Worldsensing S L LG-G6-ANALOG4 Analog wireless datalogger User Manual User guide

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LS-GS
USER GUIDE V1.7 September 2016
GATEWAY
DATA
OONFKIUM‘I’DN APP MANAEEMENT
DATALOBBEI
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IS-GG USER GUIDE V1.7
1. INTRODUCTION" .7
1.1. About this dowmont 7
1.2. Product wcrvlow.. 7
2.1. Equlpmont. 7
2.2. Dmlcggeri tallction 8
2.2.1. Initialize catalogue! .....
2.2.2. Sensoroonneotton...
2.2.3. Dalaloggermoumin
2.3. Dmluggsrcnnfigumiun
2.4. Gatewavinstullntion....
2.4.1. Gateway overview
2.4.2. Powering the Gutewav
2.4.3. Mounting oi the enclosure.
2.4.4. SIM Card....
2.4.5. Ethernet connection
2.5. Gateway configuration
2.6.1. Connecting to the Gateway...
2.5.2. The Getawnv'a configuration and data coco-s ntertsca .
2.6. Data visualization and retrieval.
2.7. Maintenance..
2.7.1. General Maintenance ..
2.7.2. Perlodical maintenance
2.7.3. Return material authorization
3. LS-GS DATALOGGERS
3.I. LS-G6-VW 46
3.1.1. Senior connection 45
3.1.2. Barometric measurements 47
3.1.3. Battery lifespan 47
3.1.4. Configuration 48
3.I.5. Data storage.. 48
3.2. LSGSDIG ...... ”“48
3.2.1. Sensor Connection 48
3.2.2. Battery lifespan 50
3.2.3. Configuration 50
3.2.4. Data stores 50
3.3. LS-GG-ANALOG 51
3.3.1. Senior Connection .... 51
3.3.2. Buttery Iitnpan 52
3.3.3. Configuration 53
3.8.4. Data storage 53
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LS-GS USER GUIDE V17
4. WIRELESS RADIO...
4.1. Maximum number of dataloggen connected
0.1 Radio configuration ............
‘3. Results of signal coverage Iaet
5. CONTACT WORLDSENSIN
Annex 1: Details of mounting systems .......................................... 61
Mourning bracket:
Strong magnets
Pole mounting...
Annex 2: Android compatibility ...................................................... 66
Annex 3: LS-GG water tightness .................................................... 67
Annex 4: Recommended batteries ................................................. 68
Annex 5: Communications security ................................................ 69
Long range radio communication "om dataloggars to gatewa
Security 69
Encryp on. 89
Gateway user access.
Remote aoeeaa ,,,,,,,
Local administratio
Annex 5: Connecting an external modern to LS~GE ....................... 72
Initial configuration a! AirLink RVSO (via Ethernet cable).,.
Final Step: Connecting the L966 Gateway to AirLink RV50
Annex 7: Connecb‘ng a Wi—Fi module to L5-l35.............
Olntareonnectlon between Wireless Bridge and Loadeensing Gatewayl
Annex 8: Troubleshooting reference table
Galeway....
Dataloggar:
Annex 9: FAQ's ............................................................................... BO
Annex 10: Madbus memory maps ................................................. 62
General Section ............................................................................... ....82
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I5-GS USER GUIDE V1.7
FIGURES
Figure 1: View oi the recommended positions to open the dataiogger
Figure 2: Removal oi the upper enclosure oi the battery holder
Figure 3: Detail oi power switch (SW A). .. 10
Figure 4: Detail oi the grounding screw. 11
Figure 5: a) Main screen of Android Configuration App and b) Node configuration screen,
which has to be accessed iorthe configuration oftne datalogaar.... 11
Figure 6: Network sine oonilguration...... 12
Figure 7: Sensor configuration options for LS-GGvVW-S ch. 13
Figure 8: Senuor configuration option: oi LSGS-DlGZ ch...“ 13
Figure 9: Senior configuration options oi LSGfiANALOGddI. 14
Figure 10: Data readings oi active sensor: 15
figure 11: Radio configuration lemon... 15
Figure 12: Fladio signal coverage periormod at the end oi the datalogger setup (using the
Setup wizard). 17
Figure 13: LS-GB Gateway. with all the trans Indicated... 18
Figure 14: LS-Gfi Gateway opened. 19
Figure 15: Detail oithe connections ior the Power through POE 19
Figure 16: a) Section of shielded Ethernet cabl h) Detail of the connac n for the Power
through PoE using a ahielded Ethernet cab! 20
Figure 17: Wiring oi the cable at the RJAS connector (lollowing T-EGBNB apecificationl to
be insened in the PoE Injector. 20
Figure 18: DC terminal block. 21
Figure 19: Gateway mounted on a pole. 21
Figure 20: Gateway mounted on the wall. 22
Figure 21: Gateway mounth on a poi 22
Figure 22: Gatewey's antenna mounting 23
Figure 23: Connection oi the antenna cable to the connector. 23
Figure 24: Fixing of the antenna cable. .. 24
Figure 25: SIM card slot. Extraction button ind ated 24
Figure 26: PoE. Leit port (Data 81 Power Out) is for fire power cable and 'ght port (Date In)
25
is for data transmission
Figure 27: Initial page at the gateway. 'i a Is the first page when entering the Web‘s
Configuration Interline
Figure 28: Summary oi the dataloggor status and the h nary oi received / lolt manages.
Figure 1% Gateway status page 31
figure 30: Wow oi the tool to create a solfAconiigured eiv tile oi the netwoni data. 32
Figure 31' V'ew oi the lmemat configuration tab of the gateway. The present
configurat n in the one by default ..... ...33
Figure 32: Options ior manual configuration... 34
Figure 33: Settings for the configuration oi the GPRSISG connection. 35
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LS-GS USER GUIDE V1.7
Figure 34: Remote Access lab. incide the gateway interface.
Figure 35: Radio configuration tab, inside the gateway interface
Figure 36: Delete all tab, ineide lite getaway interface.
Figure 37: Reboot tab. inside the gateway Interface”
Figure 35: In the “Last readings" tab, a gear icon appears on the ght, for editing the
formula of tha unset.
32338
is
Figure 39: Menu to edit the formulae for translorrnmg the raw data of the sensor: into
engineering unite.
Figure 40: Clrcled in red. the Icon to display the chart- of each of the sensors.
Figure 41: Example of a chart of one dataloggar.
Figure 42: View of the screen where the .cev files of raw data and date transformed into
engineering units (of the complete network) can be downloaded“ ...4t
Figure 43: View of the screen where the data of a specific datalogger can be downloaded
Figure 44, ew of the screen where the FTP can be configured
Figure 45: View at last message: received by the gateway, displayed In API format 44
Figure 46: Detail of a terminal block...
Figure 47: View of the inside of the digital dalelogger connected to a RST inclinorneter
and bi Silgoo inclinumelar....
Figure 48‘ View of the LS~GG>ANALOG dataiogger internally where the four channels can
b. idem ad. .. ...51
Figure 49: View of the wiring of the different types ol analogue sensors. indie-tad in the
Android Configuration App, .. 52
Figure 50: Summarired scheme of data transmission overtime in a LS-GG network. 56
Figure 5|: View of the geographical display (in the software of the gateway) indicating the
results ol the signal coverage tests. 58
TABLES
Table 1: Connection: of the terminal block. .....
Table 2: Indicative lifespan for LS VW dmlagger 1 oh luslng 1 C-size cell) and LS-VW-
datalogger 5 ch (using 4 C-aile cells)...
Table 3: Tuna of data storage iwithoul ovemritingl for LS VWdataloggar l ch and LS
VW datalogger 5 ch..
Table fit Indicative lifespan ler LSDIG datalogger. Estimation: using 4 crsize cells...
Table 5: Indicative lifespan for LS«DIG datalogger. Estimation: using 4 c~eize calla...
Table 6: Indicative storage capacity of the LSDIG dataloggar. Estimations using 5
sensors.
Table 7: Indicative lifespan tor LS—ANALOG datalogger. Estimation; ueing 4 o—eize cell
considering SFB
Table 8: Indicative Itorage capacity of the LS Gateway Status
In the gateway statue menu, the following inlormation it displayed (Figure 29).
0 General Information
a Gateway eeriel number
I Shows the hardwate'e serial number. This value cannot be
changed.
0 Gateway Model
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LS-GS USER GUIDE V1.7
I Showe the hardware model.
a Firmware version
I Shows the current Firmware version. The gatewey's firmware can
be remotely updated by Wondaenaing Technical Support, as long
as the gateway has an lntemet connection. and remote access it
working (see below)
0 Date
I Show: the current data. according to the gateway/s internal :loclt,
always in UTC
0 Uptlma in mlnutoa
I Show the tlme ln minutea aince the gateway waa connected or
rebooted
o Input voltage
I Show: the voltage that powers the gateway. This reading has a
precision of 91- 0.35V
0 Voltage history
I Link to a .oiv file that Includes the historical records of the voltage.
every 15 minutes. Not separated by months.
0 Application status
a Network ID
I Sham the current eeneor radio network ID
0 Internet connection (ping)
I Show: ifthe gateway is able to connect to the Loadsenaing sewer.
in order to check (or connectivity.
I Check the "Internet configuration” section for more information on
this check.
0 Status reporting
I Shows it the gateway is able to send status reports to
Worldsensing.
I These reporta are sent via HTTP (port 80] to
loadaensinu.woce3.com. and will provide intonation on the
gateway's status to Werldaaming technical Support
0 Remote acces-
I Shows if the gateway is able to open a remote access connection
to the Worldseneing server.
