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/Zephyr-latest/dts/bindings/regulator/
Dnordic,npm1300-regulator.yaml2 # SPDX-License-Identifier: Apache-2.0
16 compatible = "nordic,npm1300-regulator";
33 compatible: "nordic,npm1300-regulator"
38 dvs-gpios:
39 type: phandle-array
41 List of SOC GPIOs connected to PMIC GPIOs.
47 The effect of the mode change is defined by the enable-gpios
50 child-binding:
52 - name: regulator.yaml
53 property-allowlist:
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/Zephyr-latest/samples/shields/npm1300_ek/
Dnrf52dk_nrf52832.overlay3 * SPDX-License-Identifier: Apache-2.0
7 bias-pull-up;
12 dvs-gpios = <&gpio0 17 GPIO_ACTIVE_LOW>,
17 regulator-init-microvolt = <2000000>;
21 regulator-init-microvolt = <3300000>;
22 retention-microvolt = <2500000>;
23 enable-gpios = <&npm1300_ek_gpio 1 GPIO_ACTIVE_LOW>;
24 retention-gpios = <&npm1300_ek_gpio 2 GPIO_ACTIVE_HIGH>;
25 pwm-gpios = <&npm1300_ek_gpio 2 GPIO_ACTIVE_LOW>;
29 regulator-initial-mode = <NPM1300_LDSW_MODE_LDO>;
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/Zephyr-latest/dts/bindings/gpio/
Dnxp,pcal64xxa-base.yaml3 # SPDX-License-Identifier: Apache-2.0
5 include: [i2c-device.yaml, gpio-controller.yaml]
8 int-gpios:
9 type: phandle-array
11 GPIO connected to the controller INT pin. This pin is active-low.
13 reset-gpios:
14 type: phandle-array
16 GPIO connected to the controller RESET pin. This pin is active-low.
18 no-auto-reset:
22 of for instance an external state retention of the port expander. If
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/Zephyr-latest/modules/openthread/platform/
Dmisc.c4 * SPDX-License-Identifier: Apache-2.0
14 #include <zephyr/retention/bootmode.h>
21 "`bootloader-gpios` property missing from `openthread,config` compatible node");
30 #include "platform-zephyr.h"
56 * `compatible = "openthread,config"` property and `bootloader-gpios` property, in otPlatResetToBootloader()
63 * bootloader-gpios = <&gpio0 0 GPIO_ACTIVE_HIGH>; in otPlatResetToBootloader()
69 * Configuring pin flags in `bootloader-gpios` allows to choose in otPlatResetToBootloader()
/Zephyr-latest/boards/adi/max32655fthr/doc/
Dindex.rst6 ultra low-power wireless solutions using MAX32655 Arm© Cortex®-M4F and Bluetooth® 5.2 Low Energy (L…
8 The form factor is a small 0.9in x 2.6in dual-row header footprint that is compatible
12 The MAX32655FTHR provides a power-optimized flexible platform for quick proof-of-concepts and
34 - MAX32655 MCU:
36 - Ultra-Low-Power Wireless Microcontroller
37 - Internal 100MHz Oscillator
38 - Flexible Low-Power Modes with 7.3728MHz System Clock Option
39 - 512KB Flash and 128KB SRAM (Optional ECC on One 32KB SRAM Bank)
40 - 16KB Instruction Cache
41 - Bluetooth 5.2 LE Radio
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/Zephyr-latest/boards/adi/max32655evkit/doc/
Dindex.rst6 of the MAX32655 microcontroller, which is an advanced system-on-chip (SoC).
