Instrukcja obsługi Fibaro FIB_FGWPE-101

Fibaro Niesklasyfikowane FIB_FGWPE-101

Przeczytaj poniżej 📖 instrukcję obsługi w języku polskim dla Fibaro FIB_FGWPE-101 (2 stron) w kategorii Niesklasyfikowane. Ta instrukcja była pomocna dla 3 osób i została oceniona przez 2 użytkowników na średnio 4.5 gwiazdek

Strona 1/2
ENG
Fibaro is a bi-directional wireless system. This means that the
signal is not only sent to the receivers, but also the receivers send
the confirmation of its reception. This operation confirms their
status to check whether they are active. Safety of the Fibaro
System transmission is comparable to the safety of transmission in
data bus wired systems.
Fibaro operates in the free band for data transmission. The
frequency depends on radio regulations in individual country. Each
Fibaro network has its own unique network identification number
(home ID), which is why it is possible to co-operate two or more
independent systems in a single building without any interference.
Although Z-Wave is quite new technology, it has already become
recognizable and officially binding standard, similarly to Wi-Fi.
Many manufacturers in various industries offer solutions based on
Z-Wave technology, guaranteeing their compatibility. This means
that the system is open and it may be extended in the future. Find
more information at www.fibaro.com.
Fibaro generates a dynamic network structure. After Fibaro System
is switched on, the location of its individual components is
automatically updated in real-time through status confirmation
signals received from devices operating in a "mesh" network.
The Fibaro Wall Plug is hereinafter referred to as Plug. It is
designed to turn on / off electrical devices (see specifications) using
radio waves, controllers and push button located in it's casing. Plug
automatically recognizes connected load and is protected from
overcurrent or short circuit. Features unique, real-time energy
consumption measuring through color changing, crystal LED ring.
II. Installation
1) Insert device into a socket,
2) Add device into the Z-Wave network if necessary,
3) Connect load to the Plug, making sure it does not exceed
2 500W,
4) Set the connected device switch to ON,
5) To turn on connected device manually turn on the Plug using B
button. (Alternative to remote control via Z-Wave controller)
Once the Plug is turned on, LED ring will glow.
6) Current power load is visualized with LED ring color,
7) Press B button to turn off the Plug manually,
8) Once the Plug is turned off, LED ring illumination is turned off as
well.
Fig. 1 Wall Plug icon in Home Center 2 interface
Through an association Fibaro Wall Plug may control another
Z-Wave network device, e.g. another Fibaro Wall Plug, Dimmer,
Relay Switch or Roller Shutter.
The Fibaro Wall Plug provides three association groups:
I association group is assigned to Plugs status - On / Off. Allows
for sending control command to associated devices whenever the
Plug is turned On or Off.
II association group allows for sending control commands to
associated devices depending on the current load. This association
group is configured through the advanced parameters no. 50, 51
and 52.
III association group reports relay's status to just one device,
Z-Wave network's main controller by default. It's not recommended
to modify settings of this association group.
The Fibaro Wall Plug allows for associating 5 normal devices per
single association group, out of which 1 field is always reserved for
main controller.
VII. Association
NOTE
To disable auto-inclusion press the B button once
after inserting the Plug into a socket.
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NOTE
Association allows for direct communication
between Z-Wave network devices. Main controller
does not take part in such communication.
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Fibaro Wall Plug offers a wide variety of advanced configuration
settings. Below parameters can be accessed from main controllers
configuration interface.
To configure Wall Plug using Home Center 2 controller go to device
options by clicking the following icon:
Select the advanced settings tab.
X. Advanced configuration
Operating Manual
Fibaro Wall Plug
FGWPE/F-101 v.2.1 - v.2.3
Fibaro Wall Plug is a universal, Z-Wave compatible, relay switch in
the form of a socket adapter. The Plug may be used to operate any
device up to 2,500W power output. The Plug features power
consumption measuring and uses a crystal LED ring to visualize the
current load by colour changing illumination.
Fibaro Wall Plug may be operated using the service button located
on its casing, or via any Z-Wave compatible controller.
