TN_RF_008
Contents
1. Please consider the environnement before printing this document Page 94 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 13 1 STREAMING DATA ACQUISITION MODE WITH SLEEPING POWER MANAGEMENT Y Perform a data ves acquisition Perform Nwk Diag Yes l Transmit Nwk Log the data Diag No acquisition LE No ss Transmit the Data acquisition Please consider the environnement before printing this document Page 95 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 13 2 STREAMING PACKET DATA ACQUISITION MODE WITH SLEEPING POWER MANAGEMENT Performa data acquisition and bufferise Y No No Yes No Yes Transmit the Data acquisition by packet Perform Nwk Diag Transmit Nwk Log the data Diag acquisition Please consider the environnement before printing this document Page 96 102 Rethinking sensing technology Document version 1 5 Data acquisition modes avail2. Streaming Streaming Packet data acquisition confiquration tab Please consider the environnement before printing this document Page 53 102 e A Rethinking sensing technology Document version 1 5 R P Bea nAI r Data acquisition modes available Document Type Technical note on the BeanDevice Streaming Streaming Packet status window Curent data acquisition mode Data Acq mode Data Acq cycle Sampling rate Data Acq duration Timeout Commissioning Parameters Description Select the Data acquisition cycle between 1s and 24hours The format is Day Hour Minute Second Select the sampling rate of your BeanDevice between 1 sample per second and 3000 acquisition samples s maximum depending on the BeanDevice product used The resolution is 1 sample per second Choose carefully the sampling rate value Y The PER Packet Error Rate may increase if a high sampling rate value is settled on Sampling rate your BeanDevice For further information read the technical note RF TN 003 Aggregation capacity of wireless sensor networks Y Power consumption increases with the sampling rate Please consider the environnement before printing this document Page 54 102 e A Rethinking sensing technology Document version 1 5 i n R Fd m B eda nAi r Data acquisition modes available Document Type Technical note on the Bea
3. Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 3 SURVEY MODE If the alarms thresholds H1 H2 L1 L2 are not well defined you can end up with spurious and untimely alarms Do not forget to properly configure the alarms thresholds before starting the alarm mode Read the section Alarm threshold configuration from the BeanScape 12 3 1 Survey mode configuration Data Acq config Logger System config Sleep Mode Manage Data acquisition made configuration Validate Data Acq made Data Acq cycle Sampling Hate Transmission ratio Options Tx Only Ts amp Lag Page 67 102 Please consider the environnement before printing this document Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Notes Data Acq config Logger System config Sleep Mode Manage Data acquisition mode canfiquratian Data Acq made Data Acq cycle ug WATS Sampling Hate e Transmission ratio Continuous Monitoring Options Tx Only Log Only Ts amp Log Choose Survey Enter a Data acquisition cycle of 20s Enter a transmission ratio of 5 Choose the Datalogger option here TX and Log Click on validate to enable your new configurati
4. Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 6 1 SSD data acquisition mode with a survey cycle Ex The Beandevice should be configured as follow e SSD data acquisition mode e Asampling rate of 50 Hz after a shock detection e Asurvey cycle of 1 minute e A data acquisition duration of 10s after a shock detection Data OPC Platform system profile BeanDevice RFD Reduced Function Device Identity Network Diagnostic Battery Status Mac ld IER Network quality 5 Disable discharge ron BENE ooa PE Potaa fouration wei RENI Local PEF Lo 000015001 Request sent p Supply Data acquisition mode Mode Shock Detection ea ii Data acquisition cycle 00 01 00 Version Temperat Sampling rate 50 Hz Data acquisition duration 00 00 10 Radio module Power Module div aril Power supp Hard vers ULM Power mod Soft vers ULM Battery voltac Prot stack ESSERPEERGINEM Battery leve BeanDevice N Routingfeat ME Curent data acquisition mode Data Acq mode Shock Detection Data acquisition mode configurado Survey Acq cycle Ck MEN Data Acq mode Shock Detection Validate Sampling rate Survey Acq cyce 1 dzhh mm ss Event acq duration EE Hz Tx Log Q Q v0 audhhmm ss No survey cycle Log Only Tx amp Log Please consider the environnement before
5. nene 9 43 Related VIOGOS soiseid ni RE E RE neE ual mune cu dasknsiM er RandxHunE RENE 10 5 AIM OF THE DOC UIMEIND 12 6 ADVANTAGES amp LIMITS OF EACH DATA ACQUISITION MODE emi 13 7 DATA ACQUISITION MODE AVAILABLE ON THE BEANDEVICEG cccccccccssssseeeeeeeeeeeeeeeeeeeeeees 14 Meo cucuedzidl 15 ol OND Scene serge sec eeaand E sence eo ageeseesdecnbese E A 15 8 2 Low duty cycle Data Acquisition LDCDA cccccccseeeeceeceeeeeeeeeeeeeeeceeessaeeseeeeeseaeseeeessaaaeeeeesaaaees 15 Ove I ROCSSS CS CO OM EIU 15 occ Dag AGQUISINOM CY Cle sc inevnnsacievedettancadsitatoenedhsnaVeanssenehedtdieuchettsusdmothinuhenss ERAS 17 03 Ald NOO Esiin 17 8 3 1 Process description cccccccccseseececcceeeeeceecceeeseceeeceeeeceeesaeaeeeesssaaueeeeseseaeeeeesseaaeeeeesssageeeeesaas 17 8 3 1 Data acquisition cycle sees eene nnne nnne nennen nnns nnns nnn nnn n nnns 19 Oe SOUCY OS NNE E H 20 Bel Process GSS CHOON seeiis aeei cade ned ienewa steals AAE ERSE DRR 20 8 4 2 Data acquisition CY Cle m 21 8 5 Streaming amp Streaming packet mode ccccccceeeseeccceeeeceeeeeeeeeeeeeeseeeeseeceeeeeesseeeeeeeeeeeesseeeaeeeeeeeeeeaaas 22 Car Focos CSS CHO UON PERPE EET 22 Crowe INIASIEDIBIEE Samping Lae sosiaa a aadieutrmt
6. 8 5 STREAMING amp STREAMING PACKET MODE 8 5 1 Process description Streaming amp Streaming Packet mode are dedicated to dynamic data acquisition vibration strain gage deformation acceleration v Streaming Packet is more suitable for users requiring a high data sampling rate maximum sampling rate is 3 KSps In order to achieve these performances data sampling are transmitted by packet v Streaming is more suitable for users requiring a real time data transmission with a time response under 10ms Sampling rate value depends highly on the number of sensor channels activated For completing this type of data acquisition the BeanDevice provides others options Y Continuous monitoring option data acquisition is transmitted to the Beangateway in a continuous flow rate This mode is adapted for continuous monitoring on machines v Burst option data acquisition is transmitted to the Beangateway in a burst flow rate v One Shot option data acquisition is transmitted to the BeanGateway during a period time then the BeanDevice enters into commissioning mode Please consider the environnement before printing this document Page 22 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 5 1 1 Streaming Packet with continuous monitoring option Streaming packet mode with c
7. 12 4 1 Streaming mode configuration with continuous monitoring option Ex The Beandevice is configured in streaming mode with a sampling rate of 100 Hz Continuous monitoring and Tx options are enabled Proceed as follows Please consider the environnement before printing this document Page 70 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Choose Streaming Packet Enter a sampling rate of 100 Hz Select Tx option Check Continuous monitoring Click on validate to enable your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 71 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available on the BeanDevice 12 4 1 Streaming Mode configuration with one shot option Ex The Beandevice is configured in streaming data acquisition mode with a sampling rate of 100 Hz One shot and Tx options are enabled Curent data acquisition mode Data Acg mode Streaming Data Ag cycle n IDEEN aed Aas Sampling rate Data Acq config 700 Dalda dur sii iut AO
8. Please consider the environnement before printing this document Page 28 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice v Step 6 The BeanDevice goes to sleep power mode if sleep mode sleep with network listening powe mode is enabled 8 5 2 Maximum sampling rate The following table describes the maximum sampling rate depending on the number of sensor channels activated BeanDevice Model BeanDevice AX 3D BeanDevice AX 3D BeanDevice HI BeanDevice BeanDevice XRange INC amp INC amp HI INC AX 3DS AN V AN mV AN 420 Xrange Data Acquisition mode Streaming Streaming mode Streaming Streaming mode Streaming Streaming gt Streaming O v mode o o Streaming Streaming mode bud 100 SPS 100 SPS 100 SPS 100 SPS 100 SPS 100 SPS 2 1 5 KSPS 100 SPS 1 5 KSPS 100 SPS Channels 3 1 KSPS 100 SPS 1 KSPS 100 SPS Channels 4 Channels Take notice 1 KSPS 1Ksamples per second with a resolution of 16 bits Streaming mode The WSN comes with the following restrictions Y Data acquisition duration must be lower than data acquisition cycle The BeanDevice settles a margin of 10s between these two parameters b Streaming amp Streaming Packet mode PER Packet Error Rate will increase proportionately with the sampling rate mainly if several BeanDevice are connected on th
