STM32W-SK and STM32W-EXT starter and extension kits for
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1. ky UM0894 Sf User manual STM32W SK and STM32W EXT starter and extension kits for STM382W108xx Introduction The STM32W SK and STM32W EXT starter and extension kits are easy to use tools for the STM32W108xx microcontrollers This family of microcontrollers integrates a 32 bit ARM Cortex M3 microprocessor and a 2 4 GHz IEEE 802 15 4 compliant transceiver The kits demonstrate how effectively the STM32W108xx can be used in real IEEE 802 15 4 applications They are suitable for different types of wireless network scenarios such as Mesh networks based on the ZigBee PRO protocol stack typically used in home automation and smart energy applications e Remote control and target networks based on the ZigBee RF4CE protocol stack used for driving consumer devices such as TVs set top boxes etc e Point to point networks based on a Simplified MAC library used to address a basic IEEE 802 15 4 communication This configuration enables customers to develop any protocol stack of their choice The STM32W108xx kits provide demonstration applications and documentation which serve as a reference for creating your own applications and re programming the STM32W108xx microcontroller You can run the STM32W108xx kits in several ways building mesh networks remote control target and point to point applications using the dedicated software libraries ZigBee PRO ZigBee RF4CE and Simplified MAC as well as a third party IDE and C comp2. 1 1 6 21 Getting started This section provides a complete description of the STM32W SK and STM32W EXT kit s hardware and software There are two types of STM32W108xx kit e The starter kit order code STM32W108B Sk e The extension kit order code STM32W108B KEXT Kit description Hardware STM32W SK The STM32W108xx starter kit package contains the following hardware components Two STM32W108 application boards MB851 One STM32W108 extension board MB850 One Raisonance STM32 Primer2 tool STM3210E PRIMER One J Link Lite JTAG Flash programmer and debugger One mini USB cable Four AAA batteries Figure 1 STM32W SK starter kit gt Gu J Link Lite IAR compiler MB850 extension board STM32 Primer2 MB851 application board x2 STM32W EXT The extension kit package contains four STM32W108 application boards MB851 Doc ID 16999 Rev 2 ky UM0894 Getting started Figure 2 STM32W EXT extension kit MB851 application board x4 Note 1 For documentation concerning the STM32 Primer2 tool refer to the related user manual on the htto www stm32circle com website 2 For information concerning the STM32W108xx MB850 and MB851 boards refer to the documentation with each available software and documentation tree installer file see Section 1 2 Software libraries and demonstration applications 1 1 2 Software STM32W SK The starter kit package contains the
3. One Perytons capture firmware MB851 board labeled as Analyzer This allows you to immediately run the ZigBee PRO sink sensor demonstration applications just by selecting the sink application on the STM32 Primer2 see Section 2 2 Sink sensor mesh network based on ZigBee PRO for more details You can also start a packet capture session using the Perytons analyzer see Section 3 2 Network analyzer for more details STM32W EXT In the STM32W EXT extension kit all four boards are preprogrammed with EmberZNet ZigBee PRO sensor firmware MB851 board labeled as Sensor Using these boards you can extend the sink sensor mesh network with other four sensors nodes Installing the STM32W108xx kit software tree To install the specific kit software and documentation tree download the related installer file from http Awww st com mcu STM32W section Then start the installation process on your destination folder Sink sensor mesh network based on ZigBee PRO This section shows how to set up a mesh network with a sink node which collects information that come from several sensor nodes Run preloaded sink appl on STM32 Primer2 MB850 platforms The STM32 Primer2 tool is delivered with the sink application preloaded This application automatically configures the connected MB850 extension board with the related ZigBee PRO sink application To run the sink application on the STM32 Primer2 and MB850 boards follo