Specifications
Power supply:
Rated load current:
Power consumption:
Power output:
(For resistive load)
In accordance with EU
standards:
Circuit’s temperature limit:
Operational temperature:
Circuit's thermal protection:
To be used with E or F type
(Schuko) sockets:
Radio signal power:
Radio protocol:
Radio frequency:
Range:
Dimensions: (D x H):
110-230 V AC +/-10%, 50/60 Hz
11A, 110-230V, 50/60 Hz -
continuous load
13A, 110-230V, 50/60 Hz -
momentary load
up to 0,8W
2,5kW at continuous load
3,0kW at momentary load
EN 55015 (noise)
EN 60669-2-1 (operational
safety)
105 °C
0 - 40 °C
115o
C - Ta (Ta = ambient
temperature).
- CEE 7/16 - max load 2,5 A
- CEE 7/17 - max load 16A
- Dual type plugs E/F
1mW
Z-Wave
868,4 MHz
up to 50m outdoors
up to 30m indoors (depending
on building materials)
43 x 65mm
Technical Information
- Controlled by Fibaro devices or any other Z-Wave controller
- Microprocessor control
- Executive element - relay
- Active and historic (average) power consumption measuring
NOTE
In case of loads other than resistive please observe
cosɸ and use load lower than rated if necessary.
It's recommended not to exceed 8A / 1,5kW
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III. Z-Wave network inclusion
Fibaro Wall Plug may be controlled manually, by the B button
located on its casing, or via any Z-Wave controller. To include the
Plug into the Z-Wave network please complete following tasks:
1) Insert the Plug into a socket,
2) Auto-inclusion will be activated, i.e. Plug automatically starts
looking for Z-Wave network controller. Auto-inclusion activation is
signaled by a single, red, LED ring blink.
3) Set the Z-Wave network main controller into learning mode (see
Z-Wave network controller operating manual)
4) Fibaro Wall Plug should be recognized and automatically
included into the Z-Wave network.
After the inclusion process is completed, Plug's auto-inclusion
function is deactivated, i.e. Plug will not try to include itself into the
Z-Wave network.
NOTE
Resetting the Plug does not mean is has been
removed from Z-Wave network controller's
memory. Remove the Plug from Z-Wave network
controller's memory before carrying out the
resetting procedure.
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VI. Operating the Plug through Z-Wave network
After successful inclusion Plug will be represented in the Home
Center 2 by the following, single icon:
Clicking ON/OFF will turn a connected device On or Off.
NOTE
Group I association commands are sent only in
case of manual operation through the B button.
Group II association commands are sent
automatically, depending on parameters no. 50, 51
and 52 settings.
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NOTE
Please contact your local electricity supplier for the
current rates.
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2) Fibaro Wall Plug stores consumed electricity data in its memory,
which means disconnecting the Plug from a socket does not erase
the data.
To reset electricity consumption memory:
a) Insert the Plug in a socket,
b) Press and hold the B button for 5-10 seconds until LED ring
glows green,
c) Release the B button,
d) Press the B button briefly.
Resetting electricity consumption memory will be signaled by
double, green, LED ring blink. Plug's relay won't change its status.
NOTE
Turning off the LED ring turns off alarm signaling
as well.
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3) Frequently asked questions about power and energy
consumption measuring.
Why doesn't a device consume precisely 100W, when its data
plate says this is the power exactly?
Power data specified by producers are often based on rough
estimates or measured in perfect conditions. Real world power
depends on mains voltage, device condition or ambient conditions
the device is used in. It may happen that two identical devices will
consume different amounts of energy.
Why power of the same device differs depending on the socket
it is connected to, in the same house?
Such things happen because of mains voltage fluctuations. Causes
also include wire lengths and voltage drops between the sockets.
Why the power of the same device differs in times of day?
The reason is the mains voltage fluctuations.
Why do we measure power, not any other parameter instead?
Power measuring is important because based on this parameter
electricity suppliers charge households for energy use.
Why certain devices power fluctuates instead of being
constant?
Some devices may have such a characteristic, e.g. computers.
In case of devices frequently, significantly changing power
consumption, e.g. plasma TVs, it is recommended to modify
configuration parameters to optimize the Z-Wave network use.
Modify parameters no. 40, 42 and 43 settings in order to reduce the
frequency of reporting the power use.
To reduce the number of power reports, value of the parameters 42
and/or 43 must be increased, based on user's experience. (e.g.
parameter 42 set to 30 and parameter 43 set to 60).