9. air Label chz Technology State Mesurement data vu ENEEE o ENENEEENN Measure 0 0029 Measure reading Mode LowDutyCycle Observed values Component List gg 02 11 2011 02 11 2011 02 11 2011 02 11 2011 02 11 2011 18 43 00 18 52 38 18 02 16 18 11 54 19 21 32 Custom display Notes Configuration Measurement conditionning calibration Log config validate Alarm threshold configuration maL ee Please consider the environnement before printing this document Page 58 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 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 If the 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 11 2 3 Sensor alarms window The BeanScape provides user a detailed and neatly viewed alarm list four user configurable alarms Up Down A real time diagnostic alarm is generated by the BeanAir expert system E Se
10. 1 5 S ea nAi r Data acquisition modes available Document Type Technical note on the BeanDevice 12 1 2 Graph visualization The graph displays all the data acquisition in Low Duty cycle Graph corresponding to Low Duty Cycle Latest data acquisition value and date acquisition mode BeanScape File Tools Help BeanSensor idw Sg MAC ID 0 x O01S8D00000449F3 0 Ch V D Nustom dijay Motes Configuration Measurement conditionning calibratic Offset o Type SENSOR TYPE NENSOR RAN Lebe nx MENASE gt Component List E PAN ID Ox 0146 Please consider the environnement before printing this document Page 64 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 2 ALARM MODE If the alarms thresholds H1 H2 L1 L2 are not well defined you can end up with spurious and untimely alarms Do not forget to properly configure the alarms thresholds before starting the alarm mode Read the section Alarm threshold configuration from the BeanScape 9 12 2 1 Alarm mode configuration Ex The Beandevice must be configured in Alarm data acquisition mode with a Data acquisition cycle of 10s Proceed as follows Current data acquisition mode Custom display Notes Data Acq config Logger System config Sle
11. 5 A Network diagnostic is performed and transmitted to the BeanGateway depending on diagnostic cycle defined by the user v Step 6 The BeanDevice goes to Commissioning mode and will wait for a new OTAC request Please consider the environnement before printing this document Page 24 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 5 1 3 Streaming packet mode with Burst option E Streaming Packet Mode with burst option Sample n 1 Sample n 2 Sample n 3 Sample n x gt L B B L L m m L m m E a The BeanDevice operates as follows gt t v Step 1 A data acquisition is performed with a high sampling rate and then buffered v Step 2 If data logger option is enabled the data acquisition is backed up on the Beandevice Data logger Y Step 3 If Wireless transmission option is enabled If data buffer is full a data packet is transmitted to the BeanGateway v Step 4 Step 1to Step 3 are repeated until the sampling duration is completed v Step 5 A Network diagnostic is performed and transmitted to the BeanGateway depending on diagnostic cycle defined by the user v Step 6 The BeanDevice goes to sleep power mode if sleep mode sleep with network listening powe mode is enabled Please consider the environnement before printing this d
12. 7 1 Step 1 Build your multicast group 1 Click on your BeanGateway profile 2 Click on Multicasting Tab 3 Click on the scroll list and select the BeanDevice which should be added to the Multicast group W Penso UN FS uU 3 COME eax File Serv Tools BeanGateway Help du uE amp 8i MAC Nx 00158D00000E04C3 BeanGateway profile Identity onfiguration Battery Status Mack Ei ver EERE Disable discharge Pon id EO Radio chants Disable charge Net id NEN Used RF channels Discharge over current Q9 label DERE Charge over current Q Undervottage Version Power Supply Diagnostic Overvoltage Q Hod ves MERE Tempercture ENENMEMI sot ves E Power sch ERNEEEM Otic cyce TM Power mode INN O Beep sound Maci BERERNMS l Battery voltage 4191 v b Bate level EN Notes Radio Config System Config Module status Gsm module Gps module Module logger Modbus Muticasting lanagement Configuration manager Mulicast Group view Data Aca mode lmDdy Ode icast J Dat d Li mm AcaMode PowerStatus rm aAcq cyde 0 0l dathmmss j Sampling Rate l Data Acq duration dddhh mm ss i E Start data acquisition 3 dee hh mmiss Data acquisition mode options Tx Only Log Only Streaming Streaming Packet options Lasse oy Add BeanDevice Add All Remove Continuous Monitoring One Shot T Component List DataLogger mem
13. Data acquisition mode configuration Data Acq mode Streaming Data Acq cycle P cemhhmmeoss 5Samplif g Rate 100 HE Timeout Commissioning D26 Acq durgst n oo o deti toss Data acgfisition mgGe options COM x Only E Log Only amp Tx amp Log CStrosn non Ctreasminga Parlat antinnes 5 Streaming Streaming Packet options Continuous Please consider the environnement before printing this document Page 74 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Choose Streaming Enter a duty cycle of 30s Enter a sampling rate of 100 Hz Enter a data acquisition duration of 20s Check Tx and Log option Check Burst Click on validate to enable your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode 12 4 3 Graph visualization Example of Streaming packet mode on the BeanDevice AX 3D wireless accelerometer Please consider the environnement before printing this document Page 75 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Measure 0 0029 Measure reading Mode
14. Wireless transmission option is enabled Data acquisition is transmitted instantly to the BeanGateway v Step4 Step 1to Step 3 are repeated until the sampling duration is completed v Step 5 A Network diagnostic is performed and transmitted to the BeanGateway depending on diagnostic cycle defined by the user Please consider the environnement before printing this document Page 27 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice v Step 6 The BeanDevice goes to Commissioning mode and will wait for a new OTAC request 8 5 1 6 Streaming mode with Burst option i Streaming Mode with burst option enabled At gQrrrrrrnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn NNNNA At2 At J a a O E r a aaa MEE gt Pr MAAA A l The BeanDevice operates as follows WUN S t v Step 1 A data acquisition is performed with a high sampling rate and then buffered v Step 2 If data logger option is enabled the data acquisition is backed up on the Beandevice Data logger Y Step 3 If Wireless transmission option is enabled Data acquisition is transmitted instantly to the BeanGateway v Step 4 Step 1 to Step 3 are repeated until the sampling duration is completed v Step 5 A Network diagnostic is performed and transmitted to the BeanGateway depending on diagnostic cycle defined by the user
15. event selection Detection 2 x High Y High Z High Detection x High Y High Z Higk Threshold E a Iv Threshold a ji 5 669 g XLow Y Low Z Low 1 830 g X Low Y Low Z Low o m P P o E m m Hysteresis 1220 000 ms Hysteresis 10 000 ms jmi Shock detection configuration 1 MI Shock detection configuration 2 Please consider the environnement before printing this document Page 81 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Depending on the sampling rate of the accelerometer during the sleep period the BeanDevice current consumption can vary Accelerometer sampling rate during BeanDevice Current consumption sleep period SHA ae 0 5H 77 100 Hz 308 uA POOH O O O EZET 1000 Hz 413 uA 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 Set the shock detection threshold Unit value g The threshold resolution depends highly on the acceleration range On the axis event selection frame if the high axis is selected the threshold value will be positive If the Low axis is selected the threshold value will be negative Example For a threshold value settled at 2g if X High Axis OR X Low Axis is selected For all the values upper t
16. g cur Eo Data Acg mode Streaming Data Acq duration Data Acq duration 20 cet tomes Timeout Commissioning Data acquisition mode options e Tx Only e Log Only e Tx amp Log Streaming Streaming Packet options One Shot Please consider the environnement before printing this document Page 72 102 Rethinking sensing technology Document version 1 5 eanAir Data acquisition modes available Document Type Technical note on the BeanDevice Choose Streaming Enter a sampling rate of 100 Hz Enter a data acquisition duration of 20s Check Tx option Check One shot Click on validate to enable your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 73 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available on the BeanDevice 12 4 2 Streaming Mode configuration with burst option Ex The Beandevice is configured in streaming data acquisition mode with a sampling rate of 100Hz Burst and Tx options are enabled Curent data acquisition mode Data Acq mode Data Acq cycle Sampling rate Data Acq duration ean JEMEN
17. mode allows the user to start a data acquisition on request During commissioning mode the BeanDevice will wait for a new OTAC request transmitted by the BenGateway e No data acquisition is performed e The Beandevice is operating in active power mode Please consider the environnement before printing this document Page 48 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 11 1 3 Parameters related to Low duty cycle data acquisition mode Low Duty cycle data acquisition configuration Tab nf cn System config Pc Data acquisition mode configuration Data Acq mode LowDutyCycle d Validate Data Acq cycle A0 zcshemmss Sampling Rate Hz Data Acg duration cehemm oss Data acquisition mode options Tx Only Log Only Tx amp Log Low Duty Cycle status window Please consider the environnement before printing this document Page 49 102 A Rethinking sensing technology Document version 1 5 e 1 B ea nAi r Data acquisition modes available Document Type Technical note on the BeanDevice e Select the Data acquisition cycle between 1s and 24hours e The formatis Day Hour Minute Second acquisiti The BeanDevice transmits the data acquisition without datalogging The Beandevice logs the data acquisition without wireless tra
