SmartSensor User Manual
Contents
1. 31 7 04 Beandevice AX 3D Xhahli6ssiscsconenecxeues aiU Qvo Qianc Rss aS QU co vs aide a lesu Res uaD MR Ua OU dun sRuK da dE UUE 34 Please consider the environnement before printing this document Page 4 152 Rethinking sensing technology 2 ea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines 7 6 5 Beandevice HI INC XhRange cccccccccsssseeeeceeeeceeeeeeeeceeeeeseaeeseeeeeeeeessueasseeceeeeessaeaseeeeeeeeessaaaaeess 37 7 7 Time Synhronization function eic eeiiieiceiee scere nene nana na Drm aa naa ra aaa DOm s ansa eaa sa c Os Ran aa ea ra cO iaRaS 39 Lo Produc OCU S itn TE 39 1 8 1 Casing CSSOMO HOM mU RR Rm 39 yx Eac 6 edel ME m m Tm 41 7 8 8 BeanDevice AX 3DS AX 3D HI INC INC Mechanical drawing eeeeeeeeeeense 42 7 8 1 BeanDevice AX 3D HI INC INC Xrange Mechanical drawing sseeeeeeeeeeesee 43 1 8 2 Antenna diVelsil 2sstexduninta tUi redpieptanta luti ren eridi Eun am eniad Evo dE rin isika STE anin epar en uix epis tst 43 7 8 3 Radome antenna eeessssssssssisssssesee seen nnnnna nnn nssnna nn nr issus rines sse a ases r sans a nnn r sss n ann nnn 44 7 9 BeanDevice AX 3D amp AX 3D Xrange Sensor CharacteriStiCS cccccccscccccessseceeeeeeeseeeeeseeeseeeeseseeees 46 FIA SSNSOM ACIS Ne E 46 7 9 2 MEMS Accele2. Battery level The nominal voltage of a primary cell is 3 6 Volts instead of 4 2 volts for a rechargeable battery This value is correct Make sure that the power mode configured on your Beandevice is in sleep or sleep with network listening If the power mode is configured in active the battery autonomy of your Beandevice will be dramatically reduced Please consider the environnement before printing this document Page 82 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 BEANDEVICE SUPERVISION FROM THE BEANSCAPE For more information about the BeanScape please read the BeanScape User Manual 10 1 STARTING THE BEANSCAPE The BeanScape is a supervision software monitor fully dedicated to BeanAir WSN Wireless Sensor Networks 1 Start the BeanScape by double clicking on the BeanScape icon B 2 Click on the button start 3 All the BeanDevice connected to the WSN will appear on your left window 4 Select the BeanDevice you want to configure You can configure your BeanDevice and its attached sensors A0 B E MAC_ID 0 x 0015800000058453 BeanDevice profile E 0x0 0x001598D0000058453 0x 1_0 x 00158D0000059453 li 0 x 2 0 x 0015eD0000058453 Sensor channel profile The user interface is organized as follow E Green on black background are displaying information E Blac
3. All the BeanDevice HI INC AX 3D AX 3DS provided with an internal rechargeable battery are not concerned by this section eOpen the screw cap on the battery holder 12 9 M3 4 4 The primary cell C Size is inside the battery holder the screw cap Watertight enclosure Battery holder Primary cell C size Screw cap Please consider the environnement before printing this document Page 75 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines eChange the primary cell Step 2 eCheck the battery polarity pole is on the screw cap side Change the primary Cell Pole4 Please consider the environnement before printing this document Page 76 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines eClose properly the screw cap eDon t forget the Gasket it s very important to maintain a watertight seal on your device Step 3 Close B TUB B y the screw cap Do not invert the battery polarity your BeanDevice will not work The primary cell is inverted Please consider the environnement before printing this document Page 77 152 Document version 2 5 7 e Rethinking sensing technology ea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines eScrew the M8 Plug on the M8 socket of your BeanDevice eMake sure
4. Ethernet LAN for WSN Management Dota RX TX on TCP IP Transport Loyer PRanScape WSN Supervision Software Wireless Sensor Networks 10 6 2 Log file directory By default the Log file directory is C log_beanscape Click on the tab Tools then Options to configure advanced settings in BeanScape Please consider the environnement before printing this document Page 125 152 Document version 2 5 BeanDevice User Manual SmartSensor product lines Alarm Alert BeanGateway Telemetry Mode BeanGateway Serial Pork Config This window lets you configure the logs and the data cache v A second window is displayed BeanScape Configuration LOG Configuration Log directory Main Log filename Main lag max size Sensor Log enabled Sensor log max size KB Network lag info enabled Network info log max size KB 1024 Loglevel 020 21 O2 3 Streaming log mas size KB 2048 Y Clicking the button reverts back to its original configuration Please consider the environnement before printing this document Page 126 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 6 3 Log folder By Default log files linked to the Beandevice are stored in the log folder located in C log beanscape directory Folder MAC ID Only the last 4 Char of BeanDevice MAC ID are displayed User c
5. SmartSensor product lines NE MAC ID Ox AABBCCDDEEFFODAA ch Teno 0 m Ch Temp 1 MAC ID Ox AABBCCDDEEFFOOBB Ch_T_Ambiarte E Ch_T_Cible NE MAC ID Ox AABBCCDDEEFFOODD aM Ch TOR Sensor profile Custom display Notes Configuration Log contig Ratio 1 Offset 0 oO p ee Alarm threshold frame Rel SENSOR REF Label Ch Temp 0 Conversion Aseetart Validate 3 gt v 9 e o F1 o 17 10 2010 17 10 2010 17 10 2010 17 10 2010 17 10 2010 14 00 00 15 05 55 16 11 50 17 17 45 18 23 40 Time Server status Started Alarm threshold are displayed in this frame Alarm Hi H2 L1 Lz Depending on your sensor resolution the displayed threshold value can differ from the reference value Please consider the environnement before printing this document Page 106 152 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 2 Sensor configuration amp calibration frame This frame contains a set of 5 tabs Cu stom Display Allows the end user to customzie the sensor e Contains notes relating to the BeanDevice sensor e Sensor configuration interface The user can configure the alarm thresholds related to the sensor e Depending on the BeanDevice version which is used other configuration parameters are available Configuration Sensor calibration e Sensor channel calibration eye CO nfigu
6. 2 5 BeanDevice User Manual SmartSensor product lines Network Reed button o Level 2 3 amp 4 of Configuration parameters are not affected by network context deletion by hardware or software 11 2 2 Level 2 Sensor calibration parameters The table below presents the sensor calibration parameters depending on BeanDevice version BeanDevice Version Parameter AX3D amp AX 3D Xrange HI INC amp HI INC XRange AX 3DS amp AX 3DS XRange LL Page 138 152 Please consider the environnement before printing this document Document version 2 5 rye ec e Rethinking sensing technology B Cd nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines 11 2 3 Level 3 Network maintenance only for expert in wireless sensor networks The table below presents the network maintenance parameters depending on your BeanDevice version AX 3DS amp AX 3DS XRange Software reset OK OK counter Physical reset OK OK OK counter Threshold value OK OK OK Parameter AX3D amp AX 3D Xrange HI INC amp HI INC XRange OK on software reset 11 2 4 Level 4 Primary cell Rechargeable battery calibration The table below presents Primary cell rechargeable battery calibration depending on BeanDevice version BeanDevice version AX3D amp AX 3D HI INC amp HI INC XRange AX 3DS amp AX 3DS Xrange XRange Parameter Battery primary cell I
7. During deep sleeping mode 28 uA External power supply xternal power supply 8v to 428v High density Lithium lon rechargeable battery with a capacity of 1 3 Ah Rechargeable martery referenced as BAT1 3DMG Option s Power supply bloc Switchmode power Supply 12V 1 25A with sealed M8 Plug Please consider the environnement before printing this document Page 30 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 6 3 Beandevice HI INC Product reference BND HI INC MR PS WP MR Measurement Range PS Power supply 15M mono axial 15 RB Internal rechargeable battery 15B bi axial 15 XT External Primary cell 30M mono axial 30 WP Wireless Technology 30B bi axial 30 IEEE IEEE 802 15 4 2006 Example 1 BND HI INC 15B RB IEEE wireless bi axial inclinometer with 15 measurement range internal rechargeable battery IEEE 802 15 4 wireless Technology Example 2 BND HI INC 30M XT IEEE wireless mono axial inclinometer with 30 measurement range external primary cell IEEE 802 15 4 wireless Technology Sensor specifications Inclinometer Technology Inclinometer based on MEMS Technology Measurement resolution 0 001 Bandwidth 10 Hz l Accuracy Full scale 0 05 Offset temperature dependency temperature range 0 002 C 25 C to 85 C Sensitivity temperature 0 005 C with temperature comp
8. Please consider the environnement before printing this document Page 60 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 13 1 3 Mounting instructions for non permanent mountin For a non permanent mounting we recommend to use the following process Step 1 Fix the aluminum foil tape on the back side of your BeanDevice casing Surface should be clean dry and free from Grease Please consider the environnement before printing this document Page 61 152 BeanAir Step 2 Mount the aluminium foil tape on the equipment where you wanted to mount the BeanDevice Surface should be clean dry and free from Grease Step 3 Mix equal amount s of resin and hardener for 1 minute Mixture should be used within 15 20 minutes Apply the mixture on your BeanDevice Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Step 4 Clamp the two surface together until adhesive has cured depending of the type of epoxy glue that you use it can take 1 hour to 1 day Your BeanDevice is ready to be used for indoor and outdoor application Please consider the environnement before printing this document Page 63 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Step 5 You can unmount the BeanDevice v
9. 13 4 REFLECTIONS OBSTRUCTIONS AND MULTIPATH further information read the application note AN RF 007 Beanair WSN Deployment 13 5 SHOCK amp VIBRATION RESISTANCE Shock resistance on BeanDevice products are BeanDevice Type Shock resistance BeanDevice AX 3D 50g during 50 ms BeanDevice AX 3DS 50g during 50 ms BeanDevice HI INC 50g during 50 ms Do not force connections 13 6 ANTENNA Check the LQI Link Quality Indicator of your BeanDevice for being sure that your antenna is right oriented further information read the application note AN RF 007 Beanair WSN Deployment Please consider the environnement before printing this document Page 152 152
10. 3 pins socket External power supply wiring code M8 3Pins plug 2 Not used Caption Pwr Power supply 8 28V DC Gnd Ground Please consider the environnement before printing this document Page 70 152 z Bea r Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 8 DATA ACQUISITION MODE DESCRIPTION o read the technical note TN RF 008 Data acquisition modes available on the BeanDevice Please consider the environnement before printing this document Page 71 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 9 BEANDEVICE DEPLOYMENT GUIDELINE 9 1 POWER MODE MANAGEMENT o read the technical note TN RF 010 BeanDevice Power Management 9 2 BEANDEVICE NETWORK ASSOCIATION O read the technical note TN RF 006 WSN Association process 9 3 DATALOGGER FUNCTION O read the technical note TN RF 007 BeanDevice DataLogger User Guide 9 4 OTAC OVER THE AIR CONFIGURATION PROCESS O read the technical note TN RF 010 BeanDevice Power Management Please consider the environnement before printing this document Page 72 152 Document version 2 5 s e a e Rethinking sensing technology Bea nAi r BeanDevice User Manual SmartSensor Document type User Manual product l
11. Crash and impact testing SAK CN Ns ON N Ride Quality Measurement Please consider the environnement before printing this document Page 22 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 4 BEANDEVICE AX 3D XRANGE HIGH PERFORMANCE WIRELESS ACCELEROMETER 7 4 1 Featured video Watch our featured video Click here 7 4 2 Main features Main Features Wireless Tri axis accelerometer based on MEMS Technology Measurement range 2 versions 2g amp 10g Very Low noise Density o 45 ug VHz 2g version o 100 ug VHz 10g version TimeSync function Time Synchronization through wireless sensor network Watertight IP67 aluminum enclosure coming with a rugged base plate and three point mounting Excellent radio link relying on the radio antenna diversity developed by Beanair Non contact actuation for quick mounting Maximum sampling rate 4 KSPS Maximum Radio Range 650 m L O S Ultra Power radio technology IEEE 802 15 4 Current consumption in sleeping mode lt 30 uA Embedded data logger up to 8 millions data points OPC server allowing real time access from your IT system to the BeanScape available on BeanScape Premium Entirely autonomous system with an integrated Lithium lon battery charger Anti aliasing Butterworth filter 5 order with a cut off frequency of 1 Hz to 2 KHz remotely programmable from the BeanScape Fr
12. Zoom Y a Gerver chahe GFarkad This tab should not be confused with the DataLogger feature available on the Beandevice Custom display Notes Configuration Measurement conditionning calibration Log config Log configuration Log enabled Log filename auto Add label ae By default Log file name is built with the measurement channel amp BeanDevice MAC Address lt Sensor Channel Number gt MAC ID Y Log enabled If checked Log is enabled on the BeanScape Please consider the environnement before printing this document Page 130 152 Document version 2 5 7 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines Y Log filename auto If checked Log file name is named automatically v Add label If checked the log file is renamed with the sensor label Click on validate in order to validate all your modifications For users who want to rename the log file two solutions are provided Solution 1 Add automatically the channel Label in your log file name lt Label gt lt Sensor channel Number MAC ID Solution 2 The log file name can be fully customized Uncheck the case Log filename auto and add your own label 10 6 7 2 Specific case log filename creation in Streaming Streaming Packet mode In streaming or Streaming packet mode log filename is built as follow Stream
13. AABBCCDDEEFFDDAA Data Sm Ch Temp 1 Sensor profile Custom display Notes Configuration Log config B MAC ID 0x AABBCCDDEEFFOOBB GNI EADEM Alarm threshold configuration E Ch T Ambiante i C T Che Type inte H v Sg MAC ID 0x AABBCCDDEEFFOODD sooo i Ch TOR Ref Max Temp c Label Technology State Mesurement data Val 719 833903273083 Measure reading Mode LowDutyCycle D 760 750 w 740 3 w 790 gt 2 720 4 5 710 a Component List O 700 H _sot_ 690 Server 680 17 10 2010 17 10 2010 17 10 2010 17 10 2010 17 10 2010 5000 14 00 00 15 15 08 16 30 18 17 45 27 19 00 36 Time Server status Started The chart is composed of two parts E Part 1 This is a preview window allowing you to observe sensors acquisitions E Part 2 A strip on the side composed of different frames allows customizing the graph The graph has two axes Axe X Timeline Axes Y received sensor acquisitions Mesures Temps Please consider the environnement before printing this document Page 119 152 5 Rethinking sensing technology anAir BeanDevice User Manual SmartSensor Document type User Manual product lines We can visualize the BeanDevice data acquisition mode and the last data acquisition obtained directly from the graph Last data acquisition received BeanDevice amp data acquisition mode Val 0 143
14. Beandevice AX 3DS Sensor Character istiCs cccccccceeeccccceeeceeeesseeeeeeeeeeeeeeeeeeeeeeessssaeaeeeeeeesssaaaaesss 55 7 11 1 Mems Sensor architecture surasan nia a aE AEE aN ANANE A eaa AENEA EEKAN NaN 55 7 11 2 Shock detection interrupt ee ccccccssseececcceeseeeeecceeseeeeceeaeeeeeeseeeueceeesseaseeeeesseaseeeeesseeeeeeeseageeeeseaas 55 7 11 3 Beandevice current consumption in sleeping mode with SSD activated Smart shock detection 56 7 12 Sensor position inside the casing cccccccccecssseeeeececeeeecaeeeeeceeeeeeesaesseeeeeeeessaaesseeeeesesssaaaeeeeeeesessaaaaesss 57 Tole CAMS VICS Fo p 57 TAS Mounting QUIS IS cs sctcetadenina cae hanced ett aeons R amnes Enea E E a Ea E a EERE 59 7 13 1 Adhesive mounting instructions BeanDevice INC HI INC AX 3D AX 3DS 59 7 13 1 1 Components needed for a non permanent mounting eoesseseeeeeseeeenee 59 7 13 1 2Heference edge eise esee sees nhanh ns nhau annes ssa asas essais asas nass aaa aas n assa aga 60 7 13 1 3Mounting instructions for non permanent mounting sese 61 7 13 2 Screw Mounting Beandevice AX 3D Xrange amp Beandevice HI INC Xrange 65 7 13 3 Wireless inclinometer special instructions BeanDevice HI INC INC amp HI INC Xrange 66 7 14 BeanDevice Power Supply sssssssssiis
15. Current BeanDevice Current consumption estimation of the consumption in active amp sleeping BeanDevice in active and sleeping mode mode RF TN 001 V1 0 Wireless range BeanDevice Wireless range benchmarking of the benchmarking BeanDevice Please consider the environnement before printing this document Page 13 152 Document version 2 5 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 4 3 RELATED VIDEOS Beanair video link Youtube Related products BeanGateway Ethernet Outdoor version introduction BeanGateway Ethernet Indoor version BeanDevice AN XX amp Beandevice AN XX Extender BeanDevice AN XX amp Beandevice AN XX Extender BeanDevice AX 3D BeanDevice HI INC BeanDevice AX 3DS BeanScape BeanGateway BeanGateway BeanGateway 2 BeanGateway BeanGateway Please consider the environnement before printing this document Page 14 152 x ETT JT PS m Document version 2 5 sau Buen Em Nf eura Document type User Manua Ir E 5 BEANDEVICE VERSIONS V version related to a major modification of the embedded software R Release related to a minor modification of the embedded software V4RO Time Sync function added IEEE 802 15 4 RO V1R2 Push button ON OFF activation V
16. L O S Antenna diversity 2 omnidirectional antenna with a gain of 2 2 dBi Embedded Data logger Storage capacity up to 1 000 000 data acquisition Write read cycle 400000 Wireless data downloading 3 minutes to download the full memory average time Please consider the environnement before printing this document Page 29 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Real Time clock and crystal Extremely Accurate Real Time Clock for measurement time stamping in Low Real Time Clock duty cycle mode 10ppm Extremely accurate crystal for measurement time stamping in streaming amp Crystal streaming packet mode Tolerance 10ppm stability 10ppm Environmental and Mechanical Aluminium amp Watertight IP66 enclosure Dimensions in mm LxWxH 80x55x21 mm Weight battery included 145g Operating Temperature 20 C to 65 C CE Labelling Directive R amp TTE Radio ETSI EN 300 328 ROHS Directive 2002 95 EC Power supply Integrated Lithium ion battery charger with high precision battery monitoring Overvoltage Protection Overcurrent Short Circuit Protection IURE Rss seui e een Undervoltage Protection Battery Temperature monitoring Current accumulation measurement During data acquisition 20 to 30 mA During Radio transmission 40 mA 9 5dBm 70 mA 18 dBm Current consumption 03 3V l l During sleeping mode 68uA
