Schlumberger Diver-NETZ User manual
February 2014 www.swstechnology.com
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P.O. Box 4, 6987 ZG Giesbeek
Nijverheidsstraat 30,
6987 EM Giesbeek,
The Netherlands
T+31 313 880200
F+31 313 880299
Ihttp://www.eijkelkamp.com
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Version February 2014
All rights reserved. No part of this publication may be duplicated, stored in a
computerized data file or made public in any form or manner whatsoever,
be it electronic, mechanical, in photocopies, recordings or in any other way,
without prior written permission from
Schlumberger Water Services (Netherlands) BV
Schlumberger Water Services
PO Box 553
2600 AN Delft
The Netherlands
Tel.: +31 (0)15 275 5000
www.swstechnology.com
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WARNING TO USERS IN THE UNITED STATES
Federal Communication Commission Interference Statement 47 CFR Section 15.105(b)
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part
15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful 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 of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment to an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
This device (Diver-DXT) complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
NO UNAUTHORIZED MODIFICATIONS
47 CFR Section 15.21
CAUTION:
This equipment may not be modified, altered or changed in any way without signed written permission from
Schlumberger Water Services (Netherlands) BV. Unauthorized modification may void the equipment authorization
from the FCC and will void the Schlumberger Water Services (Netherlands) BV warranty.
FCC and IC RF Radiation Exposure Statement:
This device complies with FCC and Industry Canada RF radiation exposure limits set forth for the general population
(uncontrolled exposure). This device must be installed to provide a separation distance of at least 20 cm from all
persons and must not be collocated or operating in conjunction with any other antenna or transmitter.
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IC REQUIREMENTS FOR CANADA
This class B digital apparatus meets all requirements of the Canadian Interferencecausing equipment regulations.
Cet appareil numérique de la classe B respecte toutes les exigences du règlement sur le matériel brouilleur du
Canada.
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following
two conditions: (1) this device may not cause interference, and (2) this device must accept any interference,
including interference that may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d’Industrie Canada applicables aux appareils radio exempts de licence.
L’exploitation est autorisée aux deux conditions suivantes: (1) il ne doit pas produire de brouillage, et (2) l’utilisateur
du dispositif doit être prêt a accepter tout brouillage radioélectrique reçu, même si ce brouillage est susceptible de
compromettre le fonctionnement du dispositif.
CE COMPLIANCE STATEMENT (EUROPE)
This device is in conformity with the EMC directive and low-voltage directive.
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Table of Contents
1. Introduction 1
2. Site Assessment 3
3. Diver-NETZ components 4
3.1. Diver dataloggers 4
3.2. DXT cable 4
3.3. Diver-DXT 4
3.4. Diver-Gate(M) 5
3.5. Diver-Gate(S) 7
3.6. Diver-NETZ software 9
3.7. Universal SIM card 10
3.8. Diver-NETZ workflow 10
4. Preparing for installation 12
4.1. Diver-NETZ Mobile 12
4.2. Diver-NETZ Static 13
4.3. Equipment testing 16
4.4. Setting-up of the Diver-Hub webportal 16
5. Installing Diver-NETZ in the field 17
5.1. Installing the Diver, DXT cable and Diver-DXT 17
5.2. Installing Diver-Gate(S) 18
6. Collecting data 19
6.1. Diver-NETZ Mobile 19
6.2. Diver-NETZ Static 19
7. Maintenance 20
7.1. Maintaining the Diver-DXT 20
7.2. Maintaining the Diver-Gate(M) 20
7.3. Maintaining the Diver-Gate(S) 20
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Appendices
Appendix I
FAQ Diver-NETZ
Appendix II
DXT cable technical specifications
Appendix III
Diver-DXT technical specifications
Appendix IV
Diver-Gate(M) technical specifications
Appendix V
Diver-Gate(S) technical specifications
Appendix VI
Installation Diver-Gate driver
Appendix VII
Pairing the Diver-Gate(M)
Appendix VIII
Configuration of the Diver-Gate(S)
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1. Introduction
With Diver-NETZ, wireless monitoring of ground and surface water becomes easier, faster and more reliable. Diver-
NETZ is a wireless method for reading out Diver data and programming Divers. A physical connection between the
read-out equipment and the Diver is no longer necessary.