18. n A r Data acquisition modes available Document Type Technical note on the BeanDevice These parameters are dispatched to the Multicast group The BeanDevice should be configured in Commissioning mode Download manager Download Same setting than Datalogger configuration Tab available on the Beandevice 5 profile Stop These parameters are dispatched to the Multicast group Erase Cancel Download Erase and switch to commissioning Datalogger memory configuration By clicking on Multicast group view a second window will open It will display the following information Multicast Status Group Multicast Group view Netld Platform Beandevice PowerStatus MulticastStatus DownloadStatus LoggerStatus UsedMemory TimeoutCommissioning LogOption gt gg 0001 ANV MAC ID 0x 00158D00000E0088 active MSG Sent NA Ready 0 11 11 11 SC recording 1 0002 AX3D MAC ID 0x 00158D00000E03E6 active MSG Sent NA Ready 0 11 11 10 SC recording 2 0003 AX3D MAC_ID 0x 00158D0000077802 active MSG Sent NA Ready 0 11 11 10 SC recording Parameters Beandevice Network Address Platform BeanDevice product version Beandevice Beandevice MAC Address PowerStatus BeanDevice power mode status Active Sleep Sleep with network listening Standby Multicast Status Several Multicast status are available MSG Sent Download Status Datalogger download status N A Successful
19. supply Data acquisition duration Continuous Hard vers UL EE Power mode Soft vers VIR O O Battery voltage Prot stack IEEE 802 15 4R0 Battery level BeanDevice Routing feat TAN Sensor channels AED Platform AX3DS Current data acquisition mode 1 y Notes Data Acq config 4 Data Acq mode Shock Detection acquisition mode configuration Survey Acq cycle BREBERNEENNNEN Data Acq mote Shock Detection v Sampling ste I Survey Aca cycle 1 ddihhmm ss Evert acq duration MEN on Hz ys 10 asehhmm ss No survey cycle Tx Only Log Only Tx amp Log Please consider the environnement before printing this document Page 85 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Proceed as follows Choose SSD Smart shock detection Enter a sampling rate of 500Hz during a shock event acquisition Event acquisition duration 10s check No survey cycle Choose the Datalogger option here TX and Log Click on validate to enable your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 86 102
20. this document Page 31 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 7 2 During a shock detection EEO SSD Smart Shock detection Data Acquisition amp t Network Diagnostic Start sleeping Data Logging transmission Wireless TX BeanDevice wakes up a shock threshold is reached wu wapa 4 At1 12 5 ms Latency time between the Beandevice wakes up and the first data acquisition At2 Data sampling duration This value can be configured by the user from the BeanScape software The BeanDevice operates as follows v Step1 Ashock threshold is reached user configurable the BeanDevice wakes up v Step 2 A Data acquisition is performed with a high sampling rate and buffered V Step3 If DataLogger feature is enabled the data acquisition is registered on the Beandevice Datalogger Y Step 4 If a Data Transmission feature is enabled The data acquisition is transmitted to the BeanGateway v Step 5 Step 2 to Step 4 are repeated until the sampling duration At2 is completed Please consider the environnement before printing this document Page 32 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice v Step 6 A Network diagnostic is automatically performed and transmitted to the BeanGate
21. 0s Proceed as follows Current data acquisition mode Data Acq mode ERENSCINENEN Data Acq cycle DEDES0 ddd hhicmm ss Sampling rate RHEINE Bias os Data acquisition mode configuration LowDutyCycle Data Acg cycle i 20 dide hhrmm ss Sampling Rate Data Acq duration Data Acq mode Data Acq duration Timeout Commissioning Data acquisition mode options Tx Only Tx amp Log Ctrosmina Ctrosmina DP Lr Measure mode configuration i The measure mode has been set to Mode LowDukycycle Measure cycle 00 00 20 Please consider the environnement before printing this document Page 62 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Choose LowDutyCycle in Data acquisition mode Enter a data acquisition cycle of 20s Choose the Datalogger option In this example we configure the BeanDevice in TX only Click on validate to validate your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 63 102 a Rethinking sensing technology Document version
22. BeanDevice please read the following technical note TN RF 010 BeanDevice Power Management 8 3 ALARM MODE 8 3 1 Process description Data acquisition is transmitted by radio whenever an alarm threshold settled by the user is reached Four alarms threshold levels High Low are dedicated to each sensor channel Please consider the environnement before printing this document Page 17 102 Data acquisition modes available on the BeanDevice At At In alarm mode the BeanDevice operates as follows v Step 1 A Data acquisition is performed v Step 2 If Data Logger option is enabled the data acquisition is registered on the Beandevice Datalogge if an alarm threshold is reached Y Step 3 If Wireless transmission option is enabled the data acquisition is transmitted to the BeanGateway if an alarm threshold is reached v Step 4 A Network diagnostic is performed and transmitted to the BeanGateway depending on diagnostic cycle defined by the user v Step 5 The BeanDevice goes to sleep if sleep mode sleep mode with network listening is selected If the alarm thresholds H1 H2 L1 L2 are not clearly defined you can end up with spurious and untimely alarms Do not forget to properly configure the alarms thresholds before Please consider the environnement before printing this document Page 18 102 Rethinking sensing technology Document version 1 5 Data acquisition modes availab
23. Device wakes up if sleep mode sleep mode with network listening is selected all the sensors connected to the BeanDevice are also activated v Step 2 A Data acquisition is performed v Step3 If the Data logger function is enabled the data acquisition is registered on the Beandevice Data logger if an alarm threshold is reached or a measurement cycle is reached v Step 4 If Wireless transmission option is enabled the data acquisition is transmitted to the BeanGateway if an alarm threshold is reached or a transmission cycle is reached v Step 5 A Network diagnostic is performed and transmitted to the BeanGateway depending on diagnostic cycle defined by the user v Step 6 The BeanDevice goes to sleep if sleep mode sleep mode with network listening is selected If the alarms thresholds H1 H2 L1 L2 are not well defined you can end up with spurious and untimely alarms Do not forget to properly configure the alarms thresholds before starting the alarm mode Read the section Alarm threshold configuration from the BeanScape to the Flowchart diagram section for a flowchart representation of the LDCDA measurement mode 8 4 2 Data acquisition cycle Same process than LDCDA mode Please consider the environnement before printing this document Page 21 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice
24. Dll acquisition Perform Nwk Diag Is Datalogger enabled Log the data acquisition Is Nwk Diag Cycle Reached Transmit Nwk Diag Please consider the environnement before printing this document Page 92 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 13 1 ALARM DATA ACQUISITION MODE WITH SLEEPING POWER MANAGEMENT Perform a data acquisition Transmit the No Data acquisition Perform Nwk Diag Log the data acquisition Transmit Nwk Diag Please consider the environnement before printing this document Page 93 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 13 4 SURVEY DATA ACQUISITION MODE WITH SLEEPING POWER MANAGEMENT Perform a data acquisition Yes No No Yes Transmit the No Data acquisition Perform Nwk Diag Yes Log the data No acquisition Transmit Nwk Diag
25. Hz Crystal with a frequency stability of 15 ppm at 25 C Data transmission does not affect data sampling process Please consider the environnement before printing this document Page 43 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Data Acquisition and or Data Logging RTC starts the streaming Wireless TX data acquisition bd 10 2 1 Time synchronization over the wireless sensor networks 10 2 2 Crystal specifications Frequency tolerance at 25 3 C nb JI Frequency Stability vs 25 C Please consider the environnement before printing this document Page 44 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 11 DATA ACQUISITION MODE CONFIGURATION FROM THE BEANSCAPE 1 Open your BeanScape 2 Click on your BeanDevice profile 3 Click on Data Acq config tag BeanScape mI Ej File Tools Help BeanDevice id ja NONE z MAC ID 0x amp amp BBCCDDEEFFODAA E Ch Temp H E B Ch Temp 1 1 Click on d Function Device Sg MAC ID 0x AABBCCDDEEFFOOBB Ch T Ambiante your Battery is O i Ch T Cible J 10 isable discharge MAC ID 0 x AABBCCDDEEFFOODD BeanDevice Disable charge i Ch TOR i 5 profile 2 Click Versio
