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General| Clock Speed | Up to 480 MHz |
|---|---|
| Temperature Range | -40°C to +85°C / +105°C / +125°C |
| Peripherals | Timers, ADC, DAC, USART, SPI, I2C, CAN, USB, Ethernet |
| Packages | LQFP, UFQFPN, WLCSP, BGA |
| ADC Resolution | Up to 16-bit |
| Communication Interfaces | USART, UART, SPI, I2C, CAN, USB, Ethernet |
| Core Architecture | ARM Cortex-M |
Details the X-NUCLEO-IKS01A2 board with MEMS sensors and Arduino connector.
Describes the X-NUCLEO-NFC04A1 board for dynamic NFC/RFID tag functionality.
Overview of the NUCLEO-144 boards for prototyping with STM32 microcontrollers.
Features of the STM32L4 Discovery kit for IoT nodes with low-power communication.
Explains the FP-CLD-WATSON1 function pack for IoT nodes and its main capabilities.
Lists the required hardware components for setting up the IoT node.
Outlines necessary software drivers, tools, and applications for setup.
Details serial terminal settings for configuring cloud connection parameters.
Instructions for entering Wi-Fi credentials on the B-L475E-IOT01A board.
Explains entering registration mode and configuration strings for IBM Cloud.
Accessing and viewing live sensor data through a Quickstart URL in a web browser.
Guides users on how to create and define device types in the IBM Cloud platform.
Process for adding new devices, including selecting device types and tokens.
How to access and note down the organization ID, device type, and authentication token.
How to provision device credentials using NFC and a mobile application.
Steps to provision credentials to the STM32 Nucleo in Simple Registration mode.
Introduction to Node-RED and its integration within the Watson IoT Platform.
Process of generating API keys in IBM Watson IoT dashboard for Node-RED.
Setting up the Watson IoT platform node with API key and device details in Node-RED.
Visualizing real-time sensor data from the STM32 Nucleo in the Node-RED dashboard.
Use case for condition monitoring and preventive maintenance of industrial motors.
Monitoring vibration data for motors, fans, and pumps to detect issues.
Introduction to the STM32 Open Development Environment and its stackable boards.
Details on STM32 Nucleo development boards and X-NUCLEO expansion boards.
Information on STM32Cube software tools and expansion software (X-CUBE).
Describes the modular building block approach for STM32 development.
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