From wireless field data collection and recording, to project execution in the office, Diver-NETZ is a complete
network of first-class technologies that integrates field instrumentation with the industry’s latest wireless
communication and data management capabilities. All Diver-NETZ components are designed to streamline project
workflows, enabling you to effectively manage your groundwater resources for the long-term.
A functional description of Diver-NETZ technology is presented in the diagram below. A Diver groundwater
datalogger is suspended on a coaxial cable which is connected to a Diver-DXT radio device at the top of the well.
A gateway, Diver-Gate, within a 500 m distance of the well is able to establish a connection with the Diver-DXT and
collect the Diver data wirelessly. Two Diver-NETZ typologies exist. The first typology is a Mobile solution consisting
of a portable Diver-Gate brought in the field by a fieldworker. When the fieldworker is within radio range of the
Diver-DXT the Diver data can be collected wirelessly with a mobile Diver-Gate device which then sends the data
via Bluetooth to mobile device. Downloaded data can then be automatically sent to the office via the GSM/GPRS
network where it can be analyzed and interpreted using desktop software.
The second typology is a Static solution consisting of a Diver-Gate place permanently in the field within radio range
of the Diver-DXT. At a scheduled interval this Diver-Gate will wirelessly connect to nearby Diver-DXT devices and
collect their data. Through a GSM/GPRS network this data is automatically forwarded to a server. The data will be
visualized by the Diver-Hub portal. Furthermore software programs like Diver-Office and Diver-Office Premium can
be used to interpret, validate or visualize the Diver data from Diver-NETZ.
Any existing network of Divers can be quickly and easily fitted with the Diver-NETZ technology.
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Diver-DXT
DXT cable
Diver
< 500m
FTP server+
Data management
solution
FTP
Server
GPRS
FTP server+
Data management
solution
FTP
Server
GPRS
Diver-DXT
DXT cable
Diver
< 500m
Diver-Gate(M)
Status
Radio
Charge
BluetoothTM
Diver-Gate (M)
Diver-Gate(S)
Diver-NETZ Static
Diver-NETZ Mobile
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2. Site Assessment
A pre-installation site assessment is highly recommended when planning and designing a Diver-NETZ installation
(for both the Mobile and Static solution) at a specific site as external and/or environmental factors can influence
the proper functioning of Diver-NETZ. A site assessment can determine the performance level of the Diver-NETZ
system and ensure that the solution will meet all predetermined requirements.
The site assessment should include but is not limited to the following:
• Physical verification of all planned equipment locations;
• Review of mounting options and possible required alterations to existing locations;
• Assessment of interfering and operating frequencies currently in use or ambient in the environment;
• Analysis of Diver-DXT radio signal propagation. The radio coverage is dependent on the well setup and
environmental conditions;
• Analysis of GSM/GPRS coverage (only for Static solution);
• Evaluation of various antenna choices to optimize performance (only for Static solution).
During the site assessment a complete set of Diver-NETZ equipment can be physically brought to the field for
testing purposes. Additionally, other tools (such as a GSM/GPRS signal analyzer) can also be used during the site
assessment.
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3. Diver-NETZ components
The components of the Diver-NETZ system are:
• Diver datalogger(s)
• DXT cable
• Diver-DXT
• Diver-Gate(M)
• Diver-Gate(S)
• Diver-NETZ software
Additional components of Diver-NETZ are:
• Diver-DXT plastic protective cap available in 2 models
o Cap for 1 Diver-DXT
o Cap for up to 4 Diver-DXT
• Universal SIM card to allow GSM/GPRS communication between Diver-Gate(S) and server
• Watertight protection box to mount Diver-Gate(S)
• External antenna’s for the Diver-Gate(S)
• Batteries for the Diver-Gate(S)
3.1. Diver dataloggers
Diver dataloggers are cost-effective and reliable instruments to provide long-term, frequent measurements of water
levels, temperature, conductivity and barometric pressure. Divers are ideal for monitoring municipal water supplies,
salt water intrusion, brine storage and migration and environmental monitoring of contamination and remediation
projects. A Diver contains an internal battery and memory. For more information on Diver dataloggers see the Diver
Product Manual.