26. Logger Status Datalogger status Ready UsedMemory 96 of used memory on the Datalogger Please consider the environnement before printing this document Page 38 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Please consider the environnement before printing this document Page 39 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 10 OPERATIONAL FEATURES 10 1 ALARM THRESHOLD MANAGEMENT SURVEY AND ALARM MODE This section is related to the alarms threshold management on the BeanDevice 8 BeanDevice ONE BN operates with a special alarm threshold management For further information please read the technical note TN RF 005 Pulse counter amp binary data acquisition on the BeanDevice ONE BN Four alarms thresholds are available The user can remotely configure the threshold values from the BeanScape e 2 high thresholds H1 H2 e 2 low thresholds L1 L2 Alarms threshold are organized as follows H2 gt H1 gt L1 gt L2 Please consider the environnement before printing this document Page 40 102 Rethinking sensing technology Document version 1 5 nAir Data acquisition modes available Document Type Technical note on the BeanDevice Several configuratio
27. N Used AF cores O 2 Select ee label REE Multicasting Power Supply Dagnosic Tab Hed vers a 7o MEN Soves ZZ NENNEN a Power mode Ia O Diagnostic cycle LEN diim M coo MEME Dattery d Custom display Notes Radio Config System Config Module status Gsm module Gps module Module logger Modbus Multicasting Multicast Group Management Configuration manager Multicast Group view Data Acq mode Streaming Packet AcqMode Pawar Stas Pim Data Acq cycle 20 dud hh mm ss 00158D00000E0148 Streaming Packet Sampling Fate mo 00158D00000CE454 Streaming Packet Data Acq duration 15 cttcthhimm ss 1 Click on th e Start data acquisition delay 10 cians b BeanGateway profile TxOnly Log Only Tx amp Log Streaming Streaming Packet options Continuous Monitoring One Shot Burst ane Add BeanDevice Sleep mode with listening config Empty Add BeanDevice Remove Waiting config frame deletion Download manager PA Dowd ieee ee 0 DIT eo SC recording Please consider the environnement before printing this document Page 36 102 P M M Rethinking sensing technology Document version 1 5 R d n B egl n Al r Data acquisition modes available Document Type Technical note on the BeanDevice e Custom display Notes Radio Contig System Contig Maule status Gsm module Gps module Module logger Modbus Multicasting Multic
28. ON MODE CONFIGURATION FROM THE BEANSCAPEQG eeeerrreeeee 45 11 1 Tab Data Acquisition configuration lssssseesessssssesseeeeeeene nennen nennen nnne nnn nnn nnns nnn nnns 46 TIT OVENI EW Puu n 46 11 1 2 Data acquisition mode ease qemiestmnt Mns tont ipn er xo te Rab tapete eundi eiestun i pi 48 11 1 3 Parameters related to Low duty cycle data acquisition mode sssesessssssss 49 11 1 4 Parameters related to Alarm data acquisition MOCE ccccccceeccceeeeceeeeceeeeeeeseeeeseneeseeeaes 50 11 1 1 Parameters related to Survey data acquisition mode eeseeeeeeeeeseeeeeeee 51 11 1 2 Parameters related to Streaming Streaming packet cccceccseseeecaeeeeeeseeeeeeseeeeeeseeeeeens 53 11 1 3 Parameters related to Commissioning ccccseeeeceeeeeeeeeeseeeeeeeeeeaeeeeseueeeseneesseeeessaneesaaees 56 11 2 Alarm threshold configuration from the BEanScape ccccccccssseeceeecaeeeeeeeeeeeeeeeeeesseeeeeeeessaeeeees 57 FEAT OVENI M PH 57 11 2 2 How to Set an alarm threshold cccecccccsseceeeceeeeeeeeseeeeeeeeeeseeeeesseseeesseeeeesseeeeesaaeeessaeeeeeens 58 11 2 3 Sensor alarms WINKOW ssessssssssssssssseeeeee enne nennen nnn nnna nnns nsns n naar nnns nnns 59 12 EAA MELE ee ee ee
29. Ref TN RF 008 V1 5 Data acquisition mode available on the BeanDevice TECHNICAL NOTE Beanair GmbH Rethinking sensing technology Document version 1 5 a ea nAi r Data acquisition modes available Document Type Technical note on the BeanDevice DOCUMENT ers RF NT 008 plication dat 17 09 2014 Document Name Data acquisition mode available on the BeanDevice VALIDATION m For For Function Recipients Validation information MAILING LIST Recipients Foracion For Info X Stafferi 1 1 1 1 1 Mohamed Yosri JAOUADI X Stffer2 4 Kunliang YAO KX Updates Version Date Author Evolution amp Status 17 09 2014 Commissioning mode amp Multicasting process added Please consider the environnement before printing this document Page 1 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 1 TEOGHINIOAL OO rusis niinn E EE EAEE S E E S 6 2 VISUALS YMBOLS DEFINITION criai epi E E E E i 7 3 ACRONYMS AND ABBREVIATIONS 2 c cc cccceceeccecceceenceeesenseteseneedensencsdenseeceeessqccsdenrencesesscossteneeneesnnee 8 4 RELATED DOCUMENTS amp VIDEOS wiccicccecccscsenacetsctncednacanacstanoedadnasuweeesecdeendunsandesttincedetseneeoeetcedesareancedced c 9 ST MEN eee e RAT m mt 9 LIA MEI cdUcBroi E
30. Span Gateway IF address DNS Enabled DNS IP Auto Configuration via Ethernet UDP DNS Enabled IP address UDP pot 53130 Bean S cape Pott IP address Domain name 14 1 2 Disable the Keep alive on your BeanScape Uncheck the keep alive function on your BeanGateway Click on the tab Tools then Options to configure advanced settings in BeanScape BeanScape Alarm Alert BeanGateway Telemetry Mode BeanGateway Serial Pork Config You will see the following window Please consider the environnement before printing this document Page 100 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available on the BeanDevice Document Type Technical note loglevl 0 1 2 63 Sensor Log enabled V 1024 vl 1024 BeanGateway configuration via Udp Udp pot 53130 Auto French System Configuration System clock transmission V Clock transmission interval sec 3600 Alarm automatic display Alam gt sound effect Gps coord max number 100 Max BGw Module status nbr 100 KeepAliveApp Uncheck the Keep alive KeepAliveApp enabled function on your DE ag BeanScape software KAA interval Max retry 5 Please consider the environnement before printing this document Page 101 102
31. Streaming Packet 0 002 Observed values I aea e ce AR 02 11 2011 18 21 30 9220000 0 0053 02 11 2011 02 11 2011 02 11 2011 02 11 2011 02 11 2011 18 21 33 2210000 18 21 33 2720000 18 21 33 3230000 18 21 33 3740000 18 21 33 4250000 Time Please consider the environnement before printing this document Page 76 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 5 COMMISSIONING MODE Ex The Beandevice should be configured in Commissioning mode with a Timeout value of 20 minutes Proceed as follows Choose Commissioning mode Enter the timeout value of 20 minutes If the Timeout occurs the BeanDevice will switch into the standby commissioning power mode oe pedel Cgfitinuous Monitoring One Shot Opti ns 3 Tx Only Log Only Please consider the environnement before printing this document Page 77 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 6 SSD SMART SHOCK DETECTION SSD function is only available on the BeanDevice AX 3DS e Configure the measurement range of your accelerometer e Configure the SSD Smart Shock Detection Profile e Configure SSD Smart shock detection measurement mode Please consider the environnement b
32. able Document Type Technical note on the BeanDevice 13 3 SSD SMART SHOCK DETECTION 13 3 1 Shock Detection Flowchart m Perform a data acquisition and bufferize Perform Nwk Diag Yes T it Nwk Log the data a Diag o N acquisition r om Yes y Transmit the Data acquisition by packet Please consider the environnement before printing this document Page 97 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 13 3 1 Self test Flowchart Performa data acquisition Transmit the Data acquisition Perform Nwk Diag Transmit Nwk Diag Please consider the environnement before printing this document Page 98 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 14 APPENDIX 2 HOW TO PREVENT A BEANSCAPE CRASH During a streaming or streaming packet data acquisition mode your computer resources will be intensively used For avoiding a PC crash the following steps should be followed Y Disable Keep alive function on your computer and the BeanGateway Y Disable the sle
33. ast Group Management N Configuration manager Multicast Group view En k m ma l Data Acq mode LowDutyCycle Validate Muticas Data Acq cycle M NM IDE Beandevice AcqMode PowerStatusN Mulicad pd W hkmmss Ability WORE Sampling Rate T n MAC ID Ox 00758D00000E04C3 Commissioning Standby Commiss NIE Data Acq duration Ae Start data acquisition ddd hhcmm ss lata acquisition mode options Tx Only Log Only Add BeanDevice Mheaming Streaming Packet options Multicast Group WA Displays the list of Beandevice linked to the Multicast Group management 1 Y BeanDevice Beandevice MAC ID v AcqMode Current Data acquisition mode V PowerStatus Current Power mode status v Multicast Ability OK or NOK If NOK you have to configure your BeanDevice into commissioning mode Add BeanDevice Select Select the Beandevice from the scroll list 2 2 Add BeanDevice Add a Beandevice to your Multicast group Add all Add all the BeanDevice to your Multicast group Remove Remove a BeanDevice from your Multicast group Configuration Same setting than Data acquisition mode configuration Tab available on the Manager 3 Beandevice profile Click here for more information Please consider the environnement before printing this document Page 37 102 e A B Rethinking sensing technology Document version 1 5 B a
34. c V AN mV M v aw mv BeanDevice TIR Ecosensor Xrange Xrange Xrange Xtender Xtender AX 3DS products Xtend Xtend version nat version version not version included included Page 14 102 Please consider the environnement before printing this document Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 SYSTEM OVERVIEW 8 1 CAPTIONS ies I Captions Network Diagnostic transmission if sleep power mode is enabled Data acquisition amp Data logging Starts sleeping if sleep power Wireless TX mode was selected BeanDevice wakes up if Sleep power mode was enabled 8 2 LOW DUTY CYCLE DATA ACQUISITION LDCDA 8 2 1 Process Description LDCDA is suitable for static measurement tilt pressure temperature requiring a low power operation on your BeanDevice Measurement duty cycle can be configured between one data acquisition amp transmission per second to 1 data acquisition amp transmission per day Page 15 102 Please consider the environnement before printing this document Rethinking sensing technology Document version 1 5 Data acquisition modes available on the BeanDevice In Low Duty cycle data acquisition LDCDA the BeanDevice operates as follows v Step 1 A Data acquisition is performed v Step 2 If Datalogger feature is enabled the data acquisition
