STM32W-SK and STM32W-EXT starter and extension kits for
Contents
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5. 1 4 3 951 jumpers configuration None 1 4 4 MB951 PC Interface chip Table 8 lists the PC interface chip available in the MB951 board to allow I O interface to the STM32W108 Table 8 PC interface chip Type Part PC I O interface STM32F103TBU6 1 4 5 MB951 battery holder None 1 5 MB851 hardware description 1 5 1 MB851 resources Table 9 lists the resources available in the MB851 board to develop applications and their connection with STM32W108 pins Table 9 MB851 resources Rev A Rev B Rev C D Type Label Part STM32W108 Button RST1 Button 51 M24C64MW1 2 EEPROM U4 128 KBytes NA NA PA1 PA2 LED D1 PB6 PB6 PA5 LED D3 PB5 PB5 PAO LED D5 Infrared LED PB4 PB4 PB4 Mems U2 LIS302 PA1 PA2 PA1 PA2 PA1 PA2 STLM20 PB7 PB7 PA4 sensor ky Doc ID 16999 Rev 6 11 45 Getting started 0 0894 1 5 2 1 5 3 12 45 MB851 connectors Table 10 lists the connectors available in the MB851 board and their functions Table 10 851 connectors Type Label Function Mini USB J2 PC I O Header 14 pin dual row male 1 GPIO access Header 10 pin dual row male P4 Standard JTAG debug MB851 connectors P1 pins Table 11 851 connectors P1 pins Doc ID 16999 Rev 6 Pin number GPIO function 1 VBRD 2 PC5 3 nRST 4 PA7 5 PB3 6 PB4 7 PAO 8 PA1 9 PA
6. 16 1 6 5 MB954 jumper configuration 17 1 6 6 MB954 PC interface chip 17 1 6 7 MB954 battery holder 17 2 45 Doc ID 16999 Rev 6 0 0894 Contents L7 eer oe wen 17 1 8 DOCUMENIAUON ewes rea eg 18 19 Software libraries and demonstration applications 18 18 1 10 1 Powering the boards 18 1 10 2 Installing drivers for USB virtual COM 18 1 10 3 Setting up the application serial communication channel 19 2 Running the STM32W108xx kits 20 2 1 Installing the STM32W108xx kit software tree 20 2 2 Remote control and virtual TV based on RFACE library 20 2 2 1 Run the remote control RC and virtual TV applications 21 2 2 2 Use the remote control RC and virtual TV 22 2 2 8 Use the virtual remote control RC and virtual TV applications 22 2 3 Basic star network based library 23 2 3 1 Run preloaded sample appl on STM32 Primer2 MB850 platforms only for STM32W108B SK 23 2 3 2 Run the sample planet application on the application board 24 2 3 3 Set
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8. 10 1 3 6 MB850 PC interface chip 10 1 3 7 MB850 battery holder 10 1 4 MB951 hardware description 10 1 4 1 MB951 resources 10 1 4 2 MB951 connectors 10 1 4 3 951 jumpers configuration 11 1 4 4 MB951 PC Interface 11 1 4 5 MB951 battery holder 11 1 5 MB851 hardware description 11 1 5 1 MB851 resources 11 1 5 2 MB851 connectors 12 1 5 3 MB851 connectors P1 12 1 5 4 MB851 connectors 13 1 5 5 MB851 jumper configuration 14 1 5 6 MB851 PC interface chip 14 1 5 7 MB851 battery holder 14 1 6 MB954 hardware description 14 1 6 1 MB954 resources 14 1 6 2 MB954 connectors 15 1 6 3 MB954 connectors P1 15 1 6 4 MB954 connectors PApins
9. Doc ID 16999 Rev 6 33 45 0 0894 Available board schematics 1V8 VBRD Pes PCO FLT1 WE748351124 e e e rJ 8 5 VBRD MS19573V1 8 2 POS VBRD 10 22 1V8 Figure 19 MB851 module Doc ID 16999 Rev 6 34 45 0 0894 Available board schematics JouMd X anm asn oz 95 5 gp ___ 50 ML D a s cra v 5 YLEEWZL DN T 3900 z moda LU NN 20 169 9005 lt av K m L bl WIN 9d ano 00189 lo E 21001 3 8 02 0115 5 9
10. The following table summarizes the symbols appearing the LCD screen the associated events Table 23 Definition of LCD screen symbols SimpleMAC sample application Symbol Associated event Blue line connecting planet to sun Planet sends data to the sun see Figure 10 D Network down see Figure 12 Note For further information about the SimpleMAC sample application refer to STM32W108xx SimpleMAC user manual UM0893 available on the STM32W 32 bit RF microcontroller webpages at www st com stm32w 2 3 4 SimpleMAC Sun PC applet based on SimpleMAC library This section shows how to set up a star network supporting parent and child roles called respectively sun and planet by using a PC applet targeting the SimpleMAC Sun application The main functions of the SimpleMAC Sun PC applet are Sun node forms a IEEE 802 15 4 network Give all information about the sun node channel pan ID node ID eui64 tx power Handling planets nodes joining to the network Handling planets node leaving the network once Sun node leaves network Sun node receives data from each joined planet node 2 3 5 Run the SimpleMAC Sun PC applet The application board is automatically configured when launching the SimpleMAC Sun PC applet ky Doc ID 16999 Rev 6 25 45 Running the STM32W108xx kits UM0894 26 45 To run the SimpleMAC Sun PC applet on an application board the following steps are required