3.2. DXT cable
The DXT cable is used to connect a Diver to the Diver-DXT. The DXT cable is mounted to the Diver-DXT housing
using a heavy-duty, water-tight connector that allows you to adjust the cable length as needed. This cable is
available in different lengths (up to 300 meters). For more information see Appendix II.
3.3. Diver-DXT
The Diver-DXT makes wireless communication possible. The Diver-DXT is placed on top of a well, while the Diver is
installed inside the well below the groundwater level. Both units are connected using a DXT cable, which acts as a
communication link and a mechanical link.
The Diver-DXT contains a low power short-range radio module. The radio module transmits radio signals at a
frequency of 2.405 GHz which is part of the unlicensed industrial, scientific and medical (ISM) radio band. The
transmission power of the radio module is 100 mW, 20 dBm resulting in a radio range of 500 m Line of Sight (L.o.S.).
Furthermore a network identification or network ID is setup in the radio module of the Diver-DXT to ensure the
security of the data and to give the option to create groups of DXTs (for example in areas where more than 1 Diver-
Gate(S) are able to communicate with 1 or more DXTs).
In order to minimize the battery use the radio of the Diver-DXT is deactivated during shipment to the client. The
radio will automatically activate (turn on) when the Diver-DXT is connected to a Diver via a DXT cable. The clock
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Barometer opening
of the Diver-DXT will automatically synchronize once a day with the clock of the attached Diver datalogger. After
activation the radio module is awake during the day from 7:00 AM until 23:00 PM, waking up every 14 seconds.
During the night from 23:00 PM to 7:00 AM the radio is asleep and only wakes up once every 5 minutes. The radio
can’t be deactivated (turned off) by the user.
Furthermore, the water-resistant housing contains a datalogger for recording barometric pressure and
temperature. The sampling frequency of the barometric datalogger is fixed at once per hour. The Diver-DXT will also
function without starting the barometric datalogger.
The Diver-DXT contains an internal battery (battery lifetime 5 years under normal conditions). The battery of the
Diver-DXT can be replaced by the supplier.
The Diver-DXT is not meant to be used under water. The radio performance will decrease when the unit is covered
or surrounded by water. However, sometimes it is difficult to avoid flooding conditions. Therefore the Diver-DXT has
been developed to withstand this situation for a limited time. For more information about Diver-DXT specifications,
see Appendix III.
3.4. Diver-Gate(M)
The portable Diver-Gate(M) provides the communication between the Diver-DXT and a mobile device via a radio
and Bluetooth connection. The Diver-Gate(M) contains a short-range radio module to communicate with the Diver-
DXT through the unlicensed industrial, scientific and medical (ISM) radio band at a frequency of 2.405 GHz. The
unit also contains a Bluetooth radio for wireless communication with a mobile device (PDA, smartphone or tablet).
Furthermore the Diver-Gate(M) can be connected through a USB cable to communicate with a PC or laptop.
To communicate with the Diver-DXT the Diver-Gate(M) is carried into the field to a position within radio range of the
Diver-DXT. Through the software on the mobile device or PC the Diver-Gate(M) can be requested to start scanning
for nearby Diver-DXT’s. As soon as a connection is set-up between the Diver-DXT and the Diver-Gate(M), the Diver-
Gate(M) is able to download the data from the Diver datalogger and the baro datalogger of the Diver-DXT.
To protect the Diver-Gate(M) against environmental conditions a rubber protection guard is provided. The Diver-
Gate(M) technical specifications can be found in Appendix IV.
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Control functionalities
The following connectors and buttons are available on the Diver-Gate(M):
• On/Off button to turn the device on or off.
• USB port to connect Diver-Gate(M) to a PC via a micro USB cable. Furthermore the USB port is used to
charge the internal battery of the Diver-Gate(M).
• UART port to pair Diver-Gate(M) with mobile device using a dongle.
• Pinhole button not in use (only used by Diver-Gate(S))
There are four light-emitting diode (LED) indicators to indicate the charge status, the status of the radios (Bluetooth
and the Diver-DXT radio) and the general operating status.