17. Main features I METRI EDO LETS e Wireless Inclinometer based on MEMS Technology Measurement range o mono axis or bi axis 15 o mono axial or bi axis 30 o bi axis 90 Excellent resolution o 0 001 for 15 amp 30 version o 0 0025 for 90 version TimeSync function Time Synchronization through wireless sensor network Excellent radio link thanks to the antenna diversity developed by BeanAir Streaming mode 200 SPS on each channel Maximum Radio Range 500 m L O S Ultra Power Radio Technology IEEE 802 15 4 Current consumption in idle mode 30 uA Embedded logger up to 1 000 000 data acquisition records with events dating Entirely autonomous system with an integrated Lithium lon battery charger Anti aliasing Butterworth filter 5 order with a cut off frequency of 1 Hz to 2 KHz remotely programmable from the BeanScape Aes Y tke EY s Q S 7 V E QO I Q 2 gt U Q c IS a Watertight Aluminium enclosure IP66 Dimensions LxWxH 80x55x21 mm weight 145g rechargeable battery included suitable for Harsh Industrial Environment Please consider the environnement before printing this document Page 20 152 LEX Document version 2 5 version 2 5 Rethinking sensing technology SE BeanDevice User Manual SmartSensor Document type User Manual product lines 7 2 3 Applications Platform Leveling and
18. Target Mac ld Network quality ool l I 10 Disable discharge C E Ch T Ambiant DENN Disable charge C ci M MAC ID 0 x O0158D00000A9DA Penile Global PER Discharge over current C S MAC ID 0 x 0015800000044420 Tes Charge over current Ch Lux bel E PES d Power Supply Diagnostic Undervakage O Version Temperature vervoltage CQ Radio module Power Module ant int Power supply Hard vers vino Power mode System Soft vers virne O e Battery voltage Diagnostic cycle fo0 00 50 e AAS Prot stack XM Battery level Tx power Eram dEm BeanDevice Routing feat NN Sensor channels Platform sun e Current data acquisition mode Data Acq mode Data cq cycle PLATFORM TYPE PLATFORM REF Label MACD 0x 0015 List s Sampling rate Data Acq duration BeanDevice Configuration frame Custom display Notes Data Acq config D ataLagger Syste DataLogger status DataLogger status Matlnit Download progress NA C Download statue AA DataLogger manager Acquisition information Logged data acquisition mode NA Acquisition count MA Ce Sed ee ee kin This frame is composed of several Tabs and includes BeanDevice OTAC Over the Air Configuration Parameters Custom Display Customize the BeanDevice label This area contains the notes related to the BeanDevice Data Acquisition Configure the Data acquisition mode on your Bean
19. These calibration coefficients should be accessible to an advanced user A wrong calibration will result in false measurements Please consider the environnement before printing this document Page 117 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 2 6 Tab Log configuration This tab should not be confused with the DataLogger feature available on the Beandevice Custom display Notes Configuration Measurement conditionning calibration Log config Log configuration Log enabled Log filename auto Add label ae By default Log file name is built with the measurement channel amp BeanDevice MAC Address lt Sensor Channel Number gt lt MAC_ID gt Y Log enabled If checked Log is enabled on the BeanScape Y Log filename auto If checked Log file name is named automatically v Add label If checked the log file is renamed with the sensor label Click on validate in order to validate all your modifications For users who want to rename the log file two solutions are provided Solution 1 Solution 2 Page 118 152 Please consider the environnement before printing this document Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 3 Graphical display BeanScape File Tools Help BeanSensor iuda wo MAC ID 0x
20. User Manual SmartSensor Document type User Manual product lines 7 7 TIME SYNHRONIZATION FUNCTION TBD 7 8 PRODUCT FOCUS 7 8 1 Casing description Please consider the environnement before printing this document Page 39 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines DC 8 28 volts power supply The socket sealing is assured with a screw Cap M8 3 Contacts Socket for power supply input b Don t forget to protect the M8 3 pins socket with a screw cap You will lose the tightness of your device if you do not close properly Radome antenna Watertight IP67 Radome antenna MAC ID Label Unique identifier assigned to the BeanDevice 64 bytes O very wireless network product which is based on the IEEE 802 15 4 standard must have a 64 bit MAC address that allows unique identification of the device within a global network BeanDevice product Three label version are available version label Y BeanDevice AX 3D measurement range and the three axis are indicated on the Label v BeanDevice HI INC measurement range and the three axis are indicated on the Label BeanDevice AX 3DS measurement range and the three axis are indicated on the Label Acceleration inclination Indicates acceleration inclination on X Y Z axis axis Network context non contact button restores the factory settings on the Bea
21. an inclinometer the output of the accelerometer is proportional to 1g SIN Phi PhiO where Phi is the inclination angle and PhiO the internal mounting error The internal mounting error is a maximum of 2 9 corresponding to 50mg This error is of importance when using large inclination angle amplitudes and is seen as an addendum to the non linearity Typically 5mg in 0 5g and 10mg in 1g E Cross axis Sensitivity The cross axis sensitivity 496 shows how much perpendicular acceleration or inclination is coupled to the signal E Rectification of Vibration The effect of high frequency vibration is strongly suppressed by the over damped sensing element upper cut off freq x 0 10Hz In an extreme case high amplitude vibrations 55g may cause a measurable zero point shift 7 10 7 Offset amp temperature dependencies To achieve the best possible accuracy an internal temperature sensor is used for sensitivity temperature dependency compensation By using an additional 3rd order polynome compensation curve based on average sensitivity temperature dependency curve and temperature measurement information it is possible to reduce sensitivity temperature dependency from v 0 013 C down to 0 005 C for the BeanDevice HI INC 15 and 30 versions v 0 014 C down to 0 008 C for the BeanDevice HI INC 90 Please consider the environnement before printing this document Page 53 152 Rethinking sensing te
22. axis automatically on the graph EK Select Auto Y scales Y axis automatically on the graph Lifts Y and X E Where the Auto Y box is unchecked you can set the limits for the graph from the field X lift E Where the Auto X box is unchecked you can set the limits for the graph from the field Y lift Checkbox Zoom X and Y Zoom These boxes are useful for performing a graph zoom from the mouse wheel there are four cases EK Case 1 Case Zoom X checked and Zoom Y unchecked The graph zoom will only affect the X axis EK Case 2 Case Zoom X unchecked and Zoom Y ticked The graph zoom will only affect the Y axis EK Case 3 Case Zoom X checked and Zoom Y ticked Zoom will affect both X and Y axes Case 4 Case Zoom X unchecked and Zoom Y unchecked The zoom function from the mouse wheel is disabled Please consider the environnement before printing this document Page 124 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 5 DATALOGGER CONFIGURATION O read the technical note TN RF 007 BeanDevice dataLogger User Guide 10 6 LOG FILE amp FOLDER ORGANIZATION FOR EXPERIENCED USER USER 10 6 1 Log file system overview e Default log directory is C log beanscape 3 Each Beandevice comes with a dedicated log folder containing Y log files linked to data acquisition v Log file linked to diagnostic
23. be negative Example For a threshold value fixed at 2g if X High Axis OR X Low Axis is selected For all the values upper than 2g on the X Axis a shock event is detected For all the values less than 2g on the X Axis a shock event is detected Please consider the environnement before printing this document Page 114 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Axis event selection The user can choose on which axis the shock event is affected X Axis High X Axis Low Y Axis High Y axis Low Z Axis High Z Axis Low The combination AND OR is not available for two events on the same axis i e these combinations are not possible X High and or X Low Y High and or Y Low Z High and or Z Low Several configuration of shock detection are possible on the same axis e The user selects XX Axis Low all the shocks are detected on the following acceleration range TH VALUE TH VALUE Range MAX Measurement is OK Shock Detection Area Measurement is OK Range MIN e The user selects XX Axis High all the shocks are detected on the following acceleration range Range MIN TH VAL and 4TH VALUE Range MAX Please consider the environnement before printing this document Page 115 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Shock Detection A
24. config AllGraph Data Acq Biene GHS duos mmss Type PLATFORM TYPE roo NEN Pee Sell ind x Reference PLATFORM REF DataAcq duction NN Label MAC ID Ox AABB Server Server status Started File Tools Help duo ca LES M Ch Temp 0 B ma ie eT Click on Display ca re wireless network mich Information Enable measure log Disable measure log Reset measure memory cache Far all the sensors Page 140 152 Please consider the environnement before printing this document Document version 2 5 7 i e r Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines A new window occurs BeanDevice RFD Reduced Function Device MAC PER Packet error rate LQI Link quality Indicator 158D0000077802 Network Information E X Diagnostic PER ork Diagnostic LAI BeanDevice internal temperature Internal Temperature Diagnostic 25 102010 25 10 2010 204437 DUS 204517 25 10 2010 204522 Battery Status Information Battery voltage amp charge E Local PER local and Global PER The packet error rate PER is the number packet errors divided by the total number of transferred packet during a studied time interval PER is a unit less performance measure often expressed as a percentage number Local PER is only available with IEEE 802 15
25. gain antenna in outdoor use only for a better RF Link Budget Y Fix your BeanDevice amp BeanGateway on a top of a mast or a building For further information read the application note on How to extend your wireless range E Internal temperature monitoring An internal temperature sensor is used for onboard amp battery temperature monitoring E Battery charge monitoring Battery charge is based on current accumulation The BeanDevice integrates a current accumulator circuit which facilitates remaining capacity estimation by tracking the net current flow into and out of the battery Current flow into the battery increments the current accumulator while current flow out of the battery decrements it Voltage measurement corresponds to battery voltage 11 3 1 System maintenance BeanScape Fie Tools Help iid wo S BeanDevice Enable measure log Disable measure log Reset measure memory cache for all the sensors Display Wireless Network Information Warning This area is reserved for persons with extensive experience in Wireless sensor networks Configuring wrongly on such an interface may cause malfunction your BeanDevice Please consider the environnement before printing this document Page 143 152 Document version 2 5 BeanDevice User Manual SmartSensor product lines Tx fault reseting threshold Platform reset C Clear Network Context C Delete measurement
26. mode cancellation to decrease errors from process variation temperature and environmental stress The sense element is hermetically sealed at the wafer level by bonding a second silicon lid wafer to the device using a glass frit 7 9 3 5 order Anti aliasing filter BeanDevice AX 3D amp HI INC products integrates a high performance 5th order Butterworth filter 7 9 3 1 Why using an anti aliasing filter When selecting an analog filter the goal is to provide a cutoff frequency that removes unwanted signals from the ADC input or at least attenuates them to the point that they will not adversely affect the circuit An anti aliasing filter is a low pass filter that accomplishes this How does one select the right filter The key parameters that need observation are the amount of attenuation or ripple in the passband the desired filter rolloff in the stopband the steepness in the transition region and the phase relationship of the different frequencies as they pass through the filter TRANSITION REGION PASSBAND AMPLITUDE FREQUENCY Once the signal frequencies of interest are known use a simple filter program to determine the filter topology needed to meet the passband stopband and transition region requirements Of the four basic filter types each has its own advantages Please consider the environnement before printing this document Page 47 152 Rethinking sensing technology BeanDevice User Manual SmartSen
27. power supply maybe you need to increase decrease your power supply Check your sensor preprocess time Maybe your sensor preprocess time is too short Check the wiring code of your sensor plug E Why the BeanDevice doesn t respond when I try to configure it Over the air configuration v f your BeanDevice operates with sleep phase the RF Hardware operates also with a sleep phase Therefore an Over the air configuration will not be possible Y Check the LOI Link Quality Indicator value if this value is under 80 the over the air configuration will not be easy Try to decrease the wireless range between the BeanDevice and the BeanGateway v f your BeanDevice works in streaming mode in order to keep a full synchronization of the data acquisition any over the air configuration is authorized E Why do Ihave too much noise on my sensor signal Please consider the environnement before printing this document Page 149 152 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines v f you use a BeanDevice AX3D HI INC AX 3DS don t forget to configure the cutoff frequency of your anti aliasing filter v f you use a BeanDevice AN mV use a shielded cable Please consider the environnement before printing this document Page 150 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual pr
28. that your M8 plug is correctly connected to your M8 socket Step 4 Connect your otherwise the sealing between the enclosures is not maintained primary cell enclosure to your BeanDevice eLaunch your BeanScape software application eSelect your BeanDevice profile a new tab BeanDevice will appear on your BeanScape toolbar Step 5 Open the System eClick on this tab and then click on System Maintenance maintenance window on your BeanScape Please consider the environnement before printing this document Page 78 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines BeanScape File Tools Help BeanDevice P T 2 Click on the EE MAC ID Ox AABBCCDD 004A Data BeanDevice tab Ch Temp 1 Plafform system profile BeanDevice os aor s EEPDEER JOBE Identity Network Diagnostic Battery Status Ch T Cible Mac Id EE Network quality an 0 La Disable discharge e ae ta oor Local PER NA Discharge over current un i z Charge over current Power Supply Diagnostic Undervoltage e va Temperature NEN t vervoltage 2 Radio nie Power supply Hard vers lt 9 System Soft ve v Diagnostic cycle 00 00 00 e D Py 1 Click on your Turone BENIN z BeanDevice ed Routi pr of I I e Platform its Current data acquisitS ustom dis
29. 0 provides a differential output the measuring axes of the sensing elements are mutually opposite in direction thus providing two inclination signals which can be differentiated externally by our wireless processor The differential measurement principle removes all common mode measurement errors Most of the error sources have similar effects on both sensing elements These errors are removed from measurement result during signal differentiation The differential measurement principle gives very efficient noise reduction improved long term stability and extremely low temperature dependency Please consider the environnement before printing this document Page 52 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 10 4 5 order Anti aliasing filter Same specifications as BeanDevice AX 3D 7 10 5 Analog to digital converter Same specifications as BeanDevice AX 3D 7 10 6 Accuracy considerations Main error components are K Zero Point Error In most cases the most significant error component is the zero point error In the range 25 85 C it is 0 057 66 limit and the temperature dependence is typically 0 002 C The room temperature variation can be reduced by calibration at the instrument level and the effects of the temperature dependence dealt with by using temperature compensation E Error Caused by the SIN Function When used as
30. 0M mono axial 30 WP Wireless Technology 30B bi axial 30 IEEE IEEE 802 15 4 2006 Example 1 BND HI INC 15B XR RB IEEE High performance wireless bi axial inclinometer with 15 measurement range internal rechargeable battery IEEE 802 15 4 wireless Technology Example 2 BND HI INC 30M XR XT IEEE High performance wireless mono axial inclinometer with 30 measurement range external primary cell IEEE 802 15 4 wireless Technology Sensor specifications Inclinometer Technology Inclinometer based on MEMS Technology Measurement resolution 0 001 Bandwidth 10 Hz f Noise density 0 0004 VHz Accuracy Full scale 0 05 Offset temperature dependency temperature range 0 002 C 25 C to 85 C Sensitivity temperature 0 005 C with temperature compensation dependency temperature range 25 C to 85 C 0 013 C without temperature compensation Long term stability 23 C lt 0 004 E 16 bits SAR architecture Successive Approximation Register with Analog to Digital converter temperature compensation Sensor frequency Response 3 DC to 28 Hz dB Noise spectral density DC to 100 Hz 0 0004 VHz TT Butterworth 5order filter cut off frequency 1 Hz to 100 Hz remotely Anti aliasing filter programmable BeanScape Please consider the environnement before printing this document Page 37 152 Rethinking sensing technology BeanDevice User Manual SmartSen
31. 1 17 PM PAN ID 2427 MAC ID 00158D00000E03E5 Date LQI Tx LQI Rx Local PER Tx Local PER Rx Global PER Battery Voltage Battery Level Internal Tem 5 31 2014 6 31 16 PM 192 NA 0 00 NA 0 00 4 089 100 00 21 000 N 5N N N N N NA I 5 31 2014 6 31 17 PM 174 NA 0 00 NA 0 00 4 089 100 00 21 125 N N 5N 5N N N NA 5 31 2014 6 31 18 PM 162 NA 0 00 NA 0 00 4 089 100 00 21 125 N N 5N 5N N N NA 5 31 2014 6 31 19 PM 150 NA 0 00 NA 0 00 4 089 100 00 21 000 N N N N N N NA 5 31 2014 6 31 20 PM 168 NA 00 NA 0 00 4 089 100 00 21 125 N N N N3N3N3 NA 5 31 2014 6 31 21 PM 162 NA 0 00 NA 0 00 4 089 100 00 21 125 N N 5N 5N N N NA 5 31 2014 6 21 22 DM 162 NA 0 00 NA 0 00 4 0289 100 00 21 125 N N N N N N NA If the BeanDevice is configured with the streaming amp streaming packet data acquisition mode the following diagnostic informations are not refreshed e Battery voltage e Battery level e Internal temperature Fichier Edition Format Affichage BeanComponent Wireless Network Information Date 5 15 2014 4 50 44 PM PAN ID 31BB MAC ID 00158D00000AD56A4 Date LQI Tx LQI Rx Local PER Tx Local PER Rx Global PER Battery Voltage Battery Level Internal Temperature 5 15 2014 4 50 43 PM 174 NA 0 00 NA 0 00 4 0945 0 005 24 625 N N N N N N NA 15 05 2014 16 50 45 00000005168 0 0055 555555555 15 05 2014 16 50 45 1500000 180 0 005 555555 55 15 05 2014 16 50 45 3000000 162 0 0055 555555555j 15 05 2014 16 50 45