11. 17 MB954 battery 0 17 Definition of LCD screen symbols SimpleMAC sample application 25 SimpleMAC Sun PC applet command 27 List of acronyms used in the document 32 Document revision history 44 Doc ID 16999 Rev 6 ky 0 0894 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 Figure 17 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 Figure 25 Figure 26 Figure 27 Figure 28 STM32W108B SK starter 7 STM32W108C SK starter 7 851 application board 1 8 954 application board with a power amplifier 8 RF4CETV PC 21 RF4CE RC application driving the ST Virtual TV PC applet 22 RF4CERC PC applet 4 1 23 STM32 Primer2 sun
12. 24 Planet device joined to the 24 Planet sends data to the sun 1 24 Sun node with 5 25 Network down ues ee 25 SimpleMAC Sun PC applet flash image 26 SimpleMAC Sun node forming an IEEE 802 15 4 27 Planet device joined to the 28 Planet sends data to the sun 28 Sun node with 5 29 850 DERE 33 MB851 module sei Eu bee eS ERR RE de eae ERO dee 34 MBB851 eee EPs 35 MB851 B Meee ew ee eS 36 MB851 rev 7 37 851 ossi a e RR qwe pado ee he eret poa Pee ded aser eU 38 MB954 module ues ph e S 39 954 rev XO RO ee ex 40 MB954 CEDE 41 MEN Ac 42 MISERIAM 43 Doc ID 16999 Rev 6 5 45 Getting started UM0894 Note 1 1 6 45 Getting started This section provides a complete description of the STM32W SK S
13. 0 0894 J User manual STM32W SK and STM32W EXT starter and extension kits for STM32W108xx microcontrollers Note August 2012 Introduction The STM32W SK STM32W EXT starter and extension kits are easy to use tools for the STM32W108xx microcontrollers This family of microcontrollers integrates 32 bit ARM Cortex M3 microprocessor 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 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 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 remote control target and point to point applications using the dedicated software libraries ZigBee RF4CE and Simplified MAC as well as a third party IDE and C compiler IAR Moreover the STM32W108xx kits provide a set of APIs which allow you to use the kit platform
14. 8 MB850 Connectors s r gam eee E m Rhe ee ee s 9 MB850 connectors JP1 pins 03 9 MB850 connectors JP2 pins 9 MB951 board resources to develop applications and connection 10 MB951 board 1 10 PC interface chip 1 11 MB851 2 2422 RA Ee m dye 11 MB851 connectors 1 12 MB851 connectors 12 MB851 connectors PApins 13 MB851 jumper configuration lisse Re 14 MB851 PC Interface 1 14 MB851 battery 1 1 14 MB954 4 2 EROR ea 14 MB954 connectors 2 1 15 MB954 connectors P1 1 15 MB954 connectors 16 MB954 jumper ce RI 17 MB954 PC interface
15. I 10099 TIE 000199 500149 210199 8222 10199 2M 100419 PES 1590 wvivan 44 2049 usaig ade V elypS68IN Sz 40 45 Doc ID 16999 Rev 6 0 0894 Available board schematics l 60 SS ceo 2 5 8 5 veo WA 1 8sn 92 ex TPPA svd XLILAYN 6VA aso axo amp 10149 51095 31095 110185 800149 020195 510195 810195 SOIT 010195 500195 500199 300195 200195 700199 200199 100195 000199 Zogo _____ 1 01995 200195 157 120195 TSA WPA JOLI YA ann SAL 228 SENTO EOTICEIIS ISA Isau SSNIIdS PVd 010199
16. aes 1 835 RE 5 8 GPIO8 WE748 351 124 1 8 5 WE748 421 245 IE ABE SF GPIO20 ool 7 5nH ed Mor RFP GPIO19 IND T 98 RFN GPI018 7 R GND GND J VDD RF SND GND RF TX ALTP GPIO10 RF TX ALTN GPIO9 VDDIF GPIO6 BIASR VDD PADS VDDA GPIOS VBRD VUSB GPIO21 GPIO4 Ul RT9169 33PV 80K 1 RSTB 8 GPIO3 Ving n 9 24 OND 14 Emci5 100nF 2 2 100nF 22uF GND GND GND GND GND GND GND cn I yo Foon 100nF L l GND GNI C25 C28 GND R5 up GPIO05 GND GND VBRD VBRD VBRD a i 23 2 2uF 10nF Cms TECH Hee C19 6 c20 R2 222 1 2 STM32F103_QFN36 100nF RiR m adir HH vas vss H gt GND Re tk 2 PDO OSCIN BOOTO GND GND 4 1k 1 9 i PDI OSCOUT 7 2 Hi c31 2 NRST PB6 IC2CISCL 35 T 10nF 10nF lt PBS 2 C22 VddA PBAJNTRST 5 2 ee H EM 1 RIZA un 85 PAIS JTDI 5g GRIO PA2 UART2TX 58 PAS UART2RX vam 6 1 Zm Pi RB dk PAA SPIINSS Vss2 26 GND 5 5 PAS SPIISCK PAI3 JTMS 54 1 PAG SPIIMISO 55 2 PA7 SPIIMOSI PALI USBDM 55 1 Re 3 PALO UARTIRX 5f on 4 PAS UARTITX 5y 5 2 2 ce vas R10 1k5 USB 061 GND 4 5 SW PB EPAD 7 RI2D zl
17. S lO QNO T RE 2 5 5 5 5 ano lg adorano snzzano a D 2 20 ezo odo 5 8 lsu E 200195 52 5 998 Sod gz 7049 120195 500195 zz 80199 SUA 1 AS T JdoLaNo JuooLaNo usvig lt 82 9 585 2 8 9 Boon 75135 50 9049 t8 1l P5 OUST 60199 34 ano an9 Ly QNO OLOldO 1 00199 d XL 2 2 Your ze 6 100 Tas INV o Te TS Te ON 80199 H6u d LINY a m ano ano n Gloldo ve 61 01899 7 N XH 65665 ZLNV i 020195 50149 MION ano 2 2 8 d ES evzas 800199 9 201 8 8 2 e amp s ano ano 2 o ie E o la jo 90 11 segonv E ES ZHWNVZ HUH 02 99 381 SO OND e z v Y 72 m ww Tola n MOL 1 1 BAL Doc ID 16999 Rev 6 39 45 Available board schematics 0 0894
