![]() ![]() The structure of the extracted zip file is described in more detail in the section Folder structureĬheck entries in the file user_settings.mak: Removing recursive directories is not properly supported. ( ) will work for compiling as well but `make clean` will fail since This you can either achieve by installing ( ) or more In case you are working on Windows you will need to have access to a working gnu tool-set. The provided examples come with a makefile that uses the gnu toolchain for arm embedded. This is the software that will load a built application onto the flash of the board. You will need to register in order to download the driver.ĭownload and install the STM Cube Programmer: This is the software you need to connect your Nucleo board with your PC. In the rest of this section we will guide you through the process of setting up everything: We need an appropriate hardware setup.įinally, we need a tool to flash a successfully built image on the device and a serial terminal to see, if the code that we loaded That are needed to build a working image. Next we need a compiler for the selected MCU and some tools to combine all steps Quick start exampleĪs with any embedded project, the setup is a bit more challenging than just building an application on a linux or windows host.įirst, we need a driver for the board. In this way you are assured that you have appropriate pull-ups. Plug it as shown in the following picture. If you have a X-NUCLEO-IKS02A1 expansion shield and the SHT4X mounted on a SENSEVAL-MKI4XV1 pcb you can Using the SHT4X with a X-NUCLEO-IKS02A1 shield length wires), it's a good thing to check the signals SCL and SDA with an oscilloscope. As the required pull-ups heavily depend on your actual The provided setup assumes that ~5K pull-ups are installed. That has pull-ups, or you have to add pull-ups by our own. ![]() Either you have a breakout board for your sensor Note: The Nucleo board does not contain internal pull-ups. Use the following pins to connect your SHT4X: SHT4X Your sensor has 4 different connectors: SDA, GND, SCL, VDD. The following instructions and examples use a SHT40. The repository provides a driver for setting up a sensor of the SHT4X family to run on a Nucleo F103RB board over I☬.Ĭlick here to learn more about the Sensirion SHT4X sensor family. ![]()
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