100644 index 000000000..a6aa6c2e4 --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/board.cmake @@ -0,0 +1,21 @@ +set(MCU_VARIANT MCXA156) +set(MCU_CORE MCXA156) + +set(JLINK_DEVICE MCXA156_M33) +set(PYOCD_TARGET MCXA156) +set(NXPLINK_DEVICE MCXA156:MCXA156) + +set(PORT 0) + +function(update_board TARGET) + target_compile_definitions(${TARGET} PUBLIC + CPU_MCXA156VLH + BOARD_TUD_RHPORT=0 + BOARD_TUD_MAX_SPEED=OPT_MODE_FULL_SPEED + CFG_EXAMPLE_VIDEO_READONLY + ) + target_sources(${TARGET} PUBLIC + ${CMAKE_CURRENT_FUNCTION_LIST_DIR}/clock_config.c + ${CMAKE_CURRENT_FUNCTION_LIST_DIR}/pin_mux.c + ) +endfunction() diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/board.h b/hw/bsp/mcx/boards/frdm_mcxa156/board.h new file mode 100644 index 000000000..6c19797c6 --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/board.h @@ -0,0 +1,69 @@ +/* + * The MIT License (MIT) + * + * Copyright (c) 2021, Ha Thach (tinyusb.org) + * + * 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 THE + * AUTHORS OR COPYRIGHT HOLDERS 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. + * + * This file is part of the TinyUSB stack. + */ + +/* metadata: + name: Freedom MCXA156 + url: https://www.nxp.com/design/design-center/development-boards-and-designs/FRDM-MCXA156 +*/ + +#ifndef BOARD_H_ +#define BOARD_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +// LED +#define LED_GPIO GPIO3 +#define LED_CLK kCLOCK_GateGPIO3 +#define LED_PIN 12 // red +#define LED_STATE_ON 0 + +// ISP button +#define BUTTON_GPIO GPIO0 +#define BUTTON_CLK kCLOCK_GateGPIO0 +#define BUTTON_PIN 6 //SW3 +#define BUTTON_STATE_ACTIVE 0 + +// UART +#define UART_DEV LPUART0 + +static inline void board_uart_init_clock(void) { + /* attach 12 MHz clock to LPUART0 (debug console) */ + CLOCK_SetClockDiv(kCLOCK_DivLPUART0, 1u); + CLOCK_AttachClk(kFRO12M_to_LPUART0); + + RESET_PeripheralReset(kLPUART0_RST_SHIFT_RSTn); +} + +// XTAL +#define XTAL0_CLK_HZ (24 * 1000 * 1000U) + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/board.mk b/hw/bsp/mcx/boards/frdm_mcxa156/board.mk new file mode 100644 index 000000000..d4a59b32a --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/board.mk @@ -0,0 +1,14 @@ +MCU_VARIANT = MCXA156 +MCU_CORE = MCXA156 +PORT = 0 + +CPU_CORE = cortex-m33-nodsp-nofp +CFLAGS += \ + -DCPU_MCXA156VLH \ + -DCFG_TUSB_MCU=OPT_MCU_MCXA15 \ + +JLINK_DEVICE = MCXA156 +PYOCD_TARGET = MCXA156 + +# flash using pyocd +flash: flash-jlink diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/clock_config.c b/hw/bsp/mcx/boards/frdm_mcxa156/clock_config.c new file mode 100644 index 000000000..f549af243 --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/clock_config.c @@ -0,0 +1,482 @@ +/* + * Copyright 2024 NXP + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/*********************************************************************************************************************** + * This file was generated by the MCUXpresso Config Tools. Any manual edits made to this file + * will be overwritten if the respective MCUXpresso Config Tools is used to update this file. + **********************************************************************************************************************/ +/* + * How to setup clock using clock driver functions: + * + * 1. Setup clock sources. + * + * 2. Set up wait states of the flash. + * + * 3. Set up all dividers. + * + * 4. Set up all selectors to provide selected clocks. + * + */ + +/* clang-format off */ +/* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!GlobalInfo +product: Clocks v13.0 +processor: MCXA156 +package_id: MCXA156VLL +mcu_data: ksdk2_0 +processor_version: 0.15.0 + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS **********/ +/* clang-format on */ + +#include "fsl_clock.h" +#include "clock_config.h" +#include "fsl_spc.h" + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/******************************************************************************* + * Variables + ******************************************************************************/ +/* System clock frequency. */ +//extern uint32_t SystemCoreClock; + +/******************************************************************************* + ************************ BOARD_InitBootClocks function ************************ + ******************************************************************************/ +void BOARD_InitBootClocks(void) +{ + BOARD_BootClockFRO96M(); +} + +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO12M ********************** + ******************************************************************************/ +/* clang-format off */ +/* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!Configuration +name: BOARD_BootClockFRO12M +outputs: +- {id: CLK_1M_clock.outFreq, value: 1 MHz} +- {id: CPU_clock.outFreq, value: 12 MHz} +- {id: FRO_12M_clock.outFreq, value: 12 MHz} +- {id: MAIN_clock.outFreq, value: 12 MHz} +- {id: Slow_clock.outFreq, value: 3 MHz} +- {id: System_clock.outFreq, value: 12 MHz} +- {id: UTICK_clock.outFreq, value: 1 MHz} +settings: +- {id: SCGMode, value: SIRC} +- {id: FRO_HF_PERIPHERALS_EN_CFG, value: Disabled} +- {id: MRCC.FREQMEREFCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FREQMETARGETCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.OSTIMERCLKSEL.sel, value: VBAT.CLK16K_1} +- {id: SCG.SCSSEL.sel, value: SCG.SIRC} +- {id: SCG_FIRCCSR_FIRCEN_CFG, value: Disabled} + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS **********/ +/* clang-format on */ + +/******************************************************************************* + * Variables for BOARD_BootClockFRO12M configuration + ******************************************************************************/ +/******************************************************************************* + * Code for BOARD_BootClockFRO12M configuration + ******************************************************************************/ +void BOARD_BootClockFRO12M(void) +{ + uint32_t coreFreq; + spc_active_mode_core_ldo_option_t ldoOption; + spc_sram_voltage_config_t sramOption; + + /* Get the CPU Core frequency */ + coreFreq = CLOCK_GetCoreSysClkFreq(); + + /* The flow of increasing voltage and frequency */ + if (coreFreq <= BOARD_BOOTCLOCKFRO12M_CORE_CLOCK) { + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_MidDriveVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x0U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P0V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + } + + CLOCK_SetupFRO12MClocking(); /*!< Setup FRO12M clock */ + + CLOCK_AttachClk(kFRO12M_to_MAIN_CLK); /* !< Switch MAIN_CLK to FRO12M */ + + /* The flow of decreasing voltage and frequency */ + if (coreFreq > BOARD_BOOTCLOCKFRO12M_CORE_CLOCK) { + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x0U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P0V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_MidDriveVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + } + + /*!< Set up clock selectors - Attach clocks to the peripheries */ + + /*!< Set up dividers */ + CLOCK_SetClockDiv(kCLOCK_DivAHBCLK, 1U); /* !< Set AHBCLKDIV divider to value 1 */ + + /* Set SystemCoreClock variable */ + SystemCoreClock = BOARD_BOOTCLOCKFRO12M_CORE_CLOCK; +} +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO24M ********************** + ******************************************************************************/ +/* clang-format off */ +/* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!Configuration +name: BOARD_BootClockFRO24M +outputs: +- {id: CLK_1M_clock.outFreq, value: 1 MHz} +- {id: CLK_48M_clock.outFreq, value: 48 MHz} +- {id: CPU_clock.outFreq, value: 24 MHz} +- {id: FRO_12M_clock.outFreq, value: 12 MHz} +- {id: FRO_HF_DIV_clock.outFreq, value: 48 MHz} +- {id: FRO_HF_clock.outFreq, value: 48 MHz} +- {id: MAIN_clock.outFreq, value: 48 MHz} +- {id: Slow_clock.outFreq, value: 6 MHz} +- {id: System_clock.outFreq, value: 24 MHz} +- {id: UTICK_clock.outFreq, value: 1 MHz} +settings: +- {id: MRCC.FREQMEREFCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FREQMETARGETCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.OSTIMERCLKSEL.sel, value: VBAT.CLK16K_1} +- {id: SYSCON.AHBCLKDIV.scale, value: '2', locked: true} + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS **********/ +/* clang-format on */ + +/******************************************************************************* + * Variables for BOARD_BootClockFRO24M configuration + ******************************************************************************/ +/******************************************************************************* + * Code for BOARD_BootClockFRO24M configuration + ******************************************************************************/ +void BOARD_BootClockFRO24M(void) +{ + uint32_t coreFreq; + spc_active_mode_core_ldo_option_t ldoOption; + spc_sram_voltage_config_t sramOption; + + /* Get the CPU Core frequency */ + coreFreq = CLOCK_GetCoreSysClkFreq(); + + /* The flow of increasing voltage and frequency */ + if (coreFreq <= BOARD_BOOTCLOCKFRO24M_CORE_CLOCK) { + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_MidDriveVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x0U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P0V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + } + + CLOCK_SetupFROHFClocking(48000000U); /*!< Enable FRO HF(48MHz) output */ + + CLOCK_SetupFRO12MClocking(); /*!< Setup FRO12M clock */ + + CLOCK_AttachClk(kFRO_HF_to_MAIN_CLK); /* !< Switch MAIN_CLK to FRO_HF */ + + /* The flow of decreasing voltage and frequency */ + if (coreFreq > BOARD_BOOTCLOCKFRO24M_CORE_CLOCK) { + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x0U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P0V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_MidDriveVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + } + + /*!< Set up clock selectors - Attach clocks to the peripheries */ + + /*!< Set up dividers */ + CLOCK_SetClockDiv(kCLOCK_DivAHBCLK, 2U); /* !< Set AHBCLKDIV divider to value 2 */ + CLOCK_SetClockDiv(kCLOCK_DivFRO_HF_DIV, 1U); /* !< Set FROHFDIV divider to value 1 */ + + /* Set SystemCoreClock variable */ + SystemCoreClock = BOARD_BOOTCLOCKFRO24M_CORE_CLOCK; +} +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO48M ********************** + ******************************************************************************/ +/* clang-format off */ +/* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!Configuration +name: BOARD_BootClockFRO48M +outputs: +- {id: CLK_1M_clock.outFreq, value: 1 MHz} +- {id: CLK_48M_clock.outFreq, value: 48 MHz} +- {id: CPU_clock.outFreq, value: 48 MHz} +- {id: FRO_12M_clock.outFreq, value: 12 MHz} +- {id: FRO_HF_DIV_clock.outFreq, value: 48 MHz} +- {id: FRO_HF_clock.outFreq, value: 48 MHz} +- {id: MAIN_clock.outFreq, value: 48 MHz} +- {id: Slow_clock.outFreq, value: 12 MHz} +- {id: System_clock.outFreq, value: 48 MHz} +- {id: UTICK_clock.outFreq, value: 1 MHz} +settings: +- {id: MRCC.FREQMEREFCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FREQMETARGETCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.OSTIMERCLKSEL.sel, value: VBAT.CLK16K_1} + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS **********/ +/* clang-format on */ + +/******************************************************************************* + * Variables for BOARD_BootClockFRO48M configuration + ******************************************************************************/ +/******************************************************************************* + * Code for BOARD_BootClockFRO48M configuration + ******************************************************************************/ +void BOARD_BootClockFRO48M(void) +{ + uint32_t coreFreq; + spc_active_mode_core_ldo_option_t ldoOption; + spc_sram_voltage_config_t sramOption; + + /* Get the CPU Core frequency */ + coreFreq = CLOCK_GetCoreSysClkFreq(); + + /* The flow of increasing voltage and frequency */ + if (coreFreq <= BOARD_BOOTCLOCKFRO48M_CORE_CLOCK) { + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_MidDriveVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x1U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P0V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + } + + CLOCK_SetupFROHFClocking(48000000U); /*!< Enable FRO HF(48MHz) output */ + + CLOCK_SetupFRO12MClocking(); /*!< Setup FRO12M clock */ + + CLOCK_AttachClk(kFRO_HF_to_MAIN_CLK); /* !< Switch MAIN_CLK to FRO_HF */ + + /* The flow of decreasing voltage and frequency */ + if (coreFreq > BOARD_BOOTCLOCKFRO48M_CORE_CLOCK) { + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x1U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P0V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_MidDriveVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + } + + /*!< Set up clock selectors - Attach clocks to the peripheries */ + + /*!< Set up dividers */ + CLOCK_SetClockDiv(kCLOCK_DivAHBCLK, 1U); /* !< Set AHBCLKDIV divider to value 1 */ + CLOCK_SetClockDiv(kCLOCK_DivFRO_HF_DIV, 1U); /* !< Set FROHFDIV divider to value 1 */ + + /* Set SystemCoreClock variable */ + SystemCoreClock = BOARD_BOOTCLOCKFRO48M_CORE_CLOCK; +} +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO64M ********************** + ******************************************************************************/ +/* clang-format off */ +/* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!Configuration +name: BOARD_BootClockFRO64M +outputs: +- {id: CLK_1M_clock.outFreq, value: 1 MHz} +- {id: CLK_48M_clock.outFreq, value: 48 MHz} +- {id: CPU_clock.outFreq, value: 64 MHz} +- {id: FRO_12M_clock.outFreq, value: 12 MHz} +- {id: FRO_HF_DIV_clock.outFreq, value: 64 MHz} +- {id: FRO_HF_clock.outFreq, value: 64 MHz} +- {id: MAIN_clock.outFreq, value: 64 MHz} +- {id: Slow_clock.outFreq, value: 16 MHz} +- {id: System_clock.outFreq, value: 64 MHz} +- {id: UTICK_clock.outFreq, value: 1 MHz} +settings: +- {id: VDD_CORE, value: voltage_1v1} +- {id: MRCC.FREQMEREFCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FREQMETARGETCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FROHFDIV.scale, value: '1', locked: true} +- {id: MRCC.OSTIMERCLKSEL.sel, value: VBAT.CLK16K_1} +- {id: SYSCON.AHBCLKDIV.scale, value: '1', locked: true} +sources: +- {id: SCG.FIRC.outFreq, value: 64 MHz} + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS **********/ +/* clang-format on */ + +/******************************************************************************* + * Variables for BOARD_BootClockFRO64M configuration + ******************************************************************************/ +/******************************************************************************* + * Code for BOARD_BootClockFRO64M configuration + ******************************************************************************/ +void BOARD_BootClockFRO64M(void) +{ + uint32_t coreFreq; + spc_active_mode_core_ldo_option_t ldoOption; + spc_sram_voltage_config_t sramOption; + + /* Get the CPU Core frequency */ + coreFreq = CLOCK_GetCoreSysClkFreq(); + + /* The flow of increasing voltage and frequency */ + if (coreFreq <= BOARD_BOOTCLOCKFRO64M_CORE_CLOCK) { + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_NormalVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x1U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P1V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + } + + CLOCK_SetupFROHFClocking(64000000U); /*!< Enable FRO HF(64MHz) output */ + + CLOCK_SetupFRO12MClocking(); /*!< Setup FRO12M clock */ + + CLOCK_AttachClk(kFRO_HF_to_MAIN_CLK); /* !< Switch MAIN_CLK to FRO_HF */ + + /* The flow of decreasing voltage and frequency */ + if (coreFreq > BOARD_BOOTCLOCKFRO64M_CORE_CLOCK) { + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x1U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P1V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_NormalVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + } + + /*!< Set up clock selectors - Attach clocks to the peripheries */ + + /*!< Set up dividers */ + CLOCK_SetClockDiv(kCLOCK_DivAHBCLK, 1U); /* !< Set AHBCLKDIV divider to value 1 */ + CLOCK_SetClockDiv(kCLOCK_DivFRO_HF_DIV, 1U); /* !< Set FROHFDIV divider to value 1 */ + + /* Set SystemCoreClock variable */ + SystemCoreClock = BOARD_BOOTCLOCKFRO64M_CORE_CLOCK; +} +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO96M ********************** + ******************************************************************************/ +/* clang-format off */ +/* TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!Configuration +name: BOARD_BootClockFRO96M +called_from_default_init: true +outputs: +- {id: CLK_1M_clock.outFreq, value: 1 MHz} +- {id: CLK_48M_clock.outFreq, value: 48 MHz} +- {id: CPU_clock.outFreq, value: 96 MHz} +- {id: FRO_12M_clock.outFreq, value: 12 MHz} +- {id: FRO_HF_DIV_clock.outFreq, value: 96 MHz} +- {id: FRO_HF_clock.outFreq, value: 96 MHz} +- {id: MAIN_clock.outFreq, value: 96 MHz} +- {id: Slow_clock.outFreq, value: 24 MHz} +- {id: System_clock.outFreq, value: 96 MHz} +- {id: UTICK_clock.outFreq, value: 1 MHz} +settings: +- {id: VDD_CORE, value: voltage_1v1} +- {id: CLKOUTDIV_HALT, value: Enable} +- {id: MRCC.FREQMEREFCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FREQMETARGETCLKSEL.sel, value: MRCC.aoi0_out0} +- {id: MRCC.FROHFDIV.scale, value: '1', locked: true} +- {id: MRCC.OSTIMERCLKSEL.sel, value: VBAT.CLK16K_1} +- {id: SYSCON.AHBCLKDIV.scale, value: '1', locked: true} +sources: +- {id: SCG.FIRC.outFreq, value: 96 MHz} + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS **********/ +/* clang-format on */ + +/******************************************************************************* + * Variables for BOARD_BootClockFRO96M configuration + ******************************************************************************/ +/******************************************************************************* + * Code for BOARD_BootClockFRO96M configuration + ******************************************************************************/ +void BOARD_BootClockFRO96M(void) +{ + uint32_t coreFreq; + spc_active_mode_core_ldo_option_t ldoOption; + spc_sram_voltage_config_t sramOption; + + /* Get the CPU Core frequency */ + coreFreq = CLOCK_GetCoreSysClkFreq(); + + /* The flow of increasing voltage and frequency */ + if (coreFreq <= BOARD_BOOTCLOCKFRO96M_CORE_CLOCK) { + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_NormalVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x2U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P1V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + } + + CLOCK_SetupFROHFClocking(96000000U); /*!< Enable FRO HF(96MHz) output */ + + CLOCK_SetupFRO12MClocking(); /*!< Setup FRO12M clock */ + + CLOCK_AttachClk(kFRO_HF_to_MAIN_CLK); /* !< Switch MAIN_CLK to FRO_HF */ + + /* The flow of decreasing voltage and frequency */ + if (coreFreq > BOARD_BOOTCLOCKFRO96M_CORE_CLOCK) { + /* Configure Flash to support different voltage level and frequency */ + FMU0->FCTRL = (FMU0->FCTRL & ~((uint32_t)FMU_FCTRL_RWSC_MASK)) | (FMU_FCTRL_RWSC(0x2U)); + /* Specifies the operating voltage for the SRAM's read/write timing margin */ + sramOption.operateVoltage = kSPC_sramOperateAt1P1V; + sramOption.requestVoltageUpdate = true; + (void)SPC_SetSRAMOperateVoltage(SPC0, &sramOption); + /* Set the LDO_CORE VDD regulator level */ + ldoOption.CoreLDOVoltage = kSPC_CoreLDO_NormalVoltage; + ldoOption.CoreLDODriveStrength = kSPC_CoreLDO_NormalDriveStrength; + (void)SPC_SetActiveModeCoreLDORegulatorConfig(SPC0, &ldoOption); + } + + /*!< Set up clock selectors - Attach clocks to the peripheries */ + + /*!< Set up dividers */ + CLOCK_SetClockDiv(kCLOCK_DivAHBCLK, 1U); /* !< Set AHBCLKDIV divider to value 1 */ + CLOCK_SetClockDiv(kCLOCK_DivFRO_HF_DIV, 1U); /* !< Set FROHFDIV divider to value 1 */ + + /* Set SystemCoreClock variable */ + SystemCoreClock = BOARD_BOOTCLOCKFRO96M_CORE_CLOCK; +} diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/clock_config.h b/hw/bsp/mcx/boards/frdm_mcxa156/clock_config.h new file mode 100644 index 000000000..3f5dfefda --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/clock_config.h @@ -0,0 +1,169 @@ +/* + * Copyright 2024 NXP + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/*********************************************************************************************************************** + * This file was generated by the MCUXpresso Config Tools. Any manual edits made to this file + * will be overwritten if the respective MCUXpresso Config Tools is used to update this file. + **********************************************************************************************************************/ + +#ifndef _CLOCK_CONFIG_H_ +#define _CLOCK_CONFIG_H_ + +#include "fsl_common.h" + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/******************************************************************************* + ************************ BOARD_InitBootClocks function ************************ + ******************************************************************************/ + +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @brief This function executes default configuration of clocks. + * + */ +void BOARD_InitBootClocks(void); + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO12M ********************** + ******************************************************************************/ +/******************************************************************************* + * Definitions for BOARD_BootClockFRO12M configuration + ******************************************************************************/ +#define BOARD_BOOTCLOCKFRO12M_CORE_CLOCK 12000000U /*!< Core clock frequency: 12000000Hz */ + + +/******************************************************************************* + * API for BOARD_BootClockFRO12M configuration + ******************************************************************************/ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @brief This function executes configuration of clocks. + * + */ +void BOARD_BootClockFRO12M(void); + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO24M ********************** + ******************************************************************************/ +/******************************************************************************* + * Definitions for BOARD_BootClockFRO24M configuration + ******************************************************************************/ +#define BOARD_BOOTCLOCKFRO24M_CORE_CLOCK 24000000U /*!< Core clock frequency: 24000000Hz */ + + +/******************************************************************************* + * API for BOARD_BootClockFRO24M configuration + ******************************************************************************/ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @brief This function executes configuration of clocks. + * + */ +void BOARD_BootClockFRO24M(void); + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO48M ********************** + ******************************************************************************/ +/******************************************************************************* + * Definitions for BOARD_BootClockFRO48M configuration + ******************************************************************************/ +#define BOARD_BOOTCLOCKFRO48M_CORE_CLOCK 48000000U /*!