18. 22R GND NI GND 1569 8 Doc ID 16999 Rev 6 43 45 Revision history 0 0894 6 44 45 Revision history Table 26 Document revision history Date 05 Feb 2010 Revision 1 Changes Initial release 21 Apr 2010 Modified software component versions in Section 1 7 Modified installer files in Section 1 9 Modified Parity to 1 in Section 1 10 3 Modified Section 2 2 2 Section 2 2 3 Section 2 3 3 Inserted Section 3 4 08 Feb 2011 Added reference to MB954 application board with power amplifier PA delivered with latest generation of the STM32W108xx extension kit 21 Jun 2011 Added Section 5 Available board schematics Changed Figure 3 MB851 application board and Figure 4 MB954 application board with a power amplifier Added Section 1 3 MB850 hardware description Added Section 1 5 MB851 hardware description Added Section 1 6 MB954 hardware description 25 May 2012 Removed reference to EmberZnet 4 3 0 ZigBee PRO package Added new MB851 and MB954 board schematics 03 Aug 2012 Added reference to the new STM32W108C SK starter kit components Added reference to the new SimpleMAC Sun PC applet Added Figure 28 MB951 rev B board schematics Doc ID 16999 Rev 6 0 0894 Please Read Carefully Information in this document is provided solely in connection with ST products STMicroelectronics NV
19. 0 0894 Running the STM32W108xx kits Note This identifies which planet is in transmission mode if there is more than one planet device up to 5 supported by the SimpleMAC Sun PC applet Figure 17 Sun node with 5 planets 57 SimpleMac Sun Application 0001 Planet Table Active DataPending Short Address 0 0 0001 1 0 0 0002 0 0003 0 0004 0 0005 Long Address 0x0080E102001ABFF3 0x0080E102001AC8A3 0x0080E10200123F6C 0x0080E10300001DB3 0x0080E1020011E1FE For further information about the SimpleMAC sample application refer to the STM32W108xx SimpleMAC user manual UM0893 available on the STM32W 32 bit RF microcontroller webpages at www st com stm32w Doc ID 16999 Rev 6 29 45 STM32W108xx kits utilities and software tools UM0894 3 3 1 Note 3 2 3 2 1 30 45 STM32W108xx kits utilities and software tools stm32w_flasher utility The stm32w_flasher utility allows you to download a binary file into the STM32W108xx application board This utility comes with each RF software library package To download a binary image follow these steps 1 Where applicable fit the application board jumper P2 on position 5 6 power via USB 2 Connect a mini USB cable to the application board 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 LPT t
20. a w e Fr EI a 2 o Push the button ES to start pairing with the ST Virtual TV and then use the RC buttons to drive the virtual TV Basic star network based on SimpleMAC 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 only for STM32W108B SK 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 Primer2 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 Doc ID 16999 Rev 6 23 45 Running the STM32W108xx kits UM0894 2 3 2 2 3 3 24 45 Figure 8 5 32 2 sun node 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 t
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22. 2 3 6 Build download run the sample planet application on the application board To build download and run the sample planet application on an application board use the related IAR project provided within the SimpleMAC software library package following the instructions described in Section 3 3 Embedded Workbench for ARM ky Doc ID 16999 Rev 6 27 45 Running the STM32W108xx kits UM0894 2 3 7 28 45 Set up a star network using SimpleMAC Sun PC applet On the planet node press button 51 to join the network formed by the STM32W108xx sun node Once joined the planet node is displayed on the SimpleMAC Sun PC applet Figure 15 Planet device joined to the network 57 SimpleMac Sun Application PR 0001 The Network me prid planes is F as joined the network fosscoms When a planet device sends data to the sun device at a periodic rate a line connecting the transmitting planet to the sun is displayed on the SimpleMAC Sun PC applet as well as the sent application board VDD_PADS value in mV Figure 16 Planet sends data to the sun 57 SimpleMac Sun Application The 0001 planet vdd measurement is 3299 mV Planet Table Active DataPending Short Address Long Address 0 0 0001 0x0080E1020011E1FE 0 0000 0 0000000000000000 0 0000 0 0000000000000000 0x0000 0 0000000000000000 0 0000 0 0000000000000000 Doc ID 16999 Rev 6 ky