• Radio LED:
o Blinking: indicates scanning for Diver-DXTs
o Continuously on: indicates data exchange between the Diver-Gate(M) and the Diver-DXT
• Status LED:
o Blinking: indicates that the device is active
o Continuously on: indicates booting of the Diver-Gate(M)
• Bluetooth LED:
o Blinking (short on and long off): indicates making a connection or pairing with a mobile device
o Fast blinking (almost continuously on): indicates Bluetooth connection mode
• Charge LED:
o On: indicates charging
o Off: indicates no charging or fully charged (during charging session)
The SIM card holder is not in use for the Diver-Gate(M).
On/off button USB port UART port
Pinhole buttons
Light Emitting Diodes
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Power options
The Diver-Gate(M) contains an internal rechargeable battery. The battery lifetime of a fully charged battery is
maximum 10 hours under normal conditions. Before taking the Diver-Gate(M) in the field for collecting data it is
advisable to completely charge the battery.
3.5. Diver-Gate(S)
The static Diver-Gate(S) provides the communication between the Diver-DXT and a server in the office. The Diver-
Gate(S) contains a radio module to communicate with the Diver-DXT through the unlicensed industrial, scientific
and medical (ISM) radio band at a frequency of 2.405 GHz. The unit also contains a 2.5G quad band GSM/GPRS
module to communicate with a FTP server. The Diver-Gate(S) is supplied with a radio and GSM/GPRS antenna.
Other antennas with a SMA connector can also be used.
The Diver-Gate(S) contains an internal clock which runs when the Diver-Gate(S) is connected to a power source.
The clock will determine the time when the Diver-Gate(S) will start scanning for Diver-DXT’s and transmit the data
to the server. During configuration the clock is synchronized with the time on the PC. Afterwards the clock will be
synchronized with the UTC time of the server (in case deviation larger than 15 minutes).
The Diver-Gate(S) can be preconfigured by the user to start scanning for nearby Diver-DXT on a fixed wake-up
interval (for example 1x per day) at a fixed time (for example 11:00 AM). As soon as a connection between the Diver-
Gate(S) and the Diver DXT is made, the Diver-Gate(S) will download the data from the baro datalogger of the Diver-
DXT and from the Diver datalogger (the Diver-Gate(S) downloads only newest data, data not collected before).
Once the data has been collected by the Diver-Gate(S), all collected data will be sent by GSM/GPRS to a server.
Technical specifications of the Diver-Gate(S) can be found in Appendix V.
Control functionalities
The following connectors and buttons are available on the Diver-Gate(S):
• External power supply connector to connect the Diver-Gate(S) to an external power supply.
• USB port to configure Diver-Gate(S).
• UART port: service/debug information (no Diver data transfer).
• SMA connector to connect the radio antenna.
• SMA connector to connect the GSM/GPRS antenna.
• Pinhole buttons:
o Reset – reset/boot configuration to default settings.
o Wake-up – Wake-up Diver-Gate(S) to be able to communicate through USB communication
outside predefined wake-up interval.
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There are four light-emitting diode (LED) indicators to indicate the charge status, the status of the radios (GSM/
GPRS and the Diver-DXT radio) and the general operating status.
• Radio
o Blinking: indicates scanning for Diver-DXTs
o Continuously on: indicates data exchange between the Diver-Gate(S) and the Diver-DXT
• Status
o Blinking: indicates that the device is active
o Continuously on: indicates booting of the Diver-Gate(S)
• GSM/GPRS
o Fast blinking: indicates GSM/GPRS connection/communication mode
• Not used
o Led in Diver-Gate(S) not used (only used in Diver-Gate(M) to indicate charging)
The SIM card holder contains a mini-SIM (2FF) card tray. Micro-SIM (3FF) and/or nano-SIM (4FF) cards can also be
used together with a mini-SIM adapter.
SIM card holder
External power supply
GSM antenna
SMA connector
Radio antenna
SMA connector
Pinhole buttons
USB
UART port
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Power options
The Diver-Gate(S) can be powered by the following source:
• Lithium ion batteries
o Non-rechargeable lithium ion 3 cell battery pack (3.6 V per cell)
• Rechargeable batteries with solar panel
o 12 V
• Fixed power supply
o 7-15 V direct current (DC)
3.6. Diver-NETZ software
Different software applications can be used to communicate with Diver-NETZ components and/or visualize data:
• Configuration tool: is a software tool to configure the Diver-Gate(S) settings (FTP, GSM, wake-up time and
frequency).
