GUILCOR AR005892, AR006089, AR006093, AR006779 User Manual

GUILCOR AR005892, AR006089, AR006093, AR006779 User Manual

GUILCOR AR006779 is a versatile datalogger designed for autonomous measurement and recording of physical and electrical data. It offers multiple input channels for various sensors, including temperature, humidity, and dew point. The device features robust data storage capabilities with adjustable recording intervals and cyclic or non-cyclic modes. Furthermore, it incorporates advanced alarm management with visual and acoustic alerts, SMS messaging, and GPRS data communication for real-time monitoring and remote access.

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User‘s Guide
AR006087
AR005892
AR004525
AR006092
AR006088
AR006089
AR006090
AR003954
AR006779
AR006091
AR006093
AR005348
GSM modem dataloggers
© Copyright: Guilcor
This User’s Guide may not be copied, and its contents may not be changed
in any way without explicit consent of Guilcor..
All rights reserved.
The Guilcor company is continuously developing and improving its
product. Guilcor reserves the right to carry out technical changes in
equipment or product without any previous notice.
Contact address of this device
Guilcor
Route de Carolles, 50530
Sartilly-Baie-Bocage,France
www.guilcor.com
2
List of contents
INTRODUCTION ........................................................................................ 4
DATALOGGER ............................................................................;............ 5
SAFETY MEASURES AND UNAUTHORIZED MANIPULATIONS ............. 6
GUIDE TO INSTALLATION AND USAGE OF THE DEVICE ...................... 7
Inserting the SIM card into the device ........................................... 7
Installing the datalogger, placing the probes ................................. 8
Device set-up .............................................................................. 10
Running the device ..................................................................... 10
Device disposal procedure .......................................................... 11
OPERATING THE DATALOGGER FROM THE KEYPAD ........................ 12
Displaying the device data .......................................................... 12
Menu Options ............................................................................. 16
MODELS PRODUCED ............................................................................. 17
VISION PROGRAM .................................................................... 26
SETTING UP THE DEVICE ...................................................................... 27
How to set up the device by means of a program........................ 27
The device setup from a program (Configuration) ....................... 27
APPLICATION NOTES............................................................................. 37
RECOMMENDATIONS FOR OPERATION AND MAINTENANCE ........... 40
TECHNICAL PARAMETERS .................................................................... 43
Power supply .............................................................................. 43
USB communication interface ..................................................... 44
Measurement, data storage and real time circuitry ...................... 44
Radio section .............................................................................. 45
Parameters of datalogger inputs ................................................. 46
Operating and storage conditions ............................................... 56
Mechanical properties ................................................................. 57
Declaration of conformity ............................................................ 58
Dimensions ................................................................................. 59
ANNEXES ................................................................................................ 63
Annex 1: Selected error messages of the device ....................... 63
Annex 2: Connection of the Pt1000/E serie probe connector ..... 64
Annex 3: Accuracy of the dew-point temperature measurement 65
Annex 4: Connecting block ........................................................ 65
Annex 5: SMS message format.................................................. 66
Annex 6: Firmware updates ....................................................... 69
3
Introduction
This datalogger is designed for autonomous measurements and recording
of physical and electrical data, with the data recording interval from 1 s to 24 h.
The inputs and ranges of quantities to be measured are determined
by the model type the user has bought. The user cannot modify them.
This portable device can be mounted in a fixed-position. To set up datalogger,
a PC with a USB interface is needed.
This device allows:
- to measure and process input data coming from internal or external sensors,
binary inputs, counters or current inputs.
- to detect and log minimum and maximum values (existing since their last
manual resetting) of each quantity,
- to display the measured values on an LCD display. Some features can be
controlled by two push buttons situated next to the display (device switching
off and on, deactivation of alarm signalling, Min/Max value resetting),
- to store an autonomous chronological record of measured values in
internal non-volatile memory. The values to be collected can be measured at
the instant of recording or as average or min/max values detected during
the recording interval. Recording can be performed continuously or at the
alarm time only. The recording mode can be also set optionally as noncyclic to stop at the memory filling up, or as cyclic. In this mode the
originally recorded values will be overwritten by fresh ones after the memory
unit getting filled up.
- to set up two alarm signalling limits for each quantity to be measured. The
alarm signalling can be realised visually, optionally by a symbol appearing
on the display or by a short blink of an LED, or acoustically. In addition, all
UxxxxM series dataloggers contain a GSM modem enabling to send
alarm SMS messages to up to four selected receivers and can send values
over a GPRS data connection using JSON messages when changing the
alarm status.
- to send data to the Cloud storage system
- to send, at a configurable interval, informative SMS messages containing
device identification, currently measured values and alarm states to up to four
selected receivers. These messages may be of two kinds: user readable
(suitable to be displayed on a mobile phone), or machine readable (suitable
for automated data processing in a database or a cloud).
- In configurable interval to send measured values over a GPRS data
connection using JSON messages
- to be supplied in autonomous manner from an internal Li-ion accumulator.
This can be charged by a common USB charger. An internal GSM modem is
connected to the supply unit only when a sending request has been sent out,
otherwise it is switched off to save energy.
- to communicate with a computer by means of a USB interface (all device
settings,
recorded data downloading, and online monitoring).
To communicate, the datalogger utilises the HID USB standard, which does
not require additional controllers to be built into the PC.
4
Datalogger
:
(AR004525 model)
5
Safety measures and unauthorized manipulations
Read the following safety directions carefully before putting the device into operation.
Follow these instructions when using the device!
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6
Legislative conditions. This datalogger contains a radio transmitter working in GSM frequency
bands and using power values that are shown in its Technical parameters. These bands
and power values are used in the countries of the European Union. Before the first setting
the device in operation make sure that you are allowed to operate the device if you reside
in a locality outside the EU.
Electromagnetic interference. Do not use the device in an area where the usage of mobile
phones is limited, e. g. near sensitive medical apparatus, on board a plane or in localities where
explosive materials are used.
Operating and storage conditions. Observe the recommended operating and storage
condition as quoted in the Technical parameters. This datalogger makes use of an internal Li-ion
rechargeable battery. Be particular about the device‘s not being exposed to temperatures higher
than 60°C. Do not expose the device to direct radiation of heat sources and sun.
Fire and explosion hazard. It is not allowed to use this datalogger within hazardous areas,
especially those endangered by a potential explosion of combustible gases, vapours or dust.
Device cover. Do not operate the datalogger without the cover. After inserting the SIM card
check the integrity of the sealing. Screw the device together by using the original screws.
Proceed always exactly according to instructions that are given later in this User’s guide.
Aggressive surroundings. Do not expose this device to any kind of aggressive surroundings,
to chemicals or mechanical shocks. Use soft tissue for cleaning. Do not apply solvents or similar
aggressive agents.
Battery damage. Should the battery casing get damaged or should the whole device get
destroyed, carry it outside the fire, high temperature or water affected area to a safe fire-protected
place. Protect yourself and the environment against escaping gases and against being soiled
with the battery electrolyte.
Failures and servicing. Do not try to repair the device yourself. Any repairs including battery
exchange may be carried out by suitably instructed service personnel only. If the device shows
signs of unusual behaviour, screw off the rear cover to disconnect the battery connector. Avoid
the removed battery contacting any metallic parts. Contact the distributor you have bought the
device from.
Accumulator charging. Use the charger that has been recommended to charge
the accumulator. During the charging procedure the device has to be located in an indoor room
with a relative humidity (RH) up to 85 %. The charging will proceed at an indoor temperature
ranging between 0°C and +40°C.
Protection against water and dust. The device will be protected against water and dust only
when all connectors are duly tightened, and the USB connector is provided with a closing cap.
The input connectors that are not used have also to be provided with closing caps.
Serviceability. This device makes use of the wireless communication and the GSM network.
For this reason, the connection (SMS, GPRS, etc.) cannot be guaranteed always and under any
circumstances. Do not rely merely on wireless equipment if crucial communications must be
realized (rescue systems, safety systems). Bear in mind that redundancy is indispensable
for systems featuring high functional reliability. See e.g. IEC 61508 for more information.
Recommended accessories. Use only accessories that are recommended by the producer.
Guide to installation and usage of the device
Inserting the SIM card into the device
• Prepare suitable SIM card - depending on the intended use, prepare
a SIM card for the 2G network that will meet the expected amount of sent
SMS messages and transmitted data. The transmitted data can be sent
through GPRS data connection. Approximate data consumption is 1.5kB
for each sent data message when sending via HTTP (if you use HTTPS,
it increases to 8.5kB per message).
• Use the micro SIM card and insert it into the device. If you have a nano
SIM card, you must purchase a micro SIM adapter. If the SIM card
is protected by PIN code, make a note it, and later insert this code into
the device configuration. Select such a tariff that meets your requirements
concerning the quantity and safety of the message delivery. For some
tariffs the message delivery may be stopped when a certain number
of messages or amount of transferred data is exceeded or when a given
time period has elapsed.
• If you use the optional IoT SIM card accessory (order code AR005246),
you get the option of a mobile connection to send data to the Cloud. With
this card it is possible to transfer 500 MB of data, ie. the endurance of
this SIM card is approximately 5 years at a 10-minute sending interval
(possibly 2.5 years at a 5-minute sending interval). Attention, this IoT SIM
card does not support sending of SMS messages!
• Make sure the device is turned off or turn it off.
• Screw off the rear cover of the device – caution, the device is constantly
supplied from the internal battery. Proceed with care. Prevent external
conductive parts from contacting electronics components when
manipulating the device without the back cover installed.
• Insert the card into the SIM card holder
7
• Removing the card from the SIM card holder
• Screw up the rear cover of the device
- at first check the seal in the nut
for integrity, then screw down the lid
with the aid of four self-cutting screws.
ATTENTION – tighten screws gradually
and with feeling!
GSM module status (blue LED
indication)
LED state
Module Function
Off
64ms On / 800ms Off
64ms On / 2000ms Off
64ms On / 600ms Off
The module is not running
The module is not synchronized with network
The module is synchronized with network
The GPRS data transmission after dialling
the PPP connection
Installing the datalogger, placing the probes
• Choose a suitable location for installing the device - bear in mind that the
environmental conditions should be concordant with the Operating
conditions. Do not situate the device near sources of electromagnetic
interference.
• Recommended working position the aerial is supposed to point
upwards:
• Check the availability and quality of
the GMS signal in the aerial location
- use a mobile phone utilizing a SIM
card of the same operator as that of the
datalogger. Search another installation
location if the signal quality is not
satisfactory. It is especially in iron
concrete constructions, cellars, metal
chambers or other shielded rooms that AR006087
the GMS signal may be insufficient.
8
.
• This device may be operated as a portable one. In this kind of operation
avoid the device falling. Try to maintain the proper working position.
• You can screw the device on the wall or some other solid base
• You can fix the device on the wall with the aid of a lockable holder
AR004252 (optional accessory)
• Probe installation and cable routing - observe the installation
instructions, realize the recommended operating positions, avoid electricpower distribution systems. See the chapter „MODELS PRODUCED“
for more information.
• The front panel of the device is protected by a transparent transport foil,
which can be removed.
9
Device set-up
• Connect the appropriate probes and signal leads to the device.