- This service uses a TCP connection to Ioadsensingmocsticom, on
port 22
- The remote access mechanism is need:
a To provide the Loadsensing Remote Access Service. which
allows remote access to the Web Configuration Interface
0 To provide remote access capability to Worldaenaing
Technical Support. which allows for remote support and
remote updates of deployed gateways
a Network Iniorrnation
Show: the parameters of the currently actlve network configuration
3 Selected interface
I Shows the connectivity to the Internet that has been selected by
default or manually.
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I5-GS USER GUIDE V17
0 Ethernet news, I? and Netmeek
I Shows the etatue ol the Ethernet interface (upldown), and the
current address it there is one
o GPRSISG statue and IP
0 Shows the stems of the GPRS/SG interleee (up/down), end the
current adores: ii there in one
o Deleult gateway Ind DNS servers
e GFRS Modern Inlo
0 Status
- Indicates It the current mm of the GPRS modem I: correct
0 IMSI
- Identification number of a certain user in a cellular network,
:7 Operator
- Telecommunication operatorueed for the GPRS modern.
e Roaming
. Indicates whether the iu'nerlnciee of date in warning mode is
activated or not
0 Made
- Indicates the technology (algorlthml used In telecommunications
to define the channels and bandwidth to he need (CDMA or
WCDMA).
o Signal
. Indicates, in percentages, the signal coverage of the
telecommunlcetiom operator.
' LOCJIIOH .798 9063. 8 number "‘3‘ allowe identification
' Cell identity
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IS-GS USER GUIDE V1.7
Gateway status
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> Log:
In the Logs page. the name actions are reported and the user can select by dates the lone
to be displayed.
2.5.2.1 Configuration
The configuration tel: shows the different configuration options.
) General
The gateway has an Internal clock configured in UTC. however, the M! can introduce the
time zone In the gateway software Interface. By doing so the user M" be eble to retrieve
and visulllzl the tilt: in loci time.
> FIT client
In the configuredon tab. the uler can configure an FTP clIem. In orderto push the data
stored every 15 minutes in the gateway automatically tn the server (see 2.6 Data
vIsueIIzetIon end vetrIeveI).
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LS-GE USER GUIDE V1.7
Note that 3 dlflerent protocols ere Ivelleble (FTP, FTPS end FTPS (lgncrlng ulf-ligned
certificates». FI'PS mode requires that the server he: a Iecurity certificate, while FI'PS
igncm the presence 0' thin certification.
The output ol the FF? upload can be a new file every time that there in an upload. or
alternatively a modificatlon ofthe monthly generated file.
> Compactod CSV
This lecture allows the user to create a eelllconligured cev file, with the desired
columns, customized header names. column order. etc. (Figure 30). The maximum
number of columns le 520 (maximum Iupported by Excel). Once saved, e cev file
called 'ccmpacted—cuetom-readinge—XXXX-currenl.dat" (XXXX being the network ID)
is created. Every time a new compacted cev file is created. the old one is saved with a
variation of the euffix ”current" by 'yyyy-mmhengex". This file appears in the
Network; main page, where the files to download are visible.
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Thil lecture will eliow access to the data from the Loedsensing seniors vie Modhuc
TCP protocol. The Modhus cadres maps can be viewed in the Annex 8.
> Internet
In the configuration tab, the user can also change the Internet ccnnectlvity detail: (Figure
31). By deleult. this is set in the automatic mode (Figure 31 ).
it is possible to select 3 custom NTPeerver (lrom a local netwerlil. A custom SMTP server
can ello be configured.
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LS-GE USER GUIDE V1.7
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I Network Watchdog
o The Network Watchdog is the mchenilm that check: whether the Internet
connection is working properly.
o Thle mechanism checke internet connectivity every minute. by sending a
ping request to Ioedeeneingmoaacom
o if the gateway is unable to communicate with the Ierver for 40 minutes, it
will assume there is a problem with the connection. and reboot the
gateway
o The Network Watchdog must be diubled ii the gateway does not hove an
Internet connection
- it a getaway with no Internet connection in lelt with the Network
Watchdog enabled, it will start a reboot cycle every 40 minutes.
This will lead to eeneor date lose. ae date entering during the
reboot cycle will not be stored
a The Network Watchdog Lt enabled by daleult
e Network connection
0 Automatic (default)
I in automau‘c mode, the network conneixion mode is automatically
configured upon gateway stamp
- if e connected Ethernet cable is detected. an Ethernet connection
with DHCP will he need
e An Ethamot cattle is connected it there is eorne kind of
network equipment lfor example a router or a switch) on
the other side of the cable. The PoE Injector doesn't count.
I it no Ethernet cable connection is detected. the GFRS connection
will be launched, with its configured parameters
Manuel configuration (Figure 32).
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This setting will override auto—detection, and always launch a GPBSnG connection
. Ethernet with DHCF
- This netting will override auto-deteaion, and always leundt
an Ethernet connection, getting the configuration
automatically through DHCP
. Ethernet with Static IP
I Thie setting will override auto-detection. and always launch
an Ethernet connection.
e In this mode. you need to manually set all parameters of
the network configuration:
0 IP Address
0 Netmesk
0 Default gateway
0 DNS server:
- NTF sewer (to synchronize the gatewars clock)
0 The NTP server by default has to be accessible through the Internet, so
normally, if the gateway is connected to the lntemet, it is common to use
an NTP :erver.
n Even in eituetions where the gateway in not connected to the Internal, it il
III" common have a custom NTP eervet: which may be ln e local server.
0 SMTP server
a The default option is to use an SMTP server through the Internet‘ In the
case at the gateway not being connected to the Internet thin option would
not be valid.
A cuntom SMTP server can be defined it the gatewey ie not connected to the Internet,
however the monitoran e~rnelll are still requlred. A custom SMTP aerver can be placed In
a local nerver.
) GPRSIJG
The GPRSIZG oonflquretion tab (Figure 33) contain: some configuration parameters
lpecllic to this type 0' connection.
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LS-GS USER GUIDE V1.7
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This configuration will be applied whenever a GFRSIRG connection is mad. regardless ol
whether it min the vault of on automatic or manual configuration in the Internet tab.
- PIN setting
0 Oil (delaultl
. In this mode. the gateway will not try to unlock the SIM card.
' If the SIM card is protected by a PIN cool. the GPRSISG connection
will loll
o On
- This setting will allow you to enter the PIN code for use with a PIN-
Iocked SlM card.
. Be careful not to boot the gateway with a PIN Remote notes!
This page will allow you to change the peuword used for remote m to the Web
Configuration Intertaoe (Figure 34).
The new or the Initiet provided [3er will he required to acceee the gateway either
through the public network interface, or through the Loadeeneinq Remote Aeoeee Service.
Be careful on setting weal: passwords. This will make your gateway noceealble lrom
anywhere on the public network. or anywhere on the Internet it you have In Internet
connection.
In order to change the password lrom the public Interface or from the Remote Awe“
Service, you will need to input the previous password. This is not required if you are
connected through the local administration Interface.
The default factory peeeword is printed on the Gateway Intormation Sheet. Once you
change the password, there ie no way to recover It,
In one of a lost or forgotten remote ecoeee password. you will have to use the Loco]
Adminiatration Interface to change i! to a known one inaction 2.5.2).
Remote access
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IS-GS USER GUIDE V1.7
View only pmword
This view is designed to provide access to uaers that are only allowed to see the data
collected in the network but are not allowed to change any at the configuration
parameters. The "View only‘ user has to be defined by the administrator.
) Radio
This page allows you to configure the parameters ot the Wireless Sensor Radio Network
(Figure 35). There are three diflerenl gateway models, according to the geographical
areas in which they'll be placed. In addition. depending on the countrYs regulations, the
radio configuration will be eat specifically.
Note that tor some countries, an advanced menu can be displayed. This refers to the
possibility ot choosing different channels through which data can be sent. in each
epreeding factor. This will be ueeiul for projects with many dataloggere (hundreds).
sampling at a high rate. Some dataloggere would be set at one group (and also one
gateway) and some other nodea at a different frequency group tend also a aeoond
gateway configured to this other group) and in this way possible collision can be avoided.
Note that if the user changes the default configuration ol the advanced options, these
should ll» be changed In the datelogaer configuration (In not/one 2.3. and 4).
in order tor the L568 dataloggere to be able to connect to lhle gateway and send data.
both the gateway and all participating dataloggere need to be configured with the same
parameters.
e Network ID
0 A numeric identifier ot the wireleee sensor network
a Set by default to the serial number oi the gateway
0 Should only be changed it it you‘re replacing a gateway and don't want to
reconfigure all datalaggere in the network
- Network Password
o This password is used to encrypt all data In transit on the Wireless Sensor
Network.
0 The default tectory password ll printed on the Gateway Iniormation
Sheet.
9 Once you change the password, there is no way to recover it. Vou will
have to change it to a new one in the gateway as well as in all dateloggera
in the network.
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In order to delete all the data contained in the gateway (but no| ail the configuration].
the ueer he: to access the lab "Delete all date" [figure as) and follow the inuuuctione.
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LS-GS USER GUIDE V1.7
> Reboot
Alter changing some of the configuration parameters at the gerewev, ll needs to be
reheated to apply the changes ifigure 37).
Reboot
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2.6. Data ulsueilzatlon and retrieval
For all models, data files (.csvl can be retrieved by USB cable from the denlogger using
the OTG USB cable, through the Android application DLOG. The option lor downloading
data ie in the "Seniors data" lob. using the arrow pointing down The data flied can also
be sent via email.
For the radio models only. the date is sent to the gateway and is retrieved from there. In
the gateway it is possible to display the data collected In the nodes, transformed lmo
engineering units end with e graphical interface. The storage capacity of the gateway is 8
65.
