# Nordic Semiconductor nRF53 MCU line # Copyright (c) 2019 Nordic Semiconductor ASA # SPDX-License-Identifier: Apache-2.0 config SOC_SERIES_NRF53X bool select ARM select SOC_COMPATIBLE_NRF53X select CPU_CORTEX_M33 select CPU_CORTEX_M_HAS_DWT select CPU_HAS_ARM_MPU imply XIP select HAS_NRFX select HAS_NORDIC_DRIVERS select HAS_SEGGER_RTT if ZEPHYR_SEGGER_MODULE select HAS_SWO help Enable support for NRF53 MCU series config SOC_NRF5340_CPUAPP select CPU_HAS_NRF_IDAU select CPU_HAS_FPU select ARMV8_M_DSP select HAS_POWEROFF select SOC_COMPATIBLE_NRF5340_CPUAPP select SOC_NRF53_CPUNET_MGMT imply SOC_NRF53_RTC_PRETICK imply SOC_NRF53_ANOMALY_168_WORKAROUND config SOC_NRF5340_CPUNET select ARM_ON_EXIT_CPU_IDLE select SOC_COMPATIBLE_NRF5340_CPUNET imply SOC_NRF53_ANOMALY_160_WORKAROUND_NEEDED imply SOC_NRF53_RTC_PRETICK if !WDT_NRFX imply SOC_NRF53_ANOMALY_168_WORKAROUND if SOC_SERIES_NRF53X VREGMAIN_PATH := $(dt_nodelabel_path,vregmain) VREGRADIO_PATH := $(dt_nodelabel_path,vregradio) config SOC_NRF53_ANOMALY_160_WORKAROUND_NEEDED bool "Workaround for nRF5340 anomaly 160" imply SOC_NRF53_ANOMALY_160_WORKAROUND default y if "$(dt_node_int_prop_int,$(VREGMAIN_PATH),regulator-initial-mode)" = 1 default y if "$(dt_node_int_prop_int,$(VREGRADIO_PATH),regulator-initial-mode)" = 1 help Indicates that the workaround for the anomaly 160 that affects the nRF5340 SoC should be applied. This option is enabled by default for the Application MCU when DC/DC mode is enabled for the VREGMAIN or VREGRADIO regulator and always for the Network MCU. If this option is enabled, but the workaround cannot be applied, because the system clock is disabled, a related cmake warning is issued. config SOC_NRF53_ANOMALY_160_WORKAROUND bool depends on SYS_CLOCK_EXISTS select ARM_ON_ENTER_CPU_IDLE_HOOK config SOC_NRF53_ANOMALY_168_WORKAROUND bool "Workaround for nRF5340 anomaly 168" select ARM_ON_EXIT_CPU_IDLE help Indicates that the workaround for the anomaly 168 that affects the nRF5340 SoC should be applied. The workaround involves execution of 8 NOP instructions when the CPU exist its idle state (when the WFI/WFE instruction returns) and it is enabled by default for both the application and network core. config SOC_NRF53_ANOMALY_168_WORKAROUND_FOR_EXECUTION_FROM_RAM bool "Extend the workaround to execution at 128 MHz from RAM" depends on SOC_NRF53_ANOMALY_168_WORKAROUND && SOC_NRF5340_CPUAPP help Indicates that the anomaly 168 workaround is to be extended to cover also a specific case when the WFI/WFE instruction is executed at 128 MHz from RAM. Then, 26 instead of 8 NOP instructions needs to be executed after WFI/WFE. This extension is not enabled by default. config SOC_NRF53_RTC_PRETICK bool "Pre-tick workaround for nRF5340 anomaly 165" depends on (SYS_CLOCK_EXISTS && SOC_NRF5340_CPUNET) || SOC_NRF5340_CPUAPP select NRFX_DPPI select ARM_ON_ENTER_CPU_IDLE_HOOK if SOC_NRF5340_CPUNET select ARM_ON_ENTER_CPU_IDLE_PREPARE_HOOK if SOC_NRF5340_CPUNET help Indicates that the pre-tick workaround for the anomaly 165 that affects the nRF5340 SoC should be applied. The workaround applies to wake ups caused by EVENTS_COMPARE and EVENTS_OVRFLW on RTC0 and RTC1 for which interrupts are enabled through INTENSET register. The case when these