Quick Start Guide STM32Cube function pack for IoT node with dynamic NFC tag, environmental and motion sensors (FP-SNS-SMARTAG1) Version 1.1 (May 29, 2018)
Quick Start Guide Contents 2 FP-SNS-SMARTAG1: STM32Cube function pack for IoT node with dynamic NFC tag, environmental and motion sensors Hardware and Software overview Setup & Demo Examples Documents & Related Resources STM32 Open Development Environment: Overview
Sample implementations are available for: Hardware Overview 3 1. STM32 Nucleo with expansion boards NUCLEO-L053R8 + X-NUCLEO-NFC04A1 + X-NUCLEO- IKS01A2 2. STEVAL-SMARTAG1 evaluation boards
Dynamic NFC/RFID tag IC expansion board STM32 Nucleo with Expansion boards - Hardware overview (1/3) 4 X-NUCLEO-NFC04A1 Hardware Description The X-NUCLEO-NFC04A1 dynamic NFC/RFID tag IC expansion board is based on the ST25DV04K NFC Type V/RFID tag IC with a dual interface 4 Kbits EEPROM that also features an I²C interface. It can be powered by the pin of Arduino connector or directly by the received carrier electromagnetic field. Arduino UNO R3 connector The X-NUCLEO-NFC04A1 expansion board is compatible with the Arduino UNO R3 connector pin assignment and can easily be plugged onto any STM32 Nucleo board. Various expansion boards can also be stacked to evaluate different devices operating together with the dynamic NFC tag. The board also features an antenna with a 54 mm ISO 24.2 diameter, single layer, copper etched on PCB. Key products on board ST25DV04KV Dynamic NFC/RFID tag IC with 4-Kbit, 16-Kbit or 64-Kbit EEPROM, and Fast Transfer Mode capability ST25DV04K Printed Antenna Latest info available at www.st.com X-NUCLEO-NFC04A1
Motion MEMS and environmental sensors expansion board STM32 Nucleo with Expansion boards - Hardware overview (2/3) 5 X-NUCLEO-IKS01A2 Hardware Description The X-NUCLEO-IKS01A2 is a motion MEMS and environmental sensor evaluation board system. It is compatible with the Arduino UNO R3 connector layout, and is designed around ST s latest sensors. Key Product on board LSM6DSL MEMS 3D accelerometer (±2/±4/±8/±16 g) + 3D gyroscope (±125/±245/±500/±1000/±2000 dps) LSM303AGR MEMS 3D magnetometer (±50 gauss) + MEMS 3D accelerometer (±2/±4/±8/±16 g) LPS22HB MEMS pressure sensor, 260-1260 hpa absolute digital output barometer HTS221 Capacitive digital relative humidity and temperature DIL 24-pin Socket available for additional MEMS adapters and other sensors (UV index) HTS221 LPS22HB LSM6DSL LSM303AGR ST morpho connector** Arduino UNO R3 connector DIL 24-pin Latest info available at www.st.com X-NUCLEO-IKS01A2 ** Connector for the STM32 Nucleo Board
Important Hardware Additional Information STM32 Nucleo with Expansion boards - Hardware overview (3/3) 6 Before connecting the X-NUCLEO-NFC04A1 to the X-NUCLEO-IKS01A2 expansion board through the Arduino UNO R3 extension connector, remove the resistors R2, R3 and R4 on the X-NUCLEO-NFC04A1 board, as shown the Figure below. Modifications on the X-NUCLEO-NFC04A1 board
ST NFC SensorTag Platform STEVAL-SMARTAG1 evaluation board - Hardware Overview 7 STEVAL-SMARTAG1 Hardware Description STEVAL-SMARTAG1 is a flexible NFC Tracker evaluation board with sensors includes a comprehensive software library and a sample application to monitor and log sensor data over NFC from an Android or ios device. Ultra-low power sensor node evaluation board mounts an ST25DV NFC Tag, an STM32L0 ARM Cortex M0+, environment sensors (temperature, humidity and pressure) and motion (accelerometer) sensor. The evaluation board features NFC harvesting to supply power and a battery cradle for a CR2032 battery. STM32L031K6U6 ARM Cortes-M0+ 32bit Microcontroller ST25DV64K-JFR6D3 64Kbit dynamic NFC/RFID tag LIS2DW12 Ultra low power 3-axis digital Accelerometer LPS22HB Low-power digital sensor for ambient Pressure HTS221 Capacitive digital sensor for Relative Humidity and Temperature STLQ15M18R Low dropout linear regulator
