![]() Preparation and connection of the adapter cableĪn 8-pin adapter cable acts as an ST-Link cable and is required to connect the Nucleo board to the target: Signalĭebug connector, VDD is not needed and may result in reverse current, therefore leave it open Open CN2 jumpers (2 x, this enables ST-Link for remote application debugging).Short JP4 via jumper (enables RX/TX signals on CN3).Solder in JP4 pin header (not factory fitted).Open JP6 jumper (3.3 V power of the Nucleo MCU, to avoid MCU signals).Do the following to connect the Nucleo board to the target (see figure of Nucleo board below): Use a standard Nucleo board which includes an ST-Link interface. Preparation of Nucleo board for remote target connection Use the “STLinkUpgrade” utility for updating the Nucleo L4 ST-Link firmware.Ensure that the Nucleo ST-Link firmware version is V2J29M18 or higher (otherwise the STML433 MCU does not work correctly):.Recommended STM manuals: UM1724, User manual, STM32 Nucleo boards.“Tera Term” or similar can be used as a Virtual COM terminal. the Mbed “.bin” files) can be copied to the Nucleo USB drive, which the Nucleo board will then flash into the target. The Nucleo board is connected via USB to a host (Mac, Windows, or Linux), the debugging and serial wires are connected to the target. This document describes how to use a Nucleo STM32L476RG board to connect to a target STM MCU for firmware downloading, debugging and serial terminal connection. ![]() RadioShuttle Sketch Installation for LongRa.RadioShuttle Sketch Installation for Eagle.RadioShuttle Program Installation for Turtle.RadioShuttle Sketch Installation for ECO Power.
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