Fibar Group FGFS101Z5 Flood Sensor User Manual

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Date Submitted	2016-07-11 00:00:00
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O P E R AT I N G
MANUAL
EN
FIBARO FLOOD SENSOR
FGFS-101
CONTENTS
#1: Description and features
#2: Basic activation
#3: Adding/removing the device
#4: Diagrams and connection
#5: Powering modes
#6: Operating the device
v2.0
10
#7: Association
#8: Z-Wave range test
#9: Advanced parameters
#10: Specifications
#11: Regulations
12
13
14
19
20
3
Important safety information
Read this manual before attempting to install the device!
Failure to observe recommendations included in this manual
may be dangerous or cause a violation of the law. The manufacturer,
Fibar Group S.A. will not be held responsible for any loss or damage
resulting from not following the instructions of operating manual.
General information about
the FIBARO System
FIBARO is a wireless smart home automation system, based on the
Z-Wave protocol. All of available devices can be controlled through
a computer (PC or Mac), smartphone or tablet. Z-Wave devices are
not only receivers, but can also repeat the signal, increasing the
Z-Wave network’s range. It gives advantage over traditional wireless
systems that require direct link between transmitter and receiver, as
a result the construction of the building could affect network’s range
negatively.
Every Z-Wave network has its unique identification number (home
ID). Multiple independent networks can exist in the building without
interfering. Transmission security of FIBARO System is comparable to
wired systems.
Z-Wave technology is the leading solution in smart home automation.
There is a wide range of Z-Wave devices that are mutually
compatible, independently of manufacturer. It gives the system the
ability to evolve and expand over time. For more information visit:
www.fibaro.com.

4
#1: Description and features
FIBARO Flood Sensor is a universal, Z-Wave Plus compatible, flood
and temperature sensor. The device can be powered using battery,
12/24V DC power supply or both. Flood alarm is sent to the Z-Wave
network devices or additionally to any alarm system controller
through opening a NC contact using the external power supply.
The device has built in temperature sensor that allows to monitor
ambient temperature. FIBARO Flood Sensor is designed to be placed
on the floor or mounted on a wall (in this case Flood Sensor probes
should be extended using addition wire). The device has a built-in
visual LED indicator and an acoustic alarm.
In addition, the sensor is equipped with a tilt sensor reporting tilt or
movement to the main controller e.g. when someone has taken the
Sensor from its original location.
FIBARO Flood Sensor is sink-proof, which means it drifts on the water
surface and keeps on sending alarm signal in case of substantial
inundation of water.
NOTE
This device may be
used with all devices certified with
the Z-Wave Plus certificate and should be
compatible with such
devices produced by
other manufacturers.
NOTE
FIBARO Flood Sensor
is a Security Enabled
Z-Wave Plus product
and a Security Enabled Z-Wave Controller must be used in order to fully utilize the
product.
Main features of FIBARO Flood Sensor:
•
compatible with any Z-Wave or Z-Wave+ Controller,
•
supports protected mode (Z-Wave network security mode) with AES128 encryption,
•
may be connected to any alarm system (potential free output
terminal),
•
extremely easy installation - simply put on a surface prone to flooding,
•
may be installed anywhere - flood sensor’s contacts extended
with a wire,
•
battery or VDC powered. When connected to an external 12/24V DC
power source, the battery serves as an emergency power source,
•
theft protection - tilt or moving is reported to the Z-Wave network or
alarm system’s main controller,
•
two operating modes - flood/temperature sensor or just a
temperature sensor,
•
alarm is signalled by sound, visual indicator (LED diode) and Z-Wave.
FIBARO Flood Sensor is a fully
compatible Z-Wave PLUS device.
Description and features
5
#2: Basic activation
1. Turn the cover counter-clockwise and open it.
2. Remove the battery blocker.
Bee
3. Flood Sensor will confirm being powered with a short beep and a
LED blink.
4. Add the device (see “Adding/removing the device” on page 6).
5. Close the cover and turn it clockwise.
When powered, the
device will indicate
Z-Wave status with
colour of LED:
• Green - the device is
already added to the
Z-Wave network.
• Red - the device is
not added to any
Z-Wave network.