For the transformetlen Into engineering units. the user has to introduce the required
lormull. depending on the eeneor. In the Last readings tab. when eelectlna a node, e gear
icon is pieced to the far right of each channel's lest reading (Figure 38). By eliciting thi-
icon, the menu to edit the formula corresponding to the sensor is displayed (Figure 39).
The formula has to be selected from I drop-down menu of several Linear and Polynomial
formulae available.
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IS-GS USER GUIDE V1.7
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Gateway data vicualizalion and retrieval In possible by mooning Ihe ultewey (locally or
lhrough Illa server) and clicking the icon next lo each header (Figure 40L
Dell visualluuon in the ohm: ls of only the last we madlnm 0! each sensor. In each
than, all the moon annealed lo a dalalongor are dleplayed. Some «mom may be
deactivated from the chart by Ille- user (Flume 41)‘
Under Ihe Configuration lob. the time zone ol the gateway can be configured. II in
imponanl for curred display of the char“, 3: olfierwise they will he Ihawn in UTC.
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IS-GS USER GUIDE V1.7
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Retrieval ol than can b- dom Into two dlflerem ways:
0 Geneval nelwurk files: three ldat files are available on download (Flume 42):
o compacted mdlngs of raw data from the dimmers
o wmpaclsd landing! in angineiring unit:
a comp-cud wnom nadingl (awed by the “Command CSV" opu‘onJ
A WHY wlm stable Immn mlon through SIM card and I Ilnglo (commend)
FTP upload usually consumes In the vicinity of 150 MB/momh. The FTP upload happens
mry 15 minum, and il Illa existing file in the H? 'u cann‘mm, only nsw fills in
uploldod and aim" Ipplndcd to m. wining filc cl 0 MW lih iI amt-d. In the on. thll
the lilo in corrupted or removed, ma whole file is uploaded tag-in. to umure that [here i!
always I complete copy in me server,
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IS-ES USER GUIDE V1.7
Nate rhul [he file when? (he new dale is saved is called xuxxx-curromldall The aurren! file
ls preps/ed m suppon up In 520 columns.
At Ins and a! rhv manm, the file is closed and named xxxxx»yyyy-mm.da! lyy'yywaar:
mm: mnmh)‘ Files or pasl mnnlhs can be ralliaved by clicking '+ Mme" below the
current file During the process a/closing [he Me and changing lhe name, (hers is a delay
of 1.5 hours.
. Spocific fills for nah of the nod-s: mo (xv filu are available In downlold (Figun
43):
a hullh (mainlnq hamrv in V. lempcmuro In Celsius and uplime nude in
seconds)
:1 dm readings (raw am)
a— nu—(u—u Inc—1mm “*3
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In (ll- configuration uh, also the FTP can he oonfigund lFiguru 44). The Hair can wedfy
the FTP mingl Ind this file: that may want upkndad. Whln m. FTP in first configured in
the gateway, an upload [an is nation-null.
Th- fllu can b. uplo-dcd w lhl FTP:
a Sop-mly, par nad- typo. Fllu In puihod only 15 mlnuua, ln ml tlmcl
0 Command in on! film Filu III pufllud mrv 15 minum; flown-r. this
option is delayed owl-om rupee! lo the real (inn The moon (01 ml;
dolly 5: "II! the Dump-clad flu is gun-mod wary hour. lull in on!" to
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LS-GS USER GUIDE V1.7
avoid conflict: between reception of data and the file ere-flan. the file le
created with 1 hour delay. The new date can be uploaded in a tepareta file
every new uploed. or by appending the new data to the end oi the existlng
flle. The data consumption In both cases In similar.
The available protocol: for the FTP are: FTP, FTPS (which requires a security certification)
or FTFS lwlthout eecunty cenmmlon). The folder to which the data I: uploaded can be
directed by a relative path. or by the full path. Det- cen be eoceeeed through http cells.
The way FTP upload work: is like this:
1. Gateway checks whlch was the last date uploaded In the FTP file
2. It uploads the lollowinq data [in the same file).
3. If the gateway doesn‘t find the file (because it was removed) it uploads it again item
the beginning of the month.
mumwmw-anmmMmoa-W
Alternatively. the lest messages received by the gateway are displayed in API lormat. This
an be viewed under the lab 'Lett Messages" of the aoftwere lnterlnce (figure 65).
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IS-GS USER GUIDE V1,?
memuumwaymm much-mm
2.7. Maintenance
Proper maintenance of LS-GG component: is essential tor obtaining accurate data,
Equipment must be in good operating condition. which requires a program of regular
impaction and maintenance. The person In charge at the logging system can carry out
routine and Ilmple maintenance; The more difficult maintenance such as domlogger
calibration. datalogger pariorrnance tasting, and datalogger component replacement.
should be done by someone from the Worldsenslng technical support team or by a
oertifled distributor.
A station log should be maintained for each monitoring site that includes serial numbers,
dates at site inspections. and maintenance performed.
Elli-nerd We
0 Check sensor leads and cables tor cracking. deterioration, proper routing. and
strain relief. Replace sensor cables if required.
0 Chooit that the box junction and cable gland are dry and completely tightened.
- Check that the screws are correctly looked and the enclosure lid is in perfect
condition,
- Check battery iiie periodically Replace when less than 20% remaining.
272, Wit: maintenance
1 Month
3. Monitor data values collected by the unlta periodically. Abnormal or out oi range
aenaor values may indicate problems with the unit.
b. Monthly visual inspection of the station to observe any apparent problems.
2. Do a visual inspection of the tensor: and position of boxea.
6 Months
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I5-GS USER GUIDE V17
a. Inspect the enclosure seal,
12 Months
a. check battery lile periodically, Replace when lees than 20% remaining.
2-: years
a. Battery replacement. The lifetime ol the battery depend: on the use of and: node,
number of channels. sensors. etc.
2.7.3. Whmetulal adult-Hon
Product: mev ncl be returned to WS wilhoul prior authorization To obtain a Return
Material Authorization (EMA). please contact W5 technical eupponv After the nature ol
the problem ll determined. an RMA number will be laeued. Plane write title number
clearly on the ouuide of the shipping container. The following contact iniormelion ia lor
international customers residing in countries served by Worldsensing S.L directly.
Worldsenaing's ahipping address is:
WORLDSENSING. S.L
Ange 383, 4"
08013 Barcelona
lSpelnl
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LS-GS USER GUIDE V1.7
3. LS-GE DATALDEGERS
3.1t LS‘GE-VW
3,1.1, Sensor connection
Most ol the vibrating wire sensors can be interfaced to the LS-GG~VW.
The dmalogger is supplied with cnhle glands (one for each channalL lor the adjustment to
dinerent cable diameters.
After each terminal block is connected. taking a sensor reading is recommended in order
to ensure that the connections have bean done correctly. This reading should be
compared with the reading of the tumor on Installation with 3 portable readout unit.
belore connecting to the LS dalaloggcr‘ Note that some configuration is required during
the installation (see section 3 0! this manuall.
Cabins must be connected in accordance to the following table:
Each terminal block has a group of 5 connectors.
Each group has:
. ‘Ix Vibrating wire channel
. 1x Thermistor channel
. 1 shield terminal
An example ol tho connmlons for one terminal block Fl’abla 1 and Figura 46l ls Ilsted
below.
icon 1- Connem- n! the rennin»! Mock.
Uud to connect thc «mar nhlold if needed
Thermimr input 2. No polarity.
alumnus! voltage Input 2.
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LS-GS USER GUIDE V1,?
11.2. Barometrk measurements
The dmlogger Includes a barometer (BOSCH BMPIBO device). h is Important to avold
placing the datelogger inside any type of containerr This would affect the correct reading:
or the barometer through the were velvet
If the Vibrallng Wire sensor requires barometric preesure oompeneation (such as
plenometers inctalled in lot-aliens which can be afiected by changes in barometric
pressure). the current pressure readings (rem the barometer are usually used dlreetly,
The treneiormed data (compensated by the barometric pressure) is displayed if the user
selects the option “Polynomial A whh compensation" in the Engineering Units drop—
down menu (nee section 2.6).
In the case that the desired measurement is the atmospheric pressure at the sea level
(commonly used in meteorology), a correction of the barometric readings is needed.
The formula for the correction of the barometrlc reedlnge in order to provlde atmospheric
pressure at the sea level is:
"' mum ““
("m
pox pressure at the sea level in mbare
p: current preuura reading
altitude: altitude in m.e.a.l.
11.1%me
The followlng table gives the lndlcatlve battery Ilfeepan per channel (Table 2). User
should take into account that consumption varies depending on the sensor used, the
sampling role and the environmental conditions.
rmr-anmwmmmurmrmg lC-nuc-llllndLS
vw domlowersch. («uncle-in an.)
so 5 so 5
mlnutee mm 3”“ minutes mlnutel 3””
3 310 2
month: ware 5"." months
>10
veere
7mm
NOTE: Extreme temperature: could cut down the capacity by 20 to 40%. check the
Ipeclficatione of your betterleet USB not used.
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LS-GS USER GUIDE V1.7
11.4. Cnrrflgurltim
The vibrating wlre node requires configuring the sweep irequencv before starting. There
are several exietlna predefined aweep lrequenciee:
Sweep Frequency A i450-1l25 Hz).
Sweep Frequency 3 (800-2000 Hz).
Sweep Frequency C (“00—3500 H1).
Sweep Frequency D moo-sow Hzl
Custom Sweep Frequency (min value: 300 Hz mex value: 7000 Hz).
For the configuration at the radio communications at the detalagger, see section 13 of
this manual.
