Instrukcja obsługi Qubino Flush Heat & Cool

Qubino termostat Flush Heat & Cool

Przeczytaj poniżej 📖 instrukcję obsługi w języku polskim dla Qubino Flush Heat & Cool (2 stron) w kategorii termostat. Ta instrukcja była pomocna dla 6 osób i została oceniona przez 2 użytkowników na średnio 4.5 gwiazdek

Strona 1/2
Qubino
The and INNOVATIVE SMALLEST
Flush Heat Cool Thermostat &
ORDERING CODE
Z-WAVE FREQUENCY
ZMNHK D1
868,4 MHz
ZMNHK D2
921,4 MHz
ZMNHK D3
908,4 MHz
ZMNHK D4
869,0 MHz
ZMNHK D5
916,0 MHz
ZMNHKD8
865,2 MHz
This Z-Wave module is used to regulate temperature in
heating and cooling mode. Module can be controlled either
through Z-Wave network or through the wall switch.
The module is designed to be mounted inside a ush fl
mounting and is hidden behind a traditional wall switch. box
Module measures power consumption of connected device.
It is designed to act as repeater in order to improve range
and stability of Z-wave network.
Supported switches
Module supports switches (push button) and mono-stable
bi-stable switches. The module is factory set to operate
with bi-stable switches.
Installation
To prevent electrical shock and/or equipment damage,
disconnect electrical power at the main fuse or circuit
breaker before installation or any servicing.
Make sure, that no voltage is present in the installation.
Prevent the disconnecting device from being switched on
accidentally.
Connect the module according to electrical diagram.
Locate the antenna far from metal elements (as far as
possible).
Do not shorten the antenna.
Danger of electrocution!
Module installation requires a great degree of skill and
may be performed only by a qualified and licensed
electrician.
Even when the module is turned off, voltage may be
present on its terminals.
Note!
Do not connect the module to loads exceeding
recommended values. Connect the module only in
accordance to the below diagrams. Improper connections
may be dangerous.
Electrical installation must be protected by directly
associated over current protection fuse 4A, gG or Time
lag T, rated breaking capacity 1500A (ESKA 522.723)
must be used according to wiring diagram to achieve
appropriate overload protection of the module. The fuse
must be installed in fuse holder: Adels contact 503 Si / 1DS
Package contents:
Flush Thermostat + Temperature sensor Heat & Cool
Electrical diagram 230VAC
Notes for the diagram:
N
Neutral lead
L
Live lead
Q1
Output for Heating valve
Q2
Output for Cooling valve
I2
Input for switch /push button or sensor*
I1
Input for switch /push button or sensor*
TS
Terminal for digital temperature sensor (only for
Flush Heat & Cool thermostat module compatible
digital temperature sensor).
*For details please check parameters 11 and 12
Electrical diagram 24VDC
Notes for the diagram:
N
+ VDC
L
- VDC
Q1
Output for Heating valve
Q2
Output for Cooling valve
I2
Input for switch /push button or sensor*
I1
Input for switch /push button or sensor*
TS
Terminal for digital temperature sensor (only for
Flush Heat & Cool thermostat module compatible
digital temperature sensor).
*For details please check parameters 11 and 12
WARNING: Service button S when must NOT be used
module is connected to 110-230V power supply.
Durability of the device depends on applied load. For
resistive load (light bulbs, etc.) and 4A current consumption
of each individual electrical device, the durability exceeds
70.000 switches of each individual electrical device.
Module Inclusion (Adding to Z-wave network)
Connect module to power supply (with
temperature sensor connected),
auto-inclusion (works for about 5 seconds after
connected to power supply) or
press push button I1 three times within 3s (3 times
change switch state within 3 seconds) or
press service button (only applicable for 24 V SELV S
supply voltage) for more than 2 second.
NOTE1: For auto-inclusion procedure, first set main
controller into inclusion mode and then connect module to
power supply.
NOTE2: When connecting temperature sensor to module
that has already been included, you have to exclude
module first. Switch off power supply, connect the sensor
and re-include the module .
Module Exclusion/Reset (Removing from Z-
Wave network)
Connect module to power supply
bring module within maximum 1 meter (3 feet) of the
main controller,
enable add/remove mode on main controller,
press push button five times within 3s (5 times change I1
switch state within 3 seconds) in the first 60 seconds
after the module is connected to the power supply or
press service button (only applicable for 24 V SELV S
supply voltage) for more than 6 second.
By this function all parameters of the module are set to
default values and own ID is deleted.
If push button I1 is pressed three times within 3s (or service
button S is pressed more than 2 and less than 6 seconds)
module is excluded, but configuration parameters are not
set to default values.
NOTE: If the module is included with parameters 100 or
101 with value different to default and module reset is done,
wait at least 30s before next inclusion.
Association
Association enables Flush thermostat module Heat & Cool
to transfer commands inside Z-Wave network directly
(without main controller) to other Z-Wave modules.
Associated Groups:
Group 1: Lifeline group (reserved for communication with
the main controller), 1 node allowed.