< Core clock frequency: 48000000Hz */ + + +/******************************************************************************* + * API for BOARD_BootClockFRO48M configuration + ******************************************************************************/ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @brief This function executes configuration of clocks. + * + */ +void BOARD_BootClockFRO48M(void); + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO64M ********************** + ******************************************************************************/ +/******************************************************************************* + * Definitions for BOARD_BootClockFRO64M configuration + ******************************************************************************/ +#define BOARD_BOOTCLOCKFRO64M_CORE_CLOCK 64000000U /*!< Core clock frequency: 64000000Hz */ + + +/******************************************************************************* + * API for BOARD_BootClockFRO64M configuration + ******************************************************************************/ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @brief This function executes configuration of clocks. + * + */ +void BOARD_BootClockFRO64M(void); + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +/******************************************************************************* + ******************** Configuration BOARD_BootClockFRO96M ********************** + ******************************************************************************/ +/******************************************************************************* + * Definitions for BOARD_BootClockFRO96M configuration + ******************************************************************************/ +#define BOARD_BOOTCLOCKFRO96M_CORE_CLOCK 96000000U /*!< Core clock frequency: 96000000Hz */ + + +/******************************************************************************* + * API for BOARD_BootClockFRO96M configuration + ******************************************************************************/ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @brief This function executes configuration of clocks. + * + */ +void BOARD_BootClockFRO96M(void); + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +#endif /* _CLOCK_CONFIG_H_ */ diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/pin_mux.c b/hw/bsp/mcx/boards/frdm_mcxa156/pin_mux.c new file mode 100644 index 000000000..de35103a6 --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/pin_mux.c @@ -0,0 +1,144 @@ +/* + * Copyright 2024 NXP + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/*********************************************************************************************************************** + * This file was generated by the MCUXpresso Config Tools. Any manual edits made to this file + * will be overwritten if the respective MCUXpresso Config Tools is used to update this file. + **********************************************************************************************************************/ + +/* clang-format off */ +/* + * TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +!!GlobalInfo +product: Pins v15.0 +processor: MCXA156 +package_id: MCXA156VLL +mcu_data: ksdk2_0 +processor_version: 0.15.0 + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS *********** + */ +/* clang-format on */ + +#include "fsl_common.h" +#include "fsl_port.h" +#include "pin_mux.h" + +/* FUNCTION ************************************************************************************************************ + * + * Function Name : BOARD_InitBootPins + * Description : Calls initialization functions. + * + * END ****************************************************************************************************************/ +void BOARD_InitBootPins(void) +{ + BOARD_InitPins(); +} + +/* clang-format off */ +/* + * TEXT BELOW IS USED AS SETTING FOR TOOLS ************************************* +BOARD_InitPins: +- options: {callFromInitBoot: 'true', coreID: cm33_core0, enableClock: 'true'} +- pin_list: + - {pin_num: '78', peripheral: LPUART0, signal: RX, pin_signal: P0_2/TDO/SWO/LPUART0_RXD/LPSPI0_SCK/CT0_MAT0/UTICK_CAP0/FLEXIO0_D2, slew_rate: fast, open_drain: disable, + drive_strength: low, pull_select: up, pull_enable: enable, input_buffer: enable, invert_input: normal} + - {pin_num: '79', peripheral: LPUART0, signal: TX, pin_signal: P0_3/TDI/LPUART0_TXD/LPSPI0_SDO/CT0_MAT1/UTICK_CAP1/FLEXIO0_D3/CMP0_OUT, slew_rate: fast, open_drain: disable, + drive_strength: low, pull_select: up, pull_enable: enable, input_buffer: enable, invert_input: normal} + * BE CAREFUL MODIFYING THIS COMMENT - IT IS YAML SETTINGS FOR TOOLS *********** + */ +/* clang-format on */ + +/* FUNCTION ************************************************************************************************************ + * + * Function Name : BOARD_InitPins + * Description : Configures pin routing and optionally pin electrical features. + * + * END ****************************************************************************************************************/ +void BOARD_InitPins(void) +{ + + RESET_PeripheralReset(kLPUART0_RST_SHIFT_RSTn); + CLOCK_SetClockDiv(kCLOCK_DivLPUART0, 1u); + CLOCK_AttachClk(kFRO12M_to_LPUART0); + + /* GPIO3: Peripheral clock is enabled */ + CLOCK_EnableClock(kCLOCK_GateGPIO3); + /* PORT3: Peripheral clock is enabled */ + CLOCK_EnableClock(kCLOCK_GatePORT3); + /* GPIO3 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kGPIO3_RST_SHIFT_RSTn); + /* PORT3 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kPORT3_RST_SHIFT_RSTn); + + /* GPIO3: Peripheral clock is enabled */ + CLOCK_EnableClock(kCLOCK_GateGPIO0); + /* PORT3: Peripheral clock is enabled */ + CLOCK_EnableClock(kCLOCK_GatePORT0); + /* GPIO3 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kGPIO0_RST_SHIFT_RSTn); + /* PORT3 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kPORT0_RST_SHIFT_RSTn); + + /* PORT0: Peripheral clock is enabled */ + CLOCK_EnableClock(kCLOCK_GatePORT0); + /* LPUART0 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kLPUART0_RST_SHIFT_RSTn); + /* PORT0 peripheral is released from reset */ + RESET_ReleasePeripheralReset(kPORT0_RST_SHIFT_RSTn); + + const port_pin_config_t port0_2_pin78_config = {/* Internal pull-up resistor is enabled */ + kPORT_PullUp, + /* Low internal pull resistor value is selected. */ + kPORT_LowPullResistor, + /* Fast slew rate is configured */ + kPORT_FastSlewRate, + /* Passive input filter is disabled */ + kPORT_PassiveFilterDisable, + /* Open drain output is disabled */ + kPORT_OpenDrainDisable, + /* Low drive strength is configured */ + kPORT_LowDriveStrength, + /* Normal drive strength is configured */ + kPORT_NormalDriveStrength, + /* Pin is configured as LPUART0_RXD */ + kPORT_MuxAlt2, + /* Digital input enabled */ + kPORT_InputBufferEnable, + /* Digital input is not inverted */ + kPORT_InputNormal, + /* Pin Control Register fields [15:0] are not locked */ + kPORT_UnlockRegister}; + /* PORT0_2 (pin 78) is configured as LPUART0_RXD */ + PORT_SetPinConfig(PORT0, 2U, &port0_2_pin78_config); + + const port_pin_config_t port0_3_pin79_config = {/* Internal pull-up resistor is enabled */ + kPORT_PullUp, + /* Low internal pull resistor value is selected. */ + kPORT_LowPullResistor, + /* Fast slew rate is configured */ + kPORT_FastSlewRate, + /* Passive input filter is disabled */ + kPORT_PassiveFilterDisable, + /* Open drain output is disabled */ + kPORT_OpenDrainDisable, + /* Low drive strength is configured */ + kPORT_LowDriveStrength, + /* Normal drive strength is configured */ + kPORT_NormalDriveStrength, + /* Pin is configured as LPUART0_TXD */ + kPORT_MuxAlt2, + /* Digital input enabled */ + kPORT_InputBufferEnable, + /* Digital input is not inverted */ + kPORT_InputNormal, + /* Pin Control Register fields [15:0] are not locked */ + kPORT_UnlockRegister}; + /* PORT0_3 (pin 79) is configured as LPUART0_TXD */ + PORT_SetPinConfig(PORT0, 3U, &port0_3_pin79_config); +} +/*********************************************************************************************************************** + * EOF + **********************************************************************************************************************/ diff --git a/hw/bsp/mcx/boards/frdm_mcxa156/pin_mux.h b/hw/bsp/mcx/boards/frdm_mcxa156/pin_mux.h new file mode 100644 index 000000000..fb7d1fc04 --- /dev/null +++ b/hw/bsp/mcx/boards/frdm_mcxa156/pin_mux.h @@ -0,0 +1,51 @@ +/* + * Copyright 2024 NXP + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/*********************************************************************************************************************** + * This file was generated by the MCUXpresso Config Tools. Any manual edits made to this file + * will be overwritten if the respective MCUXpresso Config Tools is used to update this file. + **********************************************************************************************************************/ + +#ifndef _PIN_MUX_H_ +#define _PIN_MUX_H_ + +/*! + * @addtogroup pin_mux + * @{ + */ + +/*********************************************************************************************************************** + * API + **********************************************************************************************************************/ + +#if defined(__cplusplus) +extern "C" { +#endif + +/*! + * @brief Calls initialization functions. + * + */ +void BOARD_InitBootPins(void); + +/*! + * @brief Configures pin routing and optionally pin electrical features. + * + */ +void BOARD_InitPins(void); + +#if defined(__cplusplus) +} +#endif + +/*! + * @} + */ +#endif /* _PIN_MUX_H_ */ + +/*********************************************************************************************************************** + * EOF + **********************************************************************************************************************/ diff --git a/hw/bsp/mcx/boards/frdm_mcxn947/board.h b/hw/bsp/mcx/boards/frdm_mcxn947/board.h index a35b6818a..bb15620ef 100644 --- a/hw/bsp/mcx/boards/frdm_mcxn947/board.h +++ b/hw/bsp/mcx/boards/frdm_mcxn947/board.h @@ -49,17 +49,22 @@ #define BUTTON_STATE_ACTIVE 0 // UART -#define UART_DEV LPUART4 +#define UART_DEV LPUART4 +#define LP_FLEXCOMM_INST 4 + +#include "fsl_lpflexcomm.h" static inline void board_uart_init_clock(void) { + /* attach FRO 12M to FLEXCOMM4 */ + + LP_FLEXCOMM_Init(LP_FLEXCOMM_INST, LP_FLEXCOMM_PERIPH_LPUART); + CLOCK_SetClkDiv(kCLOCK_DivFlexcom4Clk, 1u); CLOCK_AttachClk(kFRO12M_to_FLEXCOMM4); RESET_ClearPeripheralReset(kFC4_RST_SHIFT_RSTn); -} -//#define UART_RX_PINMUX 0, 24, IOCON_PIO_DIG_FUNC1_EN -//#define UART_TX_PINMUX 0, 25, IOCON_PIO_DIG_FUNC1_EN +} // XTAL #define XTAL0_CLK_HZ (24 * 1000 * 1000U) diff --git a/hw/bsp/mcx/drivers/spc/fsl_spc.c b/hw/bsp/mcx/drivers/spc/fsl_spc.c new file mode 100644 index 000000000..b16ca5fc5 --- /dev/null +++ b/hw/bsp/mcx/drivers/spc/fsl_spc.c @@ -0,0 +1,1680 @@ +/* + * Copyright 2022-2024 NXP + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +#include "fsl_spc.h" + +/* Component ID definition, used by tools. */ +#ifndef FSL_COMPONENT_ID +#define FSL_COMPONENT_ID "platform.drivers.mcx_spc" +#endif + +/* + * $Coverage Justification Reference$ + * + * $Justification spc_c_ref_1$ + * The SPC busy status flag is too short to get coverage data. + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/******************************************************************************* + * Prototypes + ******************************************************************************/ + +/******************************************************************************* + * Variables + ******************************************************************************/ + +/******************************************************************************* + * Code + ******************************************************************************/ + +/*! + * brief Gets selected power domain's requested low power mode. + * + * param base SPC peripheral base address. + * param powerDomainId Power Domain Id, please refer to spc_power_domain_id_t. + * + * return The selected power domain's requested low power mode, please refer to spc_power_domain_low_power_mode_t. + */ +spc_power_domain_low_power_mode_t SPC_GetPowerDomainLowPowerMode(SPC_Type *base, spc_power_domain_id_t powerDomainId) +{ + assert((uint8_t)powerDomainId < SPC_PD_STATUS_COUNT); + + uint32_t val; + + val = ((base->PD_STATUS[(uint8_t)powerDomainId] & SPC_PD_STATUS_LP_MODE_MASK) >> SPC_PD_STATUS_LP_MODE_SHIFT); + return (spc_power_domain_low_power_mode_t)val; +} + +/*! + * brief Gets Isolation status for each power domains. + * + * This function gets the status which indicates whether certain + * peripheral and the IO pads are in a latched state as a result + * of having been in POWERDOWN mode. + * + * param base SPC peripheral base address. + * return Current isolation status for each power domains. + */ +uint8_t SPC_GetPeriphIOIsolationStatus(SPC_Type *base) +{ + uint32_t reg; + + reg = base->SC; + return (uint8_t)((reg & SPC_SC_ISO_CLR_MASK) >> SPC_SC_ISO_CLR_SHIFT); +} + +/*! + * brief Configs Low power request output pin. + * + * This function configs the low power request output pin + * + * param base SPC peripheral base address. + * param config Pointer the spc_LowPower_Request_config_t structure. + */ +void SPC_SetLowPowerRequestConfig(SPC_Type *base, const spc_lowpower_request_config_t *config) +{ + assert(config != NULL); + + uint32_t reg; + + reg = base->LPREQ_CFG; + reg &= ~(SPC_LPREQ_CFG_LPREQOE_MASK | SPC_LPREQ_CFG_LPREQPOL_MASK | SPC_LPREQ_CFG_LPREQOV_MASK); + + if (config->enable) + { + reg |= SPC_LPREQ_CFG_LPREQOE_MASK | SPC_LPREQ_CFG_LPREQPOL((uint8_t)(config->polarity)) | + SPC_LPREQ_CFG_LPREQOV((uint8_t)(config->override)); + } + else + { + reg &= ~SPC_LPREQ_CFG_LPREQOE_MASK; + } + + base->LPREQ_CFG = reg; +} + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) +/*! + * brief Configures VDD Core Glitch detector, including ripple counter selection, timeout value and so on. + * + * param base SPC peripheral base address. + * param config Pointer to the structure in type of spc_vdd_core_glitch_detector_config_t. + */ +void SPC_ConfigVddCoreGlitchDetector(SPC_Type *base, const spc_vdd_core_glitch_detector_config_t *config) +{ + assert(config != NULL); + + uint32_t reg; + + reg = (base->VDD_CORE_GLITCH_DETECT_SC) & + ~(SPC_VDD_CORE_GLITCH_DETECT_SC_CNT_SELECT_MASK | SPC_VDD_CORE_GLITCH_DETECT_SC_TIMEOUT_MASK | + SPC_VDD_CORE_GLITCH_DETECT_SC_RE_MASK | SPC_VDD_CORE_GLITCH_DETECT_SC_IE_MASK); + + reg |= SPC_VDD_CORE_GLITCH_DETECT_SC_CNT_SELECT(config->rippleCounterSelect) | + SPC_VDD_CORE_GLITCH_DETECT_SC_TIMEOUT(config->resetTimeoutValue) | + SPC_VDD_CORE_GLITCH_DETECT_SC_RE(config->enableReset) | + SPC_VDD_CORE_GLITCH_DETECT_SC_IE(config->enableInterrupt); + + base->VDD_CORE_GLITCH_DETECT_SC = reg; +} +#endif + +/*! + * brief Set SRAM operate voltage. + * + * param base SPC peripheral base address. + * param config The pointer to spc_sram_voltage_config_t, specifies the configuration of sram voltage. + */ +void SPC_SetSRAMOperateVoltage(SPC_Type *base, const spc_sram_voltage_config_t *config) +{ + assert(config != NULL); + + uint32_t reg = 0UL; + + reg |= SPC_SRAMCTL_VSM(config->operateVoltage); + + base->SRAMCTL = reg; + + if (config->requestVoltageUpdate) + { + base->SRAMCTL |= SPC_SRAMCTL_REQ_MASK; + while ((base->SRAMCTL & SPC_SRAMCTL_ACK_MASK) == 0UL) + { + /* Wait until acknowledged */ + ; + } + base->SRAMCTL &= ~SPC_SRAMCTL_REQ_MASK; + } +} + +/*! + * brief Configs Bandgap mode in Active mode. + * + * @note To disable bandgap in Active mode: + * 1. Disable all LVD's and HVD's in active mode; + * 2. Disable Glitch detect; + * 3. Configure LDO's and DCDC to low drive strength in active mode; + * 4. Invoke this function to disable bandgap in active mode; + * otherwise the error status will be reported. + * + * @note Some other system resources(such as PLL, CMP) require bandgap to be enabled, to disable bandgap please + * take care of other system resources. + * + * param base SPC peripheral base address. + * param mode The Bandgap mode be selected. + * + * retval kStatus_SPC_BandgapModeWrong The Bandgap can not be disabled in active mode. + * retval kStatus_Success Config Bandgap mode in Active power mode successful. + */ +status_t SPC_SetActiveModeBandgapModeConfig(SPC_Type *base, spc_bandgap_mode_t mode) +{ + uint32_t reg; + uint32_t state; + + reg = base->ACTIVE_CFG; + + if (mode == kSPC_BandgapDisabled) + { + state = SPC_GetActiveModeVoltageDetectStatus(base); + + /* If any of the LVD/HVDs are kept enabled, bandgap mode must be enabled with buffer disabled. */ + if (state != 0UL) + { + return kStatus_SPC_BandgapModeWrong; + } + + /* The bandgap mode must be enabled if any regulators' drive strength set as Normal. */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + if ((base->ACTIVE_CFG & SPC_ACTIVE_CFG_SYSLDO_VDD_DS_MASK) == + SPC_ACTIVE_CFG_SYSLDO_VDD_DS(kSPC_SysLDO_NormalDriveStrength)) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + if ((base->ACTIVE_CFG & SPC_ACTIVE_CFG_DCDC_VDD_DS_MASK) == SPC_ACTIVE_CFG_DCDC_VDD_DS(kSPC_DCDC_NormalVoltage)) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) + /* state of GLITCH_DETECT_DISABLE will be ignored if bandgap is disabled. */ + if ((base->ACTIVE_CFG & SPC_ACTIVE_CFG_GLITCH_DETECT_DISABLE_MASK) == 0UL) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif +#if defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS + if ((base->ACTIVE_CFG & SPC_ACTIVE_CFG_CORELDO_VDD_DS_MASK) == + SPC_ACTIVE_CFG_CORELDO_VDD_DS(kSPC_CoreLDO_NormalDriveStrength)) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + } + + reg &= ~SPC_ACTIVE_CFG_BGMODE_MASK; + reg |= SPC_ACTIVE_CFG_BGMODE(mode); + + base->ACTIVE_CFG = reg; + + return kStatus_Success; +} + +/*! + * brief Configs Bandgap mode in Low Power mode. + * + * @note To disable Bandgap in Low-power mode: + * 1. Disable all LVD's ad HVD's in low power mode; + * 2. Disable Glitch detect in low power mode; + * 3. Configure LDO's and DCDC to low drive strength in low power mode; + * 4. Disable bandgap in low power mode; + * Otherwise, the error status will be reported. + * + * @note Some other system resources(such as PLL, CMP) require bandgap to be enabled, to disable bandgap please + * take care of other system resources. + * + * param base SPC peripheral base address. + * param mode The Bandgap mode be selected. + * + * retval kStatus_SPC_BandgapModeWrong The bandgap mode setting in Low Power mode is wrong. + * retval kStatus_Success Config Bandgap mode in Low Power power mode successful. + */ +status_t SPC_SetLowPowerModeBandgapmodeConfig(SPC_Type *base, spc_bandgap_mode_t mode) +{ + uint32_t reg; + uint32_t state; + + reg = base->LP_CFG; + + if (mode == kSPC_BandgapDisabled) + { + state = (uint32_t)SPC_GetLowPowerModeVoltageDetectStatus(base); + + /* If any of the LVD/HVDs are kept enabled, bandgap mode must be enabled with buffer disabled. */ + if (state != 0UL) + { + return kStatus_SPC_BandgapModeWrong; + } + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + if ((base->LP_CFG & SPC_LP_CFG_DCDC_VDD_DS_MASK) == SPC_LP_CFG_DCDC_VDD_DS(kSPC_DCDC_NormalDriveStrength)) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + if ((base->LP_CFG & SPC_LP_CFG_SYSLDO_VDD_DS_MASK) == SPC_LP_CFG_SYSLDO_VDD_DS(kSPC_SysLDO_NormalDriveStrength)) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + + if ((base->LP_CFG & SPC_LP_CFG_CORELDO_VDD_DS_MASK) == + SPC_LP_CFG_CORELDO_VDD_DS(kSPC_CoreLDO_NormalDriveStrength)) + { + return kStatus_SPC_BandgapModeWrong; + } + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) + /* state of GLITCH_DETECT_DISABLE will be ignored if bandgap is disabled. */ + if ((base->LP_CFG & SPC_LP_CFG_GLITCH_DETECT_DISABLE_MASK) == 0UL) + { + return kStatus_SPC_BandgapModeWrong; + } +#endif + } + + reg &= ~SPC_LP_CFG_BGMODE_MASK; + reg |= SPC_LP_CFG_BGMODE(mode); + base->LP_CFG = reg; + + return kStatus_Success; +} + +/*! + * brief Configs CORE voltage detect options. + * + * This function configs CORE voltage detect options. + * Note: Setting both the voltage detect interrupt and reset + * enable will cause interrupt to be generated on exit from reset. + * If those conditioned is not desired, interrupt/reset only one is enabled. + * + * param base SPC peripheral base address. + * param config Pointer to spc_core_voltage_detect_config_t structure. + */ +void SPC_SetCoreVoltageDetectConfig(SPC_Type *base, const spc_core_voltage_detect_config_t *config) +{ + assert(config != NULL); + + uint32_t reg = 0UL; + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) + reg |= (config->option.HVDInterruptEnable) ? SPC_VD_CORE_CFG_HVDIE(1U) : SPC_VD_CORE_CFG_HVDIE(0U); + reg |= (config->option.HVDResetEnable) ? SPC_VD_CORE_CFG_HVDRE(1U) : SPC_VD_CORE_CFG_HVDRE(0U); +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD */ + reg |= (config->option.LVDInterruptEnable) ? SPC_VD_CORE_CFG_LVDIE(1U) : SPC_VD_CORE_CFG_LVDIE(0U); + reg |= (config->option.LVDResetEnable) ? SPC_VD_CORE_CFG_LVDRE(1U) : SPC_VD_CORE_CFG_LVDRE(0U); + + base->VD_CORE_CFG = reg; +} + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) +/*! + * brief Enables the Core High Voltage Detector in Active mode. + * + * note If the CORE_LDO high voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low. + * + * param base SPC peripheral base address. + * param enable Enable/Disable Core HVD. + * true - Enable Core High voltage detector in active mode. + * false - Disable Core High voltage detector in active mode. + * + * retval kStatus_Success Enable Core High Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeCoreHighVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_CORE_HVDE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_CORE_HVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the Core High Voltage Detector in Low Power mode. + * + * note If the CORE_LDO high voltage detect is enabled in Low Power mode, + * please note that the bandgap must be enabled and the drive strength of each regulator + * must not set to low in low power mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable Core HVD. + * true - Enable Core High voltage detector in low power mode. + * false - Disable Core High voltage detector in low power mode. + * + * retval kStatus_Success Enable Core High Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeCoreHighVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_CORE_HVDE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_CORE_HVDE_MASK; + } + + return status; +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD */ + +/*! + * brief Enables the Core VDD Low Voltage Detector in Active mode. + * + * note If the Core VDD high voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low. + * + * param base SPC peripheral base address. + * param enable Enable/Disable Core LVD. + * true - Enable Core Low voltage detector in active mode. + * false - Disable Core Low voltage detector in active mode. + * + * retval kStatus_Success Enable Core Low Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeCoreLowVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_CORE_LVDE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_CORE_LVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the Core Low Voltage Detector in Low Power mode. + * + * note If the Core VDD low voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Low Power mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable Core HVD. + * true - Enable Core Low voltage detector in low power mode. + * false - Disable Core Low voltage detector in low power mode. + * + * retval kStatus_Success Enable Core Low Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeCoreLowVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_CORE_LVDE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_CORE_LVDE_MASK; + } + + return status; +} + +/*! + * brief Set system VDD Low-voltage level selection. + * + * This function selects the system VDD low-voltage level. Changing