3.1.5, Data storage
The internal node memory size is 4 MB. The 5—channel deiolugger connected to 5 sensors
store: up to 73.500 readings. The H:hannei dmlogger stores up to 200.000 reedinge.
Times at date etcrage lor LS detelogser 1 on and LS deuiogger 5 ch are Indicated In
Table 3. Memory mode it a circular butter. When memory ie luil, logging continuee UV
overwriting earliea readings. Besides the date lrorrl the sensor, health data is collected
hourly, which indicates the battery voltage. the internal tempereture of the node and the
node uptime.
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3.2. LS-GE-DIG
3.2.1. Sensor Connecticut
LS-Gs—DIG detelogger eupporte 3 different eeneor modeie by default (R5485 port):
- Gemenee lnciinometer (Wm;
- HST lnclinometer (W
e More models can be added with the development of drivers by Worlmensing
developers. Contact Worldeeneing technical support.
Regarding power consumption Werldeeneing ensures that up to 30 Geeeense/RST
lnclinumetere can be safely powered from the detalogner. For the Siegeo inclinumeter ‘5
wuemszmswa Arno, new floor can): summ- Shin l-y-le: Me as as 43/
LS-GS USER GUIDE V1.7
can be powered”. However up to 60 sensors may be lead and transmitted by the
dataloggar. ll more sensors are [0 be supplied, an external I? V battery should be
connected. In this case, Contact Worldsensing.
The wiring ls indicated in the R5485 port 0' the datulogger. The dutelogger has to be
placed at HALF to read the inclinumeters. For the connection ol digital dawloggers at SDI
ports the wiring has to be checked at the sensor specifications.
3)
h)
Fagunll' Wmvnllltl mmrmwumammmmmnnsr
indlnamfler mu a; stag” he'll-omelet.
LS-G5DIG dataloggers (Figure 47) can also support other digital sensors. with SDI
interface connection. These types 0' sensors are nol supported by default by the
datalogger, but drivers can be developed by Worldsensing engineers. The wiring for the
sensors with SDI intertaces will depend on the model of the sensm; however, the label 0'
each terminal is indicated.
2Tested with a chain at a Sisgeo inclinumetets.
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LS-GS USER GUIDE V1.7
322. Battery litespan
The following table gives the indicative battery lifespan per channel (Table 4 and Table 5).
The ueer should take into account that consumption varies depending on the sensor
used, the sampling rate and the environmental conditions.
3.2 2.1. Beosense I RST IDI
You: A. lndlul‘ve "re-pm I»: were analogue]. hummus using 4 mice Dell!
2 hour: 30 mlnutel 5 ml nutes
10
months “norm“ Zfidnye
6 hour!
5.2 year:
32.22. Srsgeo IPi
rm: 5. Mimi»: "Ire-pan Iur 15-0/6 «mi-mm. Fslhnnlions using 4 man.- or":
2 hours 30 minutes 5 minutes
6 hour:
3.2.3. Configuration
The configuration at the digital dotalogger requires epeoiivlng the protocol of
communication (iron! given options) and the hue addresses at the sensors connected in
the R5486 port. Thll mien ll done through the Android Cenflguretlon App. The but
addresses of the digitel tenoors are lpecified by the menuloclurers. Up to 30 tensor: can
be connected in a bus chain. When connectl no the sensors. we recommend using
resistors. In norm cases, is ole-fly specified by mnnuhetumr of the sensors.
For the configuration of the radio communioetlone of the detelogger. see section 2.3 of
thla manual.
3.2.4. Data storage
Capacity ior up to 90.000 readings from the indinometen, which are two«axie
lnclinometer: with temperature variation calibration, grouped by 5 sensors. (Table 6).
Table 5: Indialive xterm cop-city a! nu.- rsroic dlhlagpel Feminine": using 5
"use".
60 minutes 30 minutes 10 minute-
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LS-GS USER GUIDE V1.7
3‘3. LS-GE-ANALDG
3.3.1. Seanennectlm
LS—GSvANALOG detelogger support: 6 dlfferent [enter models that can be connected
Independently to four different channels (Figure 48):
Vultage [4+ 10 V peak [0 peakl
Full Wheetetone Bridge (39.06 mVl
Thermietar (-40 to 35 “C far a standard 3K ohms)
Current Loop (420 mA. 2 er 3 wlres)
Potemlometer (6 V)
"100 [-40 to 35°C)
rywtmumrsmocwmmvymummmm
autumn.
The wiring of the sensors is Indicated In the Android configuration can, once the type of
serum to be connected to the channel in selected (Figure 49).
a) b} c)
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LS-GS USER GUIDE V1.7
2...... —.. . ._. .
__... ...... .__ __ ,
I; i m... ' i.
3 55s:
(unlit-noun .-..
lg l 43 ..-‘
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Figure at Van nl we willing or m dmwant types olmlogus sensors indie-m in
m Android tonfirrunn’on App
The dataloager can measure both voltage diflemntlal and singla endad voltaga sensors
outputs. The standard wirlng Is for difinronrlal, and lot single ended it is necessary to wln
the negative input of the datologger tn the datalogger ground.
The wiring can be connected once the Setup Wizard in the Android Configuration App
has been initialized. which is when the wlrlng schemes appaar.
3,3.2. Battlry lifespan
The following tables give the indicative battery Iilesnan for the LSVANALOG datalnggor,
iTahls 7 a, b and c) depending on the type 0f sensor, me warm up time and the sampling
rate. The user should take Into account that consumptlon varies dependlng on the sensor
used, the sampling rate and the anvlmnmantal conditions.
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LS-GS USER GUIDE V1.7
Volugo Voltage Volme Voluge
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1 month 15 month! 25 GM
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3.3.3, Configuration
The configuration requires specifying ma excitation power voltage and the warm-up time
for the mars that need power supply (voltagl and current loop sensorsl. For the other
sensors. 5V excitatlon supply is presanl in all channels oonnaaors.
Excitation power voltage can be 12 V or 24 V. and warm-up limes: I00, 300 and 500
millissconds or I. 2. E and 10 seconds.
Sn union 2.3 '0! the configuration 0' ma radio communications 0! (he don-logger,
3.3 anal-storage
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LS-GS USER GUIDE V1.7
Table 8).
Table I; lair/um: stolen: capacity of the rsumoc among. summons using
4 “II
Gom- sommm laminat-
4. WIRELESS RADIO
4.1. Maximum number of dataloggers connected In a network
The number of daleloggers that can be connected in a radio natwork ls limited by the
number of mousse: that can be tranlmilted over a period cl time. All nodes in Ihe
network take their readings at a synchronized time (e43. ii reading every 5 minutes, it’s
every hour, at minute 05.10.15 no an on.). lheu messages are then written to internal
node memory, but are not transmitted immediately. The readings are Irenamilled lo the
gateway at a random time inside e communication slot (Figure 50).
“pt"! 50: Summit-11 m olden "Danni—ion rival time In a LS-Gfl ”emf.
The length of the communication slot depends on the number of nodes in a network
(Table 9). and is chosen automatically by the Andruld Configuratlon App when a node
gate configured. There are also comblnetlem of netwotk Ill! and sampling rate which are
not supported. This Is to prevent all nodes irom sending at the same time and saturating
the network.
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LS-GS USER GUIDE V1.7
Note that LS—DIG doe-n1 necessarily comply with the slot time; table (Table 5) because
reedlng may take longer than WV or ANALOG €11"th
14.2. Radio configuration
Region and country: These valuee have to match the location where the detaloggera are
deployed. in order to comply with the local regulations, There ia a specific gateway modal
for each region, and the gateway must also be configured to the correct country / radio
mode (Tahielo). In order to achieve communication. the gateway and all the dataloggere
on a network need to be configured in the same way.
923A—logacy radio: Thll radio mode he: come difierencea to the radloa on
other modes, In the root of the countries. the gateway is always listening
to all Spreading Factors, and on didarenr lrequenciot. The dmalogger can
choose which SF and frequency to transmit on. In this mode, this ie not
possible. The gateway and all dataloggere must be configured to a
Speciiic Spreading Factor and channel. which must be the same for all
devicea an the network, The default veluea are Channel 1, Spreading
Factor 9. an these will be the values uaed if the Advanced options were
ignored on both the gateway and the Dataloggers.
e Network ID and password:
I:
These values are used to identify a radio network. and to protect (encrypt)
the data in transit. A strong password will prevent a malicioua attacker
from both reading data from your “more and from inserting bogus date
posing at a sensor.
The radio network lD is set try default to the gateway's serial number. but
It can be changed. For example. if you are replacing a gateway, you might
want to set the new gateway (with a new serial number) to the old
geteway'e network ID. so that the dataloggere don‘t have to be
reconfig urad.
The network password ia set by default to a randomly generated value.
which is primed on your Gateway Information sheet. The generated
password is unique to each gateway unit. so it can be used eaielyt
In order Io achieve communication, the geleway and all the daleloggera
on a network need to be configured with the same network ID and
password.
For security reasons, the network paaaword cannot he read lrom a
detaiogger by the Dlog Android app. For thia reason, when entering the
radio configuration dialog. the password dilplayed is the Ian one that was
eat uaing thia Android device.
0 Advanced options:
[Europe ontyl ETSI limit duty cycle: The European Telecommunications
Standards Institute [ETSIl defines a time limit during which a radio device
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LS-GS USER GUIDE V1.7
may transmit on a given lrequency over I iohour period. In some rare
case- (hiqh sampling rates on high 5F), the dalelopger may exhaust its
radio time, and it will stop transmitting until the next hour. This option can
be disabled for testing purposes, or for use In places where the norm
doesn't apply (ca. Inside a mine)
Maximum Spreading Factor. Defines the maximum spreading factor the
datalogger I: allowed to transmit to.