35. des available Document Type Technical note on the BeanDevice 11 1 2 Data acquisition mode Low duty cycle Data Acquisition LDCDA Streaming Packet Streaming SSD Smart Shock Detection Commissioning Low duty cycle data acquisition is dedicated for static measurement tilt pressure temperature requiring a low power power on your BeanDevice The duty cycle can be configured between 1 data acquisition amp transmission per second to 1 data acquisition amp transmission per day Data acquisitions are transmitted by radio whenever an alarm threshold user configurable 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 e Whenever an alarm threshold user configurable is reached 4 alarm threshold levels High Low A transmission cycle is reached the transmission cycle is configurable through the BeanScape 1s to 24h Streaming packet is more suitable for users requiring a high data sampling rate maximum 5 KHz In order to achieve these performances data sampling are transmitted by packet Streaming mode is more suitable for users requiring a real time data transmission with time latency under 10ms Smart shock detection mode is only available on the BeanDevice AX 3DS If a shock threshold is detected the Beandevice starts to transmit all the data acquisition to the BeanGateway Commissioning
36. e same WSN It is highly recommended to test several WSN topologies in order to find the right suitability between the WSN size and the sampling rate For further information read the technical note RF TN 003 Aggregation capacity of wireless sensor networks Due to sampling rate synchronization constraint an OTAC Over the air configuration will not be possible when Streaming Packet Streaming is started Be sure that your BeanDevice Please consider the environnement before printing this document Page 29 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice configuration is correct before starting the streaming streaming packet mode In the case of a wrong configuration read the section Restrictions in streaming amp streaming packet mode o to the Streaming Flowchart diagram section for a flowchart representation of the LDCDA measurement mode o to the Streaming Packet Flowchart diagram section for a flowchart representation of the LDCDA measurement mode 8 6 COMMISSIONING MODE 8 6 1 Description Commissioning mode allows the user to start a data acquisition on request During commissioning mode the BeanDevice will wait for new OTAC request transmitted by the BenGateway e No data acquisition is performed e The Beandevice is operating in active power mode BeanScape The B
37. e t gt Data Acq made Data acquisition mode configuration Data Acq cycle Data Acq made ETE ELTE vts Data Acq cycle Data 4cq duration n Sampling Hate Data Acq duration dddajmmss Cantinuous Monitoring Options 9 Ts Only Ts amp Uog Log Only Measure mode configuration 1 The measure mode has been set bo Mode Alarm Measure cycle 00 00 10 Please consider the environnement before printing this document Page 65 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Custom display Notes Data Acq config System config Slee Data acquisition made configuration Data Acq made Data Acq cycle adel AAs Sampling Aate SS me Data Acq duration dod hhznm ss Continuous Monitoring Options Ts Only Log Only Tx amp Log Choose Alarm Enter a data acquisition cycle of 10s Choose the Datalogger option here TX only no Datalogging Click on validate to enable your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 66 102
38. eanDevice operates in commissionning mode A Timeout occurs if no OTAC request is transmitted to the Beandevice Please consider the environnement before printing this document Page 30 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Commissioning mode comes with several restrictions v The BeanDevice is always active sleeping sleeping with network listening are not authorized v The Beandevice cannot accept an OTAC request linked to a Power mode update v A Timeout occurs if any OTAC request is received during the Commissioning mode then the BeanDevice switches to Standby power Mode This Timeout is user configurable with a default value of 10 minutes and a range of 1minute to 60 minutes 8 7 SMART SHOCK DETECTION AVAILABLE ONLY ON THE BEANDEVICE AX 3DS 8 7 1 Description 6606 The BeanDevice AX 3DS integrates Smart Shock Detection technology which permits to detect amp recognize a shock event during the sleeping mode of the BeanDevice AX 3DS The BeanDevice wakes up on two conditions E Survey Cycle A survey frame is transmitted the transmission cycle is configurable from the BeanScape The user can choose to enable or disable this option E Whenever a shock event is detected all the measurement data are transmitted instantly Please consider the environnement before printing
39. eanreiatiouns 29 66 Commissioning TOS NN decilovancigdcntiansivosanacihendendaevouaiedidicoeasianssnsatandicotaaisgaisatdedentasaaidelatecdaedandsieotares 30 96 1 DSSCHOUON vansccaindaarstrdsasicesvnncanctasadevneslnsss eisavdtadussersasuadusiuatessuanaiacdd obiaseduantsbadvabidbewaedddaadtohiwasdes 30 8 7 Smart Shock detection available only on the beandevice AX 3DS esee 31 Please consider the environnement before printing this document Page 2 102 Data acquisition modes available on the BeanDevice MM MEINI eei p UT E E E 31 Dua DUTING a SHOCK dEle CION sisane eu it das cutie Edad Diodibun harten vitii tage eu aceon 32 OJo SOUS a oU AEE EAER AE AEA 33 9 SYNCHRONUOUS MULTICAST ROUTING ea crnet aec ul ucebuscbsti eate dati tus aiia aa qus ied aaa Nada aaia 34 4 o E 34 J WIS SCHIOMON ET RT EEEEEE 36 10 OPERATIONAL FEATURES ee gets te osc atuetocu anea a irea Aaaa quse qaaa EESTEC KSN ENARE NEEE Ei Ei 40 10 1 Alarm threshold management Survey and Alarm MOde cccccccccccsseeeeeseeeeeseeseeesaaseeesaaeeeesaaaeees 40 10 2 Data sampling accuracy in streaming amp streaming packet mode For experts only 43 10 2 1 Time synchronization over the wireless sensor networks cccceeeceeceeeeeeeeeeeeeeeaeeeeesaeeeeeeas 44 10 2 2 a C12 is e726 etc eee ee eee ee ee eae eee euntem ee eee pU ME 44 11 DATA ACQUISITI
40. edd oma E onda ce eee E EEEE T E 77 12 6 SSD Smart Shock Detection 2 6 cccccecsccsesscacecseccsccesceseccecseccessesececenssccessecneceececceseseneecensesceeeess 78 12 6 1 Step 1 configure the measurement range of your accelerometer seeeeeeeeeeeeeeeees 79 12 6 2 Step 2 Configure the SSD profile eee ccccccccsesseeceeeeeeesaeeeeeeeeeeeesaaeeeeeeeeessseeaeeeeeeeeeessaas 80 12 6 3 Step 3 Set SSD data acquisition mode essssssesessssssseeseenen nennen 85 12 6 1 SSD data acquisition mode with a survey CYCIE ccccccccsseeeeeeeeeeeeeeaeeeeeeeeeeeesaeaseeeeeeeeeeeaas 87 D XE Coo o zi T 89 12 7 Synchronuous MUltlCaStlllg 2 enata haesit rex paca eas ku U mu uua ekpEOUiisndd remS aud rasktaUnsnsRK A nUER up UE RniDRPN ZS dT RUE 90 12 7 1 Step 1 Build your multicast group eessssesesseseseeeee nene 90 12 7 2 Step 2 Configure your BeanDevice into Commissionning mode ssssse 91 12 7 3 Step 3 Multicast a configuration to your Multicast group eeeeeseeeeeeeenneneenn 91 13 APPENDIX 1 FLOWCHART DIAGRAM FOR EXPERT USER ONLY eeeeeeernnmnn 92 13 1 LDCD A data acquisition mode with Sleeping Power management cccsseseeeceeseeeeseeeeeseeeeees 92 13 1 Alarm data acquisition mode with Sleeping Power management s
41. efore printing this document Page 78 102 Data acquisition modes available on the BeanDevice Observed values 30 12 1899 9 30 12 1899 30 12 1899 30 12 1899 31 12 1899 00 00 00 TIZA 10 48 00 16 12 00 21 36 00 03 00 00 Click on your sensor channel Click on the sensor configuration tab Choose your accelerometer range and click on validate Page 79 102 Please consider the environnement before printing this document Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 6 2 Step 2 Configure the SSD profile Click on Shock detection configuration a new window will open Slay sy gt LowDutyCycle caes 30 12 1899 30 12 1899 30 12 1899 30 12 1899 30 12 1899 31 12 1899 00 00 00 05 24 00 10 48 00 16 12 00 21 36 00 03 00 00 Auto Y LI lo Le T Please consider the environnement before printing this document Page 80 102 Be Rethinking sensing technology eanAir Data acquisition modes available Document Type Technical note on the BeanDevice Shock detection configuration Accelerometer Bandwidth during deep sleep of the Beandevice 00 v Hz fo OK lv Event i Iv Event 2 Shock detection con 1 Shock detection configuration 2 Event Combination Event Combination C C o AND She D Axis event selecti Sock Axis