NOTE
Some Z-Wave network controllers allow for
resetting electricity consumption from controllers
menu.
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The Fibaro Wall Plug features built-in network range status, in
relation to the Z-Wave network main controller.
To test the range:
1) Insert Plug into a mains socket,
2) Press and hold the B button for 10-15 seconds until the LED ring
glows violet,
3) Release the B button,
4) Press the B button briefly.
5) LED ring signals Z-Wave network range - see below for signaling
modes description.
6) To exit range testing mode press the B button briefly. Plugs relay
will not change its status.
Z-Wave network range signaling modes:
LED ring pulsing green - Wall Plug tries to establish direct
connection with the main controller. If direct connection cannot be
established, Plug will try routing connection with the main controller
which will be signaled by LED ring pulsing yellow.
LED ring glowing green - Wall Plug managed to establish a direct
connection with the main controller.
LED ring pulsing yellow - Wall Plug is trying to establish routed
connection with the main cotroller, via other Z-Wave devices acting
as signal repeaters.
LED ring glowing yellow - Wall Plug managed to establish routed
connection with the main controller. After 2 seconds the Plug will try
again to establish a direct connection with the main controller, which
will be signaled by LED ring pulsing green.
LED ring pulsing violet - Wall Plug is located outside the Z-Wave
network's range or the network is busy. Ultimately, failure to connect
with the main controller will be signalled by LED ring pulsing red.
After 2 seconds the Plug will again try to establish a direct
connection with the main controller which will be signalled by LED
ring blinking green.
To include the Plug manually, without the use of auto-inclusion:
1) Set the Z-Wave controller into the learn-mode (see Z-Wave
controller operating manual),
2) Triple click the B button, located on the Plug's casing
IV. Removing from Z-Wave network
To remove Fibaro Wall Plug from the Z-Wave network:
1) Insert the Plug into a socket,
2) Set the Z-Wave network controller into the learn-mode (see
Z-Wave controller operating manual)
3) Triple click the B button, located on the Plug's casing.
ALARMS:
Z-Wave network alarm will be signalled by LED ring according to the
parameter 63 settings. Blinking in Red/Blue/White is a default
setting.
Connected device state will be changed according to the parameter
35 settings. By default, connected device state will remain
unchanged.
Wall Plug will be signaling an alarm through the time period specified
in the parameter 39 (10 minutes by default), unless the alarm is
cancelled earlier. In addition Wall Plug may exit the alarm mode after
the B-button has been pressed and held for 2 - 5 seconds.
I. General information about Fibaro System
Fibaro is a wireless system, based on Z-Wave technology. Fibaro
provides many advantages when compared to similar systems. In
general, radio systems create a direct connection between the
receiver and transmitter. But the radio signal is weakened by
various obstacles located on its path (apartment walls, furniture,
etc.) and in extreme cases it fails to transfer required data. The
advantage of Fibaro System is that its devices, apart from being
transmitters and receivers, are also signal duplicators. When a
direct connection path between the transmitter and the receiver
cannot be established, the connection may be achieved through
other intermediate devices.
V. Resetting Fibaro Wall Plug
Reset procedure clears the Plug's memory, including Z-Wave
network controller information and energy consumption data.
To reset Fibaro Wall Plug:
1) Insert the Plug into a socket,
2) Press and hold the B button for 15 - 20 seconds until LED ring
glows yellow,
3) Release the B button,
4) Press the B button, briefly.
Once the reset procedure is completed, LED ring will glow red and
turn off. Plug's relay will turn off as well.
To add an association (using Home Center 2 Interface) go to device
settings and click the following icon:
Select the "device options" tab. Then specify to which group and
what devices are to be associated. Sending relevant information to
devices added to association groups may take even a few minutes.
1) Fibaro Wall Plug allows for the current load and power
consumption monitoring. Data is sent to the main controller, e.g.
Home Center 2. Measuring is carried out by an independent
microprocessor dedicated exclusively for this purpose, assuring
maximum accuracy and precision.
Electric power - power consumed by an electric device in an
instant, in Watts (W).
Electric energy - energy consumed by a device through a time
period. Most commonly measured in kilowatt-hours (kWh). One
kilowatt-hour is equal to one kilowatt of power consumed over a
period of one hour, 1kWh = 1000 Wh.