Group 2: basic on/off (triggered at change of the output Q1
or Q2 state and reflecting its state) up to 16 nodes.
Group 3: SENSOR_MULTILEVEL_GET (triggered once per
minute if parameter 121 is not 0) up to 16 nodes.
Group 4: basic on/off (triggered by Too high temperature
limit, it send , triggered by To Low temperature, it send 0x00
0xFF) up to 16 nodes.
Group 5: THERMOSTAT_SETPOINT_G (triggered once ET
per minute if parameter 121 is not 0) up to 16 nodes.
Group 6: basic on/off (trigged by change of I1 if window
sensor functionality is selected by parameter no. 11) up to
16 nodes.
Group 7: basic on/off (trigged by change of I2 if condense
sensor functionality is selected by parameter no. 12) up to
16 nodes.
Group 9: sensor multilevel report (trigged by change of
temperature) up to 16 nodes.
Configuration parameters
Parameter no. 1 Input I1 switch type
Available config. parameters (data type is 1 Byte DEC):
default value 1
- mono-stable switch type (push button) 0
- -stable switch type 1 bi
Parameter no. 2 Input I2 switch type
See parameter 1 (valid for I2 instead of I1)
Parameter no. 4 Input 1 contact type
Available config. parameters (data type is 1 Byte DEC):
default value 0
- NO (normally open) input type 0
- NC (normally close) input type 1
NOTE: This parameter has influence only when parameter
no. 11 is set to the value “2”. After setting this parameter,
switch the window sensor once, so that the module could
determine the input state.
Parameter no. 5 Input 2 contact type
See parameter 4 (valid for I2 instead of I1)
NOTE: This parameter has influence only when parameter
no. 12 is set to the value “2000”. After setting this
parameter, switch the condense sensor once, so that the
module could determine the input state.
Parameter no. 10 - Activate / deactivate functions ALL
ON/ALL OFF
Available config. parameters (data type is 2 Byte DEC):
default value 255
- ALL ON active, ALL OFF active. 255
- ALL ON is not active ALL OFF is not active 0
- ALL ON is not active ALL OFF active 1
- ALL ON active ALL OFF is not active 2
Flush thermostat module responds to Heat & Cool
commands ALL ON / ALL OFF that may be sent by the
main controller or by other controller belonging to the
system.
Parameter no. 11- I1 Functionality selection
Available config. parameters (data type is 2 Byte DEC):
default value 1
input I1 does influence on the Heat & Cool 32767 – n’t
process
- input I1 changes the mode of the thermostat between 1
Off and Auto. In this case function on window sensor is
disabled
- input I1 influences on cooling and heating valves 2
according to status of window sensor. In this case
function of Off and Auto selection by I1 is disabled.
NOTE: If "Window Sensor" selected (value set to "2"),
parameter 100 (enable/disable endpoint) must be set to
non-zero value and module re-included!
Parameter no. 12 I2 Functionality selection
Available config. parameters (data type is 2 Byte DEC):
default value 32767
- input I2 does not influence on the Heat & Cool 32767
process
From 0 to 990 - Temperature set point from 0.0 °C to
99.0 °C. When I2 is pressed, it automatically set Heat
and Cool temperature setpoint according to value s
defined here. In this case function of condense sensor is
disabled
From 1001 to 1150 - Temperature set point from -0.1 °C
to - . When I2 is pressed, it automatically set 15.0 °C
temperature setpoint according to value defined here. In
this case function of condense sensor is disabled
- Input I2 influences on the cooling valve according 2000
to status of condense sensor, In this case function of
setpoint selection with I2 is disabled
NOTE: If "Condense Sensor" selected (value set to "2000"),
parameter 101 (enable/disable endpoint) must be set to
non-zero value and module re-included!
Parameter no. 40 Power reporting in Watts on power
change
Set value means percentage, set value from 0 - 100=0% -
100%. Available configuration parameters (data type is 1
Byte DEC):
default value 0
- reporting disabled 0
1-100 = 1%-100% Reporting enabled. Power report is
send (push) only when actual power in Watts in real time
changes for more than set percentage comparing to
previous actual power in Watts, step is 1%.
NOTE If power changed is less than 1W, the report is not :
send (pushed), independent of percentage set.
Parameter no. 42 Power reporting in Watts by time
interval
Set value means time interval (0 ) in seconds, 32767
when power report is send. Available config. parameters
(data type is 2 Byte DEC):
default value 0 (power report is disabled)
- reporting disabled 0
- = 1 second - seconds. Reporting 1 32767 32767
enabled. Power report is send with time interval set by
entered value.