42. ep mode of your computer amp Ethernet board For further information please read the user manual of your computer 14 1 DISABLE KEEP ALIVE FUNCTION Keep alive message is exchanged between the BeanScape and BeanGateway to check that the link between the two is operating or to prevent this link from being broken During a streaming or streaming packet mode Keep alive message uses a low priority compared to the data acquisition message This link can be disconnected due to a high network activity 14 1 1 Disable the Keep Alive on your BeanGateway 1 Goon your Beangateway profile and click on Tools then click on BeanGateway config 2 Anew window will open called Beangateway configuration 3 Disable the Keep alive available on your BeanGateway Please consider the environnement before printing this document Page 99 102 Rethinking sensing technology Document Type Technical note Document version 1 5 Data acquisition modes available on the BeanDevice BeanGateway configuration Selection configuration part Serial port 3 Ethernet Select serial port Ethernet config Serial port Select gt Localize Empty gt Selection du type de configuration TeplP configuration Keep live App Contig LC DHCP Enabled Enabled BeanGateway Tcp lP Timeout ms IP address Interval ms 1000 Sub network mask Mas attempt nbr
43. evice 11 1 3 Parameters related to Commissioning Parameters Descriptions Timeout Please consider the environnement before printing this document Page 56 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 11 2 ALARM THRESHOLD CONFIGURATION FROM THE BEANSCAPE 11 2 1 Overview BeanScape Data Sensor profile General information Type IN 02 11 2011 21 15 10 02 11 2011 21 15 16 02 11 2011 21 15 28 02 11 2011 21 15 34 Server chahic Sbarberd Pop up window displaying the Alarm threshold Displays alarm sensor alarm configuration tab thr eshold Please consider the environnement before printing this document Page 57 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 11 2 2 How to set an alarm threshold Click on configuration Select your sensor channel EF BeanScape TC OO i a wm Gg MAC ID 0 x OO15eDQ D00449F9 Data o P Ch VO Sensor profile Custom display Notes Configation Measurement conditioning calibratic Ratio i Offset 0 General information 01 58D 0000040563 Type Unt g Type SENSOR TYPE i SN E Ch X Ref 5 8 MAC ID x 00158D000004C79F i Ref SENSOR REF Label
44. guideline very useful for extending your wireless range DTE interface Architecture on the BeanGateway Coexistence amp interferences of different RF technologies in the 2 4 GHz frequencies band Comparison between 868 MHz frequency band and a 2 4 GHz frequency band The aim of this document is to overview 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 The aim of this document is to help deploying the OPC DA and all associated services Click on the weblink TN RF 013 OPC configuration BeanScape Premium Page 9 102 Please consider the environnement before printing this document Data acquisition modes available on the BeanDevice 4 3 RELATED VIDEOS All the videos are available on our Youtube channel Please consider the environnement before printing this document Page 10 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Beanair video link Youtube Related products Please consider the environnement before printing this document Page 11 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 5 AIM OF THE DOCUMENT This documen
45. han 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 82 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Axis event selection The user can associate a shock event with an axis X Axis High X Axis Low Y Axis High Y axis Low Z Axis High Z Axis Low The AND OR combination is not available for two events on the same axis i e the following combinations are not possible X High and or X Low Y High and or Y Low Z High and or Z Low e TH VALUE is the shock detection threshold settled by the user e Range MAX is the maximum measurement of the wireless accelerometer Several configuration of shock detection are possible on the same axis e The user selects XX Axis Low all the shocks events 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 TH VALUE Range MAX Please consider the environnement before printing this document Page 83 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available on the Bea
46. ien aciei E LE RE M M NU UEM EE 61 12 1 LOW duly cycle acquisition TTIOGBsuesaes soda aim etus caa oreet de uus ua cod rota Ea ai 62 I Nei EE T econ 62 121 2 Graph WIS ANZ AO sana 64 UE PIN NO NR RR m 65 12 2 3 Alarmi mode COMMON AO Loses sni oues rtron e tut ne eco inc uber at tradi nba uS cn a bte EUR Ote tenes PUR ne ec n i 65 DCN SUVS Miieo tP 67 12 9 1 5urvey mode COMNGUPATION sarisi neninn AEE OE Eii ANa E EEEE E 67 12 3 2 Graph visualzatO i P H m 69 12 4 Streaming Mode with Continuous monitoring sseeeseeseessesseeeeen nennen nnns 70 12 4 1 Streaming mode configuration with continuous monitoring option ssss 70 12 4 1 Streaming Mode configuration with one Shot OptiOn ccccccsesececeeeeeeseeeeeeeeeeeeeeeeeeens 72 12 4 2 Streaming Mode configuration with burst option ccccsseeceeceseeeeeeeeeeeeeeeeeeeaeeeeeeeeeeeas 74 12 4 3 Graph visualization lsssssssessseeisssssseeeee nennen nnn nenne nnn nnn nnn nsns n nar n nnn rns nnn 75 Please consider the environnement before printing this document Page 3 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 5 COMMAS SIOP IAG TOS xcci ontanmtic
47. io 4 Data acquisition mode options amp Tx Only C Log On Tx amp Log fi survey status window Please consider the environnement before printing this document Page 51 102 e A Rethinking sensing technology Document version 1 5 i n R Fd m B eda nAi r Data acquisition modes available Document Type Technical note on the BeanDevice Parameters Description Select the Data acquisition cycle between 1s and 24hours The format is Day Hour Minute Second acquisition Select the transmission ratio Transmission cycle is calculated as follow nk Transmission Cycle Transmission Ratio Data Acquisition Cycle Transmission Tx only The 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 Data logger function read the technical note TN RF 007 TN RF 007 BeanDevice DataLogger User Guide Data acquisition mode Sampling rate parameter is not available for the Survey data acquisition mode Please consider the environnement before printing this document Page 52 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 11 1 2 Parameters related to Streaming Streaming packet
48. ir GmBh 2015 Please consider the environnement before printing this document Page 5 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 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 from the users Please consider the environnement before printing this document Page 6 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 2 VISUAL SYMBOLS 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 b
49. is registered on the Beandevice data logger Y Step 3 If Wireless transmission option is enabled the data acquisition is transmitted to the BeanGateway v Step 4 A Network diagnostic is performed and transmitted to the BeanGateway depending on the diagnostic cycle defined by the user v Step 5 The BeanDevice goes to sleep if sleep or sleep with network listening power mode is enabled o to the LDCDA Flowchart diagram section for a flowchart representation of the LDCDA data acquisition mode Please consider the environnement before printing this document Page 16 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 2 2 Data acquisition cycle Data acquisition cycle is user definable from the BeanScape it includes a series of protection mechanisms against unauthorized configurations Data Acquisition cycle depending on the power mode Data acquisition duty cycle in seconds status The BeanDevice is operating with or t Minimum values The BeanDevice is operating with power mode 9 a short data acquisition cycle is configured the battery life will decrease rapidly For a better battery life make sure that its power mode is configured in sleep mode or sleep mode with network listening O further information about the power mode on the
50. le Document Type Technical note on the BeanDevice starting the alarm mode Read the section Alarm threshold configuration from the BeanScape o to the Alarm Flowchart diagram section for a flowchart representation of the LDCDA measurement mode 8 3 1 Data acquisition cycle Same process than LDCDA mode Please consider the environnement before printing this document Page 19 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 4 SURVEY MODE 8 4 1 Process description The survey mode operates like the alarm mode but the device sends frequently a beacon frame informing its status v Data acquisition is done with a duty cycle of Cm configurable with the BeanScape Y Data transmission is done with a duty cycle of Ct N Cm N is configurable from the BeanScape supervision software Y Whenever an alarm threshold user configurable is reached 4 alarm threshold levels High Low an alarm notification is transmitted to the BeanGateway m Survey Mode Alarm or TX Cycle Heached Please consider the environnement before printing this document Page 20 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice In survey mode the BeanDevice operates as follows v Step 1 The Bean
51. lect the desired platform by clicking on Tools scrolling menu available on the left side pane E Then Click BeanScape Options Alarm Alert BeanGateway Telemetry Mode BeanGateway Serial Port Config E You will see the following screen Please consider the environnement before printing this document Page 59 102 Rethinking sensing technology Document version 1 5 nAir Data acquisition modes available Document Type Technical note on the BeanDevice Date 02 11 2011 21 15 34 Value 0 0038 LowDutyCycle Date 02 11 2011 21 15 24 Value 00044 LewD utuCucle Date 0271172011 21 15 14 Value 0 0026 LowD huty Cycle Date 04117 2011 21 15 04 Value 0 0038 LowOutyCycle Data acquisition Alarm date PME and time Alarm value Please consider the environnement before printing this document Page 60 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 EXAMPLES Please consider the environnement before printing this document Page 61 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 1 LOW DUTY CYCLE ACQUISITION MODE 12 1 1 Configuration Ex The Beandevice should be configured in Low Duty Cycle acquisition mode with a Data acquisition cycle of 2