VIII. Current load and energy consumption
IX. Led rings settings and readings
The Fibaro Wall Plug has built-in, colour changing LED ring,
signaling connected devices power and operating status. Colours
shown are those of a RGB scheme. In addition, the LED ring signals
Plugs range in relation to the Z-Wave networks main controller and
overheating protection activation (parameter no.70).
LED rings signaling modes:
1) Wall Plugs On / Off signaled with a color defined by relevant
parameter settings (see parameters no. 60, 61, 62)
2) Alarm status signaled according to parameters 63 settings,
3) Energy meter reset signaled by double, green blink,
4) Once inserted to mains socket, LED ring signals Z-Wave network
inclusion status. Single green blink means it's included. Single red
blink means Plug has not been included in the Z-Wave network.
5) Blinking yellow means memory write during software update
process,
6) Alternating blinking, yellow / red, signals overheating warning
(overload).
LED ring illumination may be turned off completely. To do so:
1) Insert the Plug in a socket,
2) Press and hold the B button for 2-5 seconds, till LED ring starts
pulsing white,
3) Release the B button,
4) Press the B button briefly.
Plugs relay will not change its status. After the LED ring has been
turned off, it can be turned on by completing again the above
procedure.
GENERAL:
1. Always on function
Once activated, Wall Plug will keep a connected device constantly
ON, will stop reacting to alarm frames and B-button push.
"Always on" function turns the Plug into a power and energy meter.
Also, connected device will not be turned off upon receiving an alarm
frame from another Z-Wave device (parameter 35 will be ignored).
In "Always on" mode, connected device may be turned off only after
user defined power has been exceeded (parameter 70). In such a
case, connected device can be turned on again by pushing the
B-button or sending a control frame. By default, overload protection
is inactive. Default setting: 1
Available settings:
0 - function activated
1 - function inactive
Parameter: 1 [byte]
16 - Remember device status after power failure
Define how will the Plug react after the power supply is back on.
Default setting: 1
Available settings:
0 - Wall Plug does not memorize its state after a power failure.
Connected device will be off after the power supply is
reconnected.
1 - Wall Plug memorizes its state after a power failure.
Parameter: 1 [byte]
34. Reaction to alarms.
Define Z-Wave network alarms to which the Wall Plug will respond.
Default setting: 63
Available settings: 0 - 63.
1 - general alarm,
2 - smoke alarm,
4 - CO alarm,
8 - CO2 alarm,
16 - high temperature alarm,
32 - flood alarm,
63 - device responds to all types of alarm frames.
Set value may be a sum of available values, e.g. set value = 5 means
the Plug will respond to general alarm (1) and CO alarm (4).
Parameter: 1 [byte]
35. Wall Plug's response to alarm frames
Parameter defines how the Wall Plug will respond to alarms (device's
status change) Default setting: 0
Available settings:
0 - no reaction,
1 - turn on connected device. LED ring signals an alarm through
defined time period (parameter 39) or untill the alarm is
cancelled.
2 - turn off connected device. LED ring signals an alarm through
defined time period (parameter 39) or untill the alarm is
cancelled.
3 - cyclically change device state, each 1second. In alarm mode
Wall Plug does not report status change, power changes,
ignores alarm frames. After the defined time period has passed
(parameter 39) or after the alarm cancellation, connected
device is set to the previous state.
Parameter: 1[byte]
REPORTS
39. Alarm duration
Wall Plug's alarm mode duration. If a device sending an alarm frame
through the Z-Wave network sets alarm duration as well, this
parameter's settings are ignored.
Default setting: 600 (seconds).
Available settings: 1 - 65536 (seconds)
Parameter: 2[byte]
Reports on power load, sent to the main controller. Default settings
of below parameters are chosen in such a way that instantaneous
power load is shown without blocking the Z-Wave network in the
process. Default settings are good for most of the devices. In
specific cases it may be necessary to modify default settings in order
to optimize Z-Wave network's use. In extreme cases it is recommen-
ded to turn off reporting completely and configure power polling or
periodic reports in Home Center 2.
Fibaro Wall Plug reports the power load with specified frequency.
Below configuration parameters allow to specify how and how
frequently power load will be reported.