For more information refer to the chapter „MODELS PRODUCED“.
• Install the software into your computer - is available for free on the
address www.guilcor.com.
• Run software
• Connect the device to the computer - on the datalogger side, use
a USB cable provided with a USB-C terminal.
• Setting up the device - with the aid of the program, set up the device
identification, the names of the points to be measured, the recording
mode, the alarms and there signalling. If a PIN code is set on your SIM
card, be sure to set it in the Configuration-Modem-General section
before using the logger for the first time, the default setting is No PIN
code.
• For more information, refer to the chapter „SETTING-UP THE DEVICE“.
Running the device
• After the set-up - Disconnect the device from the computer and close
the USB connector with a closing cap. Check that al connectors, including
the aerial connector are properly tightened. The device may be operated
with a USB cable that is permanently connected to a computer or to
a charger. In this case the ingress protection will be reduced to IP 20.
•
Operating the device by means of keys - In the main display mode you
can switch over between individual channels and the display mode
Current / minimum / maximum values by means of the keys. By pressing
a certain key combination, you will enter a menu in which you will be able
to switch the device on or off, to delete the Min/Max values and to disable
the alarm signalling. For more information, refer to the chapter
„OPERATING THE DATALOGGER FROM THE KEYPAD“.
• Charging the batteries - an internal charger will be activated immediately
after connecting the USB charger or after connecting the datalogger
to the computer. The datalogger contains an intelligent charging circuitry
evaluating the battery condition and internal temperature. Charging time
depends on the current battery discharge status The battery charging
process will be initiated only in the case that the battery voltage is low and
the internal temperature ranges between 0°C and 40 °C. Use
the recommended charger type only. During the charging period
the ingress protection is reduced to IP 20; therefore, do the charging
under room (or similar) conditions only. If the battery is very low,
the charging process may be terminated with an error message. In such
a case contact the datalogger vendor to apply for battery replacement.
During the battery charging period the internal temperature of the device
may be slightly raised, which can, for a short period of time, adversely
influence the measurement values of the internal sensors. Therefore,
10
the charging speed with the power on is deliberately slowed down
to avoid excessive measurement influence. If you want to charge
the device as soon as possible, turn it off first. When the device is turned
off, the fast charging mode is automatically activated. Fully charged
battery is indicated on the display of the device usually within 6 hours.
• Maintenance and regular checks - for a reliable functioning of the device
it is advisable to perform its regular check-ups. For more details refer
to „RECOMMENDATIONS FOR OPERATION AND MAINTENANCE“.
Device disposal procedure
Screw-off the rear cover of the datalogger, disconnect the battery connector
and take out the battery. The device is disposed of as electronic waste.
The battery must be disposed of as hazardous waste. Remember there can
be a SIM card inside the device.
11
Operating the datalogger from the keypad
Displaying the device data
Data memory occupancy - this display section offers information
about the current condition of the free space existing in the data memory.
The blinking of the Memory symbol indicates that the preset memory
occupancy limit has been exceeded. This limit can be set up in the device’s
configuration. Several actions can be assigned to it (optical and acoustic
signalling, sending SMS messages).
The memory occupancy is about 75 %, the device is in the noncyclic recording mode, i.e. the recording will be stopped as
soon as the memory capacity is full.
The memory occupancy about 75 %, the device is in the cyclic
recording mode, i.e. as soon as the memory capacity is full,
the oldest data will be overwritten.
The memory occupancy 100 %, the device is in the cyclic
recording mode. The preset memory occupancy limit has been
exceeded (The Memory symbol is blinking).
Record status - offers information on whether the recording is ON
and whether it is just running.
12
A continuous recording with a preset interval is ON and running.
The recording is ON in the device and it is running at present.
This kind of display is utilized, when the record activity is dependent
on the alarm or the external input condition.
The recording is ON in the device but it is not running at present.
For instance, the rrecording is ON during an alarm only, and there
is no alarm just now. Or, a recording is ON that is controlled by
an external input which not active at the moment.
The LOG symbol is not displayed: The recording is OFF in the device.
The recording is not allowed in any channel in the device’s
configuration.
Meaning of the values displayed - this item specifies the meaning
of the measured values displayed in the two main rows. Beside the currently
measured values the device will also evaluate the minimum and maximum
values from their last resetting by the user. If the device is OFF and has not
been running for some time, then, after it is turning ON, the value of Min /
Max is then set to the values before switching OFF. It can be preset
in the device configuration, whether and in what manner these Min/Max
values will be displayed by the device. Remember that the Min/Max
in question are different from those being recorded.
Neither MIN nor MAX is displayed. You can see values that
have been currently measured.
In both display rows you can see the minimum values measured
since their last resetting by the user.
In both display rows you can see the maximum values measured
since their last resetting by the user.
Alarm condition - this item provides instant information that at least one
of the alarms which have been preset is active. Alarms can be generated by
exceeding the limits that have been preset in individual channels. Moreover,
they can notify of a device failure. In the device configuration you can preset
which conditions should be considered as alarm generating. By means
of the upper key you can easily browse through the values measured in all
device channels (if enabled in device configuration). In the case
that the value is preceded by a bell-like icon, the preset limits (alarms) have
been exceeded in this channel.
GSM modem active - this symbol indicates that a power supply has been
connected to the GSM modem because of some online work.
13
Battery condition - this symbol provides overview information
about the current battery charging condition. The charging is indicated
by flashing one of these symbols.
Battery conditions during battery operation of the device:
Fully charged battery
Partly discharged battery
Heavily discharged battery
Totally discharged battery, the device will be switched OFF.
Battery conditions with a charger connected to the battery:
Blinking symbol of an empty battery. There was a deep discharge
of the battery, the charger is attempting to recover battery. If this
condition persists for a long time and the standard charging
process is not renewed, contact your service department.
The battery will have to be replaced.
Indications of individual charging steps when the charging
process takes place in a standard way. If the display shows
the symbol of a full battery, the battery is fully charged
and the charger can be disconnected.
A failure has been detected during charging and the charging
process has been broken off. Try to remove the failure by
disconnecting and reconnecting the charger. If the problem
persists, call the service.
Wait, the charger performs internal testing, or the temperature
inside the device is not within the allowed charging range
(0 to 40°C).
USB interface active – the icon indicates that the device has been
connected to the computer.
Measured value (upper and lower row) - the currently measured value(s)
(or the Min/Max values) are displayed, if the corresponding symbols
in the upper display section are illuminated. The unit name and the measured
value symbol (1, 2, 3, 4, INT, EXT) are preset by the manufacturer, the user
cannot change them. In addition, it is factory preset whether the measured
value of a particular channel will be displayed in the lower or upper display
unit row. On the other hand, the user has many possibilities to adjust
the appearance and behaviour of individual „screens“. Controlling them can
14
take place only manually by the aid of push buttons situated beside
the display unit. The upper push button serves to toggle between
the measured values („the screens“):
The lower push button serves to toggle between the currently measured
values and the Min/Max values:
The device can also be set up to toggle the „screens“ automatically,
in for about 5 sec interval. The cycle can be interrupted by pressing a key.
If you do not want to use the keypad, you can disable it in the device settings.
Display warnings:
Displayed when no SIM card is inserted
Displayed if the card requires you to enter
the PUK code. This condition may occur e.g.
if a PIN is activated on the SIM, but PIN code
stored in the device configuration is not valid.
The SIM card requires a PIN code but the PIN
is not set/enabled in the SW configuration
(Default).
15
Menu Options
The menu can be entered by pressing a combination of both keys. In any
case, using the keypad must be enabled in the device configuration.
Individual menu items, too, may be disabled in the device setup. It is e. g.
possible to switch on the device in this way, but it is not possible to switch it
off.
To enter the menu:
Press the lower key and hold it pressed for about 3 s, until bottom menu line
appeared. Then release this key immediately and shortly press the upper key
during the following 4 s.:
You can now work with individual menu items. Press the upper key to scroll
through the menu items, press the lower key to confirm (SET). After
confirming certain choices, the menu will be quit automatically. If the keypad
is inactive for more than 20 s, the menu will close automatically.
Menu items:
Deactivation of the optical (LED diode) and/or acoustic
(the intermittent tone) alarm signalling. The option "Mute optical
and/or acoustic signalling are controlled from local keypad " must
be enabled in the device configuration. If you deactivate (mute)
the signalling (optical and/or acoustic) using the device keypad,
the signalling is automatically reactivated when another alarm
occurs. See page 31 for more details.
Deleting the Min/Max values in the device and it is related only to
values obtained since last reset. This does not concern those
recorded Min/Max values obtained in some other way. Option
must be enabled in the SW device configuration.
Switching the device off. This item is available only if the device
is ON. Option must be enabled in the SW device configuration.
Device switching-on. This item is available only if the device
is OFF. Option must be enabled in the SW device configuration.
Closing the menu.
16
Models produced
The models produced differ from one another by types and ranges of values to be
measured. The datalogger’s input channels are invariably assigned to these values.
The user cannot change the type and range of the values to be measured. If GSM
communication is used, it is necessary to pay attention to a sufficient level of GSM signal
at the location.
AR006087
One-channel thermometer
This model is equipped with only one internal
temperature sensor, no additional probes and sensors
can be connected. It is characterized by a simple
and compact design and a relatively long response to
a temperature jump. The device is placed directly
in the measured space. During the charging period
the measurement accuracy may be affected by up to
1 °C due to parasitic heat.
AR005892
Two-channel thermometer
for external probes
This model can measure one or two temperatures,
which are sensed by Pt1000/E series external probes.
The response to a temperature jump depends
on the connected probe design. As a rule, this model
is few times faster than that using the inner sensor. It is
often used to monitor locations where the device itself
is not directly in the measuring space and only probes
are in. The maximum length of each probe lead should
not exceed 15 m. It is recommended to use shielded
cables. To maintain the IP rating, the unused probe
connectors should be provided with a supplied closing
cap.
17
AR004525
Four-channel thermometer
for external probes
This model can measure up to four temperature
values transmitted by Pt1000/E series external probes.
The response to a temperature jump depends
on the connected probe design. As a rule, this model
is few times faster than that using the inner sensor. It is
often used to monitor locations where the device itself
is not directly in the measuring space and only probes
are in. The maximum length of each probe lead should
not exceed 15 m. It is recommended to use shielded
cables. To maintain the IP rating, the unused probe
connectors should be provided with a supplied closing
cap.
AR006088
Compact thermometer hygrometer
This model is designed to measure temperature,
relative humidity and dew-point temperature by internal
sensor, no additional probes or sensors can be
connected. It is characterized by a simple and compact
design and a relatively long response to a temperature
and humidity jump, compare to model with external
probes. The sensors are located under the grid
on the front of the unit and are protected with Teflon foil.
Foil permits water vapour but prevents water from
permeating the liquid state. The device is suitable
for measuring in places where there is no rapid change
in temperature or relative humidity, and there is
no condensation of water vapours. If water vapour
condensation
occurs
inside
the
datalogger,
then the resulting water will remain there and may
damage its electronics. The device is placed directly
in the measured space, while the installation needs to
ensure sufficient level of GSM signal at the installation
location. As the internal battery creates a parasitic heat
during the charging period, the measurement accuracy
may be affected by up to 1 º C. The calibration of this
instrument in the laboratory is recommended with the
open bottom part of the battery box, to allow airflow from
18
the back of the electronics. When airflow in the range
0.5 – 1 m/s, read the value after approx. 4 hours. The
closed device reaches a difference of approximately 2
%RH when inserted in the humidity chamber, then
dramatically slows down. Precise reading takes many
times longer time than with the open rear lid.