. Lower spreading lecture allow lor luster data transmission, so
more dataloggers can share the same radio space.
I Higher spreading factors allow for more reliable data transmission.
allowing for longer distances and better immunity to intar'erence.
ADR (All modes except 923Arlegacw: ADR (Adaptive Data Rate) is the
mechanism which allows the dataloggar to automatically negotiate the
lowest viable spreading factor with the gateway. When the ADR is on, the
datalogger will always use the highest SF (u set on the previous selector).
Transmit power: Allows adiustlng o! the transmit power, in dB. The
maximum allowed transmit power It specific to each country.
nel (SZSA-Iegscy only): It‘s possible to choose between A different channels
stralia:
Channel 1: 921.9 MHz
Channel 2: 922.5 MHz
Channel 3: 923.7 MHz
Channel 4: 924.3 MHz
nel group (FCC only): In FCC mode. the radio will use frequency hopplnn on
up of 5 channels. You may want In use a d'rfierenl channel group in order to
move away from interierences on specific channels. All devices on a network (the
gateway and all detaloggarsl must be set to the same configuration. lhere are 8
groups to choose item:
uaooooo
Group 0 (Channel: 00417) — 902.3 to 503.7 MHI
Group 1 (Channels 08-15) — 903.9 to 905.3 MHz
Group 2 (Channels 1643) — 905.5 [0 906.9 MHz
Group 3 (Channels 2441) — 907.1 to 908.5 MHz
Group 4 (Channels 32-38) — 908.7 to 910.1 MHz
Group 5 (Channels 40-47) - 910.3 to 911.7 MHz
Group 6 (Channels 48-55) — 91 1.9 to 913.3 MHz
Group 7 (Channel: 56-63) - 913.5 to 914.5 MHz
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4.3. Results of signal coverage test
In section 2.3, the signal coverage tests are premied. There are several ways do get the
result: of lhe signal coverage reels:
1) Receiving the reeuiu of the signal cover-go (am In lhe Android Configuration
App (Figure 12).
2) They are also displayed geographically In me More of the gateway (Figure 51).
In this case, your compular has to be canneaed to the int-mot, to go! the man.
The petition where the taste have been carried 0m in displayed will! a epecific
symbol that related to me coverage or the specific point. The symbol selected
[color legend) lndioaloa the maximum SF from which >50% of the Inlormallon
package. aank by the dolaloggar have reached lha gateway. In red, the places
where 5509‘: china packages of SF 12 are Indicated. The gateway Ia alao Indleated
In the map.
3) Moreover, me resulu ol the signal coverage tens can be downloaded lrom the
gateway In a .eev file (Figure 61, lower rigm corner), If Ilia («I la dana 'oflllna".
lha mull! only Ippearln this owl
Note that wherlrar or not the goreway has received the data from me roan, all the rest:
are saved in 5 ,csv file inside the Android device IDLOG direcro/y]. Geograpn ical data i:
also saved More (:1 GPS la activated in the Android}.
Signal coverage leaks
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IS-GS USER GUIDE V1.7
WIMEMIWvW. BIIA‘MI' um: I-culm‘ 5pm [waltz an nits 59/
LS-EG USER GUIDE V1.7
5. CONTACT WORLDSENSING
PhD/I: +34 93 418 05 35 (08.50?! - 16.30?! UTC)
Tachnlcal support WWW
General Information WW
Wandunling SL
Arugé 383, 4"
06013 Barcelona
Splln
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15-56 USER GUI! V1.7
Annex 1: Details of mounting systems
Mounting Uncut:
Mull: union!
Polycarbonate version
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IS-GS USER GUIDE V1.7
Strong magnets
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IS-GS USER GUIDE V1.7
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I556 USE! GUM! V1.7
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I556 USER GUM V1.7
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LS-GS USER GUIDE V1.7
Annex 2: Android compatibility
The Android Configuration app specifically developed to connect locally with the LS—GB
its-66) datalooaers. allowing configuration, data display and download. This document
provides the basic inlormetlon to know which Android devices are compatible with the
LS-GB deteloggers, and the USS cable that must be used for this local connection
To download the Android Configuration App in your Android device, go the (allowing
link; Wok, Information on how to use the application
can be found in the LS-GG user guide.
In order to be compatible with the LS-Gs dataloggenc an Android device must have the
following specifications: USB on the go (OTGl + Android at least 3.1. From early 2013
most oi the Android devices on the market fulfil these requirements. To check ii your
Android device included the USB O‘l'G feature, just search in the web ” specifications USB OTG" and and re that the Android version is at least 3.1
iAPl version 12) Alternatively, you can download the lollowing app, celled USB OTG
WIN.
Some Android devices may have the U53 OTG loeture locked An example at unlocking
procees ior Same-mg Sill mini can be found In this tutorial:
MW
The connection between the LSGB datalogger and the Android device is done with ”USE
on the 90" cable lOTGl. This cable allows on Android device to act are ”theater“, meaning
Ihat other devicee cln be contmlled from it. The LS-GB detaluggere have I mini USB
connection, while most Andmld devices have a micro USB connection. In order to
connect the Android device to the detelegger an 058 016 cable from micro USB to mini
USB is needed.
1/ “#3
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L‘r-GS USER GUIDE V1.7
Annex 3: iS—GG water tightness
The LS—GG family of datelogger: horn Worldeeneing Industrial iWSIl ere rated iP67. The
deteloggere aleo paeo the IP68 teete lor extended immersion (I meter lo: 3 days) ir the
installer ueee extreme caution.
T0 01‘3“” this OOHHMOI‘, {PIG user CHOU” DO SLIM that:
e After sensor connection, the box in closed following a tron-shape order. By not
lollowing this order. the parellelllm between base feoee and cover may be
missed, screwing may become more dillicult and it can eventually generate a
deiormalion oi the ecrew threat: or the helicoil ineerre. Moreover, lhe Ioric joint
lseel) would not seel properly, so the degree of protection against water intrusion
(IF) would not be guaranteed.
- The box ie ecrewed at 2 Nm, ueing a torque screwdriver (3.9. Rel. 1227101lrom
WERA)
e The cable glands are closed using a 19 mm open epenner (mg. Behoo 19 mm
Single Ended Open Spanner: RS Amidete code 7i7-8992) (holding the Internal nut
using a 22 mm open spanner leg. Behoo 22 mm Single Ended Open Spanner: RS
Amidete code 717-8996).
I The antenna I: mounted. ll it is not, the antenna connector should be covered
with e up.
a The eeeling ring is not manipulated, neither physically or chemically.
If any of these conditions are not given. or it one or several components ie.g. gore valve]
are damaged. the IP67 and superior are not guaranteed.
In the use that it ie necessary that the datelogger is lurther sealed, due to being pieced in
an extreme environment or in a fioodeble manhole. additionel sealants would be required
to cloee the box (eat Slkefiex prudum).
Nora met box ll-‘Im shouldn't be torqued more then 2.5 Nm, for all that the meximum
torque thereenbeeupponedby meboxmbdem. rm. torque in exceeded, the
helical! )neen may be damped. k in not recommended to tree electric drille or electric
ecrewdrr'vere.
wunmszw W . w. 3e: 4‘ reu- neon Inn-rm. seam by] I! All uses 57 I
LS-GE USER GUIDE V1.7
Annex 4: Recommended batteries
LS-GG can work with only one cell battery or more than one (up to tour}. The more
batteries need, the longer the autonomy is.
The recommended bmeriee are LSH 14 models from Sun
a) In
This equipment can work with just one cell at a battery epeoified In the Iollowlnu link
W More paralleled batted”
lncreeee the node autonomy
ll‘ another model of battery i: used. it must meet the same specification: as the Set!
batteries. Typical iuues will be:
0 Cell voltage: must be at loam 2.7V to 5V
0 Cell continuous current: Must he high current lrom 500 mA to 1 A
Cell voltage and continuous current change with temperature. Previous space must be
checked in the desired temperature range. Also common batteries (alkaline! don't work In
extreme temperatureo.
WARNING: WERE I5 RISK OF EXPLOSDN IF THE BATTERES ARE SUBSTITUTED
FORAN INCORRECT MODEL DISPOSE OFBATTERIES ACCORDING TO THE
INSWUCTIONS. WIS scum/s MEANTTO BE INSTALLED IN RESTRICTED
ACCESS AREAS.
mnmsmsmc w, sun-nu neon Inc-loner 5m» 1mm All was 53 r
LS-EG USER GUIDE V1.7
Annex 5: Communications security
Long range radio communication from dot-loggers to got-away
This section explains the sewrity of the radio communication from dmeloggera to
gateway.
antiwar m use
Smarty
Each LS radio network use: its own identifier and password The ID and password
provide authentication and encryption to all radio communication: within the network.
This means that the H) and password are set on both the gateway and the dalaloggers
ivia me USB Dlog Android app). By default, the gateway comes with a randomlned
pauwmd.
Entry-Ion
The radio network has a special need lor secure communication. as many 01 its
applications Imply critical data oi key lnfranructurem Thin has been solved applying three
encryption layers:
- Unique Network key (5mm at network level.
- Unique Application key ELEM) ll application Iml.
t Nemwork specific key to encrypt all data using figs-125 (AEsEUnZE).
Gateway user access
This section explains how communication between the user and the gateway is secured.
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IS-GG USER GUIDE V1,?
