Searched +full:connector +full:- +full:control (Results 1 – 25 of 188) sorted by relevance
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| /Zephyr-latest/dts/bindings/usb/uac2/ |
| D | zephyr,uac2-output-terminal.yaml | 2 # SPDX-License-Identifier: Apache-2.0
6 compatible: "zephyr,uac2-output-terminal"
9 terminal-type:
15 assoc-terminal:
20 data-source:
26 clock-source:
32 copy-protect-control:
34 description: Copy Protect Control capabilities
36 - "host-programmable"
38 connector-control:
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| D | zephyr,uac2-input-terminal.yaml | 2 # SPDX-License-Identifier: Apache-2.0
6 compatible: "zephyr,uac2-input-terminal"
8 include: zephyr,uac2-channel-cluster.yaml
11 terminal-type:
17 assoc-terminal:
20 Associated terminal for bi-directional terminal types.
22 clock-source:
28 copy-protect-control:
30 description: Copy Protect Control capabilities
32 - "read-only"
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| D | zephyr,uac2-clock-source.yaml | 2 # SPDX-License-Identifier: Apache-2.0
6 compatible: "zephyr,uac2-clock-source"
9 clock-type:
17 - "external"
18 - "internal-fixed"
19 - "internal-variable"
20 - "internal-programmable"
22 sof-synchronized:
28 frequency-control:
30 description: Clock Frequency Control capabilities
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| /Zephyr-latest/boards/renesas/mck_ra8t1/doc/ |
| D | index.rst | 9 The **MCK-RA8T1** is a development kit that enables easy evaluation of motor control using permanen…
11 found here: `MCK-RA8T1 Website`_
13 MCK-RA8T1 kit includes the items below:
15 - RA8T1 CPU board (`MCB-RA8T1`_)
16 - Inverter board (`MCI-LV-1`_)
17 - Communication board (`MC-COM`_)
18 - Permanent magnet synchronous motors
19 - Accessories (cables, standoffs, etc.)
25 MCK-RA8T1 product contents (Credit: Renesas Electronics Corporation)
27 **MCB-RA8T1** is a CPU board for motor control equipped with RA8T1. Motor control using RA8T1 can b…
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| /Zephyr-latest/doc/hardware/peripherals/ |
| D | tcpc.rst | 3 USB Type-C Port Controller (TCPC)
9 `TCPC <tcpc-specification_>`_ (USB Type-C Port Controller)
10 The TCPC is a device used to simplify the implementation of a USB-C system
13 * VBUS and VCONN control `USB Type-C <usb-type-c-specification_>`_:
14 The TCPC may provide a Source device, the mechanism to control VBUS sourcing,
15 and a Sink device, the mechanism to control VBUS sinking. A similar mechanism
16 is provided for the control of VCONN.
18 * CC control and sensing:
19 The TCPC implements logic for controlling the CC pin pull-up and pull-down
23 * Power Delivery message reception and transmission `USB Power Delivery <usb-pd-specification_>`_:
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| /Zephyr-latest/boards/shields/nrf7002eb/doc/ |
| D | index.rst | 10 compatible Nordic host boards, like the Thingy53, using the Nordic edge-connector.
12 The nRF7002 EB unlocks low-power Wi-Fi 6 capabilities for your host device. It support dual-band Wi…
14 Seamlessly connect to Wi-Fi networks and leverage Wi-Fi-based locationing, enabling advanced
15 features such as SSID sniffing of local Wi-Fi hubs
26 The nRF7002 EB board is designed to fit straight into a Nordic edge-connector and uses SPI as the
27 communication interface. Any host board that supports the Nordic edge-connector can be used with
31 -------------
33 the nRF70 driver requires firmware binary blobs for Wi-Fi operation. Run the command
36 .. code-block:: console
44 The shield can be used in any application by setting ``--shield nrf7002eb`` when invoking ``west bu…
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| /Zephyr-latest/boards/st/stm3210c_eval/doc/ |
| D | index.rst | 5 The STM3210C-EVAL evaluation board is a complete development platform for STMicroelectronic's
6 ARM Cortex-M3 core-based STM32F107VCT microcontroller.
9 (USB-OTG FS, ethernet, motor control, CAN, microSD CardTM, smartcard, USART,
15 More information about the board can be found at the `STM3210C-EVAL website`_.
20 STM3210C-EVAL provides the following hardware components:
22 - Three 5 V power supply options:
23 - Power jack
24 - USB connector
25 - daughterboard
26 - Boot from user Flash, system memory or SRAM.