23. Via batteries fit 1 2 on the P2 jumper e Via USB or JTAG fit 5 6 on the P2 jumper 1 The jumper position 3 4 is reserved for internal usage 2 To enable the application board temperature MEMS and infrared sensors fit jumper JP1 3 MB951 USB dongle can be powered only by connecting it to a PC USB port The MB850 extension board is designed as an IEEE 802 15 4 application specific daughterboard It must be connected to the STM32 Primer2 extension connector to be powered through the STM32 Primer2 The MB850 should be connected with the STMS32W108 visible Installing drivers for USB virtual COM In order to use the serial communication channel on an application board a driver for the USB lt gt Serial converter or a Virtual COM port driver for an STM32F103xx must be installed The correct driver to install is based on the application board revision number The following application boards requires the driver FTDI USB lt gt Serial converter e MB851 Rev A e MB851 Rev B e 954 Rev Doc ID 16999 Rev 6 ky UM0894 Getting started The related drivers can be downloaded from the FTDI website at www ftdichip com Drivers D2XX htm other application boards require the STMicroelectronics Virtual COM port driver which is provided within each RF software library package 1 10 3 Setting up the application serial communication channel To get full access to all the available commands some demonstration applications
24. may require that the application board is interfaced with the user through a serial communication channel virtual COM through USB To set a serial communication channel for the application board follow these steps 1 Where applicable fit the application board jumper P2 on position 5 6 power via USB 2 Connect a mini USB cable to the application board mini USB connector and to a PC USB port 3 Right click My Computer select Manage Device Manager and open Ports COM amp LPT to display the related USB 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 A Flow control None The STM32 Primer2 and MB850 demonstration applications use the STM32 Primer2 resources LCD joystick with button touch screen display as communication channels Doc ID 16999 Rev 6 19 45 Running the STM32W108xx kits UM0894 2 2 1 2 2 Note 20 45 Running the STM32W108xx kits STM32W SK In the STM32W SK starter kit STM32W108B SK the following applications are preprogrammed e CircleOs applications preloaded in the STM32 Primer2 ZigBee RF4CE RC application SimpleMAC sun sample application e One Perytons capture firmware application board labeled as Analyzer In the STM32W SK starter kit STM32W108C SK the following applications are preprogrammed e One SimpleMA
25. 1 Connect the application 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 or connect the USB dongle directly to a PC USB port 2 From Windows launch the SimpleMAC Sun Application exe PC applet A PC applet GUI appears 3 Select the serial port matching the port assigned by the Windows Device Manager If the firmware on the application board is not present the application uploads the firmware through the serial port Figure 13 SimpleMAC Sun PC applet flash image check 57 Flash image check Checking Flash image for board 15 87 Simple Mac The board has already the SM AJ Firmaware uploaded on 15 4 Push the button to let the sun node form network If everything is done properly you get the following picture Doc ID 16999 Rev 6 ky 0 0894 Running the STM32W108xx kits Figure 14 SimpleMAC Sun node forming an IEEE 802 15 4 network 57 SimpleMac Sun Application No Planet The Network in Network is Formed Port USB COMIS Y The SimpleMAC Sun PC applet is also offering these command options Table 24 Sun PC applet command options Command Description Display all information about the sun node E 9 Display a table giving information about planets It allows the sun node to leave the network
26. 2 10 PA4 11 PA3 12 PA6 13 PA5 14 GND 15 PB1 16 PB2 17 JTCK 18 PC2 19 PC3 20 PC4 21 GND 22 GND 23 PBO 24 PC1 0 0894 Getting started 1 5 4 Table 11 851 connectors P1 pins continued Pin number GPIO function 25 PCO 26 PB7 27 PB6 28 PB5 MB851 connectors P4 pins Table 12 851 connectors pins Pin number GPIO function 1 VBRD 2 VBRD 3 PCO 4 GND 5 PC3 6 GND 7 PC4 8 GND 9 JTCK 10 GND 11 GND 12 GND 13 PC2 14 GND 15 nRST 16 GND 17 GND 18 GND 19 VJTAG 20 GND Doc ID 16999 Rev 6 13 45 Getting started 0 0894 1 5 5 1 5 6 1 5 7 1 6 1 6 1 14 45 MB851 jumper configuration Table 13 lists the jumpers configurations on the MB851 board Table 13 851 jumper configuration Label Configuration JP1 Power Mems temperature sensor and infrared LED 1 2 battery powered P2 2 3 reserved 3 4 USB or JTAG powered MB851 PC interface chip Table 14 lists the PC interface chip available in the MB851 board to allow I O interface to the STM32W108 Table 14 851 PC Interface chip Revision Type Part Rev A PC FTDI FT232R Rev B PC FTDI FT232R Rev C D PC STM32F103TBU6 MB851 battery holder Table 15 851 battery holder Type Label 2x AAA battery holder BT1 MB954 hardware descri