52. lobal PER P Disable charge e Ch Temp 1 Net id M Local PER E Discharge over curent S MAC ID 0 x 00158D00000C7913 ids Charge over current E Ch Temp 1 Power Supply Diagnostic Jenette O 3 M D 0 x 00158D00000C7802 Tee Temperate M Dvervollage C Lus 2 a6 iu 0 x 0158D00000C 7804 Uad sae viaa Poser mode active e 9 mm Lus E Ch Temp 1 Soft vers viR O O O Battery voltage INA wv Diagnostic cycle 00 00 50 reine MAC ID 0 x OO158D00000C97E8 TB eoo Prot stack AST Batey evel I Turowo EINE E Ch Temp 1 MAC ID 0 0015800000049960 gt Bi hx BeanDevice e chz pn ege spes css Current data acquisition mode Logger System config Sleep Mode Management AllGraph SEE jg MAC ID 0x 0158000004372 Data icq mode Logger status v E MAC ID 0x 00158D000009072F Data Acq cycle Logger status Ready Download progress NA C Component List Samping rate Download status NA Data cq duration Logger manager Acquisition information Logged measure mode NA Acquisition count NA P 2e kA PAN ID 0 0123 Server Server status Started Curent data acquisition made Data Acq made Data Acq cycle Sampling rate Data Acq duration Please consider the environnement before printing this document Page 47 102 Rethinking sensing technology Document version 1 5 P ham 5 B c a n Al r Data acquisition mo
53. mation of BeanAir GmbH 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 GmbH 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 BeanAir 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 O BeanA
54. n emperstue MN Hard vers vin Power mode System Soft vers vina O O e Battery voltage v Diagnostic Prot stack IEEE 902 15 4R0 Battery level x BeanDevice Current data acquisition mode Custom display Notes Data Acq config System config AllGraph Data Acq mode oe dod hh mm ss Type PLATFORM TYPE Component List Sampling rate Hz i Reference PLATFORM REF Menkes mia Sec Label MAC ID 0x AABB Server Server status Started Please consider the environnement before printing this document Page 45 102 Rethinking sensing technology Document version 1 5 anAir Data acquisition modes available Document EEE Technical note on the BeanDevice 11 1 TAB DATA ACQUISITION CONFIGURATION 11 1 1 Overview Please consider the environnement before printing this document Page 46 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice All your modifications are displayed on Current data acquisition mode frame BeanScape SiGe File Tools Help BeanDevice Fa IM gt A D MAC ID 0 00158D00000CAA1E Data W Ch Lux TE B ouo ee Identity Network Diagnostic Battery Status 89 Ch Temp 1 Mac Id 0015800000049960 Network quality sooo Lar Disable discharge 7 c o B ouo x 0158D00000C2714 Paid DENEN G
55. nDevice Defines the duration of the streaming streaming packet data acquisition The format is Day Hour Minute Second Data acquisition duration value should be lower than Data acquisition cycle Data acquisition duration This parameter is enabled if the Burst or One Shot options are selected Tx only The 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 Data acquisition mode options For further information about the Data logger function read the technical note TN_RF_007 TN RF 007 BeanDevice DataLogger User Guide Continuous monitoring option data acquisition is transmitted to the Beangateway in a continuous flow rate Burst option data acquisition is transmitted to the Beangateway in a burst flow rate One Shot option data acquisition is transmitted to the BeanGateway during a period 2 c 9 n Q le eD QO Q time then the BeanDevice enters into commissioning mode elo E Q Ful dud Uu elo S Q pa ded Uu Please consider the environnement before printing this document Page 55 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanD
56. nDevice Shock Detection Area Measurement is OK Shock Detection Area Range_MIN e 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 bandwidth 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 84 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available on the BeanDevice 12 6 3 Step 3 Set SSD data acquisition mode 12 6 3 1 SSD with Survey option enabled Example The Beandevice AX 3DS should be configured as follow e SSD data acquisition mode e Asampling rate of 500 Hz after a shock detection e No survey e A data acquisition duration of 10s after a shock detection Data OPC Platform system profile BeanDevice RFD Reduced Function Device Identity Network Diagnostic Battery Status Mac Id ME Network quality anil Pan id M Global PER wed EMEN Local PER Label SEE A Request sent Power Supply Diagnostic Data acquisition mode Mode Shock Detection Veri Tempe a Uo module Power Module div aril Power
57. ns are possible If H2 gt H1 amp L1 gt L2 measure If H2 H1 amp L1 L2 measure Please consider the environnement before printing this document Page 41 102 Rethinking sensing technology Document version 1 5 nAir Data acquisition modes available Document Type Technical note on the BeanDevice If H2 H1 and L1 gt L2 measure If H2 gt H1 et L1 L2 Please consider the environnement before printing this document Page 42 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice If the alarms thresholds H1 H2 L1 L2 are not well defined you can end up with spurious and untimely alarms Do not forget to properly configure the alarms thresholds before starting the alarm mode 10 2 DATA SAMPLING ACCURACY IN STREAMING amp STREAMING PACKET MODE FOR EXPERTS ONLY All the BeanDevice integrates a RTC Real Time clock and a high accuracy timer for data sampling The RTC is a computer clock in the form of an integrated circuit that keeps track of the current time It is used by the BeanDevice Architecture of Real Time Clock amp Timer on the BeanDevice Wireless sensor Crystal 16 MHZ 20 ppm A RTC Real Time Clock is used for starting the data sampling on a date Year Month Hours Minute and seconds A Timer is used for Data Sampling At the Timer source is a 16 M
58. nsmission The BeanDevice transmits and logs the data acquisition For further information about the Data logger function read the technical note TN RF 007 TN RF 007 BeanDevice DataLogger User Guide Data acquisition mode options Data acquisition duration and Sampling rate parameters are not available for Low Duty Cycle Data acquisition 11 1 4 Parameters related to Alarm data acquisition mode Parameters Description Select the Data acquisition cycle between 1s and 24hours The format is Day Hour Minute Second acquisition The BeanDevice transmits the data acquisition without datalogging The Beandevice logs the data acquisition without wireless transmission The BeanDevice transmits and logs the data acquisition For further information about the Data logger function read the technical note TN_RF_007 TN RF 007 BeanDevice DataLogger User Guide Data acquisition mode Please consider the environnement before printing this document Page 50 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 11 1 1 Parameters related to Survey data acquisition mode Survey data acquisition configuration tab Custom display Data Acq contig Data acquisition mode configuration Data Acg mode Survey Data Acq cycle AL Sampling Rate He Transmission rat
59. nvironnement before printing this document Page 34 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available on the BeanDevice Step2 OTAC request is distributed to each BeanDevice belonging to the same multicast group The BeanDevice sends an ACK acknowledgment if the OTAC request is accepted STEP2 OTAC Request is distributed to each BeanDevice belonging to the multicast group Qe mm a XS SISS S Step 3 If the OTAC request is linked to a data acquisition mode it will start at the same time for all the BeanDevice belonging to the same multicast group The user can configure a starting delay minimum value 10s A synchronization accuracy of 5ms is reached over the WSN Please consider the environnement before printing this document Page 35 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 9 2 DESCRIPTION 1 Click on the BeanGateway profile 2 Select Multicasting tab mw mer File Server Fach ean abteey Help a Ei x m nos a mi MAC ID 0x 00158D00000CE454 BeanGateway profile 5 8 MAC ID 0x 00158D00000E0148 MAC ID 0x 00158D00000AD66F Identity Radio Configuration WE MAC ID 0x 00158D00090000AF Mecid LT cow NH a Fado channel S
60. ocument Page 25 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 5 1 4 Streaming mode with Continuous monitoring option E E Streaming Mode with continuous monitoring option enabled Wireless TX Wake up Data Acquisition M t In Streaming Packet mode continuous monitoring the BeanDevice operates as follows v Step 1 A Data acquisition is performed with a high sampling rate v Step 2 If data logger option is enabled the data acquisition is registered on the Beandevice data logger v Step 3 If Wireless transmission option is enabled Data acquisition is transmitted instantly to the BeanGateway v Step 4 Step 1 to Step 3 are repeated without stopping Please consider the environnement before printing this document Page 26 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 5 1 5 Streaming mode with one shot option Streaming Mode with one shot option a E E Li BAA A A HUR j m The BeanDevice operates as follows v Step 1 A data acquisition is performed with a high sampling rate and buffered v Step 2 If data logger option is enabled the data acquisition is backed up on the Beandevice data logger v Step3 If