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| /Zephyr-latest/boards/st/stm32f072_eval/doc/ |
| D | index.rst | 6 The STM32F072-EVAL Discovery kit features an ARM Cortex-M0 based STM32F072VBT6 MCU
8 Here are some highlights of the STM32F072-EVAL board:
10 - Four 5 V power supply options: power jack, ST-LINK/V2 USB connector, user USB connector, or daugh…
11 - Stereo audio jack, which supports a headset with microphone connected to DAC and ADC of STM32F072…
12 - 2G Byte (or more) SPI interface MicroSD card
13 - I2C compatible serial interface temperature sensor
14 - RF E2PROM
15 - RS232 and RS485 communication
16 - IrDA transceiver
17 - IR LED and IR receiver
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| /Zephyr-latest/include/zephyr/usb_c/ |
| D | usbc.h | 3 * SPDX-License-Identifier: Apache-2.0
8 * @brief USB-C Device APIs
10 * This file contains the USB-C Device APIs.
26 * @brief USB-C Device APIs
27 * @defgroup _usbc_device_api USB-C Device API
56 /** Request Type-C layer to transition to Disabled State */
58 /** Request Type-C layer to transition to Error Recovery State */
60 /** End of Type-C requests */
142 /** Check if should control VCONN */
180 * @param dev USB-C Connector Instance
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| /Zephyr-latest/dts/bindings/gpio/ |
| D | nxp,lcd-8080.yaml | 2 # SPDX-License-Identifier: Apache-2.0
5 compatible: "nxp,lcd-8080"
8 GPIO pins exposed on NXP LCD 8080 interface (e.g., used on LCD-PAR-035 panel).
9 These pins are exposed on a 32 pin connector. The pins have the
22 10 GPIO to control LCD backlight
29 17-32 LCD 8080 interface D0 - D15
31 include: [gpio-nexus.yaml, base.yaml]
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| D | sparkfun,micromod-gpio.yaml | 2 # SPDX-License-Identifier: Apache-2.0
7 The micromod standard leverages the M.2 connector with 76 pins for
12 * An 6-pin Power Supply header. No pins on this header are exposed
19 * 2 SPI buses not exposed by this binding. Only SPI CS control pin
24 * 12 General purpose pins (G0 - G11).
29 - 00 -> A0 PIN 34
30 - 01 -> A1 PIN 38
31 - 02 -> D0 PIN 10
32 - 03 -> D1/CAM_TRIG PIN 18
33 - 04 -> I2C_INT# PIN 16
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| /Zephyr-latest/dts/bindings/usb-c/ |
| D | usb-c-connector.yaml | 2 # SPDX-License-Identifier: Apache-2.0
5 A USB Type-C connector node represents a physical USB Type-C connector.
6 It should be a child of a USB-C interface controller or a separate node
7 when it is attached to both MUX and USB-C interface controller.
10 …el/git/torvalds/linux.git/tree/Documentation/devicetree/bindings/connector/usb-connector.yaml?h=v5…
14 USB-C connector attached to a STM32 UCPD typec port controller, which has
18 compatible = "zephyr,usb-c-vbus-adc";
19 io-channels = <&adc2 8>;
20 output-ohms = <49900>;
21 full-ohms = <(330000 + 49900)>;
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| /Zephyr-latest/boards/phytec/phyboard_polis/ |
| D | phyboard_polis_mimx8mm6_m4.dts | 2 * Copyright (c) 2022-2024 PHYTEC Messtechnik GmbH
4 * SPDX-License-Identifier: Apache-2.0
7 /dts-v1/;
10 #include "phyboard_polis-pinctrl.dtsi"
13 model = "phyBOARD-Polis i.MX8M Mini";
17 uart-4 = &uart4;
18 uart-3 = &uart3;
19 uart-2 = &uart2;
20 uart-1 = &uart1;
28 zephyr,shell-uart = &uart4;
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| /Zephyr-latest/samples/subsys/usb_c/sink/boards/ |
| D | stm32g081b_eval.overlay | 4 * SPDX-License-Identifier: Apache-2.0
8 #include <dt-bindings/usb-c/pd.h>
12 usbc-port0 = &port1;
16 compatible = "zephyr,usb-c-vbus-adc";
17 io-channels = <&adc1 9>;
18 output-ohms = <49900>;
19 full-ohms = <(330000 + 49900)>;
21 /* Pin B13 is used to control VBUS Discharge for Port1 */
22 discharge-gpios = <&gpiob 13 GPIO_ACTIVE_HIGH>;
26 #address-cells = <1>;
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| /Zephyr-latest/boards/shields/nrf7002ek/doc/ |
| D | index.rst | 10 Nordic and non-Nordic host boards.