4. Open the Perytons tool from Start Programs 3 For instructions about how to start a packet capture session refer to the documentation on the Perytons CD ROM When a packet capture session is ongoing the MB851 LEDs behave as follows When data is sent to the PC LED D1 flashes for a short period e LED D3 is the heartbeat LED A prebuilt analyzer binary image for Perytons is provided with each installer file Daintree A binary image supporting the Daintree network analyzer is also available No CD ROM for Daintree is delivered with the STM32W108xx kits For more information refer to http Awww daintree net Doc ID 16999 Rev 2 ky UM0894 STM32W108xx kits utilities and software tools 3 3 IAR Embedded Workbench for ARM To install the IAR Embedded Workbench for ARM 5 40 7 or later insert the related CD ROM and follow the installation instructions To build the binary image of all the available demonstration applications using the IAR tool follow these steps 1 Open the IAR tool 2 From the File gt Open gt Workspace menu open the eww IAR project related to the demonstration application you are going to address 3 From the Project menu select Rebuild All A binary file is built under the project folder specified in Project gt Options gt General Options Category gt Output menu gt Executables libraries item To download the built binary image on the MB851 board follow these steps 1 Connect the J
5. all the available commands some demonstration applications may require that the MB851 board is interfaced with the user through a serial communication channel virtual COM through USB To set a serial communication channel for the MB851 board follow these steps 1 Fit the MB851 jumper P2 on position 5 6 power via USB 2 Connect a mini USB cable to the MB851 mini USB connector and to a PC USB port 3 Right click on My Computer select Manage Device Manager and open Ports COM amp LPT to display the related USB COMx port 4 Open a hyper terminal on the corresponding USB virtual COMx port with the following configuration Bitrate 115200 Data bits 8 Parity None Stop bits 1 Flow control None The STM32 Primer2 and MB850 demonstration applications use the STM32 Primer2 resources LCD joystick with button touch screen display as I O communication channels Doc ID 16999 Rev 2 9 21 Running the STM32W108xx kits UM0894 2 2 1 2 2 2 2 1 10 21 Running the STM32W108xx kits STM32W SK In the STM32W SK starter kit the following applications are preprogrammed One EmberZNet ZigBee PRO sink firmware MB850 board labeled as Sink e Three CircleOs applications preloaded in the STM32 Primer2 ZigBee PRO sink application ZigBee RF4CE RC application Simple MAC sun sample application One EmberZNet ZigBee PRO sensor firmware MB851 board labeled as Sensor
6. applications The STM32 Primer2 tool provided with the STM32W SK starter kit is delivered with the RC application This application automatically configures the connected MB850 extension board with the related ZigBee RF4CE RC application The MB851 board is automatically configured when launching the RF4CETV PC applet To run the RC and TV applications on the STM32 Primer2 MB850 and MB851 platforms the following steps are required 1 Connect the MB850 to the extension connector of the STM32 Primer2 tool 2 Power on your STM32 Primer2 3 Press the joystick button to launch the Main Menu and select Applic gt RF4CE RC If everything is properly done the LCD screen displays a set of RF4CE RC commands 4 Connect the MB851 board to the PC using a mini USB cable with P2 fitted in position 5 6 power from USB A virtual COM port should appear in the Windows Device Manager 5 From Windows launch the RF4CETV exe PC applet A PC applet GUI appears 6 Select the serial port matching the port assigned by the Windows Device Manager If the firmware on the MB851 board is not present the application uploads the firmware through the serial port Wait until the LED D1 is on 7 Push the button E to start pairing with the RF4CE remote control LED D1 starts blinking quickly when the node is ready for pairing for 30 sec 8 On your STM32 Primer2 use the joystick to scroll between button pages until you find the button S Push the button to
7. start pairing with the MB851 board If everything is properly done a message on your STM32 Primer2 screen and in the RF4CETV applet informs you that the pairing process has been successful Figure 10 RF4CETV PC applet ST RF4CE TV Ready e Doc ID 16999 Rev 2 ky UM0894 Running the STM32W108xx kits 2 3 2 Note 2 4 2 4 1 Use the remote control RC and virtual TV applications To send an RC command to the virtual TV push the associated RC symbol on the STM32 Primer2 touch sensing screen Figure 11 RF4CE RC application driving the ST Virtual TV PC applet VY f STM32 Primer2 RC ST Virtual TV For further information about the ST RF4CE demonstration applications refer to the STM32W108xx ZigBee RF4CE library user manual UM0909 Basic star network based on Simple MAC library This section shows how to set up a star network supporting parent and child roles called respectively sun and planet Run preloaded sample appl on STM32 Primer2 MB850 platforms The STM32 Primer2 tool provided with the STM32W SK starter kit is delivered with a sample application sun image This application automatically configures the connected MB850 extension board with the related sample application To run the sample application on the STM32 Primer2 MB850 platforms follow these steps 1 Connect the MB850 to the extension connector of the STM32 Primer2 tool 2 Power on your STM32 Pri