NOTE
After
completing
installation it is recommended to test
sensor’s
operation
by placing the entire
sensor or its probes’
extension wire onto
water surface.
6. Place the sensor on a surface prone to flooding. Three electrodes
underneath the device should evenly touch the surface.
NOTE
NOTE
When changing the
Sensor’s location, it’s
recommended to wake
up the device and reconfigure the Z-Wave
network by triple clicking the TMP button or
removing and inserting the battery.
Basic activation
6
#3: Adding/removing the device
NOTE
Adding in security
mode must be performed up to 2 meters
from the controller.
NOTE
In case the Sensor is
not added, please reset the Sensor and repeat the adding procedure.
Adding (Inclusion) - Z-Wave device learning mode, allowing to add
the device to existing Z-Wave network.
To add the device to the Z-Wave network:
1. Open the cover.
2. Place the Sensor within the direct range of your Z-Wave controller.
3. Set the main controller in (security/non-security) add mode (see
the controller’s manual).
4. Quickly, three times press the TMP button.
TMP
button
5. Wait for the adding process to end.
6. Successful adding will be confirmed by the Z-Wave controller’s
message.
NOTE
Removing Flood Sensor
from the Z-Wave network restores all the
default parameters of
the device.
Removing (Exclusion) - Z-Wave device learning mode, allowing to
remove the device from existing Z-Wave network.
To remove the device from the Z-Wave network:
1. Open the cover.
2. Place the Sensor within the direct range of your Z-Wave controller.
3. Set the main controller into remove mode (see the controller’s
manual).
4. Quickly, three times press the TMP button.
TMP
button
5. Wait for the removing process to end.
6. Successful removing will be confirmed by the Z-Wave controller’s
message.
Adding/removing the device
7
#4: Diagrams and connection
Connecting the FIBARO Flood Sensor in a manner
inconsistent with manual may cause risk to health, life or
material damage.
Notes for the diagrams and probes marking:
CAUTION
Connect while observing wiring diagram
shown in this manual
only. Incorrect wiring
may be dangerous or
result in the device
breakdown.
ALARM
NC
GND
TAMP
NC
+ 12
SENS 2
SENS 1
TMP
+12V - 12 / 24 VDC positive terminal
GND - negative (ground) terminal
ALARM NC - potential-free flood sensor terminals (for wired systems)
TAMP NC - potential-free tamper terminals (for wired systems)
SENS1, SENS2 - flood sensor electrodes’ terminals
TMP - tamper button (used to add/remove the device)
ALARM
NC
GND
TAMP
NC
+ 12
SENS 2
SENS 1
Connection to a constant power source:
NOTE
The TMP button has
two functions:
1. Adding / Removing
the device to / from
the Z-Wave network,
2. Tamper
contact
for 4th Association
Group. When a sensor is added to the
Z-Wave network, cover open alarm may be
activated (according
to parameter 74 settings).
TMP
12/24 VDC
ADAPTER
Diagrams and connection
8
NOTE
Connection with a wired alarm system:
ALARM NC and TAMP
NC connectors may
be used as end-of-line
protective loop’s terminals.
ALARM
SYSTEM HUB
ALARM
NC
GND
TAMP
NC
+ 12
SENS 2
SENS 1
AUX COM Z1 Z2
TMP
Extending Flood Sensor contacts with a wired probe:
NOTE
NOTE
The Sensor detects
electrical conductivity
between electrodes
1 and 3, 1 and 2 and
electrodes connected to contacts (SENS1
and SENS2).
CAUTION
Contacts SENS1 and
SENS2 are dedicated to flood detection
only. Do not connect
external voltage!
Diagrams and connection
SENS 1
SENS 2
Mounting
screws
shown in a diagram
are not included in
the package. Choose
a screw type depending on the building
material it is being attached to.
TAMP
NC
9
#5: Powering modes
There are two powering modes for the Flood Sensor. By default it is
powered by a factory included battery. In addition it can work with a
constant voltage, after connecting a 12/24V DC power supply to +12
and GND terminals (see „Diagrams and connection” on page 7).
Powering mode configuration is carried out automatically, while the
device is being added into the Z-Wave network.