27. 8989353 3t rg 8 55798 so 7 910199 g 7 s i x IS BOWS 29389 lt i Og Eg ga 20 M9898 00199 QNO GNO 2051115 LO 6 089 in o 9 089 30001 3400 OLZSdHSL 620288 820 p 1 T I ano gt al sa 6 rere 1589 ES 020189 61095 ER 910195 Sd MS 100149 mE gt L iS venir 3955 20195 Fano Del EH 2 89 209 GIE zx 3922 210195 POS ey 109 91080 ls ano 220195 10199 ve 80099 T zu 1 YSNA 02095 es Uh 610195 LG 810185 9L SL OL PMOSNVVV T 3940034003400 NOL 88 010199 6000 9 9 4 009 50085 20099 E seo eco nio 40 Haan 700199 6 200185 VSIA 1 100199 8 2 000199 710199 210199 9 pM 400149 15849 eV Nyy Lane ld 02 10 16999 6 35 45 Available board schematics 0 0894
28. C planet application application board labeled as Planet e One Perytons capture firmware application board labeled as Analyzer e AUSB dongle with SimpleMAC planet application 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 SimpleMAC planet firmware application board labeled as Planet Using these boards you can extend the sun planet point to point network with other four planet nodes Installing the STM32W108xx kit software tree To install the specific kit software tree download the related RF software library package from the STM32W 32 bit RF MCUs Internet web pages Remote control and virtual TV based RF4CE library This section shows how to control a ZigBee RFACE compliant TV target using an RFACE 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 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 STM32 Primer2 and MB850 are available only with STM32W108B SK kit Doc ID 16999 Rev 6 ky 0 0894 Running the STM32W108xx kits 2 2 1 Run the remote control RC and virt
29. TM32 Primer2 STM32W EXT No CDs are delivered with the extension kit package ky Doc ID 16999 Rev 6 17 45 Getting started UM0894 1 8 Note 1 9 Note 1 10 1 10 1 Note 1 10 2 18 45 Documentation The starter kit package STM32W SK contains the following documentation components e STM32W108 starter kit welcome letter which briefly describes the kits targets and components STM32W108B SK also contains Raisonance STM32 Primer2 welcome letter The extension kit package STM32W EXT contains STM32W108 extension kit welcome letter which briefly describes the kits targets and components Software libraries and demonstration applications The STM32W108xx Starter and Extension Kit boards supports the following RF Software libraries packages e ST ZigBee RF4CE software library and ZRC ZID application profiles with demonstration applications for controlling an RFACE compliant TV using an RFACE compliant remote control and a RFACE mouse keyboard e ST SimpleMAC 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 package refer to the related documentation Please check for the most recent RF library package versions on the STM32W 32 bit RF MCUs Internet webpages at www st com stm32w Kit set up Powering on the boards Each application board can be powered as follows e
30. TM32W EXT kit s hardware and software There are two types STM32W108xx kits e starter kit order code STM32W108C SK e extension kit order code STM32W108C KEXT 1 Order code STM32W108B KEXT is replaced by STM32W108C KEXT 2 STM32W108C SK STM32W108C KEXT contain STM32W108CC 256 Kbyte Flash 3 STM32W108B SK STM32W108B KEXT contain STM32W108xB 128 Kbyte Flash Kit description Hardware STM32W108B SK The STM32W108xx starter kit package STM32W108B Sk contains the following hardware components Two STM32W108 application boards 851 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 STM32W108B SK starter kit J Link Lite IAR compiler MB850 extension board STM32 Primer2 MB851 application board x2 Doc ID 16999 Rev 6 ky 0 0894 Getting started STM32W108C SK The STM32W108xx starter kit package STM32W108C Sk contains the following hardware components e Two STM32W108 application boards MB851 One STM32W108 USB Dongle MB951 One J Link Lite JTAG Flash programmer and debugger One mini USB cable Four AAA batteries Figure 2 STM32W108C SK starter kit J Link Lite IAR compiler MB951 USB dongle MB851 application board x2 Doc ID 16999 Rev 6 7 45 Getting start
31. TWO AUTHORIZED ST REPRESENTATIVES ST PRODUCTS ARE NOT RECOMMENDED AUTHORIZED OR WARRANTED FOR USE IN MILITARY AIR CRAFT SPACE LIFE SAVING OR LIFE SUSTAINING APPLICATIONS NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY DEATH OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE ST PRODUCTS WHICH ARE NOT SPECIFIED AS AUTOMOTIVE GRADE MAY ONLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER S OWN RISK 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 2012 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 6 45 45