40. Immediate power report.
Parameter defines by how much power load must change, in
percents, to be reported to the main controller, with the highest
priority in the Z-Wave network. By default, Fibaro Wall Plug
immediately sends power report if the power load changes by 80%.
Default setting: 80 (%)
Available settings: 1 - 100 (%).
Value of 100 (%) means the reports are turned off.
Parameter: 1[byte].
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NOTE
In extreme cases, reports may be sent every
second if rapid and significant power load changes
occur. Frequent reporting may overload the
Z-Wave network so these parameter's settings
should reflect significant changes in power load
only.
NOTE
If "always on" function is active (parameter 1), this
parameter's settings are ignored.
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1. The Guarantee is provided by FIBAR GROUP Sp. z o.o.
(hereinafter "Manufacturer"), based in Poznan, ul. Lotnicza 1; 60-421
Poznan, entered in the register of the National Court Register kept
by the District Court in Poznań, VIII Economic Department of the
National Court Register, no. 370151, NIP 7811858097, REGON:
301595664.
2. The Manufacturer is responsible for equipment malfunction
resulting from physical defects (manufacturing or material) of the
Device for 12 months from the date of its purchasing.
3. During the Guarantee period, the Manufacturer shall remove any
defects, free of charge, by repairing or replacing (at the sole
discretion of the Manufacturer) any defective components of the
Device with new or regenerated components, that are free of
defects. When the repair impossible, the Manufacturer reserves the
right to replace the device with a new or regenerated one, which shall
be free of any defects and its condition shall not be worse than the
original device owned by the Customer.
4. In special cases, when the device cannot be replaced with the
device of the same type (e.g. the device is no longer available in the
commercial offer), the Manufacturer may replace it with a different
device having technical parameters similar to the faulty one. Such
activity shall be considered as fulfilling the obligations of the
Manufacturer. The Manufacturer shall not refund money paid for the
device.
5. The holder of a valid guarantee shall submit a guarantee claim
through the guarantee service. Remember: before you submit a
guarantee claim, contact our technical support using telephone or
e-mail. More than 50% of operational problems is resolved remotely,
saving time and money spent to initiating guarantee procedure. If
remote support is insufficient, the Customer shall fill the guarantee
claim form (using our website - www.fibargroup.com) in order to
obtain claim authorization.
When the guarantee claim form is submitted correctly, the Customer
shall receive the claim confirmation with an unique number (Return
Merchandise Authorization -RMA).
6. The claim may be also submitted by telephone. In this case, the
call is recorded and the Customer shall be informed about it by a
consultant before submitting the claim. Immediately after submitting
the claim, the consultant shall provide the Customer with the claim
number (RMA-number).
7. When the guarantee claim form is submitted correctly, a
representative of the Authorised Guarantee Service (hereinafter as
"AGS") shall contact the Customer.
XI. Guarantee
NOTE
This functionality is not an overload safety
protection nor a short circuit protection. Circuit
needs additional short circuit and overload
protection.
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ASSOCIATION GROUP 2
COLOUR SETTINGS
SAFETY
This Device may be used with all devices
certified with Z-Wave certificate and should be
compatible with such devices produced by
other manufacturers.
Any device compatible with Z-Wave may be added
to Fibaro system.
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FIBARGROUP
FIBARO
In case of any technical questions contact customer service centre
in your country.
www.fibargroup.com
8. Defects revealed within the guarantee period shall be removed
not later than 30 days from the date of delivering the Device to AGS.
The guarantee period shall be extended by the time in which the
Device was kept by AGS.
9. The faulty device shall be provided by the Customer with complete
standard equipment and documents proving its purchase.
10. Parts replaced under the guarantee are the property of the
Manufacturer. The guarantee for all parts replaced in the guarantee
process shall be equal to the guarantee period of the original device.
The guarantee period of the replaced part shall not be extended.
11. Costs of delivering the faulty device shall be borne by the
Customer. For unjustified service calls, the Service may charge the
Customer with travel expenses and handling costs related to the
case.