When battery powered, the Flood Sensor communicates with the
main Z-Wave controller periodically. Detected alarms are sent immediately, but the configuration parameters and associations settings
will only be updated at specified wake up intervals or at manual wake
up (single TMP button click).
CAUTION
Using batteries other
than specified may
result in explosion.
Dispose of properly,
observing
environmental
protection
rules.
When added to the network as a DC powered device, the device will
update its associations and configurations immediately. It will also
allow it to serve as a signal repeater in the Z-Wave network, which
increases the chance of successful communication among devices in
the same network.
Switching to constant voltage powering mode:
1. Remove the sensor from the Z-Wave network.
2. Connect constant voltage power source (12/24 VDC) to +12 and
GND terminals in accordance with „Diagrams and connection” on
page 7.
3. Add the sensor to the Z-Wave network.
The Flood Sensor may operate without a battery if 12/24V power supply is connected. Installing a battery is recommended though, as it
will serve as an emergency power source. When constant power fails,
sensor will automatically shift to backup power mode. All reports, including flood and temperature, will be sent immediately, but it will
not be possible to modify the configuration or association settings
until constant power returns. In this mode Z-Wave signal repeating is
not possible.
NOTE
The Flood Sensor will
automatically
exit
emergency
mode
once 12/24 VDC at
+12 and GND terminals is detected
FIBARO Flood Sensor’s battery life is estimated at about 2 years at
factory default settings. Current battery level is displayed in a Z-Wave
controller interface. Red battery icon means the battery needs replacement. In order to avoid triggering a tamper alarm while replacing the battery, 4th association group’s associations must be deleted
and configuration parameters should be restored back to default settings.
Powering modes
10
#6: Operating the device
Controlling the Flood Sensor using the TMP button:
The Flood Sensor is equipped with the TMP button, which allows to
perform the following actions:
1x click: send Wake Up notification (in battery mode), confirm selected menu option (if menu is active)
3x click: add/remove the device to/from a Z-Wave network
Holding: enter/navigate through menu
TMP
button
Controlling the Flood Sensor with FIBARO Home Center controller:
The Flood Sensor has two built-in sensors – flood and temperature
sensors. In the Home Center controller the Sensor will be shown as
two devices.
NOTE
By default, flood sensor’s insensitivity is
set to 1 second, which
means flooding will
be reported one second after it’s been detected.
Tilt tamper is insensitive to little vibrations
and turns. After its activation, insensitivity
is turned off for 15 seconds. After that, each
Sensor’s movement
will trigger audible
alarm, consisting of 3,
brief acoustic signals.
Operating the device
Visual indications:
The Flood Sensor is equipped with a LED diode, signalling sensor’s
operating modes and alarms. In addition the visual indicator may inform of the Z-Wave network range and the current temperature.
Visual indicator signalling modes:
1. Flood alarm is signalled with alternating white and blue light.
2. In battery powering mode, with parameter no. 63 set to 1, visual
indicator will periodically show temperature readouts (depending on parameter 50, 51, 61 and 62 settings).
3. In constant powering mode, the current temperature readouts
will be continuously signalled with a colour depending on parameter 50, 51, 61 and 62 settings.
4. Currently selected menu position is signalled with an illumination
colour.
11
Menu allows to perform Z-Wave network actions. In order to use the
menu:
1. Press and hold the TMP button.
2. Wait for the device to indicate desired position with a colour:
•
WHITE - confirmation of entering the menu
•
GREEN - cancel alarm for associated devices and the controller (only if the device is no longer flooded)
•
VIOLET - Z-Wave network’s range test
•
YELLOW - full reset
3. Release the TMP button.
4. Click the TMP button to confirm selection.
Waking up the Flood Sensor:
When in battery mode the Flood Sensor needs to be woken up to
receive information about the new configuration from the controller,
like parameters and associations.
To wake up the sensor manually, click the TMP button located inside
the housing.
The device will also wake up and update its data upon startup when
added in battery mode.
Resetting the Flood Sensor:
Reset procedure allows to restore the device back to its factory settings, which means all information about the Z-Wave controller and
user configuration will be deleted.