32. 1R3 reed sensor ON OFF activation These ID versions should be transmitted to our technical support center when you encountered a material or software dysfunction p p r ps P e IA AD IP OOCI Il Je j I o nAir Rethinking sensing technology Document type User Manual product lines 6 DOCUMENT ORGANISATION This manual is organized in 7 chapters as follows BeanDevice product overview Data acquisition mode description BeanDevice installation guidelines BeanDevice supervision from the Beanscape BeanDevice maintenance amp supervision for experienced user Troubleshooting Installation procedures Please consider the environnement before printing this document e Details the BeanDevice product presentation e Details the data acquisition mode available on the BeanDevice e Related Technical Note TN RF 008 Data acquisition mode available on the BeanDevice eDetails the installation guidelines of the BeanDevice eRelated Technical Note TN RF 010 Beandevice Power Management e Related Technical Note TN RF 007 Beandevice DataLogger user Guide e Related Technical Note TN RF 006 Beandevice wireless network association eDetails the BeanDevice supervision from the BeanScape eDetails the BeanDevice maintenance for experienced user eFrequently asked questions eDetails the installa
33. 343251697566 Measure reading Mode Streaming 0 145 Observed values STE 02 11 2010 02 11 2010 02 11 2010 02 11 2010 02 11 2010 14 08 33 14 08 34 14 09 35 14 08 36 14 09 37 Time A right click on the graph allows a set of actions Copy Sewanee Su Menu obtained when you right click on the graph Page Setup Print Show Point values J Un Zoam Undo All zZaomjPan Reinit The meaning of each field of the menu is Copy Copies the graph to the clipboard Save Image As Save your graph The application offers a wide choice of type for recording your graphs Page Setup Use page setup to fine tune pages before printing Please consider the environnement before printing this document Page 120 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines so NEEEEEEEEEEEESEENN bet cin riga Dain Mg prank Pama Dacta 19 Daia a Pa He fis Be 55 Coe ae ene Prom remm 3 a tA Lic Print Select your printer and start printing Lg eme f 02 04 2010 16 38 14 f 0 730449378194858 Show Point Values Enabling this option allows you to see the detail of each measurement plot A zoom of the graph is possible using the mouse This is possible only if one or both boxes Zoom X and Y Zoom is checked Indeed in this case the passage of the mouse cursor over the figure changes its shape The
34. 4 Network it represents the ratio of lost data data send between the BeanDevice and the BeanGateway Please consider the environnement before printing this document Page 141 152 Document version 2 5 Bi e Rethinking sensing technology ea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines Global PER is only available on a network with a tree or mesh topology it represents the ratio of lost data data send on the whole wireless path E LQI Link Quality Indicator LOI Link Quality Indicator represents the radio signal quality in your Environment It is possible that LOI is low due to EMC interference or metal presence in the environment If you encounter such problems several solutions are proposed to increase your LQI Y Use the Maximum TX Power on your BeanDevice The maximum TX Power authorized in Europe for indoor application is 12 dBm For Outdoor application you are authorized to extend the TX Power to 18 Please consider the environnement before printing this document Page 142 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines dBm You can easily configure the TX Power on your BeanDevice from your BeanScape WSN software Supervision v Try to configure your receiver antenna and your transmitter antenna on the same antenna pattern cf the Beam with of your antenna Y Use a high
35. 4500000 168 0 005 5555535535535 15 05 2014 16 50 45 60000005174 0 0055 555555555 15 05 2014 16 50 45 75000005186 0 0055555555555j 15 05 2014 16 50 45 9000000 138 0 0055 5 5555555j 15 05 2014 16 50 46 05000005 144 0 0055 5555555553 AC IAC INAAA ACCA AL AAAA ACOs sA DO enn n o o v 09 5 Please consider the environnement before printing this document Page 133 152 Document version 2 5 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 11 BEANDEVICE MAINTENANCE amp SUPERVISION FOR EXPERIENCED USER This section allows to an experienced user to configure correctly the Wireless Sensor Networks 11 1 HOW TO OPTIMIZE THE BATTERY LIFE ON YOUR BEANDEVICE The battery autonomy depends on several parameters Y The environment where the BeanDevice is deployed Y Data acquisition mode which is configured The table below presents the BeanDevice current consumption during radio TX or during sleep phase Current consumption during Current consumption in sleep radio TX at 25 C powered bya phase at 25 C powered by a battery of 3 6V battery of 3 6V BeanDevice version further information please read the technical note RF_TN_002 V1 0 Current consumption in active amp sleeping mode Please consider the environnement before printing this document Page 134 152 Rethinking sensing technology Document
36. 70 Page 127 152 Please consider the environnement before printing this document Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Enter your own log folder name then click on validate The following example shows the log folder changed to Factory2 DRE Typs PLATFORM TYPE Reference P LATFO RM REF Label MAC ID 0x 0015 Log folder Factory2 10 6 4 Log file size configuration LOG Configuration Log directory MSDE Tete Main Log filename Main log mas size 200 Sensor Log enabled Sensor lag max size KB Network lag infa enabled Network infa log max size KB Logleve 20 C21 O2 e 3 Streaming log mas size KB 2048 LOG directory Enter here the path folder where you would want to save the LOG files Main log filename Here you may enter the desired name in order to save the LOG file Main log max size KB Maximum file size in Kilobytes KB for your principal LOG file Sensor Log Enabled Check this box if you want to enable the sensor s data acquisition in your LOG file EA OM M S Sensor log max size KB Maximum size in Kilobytes KB of sensor log files except for streaming amp streaming packet data acquisition mode Network log info enabled Check this box if you want to enable network information in your LOG
37. 8 Plug IP67 Ealibrationtcertiicate Calibration certificate provided by Beanair A static calibration method is used on a granite surface plate DIN876 Please consider the environnement before printing this document Page 27 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 6 2 Beandevice AX 3DS Product reference BND AX3DS MRG PS WP PS Power supply MR Measurement Range RB Rechargeable battery 24 6 12 24g measurement XT External Primary cell range 8 2 4 8g measurement range WP Wireless Technology IEEE IEEE 802 15 4 2006 Example BND AX3DS 24G RB IEEE Wireless Accelerometer with 6 12 24g measurement range rechargeable battery IEEE 802 15 4 Wireless Technology Sensor specifications BND AX3DS 24G RB IEEE Version 6g 12g 24g Scalable measurement range BND AX3DS 8G RB IEEE Version 2g 4g 8 The measurement range is remotely programmable BeanScape BND AX3DS 24G IEEE Version 3 mg digit 6g 6 mg digit 12g 12 mg digit 24 BND AX3DS 8G IEEE Version 1mg digit 2g 2 mg digit 4g 3 9 mg digit 048g Typical non linearity 0 15 Measurement resolution Sensitivity change Vs 0 01 C temperature Zero g level change vs BND AX3DS 24G IEEE Version 0 4 mg C temperature max delta from 25 C BND AX3DS 8G IEEE Version 0 1 mg C Typical zero g level offset BND
38. 88 10 2 6 Frame Product Version cccccccccccssecceceeeceeeeeeeceeceseeeecseueceeeeeceesaaaeeesseaeeeesaueeeesseeeessegeeeeseeeeeeas 89 10 2 7 Frame Current Data Acquisition mode sseessesesssssesseeeee nennen nennen nnns 89 10 2 8 Frame Battery Primary Cell status lssssssesesssseesseeseennn nennen nnne nennen nnne nnns 90 10 3 BeanDevice connigura lOM E o 0 sea iw DOLES 91 OA Tea CUSiO D Olay M 92 ES P A 0 ag 9 gt een nee E ee ee eee ee eee eee 93 10 3 3 Tab Data Acquisition configuration cccccccseeeceeeeeeeeeeeeeeeaeeseeeeeseeeeeeessaeeseeeeeeaasseeeessaaeeeseesaaees 94 10 3 4 Tab P r i Molojo M RRER NOR M 97 10 34 1TL09ger SIMS RM 97 10 3 4 2Logger managert mME 98 TO 320 Wa EE ES NE A E E E E E A ET 98 10 3 6 Tab Power mode management cccccccccceeseceeeceeeececeeeeeseceeesaeeeeceeesseaeeeeesaeaeeeeeesaaeeeeessaaess 101 10 37 WA Paap 103 10 4 Sensors COMMNG Ue NO Iie E EET TEES 104 TOA S aLe 105 10 4 1 T Frame General informations uiii epit kh ku E oA Fe VRREV Gc uk E Rea Fk Ep EVE a RR EE Xue A MUS 105 10 4 1 2Frame Measurement data eese esee n nhanh n rash naar n naga 105 10 4 T 3Frame Alarm threshold isuc
39. AT1_3DMG BAT2_2DMG BAT2_6DMG BATA 4DMG BAT4 8DMG System maintenance log Click on validate BeanDevice MAC 00158D00000E00F4 Reset the Reset Counter Vm inary oe You will receive an FESSA Acknowledgement from the Beandevice Platform reset Reset only C Restore default configuration Validate Tx fault reseting threshold Tint eh System maintenance log Page 80 152 Please consider the environnement before printing this document Document version 2 5 7 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines BeanDevice MAC 00158D00000E00F4 Reset the Reset Counter Se Click on Display Primary cell Battery profile modification PP amp 5DMG Platform reset Your primary cell profile was correctly loaded on Restore default configuration Vabdate your BeanDevice Reset only Tx fault reseting threshold System maintenance log Check the Power mode of you Beandevice before trying to configure your Beandevice Example If your BeanDevice is operating in Sleeping power mode You should Power off then power on your Beandevice the new configuration parameter is loaded during the coldstart of your BeanDevice For further information about Power mode management please read the technical note TN RF 010 BeanDevice Power
40. AX3DS 24G IEEE Version 70 mg accuracy BND AX3DS 8G IEEE Version 20 mg Analog to Digital converter 12 bits with temperature compensation Noise spectral density BW BND AX3DS 24G IEEE Version 650 ug VHz 10Hz BND AX3DS 8G IEEE Version 218 ug VHz Anti aliasing filter Butterworth 2th order filter Please consider the environnement before printing this document Page 28 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Over the air configuration OTAC parameters Low Duty Cycle Data Acquisition LDCDA Mode 1s to 24 hour Alarm amp Survey mode 1s to 24 hour Data Acquisition mode SPS sample per second Streaming Packet Mode Streaming Mode Shock detection Shock threshold in mg Data acquisition sample rate in sleeping mode Shock detection function NN Data acquisition sample rate after the shock detection Shock detection hysteresis Minimum 1 SPS Sampling Rate in streaming Maximum 3 kSPS per axis one axis activated packet mode 1 5 kSPS per axis 2 axis activated 1 kSPS per axis 3 axis activated Alarm Threshold 2 high levels alarms amp 2 low levels alarms Sleeping Sleeping with Network Listening amp Active 7 dBm 1 dBm 5 dBm 11 dBm 15 dBm 18 dBm RF Specifications ISM 2 4GHz 16 Channels Antenna diversity architecture designed by RF Characteristics Beanair Maximum Radio Range 300m
41. D Battery primary cell calibration Please consider the environnement before printing this document Page 139 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 11 3 NETWORK DIAGNOSTIC FROM YOUR BEANSCAPEG SOFTWARE The BeanScape provides network diagnostic information which is described in this chapter 11 3 1 Displaying Network information 1 Launch your BeanScape application 2 Select your BeanDevice profile a new tab BeanDevice will appear in your BeanScape toolbar 3 Click on this tab and then click on View History Network aga BeanScape File Tools Help BeanDevi ES TT T Click on the c u MAC_ID 0x AABBCCDDEEFFOL 4 Data BeanDevice Ch_Temp_0 4 Ch Temp 1 Plafform system profile Bea B MAC ID 0 x AABBCCDDEEFFOOBB Identity New Fr i Ch_T_Ambiante i B Ch_T_Cible Mac ld Ex Network quality Disable discharge C c ma oan AABBCCDDEEFF ODD Pan ld ENEENN Global PER Disable charge Nat Id LINE Local PER 2 Discharge over current Charge over current 3 Power Supply Diagnostic Undervoltage e Temperature yero O Power supply yer mode System i pe v Diagnostic cycle 00 00 00 ana Click on n T powe EE your BeanDe V4 ez Platform LEN profile Curren Custom display Notes Data Acq config System
42. Device set the acquisition configuration cycle or the sampling rate enable disable the datalogger function Datalogger Manage the Datalogger function on the BeanDevice System configuration Configure the diagnostic cycle and the TX Power Power Mode Management Configure the Power mode on your BeanDevice Active mode Sleep Sleep with network listening Please consider the environnement before printing this document Page 91 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 1 Tab Custom Display Custom display Notes Data Acq config System config AllG raph Type PLATFORM TYPE Reference PLATF HM HEF Label MAD ID Ox AABB Validate Parameter Description Click on Validate if you want to validate your configuration Please consider the environnement before printing this document Page 92 152 Rethinking sensing technology f e ea nAir BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 2 Tab Notes Custom display Notes Data Acq config System config AllGraph This field contains your notes concerning the BeanDevice To change this field enter your text and click on Validate button To backup your text press the icon a Example Machine failure n XX requested intervention Please consider the environnement before printing this doc
43. Document type User Manual product lines 10 2 8 Frame Battery Primary Cell status This frame displays information on battery primary cell status The BeanDevice performs frequently a battery diagnostic on the BeanDevice An alarm notification is transmitted automatically to the BeanScape if a battery failure is detected on the BeanDevice Battery Status Disable discharge 31 Digable charge e Discharge over current e Charge over current e Undervoltage F Overvoltage eu If any battery status information is displayed ex the BeanDevice is not connected status led is white When LEDS are green a normal state is indicated During a malfunction the LEDS turns red Here are the details Disable Discharge Disable Charge Over current during battery discharge Over current during battery charge Overvoltage Under voltage Please consider the environnement before printing this document Page 90 152 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 BEANDEVICE CONFIGURATION Select the BeanDevice which must be configured BeanScape Fle ons Help BeanDevice EEk H AMG 5 MAC ID 0 x 00156D000004D681 Data OPC Ch_Lux z S Ch Temp 1 Platform system profile BeanDevice RFD Reduced Function Device os Bs x 00158D 0000078808 HEE Network Diagnostic Battery Status Ch T
44. Management e Check the battery charge level which is dsplayed in the Power Supply Diagnostic frame battery charge level should be 10096 Step 7 Check your battery charge level Please consider the environnement before printing this document Page 81 152 BeanDevice User Manual SmartSensor product lines BeanScape fe x File Tools Help BeanDevice idja wo o EE a MAC_ID Ox ASBBCCDDEEFFODAA Data Ch Temp 0 E 2 z E Ch Temp 1 Platform system profile BeanDevice RFD Reduced Function Device os m s CEP RESET HEE Identity Network Diagnostic j i Ch T Cble Mecld EEEEREEREEEES Newokuaiy ogg ue Power Supply MAC ID 0x AABBCCDDEEFFOODD zee A T z z Ch TOR ii HOMI z Diagnostic frame Los M Ree Power Supply Diagnostic Version Temperature INA Ea oe e oue EEEEEEEEENT coss NIIS c NEMO n EENNO Soft vers UL NEN Battery voltage INA v Diagnostic cycle 00 0000 c9 BeanDevice Current data acquisition mode Custom display Notes Data Acq config System config AllGraph Data Acq mode Data Acq cycle Type PLATFORM TYPE Reference PLAT FORM_REF Component List Sampling rate Data Acq duration Label MAC ID Ox AABB PAN ID 0 x 2884 Server Server status Started Power Supply Diagnostic Temperature Power supply Power mode Battery Level Battery voltage
45. Sensor channel MAC ID DATE partXXX v Sensor channel Sensor channel v MAC ID BeanDevice MAC ID Y DATE date when the streaming mode starts v partXXX Log file sequence number part000 corresponds to the first log file Example Stream 0x 0 0x00158D000004C79F 02 11 2011 17 55 05 partOOO0 Stream 0x 2 0x00158D000004C79F 02 11 2011 17 55 05 part0O1 Stream Ox 1 0x00158D000004C79F 02 11 2011 17 55 05 partO0O1 Please consider the environnement before printing this document Page 131 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 6 7 3 Log file analysis P Stream 0 x 0 0 x 00158D000004C79F 02 11 2011 17 55 05 part000 Bloc notes Fichier Edition Format Affichage Beansensor AX 3D Mac Id O0158D000004C79F Network Id 0003 Pan Id 0146 Sensor Id 0 Sensor Label ch x Ratio 1 offset 0 unit g Date 02 11 2011 17 55 05 Measure Cycle 10 Measure Duration 0 sampling Frequency 1000 Measure Index Measure value 0 0041 0 0035 0 0035 0 0053 0 0029 0 0038 B O00 74 Ch on P UJ I ED ILLI E o D o I a 12 0 0026 13 0 005 14 0 005 15 0 0026 16 0 0029 17 0 0035 18 0 0014 19 0 0014 20 0 0038 21 0 0035 22 0 0035 23 0 0011 24 0 0026 25 0 0032 26 0 0038 27 0 0035 28 0 0029 29 0 0029 30 0 0035 The date which is displayed in the log file c
46. V 1 543 CENTER 2 450 000MHz SPAN 200 000MHz Typical VSWR Please consider the environnement before printing this document Page 44 152 Document version 2 5 BeanDevice User Manual SmartSensor product lines x BeanDevice IEEE 802 15 4 i202 530000000A9228 Never try to change the antenna integrated on the BeanDevice This action may void the product warranty Please consider the environnement before printing this document Page 45 152 Rethinking sensing technology e ea nAir BeanDevice User Manual SmartSensor Document type User Manual product lines 7 9 BEANDEVICE AX 3D amp AX 3D XRANGE SENSOR CHARACTERISTICS 7 9 4 Sensor architecture BEANDEVICE AX 3D 5th order Wireless Anti aliasing Microcontroller filter Accelerometer 5th order MEMS Sensor Anti aliasing Ayi filter X Axis ED 16 bits ADC Y Axis 5th order Anti aliasing filter Please consider the environnement before printing this document Page 46 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 9 2 MEMS Accelerometer The BeanDevice AX 3D integrates a tri axis silicon micromachined accelerometer with a full scale output range of 2g 10g Acceleration sensing is based on the principle of a differential capacitance arising from acceleration induced motion of the sense element which further utilizes common
47. Version 2 5 S SmartSensor AX 3D AX 3DS HI INC AX 3D XRange HI INC XRange Document version 2 5 7 gt Rethinking sensing technology ea nA I r BeanDevice User Manual SmartSensor Document type User Manual product lines DOCUMENT Autho BeanDevice User Manual SmartSensor product lines VALIDATION Function Recipients Validation Information Mohamed Yosri Jaou X Christophe Dont X Function Recipients Validaon Acton Mohamed Yosri Jaou Software Architect oy Christophe DONTEGREUIL Technical support NELLE engineer Please consider the environnement before printing this document Page 2 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Updates Christophe OTAC parameters description added Rie New Hardware Version added ristophe 1 7 16 02 201 1 Dontegreuil l Datalogger feature added Christophe iE Dontegreuil BeanDevice mounting process added Christophe Sensor position inside the casing picture added 08 12 2011 Dontegreuil SDD Smart Shock Detection Added Christophe 03 02 2012 Dontegreuil Christophe BeanDevice HI INC accuracy considerations 26 06 2012 Dontegreuil BeanDevice mounting Christophe New version of the streaming mode 15 11 2012 iad Dontegreuil e Primary Cell replacement instructions and Calibration added 10 03 2013 l e XRange version added i e D
