Smart monitoring system STEVAL-IFS014V1 and
Contents
1. eiae JO iq pue soneuieuos ZS80INN d ASH 29 9 CI 90d lt 99 E9 Table 3 Bill of material of STEVAL IFS015V1 continued Manufacturer s Category Ref des Omp nem Package ordering code i l description orderable part number am oe wowe O Ca wm awol m m ano some NENNEN NEN NENNEN NEN NENNEN NNNM R37 3 9 kQ SMD0402 componen ts LDR 1 Light dependant resistor Through hole AA paa PDV P5001 R25 R26 Resistors R9 R10 R11 10 kQ SMD0402 Any R19 R20 R21 R22 R48 R12 R13 R 14 R15 R16 R17 R18 15 kO SMD0402 22 KQ SMD0402 33 kO SMD0402 R24 BZ1 Digi Key Digi Key Supplier ordering code 102 1115 ND PDV P5001 ND e119 eul JO lq pue soneuieuos ZS80INN 99 79 9H 29 9 CI 90d Table 3 Bill of material of STEVAL IFS015V1 continued Manufacturer s Component ordering code Supplier ordering category Merce description Pacrage orderable part code number Misc componen ts Note 1 A Shenzhen Graphical LCD display PCB TechStar TS12232C Techstar TS12232C Electronics Header for graphical Header 16 pin PET Integrated POT Support for graphical 1 pin mail berg C TSW 150 17 G S Integrated TSW 150 17 G S display strip Electronics Keystone MOUSER Keystone MOUSER mM LED spacer for LDR 3 mm 8914 ELECTRONICS 534 8914 A9051107 and A9051107 and Schurter OKW A952047 and Electronics India A952047 and A9151017 A91512. The GUI reads the data from the board only once at startup and then processes that data Once the file is read from the board the board can be removed and can exit the USB mode As long as the station is in USB mode all other operations are stopped The station should not be kept in USB mode for a long time after reading the file using the GUI to prevent losing the wireless link and data Alarm system The system has the capability to detect various alarm conditions and give indication to the user The system gives warnings for the following conditions Threshold crossing of weather parameters The smart monitoring station and all the active nodes can be configured to display warnings upon crossing the maximum or minimum threshold of any of the weather parameters Whenever any weather parameter of any node crosses the configured maximum or minimum limit then that node sounds an alarm At the same time this information is transferred to the smart monitoring station through ZigBee and an alarm sounds also at the smart monitoring station along with the warning on the display see Figure 14 Figure 14 Warning messages Warning screen of STEVAL IFS014V1 Warning screen of STEVAL IFS015V1 AM05697v1 All the nodes and the smart monitoring station function in this manner For displayed warnings if the user acknowledges the alarm by pressing the screen of the STEVAL IFS014V1 when the warning is displayed on the screen then the alar
3. dOT Idd O IGOT 68d a5 ov aida gt OI CH CHd QqO T LSA OVd 9I PI cl OT 8 9 v T SI I TI 6 O 9001 9Vd O FOOT vr Vd O cao oldd 0001 88d ni dOT IH 08d o f OAPCOT NDI Hai AM05750v1 59 66 Doc ID 16752 Rev 1 Table 3 Bill of material of STEVAL IFS015V1 Manufacturer s Category Ref des Compenon Package ordering code description orderable part number idc a d SOT 223 STMicroelectronics LD1117STR STMicroelectronics Step up converter TSSOP8 STMicroelectronics L6920D STMicroelectronics U Battery charger DFN6 STMicroelectronics STBC08PMR STMicroelectronics Microcontroller working U4 as host for all the LQFP48 7 X 7 STMicroelectronics STM32F103C8T6 STMicroelectronics devices connected MEMS QFPN 16 STMicroelectronics LIS331DLH STMicroelectronics U O ST devices 7 k SOT323 5 STMicroelectronics STLM20W87F STMicroelectronics E U8 Low voltage detector SOT23 3 STMicroelectronics STM1061N29WX6F STMicroelectronics NO 5 J3 lt D1 D2 ZigBee module comans SMD STMicroelectronics SPZB260 STMicroelectronics SN260 device Power diode STMicroelectronics STPS1L30A STMicroelectronics NPN transistor SOT 23 STMicroelectronics 2STR1215 STMicroelectronics MD P channel power l MOSFET SOT 223 STMicroelectronics STN3PFO6 STMicroelectronics Schottky diode STMicroelectronics BAT54JFILM STMicroelectronics Humidity sensor Through
4. AMS DVI SIVd OVAL vad AND ISON TdS NOS Ilds Josues Ajipiuwng OAE IVE MOT 8dd LVdA SAV ZZDH 68d TALNO SN OIVd dagsn GAS OVI ted GAS OVI v IVd GAS OVI IVd GAS OVI SIVd DVL tHd AND a J A JO 181 HO LISTA JIA S 08HdsZN SA t o S T en WAddNATAVO NId 07 c c SIN e ro po c oo o LAP Ora OSIN IIdS I S 084S tad 0c 6 00 4 4 CN c0 st i NO U 00 Ov QOO c e ta o OAE AM05745v1 Doc ID 16752 Rev 1 48 66 Schematics and bill of material UM0857 Sheet 4 of schematic of STEVAL IFS014V1 Figure 62 OAE 4U00I 910 4U00I AOT 9TA LIO HOLIMS LSAN TMS LSAN LASAA 001 F TO u 0 AND VddA VOAE TLOO4 GND 0100d uonoes J9 0M U090121 adot INO TEISO SIOd LA Liv TED vas cod OSL VIS TOU NEXU ZHXS9 Lt OAE cc OSL INI Lad TA SEN TOS ZOU Ooo OSL TOS TOTI zm NI ZEOSO vIOd 0 9 adoz 2 BRERRE sEBEBB BE EB o NG 1G cs rs rat ro SEE EEES o S 4Alals yle das amaaa aae gt H E aeso s zo tA Zl E5 3 nln A z 3 e In 43 IB PBB I a IB IB YB YB fu Ko Us Jus bo G2 Us us Jus JU Iho fio ko Jo KO 00 JQ YD JOP Oo r2 O o oo au fa J JB o fo S o joo fa Os SG 58 SSS SESSSRSSSSSESS ESSE j la tag TASSU AdS IS de c gt ag ST LTO MOS dds ZS Wes INOVA vC da1 WWNVIV Ivd OSIN dS tS ddI dWVTI 0Vd sigd VadA ISON
5. CTA UMO857 Y User manual Smart monitoring system STEVAL IFSO14V 1 and STEVAL IFSO15V1 based on the STM32x Introduction This document explains the functioning of the smart monitoring system and also serves as a quick reference manual to operate the system The smart monitoring system works on ZigBee wireless technology and measures temperature humidity and light intensity of 9 remote and different locations simultaneously The system also demonstrates the wireless control of home appliances and can serve as a basis for many new systems The objective of this demonstration board is to design a complete system which demonstrates the effectiveness of low data rate wireless solutions from ST in automating various measurements for weather parameters This system can be further interfaced to take an appropriate action based on the parameters being monitored The system can very easily be modified to control various household appliances by suitable additional hardware This system uses various devices the most relevant are the STM32x microcontroller SPZB260 ZigBee device LIS331DLH MEMS STMPE811 touchscreen controller STLM20 temperature sensor and various power supply components along with the battery charger The system has been designed taking future expandability into consideration The system can be powered up using m External power supply B 3 7 V Li lon battery To summarize the key features of the system are Wireless
6. earthquake for the system when logging the data into the system but simultaneous movement of the nodes can also happen without an earthquake The system is just d Doc ID 16752 Rev 1 21 66 System operation UM0857 3 5 4 Note 3 5 5 22 66 1 demonstrating the concept which has no relation with a real earthquake and has not been tested using any vibration producing system until now For the system to detect any simultaneous node movement at least one node should be active in the system Low battery and battery recovery The system has the capability to detect a low battery of the smart monitoring station as well as that of all the nodes Whenever the system detects a low battery a warning is displayed Also on the data screen of the station STEVAL IFS014V 1 the node number becomes red indicating the low battery of that particular node Similar information is displayed on the data screen of the node also see Section 4 1 and 5 1 When the battery is charged the system detects the battery status and displays a message on the screen and the node number becomes blue again When the battery value falls to 3 3 V the board interprets this value as a low battery and the user should charge the battery To prevent total discharging of the battery the board switches off when the battery voltage falls to 2 5 V The board shuts down after low battery detection in approximately 2 hours but this time depends on the type and r
7. this LED glows whenever there is an error or alarm 4 D1 lamp LED yellow this LED functions as the lamp which can be switched on or off from the smart monitoring station by the user using the light application of the system 5 NW network LED blue this LED blinks whenever there is any communication using ZigBee 6 4 Battery connection In this section we explain how the user can connect the battery to the STEVAL IFSO14V1 and STEVAL IFS015V1 Both the systems have been designed for the Li lon battery of the dimensions 45 x 35 x 5 mm see figure below The battery dimensions are similar to the battery with part number BL 5B from Nokia For the RTC power backup a socket for the 3 V coin type CR2032 battery is provided Figure 32 Dimensions of Li lon battery Thickness 5mm AMOS718v1 AY Doc ID 16752 Rev 1 35 66 Additional setup information UM0857 6 4 1 36 66 Battery connection STEVAL IFS014V1 The user should do the following steps in order to connect the battery to the STEVAL IFS014V1 board 1 Turn the board upside down and place it on a table Figure 33 Back of STEVAL IFS014V1 and screwdriver AM05717v1 2 Remove the rubber pads from the holes Figure 34 Removal of rubber pads Removing the rubber pads Rubber pads removed AM05718v1 3 Remove all the screws using the screwdriver Figure 35 Removal of screws Opening the screws All screw removed AM05719v1 Doc ID 16752