7 It features an Arm® Cortex®-M4F CPU for efficient computation of complex functions and
9 Bluetooth® 5.0 Low Energy (Bluetooth LE), long-range radio for wearable and hearable device applica…
24 - MAX32655 MCU:
26 - Ultra-Low-Power Wireless Microcontroller
27 - Internal 100MHz Oscillator
28 - Flexible Low-Power Modes with 7.3728MHz System Clock Option
29 - 512KB Flash and 128KB SRAM (Optional ECC on One 32KB SRAM Bank)
30 - 16KB Instruction Cache
31 - Bluetooth 5.2 LE Radio
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/Zephyr-latest/boards/adi/max78002evkit/doc/
Dindex.rst10 are supported, while a pair of industry-standard QWIIC connectors supports a large and growing arra…
11 development boards. An onboard stereo audio codec offers line-level audio input and output, and tac…
12 provided by a touch-enabled 2.4in TFT display. The MAX78002 energy consumption is tracked by a powe…
13 with four channels of formatted results presented on a secondary TFT display. All device GPIOs are …
14 … headers. A standard coaxial power jack serves as power input, using the included 5V, 3A wall-mount
32 - MAX78002 MCU:
34 - Dual-Core, Low-Power Microcontroller
36 - Arm Cortex-M4 Processor with FPU up to 120MHz
37 - 2.5MB Flash, 64KB ROM, and 384KB SRAM
38 - Optimized Performance with 16KB Instruction Cache
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/Zephyr-latest/doc/releases/
Drelease-notes-3.5.rst38 * CVE-2023-3725 `Zephyr project bug tracker GHSA-2g3m-p6c7-8rr3
39 <https://github.com/zephyrproject-rtos/zephyr/security/advisories/GHSA-2g3m-p6c7-8rr3>`_
41 * CVE-2023-4257 `Zephyr project bug tracker GHSA-853q-q69w-gf5j
42 <https://github.com/zephyrproject-rtos/zephyr/security/advisories/GHSA-853q-q69w-gf5j>`_
44 * CVE-2023-4258 `Zephyr project bug tracker GHSA-m34c-cp63-rwh7
45 <https://github.com/zephyrproject-rtos/zephyr/security/advisories/GHSA-m34c-cp63-rwh7>`_
47 * CVE-2023-4259 `Zephyr project bug tracker GHSA-gghm-c696-f4j4
48 <https://github.com/zephyrproject-rtos/zephyr/security/advisories/GHSA-gghm-c696-f4j4>`_
50 * CVE-2023-4260 `Zephyr project bug tracker GHSA-gj27-862r-55wh
51 <https://github.com/zephyrproject-rtos/zephyr/security/advisories/GHSA-gj27-862r-55wh>`_
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Drelease-notes-4.0.rst15 is now the standard way to provide device-specific protection to data at rest. (:github:`76222`)
18 :ref:`ZMS <zms_api>` is a new key-value storage subsystem compatible with all non-volatile storage
25 runtime configuration through vendor specific APIs. Initially the :dtcompatible:`nordic,nrf-comp`,
26 :dtcompatible:`nordic,nrf-lpcomp` and :dtcompatible:`nxp,kinetis-acmp` are supported.
31 Initially implemented drivers include a simple :dtcompatible:`zephyr,gpio-steppers` and a complex
32 sensor-less stall-detection capable with integrated ramp-controller :dtcompatible:`adi,tmc5041`.
50 directory for :zephyr:code-sample-category:`code samples <samples>`.
70 * :cve:`2024-8798`: Under embargo until 2024-11-22
71 * :cve:`2024-10395`: Under embargo until 2025-01-23
72 * :cve:`2024-11263` `Zephyr project bug tracker GHSA-jjf3-7x72-pqm9
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Drelease-notes-1.14.rst17 * CVE-2020-10066
18 * CVE-2020-10069
19 * CVE-2020-13601
20 * CVE-2020-13602
32 * :github:`issuenumber` - issue title
34 * :github:`18334` - DNS resolution is broken for some addresses in master/2.0-pre
35 * :github:`19917` - Bluetooth: Controller: Missing LL_ENC_RSP after HCI LTK Negative Reply
36 * :github:`21107` - LL_ASSERT and 'Imprecise data bus error' in LL Controller
37 * :github:`21257` - tests/net/net_pkt failed on mimxrt1050_evk board.
38 * :github:`21299` - bluetooth: Controller does not release buffer on central side after peripheral …
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/Zephyr-latest/boards/adi/max32662evkit/doc/
Dindex.rst6 the capabilities of the MAX32662 microcontroller, which is a cost-effective,
7 ultra-low power, highly integrated 32-bit microcontroller designed
8 for battery-powered edge devices.