48. a capacity of 950 mAh Rechargeable artery referenced as BATO 95DMG Option s Wall plug i itch ly 12V 1 25A with sealed M8 PI Power supply bloc oat ug in Switchmode power Supply 1 25A with sealed M8 Plug Calibration certificate provided by Beanair Calibration certificate i i A static calibration method is used on a granite surface plate DIN876 Please consider the environnement before printing this document Page 33 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 6 4 Beandevice amp AX 3D XRange Product reference BND AX3D MRG XR WP MR Measurement Range WP Wireless Technology 2 2g measurement range IEEE IEEE 802 15 4 2006 10 x10g measurement range 13 13g measurement range Example BND AX3D 10G XR IEEE High performance wireless accelerometer with 10g measurement range IEEE 802 15 4 Wireless Technology Accelerometer Specifications Accelerometer technology MEMS technology triaxial accelerometer 2g Version 16384 counts g Sensitivity 10g version 3277 counts g 13 version 2521 counts g Typical non linearity 0 1 FS E 16 bits SAR architecture Successive Approximation Register with Analog to Digital converter temperature compensation E frequency response 3 0 to 800 Hz 2g Version 45 ug VHz Noise spectral density 10g version 100 ug VHz 13 version 100 ug VHz 2g Version 0 2 m
49. ailable to help you to setup quickly your measurement channel of your BeanDevice Click on conversion assistant from the tab Custom display a window will open allowing you to do a linear conversion Custom display Notes Configuration Measurement conditionning calibration Lag config Ratio Iffzet Unit SENSOR LIMIT Type Ref SENSUR_REF Label Ch TUR On the left column the user can enter the non converted measurement data On the right column the user can enter the converted measurement values with the desired unit The ratio and offset values are calculated automatically by the conversion assistant Unit Conversion Assistant Linear Conversion Input Value 1 Dm Li Value 2 65535 Li not defined not defined Please consider the environnement before printing this document Page 109 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 2 2 Tab Notes l Custom display Notes Data Acq config System config Allaraph This field contains notes relating to the BeanDevice sensor To change this field enter a value or free text and click the Validate button A new window opens accept your modifications by clicking on OK Sensor parameter configuration Eg ll Modification done successfully To backup your text click on the icon Backup your Database dd Please consider th
50. an change log folder name by clicking on Custom display tab located on the BeanDevice profile Platform system profile Q BeanDevice RFD Reduced Function Device Identity Network Diagnostic Battery Status Mac Id Network quality sanbl co Disable discharge 7 Ee Panid E PER E Disable chage C Disch current veu BENE AURI SE Charge over current F Label ae MNMEEENEN Undervoltage Fi Power supply M Overvoltage e Version Powermode PEME F uu Had vers DERNEEEENENENI Battery voltage DMBEN Diagnostic cycle MEHNNO cet stmam ss Battery level DENM Sof vers DRRNMENNEEEN Txpower BEEN useing sto QNNM BeanDevice Data Logger Pom ous EEN Monee otc IE enc ed EEENN Listening Mode Status Custom display Data Acq config System config Pc Config frame is e Sent e Data acquisition mode configuration Data Acq mode TEES Lj Current data acquisition mode Data Acq cycle aor ss Data Aca mode EEE Streaming Packet Sampling Rate Streaming Data Acq cycle INA did hh mm ss Data Acq duration ddd hh mm ss Senping ote MEE Data acquisition mode options Data Ac duration ERN 8 nos NN Tx Te Streaming Streaming Packet options O Continuous Monitoring Burst 8 One Shot Custom display PLATFORM TYPE PLATFORM REF Label MAC ID 0x 0015 Logfolder Folder 02
51. anAir reserves the right to make modifications additions and deletions to this document due to typographical errors inaccurate information or improvements to programs and or equipment at any time and without notice Such changes will nevertheless be incorporated into new editions of this document Copyright Transmittal reproduction dissemination and or editing of this document as well as utilization of its contents and communication thereof to others without express authorization are prohibited Offenders will be held liable for payment of damages All rights are reserved Copyright BeanAir GmBh 2015 Please consider the environnement before printing this document Page 8 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 1 TECHNICAL SUPPORT For general contact technical support to report documentation errors and to order manuals contact BeanAir Technical Support Center BTSC at tech support beanair com For detailed information about where you can buy the BeanAir equipment software or for recommendations on accessories and components visit www beanair com To register for product news and announcements or for product questions contact BeanAir s Technical Support Center BTSC Our aim is to make this user manual as helpful as possible Please keep us informed of your comments and suggestions for improvements BeanAir appreciates feedback fr
52. anty Please consider the environnement before printing this document Page 66 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 14 2 External Primary cell option The battery autonomy of the BeanDevice can be increased by using an external primary cell with a capacity of 6500 mAh The primary cell is integrated in a watertight IP65 enclosure If external primary cell option is selected the Beandevice will be provided without an internal rechargeable battery 7 14 2 1 Primary cell specifications The Primary lithium thionyl chloride cell Li SoCI2 provides the following features Primary Cell Nominal Operating Maximum Pulse Capability Capacity Voltage temperature recommended range continuous current 6500 mAh C size spiral 40 C 85 C 1 5 to 2A during 0 1s cell Please consider the environnement before printing this document Page 67 152 Document version 2 5 7 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines A Prirmary Cell is not a rechargeable battery do not try to recharge it You will damage your primary cell and your Beandevice We recommend you the following primary cell provider 7 14 2 2 Main advantages of primary cell These are the main advantages of using a primary cell v The operating temperature of your Beandevice
53. ble Type Min Temp ERE T Type SENSOR_TYPE MAC ID Ox AABBCCDDEEFFOODD Ref Ma Tam EINEN c Ch TOR et ax Temp zE SENSOR REF Label Ch Temp 0 Label Technology State Mesurement data Val 719 833903273083 Measure reading Mode LowDutyCycle 760 750 w 740 5 w 7 30 z 720 gt i 9 710 a Component List O 700 sm 690 Server 17 10 2010 17 10 2010 17 10 2010 17 10 2010 17 10 2010 13 07 00 14 02 16 14 57 33 15 52 49 16 48 06 Server status Started Please consider the environnement before printing this document Page 104 152 5 Bea n N r Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 1 Sensor profile 10 4 1 1 Frame General informations Sensor Type Data Sensor Profile Sensor range Reference E eral information displayed on the Label Chee frequency in Hz BeanScape i echnology axa state gt on BeanDevice technology Sensor ON OFF Button enable disable the sensor channel 10 4 1 2 Frame Measurement data Date and time of the latest measurement Measurement data value Mesurement daN Y Value Date By default sensor unit format is o g forthe BeanDevice AX 3D amp AX 3DS o forthe BeanDevice HI INC Please consider the environnement before printing this document Page 105 152 Document version 2 5 BeanDevice User Manual
54. chnology BeanDevice User Manual SmartSensor Document type User Manual product lines Typical offset and sensitivity temperature dependencies of the inclinometer sensor are presented in following diagrams These results represent the typical performance of inclinometer sensor components The mean value and 3 sigma limit mean 3x standard deviation and specification limits are presented in following diagrams The 3 sigma limits represents 99 7396 of the inclinometer sensor population Temperature dependency of the inclinometer sensor offset differential output 0 3 specification limit Differential offset error degrees Temp C Temperature dependency of the sensor sensitivity differential output Please consider the environnement before printing this document Page 54 152 Rethinking sensing technology e eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines 7 11 BEANDEVICE AX 3DS SENSOR CHARACTERISTICS 7 11 1 Mems Sensor architecture BEANDEVICE AX 3DS Tri axis accelerometer X Axis Z Axis Self Test W Wireless Y Axis Microcontroller Shock Detection A D Converter Interrupt 7 11 2 Shock detection interrupt The shock detection interrupt allows the Beandevice AX 3DS to wake up when a threshold is reached The threshold value can be modified from the BeanScape This feature is used for Smart shock detection da
55. configuration parameters This memory is organized into several levels Level 1 Level 2 Level 3 Level 4 Please consider the environnement before printing this document e End user parameters e Sensor calibration coefficients e Network maintenance only fo experts e Battery Primary cell calibration Page 135 152 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines Please consider the environnement before printing this document Page 136 152 Document version 2 5 ha e a e Rethinking sensing technology Bea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines 11 2 1 Level 1 End user OTAC parameters The following table presents all the defaults configuration parameters BeanDevice version Parameter AX3D amp AX 3D Xrange HI INC amp HI INC XRange AX 3DS amp AX 3DS XRange Power Mode Data Acquisition duty cycle Acquisition duration time Sampling rate Data Acquisition mode TX Power Alarms Threshold Anti aliasing Filter cut off frequency To restore these defaults parameters you must perform a Network context deletion The Network non contact button is outside the product Hold the magnet on the button network Network for more than 2 seconds Please consider the environnement before printing this document Page 137 152 Document version
56. crystal Real Time Clock Extremely Accurate Real Time Clock for measurement time stamping in Low duty cycle mode 10ppm Please consider the environnement before printing this document Page 26 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Extremely accurate crystal for measurement time stamping in streaming amp Crystal streaming packet mode Tolerance 10ppm stability 10ppm Environmental and Mechanical Aluminium amp Watertight IP66 enclosure Dimensions in mm LxWxH 80x55x21 mm Weight battery included 145g Operating Temperature 20 C to 65 C CE Labelling Directive R amp TTE Radio ETSI EN 300 328 ROHS Directive 2002 95 EC Power supply Integrated Lithium ion battery charger with high precision battery monitoring Overvoltage Protection Overcurrent Short Circuit Protection Integrated battery charger Undervoltage Protection Battery Temperature monitoring Current accumulation measurement During data acquisition 20 to 30 mA Current consumption 3 3V During Radio transmission 40 mA OdBm 80 mA 18 dBm During sleeping lt 30 WA External power supply External power supply 8v to 28v High density Lithium lon rechargeable battery with a capacity of 1 3 Ah Rechargeablenattery referenced as BAT1 3DMG Option s Power supply bloc Wall plug in Switchmode power Supply 12V 1 25A with sealed M
57. cument type User Manual Document version 2 5 BeanDevice User Manual SmartSensor product lines Shock detection configuration Accelerometer Bandwidth during deep sleep of the Beandevice 100 Hz Iv Event 1 Ww Shock detection con n1 Shock Detection Event Combination C C AU Axis event selection Shock detection co Shock Detection tion 2 Event Combination C AND Axis event selection i ial x x High Y High Z High E E Threshold 1 890 g X High Y High x Low Y Low 2L H m B Hysteresis 10 000 ms amp Threshold 5 669 g A Low Y Low L LI Hysteresis 1220 000 ms O Validate Reset pun Shock detection configuration 1 ag Shock detection configuration 2 Page 113 152 Please consider the environnement before printing this document BeanDevice User Manual SmartSensor product lines Hz The user can select two events profile Event 1 and Event 2 Event combination The user can use two logical combinations AND and OR combination on the axis event selection Fix the shock detection threshold Unit value g The resolution of the threshold value depends on the acceleration range of the accelerometer On the axis event selection frame if the High Axis is selected the value of the threshold will be positive If the Low axis is selected the value of the threshold will
58. cument version 2 5 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines No symbol activated Val 0 143343251697566 Measure reading Mode Streaming Streaming Measure i Observed values 02 11 2010 02 11 2010 02 11 2010 02 11 2010 02 11 2010 14 15 03 5710000 14 15 03 7680000 14 15 03 9650000 14 15 04 1610000 14 15 04 3580000 Time Square symbol activated Val 0 143343251697566 Measure reading Mode Streaming 0 1445 0 144 0 1435 1 0 143 0 1425 uw 3 S v o z o 2 o 0 142 0 1415 02 11 2010 02 11 2010 02 11 2010 02 11 2010 02 11 2010 14 11 39 14 11 40 14 11 41 14 11 42 14 11 43 Time 0 141 Val 0 143343251697566 Measure reading Mode Streaming s Streaming Measure Observed values 02 11 2010 02 11 2010 02 11 2010 02 11 2010 02 11 2010 14 13 36 0860000 14 13 36 2830000 14 13 36 4780000 14 13 36 6760000 14 13 36 8720000 14 13 37 0680000 Time Please consider the environnement before printing this document Page 123 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 3 3 Frame Scale From this frame you can customize the scaling of your graphics to suit your needs Scale Auto Y Auto X oom X oom Y halls Check box Auto Y and Auto X E Select Auto X scales the X
59. data C Restore default parameters Validate Primary cell Battery profile modification Validate Bat PP2 1DMG lt Reset the Reset Counter Validate m m E TX Fault Threshold Not available E Clear Network context software This option may be substituted for the push button Network However when the BeanDevice is not available not powered or in sleeping mode this option is not usable E Delete measurement data Delete stored measurements E Restore default parameters This function restores all the default parameters stored on the BeanDevice flash memory E Primary Cell Battery profile modifications You can change your primary cell battery profile here E Reset the Reset counter resets the reset counter which is used for BeanDevice reboot Please consider the environnement before printing this document Page 144 152 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines 11 3 1 Scrolling menu BeanSensor The BeanSensor scrolling menu provides access to additional features like the multi graph mode display of multiple windows on a graph measuring the same screen deleting graphs displayed and the activation deactivation of logging measurements To access to this scrolling menu click on the sensor attached to your BeanDevice You will then see the BeanSensor scrolling men
60. e BeanDevice transmits the data acquisition without Datalogging Log only The Beandevice logs the data acquisition without wireless transmission Tx amp Log The BeanDevice transmits and logs the data acquisition For further information about the DataLogger feature read the technical note TN RF 007 BeanDevice DataLogger User Guide For further information about the Datalogger please read the technical note TN RF 007 BeanDevice DataLogger User Guide Please consider the environnement before printing this document Page 95 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines All the modifications are displayed on Current data acquisition mode frame BeanScape Sige File Tools Help BeanDevice A PEPI A B E MAC ID 0x OO158D00000C441E Data c ln Platform system profile MAC ID 0 00158D00000492C4 9 Ch Lux ES Identity Network Diagnostic Battery Status Network quality a000 Lar Disable discharge 3 Global PER INA z Disable charge locu PER DINEM P Discharge over current Charge over curent a Undervoltage Overvoltage p Ch Temp 1 Mac ld MAC ID 0 x 00158D 0000002714 Pan Id ac m 3 _ Net Id Label Power Supply Diagnostic MAC ID 0 x 00158D00000C7802 m Temperature EN E Ch Lux MAC ID 0x 00158D00000C7804 Hard vas vina Pona
61. e environnement before printing this document Page 110 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 2 3 Tab Configuration BeanDevice AX 3D and BeanDevice HI INC For further information about the alarms threshold configuration please read the technical note Custom display Notes Configuration Measurement conditionning calibration Log config Parameter Description Alarm threshold You can configure threshold high values H1 H2 and low values L1 L2 In alarm mode when a higher low threshold value is reached an alarm notification is transmitted to the BeanGateway If the sensor value is higher than H1 H2 an alarm notification is send to the BeanGateway BeanScape If the sensor value is lower than L1 L2 an alarm notification is send to the BeanGateway BeanScape Threshold values must be organized in this manner H2 gt H1 gt L1 gt L2 Cutoff Frequency Cutoff frequency Configure the anti aliasing filter cutoff frequency The range of cutoff frequency which can be configured is 0 Hz to 2 KHz if the product is a BeanDevice AX 3D 0 Hz to 2 KHz if the product is a BeanDevice AX HD 0 Hz to 60 Hz if the product is a BeanDevice HI INC Page 111 152 Please consider the environnement before printing this document Rethinking sensing technology BeanDevice User Manual SmartS
62. e meee eee ee ne eee 127 10 6 4 Log file size configuration ccccccceeeceeceeeeeecneeeeeeeaeeeeecseeeeeseaeeeeseaeeeeseaeeeesseeeeeseeeeesseeeeesseneeeeas 128 10 6 5 Log file generation lseeeesssseesssseseseeseee nennen nennen nennen nnne nnn nena nnns in nnns sa isa r anna nnns 129 10 6 6 Cache Data configuration for Graph ssseessssessssssseeeeeeenneeennnnnnnnnn nnne 129 10 6 7 Log file related to data acquisition ccccccssseecececceeeeeeeeceeeseceeesaaeseceeecseasecesesaaaeeeeessseaeeeeessaaess 130 10 07 OG TIN ANIC HOON ML J 130 10 6 7 2Specific case log filename creation in Streaming Streaming Packet mode 131 10 6 7 3Log file u 132 10 6 8 Log file related to Wireless Network GiaQnOStiC cccccccsseeceeeceeeeeeeecaeeeeceeeseeeseeeeessaaeeeeeesaaees 132 10 6 8 1Log filename organization ossis eise esee nena nn anna nhan anna asas aaa 132 IO WS Eee ucc 132 11 BEANDEVICEG MAINTENANCE amp SUPERVISION FOR EXPERIENCED USER sss 134 11 1 How to optimize the battery LIFE on your BeanDewviceQ sssssssssssseeeennnenenenm nenne 134 11 2 Over the air Configuration OTAC parameters backed up on Flash seeeeeeessssss 135 11 2 1 Level 1 End user OTAC parameters eee
63. eby maximizing the usable frequency range Y Secure the cable using clamps o rings tape or other materials most suited to the application Ensure that you have sufficient slack to allow for free movement of the sensor Y Inspect mounting holes and remove any debris burrs or other foreign materials 7 13 3 Wireless inclinometer special instructions BeanDevice HI INC INC amp HI INC Xrange The BeanDevice HI INC is designed for a horizontal mounting i e the base plate of the inclinometer needs to be placed on the horizontal plane of the object to be measured Avoid shock and vibration during measurement as these could corrupt the measurement results Inclination sensors that base on a fluidic measurement principle are optimal for static measurements and suitable to only a limited extent of dynamic measurement 7 14 BEANDEVICE POWER SUPPLY 7 14 1 Integrated Lithium ion Rechargeable battery The BeanDevice from Smartsensor product lines integrates a Lithium lon rechargeable battery BeanDevice version Battery Capacity Nominal Voltage Charge Discharge cycle 25 C 25 C 25 C Beandevice AX 3D BeanDevice AX 3DS 1250 mAh cy t o The rechargeable battery can be used as an UPS uninterruptible power supply battery on your BeanDevice It provides an emergency power when the external power source typically the utility mains fails b Do not try to change the integrated battery This action may void the product warr
