Searched full:mcu (Results 1 – 25 of 1826) sorted by relevance
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16 #define IOC_PORT_MCU_SSI0_RX 0x00000009 /* MCU SSI0 Receive Pin */17 #define IOC_PORT_MCU_SSI0_TX 0x0000000A /* MCU SSI0 Transmit Pin */18 #define IOC_PORT_MCU_SSI0_FSS 0x0000000B /* MCU SSI0 FSS Pin */19 #define IOC_PORT_MCU_SSI0_CLK 0x0000000C /* MCU SSI0 Clock Pin */20 #define IOC_PORT_MCU_I2C_MSSDA 0x0000000D /* MCU I2C Data Pin */21 #define IOC_PORT_MCU_I2C_MSSCL 0x0000000E /* MCU I2C Clock Pin */22 #define IOC_PORT_MCU_UART0_RX 0x0000000F /* MCU UART0 Receive Pin */23 #define IOC_PORT_MCU_UART0_TX 0x00000010 /* MCU UART0 Transmit Pin */24 #define IOC_PORT_MCU_UART0_CTS 0x00000011 /* MCU UART0 Clear To Send Pin */25 #define IOC_PORT_MCU_UART0_RTS 0x00000012 /* MCU UART0 Request To Send Pin */[all …]
33 On a multi MCU device, which MCU is the preferred one.34 This MCU will for example have its tests command line parameters presented35 without any prefix. Note that an MCU being primary does not imply it will be45 have it produce the final link with the native simulator runner and the other MCU images.48 bool "Auto-start this MCU"51 Automatically start the MCU this Zephyr image is built for during HW boot,52 even if in other circumstances this MCU would not start automatically (for ex. because54 If that MCU was, by HW design, going to start at HW boot anyhow, this option does nothing.
28 Enable support for NRF51 MCU series34 Enable support for NRF52 MCU series40 Enable support for NRF53 MCU series46 Nordic Semiconductor nRF54H series MCU52 Nordic Semiconductor nRF54L series MCU58 Enable support for NRF91 MCU series64 Enable support for NRF92 MCU series
16 def __init__(self, cfg, mcu, teensy_loader): argument19 self.mcu_args = ['--mcu', mcu]29 parser.add_argument('--mcu', required=True,30 help='Teensy mcu target')37 cfg, args.mcu,
5 bool "MAX32 MCU SPI controller driver"15 bool "MAX32 MCU SPI Interrupt Support"17 Enable interrupt support for MAX32 MCU SPI driver.20 bool "MAX32 MCU SPI DMA Support"24 Enable DMA support for MAX32 MCU SPI driver.
18 bool "RA MCU SPI Interrupt Support"23 bool "RA MCU SPI DTC Support"29 bool "RA MCU SPI Hardware Slave Select support"
18 bool "RA MCU SPI B Interrupt Support"23 bool "RA MCU SPI DTC Support"30 bool "RA MCU SPI B Hardware Slave Select support"
7 bool "STM32 MCU SPI controller driver"18 bool "STM32 MCU SPI Interrupt Support"23 bool "STM32 MCU SPI DMA Support"
22 /* Put the Network MCU in Forced-OFF mode. */ in bt_hci_transport_teardown()24 LOG_DBG("Network MCU placed in Forced-OFF mode"); in bt_hci_transport_teardown()37 /* Retain nRF5340 Network MCU in Secure domain (bus in bt_hci_transport_setup()38 * accesses by Network MCU will have Secure attribute set). in bt_hci_transport_setup()43 /* Release the Network MCU, 'Release force off signal' */ in bt_hci_transport_setup()
19 **MCU Native Pin Access**28 - A Device USB connector for the Main MCU29 - S124 MCU-based SEGGER J-Link® On-Board interface for debugging and programming of the30 RA6M1 MCU. A 10-pin JTAG/SWD interface is also provided for connecting optional external34 - Pin headers for access to power and signals for the Main MCU37 - Main MCU oscillator crystals, providing precision 12.000 MHz and 32,768 Hz external reference39 - Additional low-precision clocks are available internal to the Main MCU42 - One jumper to allow measuring of Main MCU current43 - Copper jumpers on PCB bottom side for configuration and access to selected MCU signals50 - A red User LED, controlled by the Main MCU firmware[all …]
1 # Nordic Semiconductor nRF53 MCU line19 Enable support for NRF53 MCU series51 This option is enabled by default for the Application MCU when53 and always for the Network MCU.124 Enable nRF53 series System on Chip Application MCU DC/DC converter.138 Enable nRF53 series System on Chip Network MCU DC/DC converter.179 bool "NRF53 Network MCU is enabled at boot time"184 as a consequence will power up the Network MCU during system boot.186 of the Network MCU.188 MCU firmware, so when this option is used with the non-secure version of[all …]
10 platform that enables design and debug of the PSOC 62 MCU and the Murata13 The PSOC 6 WiFi-BT Pioneer Kit features the PSOC 62 MCU: a14 dual-core MCU, with a 150-MHz Arm Cortex-M4 as the primary application71 For more information about the PSOC 62 MCU SoC and CY8CKIT-062-WiFi-BT board:73 - `PSOC 62 MCU SoC Website`_74 - `PSOC 62 MCU Datasheet`_75 - `PSOC 62 MCU Architecture Reference Manual`_76 - `PSOC 62 MCU Register Reference Manual`_108 The PSOC 62 MCU SoC is configured to use the internal IMO+FLL as a source for115 The PSOC 62 MCU SoC has 9 SCB blocks 8 of each can be configured as UART[all …]