8. LED indicator for lamp D2 LED indicator for alarm NW LED indicator for ZigBee activity CH LED indicator for battery charging PW LED indicator for board power ky Doc ID 16752 Rev 1 13 66 Getting started UM0857 Figure 5 Smart monitoring node STEVAL IFS015V1 side view Mini USB connector forexternal power and USB communication Power switch to ON OFF the power supply AMO5688v1 The major components present on each smart monitoring node STEVAL IFS015V1 side view are see Figure 5 e USB mini USB connector for power e Power switch used for switching board power on or off Figure 6 Smart monitoring node STEVAL IFS015V1 back view Wall clip AM05689v1 The smart monitoring node STEVAI IFS015V1 has a clip to hang the board on the wall see Figure 6 Note For a complete hardware description of the smart monitoring station STEVAL IFSO14V1 and smart monitoring node STEVAL IFS015V1 please contact your local STMicroelectronics sales office 14 66 Doc ID 16752 Rev 1 AY UM0857 2 4 Note Note Getting started Powering up the system Both the smart monitoring station STEVAL IFS014V1 and smart monitoring node STEVAL IFS015V1 can be powered up using the USB power adaptor 5 V 500 mA or the mini USB cable through a computer laptop or by using the battery 3 7 V Li ion The system uses the battery power only in case of unavailability of the external power supply The system
9. 5 kO SMD0805 2 7 kO SMD0805 R33 R35 R36 R37 R38 R39 R40 R57 R68 4 7 kQ SMD0805 Any H69 R14 R15 R16 H17 R18 R19 R20 R21 R22 R23 R24 10 kO SMD0805 R26 R28 R55 R56 Manufacturer s ordering code Supplier ordering code orderable part number R3 R4 R5 oka SMD0805 OS a R48 R49 SMD0805 O Ba compone BZ1 Buzzer AXIAL CUI Inc CEP 2242 Digi Key 102 1115 ND nts LDR 1 a I rol Avance PDV P5001 Digi Key PDV P5001 ND resistor hole Photonix Inc ZS80INN e119 eul JO lq pue soneuieuos 99 9G 9H 29 9 CI 990d Table 2 Bill of material of STEVAL IFS014V1 continued Component ashen le Supplier orderin Category Ref des ud Package ordering code PP g description code orderable part number Cable to connect J1 tanpa and J8 after breakup Samtec FJ 20 D 03 00 4 Silas FJ 20 D 03 00 4 Electronics of the board A9052107 and Schurt r A9052107 and Casing OKW A952017 and Electronics India A952017 and A9152007 A9152007 Note 1 Outof R30 and R31 only one resistor is to be mounted 2 HRS32is not to be mounted 3 Components SW2 BT1 J3 J4 and J9 are not mounted E amp 149 eUiJ JO jiq pue soneuieuos ZS80INN Schematics and bill of material UM0857 Schematic and bill of material of STEVAL IFS015V1 7 2 Figure 64 Sheet 1 of schematic of STEVAL IFS015V1 LVd OAS OAL LVAA ETCLOS ALSLITTGT In Ajddns 19 Mog C026
10. cds S 8dd 4TAA 844 LAL 8dd Ss 6dd ATAA 68d IAL 6dd 96 Olga WSSA oiga LHL Oldd Ls iida a Ida LAL Ildd 8 itid Dd TI zigd LAL 71dd 66 edi 104 INOAH ZOd ciad IAL cIdd 09 vida 004 9 INOAL Tod 9c vigd LAL pidd T9 ee ISN ST INOAT 00d sigd LAL sidd 79 and INO 980 FI ISAN INI ISOHU 9Dd 9 154 918A 0TLJC IALLS NI OSO T INO DSO OAE ANYA Lod PI pi E OU TI NI OSO AWH LLVH ldSdWU 89d SI TI OAE ag TA LAL 60d 99 69d S SSA 01 X gyd INO TEISO SIM 19 6 INO TEISO SIOd 2 lt 6vd NI 0SO 919 eaa E 0 89 Vd KAMAG DENM ela 8 NI ZEOSO Idad IV8A TALINO dS 0OlVd 69 L X IN IVAA IIVd IVAA 0 Wadsn OL divi Odd 9 ddasa IL Ed cat SO GSW 93d oct OAE GMS DVLI IVd CL p x lt ON vad EL TUA aa FS 0848 vdd vL TAON w lt I T TALNI SWAN dd 0AE SL A E T RILNI SWAN Cdd 2 OOOSGOOGOGgOGgOuuguugdguum BUOCORFNORFNWANADANWBUNA DNOCOO Or uw en ee re es Pe es Ies 28 en 89 85 e 65 8 2 5 5 8 3 5 5 3 5 5 Ley pue ogy JO NO JOjsIs9J euo Ajuo JUNON SE REEEESEEEEE Begeg HE ind tos sle T I rIp pm cele less o laz az laz lax lax hh Isis lola a 4 di sm Ez 55 ERPEEREEEREE ESTER E ee mEZEEEEEEGC al lel E ee Esterri lab E vo Ql 3 ss E 5 AM05746v1 49 66 Doc ID 16752 Rev 1 UM0857 Sheet 5 of schematic of STEVAL IFS014V1 Schematics and bill of material Figure 63 da1 WAVY Ivd co d D 93INASCIdSIN m OSIIN IIdS S 8TIAS Idd Ss IZZnH
11. coin type CR2032 battery insertion for RTC power backyp 45 Figure 59 Sheet 1 of schematic of STEVAL IFS014V1 ee 46 Figure 60 Sheet 2 of schematic of STEVAL IFS014V1 2 o 47 Figure 61 Sheet 3 of schematic of STEVAL IFS014V1 eee 48 Figure 62 Sheet 4 of schematic of STEVAL IFS014V1 2 ee 49 Figure 63 Sheet 5 of schematic of STEVAL IFS014V1 anaa 50 Figure 64 Sheet 1 of schematic of STEVAL IFS015V1 es 57 Figure 65 Sheet 2 of schematic of STEVAL IFS015V1 ees 58 Figure 66 Sheet 3 of schematic of STEVAL IFS015V1 o o ooooccoooooo 59 6 66 Doc ID 16752 Rev 1 ky UM0857 1 1 1 d System features System features The smart monitoring system has been designed and developed to give the user a number of original features which make this system unique The system is comprised of one smart monitoring station STEVAL IFSO14V1 and a maximum of 8 different smart monitoring nodes STEVAL IFSO15V1 The smart monitoring station and all the nodes make a wireless STAR network and all the nodes communicate with the smart station using ZigBee protocol The smart station is a handheld device and can be carried by the user from one place to another Also the size of the smart monitoring node is small and can be placed anywhere Wireless network The smart monitoring station STEVAL IFS014V1 behaves as the coordinator of the ZigBee network and develops the network wi
12. e The user can save the graphs as pictures and even print the graphs Clock and alarm feature The system has a built in real time clock The user has the flexibility to set the clock time date using the menu and the clock keeps running even when the system is not powered up The user can also set the clock alarm for the same day Powering the system The system has multiple ways of powering up with key features e Both the smart station STEVAL IFS014V1 and smart node STEVAL IFS015V1 can be powered up using the USB power supply 5 V or 3 7 V Li lon battery e 5 The system has the capability to switch over from the external supply to battery backup and vice versa by itself e When external USB power is available the onboard battery starts charging and the system itself operates using external power e Ihe system has the capability to detect the low battery of the smart station STEVAL IFS014V1 as well as of the nodes STEVAI IFS015V1 and the information is displayed as an alarm and indicator of a low battery Doc ID 16752 Rev 1 ky UM0857 2 2 1 2 2 Note Note 2 3 Getting started Getting started System requirements The system requires Li lon batteries 3 7 V 1800 mAh or suitable mini USB adaptors 5 V 500 mA for powering of the smart station STEVAL IFS014V1 and the node STEVAL IFS015V1 System content The complete system is comprised of the following e Hardware J STEVAL IFSO14V1 smar
13. hole Honey Well ced Ha Dishant Impex MOUSER Crystal 8 MHz Through hole ABRACON ABL 8 000MHZ B2 ELECTRONICS MOUSER Crystal 32 768 kHz Through hole ABRACON AB261 32 768KHZ ELECTRONICS C O Other devices Crystal and oscillator Y2 99 09 Supplier ordering code LD1117STR L6920D STBCO8PMR STM32F103C8T6 LIS331DLH STLM20W87F STM1061N29WX6F SPZB260 STPS1L30A 2STR1215 STN3PF06 BAT54JFILM HIH 4003 or HIH 4000 815 ABL 8 B2 eLlajew JO lq pue soneuieuos 815 AB26T 32 768 kHZ ZS80INN ASH 29 9 CI 90d 99 19 Table 3 Bill of material of STEVAL IFS015V1 continued Manufacturer s Catador Ref des Component Dacia ordering code gory description g orderable part number MOUSER Tact switch Through hole ALPS SKHHAPA010 ELECTRONICS 688 SKHHAP Slide switches DPDT MOUSER 611 on on power on off Through hole C amp K Components 05202011MA0ONT ELECTRONICS 08202011MA0QN1 3 V Li lon coin battery MOUSER Header for 3 7 V Li lon USB Mini B Mill Max 897 43 005 00 Conector Mini USB connector Manufacturing Corp 100001 Digikey ED90341CTND s and Header for stack inpet J5 updation of ZigBee SAMTEC FTSH 105 01 F DV K Ducis ins m sz module SPZB260 20 pin m 3M electronic MOUSER J4 please Connector to solder on see the the graphical display Note 1 also please see Note 2 Supplier ordering code RULE 4 NO Integerated Electronics
14. 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 AN AUTHORIZED ST REPRESENTATIVE 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 cre
15. welcome screens a wait screen appears on the display indicating SCANNING NETWORK The user should not do anything until the network scanning is complete After the scanning is complete a screen indicating the text NETWORK SCANNING COMPLETED appears for a short time Figure 7 Welcome screens of STEVAL IFS014V1 Welcome screen 1 Welcome screen 2 Wait screen AM05690v1 4 After all the above steps the main sensor data screen appears on the display as shown in Figure 8 Figure 8 Initial data screen Me 01 JUN 09 Ot E n AMOS691v1 For details of the components of the display window see Section 4 1 Doc ID 16752 Rev 1 ky UM0857 3 2 System operation Establishing the network Completion of the steps in Section 3 1 creates the network for the smart monitoring station STEVAL IFS014V1 In order to join the different smart monitoring nodes STEVAL IFS015V1 to the network the user should perform the following steps 1 After the data screen is displayed on STEVAL IFSO14V1 the user should power on one of the smart nodes STEVAL IFSO15V1 for details see Section 5 2 A screen on the display of STEVAI IFS014V1 appears indicating that a new node has joined the system as shown in Figure 9 Figure 9 Newly joined node AM05892v1 3 After a while the user is asked to assign the node number to the newly joined node as shown in Figure 10 Figure 10 Assign node number 4 The user can ass