8. 3 List of acronyms used inthe document 0000 0c eee eee eee 20 Table 4 Document revision history 0 cee tet ee 20 4 21 Doc ID 16999 Rev 2 ky UM0894 List of figures List of figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 SIMB2W SK Starter Kiei isiin a Sonat ad eda sn leat Aiea a onal ba aah doa aed 6 STM32W EXT extension kit 0 eee eee as 7 STM32 Primer2 sink node 0 eee ee 11 Sensor joined to the sink 0 00 e ett 11 Sensor sends unicast data to the Sink 1 0 0 0 ccc eee eens 12 Sink 5 sensors including sleepy mobile sensors 000 0c eee eee eee 12 Sink sends an advertise multicast message 0 0 eee eee 13 Network error on sink node 1 naana anaana 13 Network GOWN coii anea theca th tech cto ela a a aeons EL 3 hota deed ode aea ae Wen 13 REACETV PG applet ga evs tate oe ea lead eae Fate an Dae a Gee EE EE 14 RF4CE RC application driving the ST Virtual TV PC applet 2 0 5 15 STM32 Primer2 SUN NOdE 1 eee eee es 15 Planet device joined to the network 2 00 0c cece eee eee 16 Planet sends data to the SUN 1 eee eee eee e nee 16 Sun node with 5 planets 0 2 20 00 17 Network GOWN cc ee eee a 17 Doc ID 16999 Rev 2 5 21 Getting started UM0894
9. D screen and the associated events Table 1 Definition of LCD screen symbols ZigBee PRO sink application Symbol Blue line connecting two nodes 5 orange lines arranged in a star like shape Associated event Unicast data transmission see Figure 5 Multicast data transmission see Figure 7 Error condition see Figure 8 D Network down see Figure 9 Gray box Sleepy sensor Purple box Mobile sensor Doc ID 16999 Rev 2 UM0894 Running the STM32W108xx kits Figure 7 Sink sends an advertise multicast message Figure 8 Network error on sink node Figure 9 Network down E B44 1A77 D Note For further information about the STM32 Primer2 MB850 sink application and related limitations refer to the installer file documentation 2 3 Remote control and virtual TV based on RF4CE library This section shows how to control a ZigBee RF4CE compliant TV target using an RF4CE compliant remote control The demonstration application is run using the STM32 Primer2 and MB850 as a remote control and a PC applet for emulating a TV on your PC The RF4CETV PC applet implements a virtual TV supporting the following features 12 channels playing video from files Volume control Mute Channel change Play Pause Pair button Device information Doc ID 16999 Rev 2 13 21 Running the STM32W108xx kits UM0894 2 3 1 14 21 Run the remote control RC and virtual TV
10. K Resale of ST products with provisions different from the statements and or technical features set forth in this document shall immediately void any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever any liability of ST ST and the ST logo are trademarks or registered trademarks of ST in various countries Information in this document supersedes and replaces all information previously supplied The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners 2010 STMicroelectronics All rights reserved STMicroelectronics group of companies Australia Belgium Brazil Canada China Czech Republic Finland France Germany Hong Kong India Israel Italy Japan Malaysia Malta Morocco Philippines Singapore Spain Sweden Switzerland United Kingdom United States of America www st com ky Doc ID 16999 Rev 2 21 21
11. M32W108 Simple MAC software library and demonstration applications targeting point to point communication scenarios based on the IEEE 802 15 4 protocol For a detailed description of each software and documentation tree refer to the related documentation starting from the HTML index file that comes with each installer file Each installer file also provides a set of prebuilt binary images applications and utilities Doc ID 16999 Rev 2 ky UM0894 Getting started 1 3 1 3 1 Note 1 1 3 2 1 3 3 Kit setup Powering on the boards The MB851 application board can be powered as follows e Via batteries fit 1 2 on the P2 jumper e Via USB or JTAG fit 5 6 on the P2 jumper The jumper position 3 4 is reserved for internal usage To enable the MB851 board temperature sensor MEMS and infrared fit the jumper JP1 The MB850 extension board has been designed as an IEEE 802 15 4 application specific daughter board It must be connected to the STM32 Primer2 extension connector to be powered through the STM32 Primer2 The MB850 should be connected with the STM32W 108 visible Installing the FTDI USB drive In order to use the serial communication channel on the MB851 board a driver for the FTDI USB lt gt Serial converter must be installed This driver can be downloaded from the FTDI website http www ftdichip com Drivers VCP htm Setting up the application serial communication channel To get full access to
