Gain practical knowledge of MEMS sensors and learn to kickstart your projects with STM32 Nucleo boards and MEMS-Studio.

The workshop is based on our latest motion MEMS and environmental sensors expansion board, which is part of the STM32ODE ecosystem (X‑NUCLEO‑IKS4A1). You will learn how to interface with various MEMS sensors, visualize and analyze their data, and take advantage of advanced digital features such as the Machine Learning Core and Intelligent Sensor Processing Unit.

The sensor expansion board features ST's newest and most advanced sensors, including:

• LSM6DSV16X: MEMS 3D accelerometer and 3D gyroscope with embedded sensor fusion low-power (SFLP), AI, and Qvar
• LSM6DSO16IS: MEMS 3D accelerometer and 3D gyroscope with ISPU (Intelligent Sensor Processing Unit)
• LIS2MDL: MEMS 3D magnetometer
• LIS2DUXS12: Ultra low-power MEMS 3D accelerometer with analog anti-aliasing filter, Qvar and AI
• LPS22DF: Absolute digital output barometer
• SHT40AD1B: High-accuracy, ultra-low-power relative humidity and temperature sensor (by Sensirion)
• STTS22H: 0.5 °C accuracy temperature sensor

We'll use MEMS-Studio, a complete desktop software solution for developing embedded AI features, evaluating embedded libraries, analyzing data, and designing no-code algorithms for the entire MEMS sensor portfolio. This unique software solution offers a versatile development environment for evaluating and programming all MEMS sensors.

This workshop is self-paced and can be accessed on-demand any time after the start of the selected session. However, please note that the live technical support (via online break-out rooms) is available only during the scheduled session hours (see table below).

Who should attend?

This workshop is for engineers who want to quickly prototype sensor-based applications and rapidly deploy a proof-of-concept (PoC) for data acquisition.

Agenda

• How to use MEMS-Studio
• MEMS data capture and analysis
• Machine Learning Core configuration and output visualization
• Implementing a weather station with Algobuilder within MEMS-Studio
• Implementing sensor fusion with Algobuilder within MEMS-Studio
• Designing a roll/pitch detection application with an Intelligent Sensor Processing Unit equipped IMU

Participation details

This workshop is open to residents of the Americas only.

The STM32 Nucleo-64 development board with STM32F401RE MCU (NUCLEO-F401RE) and Motion MEMS and environmental sensor expansion board for STM32 Nucleo (X-NUCLEO-IKS4A1) are required to perform the lab exercises (see Prerequisites).

Exclusively for registrants of this workshop, the boards can be purchased in the ST eStore on a buy one, get the other free basis, with free shipping. You will receive a coupon code and purchase instructions by email shortly after we receive your request to participate.

Prerequisites

• PC or laptop running the 64-bit version of Windows^® 11 with administrator rights for software and driver installation
• STM32 Nucleo-64 development board with STM32F401RE MCU (NUCLEO-F401RE)
• Motion MEMS and environmental sensor expansion board for STM32 Nucleo (X-NUCLEO-IKS4A1)
• Mini-B USB cable to connect to NUCLEO-F401RE
• Software tools (installed prior to the workshop). Detailed instructions will be sent by email about one week before the event.

We recommend using two screens so that you can watch, pause, and rewind the instruction video on one screen while completing the workshop tasks on the other.