32. 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 whatsoever relating to the choice selection or use of the ST products and services described herein No license express or implied by estoppel or otherwise to any intellectual property rights is granted under this document If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such third party products or services or any intellectual property contained therein UNLESS OTHERWISE SET FORTH IN ST S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY WITH RESPECT TO THE USE AND OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT UNLESS EXPRESSLY APPROVED IN WRITING BY
33. ashes for a short period e LED D3 is the heartbeat LED A prebuilt analyzer binary image for Perytons is provided with each RF software library package Doc ID 16999 Rev 6 ky 0 0894 STM32W108xx kits utilities and software tools 3 3 IAR Embedded Workbench for ARM To install the IAR Embedded Workbench for ARM follow these steps 1 Go to the Download section of the IAR website www iar com download section and select a 30 day IAR version for ARM 2 Start the download procedure and receive a 30 day license 3 Insert the STM32W108 Starter Kit IAR CD ROM and follow the installation instructions using the 30 day licence from the IAR website To build the binary image of all the available demonstration applications using the IAR tool follow these steps 1 Openthe IAR tool 2 Fromthe File Open 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 application board follow these steps 1 Connect the JTAG Flash programmer to the application board connector and to a PC USB port through a USB cable 2 Power the application board through the JTAG P2 jumper fitted on 5 6 position 3 From the Project menu sele
34. capabilities such as LEDs and serial communication channels virtual COM through USB In this manual you can find information about The STM32W108xx kits components e Howto install the related hardware and software trees The term application board refers to the MB851 and MB954 platforms For more information visit the STM32W 32 bit RF microcontroller webpages at www st com stm32w This web page provides full access to all the STM32W108xx resources kits software packages and documents Table lists the evaluation tools concerned by this user manual Table 1 Applicable tools Type Applicable tools Evaluation tools STM32W SK and STM32W EXT starter and extension kits Doc ID 16999 Rev 6 1 45 www st com Contents 0 0894 Contents 1 Getting started hk th inant 6 1 1 Kitdescnpti n TP CM tees esse eee 6 1 1 1 Hardware iue he ene eee eee 6 1 2 Revision numbers of STM32W108xx starter and extension kit boards 8 1 3 MB850 hardware description 8 1 3 1 MB850 resources 8 1 3 2 MB850 connectors 9 1 3 3 MB850 connectors JP1 pins 9 1 3 4 MB850 connectors JP2 pins 9 1 3 5 850 jumper configuration
35. continued Name GPIO function 16 PB2 17 JTCK 18 PC2 19 PC3 20 PC4 21 GND 22 GND 23 PBO 24 PC1 25 PCO 26 PB7 27 PB6 28 PB5 1 6 4 MB954 connectors P4 pins Table 19 954 connectors P4 pins Name GPIO function 1 VBRD 2 VBRD 3 PCO 4 GND 5 PC3 6 GND 7 PC4 8 GND 9 JTCK 10 GND 11 GND 12 GND 13 PC2 14 GND 15 nRST 16 GND 17 GND 18 GND 19 VJTAG 20 GND 16 45 Doc ID 16999 Rev 6 0 0894 Getting started 1 6 5 MB954 jumper configuration Table 20 lists the jumpers configurations in the MB954 board Table 20 954 jumper configuration Label Configuration JP1 Power Mems temperature sensor and infrared LED 1 2 battery powered P2 2 3 reserved 3 4 USB or JTAG powered 1 6 6 MB954 PC interface chip Table 21 lists the PC interface chip available in the MB954 board to allow I O interface to the STM32W108 Table 21 954 PC interface Revision Type Part Rev A PC FTDI FT232R Rev B C PC I O STM32F103TBU6 1 6 7 MB954 battery holder Table 22 MB954 battery holder Type Part 2x AAA battery holder BT1 1 7 Software STM32W SK The starter kit package contains the following software components e One CD ROM including Perytons network analyzer e CD ROM including the Limited 30 days Evaluation Compiler Note STM32W108B SK also contains one CD ROM including the RaisonanceTM Development Suite for the S
36. ct Download and Debug The binary image is downloaded into the STM32W108xx 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 1 Opena DOS Window on your PC 2 jlink 3 Issue the command power perm Doc ID 16999 Rev 6 31 45 List of acronyms UM0894 4 List of acronyms Table 25 List of acronyms used in the document Term Meaning API Application programming interfaces ZRC ZigBee Remote Control 210 ZigBee Input Device MAC Medium access control PA Power amplifier RC Remote control RF Radio frequency communication USB Universal serial bus 32 45 Doc ID 16999 Rev 6 ky 0 0894 Available board schematics LA69S6LSW 3900 L 600199 010199 L 50049 H9 ON CO sf 10 CO LOOldD 1589 000149 LA GOW 212 9 0149 192 L lt TIT isau 0989101 8