12. TAG Flash programmer to the MB851 P4 connector and to a PC USB port through an USB cable 2 Power the MB851 application board through the JTAG P2 jumper fitted on 5 6 position 3 From the Project menu select Download and Debug The binary image is downloaded into the STM32W1 08xx Flash 4 From the Project menu select Stop Debugging The application is ready to run Note To use the J Link Lite JTAG Flash programmer you need to switch on the power supply for target feature The first time you plug the J Link Lite on a PC USB port follow these steps make sure that you have already installed the IAR Embedded Workbench 5 40 7 or later 1 Open an DOS Window on your PC 2 Type jlink 3 Issue the command power on perm 3 4 Reflashing STM32 Primer2 using prebuilt primer2image hex file The primer2image hex file contains the three CircleOs applications described in Chapter 2 This file is delivered with the installed package in the prebuilt folder To download a new version of the primer2image hex file or just recover from an accidental deletion follow these steps 1 Install Raisonance Ride 7 16 or later for ARM if not already installed on your PC this toolset is available on www stm82circle com Go to the prebuilt folder Connect a mini USB cable to the STM32 Primer2 debug connector and a PC USB port Turn on the STM32 Primer2 by pushing its button Type the command Cortex_pgm TSTM32F103VET6 E B Type the command Co
13. d hyperterminal to get the list of available supported commands A prebuilt sensor binary image is also available To download it just use the stm32w_flasher utility refer to Section 3 1 stm32w_flasher utility Setup a sink sensor mesh network To set up a sink sensor mesh network from the STM32 Primer2 sink main menu select Permit join and press the S1 button on the MB851 board sensor Once the sensor is joined to the network formed by the sink the sensor node is displayed on the STM32 Primer2 LCD as a green box with the related 2 byte short address underneath Furthermore the MB851 LEDs start blinking Figure 4 Sensor joined to the sink 1B44 Doc ID 16999 Rev 2 11 21 Running the STM32W108xx kits UM0894 Note 12 21 When the sensor sends data to the sink a blue line connecting the transmitting sensor to the sink is displayed on the screen The unicast data sent by the MB851 sensor node is a temperature value coming from its temperature sensor Figure 5 Sensor sends unicast data to the sink This allows you to identify which sensor is transmitting data if there is more than one sensor up to 5 supported by the STM32 Primer2 sink application The unicast data sent by the sleepy or mobile sensors are 2 bytes random data Figure 6 Sink 5 sensors including sleepy mobile sensors The following table groups the symbols appearing on the STM32 Primer2 s LC
14. d to the network 0001 When a planet device sends data to the sun device at periodic rate a blue line connecting the transmitting planet to the sun is displayed on the screen as well as the sent MB851 VDD_PADS value in mV Figure 14 Planet sends data to the sun 3291 This identifies which planet is in transmission mode if there is more than one planet device up to 5 supported by the STM32 Primer2 sun application Doc ID 16999 Rev 2 ky UM0894 Running the STM32W108xx kits Figure 15 Sun node with 5 planets a 0001 0002 E E uE 0003 0005 0004 Figure 16 Network down E 0007 0008 D The following table summarizes the symbols appearing on the LCD screen and the associated events Table 2 Definition of LCD screen symbols Simple MAC sample application Symbol Associated event Blue line connecting planet to sun Planet sends data to the sun see Figure 14 D Network down see Figure 16 Note For further information about the Simple MAC sample application refer to the installer file documentation in particular STM32W108xx Simple MAC user manual UM0893 Doc ID 16999 Rev 2 17 21 STM32W108xx kits utilities and software tools UM0894 3 3 1 Note 3 2 3 2 1 3 2 2 18 21 STM32W108xx kits utilities and software tools stm32w_flasher utility The stm32w_flasher utility allows you to download a binary file into the STM32W108xx MB851 b