• Diver-Mobile: is a user-friendly application for Android or Windows Mobile devices to collect data from
dataloggers in the field.
• Diver-Office: is a comprehensive PC application (Windows) to read out, configure and manage Diver and
Diver-DXT dataloggers.
• Diver-Hub: is a secure online portal that allows users to access and visualize groundwater data from
anywhere in the world. Furthermore the management and visualization of Diver- NETZ data can be
customized for specific client requirements.
Light Emitting Diodes
Battery pack consisting
of 3 cells
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3.7. Universal SIM card
The Diver-Gate(S) is equipped with a Universal SIM card. In case the client wishes to use his own SIM cards he or
she needs to contact SWS.
3.8. Diver-NETZ workflow
The sections and illustrations below describe the Diver-NETZ workflows for the Mobile and Static solution in more
detail.
Diver-NETZ Mobile
The Diver-Gate(M) is operated by the user via dedicated software on a mobile device (smartphone, tablet or laptop)
or on a PC/laptop. Through the software the Diver-Gate(M) can be requested to start scanning for nearby Diver-
DXTs. After the connection is established the software will make it possible for the user to download the data from
the Diver and barologger wirelessly. Diver-Mobile software is used when collecting data with a smartphone or
tablet. Diver-Mobile runs on the following platforms; Windows Mobile and Android. A Bluetooth connection is used
between the Diver-Gate(M) and the smartphone or tablet.
The Diver-Gate(M) can also be operated with Diver-Office software running on a laptop. A USB cable establishes
the connection between the Diver-Gate(M) and the laptop.
Diver-Mobile and Diver-Office software both generate DAT files after collecting the Diver and barologger data.
These DAT files can be imported into the standard Diver management software of SWS (Diver-Office and Diver-
Office Premium). When using Diver-Office to collect Diver and barologger data, DAT files are automatically created
and imported into the Diver-Office database. When using Diver-Office Premium it is possible to manually upload the
project data to the Diver-Hub webportal.
Smartphone / tablet (option1)
Diver-Mobile for Windows Mobile
Diver-Mobile for Android
PC / Laptop (option2)
Diver-Office Diver-Office
Diver-Office Premium
Web portal
OfficeField
DAT
file
DAT
file
Diver-Office
Diver-Office Premium
HydroManager
Web portal
Diver-NETZ hardware Data Management
DXT
file
LOG
file
DAT
MON
CSV
file
LOG
file
DAT
MON
file
ClientBack-office SWSField
Diver-Gate(M)
Status
Radio
Charge
BluetoothTM
Diver-Gate (M)
Diver-Gate(S)
Diver-NETZ hardware Data Management
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Diver-NETZ Static
The Diver-Gate(S) is configured to scan for nearby Diver-DXT and subsequently Diver data on a predefined basis.
By GSM/GPRS the data is transferred from the Diver-Gate(S) to a server hosted by SWS. Besides time-series data
from the Diver and barologger, the Diver-Gate(S) also transmits a LOG file with information regarding the equipment
status (battery levels, signal strength). This information can be used to manage the equipment deployed in the field.
The SWS server is equiped with a backoffice software tool, called Daemon, the Daemon is responsible for the
following activities:
• Analyze all incoming files uploaded by the Diver-Gate(S). In case data is missing the Daemon will request
the Diver-Gate(S) to collect this information and transmit it to the server.
• Parse time-series data from Diver and barologger into standard Diver files (DAT and MON files) or CSV
files with time series data.
• Directly forward the Diver and barologger timeseries files to a client’s email address or FTP server.
• Program Diver and baro datalogger remotely (start, stop, restart, change location name).
All Diver-NETZ files can be imported into a local database on the SWS server. This database is connected to a
dedicated webportal named Diver-Hub. Clients can access the portal through a secure login to connect to their
Diver-NETZ data. Furthermore, the data can be downloaded directly from this portal.