events are generated by EVTEN but without interrupts enabled through INTENSET is not handled. The EVENTS_TICK event is not handled. if SOC_NRF53_RTC_PRETICK config SOC_NRF53_RTC_PRETICK_IPC_CH_FROM_NET int "IPC 0 channel for RTC pretick" range 0 15 default 10 config SOC_NRF53_RTC_PRETICK_IPC_CH_TO_NET int "IPC 1 channel for RTC pretick" range 0 15 default 11 endif if SOC_NRF5340_CPUAPP config SOC_DCDC_NRF53X_APP bool imply SOC_NRF53_ANOMALY_160_WORKAROUND_NEEDED select DEPRECATED help This option is deprecated, use devicetree instead. Example configuration: &vregmain { regulator-initial-mode = ; }; Enable nRF53 series System on Chip Application MCU DC/DC converter. config SOC_DCDC_NRF53X_NET bool imply SOC_NRF53_ANOMALY_160_WORKAROUND_NEEDED select DEPRECATED help This option is deprecated, use devicetree instead. Example configuration: &vregradio { regulator-initial-mode = ; }; Enable nRF53 series System on Chip Network MCU DC/DC converter. config SOC_DCDC_NRF53X_HV bool select DEPRECATED help This option is deprecated, use devicetree instead. Example configuration: &vregh { status = "okay"; }; Enable nRF53 series System on Chip High Voltage DC/DC converter. config NRF_SPU_FLASH_REGION_SIZE hex default 0x4000 help FLASH region size for the NRF_SPU peripheral config NRF_SPU_RAM_REGION_SIZE hex default 0x2000 help RAM region size for the NRF_SPU peripheral config SOC_NRF_GPIO_FORWARDER_FOR_NRF5340 bool "Forward GPIO pins to network core" depends on NRF_SOC_SECURE_SUPPORTED default y if $(dt_compat_enabled,$(DT_COMPAT_NORDIC_NRF_GPIO_FORWARDER)) help Will forward configured pins with the forwarder compatible to the network core for usage. config SOC_NRF53_CPUNET_MGMT bool select ONOFF help hidden option for including the nRF53 network CPU management config SOC_NRF53_CPUNET_ENABLE bool "NRF53 Network MCU is enabled at boot time" depends on !BT default y if NRF_802154_SER_HOST select SOC_NRF53_CPUNET_MGMT select SOC_NRF_GPIO_FORWARDER_FOR_NRF5340 if \ $(dt_compat_enabled,$(DT_COMPAT_NORDIC_NRF_GPIO_FORWARDER)) help This option enables releasing the Network 'force off' signal, which as a consequence will power up the Network MCU during system boot. Additionally, the option allocates GPIO pins that will be used by UARTE of the Network MCU. Note: GPIO pin allocation can only be configured by the secure Application MCU firmware, so when this option is used with the non-secure version of the board, the application needs to take into consideration, that the secure firmware image must already have configured GPIO allocation for the Network MCU. config BOARD_ENABLE_CPUNET bool "[DEPRECATED] NRF53 Network MCU is enabled at boot time" select SOC_NRF53_CPUNET_ENABLE select DEPRECATED depends on !BT help Use SOC_NRF53_CPUNET_ENABLE instead. if !TRUSTED_EXECUTION_NONSECURE || BUILD_WITH_TFM config SOC_ENABLE_LFXO bool "LFXO" select DEPRECATED help This option is deprecated, use DT instead. For this option to apply, make sure to select either "internal" or "external" in the load-capacitors property. Enable the low-frequency oscillator (LFXO) functionality on XL1 and XL2 pins. This option must be enabled if either application or network core is to use the LFXO. Otherwise, XL1 and XL2 pins will behave as regular