12 The nRF7002 EK unlocks low-power Wi-Fi 6 capabilities for your host device. It support dual-band Wi…
14 Seamlessly connect to Wi-Fi networks and leverage Wi-Fi-based locationing, enabling advanced
15 features such as SSID sniffing of local Wi-Fi hubs
26 The nRF7002 EK board is designed to fit straight into an Arduino connector and uses SPI as the
27 communication interface. Any host board that supports the Arduino connector can be used with
31 -------------
33 the nRF70 driver requires firmware binary blobs for Wi-Fi operation. Run the command
36 .. code-block:: console
44 The shield can be used in any application by setting ``--shield nrf7002ek`` when invoking ``west bu…
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| /Zephyr-latest/boards/st/stm32g081b_eval/doc/ |
| D | index.rst | 5 The STM32G081B-EVAL Evaluation board is a high-end development platform, for
6 Arm Cortex-M0+ core-based STM32G081RBT6 microcontroller, with USB Type-C and
7 power delivery controller interfaces (UCPD), compliant with USB type-C r1.2
9 one 12-bit ADC, two 12-bit DACs, two GP comparators, two LP timers, internal
11 hardware features on the STM32G081B-EVAL Evaluation board includes a mother
12 board, a legacy peripheral daughterboard and a USB-C and Power Delivery
13 daughterboard, which help to evaluate all peripherals (USB Type-C connector
14 with USB PD, motor control connector, RS232, RS485, Audio DAC, microphone ADC,
19 The board integrates an ST-LINK/V2-1 as an embedded in-circuit debugger and
24 The USB-C and Power Delivery daughterboard
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| /Zephyr-latest/samples/boards/nordic/dynamic_pinctrl/ |
| D | README.rst | 1 .. zephyr:code-sample:: nrf_dynamic_pinctrl
2 :name: Dynamic Pin Control
6 The Dynamic Pin Control (nRF) sample demonstrates how to change ``uart0`` at
8 push-button.
22 The Dynamic Pin Control (nRF) sample allows you to select the appropriate routing.
38 .. figure:: images/nrf52840dk-dynamic-pinctrl.webp
44 connector as a virtual COM port.
54 .. zephyr-app-commands::
55 :zephyr-app: samples/boards/nordic/dynamic_pinctrl
69 1. Connect a USB-to-UART adapter to both sets of pins. If the board routes the
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| /Zephyr-latest/boards/renesas/ek_ra6m5/doc/ |
| D | index.rst | 9 The Renesas RA6M5 group uses the high-performance Arm® Cortex®-M33 core with
14 The key features of the EK-RA6M5 board are categorized in three groups as follow:
18 - 200MHz Arm Cortex-M33 based RA6M5 MCU in 176 pins, LQFP package
19 - Native pin access through 4 x 40-pin male headers
20 - MCU current measurement points for precision current consumption measurement
21 - Multiple clock sources - RA6M5 MCU oscillator and sub-clock oscillator crystals,
25 **System Control and Ecosystem Access**
27 - USB Full Speed Host and Device (micro-AB connector)
28 - Four 5V input sources
30 - USB (Debug, Full Speed, High Speed)
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| /Zephyr-latest/boards/cypress/cy8ckit_062_wifi_bt/doc/ |
| D | index.rst | 3 INFINEON PSOC 6 WiFi-BT Pioneer Kit
9 The PSOC 6 WiFi-BT Pioneer Kit (CY8CKIT-062-WiFi-BT) is a low-cost hardware
13 The PSOC 6 WiFi-BT Pioneer Kit features the PSOC 62 MCU: a
14 dual-core MCU, with a 150-MHz Arm Cortex-M4 as the primary application
15 processor and a 100-MHz Arm Cortex-M0+ that supports low-power operations,
17 56 programmable digital blocks, Full-Speed USB, a serial memory interface,
18 a PDM-PCM digital microphone interface, and industry-leading capacitive-sensing
21 The PSOC 6 WiFi-BT Pioneer board offers compatibility with Arduino shields.
23 The Cortex-M0+ is a primary core on the board's SoC. It starts first and
32 3. KitProg2 USB Type-C connector (J10)
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| /Zephyr-latest/boards/st/stm32373c_eval/doc/ |
| D | index.rst | 5 …e STM32373C-EVAL evaluation board is designed as a complete demonstration and development platform…
7 …user evaluate all peripherals (USB FS, USART, audio DAC, microphone ADC, dot-matrix LCD, IrDA, LDR…