This is the method uud to am» the gateway over the lntsmot or a local network. The
gateway has two intarlacaa integrated lav remote access:
- Ethamat interface
a :iG/GPRS lntariaoa
Both intarfam usa HTTPS protocol for mum communication, and both lntarfacu u"
the remote awe-s award This password is uniqua and is randomly generated at
production: it can be changed by the user using the gataway adminiatration wood The
dlflannt methods for ramota amass to tha gnaway (for mom information pluaa rafor to
the Ls-GG uaer guide) are shown here:
Tho gateway otters tha ponihlllty oi direct local connactldn. using oataway's intamal
USB port (ior more information please reier to the LS-GB user guide). When accesaed by
this method. the connection is also secured using httpsr However‘ this connection will ask
tor a password which la not unique (it is the same for all gatawavalt ‘ihla Is done taking
two important considerations into account:
a A direct data recovery method ia needed ii the remote access password is
last.
0 Tha gateway cannot be physically reached by anyone other than the
cuatomar.
9E3?”
Nata: if your gnaway la loo-tad whara It might be phyaically acmnad by unauthorizad
users, please contact Worldaanalnq tachniaal support.
Data protection and communications aacurlty is highly arnphaaimad in Woridaanaing'a
products:
a The radio communication irom the dataloggera to tha gataway is
ancryptad with AES.
a All remote communications that allow user‘s access to the gateway: are
done with httpa protocols.
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LS-GE USER GUIDE V1.7
Both ucuritv method: oonlorm lo approved “under!“ mm are applied in all lnduslfin,
[tom bank nonunion: through to most accused internal urvim.
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IS-GS USER GUIDE V1.7
Annex 5: Connecting an external modem to LS-GG
In this guide we'll be using an AirLink® HVSO from Sierra. but another similar device wlll
work.
Md (8'than UWK “USO [VII m (“I
I.
lneen the SIM card following the device Instructions. In our case, the Sierra
AirUnk RVSO has a cover with two Philip: screw: that gives amass to the SIM
Slots. The upper alot In the primary and Is where SIM must be interred. Optlonal:
II you have a aeoondary SIM for Iellback Internet access. insert It on the lower elot.
2. Connect Cellular antenna.
3. Connect an Ethernet cable to your computer.
4. Connect power cable.
5, The device will give an IP addreea to your comvuler aulomalically. If not, or ii you
want to make sure that network settings are correct. follow the appendix on lhe
last page.
6. Palm your web browaer to W lAirLlnk W50 factory IPI
7. Leave the administrator uaer name entered by delault and enter the default
password: 12346 and click Login;
5. Optional: Change password. Go to Admin tel: —o Change Password _. Enter Old
“sword (12345] and then enter the new one.
9. Main status page will appear with basic statue inlormetion. Check the Network
Sma field. I! it is in Network Ready slate and the Active WAN IP Address is
dillarenl from 0.0.0.0, then your Sierra AirLink has automnligured lrom your
provider and you can skip to next chapter. It not, [allow next steps to configure it.
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10. Go to WAN/Cellular tab - SIM Slot 1 Configuration.
Enter your network provider AFN In Uaer Entered AFN field.
If your SIM needs security PIN. set it via SIM PIN red button. A pop-up wlll appear:
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IS-GS USER GUIDE V1.7
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LS-GS USER GUIDE V1.7
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Led indicator: will help diagnosing pvobleml. If the gateway has inlemet
connection. the first led (righx-m-Iefil will be brighl ambeL The second lad will be green if
it has nemmk signal [00‘ The lhird led will indicate local network traffic,
if those first LEDS are blinking rad. il means that the gateway still doesn'l have signal or
lnlemel. or this needs lo be reconfigured.
WDILDSENSWE Ann.3BSlI"llur noun e-mma sum humanism” 71.”
LS-GS USER GUIDE V1.7
12. Finally, if the first Mo LEDS are fixed amber and green, check the! your computer
has Internet access via AlrLlnk RV50 (Open e web page. ech. I! not. repeal lrom step 9
and double check devlee settings.
ll your computer now has lmemet access provided by LTE/SG, then we can lump in [he
final me».
find Step: Connemara lj-GE mayhem RVSD
In order to connecl Ihe LS-GG Gateway to the Internet via your recently configured AlrLink
RVSO, lhls scheme must be followed. Please double check connections before powering
on POE adapter or devices may be damaged.
Lnedsemhg WW L‘I'EI‘JG screw-y
Devastr OUT Dara 1N
LoadSensing POE
After connections are made and devices powered on, L566 will reach Ihe Internal
Ihrough your AirLink RVSO and would be accessible Vita in Remole Amen URL, Please
check the LS—GG gelewev inlormnlion sheet [or more inlormelionl
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LS-GS USER GUIDE V1.7
Annex 7: Connecting a Wi-Fi module to LS-GB
In this guide we'll be using a NanoStetion loco M2 from Ubiquity. however another
Wireless bridge (commonly named ”Access Poinl") can he used it it supports Client mode
(also known as Station Model.
We will follow those steps:
0 Flrfl War-don «1 Whole“ Bridge (vh Eth'net cable). We recommend doing this
ntep within the Wirelen Network range, but without installing the device on its final
location. You'll need a computer and be able to temporarily change its IP addreee.
0 Whine Bridge phyohel Inotalllton. Now you can install the device (using its cable tie)
to the iinel location. pointing to the source olereless Network.
' Review L80. Gaul] (VII Slit-MI! chic). In this Itep you will assure that [5-66
Gateway is expecting configuration via Ethernet and is able to connect directly to internet.
- interconnection beau-en Wireless Bridge and Loadsensing Getaway
1. Connect an Ethernet cable irom the Nanostelion to the POE port oi the PoE Adapter.
Please make doubly sure that you connect the POE port to the antenna and NOT to your
computer as it could be damaged
2. Connect another Ethernet cable tram your computer to the LAN port oi the P05
Adapter.
3. Your computer now needs a temporary IP address within the 192.168tx aubnet. For
example, assign 192“”.le address and 255.255.2550 netmask. Leave gateway and
DNS blank. Depending on your Operating System the procedure might be different It
your computer is a laptop make sure you change the IP addrese tor the LAN (cabled)
adapter and not wireless one. Tip: Check Appendht on last page tor more inlorrnation
4. Direct your web browser to htto'J/l 92,168.] .20 (This is the NanoStation factory IP
address)
6. Accept unsigned certificate warnings
6. Enter ubnt as both User Name and Password
7. The eirOS configuration Interface will appear. For security reasons. the first thing you
should do in configure a new paeeword to ecceee the device. We recommend doing it
now because the device will lorce you to change it later while configuring the Wireless
Network
8. Go to Synem too —5yetem Accounts. Click on the key symbol to change the ubnt
password. Note: For added security, we recommend changing both the usemame and
password
9. The next step is to search lor the Wireless Network and connect to it. Go to Wireless
tab and make sure that Wireless Mode is set to Station. Then go to Select Button to do a
Wireless Networks Survey:
WORLDSENSING my. ”Smile-r ueun tam-rm Seem [daleaetaosos 75/
IS-GS USER GUIDE V1.7
Human-mills: mAEnEj ZA-
mm.
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Then you chow your SSID [Network] and confirm it will! [he Sal-ex Button.
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Selling. lab.
Thm‘s one In! and importanl thing 10 do: Senna wmlm Password or encrvpdon Kayl
0n the balm ohhiu pips. Winluu Smuritv will In mun-dam with ulna-d nuwnrk
Incrypdon “ulna. Tho password must bu wrinen on tho uxlbox and and with the
Chanel button.
11p: Tick 'show' to check it pauwom il curred while you are wminm
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LS-GS USER GUIDE V1.7
w...“ Sen-fly
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12. As wlth every change that is made in Ubiquity Devlces. ll must be Applied lo lake
ellecl:
OS
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13. After several seconds. the device will reboot and connect to Wireless Nelworlt. The
last slag is to remove the Default IP Address and let lhe device ask for IP (0 the Wireless
Network. Go to Network Tab and change Management IP Address lo DHCPt
Tip: Leave DHCP Fallback Address as 192,168,110 In this way. ii something goes wrong
and the device cannot gel an IP address from Wireless Network, alter several minutes il
will gel that «some I?» so you can conned to it wim your laptop lo reconfigure ir.
After changing to DMCP mode. remember to Apply settings!
Now your Wireless Bridge will be connected to your Wireless Network as if it were a
Laptop, a Mobile or another device. Then it will «:onvenmhis signal to Elhsrnel cable.
WDILDSENSWE MmJBSII'n-ur new: encom- 5mm [-Mlsaueusos 79/
LS-GS USER GUIDE V1.7
Annex 8: Troubleshooting reference table
Gateway
Dataloggers
Fault Poalblo canoe Remedy
Detelogger not visible to Deteloggel isoleted I Move location
gmewey not visible for
anyone
Detalogger rm visible to Dateiogger battery ls Check hanery
getaway, Cannot be accessed dead
with Blue unleee switch is we!
lo ‘USB‘.
Dal-logger no! vin'blo to Radio oonflgumion Check radio oonfiuumion using
gateway DLOG. Chock carefully that the
radio oonllgurelion is the same
on all devices.
Daielogger not visible [0 Amenna Chock connection 81 orientation
gateway
Daialogger not visible to Getaway Check getaway in UP
gateway
Detalogger not visible to Get-way enlenm Check connection :- orientation
gateway
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LS-GS USER GUIDE V1.7
Annex 9: FAQ's
- The node appears as connected but the readings don't appear in the files.
When a node is out at time l1970l it appears as connected but the readings don‘t appear
in the illee, nor in ”Last readings”. A warning message appears in the ”log" tab. You
should reconnect to the node using the USB OTG cable and the DLOG app to set the date
and tlma.
e l have done a lew signal coverage tests but they don‘t appear on the map at the
web interface.