9 The FPB-RA6E2, a Fast Prototyping Board for RA6E2 MCU Group, based on11 seamlessly evaluate the features of the RA6E2 MCU group and develop18 **MCU Native Pin Access**20 - 200MHz Arm Cortex-M33 based RA6E2 MCU in 64 pins, LQFP package23 - MCU current measurement point for precision current consumption measurement24 - Multiple clock sources - RA6E2 MCU oscillator and sub-clock oscillator crystals,26 Additional low precision clocks are avaialbe internal to the RA6E2 MCU51 - MCU boot configuration jumper61 Detailed hardware feature for the RA6E2 MCU group can be found at `RA6E2 Group User's Manual Hardwa…66 :alt: RA6E2 MCU group feature[all …]
60 eXecutes-In-Place (XIP) from the external flash. When the MCU wakes from62 reset, the MCU and flash are no longer in sync, and the MCU cannot XIP.63 In this default state, one can confirm the RTC is waking the MCU from64 DPD because the MCU will set the PMIC_MODE pins to 0b00 requesting the66 regulator driving the VDDCORE rail at 1.0V. However, the MCU will not be70 To wake from DPD and resume XIP from the flash, the MCU needs to be72 the One-Time-Programmable (OTP) fuses in the MCU. The steps below detail77 using this MCU may use a different GPIO pin, and the setting in the OTP82 the Reference Manual for this MCU, and the OTP Fuse Map spreadsheet97 blhost documentation and the Boot ROM chapter in the MCU Reference[all …]
15 The MCU in this series incorporates a high-performance Arm Cortex®-M33 core running up to18 **MCU Native Pin Access**19 - R7FA4E2B93CFM MCU (referred to as RA MCU)24 - MCU current measurement points for precision current consumption measurement25 - Multiple clock sources - RA MCU oscillator and sub-clock oscillator crystals, providing precision27 RA MCU58 - MCU boot configuration jumper72 Detail Hardware feature for the RA4E2 MCU group can be found at `RA4E2 Group User's Manual Hardware…77 :alt: RA4E2 MCU group feature81 Detail Hardware feature for the EK-RA4E2 MCU can be found at `EK-RA4E2 - User's Manual`_[all …]
9 The EK-RA6E2, an Evaluation Kit for RA6E2 MCU Group, enables users to10 seamlessly evaluate the features of the RA6E2 MCU group and develop17 **MCU Native Pin Access**19 - 200MHz Arm Cortex-M33 based RA6E2 MCU in 64 pins, LQFP package22 - MCU current measurement points for precision current consumption measurement23 - Multiple clock sources - RA6E2 MCU oscillator and sub-clock oscillator crystals,25 Additional low precision clocks are avaialbe internal to the RA6E2 MCU57 - MCU boot configuration jumper72 Detailed hardware feature for the RA6E2 MCU group can be found at `RA6E2 Group User's Manual Hardwa…77 :alt: RA6E2 MCU group feature[all …]
16 **MCU Native Pin Access**18 - 120MHz Arm Cortex-M4 based RA6M2 MCU in 144 pins, LQFP package20 - MCU and USB current measurement points for precision current consumption measurement21 - Multiple clock sources - RA6M2 MCU oscillator and sub-clock oscillator crystals,23 Additional low precision clocks are avaialbe internal to the RA6M2 MCU48 - MCU boot configuration jumper62 Detailed hardware feature for the RA6M2 MCU group can be found at `RA6M2 Group User's Manual Hardwa…67 :alt: RA6M2 MCU group feature71 Detailed hardware feature for the EK-RA6M2 MCU can be found at `EK-RA6M2 - User's Manual`_150 - `RA6M2 MCU group Website`_[all …]
9 The EK-RA8M1 is an Evaluation Kit for Renesas RA8M1 MCU Group which is the first12 of the RA8M1 MCU and develop embedded system application in various field.16 **MCU Native Pin Access**18 - 480MHz Arm Cortex-M85 based RA8M1 MCU in 224 pins, BGA package20 - MCU current measurement points for precision current consumption measurement21 - Multiple clock sources - RA8M1 MCU oscillator and sub-clock oscillator crystals,23 Additional low precision clocks are avaialbe internal to the RA8M1 MCU55 - MCU boot configuration jumper61 - 512 Mb (64 MB) External Octo-SPI Flash (present in the MCU Native Pin Access area of the EK-RA8M1…72 Detail Hardware feature for the RA8M1 MCU group can be found at `RA8M1 Group User's Manual Hardware…[all …]
2 name: PAN1783-EVB-network-MCU3 type: mcu
2 name: PAN1783A-EVB-network-MCU3 type: mcu
2 name: PAN1783A-PA-EVB-network-MCU3 type: mcu
2 name: Thingy53-NRF5340-network-MCU3 type: mcu
2 name: NRF5340-AUDIO-DK-NRF5340-network-MCU3 type: mcu
2 name: NRF7002-DK-NRF5340-network-MCU3 type: mcu
2 name: NRF5340-DK-NRF5340-network-MCU3 type: mcu