AR006089
Thermometer – hygrometer
for external probe
This model measures temperature, relative humidity
and dew point temperature using an outdoor Guilcor
Digi/E series probe. Its response to the
temperature or relative humidity jump is significantly
faster than by models with internal sensor. This model
is often utilized to monitor areas in which only the
probe is installed, whereas the main unit is installed
elsewhere. When monitoring remote areas, the
maximum probe line wire must not exceed 15 m. The
Digi/E series probes provide calibrated measurement
values. Hence, they may be replaced without having
to modify the device setup.
AR006090
Compact thermometer hygrometer with optional external
temperature probe
This model is designed to measure temperature,
relative humidity and dew-point temperature by internal
sensor, moreover one additional external temperature
probe Pt1000/E can be connected. Internal sensors are
located under the grid on the front of the unit and are
protected with Teflon foil. Foil permits water vapour
but prevents water from permeating the liquid state.
The device also measures the temperature from
an external probe and the difference between
this temperature and the dew point temperature.
If the surface temperature of the material is measured
by an external probe, the risk of condensation of water
vapor on the surface to be measured can be determined
19
immediately. The device alone is suitable for measuring
in places where there is no rapid change in temperature
or relative humidity, and there is no condensation
of water vapours. If water vapour condensation occurs
inside the datalogger, then the resulting water
will remain there and may damage its electronics.
The device is placed directly in the measured space,
while the installation needs to ensure sufficient level
of GSM signal at the installation location. As the internal
battery creates a parasitic heat during the charging
period, the measurement accuracy may be affected by
up to 1 º C. The calibration of this instrument
in the laboratory is recommended with the open bottom
part of the battery box, to allow airflow from the back
of the electronics. When airflow in the range 0.5 – 1 m/s,
read the value after approx. 4 hours. The closed device
reaches a difference of approximately 2 %RH when
inserted in the humidity chamber, then dramatically
slows down. Precise reading takes many times longer
time than with the open rear lid.
The maximum length of each probe lead should not
exceed 15 m. It is recommended to use shielded cables.
To maintain the IP rating, the unused probe connector
should be provided with a supplied closing cap.
AR003954
Compact thermometer hygrometer - pressure gauge - CO2
concentration meter
This model is designed to measure temperature, relative
humidity, dew-point temperature, barometric pressure
and the concentration of CO2 in the air by internal
sensors. Barometric pressure can be measured as
absolute or recalculated to sea level. No additional
probes or sensors can be connected. It is characterized
by a simple and compact design and a relatively long
response in the measured quantities, compare to model
with external probes. The sensors are located under
the grid on the front and side of the unit The device is
suitable for measuring in places where there is no rapid
change in temperature or relative humidity, and there is
no condensation of water vapours. The device is placed
directly in the measured space, while the installation
needs to ensure sufficient level of GSM signal
20
at the installation location. As the internal battery
creates a parasitic heat during the charging period,
the measurement accuracy may be affected by up to
1 ºC.
In battery mode, this model has significantly shorter
battery life than models without CO2 concentration
measurement. For this reason, the measurement of CO2
concentration does not occur as often as
the measurement of other variables. By default, this is 2
minutes with the option of extending up to 10 minutes
(option available in the Vision software).
We recommend that calibration of the relative humidity
and temperature of this device in the laboratory be
carried out with sufficient air flow (at least 1 m/s),
but only after a thorough settling, which may take up to
4 hours.
Due to low IP20 protection, this device is not suitable
for dusty or water-borne areas.
AR005348
Compact CO2 concentration meter
This model is designed to measure concentration
of CO2 in the air by internal sensors. No additional
probes or sensors can be connected. It is characterized
by a simple and compact design and a relatively long
response in the measured quantities, compare to model
with external probes. The sensor is located under
the grid on the front and side of the unit. The device
is placed directly in the measured space, while
the installation needs to ensure sufficient level of GSM
signal at the installation location. In battery mode,
this model has significantly shorter battery life than
models without CO2 concentration measurement.
The measurement of CO2 concentration occurs
2 minutes standardly with the option of extending up to
10 minutes (option is available in the Vision software).
Due to low IP20 protection, this device is not suitable
for dusty or water-borne areas.
21
AR006092
Two-channel binary-input
thermometer for external probes
This model can measure up to two temperature values,
which are sensed by outdoor Pt1000/0 series probes.
In addition, it is provided with two binary inputs
for monitoring voltage-signal changes or changes
of a signal coming from a voltage-free contact.
The binary input changes are registered immediately,
irrespectively of the recording interval setting. To safe
record the input status, the signal must be present
for at least 1 s. Binary inputs of this device are not able
to capture connected/disconnected voltage status. Input
signals are connected to a connecting block.
The response to a temperature jump depends
on the probe design. As a rule, this device is few times
faster than the inner-sensor model. The maximum
length of the probe line wire should not exceed 15 m;
the maximum length of the binary-input cable should not
exceed 30 m. It is recommended to use shielded cables.
The device’s ingress protection is IP 20. Due to low
ingress protection the device is not suitable for using
in dusty rooms or rooms exposed to water ingress.
Connection mode:
For the procedure for connecting wires to the connecting
block refer to Annex 4.
22
AR006779
Datalogger with 3 inputs 0 – 10 V
and 1 binary input
This model is used to measure up to three voltage
inputs 0-10 V DC while allowing one binary input to be
monitored. The voltage inputs are not galvanically
separated from one another. This means that the
negative terminals ("-") are connected to each other.
These facts must be taken into consideration when
designing the device into the circuit. Incorrect
connection may cause degradation of the measured
values.
Binary input serves to monitor voltage signals or
signals coming from a voltage-free contact. The binary
input changes are registered immediately, irrespectively
of the recording interval setting. To safe record the input
status, the signal must be present for at least 1 s.
Unlike the AR006092 model, this input can capture
connected/ disconnected voltage status.
Input signals are connected to a connecting block.
The device’s ingress protection is IP 20. Due to its low
ingress protection the device is not suitable for using
in dusty rooms or rooms exposed to water ingress.
The maximum length of the input wires should not
exceed 30 m. It is recommended to use shielded cables.
Connection mode:
For the procedure for connecting wires to the connecting
block refer to Annex 4.
23
AR006091
Datalogger with 3 inputs 0 - 20 mA
and 1 binary input
This model is used to measure up to three signals from
current loops (0 to 20) mA DC while allowing one binary
input to be monitored. The current inputs are passive
and are not galvanically separated from one another.
This means that the connected sensors cannot be
connected to the current loop and the negative terminals
("-") are connected to each other. These facts must be
taken into consideration when designing the device into
the circuit. Incorrect connection may cause degradation
of the measured values. Standard outputs (4 to 20) mA
can also be measured with current inputs without any
problems.
Binary input serves to monitor voltage signals or signals
coming from a voltage-free contact. The binary input
changes are registered immediately, irrespectively
of the recording interval setting. To safe record the input
status, the signal must be present for at least 1 s.
Unlike the AR006092 model, this input can capture
connected/ disconnected voltage status.
Input signals are connected to a connecting block.
The device’s ingress protection is IP 20. Due to its low
ingress protection the device is not suitable for using
in dusty rooms or rooms exposed to water ingress.
The maximum length of the input wires should not exceed
30 m. It is recommended to use shielded cables.
Connection mode:
For the procedure for connecting wires to the connecting
block refer to Annex 4.
24
AR006093
Two-channel binary-input counter
This model includes four inputs. Two of them can
function as counters, and all four inputs can function
as binary inputs. Both counter and binary inputs serve to
monitor voltage signals or signals coming from
a voltage-free contact. The binary input changes are
registered immediately, irrespectively of the recording
interval setting. To safe record the input status,
the signal must be present for at least 1 s.
Unlike the AR006092 model, binary inputs can
capture connected/disconnected voltage status. The
counter states are recorded according to the set
Record interval. Input signals are connected to a
connecting block. The device’s ingress protection is IP
20. Due to its low ingress protection the device is not
suitable for using in dusty rooms or rooms exposed
to water ingress. The maximum length of the input
wires should not exceed 30 m. It is recommended to
use shielded cables.
Optional input configurations:
• 2 x counter + 2 x binary input
• 1 x counter + 3 x binary input
• 4 x binary input
Connection mode:
For the procedure for connecting wires to the connecting
block refer to Annex 4.
25
Vision program
Minimum HW and OS requirements __________________
• Windows 7 operational system and higher, or Windows Server
2008 R2 operational system and higher
• 1.4 GHz processor speed
• 1 GB memory
Program description ______________________________
The program is used to set up devices, to obtain the recorded
data and the currently measured values.
The program is available free of charge (www.guilcor.com), any
number of devices can be connected simultaneously (e. g. data
from several devices can be downloaded concurrently; several online
displays may be running at a time). Moreover, some advanced features
are available (e. g. graphs, statistic previews of registered data, userdefined online display, export into a database etc.).
The starting point for the program control is the menu situated in the left
(optionally right) portion of the utility software and containing the basic
options „Home“, „Devices“, “Files”, „Online display“.
Adding the datalogger to a list of the devices ____
The USB-connected device is automatically detected within approx.
5 seconds (required for connection initialization time). When
connected to a computer, the device is automatically added to the
device list.
A device can be added manually after clicking on the „Add device“
button. This can be found in the „Welcome“ screen, which is displayed
upon the first program launching, later in the „Home“ or „Device“ tabs .
A screen containing a connection type choice will appear. Here, USB
should be selected. Subsequently, after „Finish“ button confirmation,
the device will be added.
26
Setting up the device
After the datalogger has been switched on, it starts measuring, data
recording and evaluating alarms according to the device’s setting up
performed by the user. Complete device setup can be performed by the aid
of the user software (hereinafter SW). During configuration editing the
device can work normally, nevertheless the access to some functions
(record download, contemporary configuration editing by other users) is
limited.
How to set up the device by means of a program
• Connect the datalogger to a computer, run the user SW.
• after starting the program you will see all currently connected devices
in the device list. Note: if you had SW on first and connected
the datalogger then it will be automatically added to the instrument list.
• select the device you want to set up. The Device Home panel displays its
current status and device information.
• Click on the Configuration button. The device configuration will be
downloaded; you will be able to view it.
• If you change the setup of some item, the SW will pass over
into the editing mode. The other users’ access to the device will be limited
during the editing procedure.
• In case of a longer idle time the configuration editing mode will close
automatically.
• Finally save the new configuration into the device (Apply changes).
The device setup from a program (Configuration)
General - Information ______________________________
In this panel basic device information is available. Here is above all its
name (Device name), which serves to identify the device
and the measurement values it provides. You can name the device e.g.
according to its location or utilization, or you can leave its original
setting. The maximum length of this description, in which you can use
letters, numerals, underscores and further signs, is 31 characters.