12. AGS shall not accept a complaint claim only when:
• the Device was misused or the manual was not observed,
• the Device was provided by the Customer incomplete, without
accessories or nameplate,
• it was determined that the fault was caused by other reasons than
a material or manufacturing defect of the Device
• the guarantee document is not valid or there is no proof of
purchase,
13. The Manufacturer shall not be liable for damages to property
caused by defective device. The Manufacturer shall not be liable for
indirect, incidental, special, consequential or punitive damages, or
for any damages, including, inter alia, loss of profits, savings, data,
loss of benefits, claims by third parties and any property damage or
personal injuries arising from or related to the use of the Device.
14. The guarantee shall not cover:
mechanical damages (cracks, fractures, cuts, abrasions, physical
deformations caused by impact, falling or dropping the device or
other object, improper use or not observing the operating manual);
damages resulting from external causes, e.g.: flood, storm, fire,
lightning, natural disasters, earthquakes, war, civil disturbance, force
majeure, unforeseen accidents, theft, water damage, liquid leakage,
battery spill, weather conditions, sunlight, sand, moisture, high or low
temperature, air pollution;
• damages caused by malfunctioning software, attack of a computer
virus, or by failure to update the software as recommended by the
Manufacturer;
• damages resulting from: surges in the power and/or telecommuni-
cation network, improper connection to the grid in a manner
inconsistent with the operating manual, or from connecting other
devices not recommended by the Manufacturer.
damages caused by operating or storing the device in extremely
adverse conditions, i.e. high humidity, dust, too low (freezing) or too
high ambient temperature. Detailed permissible conditions for
operating the Device are defined in the operating manual;
damages caused by using accessories not recommended by the
Manufacturer
damages caused by faulty electrical installation of the Customer,
including the use of incorrect fuses;
damages caused by Customer's failure to provide maintenance and
servicing activities defined in the operating manual;
damages resulting from the use of spurious spare parts or
accessories improper for given model, repairing and introducing
alterations by unauthorized persons;
• defects caused by operating faulty Device or accessories.
15. The scope of the guarantee repairs shall not include periodic
maintenance and inspections, in particular cleaning, adjustments,
operational checks, correction of errors or parameter programming
and other activities that should be performed by the user (Buyer).
The guarantee shall not cover natural wear and tear of the Device
and its components listed in the operating manual and in technical
documentation as such elements have a defined operational life.
16. If a defect is not covered by the guarantee, the Manufacturer
reserves the right to remove such defect at its sole discretion,
repairing the damaged or destroyed parts or providing components
necessary for repair or replacement.
17. This guarantee shall not exclude, limit or suspend the Customer
rights when the provided product is inconsistent with the purchase
agreement.
42. Standard power load reporting.
Parameter defines by how much power load must change, in
percents, to be reported to the main controller. By default, Fibaro
Wall Plug sends power report if the power load changes by 15%.
By default such changes in power load may be reported up to 5 times
per 30 seconds. Wall Plug sends 5 reports during time period
specified in paramater 43.
Default setting: 15 (%)
Available settings: 1 - 100 (%)
Value of 100 (%) means the reports are turned off.
Parameter: 1[byte]
43. Power reporting frequency.
This parameter defines how frequently standard power reports
(parameter 42) will be sent. By default Wall Plug sends up to 5
reports each 30 seconds, provided the power load changes by 15%.
Default seting: 30 (s)
Available settings: 1 - 254 (s)
Value of 255 - Reports will be sent only as a result of parameter 47
settings or in case of polling.
Parameter: 1[byte]
45. Reporting changes in energy consumed by controlled
devices
New, reported energy value is calculated based on last reported
value. Default setting: 10 (0,1 kWh).
Available settings: 1 - 254 (0,01kWh - 2,54kWh).
Value of 255 - changes in consumed energy will not be reported.
Reports will be sent only in case of polling.
Parameter: 1[byte]
61. LED ring illumination colour when controlled device is on.
Default value: 1
Available settings:
0 - LED ring illumination colour changes in predefined steps,
depending on power consumption changes,
1 - LED ring illumination colour changes continuously, using full
spectrum of available colorus, depending on power consumption
changes.
2 - White illumination,
3 - Red illumination,
4 - Green illumination,
5 - Blue illumination,
6 - Yellow illumination,
7 - Cyan (Greenish blue) illumination,
8 - Magenta (Purplish red) illumination,
9 - illumination turned off completely.
