STEVAL-SPIMD20V1Power drive system demonstration kit based on the SPIMD20 integrated motor drive | Evaluation Boards | 1 | NRND | The STEVAL-SPIMD20V1 demonstration kit provides a complete demonstration platform for evaluating the functionality and the performance of the SPIMD20 power drive system designed by STMicroelectronics in cooperation with ROBOX S.p.A.
The SPIMD20 is an integrated motor drive with real-time connectivity enabling brushless motor manufacturers to create a proprietary motion control system based on a general purpose brick. |
STEVAL-SPIN3201STSPIN32F0 Advanced BLDC controller with embedded STM32 MCU evaluation board | Evaluation and Demonstration Boards and Kits | 1 | Active | The STEVAL-SPIN3201 board is a three-phase brushless DC motor driver board based on the STSPIN32F0 and STD140N6F7 MOSFETs.
The device provides an affordable and easy-to-use solution for the implementation of low voltage motor driving applications such as fans, drones and power tools.
The board is designed for sensored or sensorless vector control - FOC algorithms with 3-shunt sensing. |
| Sensor Evaluation Boards | 1 | Active | The STEVAL-STLCS01V1 (SensorTile) is a highly integrated reference design that can be plugged into form-factor prototypes, adding sensing and connectivity capabilities to new designs through a smart hub solution. It can also easily support development of monitoring and tracking applications like standalone sensor nodes connected to iOS™ or Android™ smartphone applications.
The SensorTile occupies a very small 13.5 x 13.5 mm square outline, with all the electronic components on the top side and a small connector on the bottom side to plug it onto the cradle expansion board. The connector pinout is repeated on 18 PCB pads to render the SensorTile a solderable system on module as well.
Refer to user manual UM2101 Getting started with the STEVAL-STLKT01V1 SensorTile integrated development platform for more information. |
| Development Boards, Kits, Programmers | 1 | Active | STEVAL-STLCS02V1 (SensorTile) is a highly integrated reference design that can be plugged into form-factor prototypes, adding sensing and connectivity capabilities to new designs through a smart hub solution.
It can also easily support development of monitoring and tracking applications like standalone sensor nodes connected to iOS™ or Android™ smartphone applications.
The SensorTile occupies a very small 13.5 x 13.5 mm square outline, with all the electronic components on the top side. The connector pinout is repeated on 18 PCB pads to render the SensorTile a solderable system on module.
Refer to user manual UM2101 Getting started with the STEVAL-STLKT01V1 SensorTile integrated development platform for more information. |
| Development Boards, Kits, Programmers | 1 | Obsolete | The STEVAL-STLKT01V1 is a comprehensive development kit designed to support and expand the capabilities of the SensorTile and comes with a set of cradle boards enabling hardware scalability.
The development kit simplifies prototyping, evaluation and development of innovative solutions. It is complemented with software, firmware libraries and tools, including a dedicated mobile App.
The SensorTile is a tiny, square-shaped IoT module that packs powerful processing capabilities leveraging an 80 MHz STM32L476JGY microcontroller and Bluetooth low energy connectivity based on BlueNRG-MS network processor as well as a wide spectrum of motion and environmental MEMS sensors, including a digital microphone.
SensorTile can fit snugly in your IoT hub or sensor network node and become the core of your solution.
To upload new firmware onto the SensorTile, an external SWD debugger (not included in the kit) is needed. It is recommended to use ST-LINK/V2-1 found on any STM32 Nucleo-64 development board. |
| Evaluation Boards | 1 | Active | The STEVAL-STPM801 is an evaluation board that provides a complete test environment for STPM801, allowing the possibility to work with a dual supply line approach.
User can evaluate the hot swap and oring functions between the two input supplies, taking advantage of STPM801 control.
The STEVAL-STPM801 consists of two identical sections, each one hosting an STPM801 device, with all the circuitry needed to test the full functionality (external MOSFETs included).
The two outputs can be connected together achieving, for the load connected to them, the OR of the two supply voltages applied at the inputs.
The two sections are independent, and the user can also adopt a single supply approach, leaving unsupplied the unused line. |
| Development Boards, Kits, Programmers | 1 | Active | The STEVAL-STRKT01 LoRa®IoT tracker is designed and optimized to implement the latest technologies in IoT tracker applications such as asset, people and animal tracking as well as fleet management.
The evaluation board simplifies prototyping, evaluation and development of tracker innovative solutions. It comes with comprehensive software, firmware libraries, tools, battery, cables and plastic case.
Thanks to the STM32L072CZ embedded in the CMWX1ZZABZ-091 LoRa®module (by Murata), the STEVAL-STRKT01V1 allows acquiring position, managing geofence and data logging from Teseo-LIV3F GNSS module and monitoring motion (LIS2DW12) and environmental (HTS221 and LPS22HB) sensors.