37. ectors JP1 pins Pin number 1 GPIO Function 2V8 GND PCO JRST SWCLK JTCK PC4 SWDIO JTMS nRST 1 3 4 MB850 connectors JP2 pins Table 5 MB850 connectors JP2 pins Pin number GPIO Function 1 2V8 2 GND 3 NC 4 NC 5 PAO 6 PA1 7 PA2 8 PA3 9 NC 10 NC 11 nRST 12 5 13 14 4 15 Doc ID 16999 Rev 6 9 45 Getting started 0 0894 1 3 5 1 3 6 1 3 7 1 4 1 4 1 Note 1 4 2 10 45 Table 5 MB850 connectors JP2 pins continued Pin number GPIO Function 16 PB2 17 NC 18 PB1 19 NC 20 GND MB850 jumper configuration None MB850 PC interface chip None MB850 battery holder None MB951 hardware description MB951 resources Table 6 lists the resources available in the MB951 board to develop applications and their connection with STM32W108 pins Table 6 MB951 board resources to develop applications and connection Rev B Type Label Part STM32W108 Button 51 LED D1 PA5 LED D3 PAO MB 951 revision A is not used in any of the STM32W108xx starter and extension kits MB951 connectors Table 7 lists the connectors available in the MB951 board and their functions Table 7 MB951 board connectors Function Type Label Doc ID 16999 Rev 6 ky 0 0894 Getting started
38. ed UM0894 Figure 3 STM32W EXT The extension kit package contains two STM32W108 application boards 851 and two STM32W108 application boards with a power amplifier MB954 MB851 application board Figure 4 954 application board with a power amplifier Note 1 2 1 3 1 3 1 8 45 ag F nnmnnnnnnnnnr Hu WU UU STM32W BRD FOR EVALUATION USE gt ST For EVALUATION USE For information concerning the STM32W108xx application boards refer to the 5 2 32 bit RF microcontroller webpages at www st com stm32w Revision numbers of STM32W108xx starter and extension kit boards Table 2 details the STM32W108xB starter and extension kit board revision numbers versus those of the STM32W108CC Table 2 Boards revision numbers STM32W108xB 128K Flash STM32W108CC 256K Flash MB851 Revision A B C Revision D MB954 Revision A B Revision C MB951 NA Revision B MB850 Revision A NA NA Not applicable MB850 hardware description MB850 resources None Doc ID 16999 Rev 6 0 0894 Getting started 1 3 2 850 connectors Table 3 lists the connectors available in the MB850 board and their functions Table 3 MB850 connectors Type Label Function Header 6H JP1 SWD debug Header 10X2 JP2 Connector to Primer2 board 1 3 3 MB850 connectors JP1 pins Table 4 MB850 conn
39. hat provide information about the sun parameters node information planets list Options that execute actions leave network quit Run the sample planet application on the application board To download and run the sample planet application on an application board use the related IAR project provided within the SimpleMAC software library package following the instructions described in Section 3 3 Embedded Workbench for ARM Set up a star network using STM32 Primer2 MB850 platforms 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 9 Planet device joined to the network m 0001 When planet device sends data to the sun device at a periodic rate a blue line connecting the transmitting planet to the sun is displayed on the screen as well as the sent application board VDD_PADS value mV Figure 10 Planet sends data to the sun 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 6 ky 0 0894 Running the STM32W108xx kits Figure 11 Sun node with 5 planets B 0001 0002 0003 0005 0004 Figure 12 Network down 0007 0008
40. n 18 90 BNA LGSAIN Ez 38 45 Doc ID 16999 Rev 6 0 0894 Available board schematics 24001 Wa noL Wd tad n zgd TOMS n n 4 504 n L vod 08d Ei ano ___ ano ano Pleiusiejew QN9 ano ano zo 1Suu SE E t ea ang QNO 1681 d ONS 8 pasien 0 0 al i 5 900 Wo 025 9u 615 ang D 9 anzz 8d T Pietusieieiw is 99d 93 4Nd oo stor jod 619 o o o o o S v S v 5 S lo S S 8
41. nt ecd 29 00 4 00 00 9 s 0059 900195 gee 50046 HOS ae 100199 025 200199 vSIAt M 100149 000199 VOID 10849 s ISu wvivan 5497513 aig LGSAIN 712 e1nBi4 36 45 Doc ID 16999 Rev 6 0 0894 Available board schematics _ SINII asn X 9h 9 ri ISSA e Nd SET isa Zi Te H xoi 5 1 2 waasrvitva ISOWIMS LYd a aaasniiva OSINIIAS 9Va HH VG oH HH S 2 4 84 55 4 2 ES m xuzprvneva HiL exis 16 009 e Iva ai 3 3400 2 H auo azavo 6X zeo 169 0 5 pj was 5D saa vsa Siu H x 2 osiocovega Isan E nd En mM 55 20 mo z