1. Make sure the sensor is powered.
2. Press and hold the TMP button.
3. Wait for the visual LED indicator to glow yellow (4th position of
the MENU).
4. Release the TMP button.
5. Click the TMP button once to confirm selection.
6. After few seconds the device will restart with factory settings,
which is signalled with the red visual indicator colour and
an acoustic signal.
NOTE
Resetting the device is
not the recommended way of removing
the device from the
Z-Wave network. Use
reset procedure only
if the primary controller is missing or
inoperable.
Certain
device removal can be
achieved by the procedure of removing
described in “Adding/
removing the device”
on page 6.
Operating the device
12
#7: Association
NOTE
Association ensures
direct transfer of
control
commands
between devices, is
performed
without
participation of the
main controller and
requires
associated
device to be in the direct range.
Association (linking devices) - direct control of other devices within
the Z-Wave system network e.g. Dimmer, Relay Switch, Roller Shutter
or scene (may be controlled only through a Z-Wave controller).
The Flood Sensor provides the association of four groups:
1st Association Group – “Lifeline” reports the device status and allows for assigning single device only (main controller by default).
2nd Association Group – “Flood Control” devices in this group will
be switched on or off when flood status changes (done via BASIC SET
command frames).
3rd Association Group – “Flood Alarm” is assigned to the device
status - devices in this group will receive notification about flood detection or cancellation. Useful for devices that can trigger alarms.
4th Association Group – “Tamper Alarm” is assigned to the TMP
button and tilt sensor - devices in this group will receive a notification
when the sensor is moved or the cover is taken off (which normally
holds the button). Useful for devices that can trigger alarms. Functionality can be altered by parameter 74.
The Flood Sensor in 2nd to 4th group allows to control
up to 5 regular and 5 multichannel devices per an association group,
with the exception of “LifeLine” that is reserved solely for the controller
and hence only 1 node can be assigned.
It is not recommended to associate more than 10 devices in general,
as the response time to control commands depends on the number
of associated devices. In extreme cases, system response may be delayed.
To add an association (using the FIBARO Home Center controller):
1. Go to device options by clicking the icon:
2. Select the „Advanced” tab.
3. Specify to which group and what devices are to be associated.
4. Wait for the configuration process to end. Sending relevant information to devices added to associated groups may take even a
few minutes.
5. Wake up the device by clicking the TMP button to speed up the
configuration process.
Association
13
#8: Z-Wave range test
The Flood Sensor has a built in Z-Wave network main controller’s
range tester.
Follow the below instructions to test the main controller’s range:
1. Press and hold the TMP button until the visual indicator glows
violet.
2. Release the TMP button.
3. Click the TMP button once to confirm selection.
CAUTION
To make Z-Wave range
test possible, the device must be added
to the Z-Wave controller. Testing may stress
the network, so it is
recommended to perform the test only in
special cases.
4. Visual indicator will indicate the Z-Wave network’s range (range
signalling modes described below).
5. To exit Z-Wave range test, press the TMP button briefly.
Z-Wave range tester signalling modes:
Visual indicator pulsing green - the Flood Sensor attempts to establish a direct communication with the main controller. If a direct
communication attempt fails, the device will try to establish a routed
communication, through other modules, which will be signalled by
visual indicator pulsing yellow.
Visual indicator glowing green - the Flood Sensor communicates
with the main controller directly.
Visual indicator pulsing yellow - the Flood Sensor tries to establish a routed communication with the main controller through other
modules (repeaters).
NOTE
Communication mode
of the Flood Sensor
may switch between
direct and one using
routing, especially if
the device is on the
limit of the direct
range.
Visual indicator glowing yellow - the Flood Sensor communicates
with the main controller through the other modules. After 2 seconds
the device will retry to establish a direct communication with the
main controller, which will be signalled with visual indicator pulsing
green.
Visual indicator pulsing violet - the Flood Sensor does communicate at the maximum distance of the Z-Wave network. If connection
proves successful it will be confirmed with a yellow glow. It’s not recommended to use the device at the range limit.
Visual indicator glowing red - the Flood Sensor is not able to connect to the main controller directly or through another Z-Wave network device (repeater).