64. ed to the BeanDevice Deleted This led is if a pending OTAC Over the Air configuration is deleted By clicking on validate the pending OTAC frame is deleted Please consider the environnement before printing this document Page 102 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 7 Tab AllGraph Allgraph mode allows displaying all the sensors curves of a BeanDevice on the same graph Custom display General tensor view Moda LowDutycycla HE s n ui n Ug ES E PI un i5 Page 103 152 Please consider the environnement before printing this document Document version 2 5 7 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 SENSORS CONFIGURATION The screen Sensor profile consists of three parts General information on the measurement channel Measurement channel configuration A graph which displays in real time sensor signals during data acquisition BeanScape Efe x File Tools Help BeanSensor a g Gg MAC ID 0 x AABBCCDDEEFFOOAA Data Ch Temp_0 B Ch Temp 1 Sensor profile Custom display Notes Configuration Log config B E MAC ID 0x AABBCCDDEEFFOOBB _ li Ch T Ambiente General information 1 Offset 0 Ch_T_Ci
65. ee Scilab scripts for FFT and PPV filtering Fully calibrated sensor Please consider the environnement before printing this document Page 23 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 5 BEANDEVICE HI INC XRANGE HIGH PERFORMANCE WIRELESS INCLINOMETER 7 5 1 Main features MEE EO LES Wireless Inclinometer based on MEMS Technology Measurement range 15 amp 30 mono axis amp bi axis Excellent resolution 0 001 amp accuracy 0 05 Temperature compensated sensor Excellent radio link thanks to the antenna diversity developed by Beanair Non contact actuation for quick mounting Maximum sampling rate 200 SPS Maximum radio range 650m L O S Ultra Power Radio Technology IEEE 802 15 4 Current consumption in sleeping mode lt 30 uA Embedded data Logger up to 8 millions data points OPC server allowing real time access from your IT system to the BeanScape available on BeanScape Premium Entirely autonomous system with an integrated Lithium lon battery charger Watertight IP67 aluminum enclosure coming with a rugged base plate and three point mounting Anti aliasing Butterworth filter 5 order with a cut off frequency of 1 Hz to 100Hz remotely programmable from the BeanScape Fully calibrated sensor Please consider the environnement before printing this document Page 24 152 Rethinking sensing tec
66. en nnne nnnm nnne nnne nar nnns nnns aan nnn nnns 72 g9 PI i iMeee diPieeie Mmmm ms 72 9 4 OTAC Over the air Configuration process ccccccccsssseeeceeeeecceeeeeeeeceeeeesueeeeeeeeeeessaeaaeeeeeeessssaaaeeeeeeees 72 9 5 Network context Button restore Factory settings cccccccseseeeceeeeeeeeeeseeeeeeeeeesseeeeeessaseeesseneesenaeeeeesaaes 73 9 6 How to change and calibrate the Primary cell on the BeandeviceQ ccccccceeecceeceeeceeeeeeeeeseeeeeesaees 75 10 BEANDEVICE SUPERVISION FROM THE BEANSCAPEYQ sssseseeeeenneeennnnnnnn nennen nnn nnne nnn 83 10 1 Starting the BeanScape 0c ccceccccesscceseesseceesceceeseensceeeeccedaeseereceeseccedeeseaeeeesceccadenseeeeseasecssdenseneesanes 83 10 2 Displaying the BeanDevice Informations sseeeeeesiissssssseeeeee eene 84 UM cei m 85 10 2 2 Frame Wireless Network Diagnostic cccccccccccseseeeeseeeeeeeeeseeeeeeeeeseeeeeeeseaeeeessaneeessaeeeeesseneesens 85 10 2 3 Frame Internal GIAGMOSIC aesiensuxe nix umuaadr a xad ERs rerni paie xls aaa aci EE ad dure t d wl a d Nw a C Etat 86 10 2 3 1 BeanDevice amp Power Mode status scccccccccececssseeeeecccesecsseeeeeecessesaaaeeeeeeeessssaaaeees 87 10 2 4 Frame System MEM 88 10 2 5 Frame BeanDeviCe cc ccccccccccceescceceeeececeeeeceeseeeceeceauecesseeeceeseaueeesseaeceeseueeeessaeeesseeeeeeseeeeeeas
67. ensation dependency temperature range 25 C to 85 C 0 013 C without temperature compensation Long term stability 23 C lt 0 004 Ss 16 bits SAR architecture Successive Approximation Register with Analog to Digital converter temperature compensation Sensor frequency Response 3 DC to 28 Hz dB Noise spectral density DC to 100 Hz 0 0004 VHz Butterworth 5order filter cut off frequency 1 Hz to 100 Hz remotely Anti aliasing filter programmable BeanScape Please consider the environnement before printing this document Page 31 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Over the air configuration OTAC parameters Low Duty Cycle Data Acquisition LDCDA Mode 1s to 24 hour Data Acquisition mode SPS Alarm amp Survey mode 1s to 24 hour sample per second Streaming Packet Mode Streaming Mode packet mode Maximum 60 SPS on each axis 7 dBm 1 dBm 5 dBm 11 dBm 15 dBm 18 dBm RF Specifications Wireless Protocol Stack IEEE 802 15 4 2006 version WSN Topology Point to Point Star AES 128 bits AES integrated coprocessor uw ISM 2 4GHz 16 Channels Antenna diversity architecture designed by RF Characteristics Beanair Maximum Radio Range 300m L O S Embedded Data logger Storage capacity up to 1 000 000 data acquisition Write read cycle 400000 Wireless data downloadin
68. ensor Document type User Manual product lines 10 4 2 4 Tab Configuration BeanDevice AX 3DS O further information about the SSD Smart Shock Detection measurement mode read the technical note TN_RF_008 Data acquisition modes available on the BeanDevice Custom display Canisii Alam threshold configuration Hi i Validate Accelerometer range configuration g Validate Chante dunn 12 12 Mesurement dc 24 24 Parameter Description Alarm threshold You can configure threshold high values H1 H2 and low values L1 L2 In alarm mode when a higher low threshold value is reached an alarm notification is transmitted to the BeanGateway v Ifthe sensor value is higher than H1 H2 an alarm notification is send to the BeanGateway BeanScape v Ifthe sensor value is lower than L1 L2 an alarm notification is send to the BeanGateway BeanScape Threshold values must be organized in this manner H2 H1 gt L1 gt L2 Alarm thresholds are not available for SSD Smart shock detection mode Accelerometer v The user can change the measurement range of the accelerometer range configuration e BeanDevice AX 3DS 24G 6g or 12g or 24 e BeanDevice AX 3DS 8G 2g or 4g or 8g JA eI Click on modify a new window will open configuration Please consider the environnement before printing this document Page 112 152 eanAir Rethinking sensing technology Do
69. ent before printing this document Page 48 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Frequency amp Phase response curve cutoff frequency 1 KHz BeanDevice TestBench 06 01 2010 WillTech MAK TOS tock GAIN dB 0 05 10 15 20 25 3 0 35 40 45 50 INPUT FREQUENCY kHz BeanDevice 7 TestBench 06 01 2010 MAX TAOS tact PHASE SHIFT DEGREES 0 02 04 06 08 10 12 14 16 INPUT FREQUENCY KHz Total Harmonic Distortion plus Noise vs Input signal amplitude Page 49 152 Please consider the environnement before printing this document Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines BeanDevice TestBench 06 01 2010 MAX7409 toc 11 THD NOISE dB 0 0 5 10 15 20 25 30 Rs L2 L4 5th order Ladder Filter network 7 9 1 Analog Digital Converter The Analog to Digital 16 bits converter is based on a true SAR Successive Approximation Register architecture with no missing codes The ADC integrates an internal temperature sensor which is useful for performing a system calibration The internal reference is temperature compensated to within 10 mV The reference is trimmed to provide a typical drift of 10 ppm C Please consider the environnement before printing this document Page 50 152 Document version 2 5 Rethinking sensing techno
70. ersion Radio module Hard vers Caft vers Software version BeanDevice embedded software version Prot stack Protocol stack Wireless protocol stack used V version related to a major modification of the embedded software R Release related to a minor modification of the embedded software These ID versions should be transmitted to our technical support center when you encountered a material or software dysfunction 10 2 7 Frame Current Data Acquisition mode This frame displays all the informations returned by the BeanDevice on its actual data acquisition mode Data Acq contig Logger System config Slee 2 Custom display Notes Data acquisition mode available on the Data acquisition mode configuration BeanDevice eae ee cae z Data amp cq mode LowDutyCycle Validate Data Acq cycle oe gal AS eee Sampling Hate Data acquisition cycle in Day hour minute and second Data Acq duration Continuous Monitoring Options Tx Only Log Only Ts amp Log BeanDevice sampling rate in Hz available only for streaming mode and streaming packet mode only Data acquisition duration available only for streaming mode and streaming packet mode Please consider the environnement before printing this document Page 89 152 Rethinking sensing technology BeanDevice User Manual SmartSensor
71. ery easily Use a knife or a sharp object to unmount the Beandevice Your BeanDevice is clean and ready to be used on another application Please consider the environnement before printing this document Page 64 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 13 2 Screw Mounting Beandevice amp AX 3D Xrange amp Beandevice HI INC Xrange Characteristics SmartSensor range Mounting techniques Surface Roughness Surface treatment Figure 7 1 Xrange base plate overview v For vibration measurement the mass of the wireless accelerometer must be 1 10 of the mass of the object under study Y Mounting surfaces need to be clean free of any residue from epoxies waxes paint or other foreign materials Yv Mounting surface should be flat Please consider the environnement before printing this document Page 65 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Y The mounting hole must be checked to ensure it is longer than the mounting screw so as to prevent bottoming out Y Use a torque wrench for tightening screws to the manufacturer s specifications Do not use electric tools as their frequencies may damage the accelerometer Y Spread mating surface with a light coating of silicone grease heavy machine oil or bees wax to ensure contact issecure ther
72. etailed informations about log files creation amp 22 05 2014 Christophe Dontegreuil management e TimeSync function description 29 11 2014 Maxime Obr m e Log folder organization added 2 3 2 4 2 5 NO NO NO ho e c OO Please consider the environnement before printing this document Page 3 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines ze nemN ue l 9 VISUAL SYMBOESTEPINUITKON etiam an nei oe onan b rx epe dium Utm SERUUM S eel Mu qui MEeceU as diu Mene aM ineUNEE 10 ACRONYMS AND ABBREVIATIONS 00cccccccccccceeeseeeeeeeeeecaeeeeeeeeeeseeeeseaseeceeeeesseeeuseseeeeeesseseaeeeeeeeeesssaaagesss 11 RELATED DOCUMENTS VID EOS cise sects treat aai EAEN A EAEE EAEE AEE nb Eiai 12 leo 6x2 6 ib e mEENR ne eee en ee eee ee eee 12 4 2 Technical Notes ccccccsssccccssseecceeseeecceusecessusececsaececseuseeeseaseeessageeeeseuseeessageeessageeessageeeessgeeesssageesssageess 13 4 3 Related BU To RRRRREMEEEEEEEEEEEEEEEEEEEEMM 14 BEANDEVICE VERSIONS sbieatsee 15 DOCUMENT ORGANISA TIO Nesetecessi lt 8 ecpcocceauasieceaepasoeusehusie lt Dunpteesssasasecteteteo asagusteb NTE aa iaDia 16 BEANDEVICE PRODUCT OVERVIEW o ncicsaccsesnensesitenndacetoceiansnanecsenbedeeatstanedecetedelasenaeccens
73. ete lg MAC ID Dx AZ i E EE Open Ehe graph in a new window a Ch Temp 1 T S MAC ID 0 AABBCCDDEEFF DBB 0 499 Eh T Ambiante E Type Ref OF p General inform Please consider the environnement before printing this document Page 146 152 Document version 2 5 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines BeanScape File Tools Help BeanSensor B MAC ID 0x 0015800000077802 Data Ch X Ch Y Sensor profile Custom display Notes Configuration Measurement conditioning calibration Log config Ch Z s 2 MAC ID 0 x 001580000007780F General information 1 Offset 0 E hx Type Rance EREMO g Type SENSOR_TYPE m ChY et h coz Ref rre i SENSOR REF Label Ch X B MAC ID 0 x 00158D 0000054414 Label T a ooo z B Ch mA 1 Technology L m Ch m 2 Stale Mesurement data Ch m 3 S MAC ID 0x FFFFFFFFFFFFFFFF vac D o NNNNNNNN i Ch Temp 0 s Measure data deletion from the memory cache 2 Are you sure you want delete the whole measure data of this BeanSensor D 3 zZ S v vo 2 o L1 Ii a L2 o 25 10 2010 25 10 2010 25 10 2010 25 10 2010 25 10 2010 em 20 06 05 20 06 12 20 06 20 20 06 28 20 06 36 Auto Y Time 0 Server status Started 11 3 1 3 Open t
74. file Network info log max size KB Maximum size in Kilobytes for your network information LOG file Log level Display priority LOGS NN S S Streaming log max size Maximum size in Kilobytes KB of sensor log files only for streaming amp streaming packet data acquisition mode Please consider the environnement before printing this document Page 128 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 6 5 Log file generation By default 1 log file contains measurements for 1 sensor channel The user can select a log file containing the measurements of all the sensor channels present on the Beandevice 3 All sensor chanels in one file amp Separated s 10 6 6 Cache Data configuration for Graph Data Cache Configuration Max points 40000 Max packets IB Max diagnostics 1000 Max alarms 25 Gps coord max number 100 Max streaming points 10000 Max BGw Module status nbr 100 Syst Maint Status max nbr 500 v Maximum number of points Set here the maximum number of points displayed on the BeanScape graph v Maximum number of packets Set here the maximum number of packets displayed on the BeanScape graph v Max number of diagnostics Set here the maximum number of diagnostics displayed on the BeanScape graph v Max number of alarms Set here the maximum numbe
75. form taken by the cursor is T Two options available to you to zoom the graph 1 You use the mouse wheel 2 Or holding down the left mouse button you select a chart area Release the left mouse button causes a zoom selection Please consider the environnement before printing this document Page 121 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 3 1 Frame Marks Marks Grid Alarm This frame consists of two check boxes that are grid and alarm Grid If this check box is ticked a grid is displayed on the graph Grid displayed on the graph 0 070 oos T I Marks Grid Alarm o If this check box is ticked all the alarms threshold H1 H2 L1 L2 are displayed on the graph a Alarms threshold H1 H2 L1 L2 are displayed on the i graph s is 3 000 Lx5 ER E 02 04 2010 02 04 2010 02 04 2010 02 04 2010 02 04 2010 15 15 00 15 18 32 152204 15 25 36 16 29 10 4 3 2 Frame Symbols From this frame you can select the display mode of action of the chart Three types of symbols are available Pees Circle Brings up a point on each bar graph Square Square brings up a square on each measure of the graph 9 None None No logo is displayed on the graph Please consider the environnement before printing this document Page 122 152 Do
76. g C 10g version 0 1 mg C 13 version 0 1 mg C 2g Version 0 01 C XY 0 02 C Z 10g version 0 01 C 13 version 0 01 C Zero g Offset Variation from RT over Temp Sensitivity Variation from RT over Temp 2g Version 4mg Offset Ratiometric Error 10g version 0 2 XY 0 1 Z 13g version 0 5 2g Version 1 25 96 X Y 0 2 96 Z Sensitivity Ratiometric Error 10g Version 1 696 X Y 0 2 Z 13g Version 1 6 X Y 0 2 Z TIT NES Butterworth 5 order filter cut off frequency 1 Hz to 2000 Hz remotely Anti aliasing filter 5 programmable BeanScape Please consider the environnement before printing this document Page 34 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Over the air configuration OTAC parameters Low Duty Cycle Data Acquisition LDCDA Mode 1s to 24 hour Data Acquisition mode SPS Alarm amp Survey mode 1s to 24 hour sample per second Streaming Packet Mode Streaming Mode Minimum 1 SPS Sampling Rate Maximum 3 kSPS per axis one axis activated in streaming packet mode 1 5 kSPS per axis 2 axis activated 1 kSPS per axis 3 axis activated Minimum 1 SPS Sampling Rate niis in streaming packet mode with Maximum 4 kSPS maximum per axis one or two axis activated data logger only 3 5 kSPS per axis 3 axis activated Alarm Threshold 2 high
77. g 3 minutes to download the full memory average time Antnna Antenna diversity 2 omnidirectional antenna with a gain of 2 2 dBi Real Time clock and crystal Extremely Accurate Real Time Clock for measurement time stamping in Low Real Time Clock duty cycle mode 10ppm Extremely accurate crystal for measurement time stamping in streaming amp Crystal streaming packet mode Tolerance 10ppm stability 10ppm Please consider the environnement before printing this document Page 32 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Environmental and Mechanical Aluminium amp Watertight IP66 enclosure Dimensions in mm LxWxH 80x55x21 mm Weight battery included 145g Operating Temperature 20 C to 65 C CE Labelling Directive R amp TTE Radio ETSI EN 300 328 ROHS Directive 2002 95 EC Power supply Integrated Lithium ion battery charger with high precision battery monitoring Overvoltage Protection Overcurrent Short Circuit Protection Integrated battery charger Undervoltage Protection Battery Temperature monitoring Current accumulation measurement During data acquisition 20 to 30 mA Current consumption 3 3V During Radio transmission 40 mA 0 OdBm 80 mA 18 dBm During sleeping lt 30 WA External power supply xternal power supply 8v to 428v High density Lithium lon rechargeable battery with
78. gh data sampling rate maximum 5 KHz In order to achieve these performances data sampling are transmitted by packet Streaming Streaming mode is more suitable for users requiring a real time data transmission with time latency under 10ms Select the Data acquisition cycle between 1s and 24hours The format is Day Hour Minute Second Data acquisition Please consider the environnement before printing this document Page 94 152 Document version 2 5 ry ex e Rethinking sensing technology Bea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines Select the sampling rate of your BeanDevice between 1 sample per second and 5000 Samples per second maximum The resolution is 1 sample per second If DataLogger is selected the maximum sampling rate is 2000 samples per second This field is available in streaming streaming packet Choose carefully the Sampling rate value v The PER Packet Error Rate can increase if the Sampling rate is high on your BeanDevice For further information read the technical note RF TN 003 V1 0 Wireless Network capacity Sampling rate v Power consumption increases with the sampling rate of your BeanDevice Data acquisition duration in streaming streaming packet modes acquisition The format is Day Hour Minute Second The Data acquisition duration value can be higher than Data acquisition cycle Data Tx only Th
79. he graph in a new window By clicking on Open the graph in a new window you can open a graph corresponding to your sensor File Tools Disable log Buffer Reset B OF pr cH MAL ID 0s AABBCLCODEEFFOUBE Ch T Ambiante General informal lf Ch T Cible Time 5 MAC ID Dk AABBCCDDEEFFODDD Ref Label You can easily open several graphs in a window Please consider the environnement before printing this document Page 147 152 Document version 2 5 Rethinking sensing technology anAir BeanDevice User Manual SmartSensor Document type User Manual product lines val o Measure reading Mode Streaming Streaming Measure Id 0 x 0_0 x 00158D000007780F Label Ch_X Val 0 Measure reading Mode Streaming 25 10 2010 25 10 2010 25 10 2010 25 10 2010 25 10 2010 20 06 05 20 06 12 20 06 20 20 06 28 20 06 36 Time Observed values e D 25 10 2010 25 10 2010 25 10 2010 20 06 05 20 06 20 20 06 36 Time vals 0 Meanura reading Moda Streaming g Measure reading Mode Streaming Streaming Measure Streaming Measure o2 ORE 04 0 6 25 10 2010 25 10 2010 25 10 2010 20 06 05 20 06 20 20 06 36 Time 1 1 1 Observed values a Observed values 25 10 2010 25 10 2010 25 10 2010 20 06 05 20 06 20 20 06 36 Time The multi graph mode requires a lot of resources on