More information, which is indicated in this panel, is the device’s serial
number, model, firmware version and information, whether the model
contains an internal modem to send SMS messages.
27
General - Preferences _____________________________
In this panel you can choose the unit with which the device will measure
the temperature (Default temperature unit °C/°F). With some devices
the pressure unit can be chosen, too (Default atmospheric pressure
unit). When the device does not measure the atmospheric pressure,
but when it is necessary to know its value to measure some quantities
(calculated humidity and CO2), the atmospheric pressure value must
be entered (Default value of atmospheric pressure in the area
according to altitude).
With barometers, the correction constant can be entered here
for conversion to the equivalent sea level pressure. This constant can
be entered either as a current pressure converted to the sea level found
out e.g. at a near observatory, or through the medium of the elevation
above sea level.
General - Data and Time ___________________________
Here you can set the date and time running inside the device (Date and
Time). In the datalogger local current time is running according to your
setting. By means of the UTC Offset choice you can fix its relation
to the UTC. This information will be available for all time data
provided by the device. The device cannot automatically pass over
between summer and winter time.
CAUTION - after changing date and time the data
recorded by the device will be deleted!
Advanced - LCD Display ___________________________
In this panel you can set a variety of display and keypad behaviour
modes.
Advanced – Other settings (Keypad, Device start, Energy) _
In this panel you can set some functions of the datalogger’s buttons,
a delayed switching-on of the datalogger or the control of its switchingon by a binary input (according to type). In addition, the datalogger‘s
switching-on and/or off by a button on the datalogger panel can be
enabled or disabled.
In the standard mode the datalogger measures all channels using
an interval of 10 s. This interval can be shortened to 1 s when a faster
measuring procedure is required. A disadvantage of this mode is
a higher power consumption. When the device is operated for a long
time, there is no need for a fast response to the change
28
in the measurement values and a long battery lifetime is what matters,
you can set the measurement interval to 1 minute. The CO2
concentration channel measures with a 2-minute interval and can be
extended up to 10 minutes to save more battery life. For details
concerning power consumption, see Technical parameters.
Record _________________________________________
The choices that are available in this panel serve to control the device‘s
recording functions. The recording function may be switched on and off
when needed (Recording with interval). However, if you switch
the recording off and then you switch it on again, the memory free
space may be reduced by up to 0.2 % of its total capacity. Use Cyclic
record in the case that you require the device to continue recording
even if the measurement data memory is filled up with data. In this case
the oldest data is gradually overwritten by the newer data. If you do not
use this choice, the data recording will be stopped on reaching the full
storage capacity. Another important parameter is the Record interval.
It can be set from 1sec/10sec/1min (according to settings in Advanced
– Other settings (Energy) - Measurement Interval) to 24 hours (See
Technical parameters). The recording takes place every time at integer
multiples of the pre-set interval. For example, if you switch the device
on at 5:05 and the recording interval has been set to 1 hour, the first
data will be recorded at 6:00, the following data at 7:00 and so on.
The data recording can take place either incessantly, or only
in the instant when some of the measurement values gets into
an alarm condition (system alarms do not trigger the recording).
Choose Record mode.
By default, the device records instantaneous readings at a preset
recording interval. Another option is to select the record "average,
minimum and maximum values per recording interval". Example:
the selected recording interval will be 1h, then every 1h the three
values - average, minimum, and maximum - will be stored for the past
hour. Therefore, the next three values are saved again in an hour
and will correspond to the values in the last hour interval. Attention these Min / Max values are only related to the selected recording
interval and are different from the global Min / Max values displayed
on the instrument's display (these are for the entire period of operation
since their last manual reset).
The record setting is completed by choosing measurement channels
that are supposed to be recorded.
CAUTION - After changing cyclic  non-cyclic recording
(in either direction) the data recorded in the device is to be
deleted! SW warns you when saving a new configuration
and gives you the option to save data.
29
Channels_______________________________________
In this panel you can set all input channels. The assignment
of the measurement value and its range to a channel is factory-set
and cannot be changed. Supply a suitable name of the location to be
measured for each channel and decide whether it will be switched
on for measurement and for recording.
Further items, like those for entering the decimal place number,
the name of the physical unit and the conversion of the measurement
values by means of the so-called User calibration are available
in channels with voltage and current inputs only. In these inputs no
physical quantity unit is displayed on the device’s LCD display.
If the value cannot be displayed on the device's display for a large
number of digits, then Hi (if greater than the displayable number) or Lo
(if less than the displayable number) is displayed. However, this error
message only concerns the display on the device display, not
the measurement and recording.
An example of user-defined calibration for a sensor having a 4 to
20 mA current output. The sensor is connected to the datalogger’s
current input; the sensor’s measurement range is -30 to +80 °C:
Lower point A: Input value: 4 will be shown as -30
Upper point B: Input value: 20 will be shown as 80
In a channel for external Pt 1000 probes there exists the possibility to
enter the probe parameters to correct the measurement error caused
by probe cable length.
In binary channels you can decide whether a voltage signal or a contact
(an open-collector transistor) will be connected to the input. Then enter
textual descriptions of the states for both input levels. In this way
the states will be displayed in the record, in the online display, and in
this manner they will be sent in SMS messages, too. At the same time,
from the menu, choose symbols for displaying these states by
the device.
For a counter channel, decide whether to report an error or continue
from zero after it is overflowed. The range is 24 bits, it means max.
16 777 215.
In the next step, set alarm states for each measured variable. You can
set up to 2 alarms for each measured quantity (alarm 1 and alarm 2
buttons). Each alarm must be enabled (on/off) first.
Furthermore, choose whether the alarm should arise from exceeding
the limit value or from dropping under it (value is greater than / value is
lower than). Enter this limit value. In binary inputs, only the input state
must be defined. Subsequently, the alarm delay time must be entered
(for the duration of). This delay time serves to eliminate contingent
30
momentary overshoots of the limit value. The hysteresis, too, has
a similar significance (Alarm hysteresis). It prevents the alarm
from oscillating in the case that the measurement value varies around
the alarm limit value. It is not recommended to set it equal zero.
Thus, the setting for generating an alarm is completed. It remains
to decide, whether the alarm should be indicated optically by means
of a LED diode on the device (Optical signalling - LED), acoustically
(Activate internal acoustic signalling) or by sending a alarm text
message to up to four selected recipients (when alarm
occurs/disappears, send SMS to selected recipients).
In SMS messages you can determine whether they are supposed to be
sent out on alarm generation and on alarm disappearance, too. In both
cases add a custom text description of the status that the recipient
will see in the message.
Alarm events ____________________________________
The device makes it possible to evaluate alarm situations, which can
either originate from the measurement data, or they can notify of
a certain device condition (exceeding the memory occupancy limit,
system alarms). The individual alarm situations can be assigned
the way of their signalling to the user.
An alarm originating from a measurement value is every time signalled
on the device display by means of a bell icon ahead of
the corresponding measurement value. General information about any
alarm occurring in the device is displayed by ALARM warning on
the device display (except for an exceeded memory occupancy limit,
which is signalled by a flashing Memory sign).
31
An alarm can be signalized by a fast flashing of the LED diode
on the device panel (Optical signalling - LED). In the case that only one
alarm originating from a measurement value is active, a yellow LED is
flashing. In the case that more alarms occur simultaneously,
or a system alarm or an alarm originating from an exceeded memory
occupancy limit occur, a red LED diode is flashing.
NOTE: A blue flashing LED diode does not notify an alarm,
but the communication of the GSM modem with the operator’s
network.
Besides, an alarm may be signalled acoustically by a characteristic
sound, which is repeated at regular intervals. If the device is connected
to an external power supply, the acoustic signal is more intense
than with battery power.
The operator alerted this way can confirm the acoustical or optical (LED
diode) signal and so mute it until a new alarm occurs (See the chapter
Controlling the datalogger from a keypad).
Alarm events - Preferences _________________________
In the standard mode the alarm lasts only during the time when
the measurement values lie outside the allowed limits. As soon as they
return inside the allowed limits, the alarm will cease. In some cases,
it is desirable for the user to be informed of an alarm that has occurred
during his absence. If you enable the Latched alarms choice
in the device setting, then every alarm occurring in the device remains
active until operator intervenes, irrespective of the measurement
values (i.e. until the time of manual cancel). Latched Alarms Memory
can be deleted either from SW Vision and/or by device restart by
buttons (the device Off and On). The availability of these choices
depends on device configuration settings.
Moreover, alarm evaluation may be enabled here for selected days of
the week only and for certain hours of the day. This setting can also be
used for system alarms, but it should not be combined with the above
described option Latched alarms.
Alarm events – Mute of signalling____________________
In this panel you can enable or disable the alarm signalization
deactivation – mute of signalling. Depending on the device
configuration, deactivation of the signalling can be done either by SW
Vision and / or from the device keypad (in menu item ALARM on LCD).
The alarm signalling means either optical signalling - by a flashing
LED, or acoustic signalling - by an intermittent tone (beeping). The
alarm deactivation function allows you to deactivate (mute) the alarm
signalling for the duration of the alarm condition (the corresponding
alarm symbol remains on the display).
32
Deactivation of the signalling can be according to the device
configuration:
- permanent - the optical and/or acoustic signalling is deactivated
until new alarm occurs. In this case, the "Reactivate muted alarm
signalling" item must be switched off in the device configuration.
- time-limited (temporary) - if the alarm after the set time interval
is still current, the optical and/or acoustic signalling is activated
again. The time interval can be set in the device configuration
under the item "Reactivate muted alarm signalling".
By local keypad on the device only deactivate the optical and/or
acoustic signalling; Sign ALARM at the top of the display is displayed
for the whole time of the alarm condition.
Alarm events - Memory occupancy___________________
Use this panel setting, if an overrun of the pre-set limit value of the data
memory occupancy needs to be signalled. The signalling mode may
be selected optionally as optical (by means of a LED diode), acoustical,
or it may be realized by sending a warning SMS message up to as 4
selected recipients.
Alarm events - System failure _______________________
These panel choices make it possible to set the so-called system
alarms, which indicate some technical failure of the datalogger or of
some of the probes connected to it. The signalling mode may be
selected optionally as optical (every time by means of a red LED
diode), acoustical, or it may be realized by sending a warning SMS
message up to 4 selected recipients.
The device can respond to the following conditions:
a) Measurement error on any channel ...... e. g. a probe has been
disconnected or broken.
b) Device configuration error …... the device configuration has
been disturbed unexpectedly.
c) External power failure ...... the USB connector of the device
can be used to charge the battery, or it can be permanently
connected to external power (USB charger or computer). This
state can therefore be used as an external power failure
indicator.
d) Low battery …. it informs that it is necessary to connect
external power and charge the internal battery, see chapter
“Running the device - Charging the batteries”.
e) Time setting error or battery is discharged …. the battery has
run out of charge.
33
Modem - General _________________________________
In the configuration enter the PIN code for your SIM card, if required
(given by the settings of the SIM card used). By default, your device is
set to not require the PIN code. If the PIN code is set on the SIM card
and the required pin is set incorrectly in the device configuration,
the SIM card will be blocked when attempting to connect to the GSM
network, see Display warnings chapter. This option does
NOT change the PIN code settings on the SIM card, only the PIN code
required for the SIM card is entered here.