11 More information about the board can be found at the `STM32373C-EVAL website`_.
16 STM32373C-EVAL provides the following hardware components:
18 - STM32F373VCT6 microcontroller
19 - Four 5 V power supply options:
20 - Power jack
21 - ST-LINK/V2 USB connector
22 - User USB connector
23 - Daughter board
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| /Zephyr-latest/boards/renesas/ek_ra4m2/doc/ |
| D | index.rst | 9 The Renesas RA4M2 group of 32-bit microcontrollers (MCUs) uses the high-performance Arm
10 Cortex®-M33 core. In concert with the secure crypto engine, it offers secure element
16 The MCU in this series incorporates a high-performance Arm Cortex®-M33 core running up to
20 - R7FA4M2AD3CFP
21 - 100-pin LQFP package
22 - 100 MHz Arm® Cortex®-M33 core
23 - 512 kB Code Flash, 128 KB SRAM
24 - Native pin access through 4 x 28-pin male headers
25 - MCU current measurement points for precision current consumption measurement
26 - Multiple clock sources - RA MCU oscillator and sub-clock oscillator crystals, providing
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| /Zephyr-latest/boards/renesas/ek_ra6m4/doc/ |
| D | index.rst | 9 The Renesas RA6M4 group uses the high-performance Arm® Cortex®-M33
18 The key features of the EK-RA6M4 board are categorized in three groups as follow:
22 - 200MHz Arm Cortex-M33 based RA6M4 MCU in 144 pins, LQFP package
23 - Native pin access through 4 x 40-pin male headers
24 - MCU current measurement points for precision current consumption measurement
25 - Multiple clock sources - RA6M4 MCU oscillator and sub-clock oscillator crystals,
29 **System Control and Ecosystem Access**
31 - USB Full Speed Host and Device (micro-AB connector)
32 - Three 5 V input sources
34 - USB (Debug, Full Speed)
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| /Zephyr-latest/boards/renesas/ek_ra4e2/doc/ |
| D | index.rst | 9 The RA4E2 Group delivers up to 100 MHz of CPU performance using an Arm® Cortex®-M33 core
11 offer high-performance and optimized peripheral functions along with the smallest package
12 options, including space-saving 36-pin BGA and 32-pin QFN packages. The RA4E2
15 The MCU in this series incorporates a high-performance Arm Cortex®-M33 core running up to
19 - R7FA4E2B93CFM MCU (referred to as RA MCU)
20 - 100 MHz, Arm® Cortex®-M33 core
21 - 128 kB Code Flash, 40 kB SRAM
22 - 64 pins, LQFP package
23 - Native pin access through 2 x 14-pin and 1 x 40-pin male headers
24 - MCU current measurement points for precision current consumption measurement
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| /Zephyr-latest/boards/renesas/ek_ra6e2/doc/ |
| D | index.rst | 9 The EK-RA6E2, an Evaluation Kit for RA6E2 MCU Group, enables users to
12 and e2 studio IDE. The users can use rich on-board features along with
13 their choice of popular ecosystems add-ons to bring their big ideas to life
15 The key features of the EK-RA6E2 board are categorized in three groups as follow:
19 - 200MHz Arm Cortex-M33 based RA6E2 MCU in 64 pins, LQFP package
20 - 256 kB Code Flash, 40 kB SRAM
21 - Native pin access through 2 x 14-pin and 1 x 40-pin male headers
22 - MCU current measurement points for precision current consumption measurement
23 - Multiple clock sources - RA6E2 MCU oscillator and sub-clock oscillator crystals,
27 **System Control and Ecosystem Access**
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| /Zephyr-latest/boards/renesas/ek_ra8m1/doc/ |
| D | index.rst | 9 The EK-RA8M1 is an Evaluation Kit for Renesas RA8M1 MCU Group which is the first
10 32-bits MCUs based on new Arm Cortex-M85. The kit offer multiple external interface
14 The key features of the EK-RA8M1 board are categorized in three groups as follow:
18 - 480MHz Arm Cortex-M85 based RA8M1 MCU in 224 pins, BGA package
19 - Native pin acces througgh 2 x 50-pin, and 2 x 40-pin male headers
20 - MCU current measurement points for precision current consumption measurement
21 - Multiple clock sources - RA8M1 MCU oscillator and sub-clock oscillator crystals,
25 **System Control and Ecosystem Access**
27 - USB Full Speed Host and Device (micro-AB connector)
28 - Four 5V input sources
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