Software Description FP-SNS-SMARTAG1 is an STM32Cube function pack which allows you to read the motion and environmental sensor data on your IoT node via an NFC enabled reader such as a mobile phone or a tablet. The package supports energy harvesting (enabled by NFC) and battery operated use cases. This software, together with the suggested combination of STM32 and ST devices can be used, for example, to develop tracking, cold chain, medical, smart sensing, and smart home, city and building applications. The software runs on an ultra-low power STM32L0 microcontroller and includes Product summary drivers for the Dynamic NFC tag and for the motion and environmental sensors. Key features Complete firmware to access data from an IoT node with dynamic NFC tag, environmental and motion sensors FP-SNS-SMARTAG1 Software Overview 8 Overall Software Architecture Ultra-low power operations, with support of both energy harvesting and battery operated use cases Compatible with the ST NFC Sensor application for Android/iOS, to read and display sensor data Sample implementation available for the STEVAL-SMARTAG1 evaluation board, and for the X-NUCLEO-IKS01A2 and X-NUCLEO- NFC04A1 expansion boards connected to a NUCLEO-L053R8 development board Easy portability across different MCU families thanks to STM32Cube Free user-friendly license term Latest info available at www.st.com FP-SNS-SMARTAG1
Quick Start Guide Contents 9 FP-SNS-SMARTAG1: STM32Cube function pack for IoT node with dynamic NFC tag, environmental and motion sensors Hardware and Software overview Setup & Demo Examples Documents & Related Resources STM32 Open Development Environment: Overview
Setup & Demo Examples HW prerequisites and setup with STM32 Nucleo board 10 1x Dynamic NFC/RFID tag IC expansion board (X-NUCLEO-NFC04A1) 1x Motion MEMS and Environmental Sensor Expansion Board (X-NUCLEO-IKS01A2) 1x STM32 Nucleo Development Board (NUCLEO-L053R8) NUCLEO-L053R8 X-NUCLEO-NFC04A1 X-NUCLEO-IKS01A2 1x Android or ios NFC device with ST NFC Sensor app installed 1x PC with Windows 7 and above 1x USB type A to Mini-B USB cable Mini USB
Setup & Demo Examples HW prerequisites and setup with ST NFC SensorTag (1/2) 11 1x ST NFC SensorTag kit (STEVAL-SMARTAG1) It includes SWD connector with a 6pin flat 1x Android or ios device with ST NFC Sensor app installed 1x PC with Windows 7 and above Mini USB 1x STM32-Nucleo or ST-Link programmer 6 5 4 3 2 1 1x USB type A to Mini-B USB cable for the ST-Link 1 RED (VDD) 2 GREEN (SWCLK) 3 BLACK (GND) 4 YELLOW (SWIO) 5 ORANGE (NRST) 6 BLUE (USART2_TX) ST NFC SensorTag evaluation kit
Setup & Demo Examples HW prerequisites and setup with ST NFC SensorTag (2/2) 12 In order to program the board you need to connect an external ST-Link to the SWD connector on the cradles with a 6pin flat cable or directly. The easiest way is to get an STM32-Nucleo board which includes an ST-Link V2.1 programmer Be sure that CN2 Jumpers are OFF and connect your STM32 Nucleo board to the ST NFC SensorTag through the provided cable paying attention to the polarity of the connectors. Pin 1 can be identified by a little circle on the PCB silkscreen (STM32 Nucleo and ST NFC SensorTag board). SWD connections with 6-pin flat cable CN2 Remove Jumpers SWD (Pin1) SWD directly connections NOTE The battery must be present in order to use the ST-Link features (programming, debugging and serial communication)
Setup & Demo Examples SW prerequisites 13 STSW-LINK009 ST-LINK/V2-1 USB driver STSW-LINK007 ST-LINK/V2-1 firmware upgrade FP-SNS-SMARTAG1 Copy the.zip file content into a folder on your PC. The package will contain source code example (Keil, IAR, System Workbench) based only on NUCLEO-L053R8 or STEVAL-SMARTAG1 ST NFC Sensor Application for Android/iOS available from Google Store / itunes
FP-SNS-SMARTAG1 Dynamic NFC tag, environmental and motion sensors (1/2) 14 1 www.st.com/stm32ode-fp FP-SNS-SMARTAG1 package structure www.st.com 2 Select FP-SNS-SMARTAG1 3 Download & unpack Docs BSP, HAL and drivers Application example for Nucleo and STEVAL 4 Android /ios smartphone and ST NFC Sensor application 6.\Projects\STM32L053R8-Nucleo\Applications\SmarTag1 5 Compile/Flash and Run the project