Modem – Text message - General ____________________
In the case that the alarm condition persists for a longer time,
determine whether the warning text message should be sent on the
alarm inception only, or whether it should be repeated. The repetition
interval can be pre-set in a range of 30 minutes to 24 hours.
Specify the total daily limit for the number of SMS messages sent from
the device (ie the maximum number of sent SMS messages per day
for both battery and external power together) and the maximum daily
limit for the number of messages sent in battery mode (to conserve
battery capacity). Before sending a message, the daily limit value will
be ascertained. Should the limit value be reached, the respective
recipient will receive a message indicating that the daily limit of
the outgoing messages has been reached. For the day in question no
further messages will be sent to the recipient’s number. When it is
required to send the message to another recipient, only a notification
is sent about the daily message limit error. No further messages will be
sent out to this recipient’s number on this day. The daily limit will be
reset at time 00:00.
If you want alarm text messages to be sent, remember to assign
the pertinent recipients of these messages to the particular alarms.
This concerns alarms on measurement channels, system alarms,
as well as warnings about exceeding the data memory occupancy limit.
This assignment is to be performed during setting the individual alarms.
Modem – Text message - Recipients __________________
In this panel you can set the recipients of the SMS messages. You may
enter up to 4 recipients of text messages that the device will work with.
Each recipient is identified by their name, telephone number, additional
text and an activity flag. If you clear this flag, text messages will not be
sent to the selected user, but all its settings will remain unchanged.
This way you can easily deactivate a user in a simple manner
and restore it later.
34
Modem – Text message - Keep alive SMS ______________
In this panel you can set Keep-alive SMS sending parameters.
It means sending information messages at regular intervals,
regardless of alarm status.
Set the interval for sending Keep-alive text messages. Such messages
can be sent by the device to all selected recipients on regular interval
basis. They include the datalogger identification, the current
measurement values of all channels as well as the conditions of all
alarms. These messages can contain user-readable data
or alternatively machine-readable data. For more detail see Appendix
5: SMS message format. The shortest interval that can be set is 5
minutes; the longest interval is 1 week. With intervals that are longer
than 1 day a daily message sending time can be set.
Determine which recipients the informative Keep-alive text messages
with user-readable data should be sent to. An easy readability by
a mobile phone is an advantage of this kind of messages.
The disadvantage is that larger reports can be divided into several
messages. These messages will not be sent out if no recipient has
been chosen.
Determine which recipients the informative Keep-alive text messages
with machine-readable data should be sent to. These messages are
suitable for machine processing in customer’s systems. All data is
every time compressed into a single message. This data is not suitable
to be read on a mobile phone. These messages will not be sent out if
no recipient has been chosen.
Modem – Data - General ___________________________
In this panel, you configure the APN settings needed for data
communication with your mobile operator (sending data messages).
Contact your SIM card supplier for this information.
If you are using your own data collection system, the “JSON version”
option allows you to set the older data message format to be backward
compatible with the older data collection system with new devices. This
option is to maintain the backward compatibility of newer devices
with the older collection system, without having to update it.
Modem – Data – Data sending ______________________
This panel sets where and how often messages will be sent. You can
send the data:
35
• Periodically in preset interval. The interval is selectable from 5
minutes to once per week and you can set different interval when
battery powered and when it have external power available.
• Asynchronously (immediately) when preset alarm occur.
For battery mode you can select „Buffered mode“ option which collects
data into internal buffer and then sends them together in preset interval.
It sends more data at once and saves battery life. On the other hand
the data is received with higher delay.
In the URL field, enter the destination address where you want to
send messages. For use with Database, type the address of
the SOAP server, see chapter 8.2 Automatic data sending to the
database in Database manual (e.g. http://192.168.1.1/soap).
To send data to the Cloud storage system, select this item as the
destination server and the URL will be set automatically. To
register, use the Cloud Registration Card supplied with the device
(the activation procedure is described on the card). This will allow trial
(usually 3 months) free access to the Cloud system. You can then
extend this trial period by purchasing a Top-Up Voucher for Cloud
(code SLU503).
If the user wants to realize his own collection system, the manufacturer
can offer php scripts for message processing.
Security________________________________________
When this service is activated in the device configuration, the user is
prompted to set the password for the highest user - Administrator.
Subsequently, the device allows users to activate User1, User2
and PowerUser and set their own login passwords.
The rights of each user are listed in the following table:
User
Administrator
-
PowerUser
-
User2
-
User1
-
-
Rights
Edit all parameters of device configuration
Download and erase recorded data
Go to service mode
Edit device configuration without security
parameters, change device time setting
Download and erase recorded data
Download and erase recorded data
Switch On/Off device
Download recorded data
Switch On device only (cannot switch it Off)
From the moment the configuration is saved to the instrument,
the instrument will require a username and password each time it is
connected to the SW. You will not be able to connect the device without
entering this information.
Summary _______________________________________
Printable summary of all device setting.
36
Application notes
Operation with a constantly connected charger __________
Datalogger is primarily intended to be operated as an autonomous unit
powered by its built-in batteries. Nevertheless, you can also operate it
with a charger which is constantly connected to it, or with a computer.
The datalogger’s internal charging circuitry controls the battery
charging process based on its instantaneous condition, thus protecting
it against damage. In the case that a cable is connected to the USB
connector, the device is not protected against dust and water ingress,
and, consequently, it cannot be operated in locations in which such
ingress protection is required. The internal charging circuitry initiates
the battery charging only when the device’s internal temperature
ranges between 0°C and 40°C. If this is not the case, the battery will
not charge even if the charger is connected.
Device switching on and off_________________________
If you switch on and off the device frequently, then its keypad and both
functions, i.e. device switching on and off from the keypad, must be
enabled in the device settings. Another option is to set the date
and time when you want the device to turn itself on automatically. Once
reached, it will be permanently switched on. For binary input
dataloggers, it is possible to control the recording on and off by
the level at this input (voltage or contact).
Measuring calculated humidity values_________________
From among the calculated humidity values the device can provide
the dew-point temperature only. Other relevant calculated humidity
values can be obtained by subsequent data processing in the SW.
What is the purpose of the system alarms and how to work
with them _______________________________________
System alarms are useful for performing the functionality diagnosis
of the device and of the probes connected to it. A system alarm notifies
of a failure or damage of the device or of its probe. On the contrary,
alarms on measurement values indicate a failure of the technology
the device is monitoring. A system alarm may be intended for e.g.
another person than that receiving measurement value alarms.
37
Problems with measurement correctness ______________
Incorrect measurement values of temperature or relative humidity may,
in most cases, be caused by an unsuitable probe location or improper
methodology. Some notes concerning these problems are mentioned
in the following chapter Recommendations for operation
and maintenance. In probes using current and voltage outputs
incorrect measurement results may be induced by latent coupling
between individual components, e.g. across supply sources or through
improperly connected cable shielding.
If the device indicates an error condition, see detailed information
in Annex 1, selected error messages.
Another problem area relates to random peaks occurring within
the measurement values. Their most frequent reason is a source
of electromagnetic interference situated near the device or
the pertaining cables. Attention must be paid also to possible damaged
portions of the cable insulation. Prevent accidental contacts between
wires and adjacent conductive parts.
Problems arising during communication with a computer __
For communication with a computer a cable should be used that is not
longer than 5 m. Check that all connectors are properly seated. It is
especially the USB-C connector that must be properly pushed into
the receptacle. Cable disconnecting and subsequent connecting
during communication can cause a temporary non-availability of
the USB equipment in the computer. This may be corrected by
closing the utility program (including the communication service)
and starting it subsequently. Restart the computer, if the above
mentioned measure is not the proper remedy. Check whether new HID
equipment will appear in Device administrator after the device has
been connected to the computer.
Problems arising during sending SMS messages ________
There are a lot of problem sources in this connection. If sending text
messages does not work at all, you may try out the following steps:
• Set an alarm on some of the channels so that it might be induced
easily (e.g. temperature alarm by warming the probe by holding it in
hand, relative humidity alarm by taking the device in hand on
the sensor side) and assign an SMS recipient to this alarm.
• Induce an alarm condition and follow the behaviour of the blue LED
diode. After switching the modem on the diode should start flashing
38
fast for a short time (registration in the network), then more slowly
(message sending) to finally go off (finishing).
• If the blue diode does not start flashing at all, then the datalogger‘s
radio section has not been activated at all. It may be caused by
an improper setting: A non-functioning SIM card has been inserted,
the SIM Card has been blocked because a wrong PIN has been
entered, the alarm is not activated at all, no phone number is
assigned to the alarm, and the like). Verify whether the SIM card is
protected by a PIN code. If this is the case, verify if the code has
been entered properly in the device configuration.
- Make sure the SIM card is properly seated in its holder.
Make sure the holder is locked.
- Insert the SIM card into the mobile phone and verify that
the SMS messages function properly. Try the same phone
numbers as those you have stored in the datalogger.
- Verify whether the datalogger aerial is not damaged
and whether it is connected correctly.
- Contact your service department (possible failure
diagnostics, wrong interconnection of internal component
parts, …)
• If the blue LED flashes quickly, but it does not pass over to a slower
frequency, then the modem probably failed to be registered in
the network. Find out if there is sufficient signal intensity in the aerial
vicinity.
• If the blue LED flashes quickly and then slowly to go out completely,
the modem has not been registered in the network. The message
has been sent out (but has not arrived), or it has been refused by
the network. Try another phone number of the recipient, verify if you
enter it in the international format (e.g. +420333222111). Verify in
the configuration of the datalogger, that its name contains letters
and numerals only. Do the same with the name of the measured
channel and with the alarm settings in the user-defined descriptions
of the SMS messages. Verify if SMS messages can be sent out from
the respective SIM card: Insert it into the mobile phone and try to
send a text message to the same number. Ascertain whether
the message has been transmitted.
• Contact the service department in the case that you have not
succeeded in finding the reason of the problem. Diagnostic records
that are saved in the device could deliver further helpful information
for resolving the problem.
39
Recommendations for operation and maintenance
Datalogger operation in several application areas________
Before putting the device into operation, it should be considered, if its
usage is suitable for the intended purpose. In connection with this
consideration the device‘s optimum settings should be determined. In
the case that the device is part of a larger measurement system,
instructions for its metrological and operational checks should be
developed
Inadvisable or hazardous applications:
This datalogger is not intended for such applications in which the failure
of its functioning could directly endanger life and health of humans
and animals, or the functioning of other equipment with life-sustaining
functions. In applications the failure or malfunction of which could result
in severe property damage it is recommended to provide the system
with suitable and independent signalling equipment which is able to
evaluate such a condition and, in case of failure, to prevent the above
mentioned damages (See the chapter „Safety measures and
unauthorized manipulations“).
Device positioning:
Adhere to principles and procedures mentioned in this manual. Try to
choose such a place to position the device, where the negative
influence caused by environment is as low as possible. When
performing measurements in refrigerators, metal boxes, metal
chambers and the like, it is every time advisable, as far as the device’s
operation and reliability is concerned, to place the device outside,
leaving only the sensors and probes inside the measured environment.