16. year two values for each parameter of each node per day The data logging system stores the maximum and minimum values of all the parameters of all the active smart nodes STEVAL IFS015V1 and smart station STEVAL IFSO14V1 of one day along with the time stamp The user can refer to the maximum and minimum value of any of the parameters of any of the nodes of any date and the time when it happened It also stores the node movement data of all the nodes along with the severity level date and time stamp So the user can view later which node was moved at which date and at what time Similar to the node movement data the system also stores the earthquake simultaneous movement of all active nodes along with the severity level date and time stamp In the present system the earthquake severity level is not calculated and has been set to minimum level 1 User interface The system has been provided with an interactive user interface with the features described in the following sections TFT display The smart station STEVAL IFSO14V 1 has been provided with a 2 4 color TFT display on which all the data is displayed along with the various colored icons symbols The smart node STEVAI IFS015V1 has been provided with a 122 X 32 graphical LCD display Touchscreen The smart station STEVAL IFSO14V1 has a touchscreen with which the user can navigate through the menu by just pressing the particular option displayed on the display A bee
17. 017 Header J4 is the male BergStrip which is cut to size and soldered on the PCB This is used to connect the PCB with the graphical display Please see serial part no 58 59 and 60 This is the female Berg Strip which is soldered on the Graphical Display TS12232C so that the display can be attached on the PCB through J4 Out of R28 and R29 only one to be mounted H27 and H39 are not to be mounted Components SW2 BT1 J5 and J6 are not mounted eiae JO iq pue soneuieuos ZS80INN UM0857 Revision history 8 Revision history Table 4 Document revision history om onsen es 04 Jan 2010 Initial release AY Doc ID 16752 Rev 1 65 66 UM0857 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 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
18. 4QBC D Kingbright Mo 604 WP7104SRC D Yellow LED lamp hole 3 mm l l MOUSER Kingbright WP7104YC ELECTRONICS 604 WP7104YC round C36 C37 C38 Green LED power status of the system U NO Orange LED Through indication of battery hole 3 mm charging ongoing round Through hole 3mm round Through Red LED alarm signal indicator U N O h Capacitor 99 ES ZS80INN e119 eu1 JO lq pue soneuieuos 99 75 9H 29 9 CI 90d ny O D n Bill of material of STEVAL IFS014V1 continued Component Category Ref des description am C24 C25 code m C2 C3 CA C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 100 nF SMD0805 C15 C16 C17 C18 C35 C40 C21 C22 C27 Tantalum cap 10 uF SMD1206 disi TCA1A106M8R Digi Key 511 1463 1 ND semiconductor C19 C20 Tantalum cap 47 uF SMD1206 SMD 6 0 mm x Inductors 22 UH 630 MA 6 0 mm x Taiyo Yuden NR6012T220M Digi Key 587 1708 1 ND 1 2 mm L x W x H 1 pH reactance 600 at 100 MHz SMD0805 MuRata BLM21B601S Digi Key 490 1046 1 ND Resistors R32 R41 R61 SMD0805 R65 Manufacturer s ordering code Supplier ordering orderable part number R29 R30 R31 ZS80INN elajew JO jiq pue soneuieuos ASH 29 9 CI 90d 99 49 Table 2 Bill of material of STEVAL IFSO14V1 continued Component R8 R9 R10 470 Q SMD0805 R64 R66 511Q SMD0805 R34 R43 R44 R45 1 KO SMD0805 R62 R67 R50 R63 1
19. 7 Removal of screws Opening the screws All screws removed AM05731v1 4 Turn the board with the front facing up and place it on the table Figure 48 Front of STEVAL IFSO15v1 5 Remove the top cover of the board and move it to the side of the board This should be done very carefully because the top has the cutouts for the LCD and LEDs Care should be taken that the LEDs and LCD are not bent Figure 49 Removal of top cover of the case Removing the top cover Top cover removed AMO05733v1 Doc ID 16752 Rev 1 41 66 Additional setup information UM0857 6 Remove the LCD from the jumper J4 Figure 50 Removing the LCD Node without top cover E Removing the LCD display LCD display removed AM05734v1 7 When the board is open remove the cover of the tape where the battery is to be placed Figure 51 Removing the cover of double sided tape for battery placement AM05735v1 a 42 66 Doc ID 16752 Rev 1 UM0857 d Additional setup information 8 Place the battery on the space provided Figure 52 Battery correctly placed 9 Solder the positive terminal of the battery to the first pin square of the jumper designated as BT1 Connect the negative terminal of the battery to the third pin of the jumper designated as BT1 Figure 53 Soldering the battery Jumper details AM05737v1 During soldering care should be taken to avoid damage to the case and the nearby LEDs 10 Switc
20. 91 cn VOt TISALS q za UOT zo VOETISALS Jugo lr K Id SAP o HOLIAS IHMOd OLY OLY 8A LA MOTIJA sd NI quip NOIFT AL 904d EN LS TO s7 001 AA gt DAHO DOHA NO JIMOd iva DOA YNASODALS en R GAT TIMOR vd Occ va OAE J9XM6CNI90TIALLS EI IVHA G IJIHS q TJIHS G IMIHS q TJIHS AM05748v1 I NCHS 57 66 Doc ID 16752 Rev 1 UM0857 Schematics and bill of material Sheet 2 of schematic of STEVAL IFS015V1 Figure 65 Ca INNOW LON ADVD4a 10 09UU00 POT ADVD4a J01 9TA NS opad GAT WIVIV OVI ted DVLIf vIVd OVIf SIVd GAT dNVT OVI dd frs Lva GOT LSA 0Vd QO kal Doi Lan jaya 07 DVLI ANA THO NON GAT dNVT DVI rad YAZZNE GAT WAVIV OVLI ted SWAN Vas IOU SWAN TOS IOCI vc ET cc Ic d9OT Idd cao 01 8d dOT cH cad SNAN T2LLNI dd GAT WAVIV DV Il Edd OAL GAT dNVT OVI dd LAOT LVd 9001 9Vd SUOT Svd PADI Vd LO ao IH 0dd ro gt Ko an lt o c 07 61 8I LI 91 SI vl I I SSA I aa Jassu cIgd SOS CdS OSIN 7IdS ISON lds ANVMU 8Vd LASHA 6Vd INI LSOHU OIVd IVAMOT IIVd ZZD8 cIVd OVI t IVd lad FIVvVd SIVd 9 L80 0THC IALLS edd rad sadd 98d Lead ordd cdd Tad odd LVd 9Vd SVd vVd Vd INO 2SO Idd NI 280 0dd INO TEISO SIDA NI TEISO Ida dINVL
21. Header 16 pin 2 54 mm pitch TSW 150 23 G S SAMTEC TSW 150 23 G S Connector to take lamp LED and alarm signal out of the PCB Blue LED ZigBee Through hole l MOUSER Green LED power Through hole MOUSER LEDs status of the system pingongni NENG ELECTRONICS PIA Orange LED indication Through hole MOUSER of AA M s and Kingbright WP7104NC ELECTRONICS 604 WP7104NC Integerated Electronics Header 16 pin 2 54 mm pitch TSW 150 23 G S SAMTEC TSW 150 23 G S ZS80INN Je149 EW JO lq pue soneuieuos 99 29 9H 29 9 CI od Ay Table 3 Bill of material of STEVAL IFS015V1 continued Manufacturer s Category Ref des Omp nem Package ordering code i l description orderable part number Supplier ordering code 604 WP7104SRC D 604 WP7104YC C1 C2 C3 C4 C5 C6 C7 C8 C9 Capacitors 511 1463 1 ND 587 1708 1 ND ai uala 490 1046 1 ND Red LED alarm signal Through hole MOUSER LEDs Through hole MOUSER EM Yellow LED lamp Kingbright WP7104YC ELECTRONICS C21 C22 10 nF SMD0402 100 nF SMD0402 C12 C13 C14 C15 60mm X2 1 uH Reactance 600 at 100 MHz SMD0805 Murata BLM21B601S Digi Key 4 7 nF SMD0402 C10 C11 SMD 6 0 mm 22 UH 630 MA Taiyo Yuden NR6012T220M Digi Key Inductors Resistors C25 C26 10 pF SMD0402 C19 C20 47 uF SMD0402 i SMD0402 C23 C24 20 pF SMD0402 C16 C17 C18 Tantalum cap 10 pF SMD1206 RQ semiconductor TCA1A106M8R Digi Key SMD0402
22. I IVd IAMS OVI SIVd OVIL vad ALISAN ll aan GENE DV If vdd 10128uuoo OVI 07 DVLI 0c 61 ANA THUY NMN OD AM05744v1 47 66 Doc ID 16752 Rev 1 UM0857 Schematics and bill of material Sheet 3 of schematic of STEVAL IFS014V1 Figure 61 NNOO LAL NIdZ QC C4 cn sb wv SO c 00 ANO TAO NON QO SLO Lan es Kea ee Eml Ca aal baa La Re La ee eN 1 4 ZA IX TA stad IHL SICd bladd LAL 7IGd IHG LAL edd clad IAL zidd dd LAL Gd 018G LAL OlIGd 64G IAL 6dd 8HG LAL 8dd LAG _ LAL dd 94G IAL 9dd sad LAL dd PAG LAL tad dd LAL edd cad LAL zad 18d IAL Idd 0dd IHL 0dd LISAA LAL ZTIDdSITIALS qu LAL SIHd AM LAL pldd SA LAL Idd SO LAL cIHd OAE OAE TALNI SWAN CHd AND AND FO ejdsip 141 9 VAS CXII I 93 AAYASAA TILNI AND UND AAYAASAA vas A001 HdOHIVO T4 Td LAL 60d 68MOCINILS 0AE INOA AND GND UND LN Josues aIn gladwa INO l Q Z y IDA AMODATAVO NId0C AND J0 29UU00 998 Jd u INOAL Tod Ma Mo 4 4 4 SCTNMTHOM ODS 4 TINA TUON iaai LOI kaal bual KaJ e Lan kel eal Ce kanl Al aal baa KAI RS a wa sAs Bulbo eyeq t007HIH 9N NONE IVA MOT 88d IVAN J S Av ZZDH 68d TILNO SN OIVd ECC AND NG asn AND LASAA dAS OVI ted OMS DVL vIVd AMS DVI IVd
23. ILNV 10d IVEA 0LOOd 8dd Lt OVIf vIVd uornoes 19 04 U020J121 N 8t 6t OVI SIVd GAT WAVIV OVI ted ov CHI dWNVI OVI vdd Iv cv tr by Sp 9v SNAN TALNI Std SWAN TOS TOU SNAN VAS IOCI AND 0001 88d Id I 68d ZZ 18H ZIVd 3Ju00T JUOOT 9 INOAT cVd INOAL IVd GOT LSA 0Vd LSAN INO SO NI OSO INO TEISO NI ZEISO dOT OV tlDd TIN Oost o c ooo INO TEISO ZHN89LTE il NI ZEDISO AYALIVA ug AM05749v1 Doc ID 16752 Rev 1 58 66 Schematics and bill of material UM0857 Sheet 3 of schematic of STEVAL IFS015V1 Figure 66 Josues eJnjeJeduue SNAN TALNI Sad UND SNAN TALNT dd ANO cl AND 68M0TN TLS tAt INOA AND GND UND LN H IGI STI 6 01 II T SWAN VAS LOCI ddA SASIHSHHI INOAL IVd WTS HIS OSIN HIS ISOW HIS HAVOT HIS NA ILd VIVG Ild ANVMU 8Vd ALIALLOV Odds ALIAILOV SWAN TOS IOU OAE 09cHZdS YTOS HIS Cada OSIN HIS UND ISON HIS ATOS gavoT IS OSIN NA Ild ISOW VIVG ILd TASS IdS DIVM INI LSOH ALIALLOV ALSA DAA S f ALSA ZdS ILJ3SHUU 6Vd GAT ALIALLOV HH8DIZ CXS YHUVAH OSIN HIS ISON HIS ATOS_AIS ALSA Zds VIVG Ild cf Josues eegDiZ MOS ddS OSIN CdS ISON ZIdS TASSU Clad INI ISOHU 01Vd LASAAU 6Vd INO l Q Z O IIA 00vHIH 9N AV IdSId GOT O LAOT LVd o SqoT SVd