GPIOs. choice SOC_LFXO_LOAD_CAPACITANCE prompt "LFXO load capacitance" depends on SOC_ENABLE_LFXO config SOC_LFXO_CAP_EXTERNAL bool "Use external load capacitors" select DEPRECATED help This option is deprecated, use DT instead. Example configuration: &lfxo { load-capacitors = "external"; }; config SOC_LFXO_CAP_INT_6PF bool "6 pF internal load capacitance" select DEPRECATED help This option is deprecated, use DT instead. Example configuration: &lfxo { load-capacitors = "internal"; load-capacitance-picofarad = <6>; }; config SOC_LFXO_CAP_INT_7PF bool "7 pF internal load capacitance" select DEPRECATED help This option is deprecated, use DT instead. Example configuration: &lfxo { load-capacitors = "internal"; load-capacitance-picofarad = <7>; }; config SOC_LFXO_CAP_INT_9PF bool "9 pF internal load capacitance" select DEPRECATED help This option is deprecated, use DT instead. Example configuration: &lfxo { load-capacitors = "internal"; load-capacitance-picofarad = <9>; }; endchoice choice SOC_HFXO_LOAD_CAPACITANCE prompt "HFXO load capacitance" default SOC_HFXO_CAP_DEFAULT config SOC_HFXO_CAP_DEFAULT bool "SoC default" help This option is deprecated, use DT instead. For this configuration to apply, no DT changes are required from the SoC DT file defaults. When this option is used, the SoC initialization routine does not touch the XOSC32MCAPS register value, so the default setting for the SoC is in effect. Please note that this may not necessarily be the reset value (0) for the register, as the register can be set during the device trimming in the SystemInit() function. config SOC_HFXO_CAP_EXTERNAL bool "Use external load capacitors" select DEPRECATED help This option is deprecated, use DT instead. Example configuration: &hfxo { load-capacitors = "external"; }; config SOC_HFXO_CAP_INTERNAL bool "Use internal load capacitors" depends on NRF_SOC_SECURE_SUPPORTED select DEPRECATED help This option is deprecated, use DT instead. Example configuration: &hfxo { load-capacitors = "internal"; ... }; See CONFIG_SOC_HFXO_CAP_INT_VALUE_X2 for more information. endchoice config SOC_HFXO_CAP_INT_VALUE_X2 int "Doubled value of HFXO internal load capacitors (in pF)" depends on SOC_HFXO_CAP_INTERNAL range 14 40 help This option is deprecated, use DT instead. Example configuration: &hfxo { load-capacitors = "internal"; load-capacitance-femtofarad = <7000>; }; Internal capacitors ranging from 7.0 pF to 20.0 pF in 0.5 pF steps can be enabled on pins XC1 and XC2. This option specifies doubled capacitance value for the two capacitors. Set it to 14 to get 7.0 pF for each capacitor, 15 to get 7.5 pF, and so on. endif # !TRUSTED_EXECUTION_NONSECURE || BUILD_WITH_TFM endif # SOC_NRF5340_CPUAPP config NRF_ENABLE_CACHE bool "Cache" depends on (SOC_NRF5340_CPUAPP && (!TRUSTED_EXECUTION_NONSECURE || BUILD_WITH_TFM)) \ || SOC_NRF5340_CPUNET default y help Instruction and Data cache is available on nRF5340 CPUAPP (Application MCU). It may only be accessed by Secure code. Instruction cache only (I-Cache) is available in nRF5340 CPUNET (Network MCU). config BUILD_WITH_TFM # TF-M nRF53 platform enables the cache unconditionally. select NRF_ENABLE_CACHE if SOC_NRF5340_CPUAPP rsource "Kconfig.sync_rtc" endif # SOC_SERIES_NRF53X