system VDD low-voltage level + * must be done after disabling the System VDD low voltage reset and interrupt. + * + * @deprecated In latest RM, reserved for all devices, will removed in next release. + * + * param base SPC peripheral base address. + * param level System VDD Low-Voltage level selection. See @ref spc_low_voltage_level_select_t for details. + */ +void SPC_SetSystemVDDLowVoltageLevel(SPC_Type *base, spc_low_voltage_level_select_t level) +{ + (void)level; + (void)base; + + /* + uint32_t reg; + + reg = base->VD_SYS_CFG; + + base->VD_SYS_CFG &= ~(SPC_VD_SYS_CFG_LVDRE_MASK | SPC_VD_SYS_CFG_LVDIE_MASK); + reg |= SPC_VD_SYS_CFG_LVSEL(level); + + base->VD_SYS_CFG = reg; */ +} + +/*! + * brief Configs SYS VDD voltage detect options. + * + * This function config SYS voltage detect options. + * Note: Setting both the voltage detect interrupt and reset + * enable will cause interrupt to be generated on exit from reset. + * If those conditioned is not desired, interrupt/reset only one is enabled. + * + * param base SPC peripheral base address. + * param config Pointer to spc_system_voltage_detect_config_t structure. + */ +void SPC_SetSystemVoltageDetectConfig(SPC_Type *base, const spc_system_voltage_detect_config_t *config) +{ + assert(config != NULL); + + uint32_t reg = 0UL; + + reg |= (config->option.HVDInterruptEnable) ? SPC_VD_SYS_CFG_HVDIE(1U) : SPC_VD_SYS_CFG_HVDIE(0U); + reg |= (config->option.LVDInterruptEnable) ? SPC_VD_SYS_CFG_LVDIE(1U) : SPC_VD_SYS_CFG_LVDIE(0U); + reg |= (config->option.HVDResetEnable) ? SPC_VD_SYS_CFG_HVDRE(1U) : SPC_VD_SYS_CFG_HVDRE(0U); + reg |= (config->option.LVDResetEnable) ? SPC_VD_SYS_CFG_LVDRE(1U) : SPC_VD_SYS_CFG_LVDRE(0U); + + base->VD_SYS_CFG = reg; + + (void)(config->level); + /* SPC_SetSystemVDDLowVoltageLevel(base, config->level); */ +} + +/*! + * brief Enables the System VDD High Voltage Detector in Active mode. + * + * note If the System_LDO high voltage detect is enabled in Active mode, + * please note that the bandgap must be enabled and the drive strength of + * each regulator must not set to low in Active mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable System HVD. + * true - Enable System High voltage detector in active mode. + * false - Disable System High voltage detector in active mode. + * + * retval kStatus_Success Enable System High Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeSystemHighVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_SYS_HVDE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_SYS_HVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the System VDD Low Voltage Detector in Active mode. + * + * note If the System_LDO low voltage detect is enabled in Active mode, + * please note that the bandgap must be enabled and the drive strength of each + * regulator must not set to low in Active mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable System LVD. + * true - Enable System Low voltage detector in active mode. + * false - Disable System Low voltage detector in active mode. + * + * retval kStatus_Success Enable the System Low Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeSystemLowVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_SYS_LVDE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_SYS_LVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the System VDD High Voltage Detector in Low Power mode. + * + * note If the System_LDO high voltage detect is enabled in low power mode, + * please note that the bandgap must be enabled and the drive strength of each + * regulator must not set to low in low power mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable System HVD. + * true - Enable System High voltage detector in low power mode. + * false - Disable System High voltage detector in low power mode. + * + * retval kStatus_Success Enable System High Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeSystemHighVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_SYS_HVDE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_SYS_HVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the System VDD Low Voltage Detector in Low Power mode. + * + * note If the System_LDO low voltage detect is enabled in Low Power mode, + * please note that the bandgap must be enabled and the drive strength of each + * regulator must not set to low in Low Power mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable System HVD. + * true - Enable System Low voltage detector in low power mode. + * false - Disable System Low voltage detector in low power mode. + * + * retval kStatus_Success Enable System Low Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeSystemLowVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_SYS_LVDE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_SYS_LVDE_MASK; + } + + return status; +} + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) && FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) +/*! + * brief Set IO VDD Low-Voltage level selection. + * + * This function selects the IO VDD Low-voltage level. Changing IO VDD low-voltage level + * must be done after disabling the IO VDD low voltage reset and interrupt. + * + * param base SPC peripheral base address. + * param level IO VDD Low-voltage level selection. + */ +void SPC_SetIOVDDLowVoltageLevel(SPC_Type *base, spc_low_voltage_level_select_t level) +{ + uint32_t reg; + + reg = base->VD_IO_CFG; + + base->VD_IO_CFG &= ~(SPC_VD_IO_CFG_LVDRE_MASK | SPC_VD_IO_CFG_LVDIE_MASK | SPC_VD_IO_CFG_LVSEL_MASK); + reg |= SPC_VD_IO_CFG_LVSEL(level); + + base->VD_IO_CFG = reg; +} + +/*! + * brief Configs IO VDD voltage detect options. + * + * This function config IO voltage detect options. + * Note: Setting both the voltage detect interrupt and reset + * enable will cause interrupt to be generated on exit from reset. + * If those conditioned is not desired, interrupt/reset so only one is enabled. + * + * param base SPC peripheral base address. + * param config Pointer to spc_IO_voltage_detect_config_t structure. + */ +void SPC_SetIOVoltageDetectConfig(SPC_Type *base, const spc_io_voltage_detect_config_t *config) +{ + assert(config != NULL); + + uint32_t reg = 0UL; + + /* Set trip voltage level. */ + SPC_SetIOVDDLowVoltageLevel(base, config->level); + + reg = base->VD_IO_CFG; + reg &= ~(SPC_VD_IO_CFG_LVDRE_MASK | SPC_VD_IO_CFG_LVDIE_MASK | SPC_VD_IO_CFG_HVDRE_MASK | SPC_VD_IO_CFG_HVDIE_MASK); + + reg |= (config->option.HVDInterruptEnable) ? SPC_VD_IO_CFG_HVDIE(1U) : SPC_VD_IO_CFG_HVDIE(0U); + reg |= (config->option.LVDInterruptEnable) ? SPC_VD_IO_CFG_LVDIE(1U) : SPC_VD_IO_CFG_LVDIE(0U); + reg |= (config->option.HVDResetEnable) ? SPC_VD_IO_CFG_HVDRE(1U) : SPC_VD_IO_CFG_HVDRE(0U); + reg |= (config->option.LVDResetEnable) ? SPC_VD_IO_CFG_LVDRE(1U) : SPC_VD_IO_CFG_LVDRE(0U); + + base->VD_IO_CFG = reg; +} + +/*! + * brief Enables the IO VDD High Voltage Detector in Active mode. + * + * note If the IO high voltage detect is enabled in Active mode, + * please note that the bandgap must be enabled and the drive strength + * of each regulator must not set to low in Active mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable IO HVD. + * true - Enable IO High voltage detector in active mode. + * false - Disable IO High voltage detector in active mode. + * + * retval kStatus_Success Enable IO High Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeIOHighVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_IO_HVDE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_IO_HVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the IO VDD Low Voltage Detector in Active mode. + * + * note If the IO low voltage detect is enabled in Active mode, + * please note that the bandgap must be enabled and the drive strength + * of each regulator must not set to low in Active mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable IO LVD. + * true - Enable IO Low voltage detector in active mode. + * false - Disable IO Low voltage detector in active mode. + * + * retval kStatus_Success Enable IO Low Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeIOLowVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_IO_LVDE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_IO_LVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the IO VDD High Voltage Detector in Low Power mode. + * + * note If the IO high voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Low Power mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable IO HVD. + * true - Enable IO High voltage detector in low power mode. + * false - Disable IO High voltage detector in low power mode. + * + * retval kStatus_Success Enable IO High Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeIOHighVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_IO_HVDE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_IO_HVDE_MASK; + } + + return status; +} + +/*! + * brief Enables the IO VDD Low Voltage Detector in Low Power mode. + * + * note If the IO low voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Low Power mode. + * + * param base SPC peripheral base address. + * param enable Enable/Disable IO HVD. + * true - Enable IO Low voltage detector in low power mode. + * false - Disable IO Low voltage detector in low power mode. + * + * retval kStatus_Success Enable IO Low Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeIOLowVoltageDetect(SPC_Type *base, bool enable) +{ + status_t status = kStatus_Success; + + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_IO_LVDE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_IO_LVDE_MASK; + } + + return status; +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD */ + +/*! + * brief Configs external voltage domains + * + * This function configs external voltage domains isolation. + * + * param base SPC peripheral base address. + * param lowPowerIsoMask The mask of external domains isolate enable during low power mode. + * param IsoMask The mask of external domains isolate. + */ +void SPC_SetExternalVoltageDomainsConfig(SPC_Type *base, uint8_t lowPowerIsoMask, uint8_t IsoMask) +{ + uint32_t reg = 0UL; + + reg |= SPC_EVD_CFG_REG_EVDISO(IsoMask) | SPC_EVD_CFG_REG_EVDLPISO(lowPowerIsoMask); + base->EVD_CFG = reg; +} + +/*! + * brief Configs Core LDO Regulator in Active mode. + * + * @note The bandgap must be enabled before invoking this function. + * @note To set Core LDO as low drive strength, all HVDs/LVDs must be disabled previously. + * + * param base SPC peripheral base address. + * param option Pointer to the spc_active_mode_Core_LDO_option_t structure. + * + * retval kStatus_Success Config Core LDO regulator in Active power mode successful. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_BandgapModeWrong Bandgap should be enabled before invoking this function. + * retval kStatus_SPC_CORELDOLowDriveStrengthIgnore To set Core LDO as low drive strength, + * all LVDs/HVDs must be disabled before invoking this function. + */ +status_t SPC_SetActiveModeCoreLDORegulatorConfig(SPC_Type *base, const spc_active_mode_core_ldo_option_t *option) +{ + assert(option != NULL); + + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + return kStatus_SPC_Busy; + } + + /* Check input parameters. */ + /* 1. Bandgap must not be disabled. */ + if (SPC_GetActiveModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + + /* 2. To set to low drive strength, all LVDs/HVDs must be disabled previously. */ + if ((SPC_GetActiveModeVoltageDetectStatus(base) != 0UL) && + (option->CoreLDODriveStrength == kSPC_CoreLDO_LowDriveStrength)) + { + return kStatus_SPC_CORELDOLowDriveStrengthIgnore; + } + + if ((uint8_t)SPC_GetActiveModeCoreLDOVDDVoltageLevel(base) != (uint8_t)(option->CoreLDOVoltage)) + { +#if defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS + (void)SPC_SetActiveModeCoreLDORegulatorDriveStrength(base, kSPC_CoreLDO_NormalDriveStrength); +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + (void)SPC_SetActiveModeCoreLDORegulatorVoltageLevel(base, option->CoreLDOVoltage); + } + +#if defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS + (void)SPC_SetActiveModeCoreLDORegulatorDriveStrength(base, option->CoreLDODriveStrength); +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + + return kStatus_Success; +} + +/*! + * brief Set Core LDO VDD Regulator Voltage level in Active mode. + * + * @note In active mode, the Core LDO voltage level should only be changed when the + * Core LDO is in normal drive strength. + * + * @note Update Core LDO voltage level will set Busy flag, + * this function return only when busy flag is cleared by hardware + * + * param base SPC peripheral base address. + * param voltageLevel Specify the voltage level of CORE LDO Regulator in Active mode, please + refer to @ref spc_core_ldo_voltage_level_t. + * + * retval kStatus_SPC_CORELDOVoltageSetFail Core LDO voltage level should only be + * changed when the CORE_LDO is in normal drive strength. + * retval kStatus_Success Set Core LDO regulator voltage level in Active power mode successful. + */ +status_t SPC_SetActiveModeCoreLDORegulatorVoltageLevel(SPC_Type *base, spc_core_ldo_voltage_level_t voltageLevel) +{ + if ((uint8_t)voltageLevel != (uint8_t)SPC_GetActiveModeCoreLDOVDDVoltageLevel(base)) + { +#if (defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) + if (SPC_GetActiveModeCoreLDODriveStrength(base) != kSPC_CoreLDO_NormalDriveStrength) + { + return kStatus_SPC_CORELDOVoltageSetFail; + } +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + + base->ACTIVE_CFG = + ((base->ACTIVE_CFG & ~SPC_ACTIVE_CFG_CORELDO_VDD_LVL_MASK) | SPC_ACTIVE_CFG_CORELDO_VDD_LVL(voltageLevel)); + + /* + * $Branch Coverage Justification$ + * $ref spc_c_ref_1$. + */ + while ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + } + } + return kStatus_Success; +} + +#if defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS +/*! + * brief Set Core LDO VDD Regulator Drive Strength in Active mode. + * + * param base SPC peripheral base address. + * param driveStrength Specify the drive strength of CORE LDO Regulator in Active mode, please + refer to @ref spc_core_ldo_drive_strength_t. + * + * retval #kStatus_Success Set Core LDO regulator drive strength in Active power mode successful. + * retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore If any voltage detect enabled, + core_ldo's drive strength can not set to low. + * retval #kStatus_SPC_BandgapModeWrong The selected bandgap mode is not allowed. + */ +status_t SPC_SetActiveModeCoreLDORegulatorDriveStrength(SPC_Type *base, spc_core_ldo_drive_strength_t driveStrength) +{ + if (driveStrength == kSPC_CoreLDO_LowDriveStrength) + { + /* If any voltage detect feature is enabled in Active mode, then CORE_LDO's drive strength must not set to low. + */ + if (SPC_GetActiveModeVoltageDetectStatus(base) != 0UL) + { + return kStatus_SPC_CORELDOLowDriveStrengthIgnore; + } + } + + if (driveStrength == kSPC_CoreLDO_NormalDriveStrength) + { + /* If specify normal drive strength, bandgap must not be disabled. */ + if (SPC_GetActiveModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + } + + base->ACTIVE_CFG = + ((base->ACTIVE_CFG & ~SPC_ACTIVE_CFG_CORELDO_VDD_DS_MASK) | SPC_ACTIVE_CFG_CORELDO_VDD_DS(driveStrength)); + + return kStatus_Success; +} +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + +/*! + * brief Configs CORE LDO Regulator in low power mode + * + * This function configs CORE LDO Regulator in Low Power mode. + * If CORE LDO VDD Drive Strength is set to Normal, the CORE LDO VDD regulator voltage + * level in Active mode must be equal to the voltage level in Low power mode. And the Bandgap + * must be programmed to select bandgap enabled. + * Core VDD voltage levels for the Core LDO low power regulator can only be changed when the CORE + * LDO Drive Strength is set as Normal. + * + * param base SPC peripheral base address. + * param option Pointer to the spc_lowpower_mode_Core_LDO_option_t structure. + * retval kStatus_Success Config Core LDO regulator in power mode successfully. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_CORELDOLowDriveStrengthIgnore HVDs/LVDs are not disabled before invoking this function. + * retval kStatus_SPC_BandgapModeWrong The bandgap is not enabled before invoking this function. + */ +status_t SPC_SetLowPowerModeCoreLDORegulatorConfig(SPC_Type *base, const spc_lowpower_mode_core_ldo_option_t *option) +{ + status_t status = kStatus_Success; + + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + /* + * $Line Coverage Justification$ + * $ref spc_c_ref_1$. + */ + return kStatus_SPC_Busy; + } + + status = SPC_SetLowPowerModeCoreLDORegulatorDriveStrength(base, option->CoreLDODriveStrength); + if (status == kStatus_Success) + { + (void)SPC_SetLowPowerModeCoreLDORegulatorVoltageLevel(base, option->CoreLDOVoltage); + } + + return status; +} + +/*! + * brief Set Core LDO VDD Regulator Voltage level in Low power mode. + * + * @note If Core LDO's drive strengths are same in active and low power mode, the Core LDO's voltage must be set to the + * same value in active and low power mode. Application should take care of this limitation. + * + * @note Some devices require Core LDO and DCDC have the same voltage level even if Core LDO is off. Application should + * take care of this limitation. + * + * param base SPC peripheral base address. + * param voltageLevel Voltage level of CORE LDO Regulator in Low power mode, please + refer to @ref spc_core_ldo_voltage_level_t. + * + * retval #kStatus_SPC_Busy The SPC instance is busy to execute other operation. + * retval #kStatus_Success Set Core LDO regulator voltage level in Low power mode successful. + */ +status_t SPC_SetLowPowerModeCoreLDORegulatorVoltageLevel(SPC_Type *base, spc_core_ldo_voltage_level_t voltageLevel) +{ + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + /* + * $Line Coverage Justification$ + * $ref spc_c_ref_1$. + */ + return kStatus_SPC_Busy; + } + + base->LP_CFG = ((base->LP_CFG & ~SPC_LP_CFG_CORELDO_VDD_LVL_MASK) | SPC_LP_CFG_CORELDO_VDD_LVL(voltageLevel)); + + /* + * $Branch Coverage Justification$ + * $ref spc_c_ref_1$. + */ + while ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + } + + return kStatus_Success; +} + +/*! + * brief Set Core LDO VDD Regulator Drive Strength in Low power mode. + * + * param base SPC peripheral base address. + * param driveStrength Specify drive strength of CORE LDO in low power mode. + * + * retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore Some voltage detect enabled, CORE LDO's drive strength can not set + * as low. + * retval #kStatus_Success Set Core LDO regulator drive strength in Low power mode successful. + * retval #kStatus_SPC_BandgapModeWrong Bandgap is disabled when attempt to set CORE LDO work as normal drive strength. + */ +status_t SPC_SetLowPowerModeCoreLDORegulatorDriveStrength(SPC_Type *base, spc_core_ldo_drive_strength_t driveStrength) +{ + if (driveStrength == kSPC_CoreLDO_LowDriveStrength) + { + /* If any voltage detect feature is enabled in Low Power mode, then CORE_LDO's drive strength must not set to + * low. + */ + if (SPC_GetLowPowerModeVoltageDetectStatus(base) != 0UL) + { + return kStatus_SPC_CORELDOLowDriveStrengthIgnore; + } + } + else + { + /* To specify normal drive strength, the bandgap must be enabled in low power mode. */ + if (SPC_GetLowPowerModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + } + + base->LP_CFG = ((base->LP_CFG & ~SPC_LP_CFG_CORELDO_VDD_DS_MASK) | SPC_LP_CFG_CORELDO_VDD_DS(driveStrength)); + + return kStatus_Success; +} + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) +/*! + * brief Configs System LDO VDD Regulator in Active mode. + * + * This function configs System LDO VDD Regulator in Active mode. + * If System LDO VDD Drive Strength is set to Normal, the Bandgap mode in Active mode must be programmed + * to a value that enable the bandgap. + * If any voltage detects are kept enabled, configuration to set System LDO VDD drive strength to low will + * be ignored. + * If select System LDO VDD Regulator voltage level to Over Drive Voltage, the Drive Strength of System LDO VDD + * Regulator must be set to Normal otherwise the regulator Drive Strength will be forced to Normal. + * If select System LDO VDD Regulator voltage level to Over Drive Voltage, the High voltage detect must be disabled. + * Otherwise it will be fail to regulator to Over Drive Voltage. + * + * param base SPC peripheral base address. + * param option Pointer to the spc_active_mode_Sys_LDO_option_t structure. + * retval kStatus_Success Config System LDO regulator in Active power mode successful. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_BandgapModeWrong The bandgap is not enabled before invoking this function. + * retval kStatus_SPC_SYSLDOOverDriveVoltageFail HVD of System VDD is not disable before setting to Over Drive voltage. + * retval kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set System LDO VDD regulator's driver strength to Low will be + * ignored. + */ +status_t SPC_SetActiveModeSystemLDORegulatorConfig(SPC_Type *base, const spc_active_mode_sys_ldo_option_t *option) +{ + assert(option != NULL); + + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + /* + * $Line Coverage Justification$ + * $ref spc_c_ref_1$. + */ + return kStatus_SPC_Busy; + } + + /* Check input parameters before setting registers. */ + /* 1. To set to low DS, all LVDs/HVDs must be disabled previously. */ + if ((SPC_GetActiveModeVoltageDetectStatus(base) != 0UL) && + (option->SysLDODriveStrength == kSPC_SysLDO_LowDriveStrength)) + { + return kStatus_SPC_SYSLDOLowDriveStrengthIgnore; + } + /* 2. If specify normal drive strength, bandgap must not be disabled. */ + if ((SPC_GetActiveModeBandgapMode(base) == kSPC_BandgapDisabled) && + (option->SysLDODriveStrength == kSPC_SysLDO_NormalDriveStrength)) + { + return kStatus_SPC_BandgapModeWrong; + } + + /* 3. Must disable system LDO high voltage detector before specifying overdrive voltage. */ + if ((option->SysLDOVoltage == kSPC_SysLDO_OverDriveVoltage) && + ((SPC_GetActiveModeVoltageDetectStatus(base) & SPC_ACTIVE_CFG_SYS_HVDE_MASK) != 0UL)) + { + return kStatus_SPC_SYSLDOOverDriveVoltageFail; + } + + (void)SPC_SetActiveModeSystemLDORegulatorDriveStrength(base, option->SysLDODriveStrength); + (void)SPC_SetActiveModeSystemLDORegulatorVoltageLevel(base, option->SysLDOVoltage); + + return kStatus_Success; +} + +/*! + * brief Set System LDO Regulator voltage level in Active mode. + * + * @note The system LDO regulator can only operate at the overdrive voltage level for a limited amount of time for the + * life of chip. + * + * param base SPC peripheral base address. + * param voltageLevel Specify the voltage level of System LDO Regulator in Active mode. + * + * retval #kStatus_Success Set System LDO Regulator voltage level in Active mode successfully. + * retval #kStatus_SPC_SYSLDOOverDriveVoltageFail Must disable system LDO high voltage detector before specifying + * overdrive voltage. + */ +status_t SPC_SetActiveModeSystemLDORegulatorVoltageLevel(SPC_Type *base, spc_sys_ldo_voltage_level_t voltageLevel) +{ + if (voltageLevel == kSPC_SysLDO_OverDriveVoltage) + { + /* Must disable system LDO high voltage detector before specifying overdrive voltage. */ + if ((SPC_GetActiveModeVoltageDetectStatus(base) & SPC_ACTIVE_CFG_SYS_HVDE_MASK) != 0UL) + { + return kStatus_SPC_SYSLDOOverDriveVoltageFail; + } + } + + base->ACTIVE_CFG = + (base->ACTIVE_CFG & ~SPC_ACTIVE_CFG_SYSLDO_VDD_LVL_MASK) | SPC_ACTIVE_CFG_SYSLDO_VDD_LVL(voltageLevel); + + return kStatus_Success; +} + +/*! + * brief Set System LDO Regulator Drive Strength in Active mode. + * + * param base SPC peripheral base address. + * param driveStrength Specify the drive strength of System LDO Regulator in Active mode. + * + * retval #kStatus_Success Set System LDO Regulator drive strength in Active mode successfully. + * retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Attempt to specify low drive strength is ignored due to any + voltage detect feature is enabled in active mode. + * retval #kStatus_SPC_BandgapModeWrong Bandgap mode in Active mode must be programmed to a value that enables + the bandgap if attempt to specify normal drive strength. + */ +status_t SPC_SetActiveModeSystemLDORegulatorDriveStrength(SPC_Type *base, spc_sys_ldo_drive_strength_t driveStrength) +{ + if (driveStrength == kSPC_SysLDO_LowDriveStrength) + { + /* If enabled any LVDs or HVDs, SPC will ignore the attempt to specify low drive strength. */ + if (SPC_GetActiveModeVoltageDetectStatus(base) != 0UL) + { + return kStatus_SPC_SYSLDOLowDriveStrengthIgnore; + } + } + + if (driveStrength == kSPC_SysLDO_NormalDriveStrength) + { + /* If specify normal drive strength, bandgap must not be disabled. */ + if (SPC_GetActiveModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + } + + base->ACTIVE_CFG = + (base->ACTIVE_CFG & ~SPC_ACTIVE_CFG_SYSLDO_VDD_DS_MASK) | SPC_ACTIVE_CFG_SYSLDO_VDD_DS(driveStrength); + + return kStatus_Success; +} + +/*! + * brief Configs System LDO regulator in low power modes. + * + * This function configs System LDO regulator in low power modes. + * If System LDO VDD Regulator Drive strength is set to normal, bandgap mode in low power + * mode must be programmed to a value that enables the Bandgap. + * If any High voltage detectors or Low Voltage detectors are kept enabled, configuration + * to set System LDO Regulator drive strength as Low will be ignored. + * + * param base SPC peripheral base address. + * param option Pointer to spc_lowpower_mode_Sys_LDO_option_t structure. + * + * retval kStatus_Success Config System LDO regulator in Low Power Mode successfully. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_BandgapModeWrong The bandgap mode setting in Low Power Mode is wrong. + * retval kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + */ +status_t SPC_SetLowPowerModeSystemLDORegulatorConfig(SPC_Type *base, const spc_lowpower_mode_sys_ldo_option_t *option) +{ + status_t status; + + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + /* + * $Line Coverage Justification$ + * $ref spc_c_ref_1$. + */ + return kStatus_SPC_Busy; + } + + status = SPC_SetLowPowerModeSystemLDORegulatorDriveStrength(base, option->SysLDODriveStrength); + + return status; +} + +/*! + * brief Set System LDO Regulator drive strength in Low Power Mode. + * + * param base SPC peripheral base address. + * param driveStrength Specify the drive strength of System LDO Regulator in Low Power Mode. + * + * retval #kStatus_Success Set System LDO Regulator drive strength in Low Power Mode successfully. + * retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Attempt to specify low drive strength is ignored due to any + voltage detect feature is enabled in low power mode. + * retval #kStatus_SPC_BandgapModeWrong Bandgap mode in low power mode must be programmed to a value that enables + the bandgap if attempt to specify normal drive strength. + */ +status_t SPC_SetLowPowerModeSystemLDORegulatorDriveStrength(SPC_Type *base, spc_sys_ldo_drive_strength_t driveStrength) +{ + if (driveStrength == kSPC_SysLDO_LowDriveStrength) + { + /* If enabled any LVDs or HVDs, SPC will ignore the attempt to specify low drive strength. */ + if (SPC_GetLowPowerModeVoltageDetectStatus(base) != 0UL) + { + return kStatus_SPC_SYSLDOLowDriveStrengthIgnore; + } + } + else + { + /* If specify normal drive strength, bandgap must not be disabled. */ + if (SPC_GetLowPowerModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + } + + base->LP_CFG = (base->LP_CFG & ~SPC_LP_CFG_SYSLDO_VDD_DS_MASK) | SPC_LP_CFG_SYSLDO_VDD_DS(driveStrength); + + return kStatus_Success; +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) +/*! + * brief Configs DCDC VDD Regulator in Active mode. + * + * note When changing the DCDC output voltage level, take care to change the CORE LDO voltage level. + * + * param base SPC peripheral base address. + * param option Pointer to the spc_active_mode_DCDC_option_t structure. + * + * retval kStatus_Success Config DCDC regulator in Active power mode successful. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_BandgapModeWrong The bandgap mode setting in Active mode is wrong. + */ +status_t SPC_SetActiveModeDCDCRegulatorConfig(SPC_Type *base, const spc_active_mode_dcdc_option_t *option) +{ + assert(option != NULL); + status_t status = kStatus_Success; + + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + /* + * $Line Coverage Justification$ + * $ref spc_c_ref_1$. + */ + return kStatus_SPC_Busy; + } + + status = SPC_SetActiveModeDCDCRegulatorDriveStrength(base, option->DCDCDriveStrength); + + if (status == kStatus_Success) + { + SPC_SetActiveModeDCDCRegulatorVoltageLevel(base, option->DCDCVoltage); + } + + /* + * $Branch Coverage Justification$ + * $ref spc_c_ref_1$. + */ + while ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + } + + return status; +} + +/*! + * brief Set DCDC VDD Regulator drive strength in Active mode. + * + * note To set DCDC drive strength as Normal, the bandgap must be enabled. + * + * param base SPC peripheral base address. + * param driveStrength Specify the DCDC VDD regulator drive strength, please refer to @ref spc_dcdc_drive_strength_t. + * + * retval #kStatus_Success Set DCDC VDD Regulator drive strength in Active mode successfully. + * retval #kStatus_SPC_BandgapModeWrong Set DCDC VDD Regulator drive strength to Normal, the Bandgap must be enabled. + */ +status_t SPC_SetActiveModeDCDCRegulatorDriveStrength(SPC_Type *base, spc_dcdc_drive_strength_t driveStrength) +{ + if (driveStrength == kSPC_DCDC_NormalDriveStrength) + { + /* If specify normal drive strength, bandgap must not be disabled. */ + if (SPC_GetActiveModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + } + + base->ACTIVE_CFG = + ((base->ACTIVE_CFG) & (~SPC_ACTIVE_CFG_DCDC_VDD_DS_MASK)) | SPC_ACTIVE_CFG_DCDC_VDD_DS(driveStrength); + + return kStatus_Success; +} + +/*! + * brief Configs DCDC VDD Regulator in Low power modes. + * + * If DCDC VDD Drive Strength is set to Normal, the Bandgap mode in Low Power mode must be programmed + * to a value that enables the Bandgap. + * In Deep Power Down mode, DCDC regulator is always turned off. + * + * param base SPC peripheral base address. + * param option Pointer to the spc_lowpower_mode_DCDC_option_t structure. + * + * retval kStatus_Success Config DCDC regulator in low power mode successfully. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_BandgapModeWrong The bandgap should be enabled before invoking this function. + */ +status_t SPC_SetLowPowerModeDCDCRegulatorConfig(SPC_Type *base, const spc_lowpower_mode_dcdc_option_t *option) +{ + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + /* + * $Line Coverage Justification$ + * $ref spc_c_ref_1$. + */ + return kStatus_SPC_Busy; + } + + /* Check input parameter before setting registers. */ + if ((option->DCDCDriveStrength == kSPC_DCDC_NormalDriveStrength) && + (SPC_GetLowPowerModeBandgapMode(base) == kSPC_BandgapDisabled)) + { + return kStatus_SPC_BandgapModeWrong; + } + + /* + 1. Configure to desired voltage level. + 2. Change to low drive strength. + 3. Configure same voltage level in active mode. + */ + SPC_SetLowPowerModeDCDCRegulatorVoltageLevel(base, option->DCDCVoltage); + + /* Change to desired drive strength. */ + if (option->DCDCDriveStrength != kSPC_DCDC_LowDriveStrength) + { + (void)SPC_SetLowPowerModeDCDCRegulatorDriveStrength(base, option->DCDCDriveStrength); + } + + /* + * $Branch Coverage Justification$ + * $ref spc_c_ref_1$. + */ + while ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + } + + return kStatus_Success; +} + +/*! + * brief Set DCDC VDD Regulator drive strength in Low power mode. + * + * param base SPC peripheral base address. + * param driveStrength Specify the DCDC VDD Regulator drive strength, please refer to @ref spc_dcdc_drive_strength_t. + * + * retval #kStatus_Success Set DCDC VDD Regulator drive strength in Low power mode successfully. + * retval #kStatus_SPC_BandgapModeWrong Set DCDC VDD Regulator drive strength to Normal, the Bandgap must be enabled. + */ +status_t SPC_SetLowPowerModeDCDCRegulatorDriveStrength(SPC_Type *base, spc_dcdc_drive_strength_t driveStrength) +{ + if (driveStrength == kSPC_DCDC_NormalDriveStrength) + { + /* If specify normal drive strength, bandgap must not be disabled. */ + if (SPC_GetLowPowerModeBandgapMode(base) == kSPC_BandgapDisabled) + { + return kStatus_SPC_BandgapModeWrong; + } + } + + base->LP_CFG = ((base->LP_CFG) & (~SPC_LP_CFG_DCDC_VDD_DS_MASK)) | SPC_LP_CFG_DCDC_VDD_DS(driveStrength); + + return kStatus_Success; +} + +/*! + * brief Config DCDC Burst options + * + * param base SPC peripheral base address. + * param config Pointer to spc_DCDC_burst_config_t structure. + */ +void SPC_SetDCDCBurstConfig(SPC_Type *base, spc_dcdc_burst_config_t *config) +{ + assert(config != NULL); + uint32_t reg; + reg = base->DCDC_CFG; + reg &= ~(SPC_DCDC_CFG_FREQ_CNTRL_MASK | SPC_DCDC_CFG_FREQ_CNTRL_ON_MASK); + reg |= SPC_DCDC_CFG_FREQ_CNTRL(config->freq); + reg |= config->stabilizeBurstFreq ? SPC_DCDC_CFG_FREQ_CNTRL_ON(1U) : SPC_DCDC_CFG_FREQ_CNTRL_ON(0U); + base->DCDC_CFG = reg; + + /* Blocking until previous DCDC burst completed. */ + while ((base->DCDC_BURST_CFG & SPC_DCDC_BURST_CFG_BURST_ACK_MASK) == 0UL) + { + } + + if ((config->sofwareBurstRequest) || (config->externalBurstRequest)) + { + /* Clear DCDC burst acknowledge flag. */ + base->DCDC_BURST_CFG |= SPC_DCDC_BURST_CFG_BURST_ACK_MASK; + } + base->DCDC_BURST_CFG |= SPC_DCDC_BURST_CFG_EXT_BURST_EN(config->externalBurstRequest); + + if (config->sofwareBurstRequest) + { + base->DCDC_BURST_CFG |= SPC_DCDC_BURST_CFG_BURST_REQ_MASK; + } +} + +/*! + * brief Set the count value of the reference clock. + * + * This function set the count value of the reference clock to control the frequency + * of dcdc refresh when dcdc is configured in Pulse Refresh mode. + * + * param base SPC peripheral base address. + * param count The count value, 16 bit width. + */ +void SPC_SetDCDCRefreshCount(SPC_Type *base, uint16_t count) +{ + uint32_t reg; + + reg = base->DCDC_BURST_CFG; + reg &= ~SPC_DCDC_BURST_CFG_PULSE_REFRESH_CNT_MASK; + reg |= SPC_DCDC_BURST_CFG_PULSE_REFRESH_CNT(count); + + base->DCDC_BURST_CFG = reg; +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +/*! + * brief Configs all settings of regulators in Active mode at a time. + * + * @note This function is used to overwrite all settings of regulators(including bandgap mode, regulators' + * drive strength and voltage level) in active mode at a time. + * + * @note Enable/disable LVDs/HVDs before invoking this function. + * + * @note This function will check input parameters based on hardware restrictions before setting registers, if input + * parameters do not satisfy hardware restrictions the specific error will be reported. + * + * + * @note Some hardware restrictions not covered, application should be aware of this and follow this hardware + * restrictions otherwise some unknown issue may occur: + * 1. If Core LDO's drive strength are set to same value in both Active mode and low power mode, + * the voltage level should also set to same value. + * 2. When switching Core LDO's drive strength from low to normal, ensure the LDO_CORE high voltage level is set + * to same level that was set prior to switching to the LDO_CORE drive strength. Otherwise, if the LVDs are + * enabled, an unexpected LVD can occur. + * + * @note If this function can not satisfy some tricky settings, please invoke other low-level functions. + * + * param base SPC peripheral base address. + * param config Pointer to spc_active_mode_regulators_config_t structure. + * retval kStatus_Success Config regulators in Active power mode successful. + * retval kStatus_SPC_BandgapModeWrong The bandgap mode setting in Active mode is wrong. + * retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * retval kStatus_SPC_CORELDOVoltageWrong The selected voltage level in active mode is not allowed. + * retval kStatus_SPC_SYSLDOOverDriveVoltageFail Fail to regulator to Over Drive Voltage. + * retval kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set driver strength to Low will be ignored. + * retval kStatus_SPC_DCDCLowDriveStrengthIgnore Set driver strength to Low will be ignored. + */ +status_t SPC_SetActiveModeRegulatorsConfig(SPC_Type *base, const spc_active_mode_regulators_config_t *config) +{ + assert(config != NULL); + + uint32_t activeModeVDValue = SPC_GetActiveModeVoltageDetectStatus(base); + + /* Check input parameters */ + /* 1. Bandgap should not be disabled if any of regulator in normal drive strength or + if any of LVDs/HVDs are enabled or if VDD CORE glitch detect are enabled. */ + if ((config->bandgapMode == kSPC_BandgapDisabled) && + ((activeModeVDValue != 0UL) +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) + || (SPC_CheckActiveModeVddCoreGlitchDetectEnabled(base) == true) +#endif /* FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + || (config->DCDCOption.DCDCDriveStrength == kSPC_DCDC_NormalDriveStrength) +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + || (config->SysLDOOption.SysLDODriveStrength == kSPC_SysLDO_NormalDriveStrength) +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ +#if (defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) + || (config->CoreLDOOption.CoreLDODriveStrength == kSPC_CoreLDO_NormalDriveStrength) +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + )) + { + return kStatus_SPC_BandgapModeWrong; + } + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + /* 2. Must disable system LDO high voltage detector before specifying SysLDO to overdrive voltage */ + if (((activeModeVDValue & SPC_ACTIVE_CFG_SYS_HVDE_MASK) != 0UL) && + (config->SysLDOOption.SysLDOVoltage == kSPC_SysLDO_OverDriveVoltage)) + { + return kStatus_SPC_SYSLDOOverDriveVoltageFail; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + /* 3. To set System LDO's drive strength to low, all LVDs and HVDs must be disabled. */ + if ((activeModeVDValue != 0UL) && (config->SysLDOOption.SysLDODriveStrength == kSPC_SysLDO_LowDriveStrength)) + { + return kStatus_SPC_SYSLDOLowDriveStrengthIgnore; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) + /* 4. To set Core LDO's drive strength to low, all LVDs and HVDs must be disabled. */ + if ((activeModeVDValue != 0UL) && (config->CoreLDOOption.CoreLDODriveStrength == kSPC_CoreLDO_LowDriveStrength)) + { + return kStatus_SPC_CORELDOLowDriveStrengthIgnore; + } +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + /* 5. Core LDO and DCDC should have same voltage level. */ + if ((uint8_t)config->DCDCOption.DCDCVoltage != (uint8_t)config->CoreLDOOption.CoreLDOVoltage) + { + return kStatus_SPC_CORELDOVoltageWrong; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + + if ((base->SC & SPC_SC_BUSY_MASK) != 0UL) + { + return kStatus_SPC_Busy; + } + + base->ACTIVE_CFG = + ((base->ACTIVE_CFG) & ~(SPC_ACTIVE_CFG_BGMODE_MASK)) | SPC_ACTIVE_CFG_BGMODE(config->bandgapMode); +#if (defined(FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) + SPC_EnableActiveModeCMPBandgapBuffer(base, config->lpBuff); +#endif /* FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + (void)SPC_SetActiveModeSystemLDORegulatorConfig(base, &config->SysLDOOption); +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + (void)SPC_SetActiveModeDCDCRegulatorConfig(base, &config->DCDCOption); +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + + (void)SPC_SetActiveModeCoreLDORegulatorConfig(base, &config->CoreLDOOption); + + return kStatus_Success; +} + +/*! + * brief Configs regulators in Low Power mode. + * + * This function provides the method to config all on-chip regulators in Low Power mode. + * + * param base SPC peripheral base address. + * param config Pointer to spc_lowpower_mode_regulators_config_t structure. + * retval #kStatus_Success Config regulators in Low power mode successful. + * retval #kStatus_SPC_BandgapModeWrong The bandgap should not be disabled based on input settings. + * retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + * retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + * retval #kStatus_SPC_CORELDOVoltageWrong Core LDO and System LDO do not have same voltage level. + */ +status_t SPC_SetLowPowerModeRegulatorsConfig(SPC_Type *base, const spc_lowpower_mode_regulators_config_t *config) +{ + assert(config != NULL); + uint32_t lpModeVDValue = SPC_GetLowPowerModeVoltageDetectStatus(base); + + /* Check input parameters */ + /* 1. Bandgap should not be disabled if any of regulator in normal drive strength or + if any of LVDs/HVDs are enabled or if VDD CORE glitch detect are enabled. */ + if ((config->bandgapMode == kSPC_BandgapDisabled) && + ((lpModeVDValue != 0UL) +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) + || (SPC_CheckLowPowerModeVddCoreGlitchDetectEnabled(base) == true) +#endif /* FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + || (config->DCDCOption.DCDCDriveStrength == kSPC_DCDC_NormalDriveStrength) +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + || (config->SysLDOOption.SysLDODriveStrength == kSPC_SysLDO_NormalDriveStrength) +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ +#if (defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) + || (config->CoreLDOOption.CoreLDODriveStrength == kSPC_CoreLDO_NormalDriveStrength) +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + )) + { + return kStatus_SPC_BandgapModeWrong; + } + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + /* 2. To set System LDO's drive strength to low, all LVDs and HVDs must be disabled. */ + if ((lpModeVDValue != 0UL) && (config->SysLDOOption.SysLDODriveStrength == kSPC_SysLDO_LowDriveStrength)) + { + return kStatus_SPC_SYSLDOLowDriveStrengthIgnore; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) + /* 3. To set Core LDO's drive strength to low, all LVDs and HVDs must be disabled. */ + if ((lpModeVDValue != 0UL) && (config->CoreLDOOption.CoreLDODriveStrength == kSPC_CoreLDO_LowDriveStrength)) + { + return kStatus_SPC_CORELDOLowDriveStrengthIgnore; + } +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + /* 5. Core LDO and DCDC should have same voltage level. */ + if ((uint8_t)config->DCDCOption.DCDCVoltage != (uint8_t)config->CoreLDOOption.CoreLDOVoltage) + { + return kStatus_SPC_CORELDOVoltageWrong; + } +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + base->LP_CFG = ((base->LP_CFG) & ~(SPC_LP_CFG_BGMODE_MASK)) | SPC_LP_CFG_BGMODE(config->bandgapMode); +#if (defined(FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) + SPC_EnableLowPowerModeCMPBandgapBuffer(base, config->lpBuff); +#endif /* FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT) + SPC_EnableLowPowerModeCoreVDDInternalVoltageScaling(base, config->CoreIVS); +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT */ + SPC_EnableLowPowerModeLowPowerIREF(base, config->lpIREF); + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + (void)SPC_SetLowPowerModeSystemLDORegulatorConfig(base, &config->SysLDOOption); +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + (void)SPC_SetLowPowerModeDCDCRegulatorConfig(base, &config->DCDCOption); +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + + (void)SPC_SetLowPowerModeCoreLDORegulatorConfig(base, &config->CoreLDOOption); + + return kStatus_Success; +} diff --git a/hw/bsp/mcx/drivers/spc/fsl_spc.h b/hw/bsp/mcx/drivers/spc/fsl_spc.h new file mode 100644 index 000000000..69a001098 --- /dev/null +++ b/hw/bsp/mcx/drivers/spc/fsl_spc.h @@ -0,0 +1,2433 @@ +/* + * Copyright 2022-2024 NXP + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +#ifndef FSL_SPC_H_ +#define FSL_SPC_H_ +#include "fsl_common.h" + +/*! + * @addtogroup mcx_spc + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @name Driver version */ +/*! @{ */ +/*! @brief SPC driver version 2.4.2. */ +#define FSL_SPC_DRIVER_VERSION (MAKE_VERSION(2, 4, 2)) +/*! @} */ + +#define SPC_EVD_CFG_REG_EVDISO_SHIFT 0UL +#define SPC_EVD_CFG_REG_EVDLPISO_SHIFT 8UL +#define SPC_EVD_CFG_REG_EVDSTAT_SHIFT 16UL + +#define SPC_EVD_CFG_REG_EVDISO(x) ((uint32_t)(x) << SPC_EVD_CFG_REG_EVDISO_SHIFT) +#define SPC_EVD_CFG_REG_EVDLPISO(x) ((uint32_t)(x) << SPC_EVD_CFG_REG_EVDLPISO_SHIFT) +#define SPC_EVD_CFG_REG_EVDSTAT(x) ((uint32_t)(x) << SPC_EVD_CFG_REG_EVDSTAT_SHIFT) + +#if (defined(SPC_GLITCH_DETECT_SC_CNT_SELECT_MASK)) +#define VDD_CORE_GLITCH_DETECT_SC GLITCH_DETECT_SC +#define SPC_VDD_CORE_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG_MASK SPC_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG_MASK +#define SPC_VDD_CORE_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG SPC_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG +#define SPC_VDD_CORE_GLITCH_DETECT_SC_LOCK_MASK SPC_GLITCH_DETECT_SC_LOCK_MASK +#define SPC_VDD_CORE_GLITCH_DETECT_SC_CNT_SELECT_MASK SPC_GLITCH_DETECT_SC_CNT_SELECT_MASK +#define SPC_VDD_CORE_GLITCH_DETECT_SC_CNT_SELECT SPC_GLITCH_DETECT_SC_CNT_SELECT +#define SPC_VDD_CORE_GLITCH_DETECT_SC_RE_MASK SPC_GLITCH_DETECT_SC_RE_MASK +#define SPC_VDD_CORE_GLITCH_DETECT_SC_RE SPC_GLITCH_DETECT_SC_RE +#define SPC_VDD_CORE_GLITCH_DETECT_SC_TIMEOUT_MASK SPC_GLITCH_DETECT_SC_TIMEOUT_MASK +#define SPC_VDD_CORE_GLITCH_DETECT_SC_TIMEOUT SPC_GLITCH_DETECT_SC_TIMEOUT +#define SPC_VDD_CORE_GLITCH_DETECT_SC_IE_MASK SPC_GLITCH_DETECT_SC_IE_MASK +#define SPC_VDD_CORE_GLITCH_DETECT_SC_IE SPC_GLITCH_DETECT_SC_IE +#endif + +/*! + * @brief SPC status enumeration. + * + * @note Some device(such as MCXA family) do not equip DCDC or System LDO, please refer to the reference manual + * to check. + */ +enum +{ + kStatus_SPC_Busy = MAKE_STATUS(kStatusGroup_SPC, 0U), /*!< The SPC instance is busy executing any + type of power mode transition. */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + kStatus_SPC_DCDCLowDriveStrengthIgnore = MAKE_STATUS(kStatusGroup_SPC, 1U), /*!< DCDC Low drive strength setting be + ignored for LVD/HVD enabled. */ + kStatus_SPC_DCDCPulseRefreshModeIgnore = MAKE_STATUS(kStatusGroup_SPC, 2U), /*!< DCDC Pulse Refresh Mode drive + strength setting be ignored for LVD/HVD enabled. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + kStatus_SPC_SYSLDOOverDriveVoltageFail = MAKE_STATUS(kStatusGroup_SPC, 3U), /*!< SYS LDO regulate to Over drive + voltage failed for SYS LDO HVD must be disabled. */ + kStatus_SPC_SYSLDOLowDriveStrengthIgnore = MAKE_STATUS(kStatusGroup_SPC, 4U), /*!< SYS LDO Low driver strength + setting be ignored for LDO LVD/HVD enabled. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + kStatus_SPC_CORELDOLowDriveStrengthIgnore = MAKE_STATUS(kStatusGroup_SPC, 5U), /*!< CORE LDO Low driver strength + setting be ignored for LDO LVD/HVD enabled. */ + kStatus_SPC_CORELDOVoltageWrong = MAKE_STATUS(kStatusGroup_SPC, 7U), /*!< Core LDO voltage is wrong. */ + kStatus_SPC_CORELDOVoltageSetFail = MAKE_STATUS(kStatusGroup_SPC, 8U), /*!< Core LDO voltage set fail. */ + kStatus_SPC_BandgapModeWrong = MAKE_STATUS(kStatusGroup_SPC, 6U), /*!< Selected Bandgap Mode wrong. */ +}; + +/*! + * @brief Voltage Detect Status Flags. + */ +enum _spc_voltage_detect_flags +{ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) && FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) + kSPC_IOVDDHighVoltageDetectFlag = SPC_VD_STAT_IOVDD_HVDF_MASK, /*!< IO VDD High-Voltage detect flag. */ + kSPC_IOVDDLowVoltageDetectFlag = SPC_VD_STAT_IOVDD_LVDF_MASK, /*!< IO VDD Low-Voltage detect flag. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD */ + kSPC_SystemVDDHighVoltageDetectFlag = SPC_VD_STAT_SYSVDD_HVDF_MASK, /*!