15 - MAX32662 MCU:
17 - High-Efficiency Microcontroller for Low-Power High-Reliability Devices
19 - 256KB Flash
20 - 80KB SRAM, Optionally Preserved in LowestPower BACKUP Mode
21 - 16KB Unified Cache
22 - Memory Protection Unit (MPU)
23 - Dual- or Single-Supply Operation: 1.7V to 3.6V
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/Zephyr-latest/boards/adi/max32670evkit/doc/
Dindex.rst6 of the MAX32670. The MAX32670 is an ultra-low-power, cost-effective, highly reliable
7 32-bit microcontroller that enables designs with complex sensor processing without
9 with the powerful Arm® Cortex®-M4 core with floating point unit (FPU).
11 from 8-bit or 16-bit microcontrollers.
18 - MAX32670 MCU:
20 - High-Efficiency Microcontroller for Low-Power, High-Reliability Devices
22 - Arm Cortex-M4 Core with FPU up to 100MHz
23 - 384KB Flash Memory with Error Correction
24 - 160KB SRAM (128KB with ECC Enabled),Optionally Preserved in Lowest Power Modes
25 - 16KB Unified Cache with ECC
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/Zephyr-latest/boards/adi/max32680evkit/doc/
Dindex.rst8 which is an advanced system-on-chip (SoC)
10 and management is provided by a single-inductor
11 multiple-output (SIMO) buck regulator system and contains
20 - MAX32680 MCU:
22 - Ultra-Low-Power Wireless Microcontroller
24 - Internal 100MHz Oscillator
25 - 512KB Flash and 128KB SRAM, Optional ECC on One 32KB SRAM Bank
27 - Bluetooth 5.2 LE Radio
29 - Dedicated, Ultra-Low-Power, 32-Bit RISC-VCoprocessor to Offload
31 Timing-Critical Bluetooth Processing
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/Zephyr-latest/boards/adi/max32672evkit/doc/
Dindex.rst6 of the MAX32672 microcontroller, which is a small, high-reliability, ultra-low power,
7 32-bit microcontroller. The MAX32672 is a secure and cost-effective solution
8 for motion/motor control, industrial sensors, and battery-powered medical devices and offers legacy
9 designs an easy, cost-optimal upgrade path from 8-bit or 16-bit microcontrollers.
16 - MAX32672 MCU:
18 - High-Efficiency Microcontroller for Low-Power High-Reliability Devices
20 - Arm Cortex-M4 Processor with FPU up to 100MHz
21 - 1MB Dual-Bank Flash with Error Correction
22 - 200KB SRAM (160KB with ECC Enabled), Optionally Preserved in Lowest Power Modes
23 - EEPROM Emulation on Flash
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/Zephyr-latest/boards/adi/max32675evkit/doc/
Dindex.rst6 the MAX32675 microcontroller, which is a highly integrated, mixed-signal, ultralow-power
7 microcontroller designed for industrial and medical sensors. It contains an integrated, low-power
16 - MAX32675 MCU:
18 - Low-Power, High-Performance for IndustrialApplications
20 - 100MHz Arm Cortex-M4 with FPU
21 - 384KB Internal Flash
22 - 160KB SRAM
23 - 128kB ECC Enabled
24 - 44.1μA/MHz ACTIVE Mode at 0.9V up to 12MHzCoremark®
25 - 64.5μA/MHz ACTIVE Mode at 1.1V up to 100MHzCoremark
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/Zephyr-latest/boards/adi/max32666evkit/doc/
Dindex.rst6 high-efficiency Arm® microcontrollers and audio DSP for wearable and hearable device applications.
13 - MAX32666 MCU:
15 - High-Efficiency Microcontroller and Audio DSP for Wearable and Hearable Devices
17 - Arm Cortex-M4 with FPU Up to 96MHz
18 - Optional Second Arm Cortex-M4 with FPU Optimized for Data Processing
19 - Low-Power 7.3728MHz System Clock Option
20 - 1MB Flash, Organized into Dual Banks 2 x 512KB
21 - 560KB (448KB ECC) SRAM; 3 x 16KB Cache
22 - Optional Error Correction Code (ECC-SEC-DED)for Cache, SRAM, and Internal Flash
24 - Bluetooth 5 Low Energy Radio
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