Z-Wave range test
14
#9: Advanced parameters
The Flood Sensor allows to customize its operation to user’s needs.
The settings are available in the FIBARO interface as simple options
that may be chosen by selecting the appropriate box.
In order to configure the Flood Sensor (using the FIBARO Home
Center controller):
1. Go to the device options by clicking the icon:
2. Select the „Advanced” tab.
Wake up interval (battery mode)
Available settings: 0 or 60-86400 (in seconds, 1min - 24h)
Default setting: 21 600 (every 6 hours)
The Flood Sensor will wake up at each defined time interval and always try to connect with the main controller. After successful communication attempt, the sensor will update configuration parameters, associations and settings and then will go into standby mode.
After failed communication attempt (eg. no Z-Wave range) the device
will go into standby mode and retry to establish connection with the
main controller after the next time interval.
Setting wake up interval to 0 disables sending Wake Up notification
to the controller automatically. Wake up may be still performed manually by a single TMP button click.
Longer time interval means less frequent communication and thus a
longer battery life
1. Alarm cancellation delay
Determines time period (in seconds) by which a Flood Sensor will retain the flood state after the flooding itself has ceased. The sensor
will keep on reporting flooding to the main controller. This parameter
setting does not affect acoustic and visual alarms, which turn off immediately after flooding ceases.
Available settings: 0-3600 (in seconds, each 1s)
Default setting:
Parameter size:
2 [bytes]
2. Acoustic and visual signals On / Off in case of flooding
The parameter allows for deactivation visual and acoustic alarm.
Parameter allows for increasing a battery life. Setting changes will not
affect the sensor’s communication with the main controller - commands to association groups, alarms and reports will still be sent.
Advanced parameters
15
Available settings: 0 - acoustic and visual alarms inactive
1 - acoustic alarm inactive, visual alarm active
2 - acoustic alarm active, visual alarm inactive
Default setting:
3 - acoustic and visual alarms active
Parameter size:
1 [byte]
7. Requested dimming level / roller blind opening level when sending turn on / open command to 2nd association group devices
Determines the requested “on” level to be sent to devices from 2nd
association group upon flood event.
Available settings: 1-99 - requested level
Default setting:
255 - turn a device on
255
Parameter size:
2 [bytes]
9. Deactivate turning off devices in 2nd association group & alarm
cancellation in 3rd group
This setting decides whether device turn off commands and alarm
cancellation notifications will be sent to devices in 2nd and 3rd association groups (respectively)
Setting the parameter’s value to 0 disables sending these two commands to associated devices. This means that these devices WILL NOT
be informed when the flooding has ceased. It is still possible to cancel
alarms in 3rd association group by choosing second (green) menu
position (see “Menu & visual indications” on page 10).
Available settings: 0 - alarm (flooding) cancellation inactive
Default setting:
1 - alarm (flooding) cancellation active
Parameter size:
1 [byte]
10. Temperature measurement interval
Time interval (in seconds) between consecutive measurements of
battery level and temperature (done by built-in temperature sensor).
If the temperature differs from previously reported by a value determined in parameter 12, it will be reported to the Z-Wave controller.
In battery mode more significant battery level changes will be reported. Short time intervals mean more frequent communication, which
results in shortened battery life.
After consecutive FAILED and SUCCESSFUL communication attempts,
the Sensor will go to standby mode.
Available settings: 1-65535 (in seconds)
Default setting:
300 (5min) Parameter size:
4 [bytes]
12. Temperature measurement hysteresis
Determines a minimum temperature change value (insensitivity level), resulting in a temperature report being sent to the main controlAdvanced parameters
16
ler, according to the parameter 10 settings.
Available settings: 1-1000 (each 0.01°C)
Default setting:
50 (0.5°C)
Parameter size:
2 [bytes]
50. Low temperature alarm threshold
The parameter stores a temperature value, below which visual indicator blinks with a colour determined by a parameter 61 settings. By
default the visual indicator blinks blue.