Smartphone / tablet (option1)
Diver-Mobile for Windows Mobile
Diver-Mobile for Android
PC / Laptop (option2)
Diver-Office Diver-Office
Diver-Office Premium
Web portal
OfficeField
DAT
file
DAT
file
Diver-Office
Diver-Office Premium
HydroManager
Web portal
Diver-NETZ hardware Data Management
DXT
file
LOG
file
DAT
MON
CSV
file
LOG
file
DAT
MON
file
ClientBack-office SWSField
Diver-Gate(M)
Status
Radio
Charge
BluetoothTM
Diver-Gate (M)
Diver-Gate(S)
Diver-NETZ hardware Data Management
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4. Preparing for installation
This chapter describes the activities to undertake before deploying Diver-NETZ in the field. Diver-NETZ Mobile and
Diver-NETZ Static solutions are discussed separately.
4.1. Diver-NETZ Mobile
Before going into the field, the user needs to make sure the following steps are undertaken:
• Installation of Diver-Office software
• Installation of Diver-Gate driver
• Charging the Diver-Gate(M) battery
• Programming of Diver dataloggers
• Connect Diver to a DXT cable and a Diver-DXT
• Setup network ID in Diver-DXT
• Start barologger Diver-DXT
• Pairing Diver-Gate(M) (only when mobile device is used)
Installation of Diver-Office software
Diver-Office 2012.1 or higher is needed to configure the Diver and Diver-DXT devices. The software can be
downloaded for free from the swstechnology website (www.swstechnology.com). Users who already have installed
an older version of Diver-Office can update directly from within the Diver-Office software.
Installation of Diver-Gate driver
The Diver-Gate driver is a computer program that controls the Diver-Gate(M) (or Diver-Gate(S)) when connected to
a computer through a USB cable. The driver can be downloaded as an executable from the swstechnology website
(www.swstechnology.com). Appendix VI contains the driver installation steps.
Charging the Diver-Gate(M) battery
When charging the Diver-Gate(M) for the first time it is necessary to connect the micro USB cable to a USB charger
(not provided) and not charge the Diver-Gate(M) using a laptop or PC via a micro USB cable. The Diver-Gate(M)
needs to be turned on while the charger is connected. Leave it on until fully charged, indicated by the Charge LED
turning off (approximately 5 hours).
If the Diver-Gate(M) is used on a regular basis the device can be charged using any USB port (PC, car USB charge,
etc.). In this case the Diver-Gate(M) can be turned off while charging. It is also possible to charge the Diver-
Gate(M) continuously. The Bluetooth functionality of the Diver-Gate(M) can be used while continuously charging.
However, this is only possible when using a USB charger (not possible using a USB port).
Programming of Diver dataloggers
The Diver dataloggers can be programmed with a Diver USB reading unit and Diver-Office software. For more
information about programming Diver dataloggers see the Diver manual on the swstechnology website.
Connect Diver to a DXT cable and a Diver-DXT
The Diver is screwed on the bottom connector of the DXT cable and the Diver-DXT is screwed on the top connector
of the DXT communication cable. Through the safety cords the Diver-DXT can be secured to the communication
cable. See illustration for more details.
The radio is deactivated during shipment to the client. The radio will automatically activate (turn on) when the
Diver-DXT is connected to a Diver via a DXT cable. The clock of the Diver-DXT will automatically synchronize once
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a day (at midnight) with the clock of the attached Diver datalogger. After activation the radio module is awake
during the day from 7:00 AM until 23:00 PM, waking up every 14 seconds. During the night from 23:00 PM to 7:00 AM
the radio is asleep and only wakes up once every 5 minutes. The radio can’t be deactivated (turned off) by the user.
Setup network ID in Diver-DXT
A network identification or network ID is a password in the Diver-DXT that allows the Diver-Gate(M) (or Diver-
Gate(S)) to connect to a Diver-DXT. The Diver-DXTs are shipped with a default network ID (1234). It is strongly
recommended to change the default network ID before using the Diver-DXT.
The network ID in the Diver-DXT can be setup with Diver-Office. For more information see the Diver-Office help
section 5.2 (Configuring network settings) and 5.3.1 (Changing Diver-DXT settings).
Start barologger Diver-DXT
The barologger inside the Diver-DXT can be started with the following software:
• Diver-Office 2012.1. For more information see the Help module (section 5.2) within the Diver-Office
software.
• Diver-Mobile. For more information see the Diver-DXT Start section in the Diver-Mobile manual on the
swstechnology website.