Positioning of temperature sensors:
These sensors should be placed in locations where sufficient air
circulation is ensured and where the most critical location is supposed
(according to the application requirements). To prevent heat
conduction through the sensor cables from undesirable influencing
the measurement value, the sensor must be properly inserted into
the measured environment. If you follow the temperature distribution
in an air-conditioned storehouse, do not place the sensor into the direct
air stream generated by the air-conditioning unit. As a matter of fact,
the temperature distribution in large-chamber refrigerators may be
quite inhomogeneous, the temperature differences reaching up to
10°C. Similar dispersion can be found inside deep-freezing boxes (e.g.
in those used for blood preservation by deep freezing).
40
Positioning of humidity sensors:
The positioning of humidity sensors depends again on the application
requirements. Humidity measurements in refrigerators without
additional humidity stabilization can be very questionable. When
the cooling is switched on/off, there may be significant changes
in humidity in the range of tens of percent, even if the mean value is
correct. Moisture condensation on the ventricle walls is common.
Recommendations for metrological checks _____________
Metrological verification is carried out according to the requirements of
the particular application at intervals fixed by the user. In some cases,
calibration must be performed by an independent laboratory that is
accredited by the government.
Recommendations for regular checks _________________
It is recommended to check the system in which the instrument is
incorporated at regular intervals. Checking interval and inspection
scope depend on the particular application and the user’s internal
regulations. In fixed installations following checks are recommended to
be performed:
•
•
•
•
•
Metrological verification;
Regular checks fixed by the user;
Judgement of all problems that has occurred since the last check;
Visual check of the device, connectors condition, cover integrity;
Functionality check (checking of features utilized by the application):
a) Check of the transfer of the actual recorded value into
the computer, record evaluation
b) Functionality check of individual alarms. This should be done
by changing the input quantity to give rise to an alarm. Then
check it visually on the display. Check whether the SMS
message has been sent (if used).
c) Judgement of the battery condition on the display.
• Check of the cabling. To be checked: Condition of cable
connections and cable surface integrity, proper cable routing,
no additional parallel heavy-current conductors.
• Check of all sensors. This is to be performed visually. Check
for water ingress, check for suitable sensor location with respect to
correct measurement conditions and possible signal deteriorating
by interference.
• The check results are to be recorded.
41
Service recommendations _________________________
Engineering support and service activities are provided by the device
distributor. His contact person‘s address is given in the Certificate of
warranty included with the product.
WARNING - Unskilled intervention into the device may
lead to loss of warranty!
42
Technical parameters
Power supply
The device is supplied from an internal Li-ion battery, which is placed under
the rear cover. The battery may be replaced by the producer or an authorized
service provider only.
Battery _________________________________________
Battery model used:
BAT26001S2P Li-ion 2 PACK US18650VTC5 5200 mAh
SONY (2x 2600mAh)
Operating lifetime relating to a single charge of the Li-ion
accumulator:
Several months to several years according to the device
setting and number of messages sent. Devices with
a CO2 concentration sensor have a higher battery
consumption and therefore shorter holding time. Follow
the battery status, recharge battery if necessary.
Battery charger ___________________________________
Recommended charger type:
Commonly used chargers, such as mobile phone
chargers with a USB type C connector, such as Sunny
SYS 1561-1105
Maximum current from the USB connector:
• Provided that the datalogger is connected to
the computer and a successful enumeration takes
place, the input current limit will be set to 500mA.
• If no successful enumeration takes place within
10 s after powering up the device (the device is not
connected to the computer), then the input current limit
is increased to 1500 mA. However, when the input
voltage drops, the current drawn from the connector will
decrease automatically.
Charging time:
Charging time depends on the current battery discharge
level. Since the parasitic heat is generated when
the internal battery is charging, the charging speed with
43
the power on is deliberately slowed down to prevent
excessive influence of measured values. If you want to
charge the device as soon as possible, turn it off first.
When the device is turned off, the fast charging mode
is automatically activated. Fully charged battery is
indicated on the display of the device usually within
6 hours.
Charging conditions:
The charging process only runs when the internal
temperature ranges between 0°C and 40°C.
USB communication interface
Compatibility:
USB1.1, USB 2.0, USB3.0
Connector:
USB-C
Measurement, data storage and real time circuitry
Measurement Interval:
10 s as standard
1 s in fast mode
1 minute in economic mode
Recording interval:
(1 s, 2 s, 5 s, 10 s, 15 s, 30 s)
1 min, 2 min, 5 min, 10 min, 15 min, 30 min,
1 h, 2 h, 3 h, 4 h, 6 h, 8h, 12 h, 24 h
You cannot select a shorter Recording interval than the
Measurement interval
Storage capacity:
Maximum 500 000 values in non-cyclic record
Maximum 350 000 values in cyclic record
44
Radio section
The datalogger includes a GSM modem intended for data transfer
and sending SMS messages. This modem is only powered up and registered
in the GSM network only when SMS messages' sending off is required.
Otherwise it is switched off.
GSM modem:
Quad-band 850/900/1800/1900MHz
GPRS Mobile Station Class B
Compliant to GSM Phase2/2+
Class 4 (2W @ 850/900MHz)
Class 1 (1W @ 1800/1900MHz)
Aerial input:
Connector: SMA, female
Impedance: 50 Ω
Aerial gain: 3 dBi max.
Aerial VSWR: < 1:2
Aerial:
Model: AO-AGSM-SMVS
Gain: 2 dBi
VSWR: < 1:1.8
SIM card:
The datalogger includes a slot for inserting a microsized SIM card. Use a suitable reduction if you own
another sized card. The slot may be accessed after
removing the datalogger‘s rear cover.
45
Parameters of datalogger inputs
AR006087________________________________________
Measured value:
Internal temperature
Temperature range:
(-20 to +60) °C
Accuracy:
± 0.4 °C(*)
(*)
During battery charging temporary measurement
accuracy deterioration may be found.
Response time:
T63 < 6 min, t90 < 15 min (temperature jump 20 °C,
air circulation ca 1 m/s)
Display resolution:
0.1 °C
Recommended calibration interval:
2 years
AR005892 ________________________________________
Measured values:
2 x temperature sensed by an external Guilcor
Pt1000/E series probe
Temperature range:
(-200 to +260) °C, Pt1000/3850 ppm sensor
Measuring current: ca 0.5 mA with pulses of ca 60 ms
length
Input accuracy (without probes):
±0.2 °C in a range of -200 to +100 °C
±0.2 % of the measurement value in a range of +100
to +260 °C
The accuracy of the device with a temperature probe
connected to it is determined by the above input
accuracy and the accuracy of the probe employed.
Connection mode:
Two-wire connection with the possibility of
compensation of the error caused by the cable
resistance. The probe is provided with a 3-pin M8 ELKA
3008V connector. Its connection mode is shown in
Annex 2.
46
The recommended length of the Pt1000/E probe cable
is maximum 15 m, a length of 30 m must not be
exceeded. Shielded cables are recommended.
Response time:
Is determined by the response time of the used probe.
Display resolution:
0.1 °C
Recommended calibration interval:
2 years
AR004525________________________________________
Measured values:
4 x temperature sensed by an external Guilcor
Pt1000/E series probe
Temperature range:
(-200 to +260) °C, Pt1000/3850 ppm sensor
Measuring current: ca 0.5 mA with pulses of ca 60 ms
length
Input accuracy (without probes):
±0.2 °C in a range of -200 to +100 °C
±0.2 % of the measurement value in a range of +100
to +260 °C
The accuracy of the device with a temperature probe
connected to it is determined by the above input
accuracy and the accuracy of the probe employed.
Connection mode:
Two-wire connection with the possibility of
compensation of the error caused by the cable
resistance. The probe is provided with a 3-pin M8 ELKA
3008V connector. Its connection mode is shown in
Annex 2.
The recommended length of the Pt1000/E probe cable
is maximum 15 m, a length of 30 m must not be
exceeded. Shielded cables are recommended.
Response time:
Is determined by the response time of the used probe.
Display resolution:
0.1 °C
Recommended calibration interval:
2 years
47
AR006088 ________________________________________
Measured values:
Internal temperature, relative humidity.
Dew-point temperature calculated from the internal
temperature and relative humidity.
Ranges:
Temperature: (-20 to +60) °C
Relative humidity: (0 to 100) %RH without lasting
condensation.
Dew-point temperature: -90 to +60 °C
Accuracy(*1):
Temperature: ± 0.4 °C
Relative humidity:
- sensor accuracy ±1.8 %RH
(at 23 ºC in the range of 0 to 90 %RH)
- hysteresis < ±1 %RH
- non-linearity < ±1 %RH
- temperature error: 0.05 % RH/°C (0 °C to +60 °C)
Dew-point temperature: ±1.5 °C at an ambient
temperature of T< 25 °C and RH >30 %.
For details see diagrams in Annex 3.
Response time (air streaming velocity approx. 1 m/s) (*2):
Temperature: t63 < 2 min, t90 < 8 min (temperature
jump 20 °C)
Relative humidity: t63 < 45 s, t90 < 4 min, t99 <4 h.
(humidity jump 30 %RH, constant
temperature)
Display resolution:
Temperature incl. dew-point temperature: 0.1 °C
Relative humidity: 0.1 %RH.
Recommended calibration interval:
1 year
(*1)
During battery charging temporary measurement
accuracy deterioration may be found.
(*2) Important information is provided in the chapter
Manufactured models – AR006088
48
AR006089 ________________________________________
Measured values:
Temperature and relative humidity measured by
an external Digi/E series probe. The dew-point
temperature is calculated from the measured
temperature and the relative humidity.
Range, accuracy and response time:
Depending on the connected Digi/E series probe.
Connection mode:
Digi/E series probe. The probe is provided with a 4-pin
M8 ELKA 4008V connector. The length of the Digi/E
probe cablet not exceed 15 m.
Display resolution:
Temperature incl. dew-point temperature: 0.1 °C.
Relative humidity: 0.1 %RH.
Recommended calibration interval:
1 year (according to the connected probe)
AR006090 ________________________________________
Measured values:
Internal temperature, relative humidity.
1x External temperature measured by an
external Guilcor Pt1000/E probe.
Dew-point temperature calculated from the internal
temperature and relative humidity.
Difference of external temperature and dew point
temperature.
Ranges:
Internal temperature: (-20 to +60) °C
Relative humidity: (0 to 100) %RH without lasting
condensation (*2).
Dew-point temperature: -90 to +60 °C
External temperature input:
(-90 to +260) °C, Pt1000/3850 ppm sensor
Measuring current: approx. 0.5 mA in pulse
length approx. 60 ms
(*1)
Accuracy :
Internal temperature: ± 0.4 °C
Relative humidity:
- sensor accuracy ±1.8 %RH
(at 23 ºC in the range of 0 to 90 %RH)
- hysteresis < ±1 %RH
- non-linearity < ±1 %RH
- temperature error: 0.05 % RH/°C (0 °C to +60 °C)
49
Dew-point temperature: ±1.5 °C at an ambient
temperature of T< 25 °C and RH >30 %.
For details see diagrams in Annex 3.
External temperature input (without probe):
± 0.2 °C in the range -90 °C to +100 °C
± 0.2 % of the measured value in the range
+100 ° C to +260 ° C
The precision of the device with the connected
temperature probe is determined by the abovementioned precision of input and accuracy of
the probe used.