80. he technical note TN RF 007 BeanDevice DataLogger User Guide Logger System config Sleep Mode Management AllGraph 4 Logger status Logger status Aeady Download progress MA UL J Download status MA Logger manager Acquisition information Logged measure mode NA Acquisition count NA T5 naa eso e ce cxlo k The Logger tag is composed of five different fields E Logger Status Logger manager Acquisition information Logger memory configuration Logger status 10 3 4 1 Logger status Logger status Logger status Aeady Download progress MA C S S S S S S SOSS S S Download status M E Logger status Displays loggers status four status are available o Ready the Datalogger is ready to register data o MNotlnit the Datalogger is not initialized o Active logs only Data acquisition is logged only o Active Tx and Log Data acquisition is logged amp transmitted by Radio o Stopped Datalogger is stopped E Download process Displays the download process 0 to 100 If 100 all the data logs are successfully downloaded on your PC Please consider the environnement before printing this document Page 97 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines E Donwload status Displays the download status two types of status are available o Processing Data logs download is under process o Co
81. hnology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 6 TECHNICAL SPECIFICATIONS 7 6 1 Beandevice AX 3D Product reference BND AX3D MRG WP MR Measurement Range WP Wireless Technology 2 2g measurement range IEEE EEE 802 15 4 2006 10 10g measurement range 13 13g measurement range Example BND AX3D 10G IEEE Wireless Accelerometer with 10g measurement range IEEE 802 15 4 Wireless Technology Accelerometer Specifications Accelerometer technology MEMS technology triaxial accelerometer 2g Version 16384 counts g Sensitivity 10g version 3277 counts g 13g version 2521 counts g Typical non linearity 0 1 FS D 16 bits SAR architecture Successive Approximation Register with Analog to Digital converter temperature compensation 2 frequency response 3 0 to 800 Hz 2 Version 45 ug VHz Noise spectral density 10g version 100 ug VHz 13g version 100 ug VHz 2g Version 0 2 mg C 10g version 0 1 mg C 13 version 0 1 mg C Zero g Offset Variation from RT over Temp 2g Version 0 01 C XY 0 02 C Z 10g version 0 01 C 13 version 0 01 C Sensitivity Variation from RT over Temp 2g Version 4mg Offset Ratiometric Error 10g version 0 2 XY 0 1 Z 13g version 0 5 2g Version 1 25 96 X Y 0 2 96 Z Sensitivity Ratiometric Error 10g Version 1 696 X Y 0 2 Z 13g Ver
82. ines 9 5 NETWORK CONTEXT BUTTON RESTORE FACTORY SETTINGS If desired the user can perform a Network context deletion It allows to restore default parameters on the BeanDevice BeanDevice version Parameter Power Mode Data Acquisition duty cycle Acquisition duration time Sampling rate Data Acquisition mode TX Power Alarms Threshold Anti aliasing Filter cut off frequency To restore these defaults parameters you must perform a Network context deletion The Network non contact button is outside the product Hold the magnet on the button network Network for more than 2 seconds Please consider the environnement before printing this document Page 73 152 Document version 2 5 BeanDevice User Manual SmartSensor product lines Network Reed non contact button If you fix the TX power at its minimum value 7dBm and the wireless range is more than 5m you will lose the radio signal By pressing the Network Context button you can restore to factory settings default RF power is fixed at its maximum 18 dBm Please consider the environnement before printing this document Page 74 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 9 6 HOW TO CHANGE AND CALIBRATE THE PRIMARY CELL ON THE BEANDEVICE This section concerns the BeanDevice provided with an external primary cell power supply
83. is extended 40 C to 85 C instead of 20 C to 75 C v The self discharge of a primary cell is 296 year instead of 12 year for a rechargeable battery Y The capacity of a primary cell is 6500 mAh instead of 1250 mAh Please read the following section for more information about the primary cell replacement and calibration click here Please consider the environnement before printing this document Page 68 152 ea e r Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 14 3 AC To DC power adapter option The BeanDevice can also be powered by an AC to DC adapter 8 28Volts The power adapter can be used for recharging Lithium lon battery or to power supply continuously the BeanDevice A M8 3Pins standard plug is used for connecting the power adapter to the BeanDevice If battery charge is very low connect the power adapter in order to recharge your internal battery M8 3P plug IP67 Power adapter Only the M8 plug is fully sealed the power adapter is not sealed Please consider the environnement before printing this document Page 69 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 14 4 External Power supply wiring code Caption Pwr Power supply 8 28V DC Gnd Ground External power supply wiring code 2 Not used M8
84. iuseoa sas eei Sese een Dan olo dod aa sbaa Uode Ee sape Ooh do ida ne hd pes cn bua oed y eda 106 10 4 2 Sensor configuration amp calibration frame eeeeeeesssssssesesssesseeeeennnee nennen nnns 107 10 4 2 1 Tab Custom display uiri ntu ENEE Ren px ky aue ETENEE 108 PE yaad Be EN Q 110 10 4 2 3Tab Configuration BeanDevice amp AX 3D and BeanDevice HI INC 111 10 4 2 4Tab Configuration BeanDevice amp AX 3DS ssssseeeseeisssssseen nnne 112 10 4 2 5Tab Sensor amp Analog conditioning calibration seeeeesessssseeeeeeeees 117 104 26 NE sp LOJ CONN OUI AUC E 118 10 4 3 Graphical display REIR 119 Please consider the environnement before printing this document Page 6 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines IU E TRAME CE 122 10 RCE Dred nez gt cham 001010 MEER RET 122 OEE EE umero P 124 10 5 Datalogger configuration ORPHTT nnne 125 10 6 Log file amp folder organization for experienced user user cccccceeeeeeceeeeeeceeceeeesaaeeeeesaseeesseneeesaaeees 125 10 61 LOO file System OV Cl VIC EN m T TU 125 106 2 LOG TING CIRC CIONY e 125 TOCS Boobs T et e
85. k The PAN ID is pre determined and cannot be modified If you use several WSN before deploying your BeanDevice check to which WSN is assigned your BeanDevice 10 2 2 Frame Wireless Network Diagnostic Link quality indicator of the BeanDevice 0 to 255 Network Diagnostic 255 gt Excellent Network quality anBll I 0 gt bad Global FER Global Packet error rate PER represents the PER on a wireless path Not available on IEEE 802 15 4 network Local PER Local Packet error rate PER represents the PER between parent and child nodes PER Number of lost packet Total of packet transmitted Please consider the environnement before printing this document Page 85 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 2 3 Frame Internal diagnostic Internal temperature of the BeanDevice with a resolution of 0 125 C Power supply Status Main or Battery Internal diagnostic Power supply This colored led indicates the BeanDevice power Power status EE S mode status See below for more informations Battery voltage Battery voltage in Volts Battery level y Battery charge level O to 100 with a resolution of 0 01 The BeanDevice incorporates an internal temperature sensor dedicated to the following tasks Y Battery temperature monitoring during charging Y Temperature compensati
86. k on white background are customizable field LowD utu Duce Ww Please consider the environnement before printing this document Page 83 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines You can configure your BeanDevice from the page BeanDevice System Profile This page is composed of two parts Y BeanDevice information display Y BeanDevice configuration BeanScape SAA File Tools Help BeanDevice iio BeanDevice System Profile EM MAC ID Ox AABBCCDDEEFFODAA Data m Platform system profile BeanDevice RFD Reduced Function Device This part consists MAC ID Ox AABBCCDDEEFFOOBB Identity Network Diagnostic Battery Status E Ch T Ambiante s Ch T Cible Mac ld Network quality ogil m Disable discharge of a set of fr ames S MAC ID 0x AABBCCDDEEFFOODD Ban id Global PER Disable charge B R M Cn TOR Discharge over current WI th VIS ual Iza tion Net Id Local PER x Charge over current fie Id Label P Undervoltage Power Supply Diagnostic Version Temperature Overvoltage C Radio module Power supply Hard vers Power made System Soft vers Battery voltage Diagnostic cycle 00 00 00 c Prot stack Battery level Tx power EIINENM dim BeanDevice Platform Li Current data acquisition mode Custom display Notes Data Acq config System co
87. levels alarms amp 2 low levels alarms Programmable Cut off frequency 1 2000 Hz Anti aliasing filter Power Mode Sleeping Sleeping with Network Listening amp Active TX Power 7 dBm 1 dBm 5 dBm 11 dBm 15 dBm 18 dBm RF Specifications a ISM 2 4GHz 16 Channels Antenna diversity architecture designed by RF Characteristics Beanair Antenna Antenna diversity 2 omnidirectional antenna with a gain of3dBi Embedded data logger Storage capacity up to 8 000 000 data acquisition Write read cycle 400 000 Wireless data downloading 5 minutes to download the full memory average time Real Time clock and crystal Extremely Accurate Real Time Clock for measurement time stamping in Low Real Time Clock duty cycle mode 10ppm Please consider the environnement before printing this document Page 35 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Extremely accurate crystal for measurement time stamping in streaming amp Crystal streaming packet mode Tolerance 10ppm stability 10ppm Environmental and Mechanical Aluminum amp Watertight IP66 enclosure Dimensions in mm LxWxH 100 x 71 x 30 135 x 71 x 30 with antennas Weight battery included 165g Aluminum black anodized AL 7075 with rugged three point mounting Base plate The sensor module is to be mounted on a flat and smooth surface with 3 screws dimen
88. logy BeanDevice User Manual SmartSensor Document Document type User Manual User Manual product lines 7 10 BEANDEVICE HI INC amp HI INC XRANGE SENSOR CHARACTERISTICS 7 10 1 Inclinometer Block Diagram Beandevice HI INC 30 and 15 versions 5th order Wireless Inclinometer Anti aliasing Microcontroller MEMS Sensor filter 5th order Anti aliasing filter 5th order Inclinometer Anti aliasing MEMS Sensor filter X Axis 5th order Anti aliasing Temperature filter sensor Please consider the environnement before printing this document Page 51 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 10 2 Inclinometer Block Diagram Beandevice version 5th order Inclinometer Anti aliasing MEMS Sensor filter Wireless Microcontroller e a 2 o Y Axis 5th order Anti aliasing filter 16 bits ADC Temperature sensor 7 10 3 MEMS Inclinometer amp differential output The BeanDevice HI INC integrates a 3D MEMS based single axis inclinometer that uses the differential measurement principle The high calibration accuracy combines extremely low temperature dependency high resolution and low noise together with a robust sensing element design to make the BeanDevice HI INC an ideal choice for high accuracy leveling instruments The inclinometer used on the BeanDevice HI INC 15 and 3
89. mode E Ch Lux active 9 System emp oft vers attery voltage lagnostic cycle E Ch Temp 1 Sof B v Di ic cycl ddd hbomm ss MAC ID 0 x 00158D00000C97E8 E Ch Temp 1 MAC ID 0 0015800000049960 a BeanDevice m Ch X Ch Z2 l E MAC ID 0 x OO158D000007259F Current data acquisition mode 9 MAC ID 0 x 0015800000049414 amp e MAC ID OO158D0000049C72 v Ed MAC ID Ox 00158D000009072F Data Acq cycle joo0010 O del omnes Logger status Ready Logger System config Sleep Mode Management Allaraph AL Data Acq mode Logger status Component List conn Download progress NA OO Sampling rate He Download status NA JS B Data Acq duration NA ddd Abommss PAN ID 0x 0123 Server Logger manager Acquisition information Logged measure mode NA Acquisition count NA PP wre cms wae mcks AA lt Server status Started Curent data acquisition mode Data Acq made Data Acq cycle Sampling rate Data Acq duration For further information please read the technical note TN RF 008 Data acquisition modes available on the BeanDevice Please consider the environnement before printing this document Page 96 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 4 Tab DataLogger For further information about the Datalogger please read t
90. mpleted Data Logs are completely downloaded on your PC 10 3 4 2 Logger manager Logger manager Stop Stops Data Logging process Erase Stops amp Erases all the logs on flash memory Download Starts to download all the logs on the flash memory Cancel Stops the download process 10 3 5 Tab System config Data Acq contig Logger system config Sleep Mode Management Diagnostic Cycle ee Ts Power 11 dEr 7 dBm 1 dBm 5 dBm 11 dBm 15 dBm 18 dBm Please consider the environnement before printing this document Page 98 152 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines Q The following flow chart shows the effect of a higher TX power e Tx Power Increases TX Power e Wireless range will increase Wireless Range e BeanDevice Power consumption will Pwr increase consumption Q v If you fix the TX power at its minimum value 7dBm you will lose the radio link between your BeanGateway and the BeanDevice if the wireless range is more than 5m v By pressing the Network push button for more than 2s you can reset to factory settings default RF power is fixed at its maximum 18 dBm Q How to convert dBm to mW Zero dBm equals one milliwatt A 3dB increase represents roughly doubling the power which means that 3 dBm equals roughly 2 mW For a 3 dB decrease the p
91. nDevice Network non contact button Point the pole of the Neodymium magnet that was provided with your BeanDevice towards the Network label circle Hold the magnet for approximately 2s Please read the following section for more information click here This bi color GREEN RED Led represents the BeanDevice Network LED Cf table below for led description Allows to power up power off the BeanDevice ON OFF Non contact button Point the pole of the Neodymium magnet that was provided with your BeanDevice towards the ON OFF label circle refer fig 3 V1R2 only Hold the magnet for approximately 2s Please consider the environnement before printing this document Page 40 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Battery charge indicator This bi color GREEN RED Led indicates battery charge status LED Cf table below for led description 7 8 2 Leds description Operating status Network LED Battery Charge LED The BeanDevice is power down with no external power supply connected The BeanDevice is power off amp LED OFF external power supply is connected The BeanDevice is power on with Green Led Wireless Network wireless TX RX activity Activity LED OFF Red Led Wireless transmission failure Green Led ON battery charged The BeanDevice is power on Red Led ON bat
92. neeeennn nnne nnne nnne nnn nnns 151 13 3 TempErature amp Humidity Rm 151 13 4 Reflections Obstructions and Multipath lesssseeeessssseeesssseeeeeennnennnne nnnm nnns 152 135 SNOEK G VIDrallOn FesISTallG Eear a e a 152 TO FAEN e E E E E E E E E E E E E R 152 Please consider the environnement before printing this document Page 7 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Disclaimer The information contained in this document is the proprietary information of BeanAir The contents are confidential and any disclosure to persons other than the officers employees agents or subcontractors of the owner or licensee of this document without the prior written consent of BeanAir Ltd is strictly prohibited BeanAir makes every effort to ensure the quality of the information it makes available Notwithstanding the foregoing BeanAir does not make any warranty as to the information contained herein and does not accept any liability for any injury loss or damage of any kind incurred by use of or reliance upon the information BeanAir disclaims any and all responsibility for the application of the devices characterized in this document and notes that the application of the device must comply with the safety standards of the applicable country and where applicable with the relevant wiring rules Be
93. nfig AllGraph Data Acq mode Sensor channels Routing feat Data Acq cycle Type PLATFORM_TYPE Reference PLATFORM REF Label MAC ID 0 AABB Component List PAN ID Ox 2884 Server Sampling rate Data Acq duration BeanDevice configuration frame is composed of several tabs Server status Started 10 2 DISPLAYING THE BEANDEVICEG INFORMATIONS You will find below a description of the data information fields making up for each frame Please consider the environnement before printing this document Page 84 152 a Bi e Rethinking sensing technology ea nA I r BeanDevice User Manual SmartSensor Document type User Manual product lines 10 2 1 Frame Identity Data MAC Address encoded on 64 bits The Media Access Platform system profile Be Control address is an unique identifier assigned to the BeanDevice by the manufacturer for identification Identity Me al PAN Address encoded on 16 bits Personal Area Pan Id Network address Mat Id Label Network Address on 16 bits This address is allocated by the BeanGateway when you start the network BeanDevice Label By default the MAC address is registered as a Label This label can be changed by the user How the PAN ID is assigned The BeanGateway starts the WSN assigning a PAN ID Personal Area Network identifier to the networ
94. nsor Document type User Manual product lines Position of the MEMS Accelerometer Please consider the environnement before printing this document Page 58 152 Document version 2 5 7 Rethinking sensing technology ea n i r BeanDevice User Manual SmartSensor Document type User Manual product lines 7 13 MOUNTING GUIDELINES 7 13 1 Adhesive mounting instructions BeanDevice INC HI INC AX 3D AX 3DS Satin black textured polyester powder paint 7 13 1 1 Components needed for a non permanent mounting Surface treatment Aluminium Foil Use an aluminium foil offering a good breaking load Tape amp water resistant for outdoor use Example Advance Tapes Ref 196074 Thickness 0 09mm Breaking load 35 N cm Adhesion 4 N cm Water resistant High strength High Strength Epoxy Adhesive Resin Epoxy Glue Example Radiospares 159 3957 Please consider the environnement before printing this document Page 59 152 Rethinking sensing technology f e ea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines 7 13 1 2 Reference edge The Beandevice has a mounting reference angle red line for an optimal mounting of the product which is parallel to the Y axis This reference edge must be placed exactly parallel to the object to be measured to prevent or minimize any mechanical offset cross sensitivity Reference edge base plate side