The board also transmits and receives data, configurations and events to and from the cloud over a LoRaWAN™ network, or stores data locally in the M95M02-DR EEPROM.
The STEVAL-STRKT01 is a LiPo battery operated solution and implements low power strategies thanks to an enhanced power/battery management design, based on the STBC02 battery charger and the ST1PS01 step-down converter, to ensure long battery autonomy. The STUSB1600A addresses 5 V USB Type-C port management and offers high voltage protection against short circuits. |
STEVAL-STWINBX1STWIN.box - SensorTile Wireless Industrial Node Development Kit | Sensor Evaluation Boards | 1 | Active | The STWIN.box (STEVAL-STWINBX1) is a development kit and reference design that simplifies prototyping and testing of advanced industrial sensing applications in IoT contexts such as condition monitoring and predictive maintenance.
It is an evolution of the original STWIN kit (STEVAL-STWINKT1B) and features a higher mechanical accuracy in the measurement of vibrations, an improved robustness, an updated BoM to reflect the latest and best-in-class MCU and industrial sensors, and an easy-to-use interface for external add-ons.
The STWIN.box kit consists of an STWIN.box core system, a 480mAh LiPo battery, an adapter for the ST-LINK debugger, a plastic case, an adapter board for DIL 24 sensors and a flexible cable.
The many on-board industrial-grade sensors and the ultra-low power MCU enable applications that feature: ultra-low power, 9 DoF motion sensing, wide-bandwidth vibration analysis, audio and ultrasound acoustic inspection, very precise local temperature, and environmental monitoring.
A rich set of software packages is available in source code. Optimized firmware libraries and a complete companion cloud application help to speed up the design cycle to develop end-to-end solutions.
The kit supports a broad range of connectivity options, including the built-in RS485 transceiver, BLE, Wi-Fi, and NFC.
The STWIN.box also includes a 34-pin expansion connector for small form factor daughter boards associated with the STM32 family, such as the STEVAL-C34KAT1, STEVAL-C34KAT2 and STEVAL-PDETECT1 expansion boards.
The STWIN.box is suitable for field trials, demonstrations, and PoC for industrial IoT applications that use ST software and third-party software. |
STEVAL-STWINKT1SensorTile Wireless Industrial Node development kit and reference design for industrial IoT applications | Sensor Evaluation Boards | 1 | Obsolete | The STWIN SensorTile wireless industrial node (STEVAL-STWINKT1) is a development kit and reference design that simplifies prototyping and testing of advanced industrial IoT applications such as condition monitoring and predictive maintenance.
The kit features a core system board with a range of embedded industrial-grade sensors and an ultra-low-power microcontroller for vibration analysis of 9-DoF motion sensing data across a wide range of vibration frequencies, including very high frequency audio and ultrasound spectra, and high precision local temperature and environmental monitoring.
The development kit is complemented with a rich set of software packages and optimized firmware libraries, as well as a cloud dashboard application, all provided to help speed up design cycles for end-to-end solutions.
The kit supports BLE wireless connectivity through an on-board module, and Wi-Fi connectivity through a special plugin expansion board (STEVAL-STWINWFV1). Wired connectivity is also supported via an on-board RS485 transceiver. The core system board also includes an STMod+ connector for compatible, low cost, small form factor daughter boards associated with the STM32 family, such as the LTE Cell pack.
Apart from the core system board, the kit is provided complete with a 480 mAh Li-Po battery, an STLINK-V3MINI debugger and a plastic box. |
STEVAL-STWINMA2Industrial analog microphone array expansion for the SensorTile Wireless Industrial Node (STWIN) kit | Development Boards, Kits, Programmers | 1 | Active | The STEVAL-STWINMA2 microphone array expansion adds advanced audio sensing capabilities to the STEVAL-STWINKT1B (and STEVAL-STWINKT1) SensorTile Wireless Industrial Node (STWIN) kit for high frequency vibration monitoring applications.
The board includes four low-power, high signal-to-noise ratio (SNR) IMP23ABSU capacitive sensing microphones, supported by a very low drop voltage, low quiescent current, and low-noise voltage regulator, ideal for battery-powered applications such as STWIN.
The expansion board is connected via a dedicated 12-pin connector to the core system board.
The combination of STWIN and STEVAL-STWINMA2 is supported thanks to the software examples provided within the X-CUBE-MEMSMIC1 expansion software package for STM32Cube.
The package includes one example of microphone data steaming via USB and one example of ultrasound condition monitoring (UltrasoundFFT) that calculates the FFT of the analog microphone signal and streams the result to a PC GUI via USB.
The microphone sampling rate is set by default to 192 kHz whereas the microphone bandwidth is up to 80 kHz. |