61. odily 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 7 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 3 ACRONYMS AND ABBREVIATIONS Secure Digital Please consider the environnement before printing this document Page 8 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 4 RELATED DOCUMENTS amp VIDEOS e BeanAlr In addition to this technical note please consult the related application notes technical notes and videos 4 1 APPLICATIONS NOTES Document name Click on the weblink AN RF 007 Beanair WSN Deployment AN RF 006 How to extend your wireless range AN RF 005 BeanGateway amp Data Terminal Equipment Interface AN RF 004 Coexistence And Interferences 02 4GHz AN RF 003 IEEE 802 15 4 2 4 GHz Vs 868 MHz AN RF 002 Structural Health monitoring on bridges 4 2 TECHNICAL NOTES Document name All BeanAir products All BeanAir products BeanGateway All BeanAir products All BeanAir products All BeanAir products Wireless sensor networks deployment guidelines A
62. on A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 68 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 3 2 Graph visualization Example of Survey mode on the BeanDevice ONE T wireless temperature sensor Graph corresponding to LDCDA mode Latest data acquisition value and date aga Data OPC Sensor protile igurati fue Log config Unit Ret a version Assistant Validate General information Type Min Temp Ref Label Technology State Max Temp Measure reading Mode Survey Measure 4 52 5 45 4 3 9 Observed values co 25 13 11 2011 13 11 2011 13 11 2011 13 11 2011 13 11 2011 13 00 00 14 06 02 15 12 04 16 18 07 17 24 08 Time d Nouveau mat riel d tect x Votre nouveau mat riel est install et pr t l emploi Page 69 102 Please consider the environnement before printing this document Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 12 4 STREAMING MODE WITH CONTINUOUS MONITORING
63. ontinuous monitoring option Sample n 1 Sample n 2 Sample n 3 Sample n x DRIN t The BeanDevice operates as follows v Step 1 A Data acquisition is performed with a high sampling rate and buffered v Step 2 If Data logger function is enabled the data acquisition is backed up on the Beandevice data logger Y Step3 If Wireless transmission option is enabled If data buffer is full a data packet is transmitted to the BeanGateway V Step 4 Step 1 to Step 3 are repeated without stopping Please consider the environnement before printing this document Page 23 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 8 5 1 2 Streaming packet mode with One shot option m Streaming packet mode with One Shot option Sample n 1 Sample n 2 Sample n 3 Sample nx At2 a El m Bl E m m m m m El a 4 The BeanDevice operates as follows v Step 1 A data acquisition is performed with a high sampling rate and buffered v Step 2 If data logger option is enabled the data acquisition is backed up on the Beandevice data logger Y Step 3 If Wireless transmission option is enabled If data buffer is full a data packet is transmitted to the BeanGateway v Step 4 Step 1 to Step 3 are repeated until the sampling duration is completed v Step
64. ory configuration so Sich toconmissonng downoad and erase m n Stop at end recording PAN ID 0x 3900 Oates 17 50 18 11 2014 POS ad ds Please consider the environnement before printing this document Page 90 102 Rethinking sensing technology Document version 1 5 a nAi r Data acquisition modes available Document Type Technical note on the BeanDevice 12 7 2 Step 2 Configure your BeanDevice into Commissionning mode Commissioning mode is displayed on all the BeanDevice belonging to the same Multicast group A eo SDOODODDAD6G Lo me 454 Commissioning Add BeanDevice imt 12 7 3 Step 3 Multicast a configuration to your Multicast group FETI Netld Platform Beandevice PowerStatus MulticastStatus DownloadStatus LoggerStatus UsedMemory v a ooon 3x20 wang NAC 10 0x 005eDo00noeoacs wo pes o mem 0 Sce 102 AX 3D Xarge NAC ID Ox ODISEOQQINEDICT a Rm oe obi scr Please consider the environnement before printing this document Page 91 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 13 APPENDIX 1 FLOWCHART DIAGRAM FOR EXPERT USER ONLY 13 1 LDCDA DATA ACQUISITION MODE WITH SLEEPING POWER MANAGEMENT Is Radio TX activated Perform a Ane Transmit the acquisition
65. printing this document Page 87 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Choose SSD Smart shock detection Enter a sampling rate of 50Hz during a shock event acquisition Event acquisition duration 10s Uncheck No survey cycle Choose the data logger option here TX and Log Click on validate to enable your new configuration A Pop up window displays the new configuration If the new data acquisition mode configuration is accepted by the BeanDevice all the parameters are displayed in the frame Current data acquisition mode Please consider the environnement before printing this document Page 88 102 Rethinking sensing technology Document version 1 5 nAir Data acquisition modes available Document Type Technical note on the BeanDevice 12 6 1 Graph display SSD data acquisition mode on the BeanDevice AX 3DS Measure 0 1131 Measure reading Mode Shock Detection A itam Observed values 14 03 2012 14 03 2012 14 03 2012 14 03 2012 14 03 2012 18 11 58 18 12 00 18 12 02 18 12 05 18 12 07 Time Please consider the environnement before printing this document Page 89 102 pe Rethinking sensing technology eanAir Data acquisition modes available Document Type Technical note on the BeanDevice 12 7 SYNCHRONUOUS MULTICASTING 12
66. seeeeessss 93 13 1 Survey data acquisition mode with Sleeping Power management seeuusss 94 13 1 Streaming data acquisition Mode with Sleeping Power management 95 13 2 Streaming Packet data acquisition Mode with Sleeping Power management 96 13 3 SSD Smart Shock Detection ccccccccccccssssseccceeeeceseeseeceeeeeesseeeseeeeeeeessaeeeseeeeeeeesssaaaeeeeeeeessaaaasess 97 13 3 1 Shock Detection FIOWCHALMT cccccccccccccessseeeeecceeeseceecseaseeeescesaseceeessaaaeeeessseaaeeeeessaageeeeesaaaaes 97 19 91 EES FOWA aeneis ombquidiur o std cios tgsbsosbentu bys ceaneyd aes UNS Dnb sub sUtE Seed UUUNUE 98 14 APPENDIX 2 HOW TO PREVENT A BEANSCAPE CRASH esee 99 14 1 Disable keep alive function eeesssssessesseseeseeeeeeeene nnne nnne nnn nnne nnn nnn nnns 99 14 1 1 Disable the Keep Alive on your BeanGateway ccccccccssesseeeeeeeeeeeeeeseeeeeeeeeesaeaseeeeeeeeeeeaas 99 14 1 2 Disable the Keep alive on your BeanScape ssssssssseeesssseeeeeeeennne 100 Please consider the environnement before printing this document Page 4 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice Disclaimer The information contained in this document is the proprietary infor
67. t is intended to describe the different data acquisition mode available on the BeanDevice how to configure these features from the BeanScape and systems restrictions Please consider the environnement before printing this document Page 12 102 M E Rethinking sensing technology Document version 1 5 er i B e a n Al r Data acquisition modes available Document Type Technical note on the BeanDevice 6 ADVANTAGES amp LIMITS OF EACH DATA ACQUISITION MODE The following table presents the advantages amp limits of the different data acquisition mode Low Duty Streaming amp Cycle Streaming packet Smart Shock Detection Wireless Stack compatibility Low consumption Low Duty Cycle Data sampling d d nini i B d uuu Data acquisition type Class of application a Q a Q a a Q a Q a Q Q Q a Q Q Please consider the environnement before printing this document Page 13 102 Document version 1 5 Rethinking sensing technology Data acquisition modes available Document Type Technical note on the BeanDevice 7 DATA ACQUISITION MODE AVAILABLE ON THE BEANDEVICE The following table presents the different data acquisition mode available on the BeanDevice BeanDevice BeanDevice B BeanDevice f BeanDevice M geanDevice ONE T ONE BeanDevice INC HI INC HI AN 420 AN U AN 420 AN e BN ONE TH ONE B AX 3D AX 3D INC HI INC M inc HI iIn
68. way v Step 7 The BeanDevice goes to sleep 8 7 3 During a Survey If survey feature is activated the BeanDevice wakes up on a duty cycle Y Step1 The BeanDevice wakes up v Step 2 A Data acquisition is performed Y Step 4 If a Data Transmission feature is enabled The data acquisition is transmitted to the BeanGateway v Step 5 A Network diagnostic is automatically performed and transmitted to the BeanGateway Yv Step 6 The BeanDevice goes to sleep The data logger is not activated during a survey Boo SSD Smart Shock detection during a self test Data Acquisition amp t Network Diagnostic Start sleeping Data Logging transmission Wireless TX BeanDevice wakes up a shock threshold is reached EEE EEE gt Please consider the environnement before printing this document Page 33 102 Rethinking sensing technology Document version 1 5 Data acquisition modes available Document Type Technical note on the BeanDevice 9 SYNCHRONUOUS MULTICAST ROUTING 9 1 OVERVIEW A synchronous multicast routing enables the delivery of an OTAC request to a set of Beandevice that have been configured as members of a multicast group within the WSN Step1 The BeanScape transmits to the BeanGateway a message containing the OTAC request followed by the multicast group BeanScape STEP1 BeanGateway OTAC Request multicast group Please consider the e
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