Connection method (external probe):
Two-wire connection with the possibility of
compensation for the cable wire resistance. The probe
is terminated by a 3-pin M8 ELKA 3008V connector.
The method of interconnection is given in Appendix 2.
The recommended length of probes Pt1000/E is up to
15 m, not longer than 30 m. It is recommended to use
shielded cables.
Response time (air streaming velocity approx. 1 m/s) (*2):
Internal temperature: t63 < 2 min, t90 < 8 min
(temperature jump 20 °C)
Relative humidity: t63 < 45 s, t90 < 4 min, t99 <4 h.
(humidity jump 30 %RH, constant
temperature)
Display resolution:
Internal temperature incl. dew-point temperature: 0.1 °C
Relative humidity: 0.1 %RH
External temp. input: 0.1 °C, 16-bit converter range
Recommended calibration interval:
1 year
(*1)
During battery charging temporary measurement
accuracy deterioration may be found.
(*2) Important information is provided in the chapter
Manufactured models – AR006090
AR003954 ________________________________________
Measured values:
Internal temperature, relative humidity, barometric
pressure and the concentration of CO2 in the air. Dewpoint temperature calculated from the internal
temperature and relative humidity.
50
Ranges:
Temperature: (-20 to +60) °C
Relative humidity: (0 to 100) %RH without lasting
condensation (*2).
Barometric pressure (absolute): 700 hPa to 1100 hPa
Concentration of CO2 in the air: 0 to 5000 ppm
Dew-point temperature: -90 to +60 °C
Accuracy (*1):
Temperature: ± 0.4 °C
Relative humidity:
- sensor accuracy ±1.8 %RH
(at 23 ºC in the range of 0 to 90 %RH)
- hysteresis < ±1 %RH
- non-linearity < ±1 %RH
- temperature error: 0.05 % RH/°C (0 °C to +60 °C)
Barometric pressure: ± 1.3 hPa at 23 °C
CO2 concentration in the air:
50 + 0.03 × MV [ppm CO2 at 23 °C and 1013 hPa]
Temperature dependency in range -20...45 °C:
typ. ± (1 + MV / 1000) [ppm CO2/°C]
MV…measured value
Dew-point temperature: ±1.5 °C at an ambient
temperature of T< 25 °C and RH >30 %.
For details see diagrams in Annex 3.
Response time (air streaming velocity approx. 1 m/s) (*2):
Temperature: t63 < 2 min, t90 < 8 min (temperature
jump 20 °C)
Relative humidity: t63 < 45 s, t90 < 4 min, t99 <4 h.
(humidity jump 30 %RH, constant
temperature)
Barometric pressure: t90 <44s
CO2 concentration in the air: according to the set CO2
measurement interval (2 min / 10 min)
Display resolution:
Temperature incl. dew-point temperature: 0.1 °C
Relative humidity: 0.1 %RH
Barometric pressure: 1 hPa
CO2 concentration in air: 1 ppm
Recommended calibration interval:
1 year
(*1)
During battery charging temporary measurement
accuracy deterioration may be found.
(*2) Important information is provided in the chapter
Manufactured models – AR003954
51
AR006092 ________________________________________
Measured values:
2 x temperature by an external Guilcor Pt1000/0 probe
2 x binary input intended for voltage to be applied to
it or a voltage-free contact (an open-collector
transistor) to be connected to it. This device is not
suitable for catching the „voltage applied/not applied”
states.
Range:
Temperature: (-200 to +260) °C, Pt1000/3850 ppm
Measuring current: ca 0.5 mA in ca 60 ms long pulses
Both voltage and no-voltage contact can be connected
to the binary input without the need for configuration.
Voltage levels:
„L“ level input voltage:
< 0.8 V(*)
„H“ level input voltage:
>2V
Minimum voltage applicable: 0 V
Maximum voltage applicable: +30 V DC
The voltage necessary for establishing the „L“
level must factually be applied. Should the input be
disconnected, the device will sense the „H“ level.
(*)
Parameters of the voltage-free contact:
Contact resistance in „switched-on“ state:
< 10 kΩ
Contact resistance in the „switched-off“ state:
> 2 MΩ
Excitation voltage: approx. 3 V
Minimum state duration necessary for latching
the state: 1s
Input accuracy (without probes):
±0.2 °C in the range of -200 to +100 °C
±0.2 % of the measurement value in the range
of +100 to +260 °C
The accuracy of the device with the temperature probe
connected is determined by the above input accuracy
and the accuracy of the probe used.
Connection mode:
Split connection block, maximum wire cross section
1.5 mm2. Recommended length of the Pt1000 probe
cables is maximum 15 m, a length of 30 m should not
be exceeded. Maximum length of the binary inputs
cables is 30 m. It is recommended to use shielded
cables.
CAUTION: The inputs are not galvanically separated!
52
Response time:
Is determined by the response time of the used probe.
Resolution:
0.1 °C converter range: 16 bits
Recommended calibration interval:
2 years
AR006779 ________________________________________
Measured values:
3 x voltage (0 – 10) V
1 x binary input. This input can be configured to accept
voltage signals or a voltage-free contact (as e.g.
an open-collector transistor). Unlike the AR006092
model, this input can capture connected/disconnected
voltage status.
Range and input levels:
Voltage inputs:
Range: (0 to 10) V DC
Accuracy: ± 10 mV
Input resistance: approx. 130 kΩ
Binary input configured for voltage measurements:
Input voltage for the „L“ level: < 0.8 V(*)
Input voltage for the „H“ level: > 2 V
Minimum applicable voltage: 0 V
Maximum applicable voltage: +30 V DC
(*)
When the input is disconnected, the device will
measure the „L“ level.
Binary input configured for a voltage-free contact or
an open-collector transistor:
Contact resistance for the „switched-on“ state:
< 10 kΩ
Contact resistance for the "switched-off" state:
> 2 MΩ
Excitation voltage: approx. 3 V
Minimum state duration necessary for latching
the state: 1s
Connection mode:
Split connection block, maximum wire cross section
1.5 mm2. The maximum cable length is 30 m. It is
recommended to use shielded cables.
CAUTION: The inputs are not galvanically separated!
Recommended calibration interval:
2 years
53
AR006091 ________________________________________
Measured values:
3x current input,
1 x binary input. This input can be configured to accept
voltage signals or a voltage-free contact (as e.g.
an open-collector transistor). Unlike the AR006092
model, this input can capture connected/disconnected
voltage status.
Range and input levels:
Current input:
Range: (0 to 20) mA DC
Accuracy: ± 20 uA
Resolution: better than 1 uA
Input resistance: approx. 100 Ω
Minimum current: 0 mA (open circuit)
Maximum current: limited to approx. 40 mA
Binary input configured for voltage measurements:
Input voltage for the „L“ level: < 0.8 V(*)
Input voltage for the „H“ level: > 2 V
Minimum applicable voltage: 0 V
Maximum applicable voltage: +30 V DC
(*)
When the input is disconnected, the device will
measure the „L“ level.
Binary input configured for a voltage-free contact or
an open-collector transistor:
Contact resistance for the „switched-on“ state:
< 10 kΩ
Contact resistance for the "switched-off" state:
> 2 MΩ
Excitation voltage: approx. 3 V
Minimum state duration necessary for latching
the state: 1s
Connection mode:
Split connection block, maximum wire cross section
1.5 mm2. The maximum cable length is 30 m. It is
recommended to use shielded cables.
CAUTION: The inputs are not galvanically separated!
Recommended calibration interval:
2 years
54
AR006093 ________________________________________
Measured values:
2x user configurable binary input for applying voltage or
connecting a voltage-free contact (as e.g. an
open-collector transistor). Unlike the AR006092
model, this input is able to catch also the „voltage
applied/not applied“ states.
2 x counting input. This input, like the binary one, can be
configured to accept voltage signals or a voltage-free
contact (as e.g. an open-collector transistor).
These counting inputs can be used as additional two
binary ones.
Input levels:
Binary or counter input configured for voltage
measurements:
Input voltage for the „L“ level: < 0.8 V(*)
Input voltage for the „H“ level: > 2 V
Minimum applicable voltage: 0 V
Maximum applicable voltage: +30 V DC
(*)
When the input is disconnected, the device will
measure the „L“ level.
Binary or counter input configured for a voltage-free
contact or an open-collector transistor:
Contact resistance for the „switched-on“ state:
< 10 kΩ
Contact resistance for the "switched-off" state:
> 2 MΩ
Excitation voltage: approx. 3 V
Minimum state duration necessary for latching
the state: 1s
Counter parameters:
Range: 24 bits (16 777 215), possibility of letting
the counter overflow
Maximum pulse frequency when configuring for:
- voltage input:
max. 5 kHz
- voltage-free contact or open collector transistor:
max. 200 Hz
Further features: relative counter (count of pulses
sensed during the recording interval)
Connection mode:
Split connection block, maximum wire cross section
1.5 mm2. The maximum cable length is 30 m. It is
recommended to use shielded cables.
CAUTION: The inputs are not galvanically separated!
55
AR005348 ________________________________________
Measured values:
Concentration of CO2 in the air.
Ranges:
Concentration of CO2 in the air: 0 to 5000 ppm (the
device it is possible to deliver with a range
of 0 to 10000 ppm)
Accuracy:
CO2 concentration in the air:
50 + 0.03 × MV [ppm CO2 at 23 °C and 1013 hPa]
Temperature dependency in range -20...45 °C:
typ. ± (1 + MV / 1000) [ppm CO2/°C]
MV…measured value
Response time (air streaming velocity approx. 1 m/s) (*1):
CO2 concentration in the air: according to the set CO2
measurement interval (2 min / 10 min)
(*1) Important information is provided in the chapter
Manufactured models – AR003954
Display resolution:
CO2 concentration in air: 1 ppm
Recommended calibration interval:
5 year
Operating and storage conditions
Operating temperature:
(-20 to +60) °C
Range of the display visibility: (-10 to +60) °C
Operating humidity:
(0 to 95) %RH without permanent condensation for
models with CO2 sensor
(0 to 100) %RH without long-lasting condensation for
other models
Provozní tlak:
(700 to 1100) hPa for models with CO2 sensor
(600 to 1100) hPa for other models
Operating environment:
chemically non-aggressive
56
Storage temperature:
(-20 to +45)°C
Storage humidity:
(5 to 90) %RH
Mechanical properties
Dimensions (h x w x d):
93 x 61 x 53 mm without connected cables and
connectors
Mass:
Ca 250 g including batteries
Case material:
Polycarbonate LEXAN EXL1434T resin
Ingress protection:
Device
type
AR006087
AR005892
AR004525
AR006089
AR006088
AR006090
AR003954
AR006092
AR006779
AR006091
AR006093
AR005348
Protection class
case with
temperature and
electronics
rel. humidity sensor
IP67(*)
--
IP67(*)
IP30
IP20
IP20
IP20
--
(*)
To reach this ingress protection, the device cover
screws must be properly tightened, the USB connector
must be provided with a closing cap, and all connector
screws must be tightened. A connector that is not used
must be provided with a closing cap.
Optional accessories:
AR004252 - lockable datalogger holder for wall mounting
57
Declaration of conformity
This datalogger is in compliance with the requirements of Directive 2014/35/EU.