Parameter: 1[byte]
62. LED ring illumination color when controlled device is off.
Default setting: 8
Available settings:
0 - LED ring is illuminated with a color corresponding to the last
measured power, before the controlled device was turned off,
1 - White illumination,
2 - Red illumination,
3 - Green illumination,
4 - Blue illumination,
5 - Yellow illumination,
6 - Cyan (Greenish blue) illumination,
7 - Magenta (Purplish red) illumination,
8 - illumination turned off completely.
Parameter: 1[byte]
70 . Oveload safety switch
This function allows for turning off the controlled device in case of
exceeding the defined power. Controlled device will be turned off
even if "always on" function is active (parameter 1).
Controlled device can be turned back on via B-button or sending a
control frame. By default this function is inactive.
Default setting: 65 535 (6 553,5W)
Available settings: 10 - 65 535 (1W - 6 553,5W).
Value higher than 32 000 (3 200W) turns the overload safety switch
off, i.e. this functionality is turned off by default.
Parameter: 2[byte]
49. Metering energy consumed by the Wall Plug itself.
This parameter determines whether energy metering should include
the amount of energy consumed by the Wall Plug itself.
Results are being added to energy consumed by controlled device.
Default setting: 0
Available settings:
0 - function inactive,
1 - function activated.
Parameter: 1[byte]
Status of devices added to 2nd Association Group may depend on
power consumed by the connected device. For example, turning on
the TV controlled by the Plug will turn off the lights in the room.
User defines two thresholds: UP and DOWN, and then defines the
reaction to them being exceeded (parameter 52).
50. DOWN value
Lower power threshold, used in parameter 52.
Default setting: 300 (30 W)
Available settings: 0 - 25 000 (0,0W - 2 500W)
DOWN value cannot be higher than a value specified in parameter
51.
Parameter: 2[byte]
51. UP value
Upper power threshold, used in parameter 52.
Default setting: 500 (50 W)
Available settings: 1 - 25 000 (0,1W - 2 500W)
UP value cannot be lower than a value specified in parameter 50.
Parameter: 2[byte]
60. Power load, which when exceeded, makes the LED ring
flash violet.
Function is active only when parameter 61 is set to 0 or 1.
Default setting: 25 000 (2 500W)
Available settings: 1 000 - 32 000 (100W - 3200W).
Parameter: 2[byte]
52. Action in case of exceeding defined power values
(parameters 50 and 51)
Parameter deifines the way 2nd association group devices are
controlled, depending on the current power load.
Default setting: 6
Available settings:
0 - function inactive,
1 - turn the associated devices on, once the power drops below
DOWN value (parameter 50),
2 - turn the associated devices off, once the power drops below
DOWN value (parameter 50),
3 - turn the associated devices on, once the power rises above UP
value (parameter 51),
4 - turn the associated devices off, once the power rises above UP
value (parameter 51),
5 - 1 and 4 combined. Turn the associated devices on, once the
power drops below DOWN value (parameter 50). Turn the
associated devices off, once the power rises above UP value
(parameter 51).
6 - 2 and 3 combined. Turn the associated devices off, once the
power drops below DOWN value (parameter 50). Turn the
associated devices on, once the power rises above UP value
(parameter 51).
Parameter: 1[byte]
47. Time period between reports on power load and energy
consumption.
Parameter defines time period between reports sent when changes
in power load have not been recorded. By default, if power load
changes have not been recorded, reports are sent every hour.
Default setting: 3 600 (s),
Available settings: 1 - 65534 (s)
Value of 65535 - no periodic reports. Reports will be sent only in
case of power load / energy consumption changes (parameters 40,
42, 43,45) or in case of polling.
Parameter: 2[byte]
63. LED ring illumination colour at the Z-Wave network alarm
detection. Default setting: 1
Available settings:
0 - No change in colour. LED ring illumination colour determined by
parameters 61 or 62 settings,
1 - LED ring flashes red / blue / white (default),
2 - White illumination,
3 - Red illumination,
4 - Green illumination,
5 - Blue illumination,
6 - Yellow illumination,
7 - Cyan (Greenish blue) illumination,
8 - Magenta (Purplish red) illumination,
9 - illumination turned off completely.
Parameter: 1[byte]


Specyfikacje produktu

Marka: Fibaro
Kategoria: Niesklasyfikowane
Model: FIB_FGWPE-101

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