95. oduct lines 13 INSTALLATION PROCEDURES 13 1 SEALING The product BeanDevice comes with an IP66 rating So do not install the BeanDevice in a marine environment with high turbulence If you use the BeanDevice AN XX TSI TH do not install the BeanDevice up front to prevent the accumulation and infiltration of water from the front of the case 13 2 COEXISTENCE WITH OTHERS FREQUENCIES AT 2 4 GHZ The BeanDevice is sensitive to noise 2 4GHz Wi Fi as a source for example but many protections are already in place particularly in the IEEE 802 15 4 It should however be careful when installing the product check all the possibilities of radio channels on the frequency range 2 4 2 5GHz The operation of the product will be improved further information read the application note AN_RF_004 Coexistence And Interferences 2 4GHz 13 3 TEMPERATURE amp HUMIDITY The BeanDevice smartsensor series comes with an operating temperature of 20 C to 65 C BeanDevice products can operate in an area with 90 humidity However the wireless range can be reduced in the presence of water Avoid mounting the BeanDevice in an enclosure surrounded by water or near bushy plants plants are composed of 90 water Please consider the environnement before printing this document Page 151 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines
96. om the users Please consider the environnement before printing this document Page 9 152 Document version 2 5 BeanDevice User Manual SmartSensor product lines Definition Caution or Warning Alerts the user with important information about BeanAir wireless sensor networks WSN if this information is not followed the equipment software may fail or malfunction Danger This information MUST be followed if not you may damage the equipment permanently or bodily injury may occur Tip or Information Provides advice and suggestions that may be useful when installing BeanAir Wireless Sensor Networks Please consider the environnement before printing this document Page 10 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 3 ACRONYMS AND ABBREVIATIONS AES Advanced Encryption Standard CCA Clear Channel Assessment CSMA CA Carrier Sense Multiple Access Collision Avoidance GTS Guaranteed Time Slot kSps Kilo samples per second LLC Logical Link Control Key Link quality indicator LDCDA Low duty cycle data acquisition MAC Media Access Control PAN Personal Area Network PER Packet error rate RF Radio Frequency SD Secure Digital Wireless sensor Network Please consider the environnement before printing this document Page 11 152 Document version 2 5 Be Rethinking sensing technology Cd nAi r BeanDevice U
97. on of the analog conditioning chain Y An alarm notification is send to the BeanGaeway if the internal temperature is anormally high When you plug the BeanDevice on an external power supply the power supply status is automatically detected If your primary cell charge level is under 596 it is highly recommended to recharge your battery Your BeanDevice from SmartSensor product lines integrates a battery charger Please consider the environnement before printing this document Page 86 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 2 3 1 BeanDevice amp Power Mode status For further information about Power mode management please read the technical note TN RF 010 BeanDevice Power Management Power Supply Diagnostic Temperature BLUE LED The BeanDevice is power off Power supply Power made Battery voltage Battery level Power Supply Diagnostic Temperature GREEN LED The BeanDevice is in sleeping with Power supply network Listening power mode Power made Battery voltage Sleeping with network listening power mode is Battery level i displayed Fower Supply Diagnostic Temperature GREEN LED The BeanDevice is in active sleeping Power supply power mode Power made Battery voltage INE Vw Sleeping power mode is displayed Please consider the environnement bef
98. ore printing this document Page 87 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Power Supply Diagnostic Power mode EE Battery voltage RED YELLOW LED The BeanDevice is in active power mode d Active mode is displayed Power supply 10 2 4 Frame System system Displays diagostic cycle in seconds battery charge status 00 00 03 internal temperature LQI PER Diagnostic cycle Tx power dEm Displays Radio TX Power in dBm antenna power is not included 10 2 5 Frame BeanDevice According to the BeanDevice version the information displayed in the frame will not be the same For example for the BeanDevice TSI BeanDevice Routing feat Sensor channels Platform NOK Routing capacity not available OK Routing capacity available Number of sensors channels BeanDevice available on the Platform model BeanDevice Routing capacity is not available on IEEE 802 15 4 protocol stack Please consider the environnement before printing this document Page 88 152 BeanDevice User Manual SmartSensor Document type User Manual product lines 10 2 6 Frame Product Version Bea n Ai r Rethinking sensing technology Radio module version BeanDevice Radio front end version Hardware version BeanDevice hardware version V
99. orresponds to the date when the streaming mode starts Measure index allows the user to use a timestamp the time value between the Index N and N 1 corresponds to the period rate Example Data acquisition starts at 17h55min05s A data acquisition with a measurement index of 30 value 0 0035 corresponds to a time 17h55min05s30ms 10 6 8 Log file related to Wireless Network diagnostic 10 6 8 1 Log filename organization Wireless Diagnostic log filename is built as follow MAC ID WirelessNetwklnfo v MAC ID BeanDevice MAC ID Y DATE date when the streaming mode starts 10 6 8 2 Log file analysis Log file related to wireless network diagnostic provides the following informations e Date diagnostic date e QI TX Link quality indicator on the BeanDevice side e QI RX Link quality indicator on the BeanGateway side Please consider the environnement before printing this document Page 132 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines e Local PER Tx Local Packet Error Rate on the BeanDevice side e Local PER Rx Local Packet Error Rate on the BeanGateway side e Global PER N A e Battery voltage internal battery voltage e Battery level battery level of charge e Internal temperature Local temperature of the BeanDevice 3 x Fichier Edition Format Affichage BeanComponent Wireless Network Information Date 5 31 2014 6 3
100. ower is reduced by about one half making 3 dBm equal to about 0 5 milliwatt To express an arbitrary power P as x dBm or go in the other direction the following equations may be used x 10log 9 1000P 10 logio P 30 and Please consider the environnement before printing this document Page 99 152 Rethinking sensing technology e ea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines P 10 1000 p 19 30 10 where P is the power in W and x is the power ratio in dBm Inside a building the maximum authorized power is 12 dBm antenna power included It is highly recommended to follow the R amp TTE guidelines For more information please visit httpz www etsi orq It is your responsibility to carefully observe the R amp TTE guidelines Please consider the environnement before printing this document Page 100 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 6 Tab Power mode management For further information about Power mode management please read the technical note TN RF 010 BeanDevice Power Management This Tab is composed of three frames v Power mode configuration Configure the Power mode on your BeanDevice v Listening Mode Status Describes the status of an OTAC Over the air Configuration v Sleep with listening config Configuration setting
101. play Notes Data Acq config System config AllGraph Data Acq mode DataAca oce EHENNEENN Type PLATFORM TYPE mmm NENNEN Sent E Reference PLATFORM REF DaaAco dwation NI Label MAC ID 0x AABB Server Server status Started File Tools Help d mo Enable measure lag MAC ID Ox At 3 Click on System Maintenance Disable measure log Reset measure memory cache For all the sensors a E es ae Display Wireless Network Information T System Maintenance e Select the label PP6_5DIWG in your scroll list This label corresponds to a battery capacity of 6500 mAh e Click on Validate e Wait for an Acknoledgment from the BeanDevice e To be sure that your Beandevice is calibrated with the right capacity value click on Display Step 6 Calibrate your primary cell from the BeanScape Page 79 152 Please consider the environnement before printing this document Rethinking sensing technology e ea nAir BeanDevice User Manual SmartSensor Document type User Manual product lines Make sure that your primary cell is a new one Don t try to re calibrate a primary cell which was already used a false battery level will be displayed BeanDevice MAC 00158D00000E00FA Reset the Reset Counter Select PP6_5DMG in your scroll list PP2_6DMG PP3_6DMG PP5 8DMG PPE 5DMG N BATO_860DMG BATO_S50DMG Validate B
102. product lines 7 8 1 BeanDevice AX 3D HI INC INC Xrange Mechanical drawing The BeanDevice AX 3D HI INC Xrange products use the same sensor housing Enclosure Features Material Protection PH Dimensions Weight 7 8 2 Antenna diversity Antenna diversity is a technique that maximizes the performance of an antenna system It allows the radio to switch between two antennas that have very low correlation between their received signals Typically this is achieved by spacing two antennas around 0 25 wavelengths apart or by using two orthogonal polarizations So if a packet is transmitted and no acknowledgement is received the radio system can switch to the other antenna for the retry with a different probability of success The diagram below provides information on the radome antenna performance ANTO Auto Decision track position mm The radome antenna radio used on BeanDevice product is a tamper resistant and unobtrusive Please consider the environnement before printing this document Page 43 152 Document version 2 5 Rethinking sensing technology BeanDevice User Manual SmartSensor Document Document type User Manual User Manual alicia lines 7 8 3 Radome antenna Electrical specifications Beandevice AX 3D AX 3DS HI INC Beandevice AX 3D HI INC Xrange OIS Size Diameter 19mm Diameter 27mm Height 11 mm Height 11 mm S11 SWR
103. r of alarms displayed on the BeanScape graph Maximum number of GPS coordinates Set here the maximum number of GPS informations S Maximum streaming points Set here the maximum number of points displayed in Streaming Streaming Packet on the BeanScape graph S File size may affect memory capacity of your computer Page 129 152 Please consider the environnement before printing this document Rethinking sensing technology e ea nAi r BeanDevice User Manual SmartSensor Document type User Manual product lines 10 6 7 Log file related to data acquisition 10 6 7 1 Log filename root For each sensor channel a log file is automatically created by the BeanScape The user can easily change the log file root Click on Log Config Tab Select the sensor channel RM mO B MAC ID 0 x Q0158D000005A373 Data Ch V O E Ch V 1 Sensor pr ofile Custom display Notes Configuration Measurement conditioning calibration Log config Ch V 2 E S MAC ID 0 x 0f GDODDODAD563 Type Rance TT Log configuration H Hz os d er ee Log filename auto _ Add label L abel Soy e Chz Technology State Mesurement data M 0 0044 easure opem Scale Observed values Component List 0 01 Auto Y i L 0 012 02 11 2011 02 11 2011 02 11 2011 02 11 2011 02 11 2011 coo oo EX 18 43 00 19 10 26 19 37 52 20 05 18 20 32 44 Auto X Zoom J
104. ration e Logs configuration on the BeanScape Please consider the environnement before printing this document Page 107 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 2 1 Tab Custom display These parameters allow the user to customize his sensor Custom display Notes Configuration Measurement canditianning calibration Log config Unit SEMSUR LIMIT Type SEMSUHRH TYPE Ref SENSUR_REF Label Ch TUR Type Describe the sensor type ex load cell pressure Strain gage 2 Mv v LVDT Unit customer sensor unit bar C I h Ratio Sensor Ratio coefficient RAT Offset Sensor Offset coefficient OFF N NS US X SN Label Give a name to your sensor ex Sensor on StatorMachine 1 sensor in Room 2 Floor 3 Measurement conversion formula Converted Measurement Measurement x RAT OFF Example with a temperature sensor By default the temperature unit is in degree Celsius The user wants to convert the unit in degree Fahrenheit Converted Measurement F Measurement C x RAT OFF With RAT 1 8 and OFF 32 Please consider the environnement before printing this document Page 108 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Conversion assistant To avoid conversion error a conversion assistant is av
105. rea Measurement is OK Shock Detection Area The user selects a high event on the axis TH_VALUE a shock is detected if the threshold value TH VALUE is reached Hysteresis The user can fix an hysteresis on threshold value Choose closely the value of the hysteresis The resolution depends on the accelerometer bandwith during sleep or deep sleep VALIDATE Click here to validate your new configuration RESET Click to restore a default configuration CANCEL Click here to cancel your configuration Please consider the environnement before printing this document Page 116 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 4 2 5 Tab Sensor amp Analog conditioning calibration These coefficients are used to calibrate the internal accelerometer inclinometer sensors Custom display Notes Configuration Measurement conditionning calibration Log contig Calibration Ratio The BeanScape provides a calibration interface for each measurement channel E Ratio multiplier coefficient E Offset adder subtracted coefficient its unit is the sensor unit Calibrated value Ratio x Non Calibrated Value Offset Enter the calibration coefficients and then click on validate The calibrations coefficients are backed up on the BeanDevice flash memory and are preserved during the lifetime of your product WARNING
106. rometer ccccccceccccccseseececccaeeeeceeccueueeceecseeueeeesseaeaeceeessaaeeeesssaaeceessseeeeeessaaeeeeeseaas 47 T93 5 order Antallasimd TEM eraren E REA a AEA 47 7 9 3 1 Why using an anti aliasing filter oo eeseeecccccsseesececessneeeccecsseeeecesssuuseeeessaseceeessssaseeesssaaes 47 7 9 3 2 Anti aliasing filter features oisi sees eese esas n nana aaa 48 Em Analog DiGiitall ONY SMC ETE o Emm 50 7 10 BeanDevice HI INC amp HI INC Xrange Sensor Characteristics ccccceeeeeeeeeeeeeeaeeeeeeeeeeeeeeeeeeeeeeees 51 7 10 1 Inclinometer Block Diagram Beandevice HI INC 30 and 15 versions 51 7 10 2 Inclinometer Block Diagram BeandeviceQ version eseeeeeeesssseseeeeennnnnennnnnnnn 52 7 10 3 MEMS Inclinometer amp differential output eeesesssessesseseeeeeeeeeenen nennen nnne 52 7 10 4 5 order Anti aliasing filter soseon esit seid ket ck SY peni UR ER Qua dE EE RP bPE PEPPER EEUU KRR SERV DpECVU aaan 53 7 10 5 Analog to digital converter cccccccsssscceceeseeeceeeececceusceeceueeecsaseceeseaseesseageeessagseesseeeesssgeesssaaeees 53 7 10 6 Accuracy CONSIGELATIONS cccccccccseeseceeeceeeeceecceeseeeeecseaeceeeceeaseeeeessaauecesesseaecessesaseeeeesaageeeeeeaas 53 7 10 7 Offset amp temperature dependencies ccccccccccsesseceeceeeeeceeecsaeeeeeeecseaeeceeeseeaeeeeesseaeeeeeessageeeeeeeas 53 7 11
107. s for Sleep with network listening System config Power made management Datalogger Power made configuration Active Sleep C3 Sleep with nwk listening Ratio 5 2 00 00 50 Listening Mode Status Ratio BR 00 0050 Waiting Serit Deleted Config frame is Datalogger System config Power mode management C3 Sleep with nwk listening eu Ratio 5 00 00 50 Listening Mode Status Ratio MANN 00 00 50 Wi ating Sent Deleted Contig frame is Sleep mode with listening config Waiting contig frame deletion Validate lt Please consider the environnement before printing this document Page 101 152 Document version 2 5 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Power mode configuration Listening mode status Sleep with network listening config Active Sleeping mode is disabled The BeanDevice operates in Active power mode Sleep Sleeping mode is enabled Sleep with nwk listening Sleep with network listening mode is enabled Ratio Fix the Ratio of the listening cycle This ratio depends on the data acquisition low duty cycle Ratio displays the latest Ratio value Waiting This led is green if an OTAC Over the Air configuration frame is pending for a transmission to the BeanDevice Sent This led is green if an OTAC Over the Air configuration frame is transmitt
108. ser Manual SmartSensor Document type User Manual product lines 4 RELATED DOCUMENTS amp VIDEOS In addition to this User manual please consult the related application notes technical notes and videos 4 1 APPLICATIONS NOTES Document name Click on the weblink Related product AN RF 007 Beanair WSN Deployment All BeanAir products Wireless sensor networks deployment guidelines AN RF 006 How to extend your All BeanAir products A guideline very useful for extending your wireless range wireless range AN RF 005 BeanGateway amp Data BeanGateway DTE interface Architecture on the Terminal Equipment Interface BeanGateway All BeanAir products Coexistence amp interferences of different RF AN RF 004 Coexistence And technologies in the 2 4 GHz frequencies band Interferences 2 4GHz AN_RF 003 IEEE 802 15 4 2 4 GHz Vs All BeanAir products Comparison between 868 MHz frequency 868 MHz band and a 2 4 GHz frequency band AN RF 002 Structural Health All BeanAir products The aim of this document is to overview monitoring on bridges Beanair products suited for bridge monitoring their deployment as well as their Capacity and limits by overviewing various data acquisition modes available on each BeanDevice Please consider the environnement before printing this document Page 12 152 Document version 2 5 e 7 u mim e Rethinking sensing technology Bea nAi r BeanDe
109. sion 1 6 X Y 0 2 96 Z Cross Axis Sensitivity Please consider the environnement before printing this document Page 25 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines Butterworth 5 order filter cut off frequency 1 Hz to 2000 Hz remotely programmable BeanScape Anti aliasing filter Over the air configuration OTAC parameters Low Duty Cycle Data Acquisition LDCDA Mode 1s to 24 hour Data Acquisition mode SPS Alarm amp Survey mode 1s to 24 hour sample per second Streaming Packet Mode Streaming Mode Minimum 1 SPS Sampling Rate in streaming Maximum 3 kSPS per axis one axis activated packet mode 1 5 kSPS per axis 2 axis activated 1 kSPS per axis 3 axis activated Alarm Threshold 2 high levels alarms amp 2 low levels alarms Programmable Cut off frequency 1 2000 Hz Anti aliasing filter Power Mode Sleeping Sleeping with Network Listening amp Active TX Power 7 dBm 1 dBm 5 dBm 11 dBm 15 dBm 18 dBm RF Specifications ISM 2 4GHz 16 Channels Antenna diversity architecture designed by RF Characteristics Beanair Antenna Antena diversity omnidirectional antenna with again of 22 dBi Embedded Data logger Storage capacity up to 1 000 000 data acquisition Write read cycle 400 000 Wireless data downloading 3 minutes to download the full memory average time Real Time clock and
110. sion M5 Mounting torque 5 1Nm Operating Temperature 20 C to 65 C CE Labelling Directive R amp TTE Radio ETSI EN 300 328 ROHS Directive 2002 95 EC Power supply Integrated Lithium ion battery charger with high precision battery monitoring integrated batten charreer Overvoltage rotes Overcurrent Short Circuit Protection Undervoltage Protection Battery Temperature monitoring Current accumulation measurement During data acquisition 20 to 30 mA Current consumption 3 3V During Radio transmission 40 mA OdBm 80 mA 18 dBm During sleeping lt 30 WA External power supply External power supply 8v to 28v High density Lithium lon rechargeable battery with a capacity of 1550 mAh l Rechdiged iP SaRteny referenced as BAT1 55DMG Option s SOIRS bloc Wall plug in Switchmode power Supply 12V 9 1 25A with sealed M8 Plug IP67 Calibration certificate Calibration certificate provided by Beanair A static calibration method is used on a granite surface plate DIN876 Please consider the environnement before printing this document Page 36 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 6 5 Beandevice HI INC XRange Product reference BND HI INC MR XR PS WP MR Measurement Range PS Power supply 15M mono axial 15 RB Internal rechargeable battery 15B bi axial 15 XT External Primary cell 3