< System VDD High-Voltage detect flag. */ + kSPC_SystemVDDLowVoltageDetectFlag = SPC_VD_STAT_SYSVDD_LVDF_MASK, /*!< System VDD Low-Voltage detect flag. */ +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) + kSPC_CoreVDDHighVoltageDetectFlag = SPC_VD_STAT_COREVDD_HVDF_MASK, /*!< Core VDD High-Voltage detect flag. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD */ + kSPC_CoreVDDLowVoltageDetectFlag = SPC_VD_STAT_COREVDD_LVDF_MASK, /*!< Core VDD Low-Voltage detect flag. */ +}; + +/*! + * @brief SPC power domain isolation status. + * @note Some devices(such as MCXA family) do not contain WAKE Power Domain, please refer to the reference manual to + * check. + */ +enum _spc_power_domains +{ + kSPC_MAINPowerDomainRetain = 1UL << 16U, /*!< Peripherals and IO pads retain in MAIN Power Domain. */ + kSPC_WAKEPowerDomainRetain = 1UL << 17U, /*!< Peripherals and IO pads retain in WAKE Power Domain. */ +}; + +/*! + * @brief The enumeration of all analog module that can be controlled by SPC in active or low-power modes. + * @anchor spc_analog_module_control + */ +enum _spc_analog_module_control +{ + kSPC_controlVref = 1UL << 0UL, /*!< Enable/disable VREF in active or low-power modes. */ + kSPC_controlUsb3vDet = 1UL << 1UL, /*!< Enable/disable USB3V_Det in active or low-power modes. */ + kSPC_controlDac0 = 1UL << 4UL, /*!< Enable/disable DAC0 in active or low-power modes. */ + kSPC_controlDac1 = 1UL << 5UL, /*!< Enable/disable DAC1 in active or low-power modes. */ + kSPC_controlDac2 = 1UL << 6UL, /*!< Enable/disable DAC2 in active or low-power modes. */ + kSPC_controlOpamp0 = 1UL << 8UL, /*!< Enable/disable OPAMP0 in active or low-power modes. */ + kSPC_controlOpamp1 = 1UL << 9UL, /*!< Enable/disable OPAMP1 in active or low-power modes. */ + kSPC_controlOpamp2 = 1UL << 10UL, /*!< Enable/disable OPAMP2 in active or low-power modes. */ + kSPC_controlCmp0 = 1UL << 16UL, /*!< Enable/disable CMP0 in active or low-power modes. */ + kSPC_controlCmp1 = 1UL << 17UL, /*!< Enable/disable CMP1 in active or low-power modes. */ + kSPC_controlCmp2 = 1UL << 18UL, /*!< Enable/disable CMP2 in active or low-power modes. */ + kSPC_controlCmp0Dac = 1UL << 20UL, /*!< Enable/disable CMP0_DAC in active or low-power modes. */ + kSPC_controlCmp1Dac = 1UL << 21UL, /*!< Enable/disable CMP1_DAC in active or low-power modes. */ + kSPC_controlCmp2Dac = 1UL << 22UL, /*!< Enable/disable CMP2_DAC in active or low-power modes. */ + kSPC_controlAllModules = 0x770773UL, /*!< Enable/disable all modules in active or low-power modes. */ +}; + +/*! + * @brief The enumeration of spc power domain, the connected power domain is chip specific, please refer to chip's RM + * for details. + */ +typedef enum _spc_power_domain_id +{ + kSPC_PowerDomain0 = 0U, /*!< Power domain0, the connected power domain is chip specific. */ + kSPC_PowerDomain1 = 1U, /*!< Power domain1, the connected power domain is chip specific. */ +} spc_power_domain_id_t; + +/*! + * @brief The enumeration of Power domain's low power mode. + */ +typedef enum _spc_power_domain_low_power_mode +{ + kSPC_SleepWithSYSClockRunning = 0U, /*!< Power domain request SLEEP mode with SYS clock running. */ + kSPC_DeepSleepWithSysClockOff = 1U, /*!< Power domain request deep sleep mode with system clock off. */ + kSPC_PowerDownWithSysClockOff = 2U, /*!< Power domain request power down mode with system clock off. */ + kSPC_DeepPowerDownWithSysClockOff = 4U, /*!< Power domain request deep power down mode with system clock off. */ +} spc_power_domain_low_power_mode_t; + +/*! + * @brief SPC low power request output pin polarity. + */ +typedef enum _spc_lowPower_request_pin_polarity +{ + kSPC_HighTruePolarity = 0x0U, /*!< Control the High Polarity of the Low Power Request Pin. */ + kSPC_LowTruePolarity = 0x1U, /*!< Control the Low Polarity of the Low Power Request Pin. */ +} spc_lowpower_request_pin_polarity_t; + +/*! + * @brief SPC low power request output override. + */ +typedef enum _spc_lowPower_request_output_override +{ + kSPC_LowPowerRequestNotForced = 0x0U, /*!< Not Forced. */ + kSPC_LowPowerRequestReserved = 0x1U, /*!< Reserved. */ + kSPC_LowPowerRequestForcedLow = 0x2U, /*!< Forced Low (Ignore LowPower request output polarity setting.) */ + kSPC_LowPowerRequestForcedHigh = 0x3U, /*!< Forced High (Ignore LowPower request output polarity setting.) */ +} spc_lowpower_request_output_override_t; + +/*! + * @brief SPC Bandgap mode enumeration in Active mode or Low Power mode. + */ +typedef enum _spc_bandgap_mode +{ + kSPC_BandgapDisabled = 0x0U, /*!< Bandgap disabled. */ + kSPC_BandgapEnabledBufferDisabled = 0x1U, /*!< Bandgap enabled with Buffer disabled. */ + kSPC_BandgapEnabledBufferEnabled = 0x2U, /*!< Bandgap enabled with Buffer enabled. */ + kSPC_BandgapReserved = 0x3U, /*!< Reserved. */ +} spc_bandgap_mode_t; + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) +/*! + * @brief DCDC regulator voltage level enumeration in Active mode or Low Power Mode. + * + * @note #kSPC_DCDC_RetentionVoltage not supported for all power modes. + */ +typedef enum _spc_dcdc_voltage_level +{ + kSPC_DCDC_RetentionVoltage = 0x0U, /*!< DCDC_CORE Regulator regulate to retention + Voltage(Only supportedin low power modes) */ + kSPC_DCDC_MidVoltage = 0x1U, /*!< DCDC_CORE Regulator regulate to Mid Voltage(1.0V). */ + kSPC_DCDC_NormalVoltage = 0x2U, /*!< DCDC_CORE Regulator regulate to Normal Voltage(1.1V). */ + kSPC_DCDC_OverdriveVoltage = 0x3U, /*!< DCDC_CORE Regulator regulate to Safe-Mode Voltage(1.2V). */ +} spc_dcdc_voltage_level_t; + +/*! + * @brief DCDC regulator Drive Strength enumeration in Active mode or Low Power Mode. + * + * @note Different drive strength differ in these DCDC characteristics: + * Maximum load current + * Quiescent current + * Transient response. + */ +typedef enum _spc_dcdc_drive_strength +{ + kSPC_DCDC_PulseRefreshMode = 0x0U, /*!< DCDC_CORE Regulator Drive Strength set to Pulse Refresh Mode, + * This enum member is only useful for Low Power Mode config, please + * note that pulse refresh mode is invalid in SLEEP mode. + */ + kSPC_DCDC_LowDriveStrength = 0x1U, /*!< DCDC_CORE regulator Drive Strength set to low. */ + kSPC_DCDC_NormalDriveStrength = 0x2U, /*!< DCDC_CORE regulator Drive Strength set to Normal. */ +} spc_dcdc_drive_strength_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) +/*! + * @brief SYS LDO regulator voltage level enumeration in Active mode. + */ +typedef enum _spc_sys_ldo_voltage_level +{ + kSPC_SysLDO_NormalVoltage = 0x0U, /*!< SYS LDO VDD Regulator regulate to Normal Voltage(1.8V). */ + kSPC_SysLDO_OverDriveVoltage = 0x1U, /*!< SYS LDO VDD Regulator regulate to Over Drive Voltage(2.5V). */ +} spc_sys_ldo_voltage_level_t; + +/*! + * @brief SYS LDO regulator Drive Strength enumeration in Active mode or Low Power mode. + */ +typedef enum _spc_sys_ldo_drive_strength +{ + kSPC_SysLDO_LowDriveStrength = 0x0U, /*!< SYS LDO VDD regulator Drive Strength set to low. */ + kSPC_SysLDO_NormalDriveStrength = 0x1U, /*!< SYS LDO VDD regulator Drive Strength set to Normal. */ +} spc_sys_ldo_drive_strength_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +/*! + * @brief Core LDO regulator voltage level enumeration in Active mode or Low Power mode. + */ +typedef enum _spc_core_ldo_voltage_level +{ + kSPC_CoreLDO_UnderDriveVoltage = 0x0U, /*!< @deprecated, to align with description of latest RM, please use + #kSPC_Core_LDO_RetentionVoltage as instead. */ + kSPC_Core_LDO_RetentionVoltage = 0x0U, /*!< Core LDO VDD regulator regulate to retention voltage, please note that + only useful in low power modes and not all devices support this options + please refer to devices' RM for details. */ + kSPC_CoreLDO_MidDriveVoltage = 0x1U, /*!< Core LDO VDD regulator regulate to Mid Drive Voltage. */ + kSPC_CoreLDO_NormalVoltage = 0x2U, /*!< Core LDO VDD regulator regulate to Normal Voltage. */ + kSPC_CoreLDO_OverDriveVoltage = 0x3U, /*!< Core LDO VDD regulator regulate to overdrive Voltage. */ +} spc_core_ldo_voltage_level_t; + +/*! + * @brief CORE LDO VDD regulator Drive Strength enumeration in Low Power mode. + */ +typedef enum _spc_core_ldo_drive_strength +{ + kSPC_CoreLDO_LowDriveStrength = 0x0U, /*!< Core LDO VDD regulator Drive Strength set to low. */ + kSPC_CoreLDO_NormalDriveStrength = 0x1U, /*!< Core LDO VDD regulator Drive Strength set to Normal. */ +} spc_core_ldo_drive_strength_t; + +/*! + * @brief IO VDD Low-Voltage Level Select. + */ +typedef enum _spc_low_voltage_level_select +{ + kSPC_LowVoltageNormalLevel = 0x0U, /*!< @deprecated, please use kSPC_LowVoltageHighRange as instead. */ + kSPC_LowVoltageSafeLevel = 0x1U, /*!< @deprecated, please use kSPC_LowVoltageLowRange as instead. */ + + kSPC_LowVoltageHighRange = 0x0U, /*!< High range LVD threshold. */ + kSPC_LowVoltageLowRange = 0x1U, /*!< Low range LVD threshold. */ +} spc_low_voltage_level_select_t; + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) +/*! + * @brief Used to select output of 4-bit ripple counter is used to monitor a glitch on VDD core. + */ +typedef enum _spc_vdd_core_glitch_ripple_counter_select +{ + kSPC_selectBit0Of4bitRippleCounter = 0x0U, /*!< Select bit-0 of 4-bit Ripple Counter + to detect glitch on VDD Core. */ + kSPC_selectBit1Of4bitRippleCounter = 0x1U, /*!< Select bit-1 of 4-bit Ripple Counter + to detect glitch on VDD Core. */ + kSPC_selectBit2Of4bitRippleCounter = 0x2U, /*!< Select bit-2 of 4-bit Ripple Counter + to detect glitch on VDD Core. */ + kSPC_selectBit3Of4bitRippleCounter = 0x3U, /*!< Select bit-3 of 4-bit Ripple Counter + to detect glitch on VDD Core. */ +} spc_vdd_core_glitch_ripple_counter_select_t; +#endif + +/*! + * @brief The list of the operating voltage for the SRAM's read/write timing margin. + */ +typedef enum _spc_sram_operate_voltage +{ + kSPC_sramOperateAt1P0V = 0x1U, /*!< SRAM configured for 1.0V operation. */ + kSPC_sramOperateAt1P1V = 0x2U, /*!< SRAM configured for 1.1V operation. */ + kSPC_sramOperateAt1P2V = 0x3U, /*!< SRAM configured for 1.2V operation. */ +} spc_sram_operate_voltage_t; + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) +/*! + * @brief The configuration of VDD Core glitch detector. + */ +typedef struct _spc_vdd_core_glitch_detector_config +{ + spc_vdd_core_glitch_ripple_counter_select_t rippleCounterSelect; /*!< Used to set ripple counter. */ + uint8_t resetTimeoutValue; /*!< The timeout value used to reset glitch detect/compare logic after an initial + glitch is detected. */ + bool enableReset; /*!< Used to enable/disable POR/LVD reset that caused by CORE VDD glitch detect error. */ + bool enableInterrupt; /*!< Used to enable/disable hardware interrupt if CORE VDD glitch detect error. */ +} spc_vdd_core_glitch_detector_config_t; +#endif + +typedef struct _spc_sram_voltage_config +{ + spc_sram_operate_voltage_t operateVoltage; /*!< Specifies the operating voltage for the SRAM's + read/write timing margin. */ + bool requestVoltageUpdate; /*!< Used to control whether request an SRAM trim value change. */ +} spc_sram_voltage_config_t; + +/*! + * @brief Low Power Request output pin configuration. + */ +typedef struct _spc_lowpower_request_config +{ + bool enable; /*!< Low Power Request Output enable. */ + spc_lowpower_request_pin_polarity_t polarity; /*!< Low Power Request Output pin polarity select. */ + spc_lowpower_request_output_override_t override; /*!< Low Power Request Output Override. */ +} spc_lowpower_request_config_t; + +/*! + * @brief Core LDO regulator options in Active mode. + */ +typedef struct _spc_active_mode_core_ldo_option +{ + spc_core_ldo_voltage_level_t CoreLDOVoltage; /*!< Core LDO Regulator Voltage Level selection in Active mode. */ +#if defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS + spc_core_ldo_drive_strength_t CoreLDODriveStrength; /*!< Core LDO Regulator Drive Strength + selection in Active mode */ +#endif /* FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ +} spc_active_mode_core_ldo_option_t; + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) +/*! + * @brief System LDO regulator options in Active mode. + */ +typedef struct _spc_active_mode_sys_ldo_option +{ + spc_sys_ldo_voltage_level_t SysLDOVoltage; /*!< System LDO Regulator Voltage Level selection in Active mode. */ + spc_sys_ldo_drive_strength_t SysLDODriveStrength; /*!< System LDO Regulator Drive Strength + selection in Active mode. */ +} spc_active_mode_sys_ldo_option_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) +/*! + * @brief DCDC regulator options in Active mode. + */ +typedef struct _spc_active_mode_dcdc_option +{ + spc_dcdc_voltage_level_t DCDCVoltage; /*!< DCDC Regulator Voltage Level selection in Active mode. */ + spc_dcdc_drive_strength_t DCDCDriveStrength; /*!< DCDC_CORE Regulator Drive Strength selection in Active mode. */ +} spc_active_mode_dcdc_option_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +/*! + * @brief Core LDO regulator options in Low Power mode. + */ +typedef struct _spc_lowpower_mode_core_ldo_option +{ + spc_core_ldo_voltage_level_t CoreLDOVoltage; /*!< Core LDO Regulator Voltage Level selection in Low Power mode. */ + spc_core_ldo_drive_strength_t CoreLDODriveStrength; /*!< Core LDO Regulator Drive Strength + selection in Low Power mode */ +} spc_lowpower_mode_core_ldo_option_t; + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) +/*! + * @brief System LDO regulator options in Low Power mode. + */ +typedef struct _spc_lowpower_mode_sys_ldo_option +{ + spc_sys_ldo_drive_strength_t SysLDODriveStrength; /*!< System LDO Regulator Drive Strength + selection in Low Power mode. */ +} spc_lowpower_mode_sys_ldo_option_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) +/*! + * @brief DCDC regulator options in Low Power mode. + */ +typedef struct _spc_lowpower_mode_dcdc_option +{ + spc_dcdc_voltage_level_t DCDCVoltage; /*!< DCDC Regulator Voltage Level selection in Low Power mode. */ + spc_dcdc_drive_strength_t DCDCDriveStrength; /*!< DCDC_CORE Regulator Drive Strength selection in Low Power mode. */ +} spc_lowpower_mode_dcdc_option_t; + +/*! + * @brief DCDC Burst configuration. + * @deprecated Do not recommend to use this structure. + */ +typedef struct _spc_dcdc_burst_config +{ + bool sofwareBurstRequest; /*!< Enable/Disable DCDC Software Burst Request. */ + bool externalBurstRequest; /*!< Enable/Disable DCDC External Burst Request. */ + bool stabilizeBurstFreq; /*!< Enable/Disable DCDC frequency stabilization. */ + uint8_t freq; /*!< The frequency of the current burst. */ +} spc_dcdc_burst_config_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +/*! + * @brief CORE/SYS/IO VDD Voltage Detect options. + */ +typedef struct _spc_voltage_detect_option +{ + bool HVDInterruptEnable; /*!< CORE/SYS/IO VDD High Voltage Detect interrupt enable. */ + bool HVDResetEnable; /*!< CORE/SYS/IO VDD High Voltage Detect reset enable. */ + bool LVDInterruptEnable; /*!< CORE/SYS/IO VDD Low Voltage Detect interrupt enable. */ + bool LVDResetEnable; /*!< CORE/SYS/IO VDD Low Voltage Detect reset enable. */ +} spc_voltage_detect_option_t; + +/*! + * @brief Core Voltage Detect configuration. + */ +typedef struct _spc_core_voltage_detect_config +{ + spc_voltage_detect_option_t option; /*!< Core VDD Voltage Detect option. */ +} spc_core_voltage_detect_config_t; + +/*! + * @brief System Voltage Detect Configuration. + */ +typedef struct _spc_system_voltage_detect_config +{ + spc_voltage_detect_option_t option; /*!< System VDD Voltage Detect option. */ + spc_low_voltage_level_select_t level; /*!< @deprecated, reserved for all devices, will removed in next release. */ +} spc_system_voltage_detect_config_t; + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) && FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) +/*! + * @brief IO Voltage Detect Configuration. + */ +typedef struct _spc_io_voltage_detect_config +{ + spc_voltage_detect_option_t option; /*!< IO VDD Voltage Detect option. */ + spc_low_voltage_level_select_t level; /*!< IO VDD Low-voltage level selection. */ +} spc_io_voltage_detect_config_t; +#endif /* FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD */ + +/*! + * @brief Active mode configuration. + */ +typedef struct _spc_active_mode_regulators_config +{ + spc_bandgap_mode_t bandgapMode; /*!< Specify bandgap mode in active mode. */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) + bool lpBuff; /*!< Enable/disable CMP bandgap buffer. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + spc_active_mode_dcdc_option_t DCDCOption; /*!< Specify DCDC configurations in active mode. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + spc_active_mode_sys_ldo_option_t SysLDOOption; /*!< Specify System LDO configurations in active mode. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + + spc_active_mode_core_ldo_option_t CoreLDOOption; /*!< Specify Core LDO configurations in active mode. */ +} spc_active_mode_regulators_config_t; + +/*! + * @brief Low Power Mode configuration. + */ +typedef struct _spc_lowpower_mode_regulators_config +{ + bool lpIREF; /*!< Enable/disable low power IREF in low power modes. */ + spc_bandgap_mode_t bandgapMode; /*!< Specify bandgap mode in low power modes. */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) + bool lpBuff; /*!< Enable/disable CMP bandgap buffer in low power modes. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT) + bool CoreIVS; /*!< Enable/disable CORE VDD internal voltage scaling. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) + spc_lowpower_mode_dcdc_option_t DCDCOption; /*!< Specify DCDC configurations in low power modes. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) + spc_lowpower_mode_sys_ldo_option_t SysLDOOption; /*!< Specify system LDO configurations in low power modes. */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + + spc_lowpower_mode_core_ldo_option_t CoreLDOOption; /*!< Specify core LDO configurations in low power modes. */ +} spc_lowpower_mode_regulators_config_t; + +/******************************************************************************* + * API + ******************************************************************************/ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus */ + +/*! + * @name SPC Status + * @{ + */ +/*! + * @brief Gets Isolation status for each power domains. + * + * This function gets the status which indicates whether certain + * peripheral and the IO pads are in a latched state as a result + * of having been in POWERDOWN mode. + * + * @param base SPC peripheral base address. + * @return Current isolation status for each power domains. See @ref _spc_power_domains for details. + */ +uint8_t SPC_GetPeriphIOIsolationStatus(SPC_Type *base); + +/*! + * @brief Clears peripherals and I/O pads isolation flags for each power domains. + * + * This function clears peripherals and I/O pads isolation flags for each power domains. + * After recovering from the POWERDOWN mode, user must invoke this function to release the + * I/O pads and certain peripherals to their normal run mode state. Before invoking this + * function, user must restore chip configuration in particular pin configuration for enabled + * WUU wakeup pins. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_ClearPeriphIOIsolationFlag(SPC_Type *base) +{ + base->SC |= SPC_SC_ISO_CLR_MASK; +} + +/*! + * @brief Gets SPC busy status flag. + * + * This function gets SPC busy status flag. When SPC executing any type of power mode + * transition in ACTIVE mode or any of the SOC low power mode, the SPC busy status flag is set + * and this function returns true. When changing CORE LDO voltage level and DCDC voltage level + * in ACTIVE mode, the SPC busy status flag is set and this function return true. + * + * @param base SPC peripheral base address. + * @return Ack busy flag. + * true - SPC is busy. + * false - SPC is not busy. + */ +static inline bool SPC_GetBusyStatusFlag(SPC_Type *base) +{ + return ((base->SC & SPC_SC_BUSY_MASK) != 0UL); +} + +/*! + * @brief Checks system low power request. + * + * @note Only when all power domains request low power mode entry, the result of this function is true. That means when + * all power domains request low power mode entry, the SPC regulators will be controlled by LP_CFG register. + * + * @param base SPC peripheral base address. + * @return The system low power request check result. + * - \b true All power domains have requested low power mode and SPC has entered a low power state and power mode + * configuration are based on the LP_CFG configuration register. + * - \b false SPC in active mode and ACTIVE_CFG register control system power supply. + */ +static inline bool SPC_CheckLowPowerReqest(SPC_Type *base) +{ + return ((base->SC & SPC_SC_SPC_LP_REQ_MASK) == SPC_SC_SPC_LP_REQ_MASK); +} + +/*! + * @brief Clears system low power request, set SPC in active mode. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_ClearLowPowerRequest(SPC_Type *base) +{ + base->SC |= SPC_SC_SPC_LP_REQ_MASK; +} + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SWITCH_STATE_BIT) && FSL_FEATURE_MCX_SPC_HAS_SWITCH_STATE_BIT) +/*! + * @brief Checks whether the power switch is on. + * + * @param base SPC peripheral base address. + * + * @retval true The power switch is on. + * @retval false The power switch is off. + */ +static inline bool SPC_CheckSwitchState(SPC_Type *base) +{ + return ((base->SC & SPC_SC_SWITCH_STATE_MASK) != 0UL); +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_SWITCH_STATE_BIT */ + +/*! + * @brief Gets selected power domain's requested low power mode. + * + * @param base SPC peripheral base address. + * @param powerDomainId Power Domain Id, please refer to @ref spc_power_domain_id_t. + * + * @return The selected power domain's requested low power mode, please refer to @ref spc_power_domain_low_power_mode_t. + */ +spc_power_domain_low_power_mode_t SPC_GetPowerDomainLowPowerMode(SPC_Type *base, spc_power_domain_id_t powerDomainId); + +/*! + * @brief Checks power domain's low power request. + * + * @param base SPC peripheral base address. + * @param powerDomainId Power Domain Id, please refer to @ref spc_power_domain_id_t. + * @return The result of power domain's low power request. + * - \b true The selected power domain requests low power mode entry. + * - \b false The selected power domain does not request low power mode entry. + */ +static inline bool SPC_CheckPowerDomainLowPowerRequest(SPC_Type *base, spc_power_domain_id_t powerDomainId) +{ + assert((uint8_t)powerDomainId < SPC_PD_STATUS_COUNT); + return ((base->PD_STATUS[(uint8_t)powerDomainId] & SPC_PD_STATUS_PWR_REQ_STATUS_MASK) == + SPC_PD_STATUS_PWR_REQ_STATUS_MASK); +} + +/*! + * @brief Clears selected power domain's low power request flag. + * + * @param base SPC peripheral base address. + * @param powerDomainId Power Domain Id, please refer to @ref spc_power_domain_id_t. + */ +static inline void SPC_ClearPowerDomainLowPowerRequestFlag(SPC_Type *base, spc_power_domain_id_t powerDomainId) +{ + assert((uint8_t)powerDomainId < SPC_PD_STATUS_COUNT); + base->PD_STATUS[(uint8_t)powerDomainId] |= SPC_PD_STATUS_PD_LP_REQ_MASK; +} + +/*! @} */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SRAMRETLDO_REG) && FSL_FEATURE_MCX_SPC_HAS_SRAMRETLDO_REG) +/*! + * @name SRAM Retention LDO Control APIs + * @{ + */ + +/*! + * @brief Trims SRAM retention regulator reference voltage, trim step is 12 mV, range is around 0.48V to 0.85V. + * + * @param base SPC peripheral base address. + * @param trimValue Reference voltage trim value. + */ +static inline void SPC_TrimSRAMLdoRefVoltage(SPC_Type *base, uint8_t trimValue) +{ + base->SRAMRETLDO_REFTRIM = + ((base->SRAMRETLDO_REFTRIM & ~SPC_SRAMRETLDO_REFTRIM_REFTRIM_MASK) | SPC_SRAMRETLDO_REFTRIM_REFTRIM(trimValue)); +} + +/*! + * @brief Enables/disables SRAM retention LDO. + * + * @param base SPC peripheral base address. + * @param enable Used to enable/disable SRAM LDO : + * - \b true Enable SRAM LDO; + * - \b false Disable SRAM LDO. + */ +static inline void SPC_EnableSRAMLdo(SPC_Type *base, bool enable) +{ + if (enable) + { + base->SRAMRETLDO_CNTRL |= SPC_SRAMRETLDO_CNTRL_SRAMLDO_ON_MASK; + } + else + { + base->SRAMRETLDO_CNTRL &= ~SPC_SRAMRETLDO_CNTRL_SRAMLDO_ON_MASK; + } +} + +/*! + * @brief + * + * @todo Need to check. + * + * @param base SPC peripheral base address. + * @param mask The OR'ed value of SRAM Array. + */ +static inline void SPC_RetainSRAMArray(SPC_Type *base, uint8_t mask) +{ + base->SRAMRETLDO_CNTRL |= SPC_SRAMRETLDO_CNTRL_SRAM_RET_EN(mask); +} + +/*! @} */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_SRAMRETLDO_REG */ + +/*! + * @name Low Power Request configuration + * @{ + */ +/*! + * @brief Configs Low power request output pin. + * + * This function config the low power request output pin + * + * @param base SPC peripheral base address. + * @param config Pointer the @ref spc_lowpower_request_config_t structure. + */ +void SPC_SetLowPowerRequestConfig(SPC_Type *base, const spc_lowpower_request_config_t *config); + +/*! @} */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_CFG_REG) && FSL_FEATURE_MCX_SPC_HAS_CFG_REG) +/*! + * @name Integrated Power Switch Control APIs + * @{ + */ + +/*! + * @brief Enables/disables the integrated power switch manually. + * + * @param base SPC peripheral base address. + * @param enable Used to enable/disable the integrated power switch: + * - \b true Enable the integrated power switch; + * - \b false Disable the integrated power switch. + */ +static inline void SPC_EnableIntegratedPowerSwitchManually(SPC_Type *base, bool enable) +{ + if (enable) + { + base->CFG |= (SPC_CFG_INTG_PWSWTCH_SLEEP_ACTIVE_EN_MASK | SPC_CFG_INTG_PWSWTCH_WKUP_ACTIVE_EN_MASK); + } + else + { + base->CFG &= ~(SPC_CFG_INTG_PWSWTCH_SLEEP_ACTIVE_EN_MASK | SPC_CFG_INTG_PWSWTCH_WKUP_ACTIVE_EN_MASK); + } +} + +/*! + * @brief Enables/disables the integrated power switch automatically. + * + * To gate the integrated power switch when chip enter low power modes, and ungate the switch after wake-up from low + * power modes: + * @code + * SPC_EnableIntegratedPowerSwitchAutomatically(SPC, true, true); + * @endcode + * + * @param base SPC peripheral base address. + * @param sleepGate Enable the integrated power switch when chip enter low power modes: + * - \b true SPC asserts an output pin at low-power entry to power-gate the switch; + * - \b false SPC does not assert an output pin at low-power entry to power-gate the switch. + * @param wakeupUngate Enables the switch after wake-up from low power modes: + * - \b true SPC asserts an output pin at low-power exit to power-ungate the switch; + * - \b false SPC does not assert an output pin at low-power exit to power-ungate the switch. + */ +static inline void SPC_EnableIntegratedPowerSwitchAutomatically(SPC_Type *base, bool sleepGate, bool wakeupUngate) +{ + uint32_t tmp32 = ((base->CFG) & ~(SPC_CFG_INTG_PWSWTCH_SLEEP_EN_MASK | SPC_CFG_INTG_PWSWTCH_WKUP_EN_MASK)); + + tmp32 |= SPC_CFG_INTG_PWSWTCH_SLEEP_EN(sleepGate) | SPC_CFG_INTG_PWSWTCH_WKUP_EN(wakeupUngate); + + base->CFG = tmp32; +} + +/*! @} */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_CFG_REG */ + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) +/*! + * @name VDD Core Glitch Detector Control APIs + * @{ + */ + +/*! + * @brief Configures VDD Core Glitch detector, including ripple counter selection, timeout value and so on. + * + * @param base SPC peripheral base address. + * @param config Pointer to the structure in type of @ref spc_vdd_core_glitch_detector_config_t. + */ +void SPC_ConfigVddCoreGlitchDetector(SPC_Type *base, const spc_vdd_core_glitch_detector_config_t *config); + +/*! + * @brief Checks selected 4-bit glitch ripple counter's output. + * + * @param base SPC peripheral base address. + * @param rippleCounter The ripple counter to check, please refer to @ref spc_vdd_core_glitch_ripple_counter_select_t. + * + * @retval true The selected ripple counter output is 1, will generate interrupt or reset based on settings. + * @retval false The selected ripple counter output is 0. + */ + +static inline bool SPC_CheckGlitchRippleCounterOutput(SPC_Type *base, + spc_vdd_core_glitch_ripple_counter_select_t rippleCounter) +{ + return ((base->VDD_CORE_GLITCH_DETECT_SC & SPC_VDD_CORE_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG_MASK) == + SPC_VDD_CORE_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG(1UL << (uint32_t)(rippleCounter))); +} + +/*! + * @brief Clears output of selected glitch ripple counter. + * + * @param base SPC peripheral base address. + * @param rippleCounter The ripple counter to check, please refer to @ref spc_vdd_core_glitch_ripple_counter_select_t. + */ +static inline void SPC_ClearGlitchRippleCounterOutput(SPC_Type *base, + spc_vdd_core_glitch_ripple_counter_select_t rippleCounter) +{ + base->VDD_CORE_GLITCH_DETECT_SC |= + SPC_VDD_CORE_GLITCH_DETECT_SC_GLITCH_DETECT_FLAG(1UL << (uint32_t)(rippleCounter)); +} + +/*! + * @brief After invoking this function, writes to SPC_VDD_CORE_GLITCH_DETECT_SC[RE] register are ignored. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_LockVddCoreVoltageGlitchDetectResetControl(SPC_Type *base) +{ + base->VDD_CORE_GLITCH_DETECT_SC |= SPC_VDD_CORE_GLITCH_DETECT_SC_LOCK_MASK; +} + +/*! + * @brief After invoking this function, writes to SPC_VDD_CORE_GLITCH_DETECT_SC[RE] register are allowed. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_UnlockVddCoreVoltageGlitchDetectResetControl(SPC_Type *base) +{ + base->VDD_CORE_GLITCH_DETECT_SC &= ~SPC_VDD_CORE_GLITCH_DETECT_SC_LOCK_MASK; +} + +/*! + * @brief Checks if SPC_VDD_CORE_GLITCH_DETECT_SC[RE] register is writable. + * + * @param base SPC peripheral base address. + * + * @retval true SPC_VDD_CORE_GLITCH_DETECT_SC[RE] register is writable. + * @retval false SPC_VDD_CORE_GLITCH_DETECT_SC[RE] register is not writable. + */ +static inline bool SPC_CheckVddCoreVoltageGlitchResetControlState(SPC_Type *base) +{ + return ((base->VDD_CORE_GLITCH_DETECT_SC & SPC_VDD_CORE_GLITCH_DETECT_SC_LOCK_MASK) != 0UL); +} + +/*! @} */ +#endif + +/*! + * @name SRAM Control APIs + * @{ + */ + +/*! + * @brief Set SRAM operate voltage. + * + * @param base SPC peripheral base address. + * @param config The pointer to @ref spc_sram_voltage_config_t, specifies the configuration of sram voltage. + */ +void SPC_SetSRAMOperateVoltage(SPC_Type *base, const spc_sram_voltage_config_t *config); + +/*! @} */ + +/*! + * @name Active Mode configuration + * @{ + */ + +/*! + * @brief Gets the Bandgap mode in Active mode. + * + * @param base SPC peripheral base address. + * @return Bandgap mode in the type of @ref spc_bandgap_mode_t enumeration. + */ +static inline spc_bandgap_mode_t SPC_GetActiveModeBandgapMode(SPC_Type *base) +{ + return (spc_bandgap_mode_t)(uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_BGMODE_MASK) >> + SPC_ACTIVE_CFG_BGMODE_SHIFT); +} + +/*! + * @brief Gets all voltage detectors status in Active mode. + * + * @param base SPC peripheral base address. + * @return All voltage detectors status in Active mode. + */ +static inline uint32_t SPC_GetActiveModeVoltageDetectStatus(SPC_Type *base) +{ + uint32_t state; + state = base->ACTIVE_CFG & + ( +#if (defined(FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) && FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) + SPC_ACTIVE_CFG_IO_HVDE_MASK | SPC_ACTIVE_CFG_IO_LVDE_MASK | + +#endif /* FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD */ + SPC_ACTIVE_CFG_SYS_HVDE_MASK | SPC_ACTIVE_CFG_SYS_LVDE_MASK | SPC_ACTIVE_CFG_CORE_LVDE_MASK + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) + | SPC_ACTIVE_CFG_CORE_HVDE_MASK + +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD */ + ); + return state; +} + +/*! + * @brief Configs Bandgap mode in Active mode. + * + * @note To disable bandgap in Active mode: + * 1. Disable all LVD's and HVD's in active mode; + * 2. Disable Glitch detect; + * 3. Configure LDO's and DCDC to low drive strength in active mode; + * 4. Invoke this function to disable bandgap in active mode; + * otherwise the error status will be reported. + * + * @note Some other system resources(such as PLL, CMP) require bandgap to be enabled, to disable bandgap please + * take care of other system resources. + * + * @param base SPC peripheral base address. + * @param mode The Bandgap mode be selected. + * + * @retval #kStatus_SPC_BandgapModeWrong The Bandgap can not be disabled in active mode. + * @retval #kStatus_Success Config Bandgap mode in Active power mode successful. + */ +status_t SPC_SetActiveModeBandgapModeConfig(SPC_Type *base, spc_bandgap_mode_t mode); + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) +/*! + * @brief Enables/Disable the CMP Bandgap Buffer in Active mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable CMP Bandgap buffer. + * true - Enable Buffer Stored Reference voltage to CMP. + * false - Disable Buffer Stored Reference voltage to CMP. + */ +static inline void SPC_EnableActiveModeCMPBandgapBuffer(SPC_Type *base, bool enable) +{ + if (enable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_LPBUFF_EN_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_LPBUFF_EN_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT */ + +/*! + * @brief Sets the delay when the regulators change voltage level in Active mode. + * + * @param base SPC peripheral base address. + * @param delay The number of SPC timer clock cycles. + */ +static inline void SPC_SetActiveModeVoltageTrimDelay(SPC_Type *base, uint16_t delay) +{ + base->ACTIVE_VDELAY = SPC_ACTIVE_VDELAY_ACTIVE_VDELAY(delay); +} + +/*! + * @brief Configs all settings of regulators in Active mode at a time. + * + * @note This function is used to overwrite all settings of regulators(including bandgap mode, regulators' + * drive strength and voltage level) in active mode at a time. + * + * @note Enable/disable LVDs/HVDs before invoking this function. + * + * @note This function will check input parameters based on hardware restrictions before setting registers, if input + * parameters do not satisfy hardware restrictions the specific error will be reported. + * + * + * @note Some hardware restrictions not covered, application should be aware of this and follow this hardware + * restrictions otherwise some unknown issue may occur: + * 1. If Core LDO's drive strength are set to same value in both Active mode and low power mode, + * the voltage level should also set to same value. + * 2. When switching Core LDO's drive strength from low to normal, ensure the LDO_CORE high voltage level is set + * to same level that was set prior to switching to the LDO_CORE drive strength. Otherwise, if the LVDs are + * enabled, an unexpected LVD can occur. + * + * @note If this function can not satisfy some tricky settings, please invoke other APIs in low-level function group. + * + * @param base SPC peripheral base address. + * @param config Pointer to spc_active_mode_regulators_config_t structure. + * + * @retval #kStatus_Success Config regulators in Active power mode successful. + * @retval #kStatus_SPC_BandgapModeWrong Based on input setting, bandgap can not be disabled. + * @retval #kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore Any of LVDs/HVDs kept enabled before invoking this function. + * @retval #kStatus_SPC_SYSLDOOverDriveVoltageFail Fail to regulator to Over Drive Voltage due to + * System VDD HVD is not disabled. + * @retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Any of LVDs/HVDs kept enabled before invoking this function. + * @retval #kStatus_SPC_CORELDOVoltageWrong Core LDO and System LDO do not have same voltage level. + */ +status_t SPC_SetActiveModeRegulatorsConfig(SPC_Type *base, const spc_active_mode_regulators_config_t *config); + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) +/*! + * @brief Disables/Enables VDD Core Glitch Detect in Active mode. + * + * @note State of glitch detect disable feature will be ignored if bandgap is disabled and + * glitch detect hardware will be forced to OFF state. + * + * @param base SPC peripheral base address. + * @param disable Used to disable/enable VDD Core Glitch detect feature. + * - \b true Disable VDD Core Low Voltage detect; + * - \b false Enable VDD Core Low Voltage detect. + */ +static inline void SPC_DisableActiveModeVddCoreGlitchDetect(SPC_Type *base, bool disable) +{ + if (disable) + { + base->ACTIVE_CFG |= SPC_ACTIVE_CFG_GLITCH_DETECT_DISABLE_MASK; + } + else + { + base->ACTIVE_CFG &= ~SPC_ACTIVE_CFG_GLITCH_DETECT_DISABLE_MASK; + } +} + +/*! + * @brief Check if Glitch detect hardware is enabled in active mode. + * + * @param base SPC peripheral base address. + * @return Indicate if Glitch detector is enabled. + */ +static inline bool SPC_CheckActiveModeVddCoreGlitchDetectEnabled(SPC_Type *base) +{ + if ((base->ACTIVE_CFG & SPC_ACTIVE_CFG_GLITCH_DETECT_DISABLE_MASK) == 0UL) + { + return true; + } + else + { + return false; + } +} + +#endif /* FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT */ + +/*! + * @brief Enables analog modules in active mode. + * + * @param base SPC peripheral base address. + * @param maskValue The mask of analog modules to enable in active mode, should be the OR'ed value + * of @ref spc_analog_module_control. + */ +static inline void SPC_EnableActiveModeAnalogModules(SPC_Type *base, uint32_t maskValue) +{ + base->ACTIVE_CFG1 |= SPC_ACTIVE_CFG1_SOC_CNTRL(maskValue); +} + +/*! + * @brief Disables analog modules in active mode. + * + * @param base SPC peripheral base address. + * @param maskValue The mask of analog modules to disable in active mode, should be the OR'ed value + * of @ref spc_analog_module_control. + */ +static inline void SPC_DisableActiveModeAnalogModules(SPC_Type *base, uint32_t maskValue) +{ + base->ACTIVE_CFG1 &= ~SPC_ACTIVE_CFG1_SOC_CNTRL(maskValue); +} + +/*! + * @brief Gets enabled analog modules that enabled in active mode. + * + * @param base SPC peripheral base address. + * + * @return The mask of enabled analog modules that enabled in active mode. + */ +static inline uint32_t SPC_GetActiveModeEnabledAnalogModules(SPC_Type *base) +{ + return base->ACTIVE_CFG1; +} + +/*! @} */ + +/*! + * @name Low Power mode configuration + * @{ + */ + +/*! + * @brief Gets the Bandgap mode in Low Power mode. + * + * @param base SPC peripheral base address. + * @return Bandgap mode in the type of @ref spc_bandgap_mode_t enumeration. + */ +static inline spc_bandgap_mode_t SPC_GetLowPowerModeBandgapMode(SPC_Type *base) +{ + return (spc_bandgap_mode_t)(uint32_t)((base->LP_CFG & SPC_LP_CFG_BGMODE_MASK) >> SPC_LP_CFG_BGMODE_SHIFT); +} + +/*! + * @brief Gets the status of all voltage detectors in Low Power mode. + * + * @param base SPC peripheral base address. + * @return The status of all voltage detectors in low power mode. + */ +static inline uint32_t SPC_GetLowPowerModeVoltageDetectStatus(SPC_Type *base) +{ + uint32_t state; + state = base->LP_CFG & ( +#if (defined(FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) && FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) + SPC_LP_CFG_IO_HVDE_MASK | SPC_LP_CFG_IO_LVDE_MASK | + +#endif /* FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD */ + SPC_LP_CFG_SYS_HVDE_MASK | SPC_LP_CFG_SYS_LVDE_MASK | SPC_LP_CFG_CORE_LVDE_MASK + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) + | SPC_LP_CFG_CORE_HVDE_MASK + +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD */ + ); + return state; +} + +/*! + * @brief Enables/Disables Low Power IREF in low power modes. + * + * This function enables/disables Low Power IREF. Low Power IREF can only get + * disabled in Deep power down mode. In other low power modes, the Low Power IREF + * is always enabled. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable Low Power IREF. + * true - Enable Low Power IREF for Low Power modes. + * false - Disable Low Power IREF for Deep Power Down mode. + */ +static inline void SPC_EnableLowPowerModeLowPowerIREF(SPC_Type *base, bool enable) +{ + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_LP_IREFEN_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_LP_IREFEN_MASK; + } +} + +/*! + * @brief Configs Bandgap mode in Low Power mode. + * + * @note To disable Bandgap in Low-power mode: + * 1. Disable all LVD's ad HVD's in low power mode; + * 2. Disable Glitch detect in low power mode; + * 3. Configure LDO's and DCDC to low drive strength in low power mode; + * 4. Disable bandgap in low power mode; + * Otherwise, the error status will be reported. + * + * @note Some other system resources(such as PLL, CMP) require bandgap to be enabled, to disable bandgap please + * take care of other system resources. + * + * @param base SPC peripheral base address. + * @param mode The Bandgap mode be selected. + * + * @retval #kStatus_SPC_BandgapModeWrong The bandgap mode setting in Low Power mode is wrong. + * @retval #kStatus_Success Config Bandgap mode in Low Power power mode successful. + */ +status_t SPC_SetLowPowerModeBandgapmodeConfig(SPC_Type *base, spc_bandgap_mode_t mode); + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SRAMLDO_DPD_ON_BIT) && FSL_FEATURE_MCX_SPC_HAS_SRAMLDO_DPD_ON_BIT) +/*! + * @brief Enables/disables SRAM_LDO deep power low power IREF. + * + * @param base SPC peripheral base address. + * @param enable Used to enable/disable low power IREF : + * - \b true: Low Power IREF is enabled ; + * - \b false: Low Power IREF is disabled for power saving. + */ +static inline void SPC_EnableSRAMLdOLowPowerModeIREF(SPC_Type *base, bool enable) +{ + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_SRAMLDO_DPD_ON_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_SRAMLDO_DPD_ON_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_SRAMLDO_DPD_ON_BIT */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT) +/*! + * @brief Enables/Disables CMP Bandgap Buffer. + * + * This function gates CMP bandgap buffer. CMP bandgap buffer is automatically disabled and turned off + * in Deep Power Down mode. + * + * @deprecated No longer used, please use SPC_EnableLowPowerModeCMPBandgapBuffer as instead. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable CMP Bandgap buffer. + * true - Enable Buffer Stored Reference Voltage to CMP. + * false - Disable Buffer Stored Reference Voltage to CMP. + */ +static inline void SPC_EnableLowPowerModeCMPBandgapBufferMode(SPC_Type *base, bool enable) +{ + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_LPBUFF_EN_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_LPBUFF_EN_MASK; + } +} + +/*! + * @brief Enables/Disables CMP Bandgap Buffer. + * + * This function gates CMP bandgap buffer. CMP bandgap buffer is automatically disabled and turned off + * in Deep Power Down mode. + * + * @deprecated No longer used. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable CMP Bandgap buffer. + * true - Enable Buffer Stored Reference Voltage to CMP. + * false - Disable Buffer Stored Reference Voltage to CMP. + */ +static inline void SPC_EnableLowPowerModeCMPBandgapBuffer(SPC_Type *base, bool enable) +{ + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_LPBUFF_EN_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_LPBUFF_EN_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_LPBUFF_EN_BIT */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT) +/*! + * @brief Enables/Disables CORE VDD IVS(Internal Voltage Scaling) in power down modes. + * + * This function gates CORE VDD IVS. When enabled, the IVS regulator will scale the + * external input CORE VDD to a lower voltage level to reduce internal leakage. + * IVS is invalid in Sleep or Deep power down mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable IVS. + * true - enable CORE VDD IVS in Power Down mode. + * false - disable CORE VDD IVS in Power Down mode. + */ +static inline void SPC_EnableLowPowerModeCoreVDDInternalVoltageScaling(SPC_Type *base, bool enable) +{ + if (enable) + { + base->LP_CFG |= SPC_LP_CFG_COREVDD_IVS_EN_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_COREVDD_IVS_EN_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_IVS_EN_BIT */ + +/*! + * @brief Sets the delay when exit the low power modes. + * + * @param base SPC peripheral base address. + * @param delay The number of SPC timer clock cycles that the SPC waits on exit from low power modes. + */ +static inline void SPC_SetLowPowerWakeUpDelay(SPC_Type *base, uint16_t delay) +{ + base->LPWKUP_DELAY = SPC_LPWKUP_DELAY_LPWKUP_DELAY(delay); +} + +/*! + * @brief Configs all settings of regulators in Low power mode at a time. + * + * @note This function is used to overwrite all settings of regulators(including bandgap mode, regulators' + * drive strength and voltage level) in low power mode at a time. + * + * @note Enable/disable LVDs/HVDs before invoking this function. + * + * @note This function will check input parameters based on hardware restrictions before setting registers, if input + * parameters do not satisfy hardware restrictions the specific error will be reported. + * + * @note Some hardware restrictions not covered, application should be aware of this and follow this hardware + * restrictions otherwise some unknown issue may occur: + * 1. If Core LDO's drive strength are set to same value in both Active mode and low power mode, + * the voltage level should also set to same value. + * 2. When switching Core LDO's drive strength from low to normal, ensure the LDO_CORE high voltage level is set + * to same level that was set prior to switching to the LDO_CORE drive strength. Otherwise, if the LVDs are + * enabled, an unexpected LVD can occur. + * + * @note If this function can not satisfy some tricky settings, please invoke other APIs in low-level function group. + * + * @param base SPC peripheral base address. + * @param config Pointer to spc_lowpower_mode_regulators_config_t structure. + * @retval #kStatus_Success Config regulators in Low power mode successful. + * @retval #kStatus_SPC_BandgapModeWrong The bandgap should not be disabled based on input settings. + * @retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + * @retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + * @retval #kStatus_SPC_CORELDOVoltageWrong Core LDO and System LDO do not have same voltage level. + */ +status_t SPC_SetLowPowerModeRegulatorsConfig(SPC_Type *base, const spc_lowpower_mode_regulators_config_t *config); + +#if !