15. following software components One CD ROM including Perytons network analyzer V3 05 or later One CD ROM including the IAR Limited 30 days Evaluation Compiler 5 40 7 or later One CD ROM including the Raisonance Development Suite for the STM32 Primer2 STM32W EXT No CDs are delivered with the extension kit package 1 1 3 Documentation The starter kit package STM32W SK contains the following documentation components STM32W108 starter kit welcome letter which briefly describes the kits targets and components Raisonance STM32 Primer2 welcome letter The extension kit package STM32W EXT contains an STM32W108 extension kit welcome letter which briefly describes the kits targets and components ky Doc ID 16999 Rev 2 7 21 Getting started UM0894 1 2 Note 8 21 Software libraries and demonstration applications The following installer files are available on the http www st com mcu STM32W section EmberZNet 4 0 2 0 STM32W108 installer file which provides the EmberZNet 4 0 2 GA software libraries and demonstration applications targeting the mesh network scenarios based on the ZigBee PRO protocol stack ST ZigBee RF4CE 1 0 0 0 STM32W108 installer file which provides the STM32W108 ZigBee RF4CE software library and demonstration applications for controlling an RF4CE compliant TV using an RF4CE compliant remote control ST Simple MAC 1 0 0 0 STM32W1 08 installer file which provides the ST
16. he MB851 board 11 2 2 3 Setup a sink sensor mesh network 000 eee eee eas 11 2 3 Remote control and virtual TV based on RF4CE library 13 2 3 1 Run the remote control RC and virtual TV applications 14 2 3 2 Use the remote control RC and virtual TV applications 15 2 4 Basic star network based on Simple MAC library 15 2 4 1 Run preloaded sample appl on STM32 Primer2 MB850 platforms 15 2 4 2 Run the prebuilt sample planet application on the MB851 board 16 2 4 3 Setup a star network 0 0000 cece ee 16 3 STM32W108xx kits utilities and software tools 18 3 1 simo2zw flasher ulllity cass seek eer eee a dee Wee eee wd oe eR eee ee AS 18 3 2 Network analyzer 226 haved dade dae seea dewee ened Ae dae eeee ee 5 18 3 2 1 PELVIONS erri ea wit sted eee Ae EEO eon each EEO 18 3 2 2 PANEG sites 4 cis siicceaite rnan EAE A ee cheat eee a 18 3 3 IAR Embedded Workbench for ARM 000 eee eee eee 19 3 4 Reflashing STM32 Primer2 using prebuilt primer2image hex file 19 2 21 Doc ID 16999 Rev 2 ky UM0894 Contents List of acronyms Revision history Doc ID 16999 Rev 2 3 21 List of tables UM0894 List of tables Table 1 Definition of LCD screen symbols ZigBee PRO sink application 12 Table 2 Definition of LCD screen symbols Simple MAC sample application 17 Table
17. iler IAR Moreover the STM32W108xx kits provide a set of HAL APIs which allow you to use the kit platform capabilities such as LEDs and serial communication channels virtual COM through USB In this manual you can find information about e The STM32W108xx kits components How to install the related hardware software and documentation trees e How to run the preprogrammed demonstration applications April 2010 Doc ID 16999 Rev 2 1 21 www st com Contents UM0894 Contents 1 Getting started nie oe ont ds ceo i ae te mh rg Tah 6 1 1 MIPOCSCNIDUON s peo saaa aa a a a en a a teed AO E E R 6 1 1 1 FIANOWANC erer EEEE TEREE EE EEEE NATER EERE al 6 1 1 2 SOWAS a2 n maa a eae ee eneuees pia EE ie eae 7 1 1 3 DOCUMENTALION cee c sete ee Pad cee E ete a a hla a E aed ea eae 7 1 2 Software libraries and demonstration applications 8 1 3 Kil SCID o steaks teewkere See hbeGnter Ghee gees whee Pe gas 9 1 3 1 Powering onthe boards 0 0 0 cee ett eee 9 1 3 2 Installing the FTDI USB drive 0 000 cee eee 9 1 3 3 Setting up the application serial communication channel 9 2 Running the STM32W108xx kitS 0 00 e eee eee 10 2 1 Installing the STM32W108xx kit software tree 0 000 10 2 2 Sink sensor mesh network based on ZigBee PRO 10 2 2 1 Run preloaded sink appl on STM32 Primer2 MB850 platforms 10 2 2 2 Run preloaded sensor application on t
18. mer2 3 Press the joystick button to launch the main menu and select Applic gt SM SUN If everything is done properly you get an LCD screen showing a light blue box in the center This blue box represents the sun node a network has been created Figure 12 STM32 Primer2 sun node Doc ID 16999 Rev 2 15 21 Running the STM32W108xx kits UM0894 Note 2 4 2 2 4 3 16 21 4 Press the button again to access the application main menu This is the first level option list Options can be classified in two categories Options that provide information about the sun parameters node information planets list Options that execute actions leave network quit For further information about the STM32 Primer2 MB850 sun application and related limitations refer to the documentation that comes with the installer file Run the prebuilt sample planet application on the MB851 board To download and run the prebuilt sample planet application on an MB851 board use the stm32w_flasher utility with the prebuilt sample_planet s37 binary file Refer to Section 3 1 stm32w_flasher utility for more details Setup a star network On the planet node press button S1 to join the network formed by the STM32 Primer2 sun node Once joined the planet LED D3 turns on and the planet node is displayed on the STM32 Primer2 s LCD as a green box with the related 2 byte short address underneath Figure 13 Planet device joine