The original Declaration of Conformity can be found on the manufacturer's
website www.guilcor.com.
58
Dimensions
AR006087, AR005348
AR005892
59
AR004525
AR006088, AR003954
60
AR006089
AR006090
61
AR006092,
AR006779,
AR006091,
62
Annexes
Annex 1:
Selected error messages of the device
Error
Description and debugging
Error 1
Error 2
Error 3
A/D converter is at low limit, 0x0000.
Contact support.
Temperature probe is not connected or cable is damaged.
Internal converter communication error.
Contact support.
Error 5
Few valid measured values for calculating the average value
for the recording interval (more than 1/8 of invalid values were
measured from the given recording interval).
Error 9
Measured value is out of range or probe is shorted.
Error 10
The device is switched off, measured values are not available.
No valid data of the counter, batteries missing in the device.
Error 11
Reset the counter
the measurement.
Error 13
Error 14
Error 15
CO2 concentration sensor is not available, or it does not work correctly.
Error 16
Error 17
Error 18
content
by
means
of
the
SW,
repeat
Have the device repaired. This applies to the CO2 concentration
sensor devices only.
The measured CO2 value is not available due to low battery voltage.
Recharge the battery.
The digital T / RH probe does not communicate with the instrument.
Check its connection.
The digital T/RH probe memory does not communicate with the
instrument.
Contact support.
Measured value is not available.
Error 19
In device U3121 check, and, if needed, replace the Digi/E probe
connected. In the other models a device failure may be suspected.
63
Error
Description and debugging
The source value of the calculated quantities is not available.
Error 20
Error 21
Error 22
Error 50,
Error 52,
Error 55
Error 51
Calculation failure, incorrect device calibration.
Have the device repaired.
Counter overflow in the case that in the device configuration it is
required to report this as a failure.
Reset the counter by means of the SW, or as the case may be change
the setting for the overflow limit.
Device configuration failure, corrupted configuration.
Read the configuration into the SW, check for the correct setting of all
items, save the configuration in the device again.
The Digi/E series probe contains invalid calibration constants.
Get the probe repaired or contact the producer.
Error 56
The value is not defined, the measurement on the given channel is
switched off.
Error 57
The value has not been measured yet, the first measurement is waiting
to be completed.
Error 128
Error 255
Annex 2:
64
Check in the SW whether measurement values are available
(temperature and relative humidity) for this calculated quantity
in question (e.g. the dew-point temperature).
Error massages generated during communication with the device.
Repeat the communication, contact the producer.
Connection of the Pt1000/E serie probe
connector
Annex 3:
Accuracy of the dew-point temperature
measurement
Annex 4:
Connecting block
Some inputs are equipped with a split selflocking WAGO connector block. Connect
the wires to the block with
corresponding
to a screwdriver
the size:
insert
a screwdriver into the connecting block’s
angular
opening
situated
above
the circular opening. Open the connector
by turning the screwdriver moderately,
insert the wire and close the connector by
subsequent disengaging the screwdriver.
See the illustration.
The connecting block can be taken out of
the device without the necessity
of disconnecting any wire.
65
Annex 5:
SMS message format
SMS message format for SYSTEM ALARM:
The message header includes:
SYSTEM ALARM<enter>
„Description of the device DescDev“<enter>“
Depending on the type of alarm, the corresponding text:
Data memory limit overflow,
Battery warning,
Battery empty,
Battery Ok,
External power lost,
External power Ok;
Date/Time Error,
Date/Time Ok;
Measuring Error on input: ….;
Measuring Error END on input: ….,
Configuration error,
Configuration Ok,
The time of the event, such as „20170808 10:44“
Texts are fixed, user-immutable, if multiple events occur simultaneously
and the length of the message exceeds 160 characters (max message length),
then they will be divided into multiple messages.
Format of alarm SMS message from measured value:
Description of the device DescDev .... max. 32 chars <enter>
Name of the measured location: max. 16 chars <enter>
Text „Actual value: measured value + unit (or binary input status)<enter>
Text ¨ALARM¨ or (Text „ALARM END“) <enter>
Description of the alarm:
max. 16 chars
Separator comma + gap
Start time / end time of the alarm, such as 2016/05/08 10:44 <enter>
Text „ALARM“ (Text „ALARM END“)
In the case of other alarms followed by <enter> and continues with information
about the next alarm
Description of the alarm:
max. 16 chars
Separator comma + gap
2 chars
Start time of the alarm, such as 2016/05/08 10:44
:
:
:
:
The length of one message is limited to 160 characters, if there is a requirement
to send more characters, the characters are divided into more messages.
66
DataKeepAliveSMS format (suitable for automated data processing):
All data coded into ASCII, it means 1 Byte will be sent as 2 ASCII characters.
(hex. value 0x9E will be sent as two ASCII characters ‘9’ ’E’)
Initial text "Datalogger"
10 ASCII chars
Space
1 ASCII char
Serial number
(4 byte i.e. 8 ASCII chars)
Space
1 ASCII char
Text "ActualData"
10 ASCII chars
Space
1 ASCII char
Device Kind
(1 byte i.e. 2 ASCII chars)
Space
1 ASCII char
Status (AState)
(2 byte i.e. 4 ASCII chars)
Space
1 ASCII char
Memory occupation [%]
(1 byte i.e. 2 ASCII chars)
Space
1 ASCII char
Alarm I states on all chan.:
(1 byte i.e. 2 ASCII chars)
Space
1 ASCII char
Alarm II states on all chan.:
(1 byte i.e. 2 ASCII chars)
Space
1 ASCII char
Actual values of all 8 chan. in IEEE Float format:
(8x4=32 byte i.e. 64 ASCII chars)
Space
1 ASCII char
Units 3 char per channel
(3x8 = 24 ASCII chars)
Space
1 ASCII char
Value of the GSM signal level CsqRssi
(1 byte i.e. 2 ASCII chars)
Space
1 ASCII char
Index of the currently set sending interval KeepAlive SMS
(1 byte i.e. 2 ASCII chars)
Space
1 ASCII char
Time
32b time information, always 8 ASCII chars
Total sends:
152 ASCII chars
67
HumanKeepAliveSms format:
The Text of the message is gradually consisting of the items in the order below.
The length of this report is limited to max 160 characters. If the message was
longer, then it sends only the first 160 characters.
The format of the message:
- description of the device from the configuration: max. 32 chars
- <CR><LF> ... 2 chars
- according to the device configuration, the current value and the unit are
inserted for each channel switched on for measurement. If Alarm1 is active
at the same time, then "!" is inserted BEFORE CURRENT VALUE. If Alarm2
is also active, then "!" is inserted AFTER UNIT (e.g. "!25.3%!" means that
Alarm1 and Alarm2 are active).
- <CR><LF> ... 2 chars
- information about the state of memory occupation
- <CR><LF> ... 2 chars
- information about the state of the battery
- <CR><LF> ... 2 chars
- information about the level of the GSM signal
- <CR><LF> ... 2 chars
- inserts the current time of the device
- <CR><LF> ... 2 chars
Watching the daily limit of SMS sent:
When a request to send an SMS occurs (for example an alarm occurred),
the number of already sent SMS messages is checked for the given day.
It monitors both the messages sent per day (the sum of the SMS sent when
the power supply from battery or external power supply) and the number of
messages sent when the power supply from battery. Both limits can be set
using the user's SW. If the daily limit of the sent messages was reached, then
instead of the alarm SMS is send to the given number different the notification
SMS about exceeding the daily limit and sending of additional SMS to that
number will stop. The counters of the daily limit of sending SMS are reset
at midnight (0:00).
68
Annex 6:
Firmware updates
FW version 0.0.129 changes:
- added new JSON data version format Version6
- added new parameter: TimeNow
Device time at the moment of sending JSON data as count of seconds since 1.1.2000.
FW version 0.0.118 changes:
- added new JSON data version format Version5
- added new parameter: BatteryPercentage.
FW version 0.0.117 changes:
- added support for Security communications – user rights.
FW version 0.0.116 changes:
- added new JSON data version format Version4
- added new parameters: RstOk, IntervalPowerMode,
IntervalBatteryMode, Rssi
- delete parameter: Interval.
FW version 0.0.102 changes:
- added option to set the format version of the sent JSON data, to support backward
compatibility with older versions of evaluation systems.
Initial version (FW 0.0.90), version 1 (FW 0.0.92, 0.0.93), version 2 (from FW
0.0.94), version 3 (from FW 0.0.101)
- modified method to sending SMS a JSON data messages:
a) If there is some request to send JSON or SMS
Modem starts and tries to find mobile signal and check its level. If signal is
not detected, modem turns off and waits – an idle time for next connection
attempt is increased dynamically. It means modem, after unsuccessful
mobile network signal detection, will try to connect again after 10 s, 30 s,
1 min, 5 min, 10 min, 30 min, 1 hour, 3 hours, 6 hours, 12 hours (till now was
waiting 30s repeatedly). It will save the battery energy if there is no signal
available. If an external power is available, then waiting interval is extended
to 10 min max. When new event requesting to send SMS or JSON data
occur, modem once tries to start immediately. If it fails again, previous delay
is restored again.
b) When modem tries to send SMS
If it is not possible to send SMS to pre-set phone number (network signal is
available already), it will repeat it 3 times. If still not possible to send SMS,
SMS will be deleted, and this situation will be marked into device's record.
c) When modem tries to send JSON data
Under normal conditions when there is necessary to send the data, modem
is switched on, logged to mobile network, connected to server and transfers
JSON data. But when mobile network or receiving server is temporary
unavailable, then the data cannot be send immediately. If some error during
data sending occurs, logger tries to resend it twice again immediately. If it
still fails, JSON message stays stored into internal buffer (if free space is
69
available yet) and is going to be send at next sending time again. It means,
unsent data packet is not lost and will be delivered later together with newer
one. This is very useful function if mobile network or server connection is
temporary lost. On the other hand, receiving server can receive data with
bigger delay. If you want to set time stamps for received data by server’s
receiving time, it is recommended to use „Delete unsent data“ option. It will
ensure that received data is close to their original time without bigger
desynchronization. Undelivered data will be deleted to prevent data time
stamp mismatch.
- Extended the time to detect GSM signal when logging into the mobile network from 15s
to 25s.
- The daily limit of sent SMS or data messages is calculated from the beginning of
the data sending, regardless of whether it was received.
70

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Key Features

  • Multiple input channels
  • Temperature, humidity, dew point measurement
  • Data logging with configurable intervals
  • Alarm management with SMS and GPRS
  • Internal Li-ion battery with USB charging
  • USB communication interface
  • Compact and portable design

Frequently Answers and Questions

What kind of sensors can be connected to the GUILCOR AR006779?
The AR006779 supports various types of sensors based on its input channels. Consult the user manual for specific sensor compatibility with available inputs.
How frequently can the AR006779 record data?
The recording interval for the AR006779 can be adjusted from 1 second to 24 hours, allowing for flexibility in data collection frequency.
Can the AR006779 send data wirelessly?
Yes, the AR006779 incorporates a GSM modem for sending SMS and data messages over GPRS. You can configure alarm notifications and data transmission settings in the device configuration.

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