Available settings: - 10000 to +10000 (each 0.01°C)
Default setting:
1500 (15°C) Parameter size:
2 [bytes]
51. High temperature alarm threshold
The parameter stores a temperature value, above which visual indicator blinks with a colour determined by the parameter 62 settings. By
default the visual indicator blinks red.
Available settings: - 10000 to +10000 (each 0.01°C)
Default setting:
3500 (35°C) Parameter size:
2 [bytes]
61. Low temperature alarm indicator colour
Parameter stores RGB colour value (see the note below for details).
Available settings: 0-16777215
Default setting:
255
Parameter size:
4 [bytes]
62. High temperature alarm indicator colour
Parameter stores RGB colour value (see the note below for details).
Available settings: 0-16777215
Default setting:
16711680
Parameter size:
4 [bytes]
NOTE
The main controller interprets colours as a sum of its component colours value. Each colours value is a number from 0 to 255.
Indicated colour = 65536 * RED + 256 * GREEN + BLUE
Advanced parameters
Colour
Decimal value
Red
Green
Blue
Yellow
Turquoise
Orange
White
Indicator turned off
16711680
65280
255
16776960
65535
16750848
16777215
17
63. Temperature indication using LED visual indicator
Parameter determines visual indicator’s operation. Setting to 0 turns
the temperature LED indication off, saving battery life.
Available settings: 0 - visual indicator does not indicate the
temperature
1 - visual indicator indicates the temperature
(blink) every Temperature Measurement Interval (parameter 10, constant current and battery) and Wake Up Interval (battery mode)
Default setting:
2 - visual indicator indicates the temperature
continuously, only in constant power mode
Parameter size:
1 [byte]
73. Temperature measurement compensation
Parameter stores a temperature value to be added to or deducted
from the current temperature measured by internal temperature sensor in order to compensate the difference between air temperature
and temperature at the floor level.
Available settings: -10 000 to +10 000
Default setting:
0 (0.00°C)
Parameter size:
2 [bytes]
74. Alarm frame sent to 1st and 4th Association Group activation
(MOVEMENT_TAMPER / BUTTON_TAMPER)
The device is able to report tamper alarms resulting from sensor’s
tilt/movement or TMP button state change (e.g. taking off the top
cover).
Available settings: 0 - tamper alarms inactive
1 - button tamper alarm active
2 - movement tamper alarm active
Default setting:
3 - button and movement tampers alarm active
Parameter size:
1 [byte]
75. Alarms signalization duration
The device is capable of automatically turning off alarm signalization
after a certain amount of time. Long lasting alarm may reduce battery
life, when constantly signalized.
The parameter determines time after which alarm will become “quiet”
- still active but the device will go into battery saving mode. Visual or
acoustic alarm will be reactivated after time specified in the parameter
76. When alarm status ceases, alarm will be turned off immediately.
NOTE
Parameter 75 is ignored when parameter 2 is set to 0.
Available settings: 0 - alarms active indefinitely
Default setting:
1-65535 - time in seconds
Parameter size:
4 [bytes]
Advanced parameters
18
NOTE
In case a time period
set in parameter 76 is
shorter than the one
specified in parameter
75, the device will not
quiet the alarm, it will
remain active.
76. Alarm signalization reactivation period
Parameter determines a time period after which an alarm will be turned
back on (in case it was turned off by parameter 75 setting). It will also
resend commands to 2nd and 3rd association groups as if the alarm
was detected again.
Available settings: 0 - alarm reactivation inactive
Default setting:
1-65535 - time in seconds
Parameter size:
4 [bytes]
77. Flood sensor functionality turned off
Allows to turn off the internal flood sensor. Tamper and built in temperature sensor will remain active.
Available settings: 0 - Default flood sensor operation (flood detection, reactions)
Default setting:
1 - Built-in flood sensor TURNED OFF (does not
change its state in the main controller, does
not send alarm notifications nor turn on/off
commands to 2nd/3rd association groups with
flood state changes. Always visible in the main
controller as turned off )
Parameter size:
1 [byte]
78. Associations in Z-Wave network security mode
This parameter defines how commands are sent in specified association groups: as secure or non-secure. Parameter is active only in Z-Wave
network security mode. It does not apply to 1st “Lifeline “group.