19. oard This utility comes with each software installer file To download a binary image follow these steps 1 Fit the MB851 jumper P2 on position 5 6 power via USB 2 Connect a mini USB cable to the MB851 mini USB connector and to a PC USB port 3 Using the mouse right click on My Computer select Manage Device Manager and open Ports COM amp LPT to display the related USB COM x port 4 Open an DOS Window on your PC 5 Go to the utilities folder which comes after the installation process 6 Type the following command stm32w_flasher p lt COMxs gt r f lt file_name bin s37 gt where COMx is the virtual COM related to the connected MB851 board and file_name bin s37 is the application image to be downloaded You can also use the stm32w_flasher utility through the JTAG programmer 1 Fit the MB851 jumper P2 on position 5 6 power via JTAG 2 Plug the JTAG programmer to a PC USB port and to the board JTAG connector P4 3 Open an DOS Window on your PC 4 Go to the folder where the stm32w_flasher is located tool or utility folder 5 Type the following command stm32w_flasher f lt file_name bin s37 gt r Network analyzer Perytons To install the Perytons network analyzer insert the related CD ROM and follow the installation instructions To use the Perytons network analyzer follow these steps 1 MB851 board labeled as Analyzer fit jumper P2 on position 5 6 power via USB and connect to a PC USB port 2
20. rtex_pgm TSTM32F103VET6 Pprimer2image hex S Dapy Doc ID 16999 Rev 2 19 21 List of acronyms UM0894 4 List of acronyms Table 3 List of acronyms used in the document Term Meaning API Application programming interfaces CERC Consumer electronic remote control GA General availability HA Home automation HAL Hardware abstraction layer MAC Medium access control RC Remote control RF Radio frequency communication SE Smart energy USB Universal serial bus 5 Revision history Table 4 Document revision history Date Revision Changes 05 Feb 2010 1 Initial release Modified software component versions in Section 1 1 2 Modified installer files in Section 1 2 21 Apr 2010 2 Modified Parity to 1 in Section 1 3 3 Modified Section 2 2 2 Section 2 2 3 Section 2 4 3 Inserted Section 3 4 20 21 4 Doc ID 16999 Rev 2 UM0894 Please Read Carefully Information in this document is provided solely in connection with ST products STMicroelectronics NV and its subsidiaries ST reserve the right to make changes corrections modifications or improvements to this document and the products and services described herein at any time without notice All ST products are sold pursuant to ST s terms and conditions of sale Purchasers are solely responsible for the choice selection and use of the ST products and services described herein and ST assumes no liability what
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22. w these steps 1 Connect the MB850 to the extension connector of the STM32 Primer2 tool 2 Power on your STM32 Primer2 3 Press the joystick button to launch the main menu and select Applic gt ZP SINK Doc ID 16999 Rev 2 ky UM0894 Running the STM32W108xx kits 2 2 2 Note 2 2 3 If everything is done properly you get an LCD screen showing a light blue box in the center see Figure 3 This box represents the sink node a ZigBee PRO network has been created Figure 3 STM32 Primer2 sink node 4 To access the application main menu press the button again This is the first level option list Options can be classified in two categories Options that give information about the sink node node address security key address table child table Options that execute specific commands send custom messages permit join leave network reset quit Run preloaded sensor application on the MB851 board To run the sensor application on the starter kit MB851 board follow these steps 1 Power on the MB851 board already preloaded with the sensor application labeled as sensor 2 If you want to access to the full set of the available commands on the sensor node you have to set up the related serial communication channel following the steps described in Section 1 3 3 Setting up the application serial communication channel 3 Once the sensor application is running type on the relate
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