It is important to note that the right network ID should be selected within the software to match with the network ID
of Diver-DXT.
Pairing Diver-Gate(M) (only when mobile device is used)
This section is only relevant when the Diver-Gate(M) is used in combination with a mobile device (PDA, smartphone
or tablet) and Diver-Mobile software. The wireless link between the Diver-Gate(M) and the mobile device is based
on a Bluetooth. The Bluetooth link needs to be setup by pairing the device. Appendix VII contains more information
on how to pair the Diver-Gate(M) with a mobile device. In case a PC or laptop is used the Diver-Gate(M) will be
connected physically through a USB cable. Pairing is therefore not needed.
Once the device has been paired, the Diver-Gate(M) will automatically establish a Bluetooth connection to the
particular device when turned on the next time. The mobile device however needs to be within Bluetooth range of
the Diver-Gate(M). The Bluetooth range is approximately 10 m.
The Diver-Gate(M) can only be paired with one device.
4.2. Diver-NETZ Static
Before going into the field, the user needs to make sure the following steps are undertaken:
• Installation of Diver-Gate driver
• Installation of Diver-Office software
• Programming of Diver dataloggers
• Connect Diver to a DXT cable and a Diver-DXT
• Setup network ID in Diver-DXT
• Start barologger Diver-DXT
• Installation of SIM card
• Configuration of the Diver-Gate(S)
• Mounting of the Diver-Gate(S)
• Equipment testing
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copyright of SLB
• Setting-up of the Diver-Hub webportal
Installation of Diver-Gate driver
The Diver-Gate driver is a computer program that controls the Diver-Gate(S) (or Diver-Gate(M)) when connected to
a computer through a USB cable. The driver can be downloaded as an executable from the swstechnology website
(www.swstechnology.com). Appendix VI contains the driver installation steps.
Installation of Diver-Office software
Diver-Office 2012.1 or higher is needed to configure the Diver and Diver-DXT devices. The software can be
downloaded for free from the swstechnology website (www.swstechnology.com). Users who already have installed
an older version of Diver-Office can update directly from within the Diver-Office software.
Programming of Diver dataloggers
The Diver dataloggers can be programmed with a Diver USB reading unit and Diver-Office software. For more
information about programming Diver dataloggers see the Diver manual on the swstechnology website.
Connect Diver to a DXT cable and a Diver-DXT
The Diver is screwed on the bottom connector of the DXT cable and the Diver-DXT is screwed on the top connector
of the DXT communication cable. Through the safety cords the Diver-DXT can be secured to the communication
cable. See illustration for more details.
The radio is deactivated during shipment to the client. The radio will automatically activate (turn on) when the
Diver-DXT is connected to a Diver via a DXT cable. The clock of the Diver-DXT will automatically synchronize once
a day (at midnight) with the clock of the attached Diver datalogger. After activation the radio module is awake
during the day from 7:00 AM until 23:00 PM, waking up every 14 seconds. During the night from 23:00 PM to 7:00 AM
the radio is asleep and only wakes up once every 5 minutes. The radio can’t be deactivated (turned off) by the user.
Setup network ID in Diver-DXT
A network identification or network ID is a password in the Diver-DXT that allows the Diver-Gate(S) (or Diver-
Gate(M)) to connect to a Diver-DXT. The Diver-DXTs are shipped with a default network ID (1234). It is strongly
recommended to change the default network ID before using the Diver-DXT. Furthermore it is advisable to setup
different network ID‘s in case a Diver-DXT is within radio range of two or more Diver-Gate(S) devices. This will
make sure that a Diver-DXT can only be scanned and readout by a single Diver-Gate(S).
The network ID in the Diver-DXT can be setup with Diver-Office. For more information see the Diver-Office help
section 5.2 (Configuring network settings) and 5.3.1 (Changing Diver-DXT settings).
Start barologger Diver-DXT
The barologger inside the Diver-DXT can be started with the following software:
• Diver-Office 2012.1. For more information see the Help section within the Diver-Office software.
• Diver-Mobile. For more information see the Diver-Mobile manual on the swstechnology website.
It is important to note that the right network ID should be selected within the software to match with the network ID
of Diver-DXT.
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