111. sor Document type User Manual product lines BESSEL BUTTERWORTH CHEBYSHEV y ELLIPTIC The Butterworth filter used on the BeanDevice Smartsensor product lines has the flattest passband region meaning it has the least attenuation over the desired frequency range The Bessel filter has a more gradual roll off but its key advantage is that it has a linear phase response meaning each frequency component is delayed by an equal amount of time as it passes through the filter A linear phase response is often specified as a constant group delay since group delay is defined as the derivative of the phase response with respect to frequency The Chebyshev filter has a steeper rolloff but more ripple in the passband The Elliptic filter has the steepest rolloff For a simple anti aliasing filter often times a simple single pole passive RC filter is acceptable In other cases an active filter works well One advantage of an active filter is that for multi order filters the operation of the filter is less sensitive to the values of the external components in particular the Q value of the filter 7 9 3 2 Anti aliasing filter features ype of Lowpass filter 5 th Butterworth response otal harmonic distortion plus Noise THD N 81 dB ypical Harmonic Distortion 86 4 dB utoff frequency or corner frequency onfigurable from the BeanScape AX 3D 0 2 KHz AX HD 0 2 KHz I INC 0a 60 Hz Please consider the environnem
112. sor Document type User Manual product lines Environmental and Mechanical Aluminum amp Watertight IP66 enclosure Dimensions in mm LxWxH 100 x 71 x 30 135 x 71 x 30 with antennas Weight battery included 165g Aluminum black anodized AL 7075 with rugged three point mounting Base plate The sensor module is to be mounted on a flat and smooth surface with 3 screws dimension M5 Mounting torque 5 1Nm Es Power supply Integrated Lithium ion battery charger with high precision battery monitoring Overvoltage Protection Overcurrent Short Circuit Protection Integrated battery charger Undervoltage Protection Battery Temperature monitoring Current accumulation measurement During data acquisition 20 to 30 mA Current consumption 3 3V During Radio transmission 40 mA OdBm 80 mA 18 dBm During sleeping lt 30 uA External power supply External power supply 8v to 28v High density Lithium Ion rechargeable battery with a capacity of 1 35 Ah Recharge aie Battery referenced as BAT1 35DMG option s SY A with sealed M8 Pl Power supply bloc tid ad in Switchmode power Supply 12V 1 25A with sealed M8 Plug Calibration certificate provided by Beanair A static calibration method is used on a granite surface plate DIN876 Calibration certificate Please consider the environnement before printing this document Page 38 152 Rethinking sensing technology f e ea nAi r BeanDevice
113. ssssseeeee nennen nnnnnnnn nnne nnns snnaa nnn n sensisse sa sans snis sana ann nns 66 7 14 1 Integrated Lithium ion Rechargeable battery cccccccccccceeceeseeceeeseeeeeeeeeseeeeeeeeeseeeeeeeeeseeneeeeeneas 66 7 14 2 External Primary cell option ccccccsesccccsseeeeceeeeeeeeeeeeeeseeeeeeeseaseeeseaeeeeeseeeeeseeeeesseeeesaeeeeesaaees 67 7 14 2 1Primary cell specifications sees sese seen 67 7 14 2 2Main advantages of primary cell eese essen nhan nnns 68 7 14 3 AC To DC power adapter option ssseeeesseesssesseeenen nnne nnn nennen nena nnns 69 7 14 4 External Power supply wiring code eessssseessseseseeeee nnne nnne nennen nnne nna nnn nnn 70 Please consider the environnement before printing this document Page 5 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 8 DATA ACQUISITION MODE DESCRIPTION ccccccccccccecceeeeeeeeeeaessessssecececeeeeeeeeeeeeeaeaeaaasseeeeeeeeeeeeeeeess 71 9 BEANDEVICE DEPLOYMENT GUIDELINE ccccccccccccceeeeeeeeeeeeeesessseeececeeeeeeeeseeeeeeaeaeasseeeseeeeeeeeeeeess 72 9 1 Power Mode Management ccccccccssseseceecceesecceeceeeseceeeeeaeeeeeeceeeaeeeesseaueeeeesseaaeceeessaaaeeeeessaageeesessagess 72 9 2 BeanDevice Network Association sssssssssseesssesseeennn nenn
114. sssssessssssesseee nennen nennen nennen nnn nnn nnns 137 11 2 2 Level 2 Sensor calibration parameters eeeeeseissssssssessseeeeeeeeennnnnn nenne nennen nnns 138 11 2 3 Level 3 Network maintenance only for expert in wireless sensor networks 139 11 2 4 Level 4 Primary cell Rechargeable battery calibration ssseeesseesseesessssss 139 11 3 Network diagnostic from your BeanScapeQ software cccccseeeeceeeeeeeeeeeceeeeeeeeseaeeeeeeesaeeeeeeesseaeeeess 140 11 3 1 Displaying Network information eeeesssssessssseseeeeeeeenn nennen nnnm nnn nnn nnn 140 11 3 1 System maintenance eeesssssssssssssssssseeeeeeenne nennen nnn nns nnai nnn rss sna anne isses anri ss esa sas ssi nans 143 11 3 1 Scrolling menu BeanSensor seesssssssssssssessssseeeseennnn nnne nennen nnn nnns sns sanari nn 145 EESNBEUBI lo zue Hopm TEE 146 mo NL FINT TE 146 11 3 1 3Open the graph in a new window ssssssseseessseses nennen nnns nnn hann nnn sna aan 147 I MNILSSIBICIJGSUc e c 149 19 INSTALEATION PROGCEDUNTES ctio testet ocio Pinnae iaaa Ys bbot ausis kanae iapa es bust acetum esae studies 151 5n a coU T E 151 13 2 Coexistence With others Frequencies at 2 4 GHz eeesssseesssssssseese
115. stabilization Laser level rotation Slope measurement Building infrastructure amp construction Cil drilling Axial rotor measurement Please consider the environnement before printing this document Page 21 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 3 BEANDEVICEG AX 3DS WIRELESS SHOCK SENSOR 7 3 1 Featured video Click here to see our featured video 7 3 1 Main features WEE TFI fRondevice Wireless tri axis accelerometer actu Tranh Acierameter Tor an Aecelerome Scalable measurement range two versions r arnt 6g 12g 24g or 2g 4g 8g Excellent radio link thanks to the antenna diversity developed bul by Beanair Advanced and smart shock detection Non contact actuation for faster installation Maximum sampling rate 3 KSPS maximum Maximum radio range 500 m L O S Ultra Low Power Radio Technology IEEE 802 15 4 Current consumption during deep sleeping mode 28 uA Embedded Data Logger upto 1 million data points Entirely autonomous system with an integrated Lithium lon battery charger Watertight aluminium enclosure IP66 dimensions LxWxH 80x5b5x21mm weight 135g rechargeable battery included suitable for Harsh Industrial Environment 7 3 2 Applications Health and usage monitoring systems HUMS Shock measurement on vehicles amp trains Transportation Monitoring Drop testing
116. ta acquisition mode Please consider the environnement before printing this document Page 55 152 Document version 2 5 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 11 3 Beandevice current consumption in sleeping mode with SSD activated Smart shock detection When SSD is activated the BeanDevice will wake up if a shock is detected During the sleeping mode of the BeanDevice the sensor will continu to track a shock event Depending on the sampling rate of the accelerometer during sleeping the BeanDevice current consumption can change Accelerometer sampling rate during sleeping BeanDevice Current consumption 21 uA 31 uA 50 uA 78 PA 130 uA 302 uA 308 pA 343uA 1000 Hz 413 uA further information about the SSD Smart Shock Detection measurement mode read the technical note TN_RF_008 Data acquisition modes available on the BeanDevice Please consider the environnement before printing this document Page 56 152 Document version 2 5 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines 7 12 SENSOR POSITION INSIDE THE CASING 7 12 1 BeanDevice AX 3D MEMS Accelerometer Please consider the environnement before printing this document Page 57 152 Rethinking sensing technology BeanDevice User Manual SmartSe
117. tedexneeaaneseaetadelaenes 17 7 1 BeanDevice AX 3D ssssssssseeessssssseeennn nennen nnnnnnain nnn AEE EEN ERREEN NEE AaRON aE Saaai nE snas aa nnns 18 Fil Fea UO GIC CO eana E E E A 18 rm EM ST O ea thence mnaciabanacscesmansbakqassiniiatakuiaannnmauseehevaniasmnsveamaaneemantbelaaesurels 18 Li PEPON eea U E t 18 7 2 BeanDevice HI INC Wireless Inclinometer ssseseesessessseeeeeennnnnnnnnnnnnnnnn nnne 20 Lel Feared VOCO E e 20 7 2 2 Main features NNEREERRCE 20 F23 ee eue RE erm 21 7 3 BeanDevice AX 3DS Wireless shock sensor ssseessesssssssseeeeee enne nnne nnns 22 EON MM Feie oot 22 FORME ub ul s 22 L32 eo ecu ORT 22 7 4 BeanDevice AX 3D XRange High Performance Wireless ACCELEROMETER ssss 23 T4 1 RealuledWide0 edente nique n dqnebuidesiu ee nci iie tuit an E olet Ben e Die eee 23 TA Main TAGS TOt EE R E E E 23 7 5 BeanDevice HI INC Xrange High performance wireless inclinometer eesesussssse 24 7 5 1 Main features MM 24 7 0 VECNMICA SPSCIICATIONS E N Ae 25 TO BEANO C on A p EES 25 16 2 BEANIACVICED AX SDS 28 I5 gE ue7e uAuio
118. tery not Green led toggling charged The BeanDevice is power off was power on before RED LED ON during 2s Please consider the environnement before printing this document Page 41 152 Rethinking sensing technology eanAir BeanDevice User Manual SmartSensor Document type User Manual product lines 7 89 3 BeanDevice AX 3DS AX 3D HI INC INC Mechanical drawing The BeanDevice AX 3DS AX 3D HI INC INC products use the same sensor housing Enclosure Features L I h 80x55x21 mm 135g battery included Dimensional Drawing BeanDevice AX 3D i 1 150 in Daughter board under the lid nina Q m Al AA 970 i e Q MM B SECTION B B Top View of Assembly End View of Assembly 150 m T Wat Th chmac Mother board at 0153 wj the bottom of the case i 1 50 mm 0 059 in 290 m L 0 114 in OD ewm 7 82 ej F wl ig me Fey RR 2 580 in rhe P 2529 Aa ES fmt x ey 2 xo o o A T a Io 52 DO re 4349 mm 12047 e 1406 nj ume 11535 in nw Jn To P 19 i 70 OU 19 4 00 etm S P 0 164 i View Looking Inside Lid Top View Looking Inside Box 3 54 Thseaded Howes gt BeanAir www beanair com 08 03 2010 Page 42 152 Please consider the environnement before printing this document Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual
119. tion procedures Document version 2 5 BeanDevice User Manual SmartSensor Page 16 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 BEANDEVICE PRODUCT OVERVIEW v Itis highly recommended to read all the user manual related to BeanAir software amp equipment BeanScape BeanGateway BeanDevice before getting start your BeanDevice Y Use only accessories supplied by BeanAir batteries power supply unit and antenna Use of other materials may damage the BeanDevice v Only BeanAir is qualified to make changes on the BeanDevice Y Don t try to remove the adhesive label on the product it contains important information such as the MAC address or sensor measurement range BeanDevice Smart sensor product lines were designed by our R amp D team in order to be adapted for shock acceleration vibration oscillation measurement in harsh industrial environment Please consider the environnement before printing this document Page 17 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 1 BEANDEVICE AX 3D 7 1 1 Featured video Click here 7 1 2 Main features Main Features Wireless Tri axis accelerometer based on MEMS Technology Measurement range 2g 10g Very Low noise Density 45 ug VHz 42g version 100 ug VHz 10g version E
120. u appearing BeanScape BeanScape Tl Toole MAC ID 0 x 00158D0000077802 i Ch X Ch Y Ecz S MAC ID 0 x 00158D000007780F m Ch Temp 0 PAN ID 0 x 1101 PAN ID 0x 1101 By clicking on the scrolling menu BeanSensor you can access to the following features Page 145 152 Please consider the environnement before printing this document Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 11 3 1 1 Disable Enable log All the data received on the BeanScape are stored in a log file in CSV format This feature allows you to enable disable data logging on your log file File Tools Help Disable log Buffer Reset p B Open Ehe graph in a new window BeanScape Fille Tools Help FERI MAC ID 0x00 Buffer Reset MES Open the graph in a new window i C zi X For further information about CSV log file please read the BeanScape user manual 11 3 1 2 Buffer reset This function clears the graphical display concerning recorded measurements of your sensor The data stored in a log are not affected by this function By clicking on Buffer reset a second window appears asking you to confirm your choice EK Yes you accept to delete the whole measure data of this BeanSensor E No don t delete the whole measure data of this BeanSensor File Tools Help i CN e Disable lag m
121. ument Page 93 152 Document version 2 5 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 10 3 3 Tab Data Acquisition configuration Custom display Notes Data Acq contig Logger System config Slee Data acquisition mode configuratian Data Acq made Data Acg cycle dod hhanm ss Sampling Hate B H Data Acq duration gia hharmmoss Continuous Monitoring Data acquisition mode configuration DataLogger options Parameter Description Low duty cycle data acquisition is adapted for static measurement tilt pressure Low duty cycle temperature requiring a low power consumption on your BeanDevice The duty Data Acquisition cycle can be configured between 1 data acquisition amp transmission per second to 1 LDCDA data acquisition amp transmission per day Data acquisitions are transmitted by radio whenever an alarm threshold fixed by the user is reached 4 alarms threshold levels High Low Survey mode is a mix between the LDCDA mode and Alarm mode A data acquisition is transmitted Whenever an alarm threshold fixed by the user is reached 4 alarm threshold levels High Low A transmission cycle is reached the transmission cycle is configurable through the BeanScape 1s to 24h Data Acquisition mode Streaming Packet Streaming packet is more suitable for users requiring a hi
122. version 2 5 BeanDevice User Manual SmartSensor product lines Document type User Manual The following table gives you a list of recommendations in order to extend the battery autonomy of your BeanDevice Influence factors on Observations Recommendations battery lifetime Sleeping power mode can be configured By activating this power mode on your Sleeping power mode on your BeanDevice Sampling rate in streaming mode TX Power Packet Error Rate PER on the BeanDevice from the BeanScape Power consumption will grow with the sampling rate Power consumption will grow with the TX Power A high packet error rate can cause a higher retransmission data and this increase the current consumption BeanDevice you will increase the battery autonomy of your BeanDevice By activating sleeping power mode the BeanDevice current consumption can decrease from 30 mA to 10 45 micro amperes For further information please read the technical note TN RF 010 BeanDevice Power Management Choose the right sampling rate on your BeanScape interface If your wireless range is low try to use a lower TX Power Try to replace your BeanDevice in an area where the radio link is much better see Link Quality Indicator value 11 2 OVER THE AIR CONFIGURATION OTAC PARAMETERS BACKED UP ON FLASH The BeanDevice integrates an internal flash memory used for backing up OTAC Over the air
123. vice User Manual SmartSensor Document type User Manual product lines 4 2 TECHNICAL NOTES Document name Affected product Description Click on the weblink TN RF 010 BeanDevice Power All the BeanDevice This technical note describes the sleeping Management amp active power mode on the BeanDevice TN RF 009 BeanGateway BeanGateway BeanGateway integration on a LAN management on LAN infrastructure infrastructure TN RF 008 Data acquisition modes All the BeanDevice Data acquisition modes available on the available on the BeanDevice BeanDevice TN RF 007 BeanDevice All the BeanDevice This document presents the DataLogger DataLogger User Guide feature on the BeanDevice TN RF 006 WSN Association All the BeanDevice Description of the BeanDevice network process association TN RF 005 Pulse counter amp binary BeanDevice SUN BN This document presents Pulse counter ex data acquisition on the BeanDevice energy metering application and binary SUN BN data acquisition features on the BeanDevice SUN BN Technical description of the Ambient light JUN sensor available on the BeanDevice SUN F 4 1 1 BeanDevice SUN XX N RF 00 Ambient Light Sensor XX products technical specifications Ecosensor RF TN 003 Aggregation capacity All the products Network capacity characterization of of wireless sensor networks Beanair Wireless Sensor Networks RF TN 002 V1 0
124. xcellent radio link thanks to the radio antenna diversity developed by BeanAir Maximum sampling rate 3 KSPS TimeSync function Time Synchronization through wireless sensor network Maximum Radio Range 500 m L O S Ultra Power Radio Technology IEEE 802 15 4 Current consumption in idle mode 30 uA Embedded logger up to 1 million data points with events dating Entirely autonomous system with an integrated Lithium lon battery charger Anti aliasing Butterworth filter 5 order with a cut off frequency of 1 Hz to 2 KHz remotely programmable from the BeanScape Watertight aluminum enclosure IP66 dimensions Lxlxh 80x55x21 mm weight 145g rechargeable battery included suitable for Harsh Industrial Environment T 1 3 Applications Yv Dynamic measurement on embedded equipment Y Vibration analysis v Inertial measurement Please consider the environnement before printing this document Page 18 152 Document version 2 5 Rethinking sensing technology nAir BeanDevice User Manual SmartSensor Document type User Manual product lines v Movement and Shock detection v Structural health monitoring Please consider the environnement before printing this document Page 19 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 7 2 BEANDEVICE HI INC WIRELESS INCLINOMETER 7 2 1 Featured video Click here 7 2 2
125. your computer it is recommended to install the BeanScape software on a powerful computer Please consider the environnement before printing this document Page 148 152 Rethinking sensing technology BeanDevice User Manual SmartSensor Document type User Manual product lines 12 TROUBLESHOOTING Y Why the Red LED is flashing Each time a packet is lost by the BeanDevice Nwk Activity led will blink in red Try to decrease the wireless range between the BeanGateway and the BeanDevice Y Why the BeanDevice LEDS are not activated If there is no wireless network activity the led will be inactive Make sure you have powered your BeanDevice with a charged battery v What should do if interference is present on the radio channel Please turn off your BeanDevice and then choose an appropriate channel The channel selection is done from the BeanGateway 9 For further information please Read BeanGateway User s Manual BeanGateway Y Why the BeanDevice does not provide the right measurement value Check if your sensor channel is activated on your BeanScape interface ON Position Check if your BeanDevice is powered up Check your LAI quality if your LOI is under 50 60 You must change your antenna position or your product position Check your data acquisition mode maybe you have specified a data acquisition which is too long gt If you use a BeanDevice AN XX Check your sensor
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