(defined(FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) && FSL_FEATURE_MCX_SPC_HAS_NO_GLITCH_DETECT) +/*! + * @brief Disable/Enable VDD Core Glitch Detect in low power mode. + * + * @note State of glitch detect disable feature will be ignored if bandgap is disabled and + * glitch detect hardware will be forced to OFF state. + * + * @param base SPC peripheral base address. + * @param disable Used to disable/enable VDD Core Glitch detect feature. + * - \b true Disable VDD Core Low Voltage detect; + * - \b false Enable VDD Core Low Voltage detect. + */ +static inline void SPC_DisableLowPowerModeVddCoreGlitchDetect(SPC_Type *base, bool disable) +{ + if (disable) + { + base->LP_CFG |= SPC_LP_CFG_GLITCH_DETECT_DISABLE_MASK; + } + else + { + base->LP_CFG &= ~SPC_LP_CFG_GLITCH_DETECT_DISABLE_MASK; + } +} + +/*! + * @brief Check if Glitch detect hardware is enabled in low power mode. + * + * @param base SPC peripheral base address. + * @return Indicate if Glitch detector is enabled. + */ +static inline bool SPC_CheckLowPowerModeVddCoreGlitchDetectEnabled(SPC_Type *base) +{ + if ((base->LP_CFG & SPC_LP_CFG_GLITCH_DETECT_DISABLE_MASK) == 0UL) + { + return true; + } + else + { + return false; + } +} +#endif + +/*! + * @brief Enables analog modules in low power modes. + * + * @param base SPC peripheral base address. + * @param maskValue The mask of analog modules to enable in low power modes, should be OR'ed value + of @ref spc_analog_module_control. + */ +static inline void SPC_EnableLowPowerModeAnalogModules(SPC_Type *base, uint32_t maskValue) +{ + base->LP_CFG1 |= SPC_LP_CFG1_SOC_CNTRL(maskValue); +} + +/*! + * @brief Disables analog modules in low power modes. + * + * @param base SPC peripheral base address. + * @param maskValue The mask of analog modules to disable in low power modes, should be OR'ed value + of @ref spc_analog_module_control. + */ +static inline void SPC_DisableLowPowerModeAnalogModules(SPC_Type *base, uint32_t maskValue) +{ + base->LP_CFG1 &= ~SPC_LP_CFG1_SOC_CNTRL(maskValue); +} + +/*! + * @brief Gets enabled analog modules that enabled in low power modes. + * + * @param base SPC peripheral base address. + * + * @return The mask of enabled analog modules that enabled in low power modes. + */ +static inline uint32_t SPC_GetLowPowerModeEnabledAnalogModules(SPC_Type *base) +{ + return base->LP_CFG1; +} + +/*! @} */ + +/*! + * @name Voltage Detect Status + * @{ + */ +/*! + * @brief Get Voltage Detect Status Flags. + * + * @param base SPC peripheral base address. + * @return Voltage Detect Status Flags. See @ref _spc_voltage_detect_flags for details. + */ +static inline uint8_t SPC_GetVoltageDetectStatusFlag(SPC_Type *base) +{ + return (uint8_t)(base->VD_STAT); +} + +/*! + * @brief Clear Voltage Detect Status Flags. + * + * @param base SPC peripheral base address. + * @param mask The mask of the voltage detect status flags. See @ref _spc_voltage_detect_flags for details. + */ +static inline void SPC_ClearVoltageDetectStatusFlag(SPC_Type *base, uint8_t mask) +{ + base->VD_STAT |= mask; +} + +/*! @} */ + +/*! + * @name Voltage Detect configuration for Core voltage domain. + * @{ + */ + +/*! + * @brief Configs CORE voltage detect options. + * + * @note: Setting both the voltage detect interrupt and reset + * enable will cause interrupt to be generated on exit from reset. + * If those conditioned is not desired, interrupt/reset so only one is enabled. + * + * @param base SPC peripheral base address. + * @param config Pointer to spc_core_voltage_detect_config_t structure. + */ +void SPC_SetCoreVoltageDetectConfig(SPC_Type *base, const spc_core_voltage_detect_config_t *config); + +/*! + * @brief Locks Core voltage detect reset setting. + * + * This function locks core voltage detect reset setting. After invoking this function + * any configuration of Core voltage detect reset will be ignored. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_LockCoreVoltageDetectResetSetting(SPC_Type *base) +{ + base->VD_CORE_CFG |= SPC_VD_CORE_CFG_LOCK_MASK; +} + +/*! + * @brief Unlocks Core voltage detect reset setting. + * + * This function unlocks core voltage detect reset setting. If locks the Core + * voltage detect reset setting, invoking this function to unlock. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_UnlockCoreVoltageDetectResetSetting(SPC_Type *base) +{ + base->VD_CORE_CFG &= ~SPC_VD_CORE_CFG_LOCK_MASK; +} + +/*! + * @brief Enables/Disables the Core Low Voltage Detector in Active mode. + * + * @note If the CORE_LDO low voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable Core LVD. + * true - Enable Core Low voltage detector in active mode. + * false - Disable Core Low voltage detector in active mode. + * + * @retval #kStatus_Success Enable/Disable Core Low Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeCoreLowVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the Core Low Voltage Detector in Low Power mode. + * + * This function enables/disables the Core Low Voltage Detector. + * If enabled the Core Low Voltage detector. The Bandgap mode in + * low power mode must be programmed so that Bandgap is enabled. + * + * @note If the CORE_LDO low voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Low Power mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable Core HVD. + * true - Enable Core Low voltage detector in low power mode. + * false - Disable Core Low voltage detector in low power mode. + * + * @retval #kStatus_Success Enable/Disable Core Low Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeCoreLowVoltageDetect(SPC_Type *base, bool enable); + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) && FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD) +/*! + * @brief Enables/Disables the Core High Voltage Detector in Active mode. + * + * @note If the CORE_LDO high voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable Core HVD. + * true - Enable Core High voltage detector in active mode. + * false - Disable Core High voltage detector in active mode. + * + * @retval #kStatus_Success Enable/Disable Core High Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeCoreHighVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the Core High Voltage Detector in Low Power mode. + * + * This function enables/disables the Core High Voltage Detector. + * If enabled the Core High Voltage detector. The Bandgap mode in + * low power mode must be programmed so that Bandgap is enabled. + * + * @note If the CORE_LDO high voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in low power mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable Core HVD. + * true - Enable Core High voltage detector in low power mode. + * false - Disable Core High voltage detector in low power mode. + * + * @retval #kStatus_Success Enable/Disable Core High Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeCoreHighVoltageDetect(SPC_Type *base, bool enable); +#endif /* FSL_FEATURE_MCX_SPC_HAS_COREVDD_HVD */ + +/*! @} */ + +/*! + * @name Voltage detect configuration for System Voltage domain + * @{ + */ +/*! + * @brief Set system VDD Low-voltage level selection. + * + * This function selects the system VDD low-voltage level. Changing system VDD low-voltage level + * must be done after disabling the System VDD low voltage reset and interrupt. + * + * @deprecated In latest RM, reserved for all devices, will removed in next release. + * + * @param base SPC peripheral base address. + * @param level System VDD Low-Voltage level selection. + */ +void SPC_SetSystemVDDLowVoltageLevel(SPC_Type *base, spc_low_voltage_level_select_t level); + +/*! + * @brief Configs SYS voltage detect options. + * + * This function config SYS voltage detect options. + * @note: Setting both the voltage detect interrupt and reset + * enable will cause interrupt to be generated on exit from reset. + * If those conditioned is not desired, interrupt/reset so only one is enabled. + * + * @param base SPC peripheral base address. + * @param config Pointer to spc_system_voltage_detect_config_t structure. + */ +void SPC_SetSystemVoltageDetectConfig(SPC_Type *base, const spc_system_voltage_detect_config_t *config); + +/*! + * @brief Lock System voltage detect reset setting. + * + * This function locks system voltage detect reset setting. After invoking this function + * any configuration of System Voltage detect reset will be ignored. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_LockSystemVoltageDetectResetSetting(SPC_Type *base) +{ + base->VD_SYS_CFG |= SPC_VD_SYS_CFG_LOCK_MASK; +} + +/*! + * @brief Unlock System voltage detect reset setting. + * + * This function unlocks system voltage detect reset setting. If locks the System + * voltage detect reset setting, invoking this function to unlock. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_UnlockSystemVoltageDetectResetSetting(SPC_Type *base) +{ + base->VD_SYS_CFG &= ~SPC_VD_SYS_CFG_LOCK_MASK; +} + +/*! + * @brief Enables/Disables the System High Voltage Detector in Active mode. + * + * @note If the System_LDO high voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Active mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable System HVD. + * true - Enable System High voltage detector in active mode. + * false - Disable System High voltage detector in active mode. + * + * @retval #kStatus_Success Enable/Disable System High Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeSystemHighVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disable the System Low Voltage Detector in Active mode. + * + * @note If the System_LDO low voltage detect is enabled in Active mode, + * please note that the bandgap must be enabled and the drive strength of each + * regulator must not set to low in Active mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable System LVD. + * true - Enable System Low voltage detector in active mode. + * false - Disable System Low voltage detector in active mode. + * + * @retval #kStatus_Success Enable/Disable the System Low Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeSystemLowVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the System High Voltage Detector in Low Power mode. + * + * @note If the System_LDO high voltage detect is enabled in Low Power mode, please note + * that the bandgap must be enabled and the drive strength of each regulator must + * not set to low in Low Power mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable System HVD. + * true - Enable System High voltage detector in low power mode. + * false - Disable System High voltage detector in low power mode. + * + * @retval #kStatus_Success Enable/Disable System High Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeSystemHighVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the System Low Voltage Detector in Low Power mode. + * + * @note If the System_LDO low voltage detect is enabled in Low Power mode, + * please note that the bandgap must be enabled and the drive strength of each + * regulator must not set to low in Low Power mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable System HVD. + * true - Enable System Low voltage detector in low power mode. + * false - Disable System Low voltage detector in low power mode. + * + * @retval #kStatus_Success Enables System Low Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeSystemLowVoltageDetect(SPC_Type *base, bool enable); + +/*! @} */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) && FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD) +/*! + * @name Voltage detect configuration for IO voltage domain + * @{ + */ +/*! + * @brief Set IO VDD Low-Voltage level selection. + * + * This function selects the IO VDD Low-voltage level. Changing IO VDD low-voltage level + * must be done after disabling the IO VDD low voltage reset and interrupt. + * + * @param base SPC peripheral base address. + * @param level IO VDD Low-voltage level selection. + */ +void SPC_SetIOVDDLowVoltageLevel(SPC_Type *base, spc_low_voltage_level_select_t level); + +/*! + * @brief Configs IO voltage detect options. + * + * This function config IO voltage detect options. + * @note: Setting both the voltage detect interrupt and reset + * enable will cause interrupt to be generated on exit from reset. + * If those conditioned is not desired, interrupt/reset so only one is enabled. + * + * @param base SPC peripheral base address. + * @param config Pointer to spc_voltage_detect_config_t structure. + */ +void SPC_SetIOVoltageDetectConfig(SPC_Type *base, const spc_io_voltage_detect_config_t *config); + +/*! + * @brief Lock IO Voltage detect reset setting. + * + * This function locks IO voltage detect reset setting. After invoking this function + * any configuration of system voltage detect reset will be ignored. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_LockIOVoltageDetectResetSetting(SPC_Type *base) +{ + base->VD_IO_CFG |= SPC_VD_IO_CFG_LOCK_MASK; +} + +/*! + * @brief Unlock IO voltage detect reset setting. + * + * This function unlocks IO voltage detect reset setting. If locks the IO + * voltage detect reset setting, invoking this function to unlock. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_UnlockIOVoltageDetectResetSetting(SPC_Type *base) +{ + base->VD_IO_CFG &= ~SPC_VD_IO_CFG_LOCK_MASK; +} + +/*! + * @brief Enables/Disables the IO High Voltage Detector in Active mode. + * + * @note If the IO high voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Active mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable IO HVD. + * true - Enable IO High voltage detector in active mode. + * false - Disable IO High voltage detector in active mode. + * + * @retval #kStatus_Success Enable/Disable IO High Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeIOHighVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the IO Low Voltage Detector in Active mode. + * + * @note If the IO low voltage detect is enabled in Active mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Active mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable IO LVD. + * true - Enable IO Low voltage detector in active mode. + * false - Disable IO Low voltage detector in active mode. + * + * @retval #kStatus_Success Enable IO Low Voltage Detect successfully. + */ +status_t SPC_EnableActiveModeIOLowVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the IO High Voltage Detector in Low Power mode. + * + * @note If the IO high voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Low Power mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable IO HVD. + * true - Enable IO High voltage detector in low power mode. + * false - Disable IO High voltage detector in low power mode. + * + * @retval #kStatus_Success Enable IO High Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeIOHighVoltageDetect(SPC_Type *base, bool enable); + +/*! + * @brief Enables/Disables the IO Low Voltage Detector in Low Power mode. + * + * @note If the IO low voltage detect is enabled in Low Power mode, please note that the bandgap must be enabled + * and the drive strength of each regulator must not set to low in Low Power mode. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable IO LVD. + * true - Enable IO Low voltage detector in low power mode. + * false - Disable IO Low voltage detector in low power mode. + * + * @retval #kStatus_Success Enable/Disable IO Low Voltage Detect in low power mode successfully. + */ +status_t SPC_EnableLowPowerModeIOLowVoltageDetect(SPC_Type *base, bool enable); + +/*! @} */ + +#endif /* FSL_FEATURE_MCX_SPC_HAS_IOVDD_VD */ + +/*! + * @name External Voltage domains configuration + * @{ + */ +/*! + * @brief Configs external voltage domains + * + * This function configs external voltage domains isolation. + * + * @param base SPC peripheral base address. + * @param lowPowerIsoMask The mask of external domains isolate enable during low power mode. Please read the Reference + * Manual for the Bitmap. + * @param IsoMask The mask of external domains isolate. Please read the Reference Manual for the Bitmap. + */ +void SPC_SetExternalVoltageDomainsConfig(SPC_Type *base, uint8_t lowPowerIsoMask, uint8_t IsoMask); + +/*! + * @brief Gets External Domains status. + * + * @param base SPC peripheral base address. + * @return The status of each external domain. + */ +static inline uint8_t SPC_GetExternalDomainsStatus(SPC_Type *base) +{ + return (uint8_t)(base->EVD_CFG >> SPC_EVD_CFG_REG_EVDSTAT_SHIFT); +} + +/*! @} */ + +/*! + * @name Low Level APIs To Set CORE LDO Regulator + * @{ + */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_CNTRL_REG) && FSL_FEATURE_MCX_SPC_HAS_CNTRL_REG) +/*! + * @brief Enable/Disable Core LDO regulator. + * + * @note The CORE LDO enable bit is write-once. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable CORE LDO Regulator. + * true - Enable CORE LDO Regulator. + * false - Disable CORE LDO Regulator. + */ +static inline void SPC_EnableCoreLDORegulator(SPC_Type *base, bool enable) +{ + if (enable) + { + base->CNTRL |= SPC_CNTRL_CORELDO_EN_MASK; + } + else + { + /* + * $Branch Coverage Justification$ + * If CORE_LDO is disabled, all RAMs data will powered off. + */ + base->CNTRL &= ~SPC_CNTRL_CORELDO_EN_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_CNTRL_REG */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DPDOWN_PULLDOWN_DISABLE_BIT) && \ + FSL_FEATURE_MCX_SPC_HAS_DPDOWN_PULLDOWN_DISABLE_BIT) +/*! + * @brief Enable/Disable the CORE LDO Regulator pull down in Deep Power Down. + * + * @note This function only useful when enabled the CORE LDO Regulator. + * + * @param base SPC peripheral base address. + * @param pulldown Enable/Disable CORE LDO pulldown in Deep Power Down mode. + * true - CORE LDO Regulator will discharge in Deep Power Down mode. + * false - CORE LDO Regulator will not discharge in Deep Power Down mode. + */ +static inline void SPC_PullDownCoreLDORegulator(SPC_Type *base, bool pulldown) +{ + if (pulldown) + { + base->CORELDO_CFG &= ~SPC_CORELDO_CFG_DPDOWN_PULLDOWN_DISABLE_MASK; + } + else + { + base->CORELDO_CFG |= SPC_CORELDO_CFG_DPDOWN_PULLDOWN_DISABLE_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_DPDOWN_PULLDOWN_DISABLE_BIT */ + +/*! + * @brief Configs Core LDO Regulator in Active mode. + * + * @note The bandgap must be enabled before invoking this function. + * @note To set Core LDO as low drive strength, all HVDs/LVDs must be disabled previously. + * + * @param base SPC peripheral base address. + * @param option Pointer to the spc_active_mode_core_ldo_option_t structure. + * + * @retval kStatus_Success Config Core LDO regulator in Active power mode successful. + * @retval kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval kStatus_SPC_BandgapModeWrong Bandgap should be enabled before invoking this function. + * @retval kStatus_SPC_CORELDOLowDriveStrengthIgnore To set Core LDO as low drive strength, + * all LVDs/HVDs must be disabled before invoking this function. + */ +status_t SPC_SetActiveModeCoreLDORegulatorConfig(SPC_Type *base, const spc_active_mode_core_ldo_option_t *option); + +/*! + * @brief Set Core LDO Regulator Voltage level in Active mode. + * + * @param base SPC peripheral base address. + * @param voltageLevel Specify the voltage level of CORE LDO Regulator in Active mode, please + refer to @ref spc_core_ldo_voltage_level_t. + * + * @note In active mode, the Core LDO voltage level should only be changed when the + * Core LDO is in normal drive strength. + * + * @note Update Core LDO voltage level will set Busy flag, + * this function return only when busy flag is cleared by hardware + * + * @retval kStatus_SPC_CORELDOVoltageSetFail The drive strength of Core LDO is not normal. + * @retval kStatus_Success Set Core LDO regulator voltage level in Active power mode successful. + */ +status_t SPC_SetActiveModeCoreLDORegulatorVoltageLevel(SPC_Type *base, spc_core_ldo_voltage_level_t voltageLevel); + +/*! + * @brief Gets CORE LDO Regulator Voltage level. + * + * This function returns the voltage level of CORE LDO Regulator in Active mode. + * + * @param base SPC peripheral base address. + * @return Voltage level of CORE LDO in type of @ref spc_core_ldo_voltage_level_t enumeration. + */ +static inline spc_core_ldo_voltage_level_t SPC_GetActiveModeCoreLDOVDDVoltageLevel(SPC_Type *base) +{ + return (spc_core_ldo_voltage_level_t)(uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_CORELDO_VDD_LVL_MASK) >> + SPC_ACTIVE_CFG_CORELDO_VDD_LVL_SHIFT); +} + +#if (defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) +/*! + * @brief Set Core LDO VDD Regulator Drive Strength in Active mode. + * + * @param base SPC peripheral base address. + * @param driveStrength Specify the drive strength of CORE LDO Regulator in Active mode, please + refer to @ref spc_core_ldo_drive_strength_t. + * + * @retval #kStatus_Success Set Core LDO regulator drive strength in Active power mode successful. + * @retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore If any voltage detect enabled, + core_ldo's drive strength can not set to low. + * @retval #kStatus_SPC_BandgapModeWrong The selected bandgap mode is not allowed. + */ +status_t SPC_SetActiveModeCoreLDORegulatorDriveStrength(SPC_Type *base, spc_core_ldo_drive_strength_t driveStrength); + +/*! + * @brief Gets CORE LDO VDD Regulator Drive Strength in Active mode. + * + * @param base SPC peripheral base address. + * @return Drive Strength of CORE LDO regulator in Active mode, please refer to @ref spc_core_ldo_drive_strength_t. + */ +static inline spc_core_ldo_drive_strength_t SPC_GetActiveModeCoreLDODriveStrength(SPC_Type *base) +{ + return (spc_core_ldo_drive_strength_t)(uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_CORELDO_VDD_DS_MASK) >> + SPC_ACTIVE_CFG_CORELDO_VDD_DS_SHIFT); +} +#endif /* defined(FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS) && FSL_FEATURE_SPC_HAS_CORELDO_VDD_DS */ + +/*! + * @brief Configs CORE LDO Regulator in low power mode + * + * This function configs CORE LDO Regulator in Low Power mode. + * If CORE LDO VDD Drive Strength is set to Normal, the CORE LDO VDD regulator voltage + * level in Active mode must be equal to the voltage level in Low power mode. And the Bandgap + * must be programmed to select bandgap enabled. + * Core VDD voltage levels for the Core LDO low power regulator can only be changed when the CORE + * LDO Drive Strength set as Normal. + * + * @param base SPC peripheral base address. + * @param option Pointer to the spc_lowpower_mode_core_ldo_option_t structure. + * + * @retval #kStatus_Success Config Core LDO regulator in power mode successfully. + * @retval #kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + * @retval #kStatus_SPC_CORELDOVoltageSetFail. Fail to change Core LDO voltage level. + */ +status_t SPC_SetLowPowerModeCoreLDORegulatorConfig(SPC_Type *base, const spc_lowpower_mode_core_ldo_option_t *option); + +/*! + * @brief Set Core LDO VDD Regulator Voltage level in Low power mode. + * + * @note If CORE LDO's drive strength is set to Normal, the CORE LDO VDD regulator voltage in active mode and low power + * mode must be same. + * @note Voltage level for the CORE LDO in low power mode can only be changed when the CORE LDO Drive Strength set as + * Normal. + * + * @param base SPC peripheral base address. + * @param voltageLevel Voltage level of CORE LDO Regulator in Low power mode, please + refer to @ref spc_core_ldo_voltage_level_t. + * + * @retval #kStatus_SPC_CORELDOVoltageWrong Voltage level in active mode and low power mode is not same. + * @retval #kStatus_Success Set Core LDO regulator voltage level in Low power mode successful. + * @retval #kStatus_SPC_CORELDOVoltageSetFail Fail to update voltage level because drive strength is incorrect. + */ +status_t SPC_SetLowPowerModeCoreLDORegulatorVoltageLevel(SPC_Type *base, spc_core_ldo_voltage_level_t voltageLevel); + +/*! + * @brief Gets the CORE LDO VDD Regulator Voltage Level for Low Power modes. + * + * @param base SPC peripheral base address. + * @return The CORE LDO VDD Regulator's voltage level. + */ +static inline spc_core_ldo_voltage_level_t SPC_GetLowPowerCoreLDOVDDVoltageLevel(SPC_Type *base) +{ + return ((spc_core_ldo_voltage_level_t)(uint32_t)((base->LP_CFG & SPC_LP_CFG_CORELDO_VDD_LVL_MASK) >> + SPC_LP_CFG_CORELDO_VDD_LVL_SHIFT)); +} + +/*! + * @brief Set Core LDO VDD Regulator Drive Strength in Low power mode. + * + * @param base SPC peripheral base address. + * @param driveStrength Specify drive strength of CORE LDO in low power mode. + * + * @retval #kStatus_SPC_CORELDOLowDriveStrengthIgnore Some voltage detect enabled, CORE LDO's drive strength can not set + * as low. + * @retval #kStatus_Success Set Core LDO regulator drive strength in Low power mode successful. + * @retval #kStatus_SPC_BandgapModeWrong Bandgap is disabled when attempt to set CORE LDO work as normal drive strength. + */ +status_t SPC_SetLowPowerModeCoreLDORegulatorDriveStrength(SPC_Type *base, spc_core_ldo_drive_strength_t driveStrength); + +/*! + * @brief Gets CORE LDO VDD Drive Strength for Low Power modes. + * + * @param base SPC peripheral base address. + * @return The CORE LDO's VDD Drive Strength. + */ +static inline spc_core_ldo_drive_strength_t SPC_GetLowPowerCoreLDOVDDDriveStrength(SPC_Type *base) +{ + return (spc_core_ldo_drive_strength_t)(uint32_t)((base->LP_CFG & SPC_LP_CFG_CORELDO_VDD_DS_MASK) >> + SPC_LP_CFG_CORELDO_VDD_DS_SHIFT); +} + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) && FSL_FEATURE_MCX_SPC_HAS_SYS_LDO) +/*! + * @name Low Level APIs To Set System LDO Regulator + * @{ + */ + +/*! + * @brief Enable/Disable System LDO regulator. + * + * @note The SYSTEM LDO enable bit is write-once. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable System LDO Regulator. + * true - Enable System LDO Regulator. + * false - Disable System LDO Regulator. + */ +static inline void SPC_EnableSystemLDORegulator(SPC_Type *base, bool enable) +{ + if (enable) + { + base->CNTRL |= SPC_CNTRL_SYSLDO_EN_MASK; + } + else + { + /* + * $Branch Coverage Justification$ + * If SYSTEM_LDO is disabled, may cause some unexpected issues. + */ + base->CNTRL &= ~SPC_CNTRL_SYSLDO_EN_MASK; + } +} + +/*! + * @brief Enable/Disable current sink feature of System LDO Regulator. + * + * @param base SPC peripheral base address. + * @param sink Enable/Disable current sink feature. + * true - Enable current sink feature of System LDO Regulator. + * false - Disable current sink feature of System LDO Regulator. + */ +static inline void SPC_EnableSystemLDOSinkFeature(SPC_Type *base, bool sink) +{ + if (sink) + { + base->SYSLDO_CFG |= SPC_SYSLDO_CFG_ISINKEN_MASK; + } + else + { + base->SYSLDO_CFG &= ~SPC_SYSLDO_CFG_ISINKEN_MASK; + } +} + +/*! + * @brief Configs System LDO VDD Regulator in Active mode. + * + * @note If System LDO VDD Drive Strength is set to Normal, the Bandgap mode in Active mode must be programmed + * to a value that enables the bandgap. + * @note If any voltage detects are kept enabled, configuration to set System LDO VDD drive strength to low will + * be ignored. + * @note If select System LDO VDD Regulator voltage level to Over Drive Voltage, the Drive Strength of System LDO VDD + * Regulator must be set to Normal otherwise the regulator Drive Strength will be forced to Normal. + * @note If select System LDO VDD Regulator voltage level to Over Drive Voltage, the High voltage detect must be + * disabled. Otherwise it will be fail to regulator to Over Drive Voltage. + * + * @param base SPC peripheral base address. + * @param option Pointer to the spc_active_mode_sys_ldo_option_t structure. + * + * @retval #kStatus_Success Config System LDO regulator in Active power mode successful. + * @retval #kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval #kStatus_SPC_BandgapModeWrong The bandgap is not enabled before invoking this function. + * @retval #kStatus_SPC_SYSLDOOverDriveVoltageFail HVD of System VDD is not disable before setting to Over Drive + * voltage. + * @retval kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set System LDO VDD regulator's driver strength to Low will be + * ignored. + */ +status_t SPC_SetActiveModeSystemLDORegulatorConfig(SPC_Type *base, const spc_active_mode_sys_ldo_option_t *option); + +/*! + * @brief Set System LDO Regulator voltage level in Active mode. + * + * @note The system LDO regulator can only operate at the overdrive voltage level for a limited amount of time for the + * life of chip. + * + * @param base SPC peripheral base address. + * @param voltageLevel Specify the voltage level of System LDO Regulator in Active mode. + * + * @retval #kStatus_Success Set System LDO Regulator voltage level in Active mode successfully. + * @retval #kStatus_SPC_SYSLDOOverDriveVoltageFail Must disable system LDO high voltage detector before specifying + * overdrive voltage. + */ +status_t SPC_SetActiveModeSystemLDORegulatorVoltageLevel(SPC_Type *base, spc_sys_ldo_voltage_level_t voltageLevel); + +/*! + * @brief Get System LDO Regulator voltage level in Active mode. + * + * @param base SPC peripheral base address. + * @return System LDO Regulator voltage level in Active mode, please refer to @ref spc_sys_ldo_voltage_level_t. + */ +static inline spc_sys_ldo_voltage_level_t SPC_GetActiveModeSystemLDORegulatorVoltageLevel(SPC_Type *base) +{ + return (spc_sys_ldo_voltage_level_t)(uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_SYSLDO_VDD_LVL_MASK) >> + SPC_ACTIVE_CFG_SYSLDO_VDD_LVL_SHIFT); +} + +/*! + * @brief Set System LDO Regulator Drive Strength in Active mode. + * + * @param base SPC peripheral base address. + * @param driveStrength Specify the drive strength of System LDO Regulator in Active mode. + * + * @retval #kStatus_Success Set System LDO Regulator drive strength in Active mode successfully. + * @retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Attempt to specify low drive strength is ignored due to any + voltage detect feature is enabled in active mode. + * @retval #kStatus_SPC_BandgapModeWrong Bandgap mode in Active mode must be programmed to a value that enables + the bandgap if attempt to specify normal drive strength. + */ +status_t SPC_SetActiveModeSystemLDORegulatorDriveStrength(SPC_Type *base, spc_sys_ldo_drive_strength_t driveStrength); + +/*! + * @brief Get System LDO Regulator Drive Strength in Active mode. + * + * @param base SPC peripheral base address. + * @return System LDO regulator drive strength in Active mode, please refer to @ref spc_sys_ldo_drive_strength_t. + */ +static inline spc_sys_ldo_drive_strength_t SPC_GetActiveModeSystemLDORegulatorDriveStrength(SPC_Type *base) +{ + return (spc_sys_ldo_drive_strength_t)(uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_SYSLDO_VDD_DS_MASK) >> + SPC_ACTIVE_CFG_SYSLDO_VDD_DS_SHIFT); +} + +/*! + * @brief Configs System LDO regulator in low power modes. + * + * This function configs System LDO regulator in low power modes. + * If System LDO VDD Regulator Drive strength is set to normal, bandgap mode in low power + * mode must be programmed to a value that enables the Bandgap. + * If any High voltage detectors or Low Voltage detectors are kept enabled, configuration + * to set System LDO Regulator drive strength as Low will be ignored. + * + * @param base SPC peripheral base address. + * @param option Pointer to spc_lowpower_mode_sys_ldo_option_t structure. + * + * @retval #kStatus_Success Config System LDO regulator in Low Power Mode successfully. + * @retval #kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Set driver strength to low will be ignored. + */ +status_t SPC_SetLowPowerModeSystemLDORegulatorConfig(SPC_Type *base, const spc_lowpower_mode_sys_ldo_option_t *option); + +/*! + * @brief Set System LDO Regulator drive strength in Low Power Mode. + * + * @param base SPC peripheral base address. + * @param driveStrength Specify the drive strength of System LDO Regulator in Low Power Mode. + * + * @retval #kStatus_Success Set System LDO Regulator drive strength in Low Power Mode successfully. + * @retval #kStatus_SPC_SYSLDOLowDriveStrengthIgnore Attempt to specify low drive strength is ignored due to any + voltage detect feature is enabled in low power mode. + * @retval #kStatus_SPC_BandgapModeWrong Bandgap mode in low power mode must be programmed to a value that enables + the bandgap if attempt to specify normal drive strength. + */ +status_t SPC_SetLowPowerModeSystemLDORegulatorDriveStrength(SPC_Type *base, spc_sys_ldo_drive_strength_t driveStrength); + +/*! + * @brief Get System LDO Regulator drive strength in Low Power Mode. + * + * @param base SPC peripheral base address. + * @return System LDO regulator drive strength in Low Power Mode, please refer to @ref spc_sys_ldo_drive_strength_t. + */ +static inline spc_sys_ldo_drive_strength_t SPC_GetLowPowerModeSystemLDORegulatorDriveStrength(SPC_Type *base) +{ + return (spc_sys_ldo_drive_strength_t)(uint32_t)((base->LP_CFG & SPC_LP_CFG_SYSLDO_VDD_DS_MASK) >> + SPC_LP_CFG_SYSLDO_VDD_DS_SHIFT); +} +/*! @} */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_SYS_LDO */ + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC) && FSL_FEATURE_MCX_SPC_HAS_DCDC) +/*! + * @name Low Level APIs To Set DCDC Regulator + * @{ + */ + +/*! + * @brief Enable/Disable DCDC Regulator. + * + * @note The DCDC enable bit is write-once, settings only reset after a POR, LVD, or HVD event. + * + * @param base SPC peripheral base address. + * @param enable Enable/Disable DCDC Regulator. + * true - Enable DCDC Regulator. + * false - Disable DCDC Regulator. + */ +static inline void SPC_EnableDCDCRegulator(SPC_Type *base, bool enable) +{ + if (enable) + { + base->CNTRL |= SPC_CNTRL_DCDC_EN_MASK; + } + else + { + /* + * $Branch Coverage Justification$ + * If DCDC is disabled, all RAMs data will powered off. + */ + base->CNTRL &= ~SPC_CNTRL_DCDC_EN_MASK; + } +} + +/*! + * @brief Config DCDC Burst options + * + * @param base SPC peripheral base address. + * @param config Pointer to spc_dcdc_burst_config_t structure. + */ +void SPC_SetDCDCBurstConfig(SPC_Type *base, spc_dcdc_burst_config_t *config); + +/*! + * @brief Trigger a software burst request to DCDC. + * + * @param base SPC peripheral base address. + */ +static inline void SPC_TriggerDCDCBurstRequest(SPC_Type *base) +{ + /* Blocking until previous DCDC burst completed. */ + while ((base->DCDC_BURST_CFG & SPC_DCDC_BURST_CFG_BURST_ACK_MASK) == 0UL) + { + } + + base->DCDC_BURST_CFG |= SPC_DCDC_BURST_CFG_BURST_REQ_MASK; +} + +/*! + * @brief Check if burst acknowledge flag is asserted. + * + * @param base SPC peripheral base address. + * + * @retval false DCDC burst not complete. + * @retval true DCDC burst complete. + */ +static inline bool SPC_CheckDCDCBurstAck(SPC_Type *base) +{ + return ((base->DCDC_BURST_CFG & SPC_DCDC_BURST_CFG_BURST_ACK_MASK) != 0UL); +} + +/*! + * @brief Clear DCDC busrt acknowledge flag. + * + * @param base SPC periphral base address. + */ +static inline void SPC_ClearDCDCBurstAckFlag(SPC_Type *base) +{ + base->DCDC_BURST_CFG |= SPC_DCDC_BURST_CFG_BURST_ACK_MASK; +} + +/*! + * @brief Set the count value of the reference clock to configure the period of DCDC not active. + * + * @note This function is only useful when DCDC's drive strength is set as pulse refresh. + * @note The pulse duration(time between on and off) is: reference clock period * (count + 2). + * + * @param base SPC peripheral base address. + * @param count The count value, 16 bit width. + */ +void SPC_SetDCDCRefreshCount(SPC_Type *base, uint16_t count); + +#if (defined(FSL_FEATURE_MCX_SPC_HAS_DCDC_CFG_BLEED_EN) && FSL_FEATURE_MCX_SPC_HAS_DCDC_CFG_BLEED_EN) +/*! + * @brief Enable a bleed resistor to discharge DCDC output when DCDC is disabled. + * + * @param base SPC peripheral base address. + * @param enable Used to enable/disable bleed resistor. + */ +static inline void SPC_EnableDCDCBleedResistor(SPC_Type *base, bool enable) +{ + if (enable) + { + base->DCDC_CFG |= SPC_DCDC_CFG_BLEED_EN_MASK; + } + else + { + base->DCDC_CFG &= ~SPC_DCDC_CFG_BLEED_EN_MASK; + } +} +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC_CFG_BLEED_EN */ + +/*! + * @brief Configs DCDC_CORE Regulator in Active mode. + * + * @note When changing the DCDC output voltage level, take care to change the CORE LDO voltage level. + * + * @param base SPC peripheral base address. + * @param option Pointer to the spc_active_mode_dcdc_option_t structure. + * + * @retval #kStatus_Success Config DCDC regulator in Active power mode successful. + * @retval #kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval #kStatus_SPC_BandgapModeWrong Set DCDC_CORE Regulator drive strength to Normal, the Bandgap must be enabled. + */ +status_t SPC_SetActiveModeDCDCRegulatorConfig(SPC_Type *base, const spc_active_mode_dcdc_option_t *option); + +/*! + * @brief Set DCDC_CORE Regulator voltage level in Active mode. + * + * @note When changing the DCDC output voltage level, take care to change the CORE LDO voltage level. + * + * @param base SPC peripheral base address. + * @param voltageLevel Specify the DCDC_CORE Regulator voltage level, please refer to @ref spc_dcdc_voltage_level_t. + */ +static inline void SPC_SetActiveModeDCDCRegulatorVoltageLevel(SPC_Type *base, spc_dcdc_voltage_level_t voltageLevel) +{ + base->ACTIVE_CFG = + (base->ACTIVE_CFG & (~SPC_ACTIVE_CFG_DCDC_VDD_LVL_MASK)) | SPC_ACTIVE_CFG_DCDC_VDD_LVL(voltageLevel); +} + +/*! + * @brief Get DCDC_CORE Regulator voltage level in Active mode. + * + * @param base SPC peripheral base address. + * @return DCDC_CORE Regulator voltage level, please refer to @ref spc_dcdc_voltage_level_t. + */ +static inline spc_dcdc_voltage_level_t SPC_GetActiveModeDCDCRegulatorVoltageLevel(SPC_Type *base) +{ + return (spc_dcdc_voltage_level_t)((uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_DCDC_VDD_LVL_MASK) >> + SPC_ACTIVE_CFG_DCDC_VDD_LVL_SHIFT)); +} + +/*! + * @brief Set DCDC_CORE Regulator drive strength in Active mode. + * + * @note To set DCDC drive strength as Normal, the bandgap must be enabled. + * + * @param base SPC peripheral base address. + * @param driveStrength Specify the DCDC_CORE regulator drive strength, please refer to @ref spc_dcdc_drive_strength_t. + * + * @retval #kStatus_Success Set DCDC_CORE Regulator drive strength in Active mode successfully. + * @retval #kStatus_SPC_BandgapModeWrong Set DCDC_CORE Regulator drive strength to Normal, the Bandgap must be enabled. + */ +status_t SPC_SetActiveModeDCDCRegulatorDriveStrength(SPC_Type *base, spc_dcdc_drive_strength_t driveStrength); + +/*! + * @brief Get DCDC_CORE Regulator drive strength in Active mode. + * + * @param base SPC peripheral base address. + * @return DCDC_CORE Regulator drive strength, please refer to @ref spc_dcdc_drive_strength_t. + */ +static inline spc_dcdc_drive_strength_t SPC_GetActiveModeDCDCRegulatorDriveStrength(SPC_Type *base) +{ + return (spc_dcdc_drive_strength_t)((uint32_t)((base->ACTIVE_CFG & SPC_ACTIVE_CFG_DCDC_VDD_DS_MASK) >> + SPC_ACTIVE_CFG_DCDC_VDD_DS_SHIFT)); +} + +/*! + * @brief Configs DCDC_CORE Regulator in Low power modes. + * + * @note If DCDC_CORE Drive Strength is set to Normal, the Bandgap mode in Low Power mode must be programmed + * to a value that enables the Bandgap. + * @note In Deep Power Down mode, DCDC regulator is always turned off. + * + * @param base SPC peripheral base address. + * @param option Pointer to the spc_lowpower_mode_dcdc_option_t structure. + * + * @retval #kStatus_Success Config DCDC regulator in low power mode successfully. + * @retval #kStatus_SPC_Busy The SPC instance is busy to execute any type of power mode transition. + * @retval #kStatus_SPC_BandgapModeWrong The bandgap mode setting in Low Power mode is wrong. + */ +status_t SPC_SetLowPowerModeDCDCRegulatorConfig(SPC_Type *base, const spc_lowpower_mode_dcdc_option_t *option); + +/*! + * @brief Set DCDC_CORE Regulator drive strength in Low power mode. + * + * @note To set drive strength as normal, the bandgap must be enabled. + * + * @param base SPC peripheral base address. + * @param driveStrength Specify the DCDC_CORE Regulator drive strength, please refer to @ref spc_dcdc_drive_strength_t. + * + * @retval #kStatus_Success Set DCDC_CORE Regulator drive strength in Low power mode successfully. + * @retval #kStatus_SPC_BandgapModeWrong Set DCDC_CORE Regulator drive strength to Normal, the Bandgap must be enabled. + */ +status_t SPC_SetLowPowerModeDCDCRegulatorDriveStrength(SPC_Type *base, spc_dcdc_drive_strength_t driveStrength); + +/*! + * @brief Get DCDC_CORE Regulator drive strength in Low power mode. + * + * @param base SPC peripheral base address. + * @return DCDC_CORE Regulator drive strength, please refer to @ref spc_dcdc_drive_strength_t. + */ +static inline spc_dcdc_drive_strength_t SPC_GetLowPowerModeDCDCRegulatorDriveStrength(SPC_Type *base) +{ + return (spc_dcdc_drive_strength_t)((uint32_t)((base->LP_CFG & SPC_LP_CFG_DCDC_VDD_DS_MASK) >> + SPC_LP_CFG_DCDC_VDD_DS_SHIFT)); +} + +/*! + * @brief Set DCDC_CORE Regulator voltage level in Low power mode. + * + * @note To change DCDC level in Low-Power mode: + * 1. Configure LP_CFG[DCDC_VDD_LVL] to desired level; + * 2. Configure LP_CFG[DCDC_VDD_DS] to low driver strength; + * 3. Configure ACTIVE_CFG[DCDC_VDD_LVL] to same level programmed in #1. + * + * @note After invoking this function, the voltage level in active mode(wakeup from low power modes) also changed, + * if it is necessary, please invoke SPC_SetActiveModeDCDCRegulatorVoltageLevel() to change to desried voltage level. + * + * @param base SPC peripheral base address. + * @param voltageLevel Specify the DCDC_CORE Regulator voltage level, please refer to @ref spc_dcdc_voltage_level_t. + */ +static inline void SPC_SetLowPowerModeDCDCRegulatorVoltageLevel(SPC_Type *base, spc_dcdc_voltage_level_t voltageLevel) +{ + base->LP_CFG = (base->LP_CFG & (~SPC_LP_CFG_DCDC_VDD_LVL_MASK)) | SPC_LP_CFG_DCDC_VDD_LVL(voltageLevel); + (void)SPC_SetLowPowerModeDCDCRegulatorDriveStrength(base, kSPC_DCDC_LowDriveStrength); + SPC_SetActiveModeDCDCRegulatorVoltageLevel(base, voltageLevel); +} + +/*! + * @brief Get DCDC_CORE Regulator voltage level in Low power mode. + * + * @param base SPC peripheral base address. + * @return DCDC_CORE Regulator voltage level, please refer to @ref spc_dcdc_voltage_level_t. + */ +static inline spc_dcdc_voltage_level_t SPC_GetLowPowerModeDCDCRegulatorVoltageLevel(SPC_Type *base) +{ + return (spc_dcdc_voltage_level_t)((uint32_t)((base->LP_CFG & SPC_LP_CFG_DCDC_VDD_LVL_MASK) >> + SPC_LP_CFG_DCDC_VDD_LVL_SHIFT)); +} + +/*! @} */ +#endif /* FSL_FEATURE_MCX_SPC_HAS_DCDC */ + +#if defined(__cplusplus) +} +#endif /* __cplusplus */ + +/*! @} */ + +#endif /* FSL_SPC_H_ */ diff --git a/hw/bsp/mcx/family.c b/hw/bsp/mcx/family.c index 2b9c60beb..2dfefeb92 100644 --- a/hw/bsp/mcx/family.c +++ b/hw/bsp/mcx/family.c @@ -60,9 +60,14 @@ void USB0_IRQHandler(void) { void board_init(void) { + BOARD_InitPins(); + BOARD_InitBootClocks(); + + #ifdef XTAL0_CLK_HZ CLOCK_SetupExtClocking(XTAL0_CLK_HZ); + #endif #if CFG_TUSB_OS == OPT_OS_NONE // 1ms tick timer @@ -84,15 +89,7 @@ void board_init(void) { board_led_write(0); #ifdef NEOPIXEL_PIN - // Neopixel - static uint32_t pixelData[NEOPIXEL_NUMBER]; - IOCON_PinMuxSet(IOCON, NEOPIXEL_PORT, NEOPIXEL_PIN, IOCON_PIO_DIG_FUNC4_EN); - - sctpix_init(NEOPIXEL_TYPE); - sctpix_addCh(NEOPIXEL_CH, pixelData, NEOPIXEL_NUMBER); - sctpix_setPixel(NEOPIXEL_CH, 0, 0x100010); - sctpix_setPixel(NEOPIXEL_CH, 1, 0x100010); - sctpix_show(); + // No neo pixel support yet #endif // Button @@ -103,9 +100,6 @@ void board_init(void) { #endif #ifdef UART_DEV - // UART -// IOCON_PinMuxSet(IOCON, UART_RX_PINMUX); -// IOCON_PinMuxSet(IOCON, UART_TX_PINMUX); // Enable UART when debug log is on board_uart_init_clock(); @@ -115,6 +109,7 @@ void board_init(void) { uart_config.baudRate_Bps = CFG_BOARD_UART_BAUDRATE; uart_config.enableTx = true; uart_config.enableRx = true; + LPUART_Init(UART_DEV, &uart_config, 12000000u); #endif @@ -196,17 +191,6 @@ void board_init(void) { void board_led_write(bool state) { GPIO_PinWrite(LED_GPIO, LED_PIN, state ? LED_STATE_ON : (1 - LED_STATE_ON)); - -#ifdef NEOPIXEL_PIN - if (state) { - sctpix_setPixel(NEOPIXEL_CH, 0, 0x100000); - sctpix_setPixel(NEOPIXEL_CH, 1, 0x101010); - } else { - sctpix_setPixel(NEOPIXEL_CH, 0, 0x001000); - sctpix_setPixel(NEOPIXEL_CH, 1, 0x000010); - } - sctpix_show(); -#endif } uint32_t board_button_read(void) { diff --git a/hw/bsp/mcx/family.cmake b/hw/bsp/mcx/family.cmake index 413c1b372..f857ed31a 100644 --- a/hw/bsp/mcx/family.cmake +++ b/hw/bsp/mcx/family.cmake @@ -10,6 +10,9 @@ include(${CMAKE_CURRENT_LIST_DIR}/boards/${BOARD}/board.cmake) if (MCU_VARIANT STREQUAL "MCXA153") set(CMAKE_SYSTEM_CPU cortex-m33-nodsp-nofp CACHE INTERNAL "System Processor") set(FAMILY_MCUS MCXA15 CACHE INTERNAL "") +elseif (MCU_VARIANT STREQUAL "MCXA156") + set(CMAKE_SYSTEM_CPU cortex-m33 CACHE INTERNAL "System Processor") + set(FAMILY_MCUS MCXA15 CACHE INTERNAL "") elseif (MCU_VARIANT STREQUAL "MCXN947") set(CMAKE_SYSTEM_CPU cortex-m33 CACHE INTERNAL "System Processor") set(FAMILY_MCUS MCXN9 CACHE INTERNAL "") @@ -38,12 +41,14 @@ function(add_board_target BOARD_TARGET) endif() set(STARTUP_FILE_Clang ${STARTUP_FILE_GNU}) + add_library(${BOARD_TARGET} STATIC ${STARTUP_FILE_${CMAKE_C_COMPILER_ID}} # driver - ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_gpio.c - ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_common_arm.c - ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_lpuart.c + ${SDK_DIR}/drivers/gpio/fsl_gpio.c + ${SDK_DIR}/drivers/common/fsl_common_arm.c + ${SDK_DIR}/drivers/lpuart/fsl_lpuart.c + ${CMAKE_CURRENT_FUNCTION_LIST_DIR}/drivers/spc/fsl_spc.c # mcu ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_clock.c ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_reset.c @@ -51,18 +56,27 @@ function(add_board_target BOARD_TARGET) ) target_include_directories(${BOARD_TARGET} PUBLIC ${CMSIS_DIR}/CMSIS/Core/Include + ${SDK_DIR}/drivers/gpio/ + ${SDK_DIR}/drivers/lpuart + ${SDK_DIR}/drivers/common + ${SDK_DIR}/drivers/port + ${CMAKE_CURRENT_FUNCTION_LIST_DIR}/drivers/spc ${SDK_DIR}/devices/${MCU_VARIANT} ${SDK_DIR}/devices/${MCU_VARIANT}/drivers ) if (${FAMILY_MCUS} STREQUAL "MCXN9") + target_sources(${BOARD_TARGET} PRIVATE - ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_lpflexcomm.c + ${SDK_DIR}/drivers/lpflexcomm/fsl_lpflexcomm.c + ) + + target_include_directories(${BOARD_TARGET} PUBLIC + ${SDK_DIR}/drivers/lpflexcomm ) elseif(${FAMILY_MCUS} STREQUAL "MCXA15") - target_sources(${BOARD_TARGET} PRIVATE - ${SDK_DIR}/devices/${MCU_VARIANT}/drivers/fsl_spc.c - ) + + endif() update_board(${BOARD_TARGET}) diff --git a/hw/bsp/mcx/family.mk b/hw/bsp/mcx/family.mk index 58149fb8d..676475cc9 100644 --- a/hw/bsp/mcx/family.mk +++ b/hw/bsp/mcx/family.mk @@ -35,18 +35,19 @@ SRC_C += \ $(SDK_DIR)/devices/$(MCU_VARIANT)/system_$(MCU_CORE).c \ $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_clock.c \ $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_reset.c \ - $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_gpio.c \ - $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_lpuart.c \ - $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_common_arm.c \ + ${SDK_DIR}/drivers/gpio/fsl_gpio.c \ + ${SDK_DIR}/drivers/lpuart/fsl_lpuart.c \ + ${SDK_DIR}/drivers/common/fsl_common_arm.c\ + hw/bsp/mcx/drivers/spc/fsl_spc.c # fsl_lpflexcomm for MCXN9 ifeq ($(MCU_VARIANT), MCXN947) - SRC_C += $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_lpflexcomm.c + SRC_C += ${SDK_DIR}/drivers/lpflexcomm/fsl_lpflexcomm.c endif # fsl_spc for MCXNA15 ifeq ($(MCU_VARIANT), MCXA153) - SRC_C += $(SDK_DIR)/devices/$(MCU_VARIANT)/drivers/fsl_spc.c + endif INC += \ @@ -54,5 +55,15 @@ INC += \ $(TOP)/lib/CMSIS_5/CMSIS/Core/Include \ $(TOP)/$(SDK_DIR)/devices/$(MCU_VARIANT) \ $(TOP)/$(SDK_DIR)/devices/$(MCU_VARIANT)/drivers \ + $(TOP)/$(SDK_DIR)/drivers/ \ + $(TOP)/$(SDK_DIR)/drivers/lpuart \ + $(TOP)/$(SDK_DIR)/drivers/lpflexcomm \ + $(TOP)/$(SDK_DIR)/drivers/common\ + $(TOP)/$(SDK_DIR)/drivers/gpio\ + $(TOP)/$(SDK_DIR)/drivers/port\ + $(TOP)/hw/bsp/mcx/drivers/spc + + + SRC_S += $(SDK_DIR)/devices/$(MCU_VARIANT)/gcc/startup_$(MCU_CORE).S diff --git a/tools/get_deps.py b/tools/get_deps.py index df8dbb6e1..1ce8be6c7 100755 --- a/tools/get_deps.py +++ b/tools/get_deps.py @@ -55,8 +55,8 @@ deps_optional = { 'hw/mcu/nxp/lpcopen': ['https://github.com/hathach/nxp_lpcopen.git', 'b41cf930e65c734d8ec6de04f1d57d46787c76ae', 'lpc11 lpc13 lpc15 lpc17 lpc18 lpc40 lpc43'], - 'hw/mcu/nxp/mcux-sdk': ['https://github.com/hathach/mcux-sdk.git', - '144f1eb7ea8c06512e12f12b27383601c0272410', + 'hw/mcu/nxp/mcux-sdk': ['https://github.com/nxp-mcuxpresso/mcux-sdk', + 'a1bdae309a14ec95a4f64a96d3315a4f89c397c6', 'kinetis_k kinetis_k32l2 kinetis_kl lpc51 lpc54 lpc55 mcx imxrt'], 'hw/mcu/raspberry_pi/Pico-PIO-USB': ['https://github.com/hathach/Pico-PIO-USB.git', '032a469e79f6a4ba40760d7868e6db26e15002d7',