42. o display the related USB COMXx port 4 DOS Window your PC 5 Go to the utilities folder which comes after the installation process 6 Type the following command stm32w flasher p COM r f file name bin s37 where is the virtual COM related to the connected application 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 for all the boards which have a JTAG connector 1 Fit the application board 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 a 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 file name bin s37 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 Application board labeled as Analyzer fit jumper P2 on position 5 6 power USB and connect to a PC USB port 2 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 application board LEDs behave as follows e When data is sent to the PC LED D1 fl
43. ption MB954 resources Table 16 lists the resources available in the MB954 board to develop applications and their connection with STM32W108 pins Table 16 MB954 resources Rev Rev B C Type Label Part GPIO GPIO Button RST1 Button S1 PB3 PB3 Doc ID 16999 Rev 6 0 0894 Getting started Table 16 954 resources continued Rev A Rev B C Type Label Part GPIO GPIO M24C64MW1 EEPROM 4 Not fitt PA2 E 9 5 128 KBytes erated LED PA5 PA5 LED D3 PAO PAO LED D5 Infrared LED PB4 PB4 Mems U2 LIS302 PA1 PA2 PA1 PA2 Temperature U3 STLM20 PA4 PA4 sensor 1 6 2 MB954 connectors Table 17 lists the connectors available in the MB954 board and their functions Table 17 954 connectors Type Label Function Mini USB J2 PC I O Header 14 pin dual row male 1 GPIO access P4 Standard JTAG debug 1 6 3 MB954 connectors P1 pins Table 18 954 connectors P1 pins Name GPIO function 1 VBRD 2 PC5 3 nRST 4 5 6 7 8 1 9 2 10 4 11 12 6 13 5 14 15 1 Doc ID 16999 Rev 6 15 45 Getting started 0 0894 Table 18 954 connectors 1 pins
44. tton pages until you find the button Push the button to start pairing with the application 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 5 RF4CETV PC applet ST TV Ready Doc ID 16999 Rev 6 21 45 Running the STM32W108xx kits UM0894 2 2 2 Note 2 2 3 22 45 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 6 RF4CE RC application driving the ST Virtual TV PC applet C STM32 Primer2 RC ST Virtual TV For further information about the ST RFACE demonstration applications refer to the STM32W108xx ZigBee RF4CE library user manual 0 0909 Use the virtual remote control RC and virtual TV applications The same demonstration application can be run using the ST virtual remote control RC PC applet The RFACERC PC applet implements a virtual RC supporting the following features Certain RC standard buttons Volume control Mute Channel change Pair button Paired device information Click on From Windows to launch the RFACERC exe PC applet A PC applet GUI appears Doc ID 16999 Rev 6 ky 0 0894 Running the STM32W108xx kits 2 3 2 3 1 Figure 7 RFACERC PC applet 47
45. ual TV applications The STM32 Primer2 tool provided with the STM32W SK starter kit only STM32W108B SK is delivered with the RC application This application automatically configures the connected MB850 extension board with the related ZigBee RC application The application board is automatically configured when launching the RFACETV PC applet To run the RC and TV applications on the STM32 Primer2 MB850 and application board platforms the following steps are required 1 Connect the MB850 to the extension connector of the STM32 Primer2 tool 2 Power 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 RFACE RC commands 4 Connect the application 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 RFACETV exe PC applet A PC applet GUI appears 6 Selectthe serial port matching the port assigned by the Windows Device Manager If the firmware on the application board is not present the application uploads the firmware through the serial port Wait until LED D1 is on 7 Push the button 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 bu
46. up a star network using STM32 Primer2 MB850 platforms 24 2 3 4 SimpleMAC Sun PC applet based on SimpleMAC library 25 2 3 5 Run the SimpleMAC Sun PC applet 25 2 3 6 Build download and run the sample planet application on the application board 27 2 3 7 Set up a star network using SimpleMAC Sun PC applet 28 3 STM32W108xx kits utilities and software tools 30 3 1 stm32w flasher 30 3 2 Network analyzer 30 3 2 1 Perytons rena dance dde ead tp edd nac elas 30 3 3 IAR Embedded Workbench for ARM 31 4 List Of acronyms gk a Eas hn CR eee EU 32 5 Available board schematics 33 6 REVISION history 44 57 Doc ID 16999 Rev 6 3 45 List of tables UM0894 List of tables Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 Table 11 Table 12 Table 13 Table 14 Table 15 Table 16 Table 17 Table 18 Table 19 Table 20 Table 21 Table 22 Table 23 Table 24 Table 25 Table 26 4 45 Applicable products and 018 1 Boards revision numbers
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