24. Rev 1 UM0857 Additional setup information 10 Close the case with the top cover Figure 42 Closing the top cover of the case Carefully make adjustment to Cover the board with top cover match top and bottom Lightly press to fix gaps AM05726v1 11 Tighten the screws to close the case Care should be taken that the screws are not tightened with too much force as this can damage the TFT display or LEDs Figure 43 Tightening the screws AMOS727v1 12 Apply the rubber pads on the screws Now the smart monitoring station STEVAL IFS014V1 is ready to operate on battery d Doc ID 16752 Rev 1 39 66 Additional setup information UM0857 Note 6 4 2 40 66 For the RTC power backup that is to make the clock operate even when the station is not powered up a 3 V CH2032 battery should be inserted in the socket BT2 Figure 44 3 V coin type CR2032 battery insertion for RTC power backup Battery connection STEVAL IFS015V1 The user should do the following steps in order to connect the battery to the STEVAL IFS015V1 board 1 Turn the board upside down and place it on a table Figure 45 Back of STEVAL IFS015V1 and screwdriver 2 Remove the rubber pads from the holes Figure 46 Removal of rubber pads Removing the rubber pads Rubber pads removal AM05730v1 Doc ID 16752 Rev 1 ky UM0857 d Additional setup information 3 Remove all the screws using the screwdriver Figure 4
25. Rev 1 ky UM0857 Additional setup information 4 Turn the board with the front facing up and place it on the table Figure 36 Front of STEVAL IFSO14V1 5 Remove the top cover of the board and move it to the side of the board This should be done very carefully because the top and bottom of the board are connected by a flex cable and if this becomes damaged the system may experience damage Figure 37 Opening the top cover AMOST21v1 6 When the board is open remove the cover of the tape where the battery is to be placed Figure 38 Removing the cover of double sided tape for battery placement Doc ID 16752 Rev 1 37 66 Additional setup information UM0857 38 66 7 Place the battery on the space provided Figure 39 Battery correctly placed 8 Solder the positive terminal of the battery to the first pin square of the jumper designated as BT1 Connect the negative terminal of the battery to the third pin of the jumper designated as BT1 Figure 40 Battery soldering Soldering the battery terminals Jumper details AM05724v1 During soldering care should be taken to avoid damage to the case and the flex cable 9 Switch on the power switch and the PW LED glows green which confirms that the battery is connected in the proper manner Figure 41 Checking that the battery connection is correct Switching on the power switch PW LED of the board glowing as green AM05725v1 SZA Doc ID 16752
26. S46 KG 37 Opening the top cover hrs 37 Removing the cover of double sided tape for battery placement 37 Battery correctly placed 000 aaa 38 sicci PP N Errira Rie ERT NA E a AE S E REA 38 Checking that the battery connection is correct eee 38 Closing the top cover of the case rs 39 Tightening the screws 00 a 39 3 V coin type CR2032 battery insertion for RTC power backyp 40 Back of STEVAL IFS015V1 and screwdriver llle 40 Removal or ruDDer Pads odds ed aded tindir Ered Ree ea Foes ees 40 Removal Of SCIOWS a sumida na WG ode RR PG NAT KNA DAANG ANG AA eee ee ee Soe 41 Doc ID 16752 Rev 1 5 66 List of figures UM0857 Figure 48 Front of STEVAL IFS015v1 1 eee eee 41 Figure 49 Removal of top cover of the CaS 1 enn 41 Figure 50 Removing the LCD 22 42 Figure 51 Removing the cover of double sided tape for battery placement 42 Figure 52 Battery correctly placed 0 0 aaa 43 Figure 53 Soldering the battery a 43 Figure 54 Checking that the battery connections are correct eee 43 Figure 55 Applying the LCD and closing the top cover of case 44 Figure 56 Tightening the case with screws eee es 44 Figure 57 Applying the rubber pads and STEVAL IFS015V1 powered up with battery 45 Figure 58 3 V
27. a LG eg debe A Cd doo rU o WA NG 27 4 4 Meaning of navigational icons llle 28 Description of the STEVAL IFS015V1 smart monitoring node 29 5 1 Components of default display screen 29 5 2 Other messages rr 29 5 3 JTAG connectivity dax dka KGG MAG godes BEA MA OR RR A dede DEWA 30 Additional setup information 31 6 1 Complete example of menu navigation of STEVAL IFS014V1 31 6 2 Factory default values llle 34 6 3 LEDS senses rara aora a 35 6 4 Battery connection ens 35 6 4 1 Battery connection STEVAL 1FS014V1 o oooooooo o 36 6 4 2 Battery connection STEVAL IFSO15V1 o o ooccocoocooo ooo 40 Schematics and bill of material 46 7 1 Schematic and bill of material of STEVAL IFS014V1 46 7 2 schematic and bill of material of STEVAL IFS015V1 57 Revision history escri aero ada 65 Doc ID 16752 Rev 1 3 66 List of tables UM0857 List of tables Table 1 Parameters of ZigBee network for smart monitoring system 7 Table 2 Bill of material of STEVAL IFS014V1 e 51 Table 3 Bill of material of STEVAL IFS015V1 2 60 Table 4 Document revision history a 65 4 66 Doc ID 16752 Rev 1 Ay UM0857 List of figures List of figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figu
28. al of STEVAL IFSO14V1 Figure 59 Sheet 1 of schematic of STEVAL IFS014V1 U3 LD1117STR SOT223 L5 ma 3 POWER SWITCH C2 STPSIL30A D5 STPSIL30A D4 STN3PF06 25 QI K D3 xx YELLOW 470 Z e 3 gt Lr en 3 POWER ON PROG a CHRG 5 STBC08PMR Ul 5 5V0 USB 100nF 1 C33 3 VBATI VCC POWER LED OUT VSS STM1061N29WX6F 3V0 RI 220 Y D2 1 SHDN GND AMO05743v1 lt 46 66 Doc ID 16752 Rev 1 Schematics and bill of material UM0857 Sheet 2 of schematic of STEVAL IFS014V1 Figure 60 09cCAZdS ATOS HIS OSIN HIS ISON HIS gadvoT HIS NA Ild VIVG ILd ANVMU Lod ALIALLOV Dads YTOS HIS OSIN AIS ISOW AIS 8TVOT HIS NA ILd VIVA Ild INVM ALIALLOV DAA S dada AND YTOS OSIN ISOIN TASS IdS INI LSOH ALSA ALIALLOV J012euuoo eegbiz ALSA ZdS LASAAY 80d GAT ALIALLOV SH8DIZ OSIN HIS ISON HIS ALSA ZdS VIVG Ild MOS TIAS OSIN ZIdS ISOW ZIdS TASSU CIdS INI LSOHU 99d LASAAU 89d NNOO AHA HONOL INIL AL dd LASAA AL Sod OAE TOS Od AND J0 29UU00 e uono INID XL 04d L 9 S v Vas cd c I HAN UC AOA o OAE NOS TdS SO ASW 94d ISOIN IIdS OSIN IIdS 10198uuoo p129 GS OIN do GS Od TUNES SIM OWDSd IAMS DVL tad AMS OVI vIVd posn jou TEA dMS OV
29. along with the date and time stamp as earthquake In the GUI of the system the simultaneous movement of nodes is designated as earthquake Simultaneous movement detection is possible only when the nodes have joined the system and are active otherwise no earthquake detection is done as the smart station itself is a handheld system Weather alarm conditions The system has the capability to configure the various maximum and minimum threshold values of the weather parameters of all the nodes connected to the system for the alarm conditions Each node can be configured for different values Whenever any alarm condition of any of the smart node is reached an alarm signal is given at the smart node as well as at the smart monitoring station The user can change the alarm conditions at any time through the smart monitoring station there is no need to restart the system or node Doc ID 16752 Rev 1 UM0857 1 5 1 6 Note 1 7 1 7 1 1 7 2 1 7 3 System features Light control application The system demonstrates the application of wireless light control through which the user can control the LED lamp of any active smart node D1 of STEVAI IFS05V1 through the smart station This is just the demonstration of the wireless light control application and can be enlarged to a wider level to control any electrical appliance Data logging The system has a data logging system which can store the data of more than one
30. ate 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 66 66 Doc ID 16752 Rev 1 ky
31. ating of the battery being used Even after the system shuts down the user should charge the battery within 8 hours otherwise deep discharging can cause the permanent damage to the battery Clock alarm The smart monitoring station has the capability to configure the clock alarm for the same day The alarm time should be greater than the current system time and when the system time matches that of the configured alarm time the system sounds an alarm and a picture of a bell is displayed Doc ID 16752 Rev 1 ky UM0857 Description of the STEVAL IFS014V1 smart monitoring station 4 Description of the STEVAL IFS014V1 smart monitoring station The smart monitoring station S TEVAL IFSO14V 1 acts as the coordinator for the ZigBee network to which all the smart monitoring nodes STEVAL IFS015V1 are connected In addition to the network formation and parameter display it is equipped with a very interactive menu with which the user can perform various actions In this section of the document we explain in detail the smart monitoring station 4 1 Components of the sensor data screen Figure 17 Sensor data screen l Low battery indication of smart Smart station Smart node monitoring station STEVAL IFS014V1 parameters parameters Active node NODE 7 Temperature Centigrade me ERE Active node Humidity cce h with relative i low battery Light 147 E intensity d Nodes not connected Light lamp
32. cad GHI dINV I 0Vd ISON lIdS NOS IdS d FAN eo st t SO Eo USe J UOD JU00I T1UOI SEOD O TALNO asa 0IVd 91T 9ITASN INW asn XOS 57 TO TO I OSL TOS IOd dd8sn ang ino vieq ov sng GND dI S OSL VAS IDU LVGS a JSL INI dd naasa TOA Es orn 8S1 DAS q IJIHS Q TJIHS GTAIHS Q TJIHS A Je OJ1uOO u89Jos uono uonoes ASN AM05747v1 Doc ID 16752 Rev 1 50 66 d ASH 29 9 CI 90d 99 19 Bill of material of STEVAL IFS014V1 MANUTACIUTETS Supplier orderin Package ordering code pp 9 code orderable part number Battery charger DFN6 STMicroelectronics STBC08PMR STMicroelectronics STBC08PMR U1 i U2 Step up converter TSSOP8 STMicroelectronics L6920D STMicroelectronics L6920D U i ad y SOT 223 STMicroelectronics LD1117STR STMicroelectronics LD1117STR ZigBee module contains SN260 SMD STMicroelectronics SPZB260 STMicroelectronics SPZB260 device pena HAS HABIT SOW Numonix M25PE80 VMW6G Arrow Electronics M25PE80 VMW6G used for data logging iiri Qu SOT323 5 STMicroelectronics 9 STLM20W87F STMicroelectronics STLM20W87F U MEMS QFPN 28 STMicroelectronics LIS331DLH STMicroelectronics LIS331DLH Microcontroller U9 worn noe eter LQFP100 STMicroelectronics the devices connected NN USB Ha SOT 666 STMicroelectronics USBLC6 2P6 STMicroelectronics USBLC6 2P6 Serial Flash 16 MB U11 used for pictures S0 16 Numoni