Did you have GPS coverage? Were your android device and the gateway connected to
intemet? Latitude and longitude collected by the mobile in the signal coverage test is sent
to the gateway through the intemet so if your mobile or the gateway didn't have
connectivity [offline test), latitude and longitude will be only stored in the mobile. in 8 our
lilo celled signal-coverage; and not in the gateway.
o ls the detalogger protected over reverse polarity and over voltage?
Yes. The datalogger should not be damaged by e mie—wiring on the external cables.
including input voltages of up to 20V
0 Does the datelogger have ESD protection?
Yes. The detelogger should not be damaged by an Electrostatic discharge. in compliance
with norm IEC 610004-2.
0 Does the detalogger have surge protection?
As long as the datalogger has proper grounding, it should not be damaged by a short
high voltage burst, such as a lightning strike at least 100m away.
Note that. while the dataloggers have been engineered and built to comply with these
specifications. the surge protection has not yet been through certllioation, lo we don't
have an external test report to certify compliance on this aspect.
. How should the dataiogget be installed?
The datalogger should be installed with proper grounding connected to the screw outside
the box In order to guarantee surge Immunity. especially on installations with long cable
runs.
o is the gateway protected over surges?
The gateway does not ship with surge protection out at the box as the daleloggera do.
However. if this kind of protection is desired. it: possible to achieve It by using external
devices,
The Antenna link should be fitted with a CITEL PEAX.
The Ethernet link should be fitted with a CITEL Mis-POE-B.
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LS-GS USER GUIDE V1.7
Both devices must be Installed according to their own specifications.
- What is the effect ofstrong winds (for example 80 km/h) on radio
communications?
The impact of wind on radio waves is almost negligible.
0 is it possible to connect the gateway to the intemet (through JG) as well as to a
private network through Ethernet?
No, this is not possible. The gateway cannot have two active connectivity options at the
same time. When it is using 36, it will ignore the Ethernet and vice—verse. In the can that
this would be a requirement, on external router may be used.
a is it possible to connect a gateway to a Virtual Private Network [VFN]?
There are different protocols used to tunnel the traffic and also diilerent VFN types so it Is
not aim ole to introduce VFN functions Into the LS gateway software. if it it necessary to
connect a gateway to a VPN, currently there are two options: use an external VFN router
or contract a SIM card suitable for Private Networks from a telecommunications
company.
I is my data secure from unauthorized access?
The Loadsensing GS server is hosted inside the gateway. The web page you see, where
you download your CSVe from, is actually inside your own device, so your date never
gets sent anywherei unless you configure it othsnlvise (for example. using the ftp client
leeture).
Access to this iniorrnation is protected by the Web Access password. We generate a
random default poleward for each gateway (which is written in your Gateway
Information Sheet), so no other customer has the name password,
if you want your web password to be changed from the default value. you can change it
in the web interface.
When you access your iniorrnation through httpszllioadsensingmocss.com/<9wid>, you
are using the Loadsenaing Remote Access Service. This service uses a Worldsensing
sewer as a proxy to enable remote access to gateways with no public lP. The server
however. is not a cloud storage service, does not store any of your information. and
aooess still requires the web password.
U HOW do we deal with interferences?
As with any radio system, interference can cause difficulty In communication, leading to
higher packet loss ratios. Most wireless systems (such as Wi-Fl) use the 2.! GH: and 5
6H: bands. The sub-GM: bands are commonly less used by consumer devices, leading to
less interference. The radio uses several systems to provide certain immunity to
interference:
o Co-chennel Gaussian minimum shift keying
0 Automatic minimum spreading factor selection
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LS-GS USER GUIDE V1.7
Annex 10: Modbus memory maps
Generd Section
Andree: Register Register content Accepted
name Values
£0001 Globnl Map Version 0' the global memory map. A change in this D
Verelon veraion means thet all the memory map char-gee,
Common Section
Addreee Reginer neme Regleter content
4006‘! Common Map Version ol the common section
Version memory map. A change ln this
version meane that there are changes
in the common section but not
necessarily in the other sections.
40052 Node ID High ID oftho LS-GG node. High and Low
bytes in consewtive registers.
£0053 Node ID Low
40054 Node Product Product Code of the LSGS Nude See product code:
Code in LS - Commend at
Packets list V2.x
document
40055 Health Received Timestemp o! the moment in which 0 to ”94967295
Timeelemp the lat health message was received
High in the GW in seconds since the Unix
epoch. GW time. High and Low bytes
40056 Health Received '" mnswuflv' "Wm"
Timestamp Low
40057 Health Node Timeetemp of the last health message are 4294967295
Timmamp in seconds since the Unix epoch.
High Nada lime. High and Low bytes in
consecutive registers.
40055 Health Node
womasmsmc Ann. SISA'mr am: Herculean sum [vuloaauwu a: I
LS-GS USER GUIDE V1.7
T-meelamp Low
40059 Node Umime Seconds irom the last rebool of the 0 to 4294967295
High node. High end Low bytes In
oonsecutlve registers.
40060 Node Uptlme
Law
40061 Node Battery Vohaue of the battery in mV. 0 to 35536
Volts
40062 Node Temperature in the node In ”C 0 to 255
Temperature
40063 Node Version Node FW Version Major (no 255
Major
40064 Node Veuion Node FW Venion Minor 0 to 255
Minor
Node Section
All the nodes have a common pen in the Node aeolian:
Address Regiller
Register cement
ID of the Node Section memory map. This defines 0 » VW
the contents oi the Node section horn the register
30103 onwerde.
1-VLT
2 7 DIG
GSI-
Sisaeo
| S—Gl‘rVW
Version al the node section memory mepe A change 0 to 35535
in lhil version means that mere are changes in Ihe
node section but not necessarily in the other
eectlono.
woeLasENsmo Ann. SISA'mr am: am-im sum [vilrliauluifi 33/
LS-GS USER GUIDE V1.7
Add!" Regina, "am” —m
40101 Node Section ID oi the Node Section memory map. This
Map ID defines the contents of the Node section
from the register 30103 onwards.
40102 Node Map Version 0' the node section memory map. A
Version change in this version means that there are
changee in the node section but not
neeeuerily in the other sections.
40103 Date Received Tirneetemp of the moment in which the last 0 to
Timastemp date message was received in the GW in 4294987295
High seconds since the Unix epoch. GW time.
High and Low bytes in consecutive registers.
40104 Data Recelved
Timeetamp
Low
40105 Date Node Timestamp at the last date message in D to
Timmemp seconds since the Unix epoch. Node time. 4294967295
High High and Low bytes in coneecutive registers.
40106 Data Node
fimeslemp
Law
40107 Pressure Pressure read by the node in hPe'10. D to 35635
40108 Channel 0 Show: if the channel 0 register: have valid 0: Channel
Preeence date. not present
1: Channel
present
40109 Channel 0 Frequency read on the VW in the Channel 0
Frequency in mm. High and Low bytes in consecutive
High registers. 0 if the Channel Presence is 0.
40110 Channel 0
Frequency Law
40111 Channel 0 Thermietor data read on the VW in the _
wunmssmsmc Ann. station-r am: ram-rm sum [vuloaauwu 54/
I5-GS USER GUIDE V17
Thermistor Channel 0 in mOhm. High and Low bytes in 4294967295
High consecutive registem 0 it the Channel
Praeance ie 0.
40112 Chennai 0
Thermlstor
Law
40113 Channel I Show: il‘ the channel 1 registers have valid 0: Channel
Presence data. net present
1: Channel
present
40114 Channel 1 Frequency read an the VW in the Channel 1
Frequency in rni-iz. High and Law bytes in consecutive
i-ligh registers. 0 lithe Channel Presence is 0.
401 1 5 Channel 1
Frequency Low
40116 Channeit Tharmistor data read on the vw in the
Thermistor Channel 1 in mohm. High and Low bytes in
High consecutive registers. 0 ii the Channel
Presence is 0.
40117 Channel 1
Thermlstor
Law
40115 Channel 2 Show: if he channel 2 registers have valid 0: Channel
Presence data. not present
1: Channel
present
40119 Channel 2 Frequency read an the VW in the Channel 2 on: 7000000
Frequencv in mHz. High and Low bytes in conaewtiva
High registers. 0 it the Channel Pruenoe is 0.
4M 20 Channel 2
Frequency Low
40121 Channel 2 Thermiator data read on the VW in the 010
Thermlstor Channel 2 in mOhm. High and Low bytes in
weemsmsme Ann. sea-1mm- awn e-mmn sum [vuleaueeios
BS]
I5-GS USER GUIDE V17
High consecutive registers. 0 it the Channel 4294967295
Preeence is 0.
401 12 Channel 2
Thermlstor
Law
40123 Channel 3 Show: if the channel 3 registers have valid 0: Channel
Presence date not present
1: Channel
prmnt
40124 Channel 3 Frequency read on the VW in the Channel 3 (no 7000000
Frequency in mHz. High and Low bytes in consecutive
High registers. 0 if the Channel Presence is 0‘
40125 Channel It
Frequency Low
40126 Channel 3 Therrnistor data reed on the VW in the 0 to
Thermls‘tor Channel 3 in rnOhm. High and Low bytes in 0294967295
High consecutive register; 0 il the Chen nel
Presence ie 0.
401 27 Channel :1
Thermietor
Law
LS—GG-AN ALOG
Addreee Register Register content Values
name
40101 Node Section ID of the Node Section memory map. This I - VLT
Map ID define: the oantente ol the Node section
from the register 30103 unwerda.
40102 Node Map Vereion ol the node section memory map. 0
Version A change In this version means that there
are changes in the node union but not
necessarily in the ether sections.
40103 Date Received fimestamp at the moment in which the 0 to 4294967295
wenmsmsme Ann. sea-1mm- awn a-mmn sum 0341193414505”
5!