Available settings: 0 - none of the groups sent as secure
1 - 2nd group ”Control” sent as secure
2 - 3rd group ”Alarm” sent as secure
Default setting:
Advanced parameters
4 - 4th group „Tamper” sent as secure
Parameter size:
1 [byte]
19
#10: Specifications
Power supply:
Battery and/or power supply unit
Battery type:
3V, CR123A
Supply type:
12–24V DC, LPS or NEC class 2
Power consumption
(at DC operation):
0.4W
Maximum voltage at output terminals (ALARM NC,
TAMP NC):
24V DC / 20V AC
Output terminals maximum current carrying
capacity:
25mA
EU standards compliance:
EMC 2014/30/EU
RAD 2014/53/EU
RoHS 2011/65/EU
LVD 2014/35/EU
Radio protocol:
Z-Wave+
Radio frequency:
868.4 or 869.8 MHz EU;
908.4, 908.42 or 916.0 MHz US;
921.4 or 919.8 MHz ANZ;
869.0 MHz RU;
Range:
up to 50m outdoors
up to 40m indoors
(depending on terrain and building
structure)
Operating temperature:
0–40°C
Measured temperature
range:
-20–100°C
Temperature measuring
accuracy:
0.5°C (within 0–40°C range)
Dimensions (Diameter x
Height):
72 x 28 mm
NOTE
This
product
is
intended
to
be
supplied by a certified
Power Supply Unit
marked “Class 2” or
“LPS” and rated from
12V DC to 24V DC.
NOTE
Radio frequency of
individual
device
must be same as your
Z-Wave
controller.
Check
information
on the box or consult
your dealer if you are
not sure.
Specifications
20
#11: Regulations
This device complies with Part 15 of the FCC Rules
Operation is subject to the following two conditions:
1. This device may not cause harmful interference
2. This device must accept any interference received, including interference that may cause undesired operation. This equipment has been
tested and found to comply with the limits for a Class B digital device,
pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference
to radio or television reception, which can be determined by turning
the equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an outlet on a circuit different from
that to which the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
Industry Canada (IC) Compliance Notice
This device complies with Industry Canada license-exempt RSSs. Operation is subject to the following two conditions: (1) this device may
not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the
device.
Cet appareil est conforme aux normes d’exemption de licence RSS d’Industry Canada. Son fonctionnement est soumis aux deux conditions
suivantes : (1) cet appareil ne doit pas causer d’interférence et (2) cet
appareil doit accepter toute interférence, notamment les interférences
qui peuvent affecter son fonctionnement.
Legal Notices
All information, including, but not limited to, information regarding the
features, functionality, and/or other product specification are subject
to change without notice. Fibaro reserves all rights to revise or update its products, software, or documentation without any obligation to
notify any individual or entity.
FIBARO and Fibar Group logo are trademarks of Fibar Group S.A. All
other brands and product names referred to herein are trademarks of
their respective holders.
Regulations
21
Note
Changes and modifications not expressly approved by the manufacturer or registrant of this equipment can void your authority to operate
this equipment under Federal Communications Commission’s rules.
DGT Warning Statement
Article 12
Without permission, any company, firm or user shall not alter the frequency, increase the power, or change the characteristics and functions
of the original design of the certified lower power frequency electric
machinery.
Article 14
The application of low power frequency electric machineries shall not
affect the navigation safety nor interfere a legal communication, if an
interference is found, the service will be suspended until improvement
is made and the interference no longer exists.
第十二條
經型式認證合格之低功率射頻電機，非經許可，公司、商號或使用
者均不得擅自變更頻率、加大功率或變更原設計之特性及功能。
第十四條
低功率射頻電機之使用不得影響飛航安全及干擾合法通信；經發現
有干擾現象時，應立即停用，並改善至無干擾時方得繼續使用。
前項合法通信，指依電信法規定作業之無線電通信。
低功率射頻電機須忍受合法通信或工業、科學及醫療用電波輻射性
電機設備之干擾。
Declaration of conformity
Hereby, Fibar Group S.A. declares that FIBARO Flood Sensor is in compliance with the essential requirements and other relevant provisions
of Directive 2014/53/EU.
Regulations

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