FP-SNS-SMARTAG1 Dynamic NFC tag, environmental and motion sensors (2/2) 15 1 www.st.com/stm32ode-fp FP-SNS-SMARTAG1 package structure www.st.com 2 Select FP-SNS-SMARTAG1 3 Download & unpack Docs BSP, HAL and drivers Application example for Nucleo and STEVAL 4 Android /ios NFC device and ST NFC Sensor application 6. \Projects\STEVAL-SMARTAG1\Applications\SmarTag1 5 Compile/Flash and Run the project
FP-SNS-SMARTAG1 Using serial line monitor e.g.tera Term (1/2) 16 FP-SNS-SMARTAG1 for NUCLEO-LO53R8 with expansion boards After the RESET you could see the initialization phase After autostart the sensor data are logged These messages are written when getting (before) and removing (after) the smartphone from the NFC tag. In particular, the new config is written if a new one it is set. Serial line monitor for NUCLEO-L053R8 board
FP-SNS-SMARTAG1 Using serial line monitor e.g.tera Term (2/2) 17 FP-SNS-SMARTAG1 for STEVAL-SMARTAG1 After the RESET you could see the initialization phase After autostart the sensor data are logged These messages are written when getting (before) and removing (after) the smartphone from the NFC tag. In particular, the new config is written if a new one it is set. NOTE For having the UART functionality on to STEVAL-SMARTAG1 board, it is necessary: - To recompile the code uncommenting the line //#define SMARTAG_ENABLE_PRINTF on file: Projects\STEVAL- SMARTAG1\Applications\SmarTag1\Inc\SmarTagConf.h - To connect the BLUE (USART2_TX) cable to the RX pin on the STM32 Nucleo board Serial line monitor for STEVAL-SMARTAG1 board NOTE UART is not available on STEVAL-SMARTAG1 using binary generated by System Workbench for STM32 (due to flash size constraints)
FP-SNS-SMARTAG1 ST NFC Sensor Application for Android/iOS (1/3) 18 Enable/Disable the data to be logged Enable/Disable the accelerometer events Writes the new settings Settings Settings: log only out of range and accelerometer events Settings: it is open when getting the smartphone near the NFC tag the data to be logged can be selected (Pressure, Temperature, Humidity and Vibration) together the time interval. In addition to the default mode, there are two different logging mode that can be chosen: Log only out of range [min, max] and accelerometer events: the selected data will be logged only if a minimum or maximum threshold value will be matched (sync events). logging only if a wake up or change of orientation events occurs if enabled (async events) Force logging of one sample: the current value of the selected data will be logged, after that the data logging re-starts with the previous NOTE With the EXPORT DATA, the data shown in the app page will be exported
FP-SNS-SMARTAG1 ST NFC Sensor Application for Android/iOS (2/3) 19 Chart: Sensor plot Chart: Sensor plot details Chart: Events Chart: Sensor Plot: the plots of the selected data for the logging are shown. for any plot, with the SHOW DETAILS the values of the logged data are shown Events: if the "Log only out of range" has been selected, the accelerometer events are shown, if they have been occurred. NOTE With the EXPORT DATA, the data shown in the app page will be exported
FP-SNS-SMARTAG1 ST NFC Sensor Application for Android/iOS (3/3) 20 Extremes Single Shot Extremes: shows the maximum and minimum value obtained during the data logging of the selected data. Single Shot (only if the battery is not plugged): the current values of the selected data are read from the tag and then displayed. NOTE With the EXPORT DATA, the data shown in the app page will be exported
Documents & Related Resources 21 All documents are available in the DESIGN tab of the related products webpage FP-SNS-SMARTAG1 DB3553: STM32Cube function pack for IoT node with dynamic NFC tag, environmental and motion sensors for STM32Cube data brief UM2389: Getting started with the FP-SNS-SMARTAG1 dynamic NFC tag, environmental and motion sensors for STM32Cube user manual Software setup file X-NUCLEO-NFC04A1 Gerber files, BOM, Schematics DB3301: Dynamic NFC/RFID tag IC expansion board based on ST25DV04K for STM32 Nucleo data brief UM2235: Getting started with the X-NUCLEO-NFC04A1 NFC/RFID tag IC expansion board based on ST25DV04K for STM32 Nucleo user manual X-NUCLEO-IKS01A2 Gerber files, BOM, Schematic DB3009: Motion MEMS and environmental sensor expansion board for STM32 Nucleo data brief UM2121: Getting started with the X-NUCLEO-IKS01A2 motion MEMS and environmental sensor expansion board for STM32 Nucleo user manual STEVAL-SMARTAG1 Gerber files, BOM, Schematic DB3533: NFC Dynamic Tag sensor node evaluation board data brief Consult www.st.com for the complete list