33. ch should be soldered at J2 When the JTAG is connected to the smart monitoring node and the node is powered up then after the welcome messages a message of non availability of the lamp and alarm LEDs is displayed This is because the JTAG lines of the MCU have been shared with the JTAG and LEDs of the lamp and alarm A 30 66 Doc ID 16752 Rev 1 UM0857 6 6 1 Additional setup information Additional setup information Complete example of menu navigation of STEVAL IFSO14V1 In this section a complete example of menu navigation is explained by demonstrating how to set the system time Taking this example as a reference the user can navigate through various menu options and can perform any operation To set the system time the user should perform the following steps 1 Select the menu from the main screen using the touchscreen Figure 23 Selecting MENU using stylus 2 The menu screen opens Figure 24 Menu 3 Select SETTINGS by pressing the touchscreen Doc ID 16752 Rev 1 31 66 Additional setup information UM0857 32 66 4 The settings menu opens Figure 25 SETTINGS menu AM05709v1 5 Select CLOCK using the touchscreen 6 Theclock menu opens Figure 26 CLOCK menu AM05710v1 7 Select the SET SYSTEM TIME option using the touchscreen 8 The system time menu opens Figure 27 SYSTEM TIME 1 AM05711v1 Doc ID 16752 Rev 1 ky UM0857 Additional setup in
34. clock alarm indication When the alarm time is reached an alarm buzzes and a picture of a bell is displayed on the screen After a while the default screen sensor data screen is again displayed The user can reset the alarm turn the alarm off at any time by using the HESET ALARM option available in the menu The alarm time should always be the greater than the system time by at least 2 seconds The alarm time can be set only for the same day The clock alarm feature is available only in the STEVAL IFSO14V1 The clock alarm cannot be set for any of the nodes Doc ID 16752 Rev 1 ky 26 66 UM0857 4 3 6 Note 4 3 7 4 3 8 Note d Description of the STEVAL IFS014V1 smart monitoring station Setting the various warning alarms The user can set the maximum and minimum values of various weather parameters as alarm conditions for the different nodes For this user should perform the following steps 1 Go to the WARNING ALARMS menu using the various menu options available see Figure 19 2 Select the parameter whose maximum minimum values are to be configured 3 The screen for the configuration of the maximum minimum values of the parameter selected is displayed on the screen 4 The user can enter the values using the navigational options available on the screen these are same as those of set system time 5 If the values entered by the user are not valid an error message is displayed on the scree
35. coin battery Through MOUSER Header for 3 7 V Li Through Any hole BT1 lon battery connection 20 pin 3M Electronic MOUSER JTAG connector Po Solutions division 30320 6002HB ELECTRONICS 517 30320 6002 TFT display SMD AMPIRE Co LTD AM240320L7TNQWTO AMPIRE Co LTD AM240320L7TNQWTO connector 2 2H USB mini bibo Mini USB connector B tvbe Manufacturing 897 43 005 00 100001 Digi Key ED90341CTND yP Corp J4 MI car BAL MSPN09 X0 1000 Global sources MSPN09 X0 1000 connector technology Component Ref des description SW2 W1 c NO c O c ZS80INN e119 eul JO lq pue soneuieuos Bill of material of STEVAL IFS014V1 continued Sk L ASH 254 9 GI 90d D o o D N O E Manufacturer s ordering code orderable part number Supplier ordering code Component description Category Ref des Package Through hole 2 54 Integrated Electronics Connector for touch SAMTEC TSW 108 23 G S TSW 108 23 G S key daughterboard mm BergStrip Header for stack updation of ZigBee module SPZB260 Integrated FTSH 105 01 F DV K Electronics SAMTEC FTSH 105 01 F DV K c CO CO 02 z U J lg SMD SAMTEC ZF 1 20 01 T WT d ZF1 20 01 T WT connector Electronics J8 eo pin CUOI SMD SAMTEC FC1 20 02 T WT i sc ain FC1 20 02 T WT connector Electronics Through hole 3 mm round Through hole 3 mm round Blue LED ZigBee LEDs n activity Kingbright Ms UN 604 WP710
36. fault sensor data screen is displayed About To obtain system information the user can go to the ABOUT option of the menu A screen describing the details of the system is displayed There are four screens for the ABOUT option of the system and the user can navigate through these by touching the NEXT or BACK symbol on the screen Switching the lamp on or off light application To switch the lamp on or off the user should perform the following steps 1 Goto MENU LIGHTS following the menu options available see Figure 19 2 Select the node number of the lamp to be controlled or Node 0 for the smart monitoring station Use the INC icon to increase the node number and SET to select the node number Only the active nodes of the system are displayed when INC is pressed 3 After the node selection the user is given options to switch the lamp on or off The user can select any option and the action is performed accordingly On the board the lamp is indicated using an onboard LED To control the actual lamp additional hardware is required and that hardware is not the part of the system provided Setting the system time To set the system time the user should perform the following steps 1 Goto SET SYSTEM TIME in the clock menu following the menu options see Figure 19 2 Enter the time using the various navigational icons options available on the SET SYSTEM TIME screen see Sect
37. formation 9 Press the INC icon using a stylus which increments the ten s place of the hour from 0 to 1 Figure 28 SYSTEM TIME 2 AM05712v1 10 In the same way the ten s place of the hour can be incremented to 2 If it is incremented again the digit rolls over and starts from O again 11 After the user has selected the correct digit for the ten s place of the hour then he should move to the next place one s place of the hour by pressing the MOVE icon using a stylus The pointer of the time setting moves to the one s place of the hour and is highlighted as shown in the figure below Figure 29 SYSTEM TIME 3 AM05713v1 12 Pressing the INC icon increases the digit at the one s place of the hour When the required digit is displayed at the one s place of the hour then the user can move to the next place ten s place of the minutes using the MOVE icon as in the previous step 13 Similarly the user can select the total system time using the INC and MOVE icons Doc ID 16752 Rev 1 33 66 Additional setup information UM0857 Note 6 2 34 66 1 14 When the required system time is selected the user can set the time in the system using the SET icon by simply pressing it on the screen The system time is set in the system and a new window to set the SYSTEM DATE is activated as shown in Figure 31 Figure 30 SET SYSTEM TIME 4 AMOST14w1 15 When the time is set a ne
38. h are already stored in the system The system deletes the node details and that space is freed for the new node If the same node rejoins the system then the user re assigns the node number to that node Only those nodes whose information is stored in the station and are not active can be deleted Doc ID 16752 Rev 1 27 66 Description of the STEVAL IFS014V1 smart monitoring station UM0857 Note 4 4 Note 28 66 Restore default The user can restore the factory default values by selecting the RESTORE FACTORY option of the menu see Figure 19 For the details of the factory default values see Section 6 2 This restores only the factory default values of the smart monitoring station STEVAI IFS014V1 and not those of the active nodes STEVAL IFS015V1 Meaning of navigational icons There are four different navigational icons displayed on the menu screens where the user has to enter values for certain settings The meaning of these icons is as follows e INC The function of this icon is to change the value where the pointer is currently e In general this increments the digit and upon reaching the maximum limit the value rolls over and increments again o MOVE The function of this icon is to change the current place of the pointer pon pressing this icon the pointer shifts by one place to the right When the pointer reaches the last place upon pressing this icon again the pointer rolls over to the first p
39. h on the power switch and the PW LED glows green which confirms that the battery is connected in the proper manner Figure 54 Checking that the battery connections are correct Switching on the power switch PW LED of the board glowing as green AM05738v1 Doc ID 16752 Rev 1 43 66 Additional setup information UM0857 11 Close the case with the top cover Figure 55 Applying the LCD and closing the top cover of case Battery connected LCD removed Fix the LCD display Apply the top cover AM05739v1 12 Tighten the screws to close the case Care should be taken that the screws are not tightened excessively as this can damage the display or LEDs Figure 56 Tightening the case with screws AMOS740v1 13 Apply the rubber pads on the screws Now the smart monitoring node STEVAL IFS015V1 is ready to operate on battery a 44 66 Doc ID 16752 Rev 1 UM0857 Additional setup information Figure 57 Applying the rubber pads and STEVAL IFS015V1 powered up with battery Applying the rubber pads Node powered up with battery AM05741v1 Note For the RTC power backup that is to make the clock operate even when the station is not powered up a 3 V CH2032 battery should be inserted in the socket BT2 Figure 58 3 V coin type CR2032 battery insertion for RTC power backup AY Doc ID 16752 Rev 1 45 66 Schematics and bill of material UM0857 7 Schematics and bill of material 7 1 Schematic and bill of materi