Timestarnp
High
LS-GS USER GUIDE V1.7
last date message was mceived in the
GW In seconds since the Unix epoch. GW
time. High and Law bytes in consecutive
registers.
40104 Data Received
Timeelamp
Law
40105 Data Node Timestamp 01 the last date mmage in 0 to 4294961295
Timeetamp seconds elnce the Unix eppch. Node time.
High High and Low byte: in consecutive
registers.
40106 Data Node
Timaslamp
Law
40107 Channel a Show: it the channel 0 registers have 0: Channel not
Presence valid data. present
1: Channel
present
40108 Channel 0 Type 0' sensor connected to the channel See input Type
Input Type 0. Codification
Values table
40109 Channel 0 Data read an the node In the Channel D. 0 to 4294967295
Data High Units depend on the Input type. High and
Low bytes in consecutive registers. 0 ii
40110 Channel 0 the Channel Presence :3 D.
Date Law
40111 Channel 1 Show: it the channel 1 registers have 0: Channel not
Preeence valid data. present
1: Channel
nresent
40112 Channel 1 ivpa of sensor connected to the channel See input Type
Input Type 1. Codification
Values table
40113 Channel I Data read on the node in the Channel 1. o to 4294567295
Data High Units depend on the Input type. High and
wenmsmsmc Ann. SISA'mr am: am-im sum [vuloaauwu a7]
IS-GS USER GUIDE V1]
40114 Channel I Lew bytes in consecutive register; 0 ii
Dara Low the Channel Presence is 0.
40115 Channel 2 Shows ii the channel 2 registers have 0: Channel not
Presence valid data. present
1: Channel
present
40110 Channel 2 Type of eanear connected to the channel See Input Type
Input Type 2. Codification
Values labia
441117 Channel 2 Data read on the node in the Channel 2. 0 to 4294967295
Data High Units depend on the Input type, High and
Low bytes in consecutive regimen 0 if
h ' .
40118 Channel 2 t 6 Channel Prelence Is 0
Data Law
40119 Chennai 3 Shows ii the channel 3 regimen have 0: Channel nol
Presence valid data. present
1: channel
prmnl
40120 Channel 3 Yype oi sensor connected to the channel See Input Type
Input Type 3. Codification
Values mble
40121 Channel 3 Date read on the node in the Channel 3, 0 to 4294967256
Deie High Units depend on the Input type. High and
Low bytes In consecutive registers. 0 If
40122 Chum“ 3 the Channel Presence Is 0.
DetaLow
ISGS—DIG (Geneenae/RSTvsisgeol
Add!” “mi-"nun“
40101 Node Section ID 0' the Node Section memory map, This 2 , DiGrGSIr
Map ID defines the contents oi the Node section Irorn Sieaeo
Iha regieter 30103 onwards.
wunmssrusmc Amp. sea-Mm am: emu-n. sum [var-nannies as;
I5-GS USER GUIDE V1.7
40102 Node Map Version of the node section memory map. A
Version change in thin version means that there are
change: in the node section but not
necessarily in the other sections.
40103 Data Received Time-temp of the moment in which the last 0 to
Timestnmp data message was received In the GW in A294557295
High seconds since the Unix epoch. GW time. High
and Low bytes in consecutive registen.
40104 Date Received
fimaelnrnp
Low
M1105 Data Node Timestamp oi the last data message in 0 to
nmeelamp seconds since the Unix epoch. Node lime. 4294967256
High High and Low bytes in consecutive registers.
4Dl06 Data Node
Tlmestamp
Low
40107 Number oi Number of channel: present in the date. 0 to 50
Channels
46108 0
Reserved
40109
40110 First register at the channel: data. See below (or more information.
A 65! node can have from 0 to 50 sensors connected. They are numbered lrom channel 0
to channel 49.
The following table has a description of the memory map for one channel, To calculate
the address of the first register of a given channel, simply multiply the channel number
W) per 10 and add the base addreee 301’“):
Channel N address = 30110 o (IO ’ N)
Address Reamer Regieler content Values
name
wunmsmsmc Ann. sea-Mm am: am-rm sum Ivy-muesli” 99/
«um
(“10"!)
“110*
HO ' NH
“110+
(10 ' N)¢
“3110+
"O'NH
401104
i‘io'NH
40110+
“O’NH
‘01l0+
lio’Nh
40110?
l‘lO’NH
ChN Number
Axis
Ch N
Tomporatu re
Ch N Axis 1
Reading High
Ch N Axis 2
Reading High
Ch N Axis 2
Reading Low
Reserved
I5-GS USER GUIDE V1.7
Number of axis 01 the channel,
Sensors can have one or two
exll. I! this value in 0 menu
that no date was received oi
this channel.
Temperature read on the
Channel N. Codified in two's
complement. Value in tenths
at ”C.
Inclination rand from the Axis
1 unset of the Chennai.
Codified in two’s complement.
Value In “/10000.
inclination read from the Axis
1 sensor of the ohnnnel.
Codified in two's complement.
Value in °I10000.
01-1000 [“C'Iol
{42763 (DXSOOO): Invalid
reading (ulnar error)
-32767 (0)1800": No data
received from this channel
(communication error)
#250000 I“ ‘i 0000)
4141483648 i0x90000000):
Invalid reading (sensor
error)
4147483547 (Oxmoo‘l ):
No data received irom this
channel (communication
error)
01450000 I“ 1 0000]
-2i47m (0x80000000):
Invalid reading (sensor
error)
4147483647 (OXWOD‘I ):
No data received irom this
channel (communication
error)
wunmsmsmc run-.3eammr awn anam- sum [vuleaauwes
90/
40110;
"O'NH
“110+
“O'NH
LS-GS USER GUIDE V1.7
mumszmsl MG w, an 4‘ Mr nun Inn-Im‘ 59m [.34] '3 “I as is
Sill
LS-GS USER GUIDE V1.7
CONFORMITY ASSESSMENT SSUES
FCCIIC Regulatory notices
Modification statement
Worldsenslng, S.L has not approved any changes or modilicatlons to this device by the
user. Any changes or modifications could void the user‘s authority to operate the
equipment.
Worldsansing, S.L n’approuve aucuna modification appartée a l’appareii par l'urilLsareur,
quelle qu’en suit Ia nature Tout changement or: modification peuveni annular Ie droit
d'utilisation do i’nppnrail par I’utilisateur.
Interference statement
This device complies with Part 15 or the FCC Rules and Industry Canada’s Iiceneeexempt
RSS standards. Operation is subject to the following two conditions: (1) this device may
not cause interlerenee, and (2) this device must accept any interlerence, including
interference that may cause undesired operation oi the devicor
Le present apparail as: conforms aux CNH d'lndustn‘o Canada applicable: aux appareils
radio exempts do llcance. L'exploltation est autorisa‘e aux deux conditions suivantes : Iii
l'appareii ne doir pas produire de brouillage, er (2) I'urilisateur de l‘appareil doir aocepter
rout blouillaga radioelmfique subi, Indme si la brouillaga est susceptible d‘on
rampramettre le Ionctionnemenlu
Wireless notice
This equipment complies with FCC and ISED radiation exposure limits set
forth for an uncontrolled environment. The antenna should be installed
and operated with minimum distance of 20 cm between the radiator and
your body. This transmitter must not be colocated or operating in
conjunction with any other antenna or transmitter,
wunLnsmsmr. AlmJBSlr'neer noun a-mim Snlin [damn-mus 92/
LS-GS USER GUIDE V1.7
Cat appamil est conforms aux Iimitos d'axpositinn aux rayon/laments d9 l'ISDE pour un
anvlronnement nan contréle. L'antenne don't étre instance de facon a garder une distance
minimala de 20 cantime'lrus enm la source da raynnnamanta at voila corps. L‘amotleur
n9 doll pas airs colocallaé ni Ionciionner con/ointment avac a suite antenna ou aulre
émaneun
Permittad Antanna
This radio transmitter LS-66»ANALOG—4 has been approved by FCC and
lSED to operate with the antenna types listed below with the maximum
permissible gain indicated. Antenna types not included in this list. having
a gain greater than the maximum gain indicated for that type, are strictly
prohibited for use with this device.
Type
AR017 GSM Quad Bmd Antema
La present ématteur radio (identifier la dlsposltif par son nun-am Us canificah’an} 3 ate
applauvé pal ISDE pour ionL‘tiannar an: in typo: d'amonna mumaraa ci-dassous at
ayant un gain admissible maximal, Les types d'antenne non inclus dans cette liaie, et
dent Ia gain est supéliaur au gain maximal indiqué, son! sm'ctament inteldits paur
I‘axploltation da I‘érnattaur.
Type I Gain maximal I
AR017 GSM Quad Band Antenna I 3 dBi I
FCC Class B digital device nation
This equipment has been tested and found to comply with the limits for a
Class B digital device. pursuant to part 15 oi the FCC Rules. These limits
WORLDSENSIM: Mala. swarm-u uaun am-im SKI-in [.umauusss 93/
LS-GS USER GUIDE V1.7
are designed to provide reasonable protection against ham-Iful
interference in a residential installation. This equipment generates. uses
and can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not
occur in a particular installation. if this equipment does cause harmful
interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct
the interference by one or more of the following measures:
- Reon'enr or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
‘ Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
Consult the dealer or an experienced rediefTV technician for help.
CAN ICESra (B)! NMB—3 (B)
This Class 8 digital apparatus complies with Canadian ICESOOS.
Ce! appareil numerique de classe E est conforms a la norms canadienne ICESMS.
wastassnsmc mention-u» ueun emom. SKI-in [wile'BAIluifi 94;

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