Quick Start Guide Contents 22 FP-SNS-SMARTAG1: STM32Cube function pack for IoT node with dynamic NFC tag, environmental and motion sensors Hardware and Software overview Setup & Demo Examples Documents & Related Resources STM32 Open Development Environment: Overview
STM32 Open Development Environment Fast, affordable Prototyping and Development 23 The STM32 Open Development Environment (ODE) consists of a set of stackable boards and a modular open SW environment designed around the STM32 microcontroller family. STM32Cube development software STM32 Nucleo expansion boards (X-NUCLEO) STM32 Nucleo development boards STM32Cube expansion software (X-CUBE) Function Packs (FP) www.st.com/stm32ode
STM32 Nucleo Development Boards (NUCLEO) 24 A comprehensive range of affordable development boards for all the STM32 microcontroller series, with unlimited unified expansion capabilities and integrated debugger/programmer functionality. Power supply through USB or external source STM32 microcontroller Integrated debugging and programming ST-LINK probe Complete product range from ultra-low power to high-performance ST morpho extension header Arduino UNO R3 extension headers www.st.com/stm32nucleo
STM32 Nucleo Expansion Boards (X-NUCLEO) 25 Boards with additional functionality that can be plugged directly on top of the STM32 Nucleo development board directly or stacked on another expansion board. Connect Power Move/Actuate Interact Sense Motion MEMS sensors Environmental sensors DIL24 support for new devices Example of STM32 expansion board (X-NUCLEO-IKS01A1) www.st.com/x-nucleo
STM32 Open Development Environment Software components 26 STM32Cube software (CUBE) - A set of free tools and embedded software bricks to enable fast and easy development on the STM32, including a Hardware Abstraction Layer and middleware bricks. STM32Cube expansion software (X-CUBE) - Expansion software provided free for use with the STM32 Nucleo expansion board and fully compatible with the STM32Cube software framework. It provides abstracted access to expansion board functionality through high-level APIs and sample applications. Tools & IDEs Applications Middleware Hardware Abstraction Hardware IAREWARM,Keil MDK-ARM, GCC-based IDEs (e.g. Ac6 System Workbench for STM32) Sample applications STM32Cube middleware Application examples (e.g. based on STOpenSoftwareX) Upper level middleware (e.g. ST OpenSoftwareX) STM32Cubeexpansion middleware STM32CubeHardware Abstraction Layer (HAL) STM32 Nucleo expansion boards (X-NUCLEO) STM32 Nucleo developer boards Compatibility with multiple Development Environments - The STM32 Open Development Environment is compatible with a number of IDEs including IAR EWARM, Keil MDK, and GCC-based environments. Users can choose from three IDEs from leading vendors, which are free of charge and deployed in close cooperation with ST. These include Eclipse-based IDEs such as Ac6 System Workbench for STM32 and the MDK-ARM environment. OPEN LICENSE MODELS: STM32Cube software and sample applications are covered by a mix of fully open source BSD license and ST licenses with very permissive terms. www.st.com/stm32cube www.st.com/x-cube
STM32 Open Development Environment Building block approach 27 The building blocks Your need Our answer Accelerometer, gyroscope Inertial modules, magnetometer Pressure, temperature, humidity Proximity, microphone Sense COLLECT Bluetooth LE, Sub-GHz radio NFC, Wi-Fi, GNSS Connect TRANSMIT Audio amplifier Touch controller Operation Amplifier Translate ACCESS Stepper motor driver DC & BLDC motor driver Industrial input / output Move / Actuate CREATE Energy management & battery Power POWER General-purpose microcontrollers Secure microcontrollers Process PROCESS Software www.st.com/stm32ode