40. he smart monitoring station STEVAL IFSO14V1 If more than one node is connected to the system then the user can select any of the connected nodes to display the various parameters on the sensor data screen of the STEVAL IFSO14V1 The user can select any particular node by simply pressing the node number displayed on the screen using a stylus The parameters of the selected node are displayed on the screen along with that of the smart monitoring station Doc ID 16752 Rev 1 ky UM0857 Note Note 3 4 d System operation Figure 13 Selecting the node to see the parameters AMO05586v1 The user can see the parameters of only one node STEVAL IFSO15V1 at a time along with the smart monitoring station STEVAL IFS014V1 on the sensor data screen The parameters of the node and station are updated at regular intervals of time and the response is not instantaneous If an event occurs at the node station it can take several seconds to be displayed If the user wants to see the instantaneous response he she can simply press any part of the screen and the data is updated Data logging The smart monitoring station SETVAL IFSO14V1 has the capability to log the data of all the active nodes STEVAL IFSO15V1 for more than one year and this data can be seen using the GUI developed for the system Three types of data are logged in the system 1 Maximum and minimum values of weather parameters the station stores the maximum and
41. ign the node number using the touchscreen by pressing the icons displayed on the screen to see the meaning of the various icons see Section 4 4 5 As the node number is assigned to the joined node the display returns to the default data screen but with the displayed node number which has joined the system The parameters of the node are displayed on the screen as shown in Figure 1 f Doc ID 16752 Rev 1 17 66 System operation UM0857 Note 3 3 18 66 Figure11 Sensor data screen with one active node AMO5584v1 6 Similarly the user can power up the various nodes one at a time and assign the various node numbers to them Accordingly the SENSOR DATA screen of STEVAL IFS014V1 is updated displaying the various joined nodes on the left side of the main screen as shown in Figure 12 Figure 12 Sensor data screen with more than one active node A ma NUDE 1 7 The system does not allow the user to assign the same node number to two different nodes which prompts an error message The system does not exit the ASSIGN NODE NUMBER screen until the user assigns the node number to the newly joined number It is recommended that no node should be switched on until the STEVAL IFSO14V1 shows the default data screen after startup Seeing the parameters of a specific node When the very first node joins the system the system itself selects that particular node and shows the various parameters of the node on the TFT display of t
42. ion 6 1 3 After setting the system time the user enters the SET SYSTEM DATE menu If the user wants to enter the system date he can set the system date using the same type of navigational keys as that of SET SYSTEM TIME The user can also exit without setting the system date In this case only the system time is set and the system date does not change The system clock is displayed and entered in 24 hour format only The system date can be entered only from the year 2000 onward Previous dates are not allowed The system date is displayed and entered in MM DD YYYY format As the system clock is set in the smart monitoring station STEVAL IFSO14V1 the clock of all the connected nodes is updated by the system itself Doc ID 16752 Rev 1 25 66 Description of the STEVAL IFS014V1 smart monitoring station UM0857 4 3 5 Note 1 Setting the clock alarm To set the clock alarm the user should perform the following steps 1 2 Go to the SET ALARM TIME menu using the menu options available see Figure 19 The alarm time can be entered using the navigational options like those of the system time If the time entered is not a valid time then an error message is displayed on the screen and the system exits the menu If the alarm time entered is valid then the system alarm is set and a symbol of a clock alarm is displayed near the displayed time on the sensor data screen see Figure 20 Figure 20 Configured
43. itself switches from the external power supply to battery and vice versa The system also has the capability to charge the battery when the external power supply is available at which time the system switches its power consumption from battery to mains and the battery starts charging On both the smart monitoring station and smart monitoring node there is a power switch which is used to switch the supply on or off to the system There are two status LEDs e Power LED PW This indicates if the system is on or off e Charging LED CH This indicates the charging status of the battery If the battery is being charged from the external power supply then this LED glows If the external power supply is available but the battery is fully charged then this LED is off If no battery is connected and the system is powered using the USB supply then the behavior of the charging LED CH is unpredictable For information regarding battery insertion in the STEVAL IFSO14V1 and STEVAL IFSO15V1 please see Section 6 4 Doc ID 16752 Rev 1 15 66 System operation UM0857 3 3 1 Note 16 66 System operation Starting up the system The following steps indicate system and network startup 1 Power on the smart monitoring station STEVAL IFSO14V1 using the power switch and the green LED PW glows indicating that the station is powered up successfully 2 After a moment welcome screens appear on the TFT display 3 After the
44. lace with the contents remaining unchanged The user can again update the contents of the place by using the INC icon O SET The function of this icon is to set the entered data into the system If the ata entered is valid then the data is accepted and if it is not valid the system generates an error and exits the menu e BACK The user can go back to the previous menu without doing any settings using this icon Throughout the complete system the meaning of these icons is always same and serves the same purpose regardless of the data to be entered Doc ID 16752 Rev 1 ky UM0857 5 5 1 Note 5 2 Description of the STEVAL IFS015V1 smart monitoring node Description of the STEVAL IFS015V1 smart monitoring node The smart monitoring node STEVAL IFS015V 1 acts as the end device of the of the ZigBee network developed by the smart monitoring station STEVAL IFS014V1 The smart monitoring node contains a 122 x 32 graphical LCD which is used to display the information In this section of the document we explain in detail the smart monitoring node As previously stated the smart monitoring node can be powered up using the USB supply ora 3 7 V Li lon battery Once the node is powered up using the on off switch various welcome messages are displayed on the screen After some time the default screen or the main screen of the display appears which contains the various parameters and other information Components
45. m does not post again for some time 15 minutes During this time interval the user can remove the cause of the alarm If after that time has passed the condition re occurs then the alarm is displayed again Node movement Whenever any active node of the system vibrates or moves from its place an alarm sounds at the node At the same time this information is transferred to the smart monitoring station along with the severity level of the movement At the smart monitoring station an alarm sounds along with the alarm message on the display as shown in Figure 15 Doc ID 16752 Rev 1 ky UM0857 System operation Figure 15 Node movement alarm message Node movement screen of Node movement screen of STEVAL IFSO15V1 STEVAL IFS014V1 AM05698v1 This information is also stored in the data logging system with the date and time stamp for future reference 3 5 3 Simultaneous node movement The system has the capability to detect the simultaneous movement of all the active nodes and sounds an alarm and displays a message on the screen as shown in Figure 16 Figure 16 Simultaneous node movement of nodes 2 4 and 5 caused simultaneous movement detection Node movement screen of STEVAL IFSO15V1 Simultaneous node movement screen of STEVAL IFS014V1 Node movement screen of STEVAL IFSO15V1 Node movement screen of STEVAL IFSO15V1 AMO5699v1 Note 1 Simultaneous movement of all the active nodes of the system has been defined as
46. minimum values of all the weather parameters of all the nodes including itself once per day These values are stored along with the time stamp With this data the user can know not only the values but also at what time of day the various parameters of the weather reached their maximum and minimum values This data can be stored for more than one year 2 Node movement data the system stores the node movement data of all the active nodes along with the severity level of the movement date and time stamp 3 Simultaneous movement of all nodes earthquake data the system also stores the information of simultaneous movement of all active nodes earthquake data along with the date and time stamp All of the above data can be viewed using the GUI and by performing the following steps 1 Goto the USB MODE of the smart monitoring station STEVAL IFS014V1 see Section 4 3 1 2 Plug in the USB cable to the board and connect it to the computer which has the installed GUI and driver for the smart monitoring system 3 Operate the GUI and read the data logged in the smart monitoring station 4 To exit the USB mode remove the USB cable from the board and press the display screen Doc ID 16752 Rev 1 19 66 System operation UM0857 Note 1 2 3 3 5 3 5 1 Note 3 5 2 20 66 The GUI can read the data only from the smart monitoring station STEVAL IFS014V1 USB communication is not available in the smart monitoring node STEVAL IFS015V1
47. n and the system exits the menu 6 If the values entered are valid then the system moves to the SELECT NODE menu The user can select any node of the parameter to be configured or NODE 0 for the smart monitoring station 7 Tf the node selected by the user is not active then an error message is displayed on the screen and the system exits the menu 8 Ifthe node selected is active then the warning condition of that particular node for that particular parameter is configured The maximum value of any parameter should be greater than the minimum value No display mode power saving If the user does not want to see the display and wants to save the power there is a provision to switch off the backlight of the display The user should perform the following steps 1 Goto the B LIGHT OFF option of the menu using the various menu options see Figure 19 2 Upon selecting this option after 15 seconds the backlight of the display turns off and the display is not visible to the user 3 The system exits this mode and the display resumes by simply touching the screen 4 If after selecting this option the user wants to change his her decision before 15 seconds he she can go to the menu of B LIGHT OFF and select this option In this case the system does not enter the no display mode System restore The user can configure the system for the following settings Delete node The user can delete the details of the node whic
48. network Monitoring of weather parameters temperature humidity light intensity Wireless light control application Node movement and simultaneous node movement detection Various weather warning configurations and alarm messages TFT display with touchscreen Real time clock along with alarm configurations Data logging for more than one year GUI for data reading saving and analysis using graphs Power management system Battery charging capability Embedded in circuit programming capability using JTAG January 2010 Doc ID 16752 Rev 1 1 66 www st com Contents UM0857 Contents 1 System features AA AT 7 1 1 Wireless network 0 000 a 7 1 2 Single node movement detection 0 cee eee 8 1 3 Simultaneous node movement detection 000 eee eee 8 1 4 Weather alarm conditions aaa ae 8 1 5 Light control application oo ooooocococooo conan 9 1 6 Data logging rre 9 1 7 User interface llle re 9 1 7 1 TFT display o o ooooooo IRI A 3 rrr 9 1 7 2 TOUCHSCIGEH pATPT m 9 1 7 3 si AA APA AP 9 1 7 4 LEDS se AA 10 1 7 5 MEN roses esta o ba din ra ba 10 1 8 Graphical user interface llle 10 1 9 Clock and alarm feature llle 10 110 Powering the system llle 10 2 CHING Started iss os eonun ERR canoa arar EATER 11 2 1 System requirements llle 11 2 2 System COMEN x aaa aga acr o peanut Daco
49. of default display screen Figure 21 shows the complete default screen of the smart monitoring node STEVAL IFS015V1 Some of the components of the screen may not be visible depending on the conditions Figure 21 Details of data screen of STEVAL IFS015V1 Low battery Network indication Warning indication status because of threshold crossing User assigned note number Temperature value Light intensity Humidity level value Lamp status AM05704v1 The humidity value of the smart node STEVAL IFSO15V1 can take some time to stabilize Other messages During the operation of the smart monitoring system a number of different messages are displayed on the screen of the smart monitoring node These messages are self explanatory but some have been displayed in Figure 22 Doc ID 16752 Rev 1 29 66 Description of the STEVAL IFS015V1 smart monitoring node UM0857 Figure 22 Various other message screens of STEVAL IFS015V1 Welcome message 1 Welcome message 2 Welcome message 3 Data screen with no network Screen when the network is found Node waiting for the node number Node with network up but no node number Node being assigned number 4 Time and date of node configured Data screen with the node number AM05705v1 5 3 JTAG connectivity The smart monitoring node has the capability of in circuit debugging using the JTAG tool In this case the node must be opened and the berg strip 8 x 2 pin with 2 54 mm pit
50. ons of the ZigBee network have been used Table 1 Parameters of ZigBee network for smart monitoring system Extended panid CH W M S SV TM Doc ID 16752 Rev 1 7 66 System features UM0857 Note 1 2 1 3 Note Note 1 4 8 66 Table 1 Parameters of ZigBee network for smart monitoring system continued Parameter Value profile ID OxAAAA Cluster_ID 0x0045 Please note that these parameters have been chosen without any special consideration and can be changed later but they should be the same for STEVAL IFSO14V1 and STEVAL IFSO15Vf1 Single node movement detection The system also detects movement or vibration of the active nodes in which case the buzzer sounds at the smart node and the smart station also receives this information At the smart station an alarm buzzer sounds along with a message on the TFT display The system also calibrates the node movement into five different levels and stores this data along with the node number severity level date and time stamp Node movement levels are defined in a range from 1 to 5 where 1 is the lowest intensity and 5 is the highest intensity Simultaneous node movement detection The system has the capability to detect the simultaneous movement of all the connected nodes The system detects simultaneous movement and sounds a buzzer alarm for the user and displays the warning message on the TFT display This information is also stored in the data logging system
51. p produced by the buzzer confirms every screen touch Buzzer Both the smart station and node have been provided with a buzzer which is used for the alarm conditions Doc ID 16752 Rev 1 9 66 System features UM0857 1 7 4 1 7 5 1 8 1 9 10 66 LEDs Both the smart station and node have been provided with four status LEDs and one LED lamp see Section 6 3 Menu Apart from all the hardware human interfaces the system has been provided with a very good and user friendly menu with which the user can perform various actions and settings Graphical user interface The system is provided with a very useful graphical user interface to read and analyze the data logged in the system Some of the key features of the GUI are e All the logged data can be read from the system within 2 3 seconds e The read data can be saved in the computer and can be analyzed at any time if the system is connected to the computer or not e The user can separate the data of the various nodes from any start and end date and can save the data in a csv file format csv is a standard file format which stands for comma separated values This file can be viewed using the software tool Microsoft office Excel e The user can also plot the data in various graphs and can compare the data of the various nodes with each other and also for different dates of one node e Graphs can be generated with various features to visualize the data in a proper way
52. re 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 Figure 29 Figure 30 Figure 31 Figure 32 Figure 33 Figure 34 Figure 35 Figure 36 Figure 37 Figure 38 Figure 39 Figure 40 Figure 41 Figure 42 Figure 43 Figure 44 Figure 45 Figure 46 Figure 47 SZA Smart monitoring station STEVAL IFSO14V1 front view llle 12 Smart monitoring station STEVAL IFS014V1 side view o oooooo 12 Smart monitoring station STEVAL IFS014V1 back VieW o oooooooo 13 Smart monitoring node STEVAL IFS015V1 front VieW oo ooooooooo 13 Smart monitoring node STEVAL IFS015V1 side VieW o o ooooooooo o 14 Smart monitoring node STEVAL IFSO15V1 back view o ooooooomoooo 14 Welcome screens of STEVAL IFS014V1 ees 16 Initial data screen 4 a dope sci OS ROI heed rd dw Ro eR bts Ge HS e Xd dodo eU gie aA oa icm eS 16 Newly JOIIed NOUS sds aceriuniedebeetaabaetesddeataed atk aca P BOR COR d de a ee 17 ASSIGN node number cuan I ceo de aran daa UR Re E oem AR d i 17 Sensor data screen with one active node 1 ees 18 Sensor data screen with more than one active node 2 ee ee 18 Selecting the node to see the parame
53. s aa Shee eae Sou 11 2 3 Hardware installation ees 11 2 4 Powering up the system ce eee 15 3 System operation aue sug xxm e E Ux prar ku sewer ean sean aes 16 3 1 Starting up the system es 16 3 2 Establishing the network llle 17 3 3 Seeing the parameters of a specific node 18 3 4 Data logging PDT 19 3 5 ASSO AA ees 20 3 5 1 Threshold crossing of weather parameters 20 3 5 2 Node MIOVEMEN s e eet rada mid Ea aaaea pia K aes Mah auc KA 20 3 5 3 Simultaneous node movement elle ees 21 2 66 Doc ID 16752 Rev 1 ky UM0857 Contents 3 5 4 Low battery and battery recovery cee eee es 22 3 5 5 Sedi gunene aNG NANA deus youue Goer ean NA apoE eee VA 22 Description of the STEVAL IFS014V1 smart monitoring station 23 4 1 Components of the sensor data screen 23 4 2 Dedicated symbols for important actions 23 4 3 MEN AA AA AA AA AA 24 4 3 1 USB MODE costa eb pedo eod oO E doe oen 25 4 3 2 heel me 25 4 3 3 Switching the lamp on or off light application 25 4 3 4 Setting the system time llli 25 4 3 5 Setting the clock alam a 26 4 3 6 Setting the various warning alarms llle nn 27 4 3 7 No display mode power saving llle 27 4 3 8 System KESIOPE uuu dre lr rt
54. status Node STEVAL IFSO15V1 Date configured Time AM05700v1 4 2 Dedicated symbols for important actions Several white colored icons are situated on the right side of the TFT display of the STEVAL IFS014V1 which have been configured for important functions see Figure 18 These functions can also be performed using the menu options as explained earlier but these dedicated icons are available at any time irrespective of where the user is in the system AY Doc ID 16752 Rev 1 23 66 Description of the STEVAL IFS014V1 smart monitoring station UM0857 Figure 18 Dedicated icons for various actions lt q USB mode o qt TFT backlight off X Ga Qe p G rn Exit from menu AM05701v1 Note These icons do not work when the system is in the ASSIGN NODE NUMBER screen 4 3 Menu The menu of the smart monitoring station has a hierarchical structure which is illustrated in the figure below Figure 19 Menu details WARNING ALARMAS Indicates the END of MENU SZA 24 66 Doc ID 16752 Rev 1 UM0857 4 3 1 4 3 2 4 3 3 Note 4 3 4 Note Description of the STEVAL IFS014V1 smart monitoring station The menu options are explained in detail in the following sections USB mode To get the data from the data logging system the user has to go to the USB mode using the menu option available The user can exit the USB mode by pressing the screen The system exits the USB mode and the de
55. stor LDR for measuring ambient light intensity D2 LED indicator for alarm D1 LED indicator for lamp NW LED indicator for ZigBee activity Figure2 Smart monitoring station STEVAL IFS014V1 side view Mini USB connector for external power and USB communication a A Aa CI 1 1 f Y x i e Nai d ee EE DD LED indicating Power switch to board power status ON OFF the power supply Mosessv The major components present on the smart monitoring station STEVAI IFS014V1 side view are see Figure 2 e USB mini USB connector for power and USB connectivity e Power switch used for switching the board power on or off e CH LED indicator for battery charging e PW LED indicator for board power lt Doc ID 16752 Rev 1 UM0857 Getting started Figure 3 Smart monitoring station STEVAL IFS014V1 back view Stand to place board on table AM05686v1 The smart monitoring station STEVAL IFS014V1 includes a stand see Figure 3 Figure 4 Smart monitoring node STEVAL IFS015V1 front view Lamp LED Alarm LED ZigBee network LED LED indicating board power status Hole for LDR light dependent resistor Graphical LCD display I g P 1 22x32 LED indicating battery charging AM05687v1 The major components present on each smart monitoring node STEVAL IFS015V1 front view are see Figure 4 Graphical LCD Light dependent resistor LDR for measuring ambient light intensity D1
56. t monitoring station 1 USB cable and 1 stylus Three STEVAL IFSO15V1 devices smart monitoring nodes e Software GUI of the smart monitoring system e Documentation User manual this document The user should buy the STEVAL IFSO14V1 and STEVAL IFSO15V1 separately These two are different entities and together they comprise the smart monitoring system The smart monitoring system works as a standalone unit with either the STEVAL IFSO14V1 or STEVAL IFS015V1 All the parameters are measured and displayed on the onboard display Adding one node to the smart station allows one to evaluate the wireless features and the addition of two nodes would allow one to test the feature of simultaneous movement of the nodes Two additional quantities of the STEVAL IFSO15V1 are recommended only to evaluate the complete system Hardware installation Both the smart monitoring station STEVAI IFS014V1 and smart node STEVAL IFS015V 1 can be powered by an external USB adaptor 5 V 500 mA or mini USB cable or by using the 3 7 V Li lon battery Doc ID 16752 Rev 1 11 66 Getting started UM0857 12 66 Figure 1 Smart monitoring station STEVAL IFS014V1 front view Alarm LED Lamp LED Hole for LDR Light dependent resistor ZigBee network LED AMO5684v1 The major components present on the smart monitoring station STEVAL IFSO14V1 front view are see Figure 1 e TFT display having built in touchscreen Light dependent resi
57. ters lille 19 Warning messages sleeeeeeeeeee heh hh h hh hrs 20 Node movement alarm message en 21 Simultaneous node movement of nodes 2 4 and 5 caused simultaneous movement sre M rrrrrrrrrm 21 Sensor data screen asd ass eR ERR RE REGE GMA Aad bebe Rcs hs ow ww GANANG 23 Dedicated icons for various actions ees 24 Mic PP 24 Configured clock alarm indication llle 26 Details of data screen of STEVAL IFSO15V1 o oooccococooo 29 Various other message screens of STEVAL IFS015V1 0 a 30 Selecting MENU using stylus a 31 rfl CETT 31 SE WINGO TENG serca nicas NA osea ea iio ee ae ee 32 CLOCK MeNi erered ne erine A weg aes a a oa oman eo aa 32 SO OE Uh CT mee germ nama kO bm PANDA ee ere ord wee Soe ew eee Beare At 32 YS EM AME es auum TSS EGSAES toate BAGANI as oes A DRE dnd S Se E 33 O LEM TIME 2D P r 33 SETOV EM TIME cd usse ban cocinar esa BANYO EDNA IHANDA KATA AHA 34 SELLO To IEMDATE cuir 9us VU Sw nri QE SU B EU Bu MESS ES ROME cea REIR RE 34 Dimensions of Li lon battery llle nnn 35 Back of STEVAL IFS014V1 and screwdriver llle 36 Removal oFruDDer pads lt zcasesrs a maha S REGES EE raras aria tax 36 Removal Ol SCIEWS ipae chat nae ar 403 doc caeca qoe C don apo CU DAA dore oe Rees ho 36 Front or o TEVALJESOTANVT e maba keen bora a pes E ed dee Pre 0550404
58. th a predefined network ID The smart monitoring node STEVAL IFSO15V1 can connect to the network as the end device At any time the complete network can have a maximum of 8 nodes and the weather parameters of all the nodes can be seen at the smart station along with those of the smart station The user can assign the application node numbers to the nodes which are connected during the system installation This gives the user the freedom to assign a specific number to the connected node and place it anywhere Some of the key features of the wireless network are as follows e The system network supports one smart station STEVAL IFSO14V1 and a maximum of 8 different nodes STEVAL IFS015V1 e The user can assign the node number one at a time to the nodes being joined to the system e Whenever a node is switched off or gets out of range the system detects its absence and after 1 minute this node displays the message node left e lfanodeis switched off or gets out of range and comes back the system detects it and this node gets its previous user assigned ID again without any intervention from the user e If in a working network the power of the smart station is turned off and is powered up again then after complete startup the system itself recognizes all the previous active nodes of the system and re assigns them the user assigned numbers without any intervention from the user For the smart monitoring system the following configurati
59. w screen to set the date appears Figure 31 SET SYSTEM DATE AMOST15w1 16 The user can set the system date using the previous steps and the system exits the menu after setting the time and date in the system As the time and date in the smart monitoring station are set by the user the smart monitoring station itself updates this information in all the active nodes Regardless of where the user is in the menu he she can always exit the menu using the EXIT option Factory default values The smart monitoring station STEVAI IFSO14V1 and smart monitoring node STEVAL IFS015V1 are programmed with the following factory default values 1 Lamp status the lamp D1 is off by default 2 Weather parameters alarm conditions a Temperature maximum 50 C minimum 10 C b Relative humidity maximum 99 minimum 20 c Light intensity maximum 6 minimum 1 relative scale Doc ID 16752 Rev 1 ky UM0857 Additional setup information 6 3 LEDs Both the smart monitoring station STEVAL IFS014V1 and smart monitoring node STEVAL IFSO15V1 have 5 different LEDs with the following description 1 PW power LED green this LED glows if the system is on 2 CH charging LED orange this LED shows if the battery is charging If the external supply is available and the battery is charging then this LED glows When the battery is fully charged or if the external supply is removed this LED turns off 3 D2 alarm LED red
60. x M25P128 VMF6TP Arrow Electronics M25P128 VMF6P storage a Reset IC SO8W STMicroelectronics STM1061N29WX6F STMicroelectronics STM1061N29WX6F 12 a a QFN 16 STMicroelectronics 8 8 STMPE811QTR STMicroelectronics 8STMPE811QTR D4 D5 STMicroelectronics STPS1L30A STMicroelectronics STPS1L30A NA Q3 Q4 NPN transistor SOT 23 STMicroelectronics 2STR1215 STMicroelectronics 2STR1215 Component Category Ref des description D y o O i N devices C al oo U7 8 A STM32F103VBT6 STMicroelectronics STM32F103VBT6 ZS80INN e119 eu1 JO lq pue soneuieuos Table 2 i Category Other Devices Crystal and Oscillator gt o D Connector s and jumpers ASH 29 9 CI 90d 99 29 Bill of material of STEVAL IFS014V1 continued oceans Supplier orderin Package ordering code PP 9 code orderable part number Q1 dc SOT 223 STMicroelectronics STN3PF06 STMicroelectronics STN3PF06 a Through l U6 Humidity sensor Honeywell HIH 4003 or HIH 4000 Dishant Impex HIH 4003 or HIH 4000 Through MOUSER Y1 Crystal 8 MHz hole ABRACON ABL 8 000MHZ B2 ELECTRONICS 815 ABL 8 B2 Through MOUSER Y2 Crystal 32 768 kHz hole ABRACON AB26T 32 768 kHZ ELECTRONICS 815 AB26T 32 768KHZ Through MOUSER Tact switch NON ALPS SKHHAPA010 ELECTRONICS 688 SKHHAP Slide switches DPDT Through MOUSER 611 gt on on power on off hole Co CORO sete MD GHI ELECTRONICS OS202011MA0QN1 3V Li lon
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