Parameter no. 43 Hysteresis Heating On
This parameter defines temperature difference between
measured temperature and set-point temperature to turn
heating on. Available configuration parameters (data type is
2 Byte DEC):
default value 1010 (-1.0 °C)
- 25,5 0 255 = 0,0°C to °C
- 1 = - - 25,5 1001 255 0,1°C to °C
Parameter no. 44 - Hysteresis Heating Off
This parameter defines temperature difference between
measured temperature and set-point temperature to turn
heating off. Available configuration parameters (data type is
2 Byte DEC):
default value 2 (+0.2 °C)
- 25,5 0 255 = 0,0°C to °C
- 1 = - - 25,5 1001 255 0,1°C to °C
Parameter no. 45 Hysteresis Cooling On
This parameter defines temperature difference between
measured temperature and set-point temperature to turn
cooling on. Available configuration parameters (data type is
2 Byte DEC):
default value 5 (+0.5 °C)
- 25,5 0 255 = 0,0°C to °C
- 1 = - - 25,5 1001 255 0,1°C to °C
Parameter no. 46 Hysteresis Cooling Off
This parameter defines temperature difference between
measured temperature and set-point temperature to turn
cooling off. Available configuration parameters (data type is
2 Byte DEC):
default value 1002 (- 0.2 °C)
- 25,5 0 255 = 0,0°C to °C
- 1 = - - 25,5 1001 255 0,1°C to °C
Parameter no. 47 Antifreeze
Set value means at which temperature the device will be
turned on even if the thermostat was manually set to off.
Available config. parameters (data type is 2 Byte DEC):
default value 50 (5,0 °C)
- 0 127 = 0,0°C to 12,7 °C
- 1127 = - - 1001 0,1°C to 12,7 °C
- Antifreeze functionality disabled 255
NOTE: Antifreeze is activated only in heating mode. It uses
a hysteresis determined parameters no. 43 and 44. in
Parameter no. 60 Too low temperature limit
Available config. parameters (data type is 2 Byte DEC):
default value (too low temperature limit is 5 50 .0°C)
- - 1 1000 = 0.1°C 100.0°C, step is 0.1°C.
1150 = - - 1001 0.1°C to 15.0°C
NOTE: Too l temperature limit is used with Association ow
Group 4.
Parameter no. 61 Too high temperature limit
Available config. parameters (data type is 2 Byte DEC):
d efault value 700 (too high temperature limit is 70.0°C)
- - 1 1000 = 0.1°C 100.0°C, step is 0.1°C. Too high
temperature limit is used with Association Group 4.
Parameter no. 64 Output Switch selection Q1
Set value means the type of the device that is connected to
the output. The device type can be normally open (NO) Q1
or normally close (NC).
Available config. parameters (data type is 1 Byte DEC):
default value 0
- When system is turned off the output is 0 V. 0
- When system is turned off the output is 230 V. 1
Parameter no. 65 Output Switch selection Q2
Set value means the type of the device that is connected to
the output. The device type can be normally open (NO) Q2
or normally close (NC).
Available config. parameters (data type is 1 Byte DEC):
default value 0
- When system is turned off the output is 0 V. 0
- When system is turned off the output is 230 V. 1
Parameter no. 70 Input 1 status on delay
Available config. parameters (data type is 2 Byte DEC):
default value 0
- 32000 seconds 1
If the value of parameter is different to 0, means that the
Influence of this input to heating or cooling will react after
inserted time. This parameter has influence only when the
S
Service button (used to add
or remove module from the
Z-Wave network in case of
24 V SELV power supply).
window sensor functionality is selected by the parameter no.
11.
NOTE: Device status on UI change immediately
Parameter no. 71 Input 1 status off delay
Available config. parameters (data type is 2 Byte DEC):
default value 0
- 32000 seconds 1
If the value of parameter is different to 0, means that the
Influence of this input to heating or cooling will react after
inserted time. This parameter has influence only when the
window sensor functionality is selected by the parameter no.
11.
NOTE: Device status on UI change immediately
Parameter no. 72 Input 2 status on delay
See parameter 70 (valid for I2 instead of I1)
This parameter has influence only when the condense
sensor functionality is selected by the parameter no. 12.
Parameter no. 73 Input 2 status off delay
See parameter 71 (valid for I2 instead of I1)
This parameter has influence only when the condense
sensor functionality is selected by the parameter no. 12.
Parameter no. 76 Association group 2, 10 - reporting
on time interval
Available config. parameters (data type is 1 Byte DEC):
Default value 30 = 30 minutes
0 = Reporting disabled
1-127 = 1 minute 127 minutes, reporting enabled
NOTE: If the Association groups 2 or 10 are set, the device
is reporting its state (Basic Set ON/ OFF) on change and on
time interval (if this parameter is set).
Parameter no. 77 Association group 10 - delay before
sending Basic Set ON
Available config. parameters (data type is 2 Byte DEC):
Default value 180 = 3 minutes
0 = Reports with no delay
1-32767 = 1 second 32767 seconds, reporting enabled
NOTE: If this parameter is set, Basic Set ON/OFF Report is
delayed for the time defined in this
parameter.
Parameter no. 78 Scale Selection
Available config. parameters (data type is 1 Byte DEC):
Default value 0 = degrees Celsius
0 = degrees Celsius
1 = degrees Fahrenheit
NOTE: This scale has influence on Temperature reporting
and scale reporting. The device is capable of receiving a
Setpoint in all supported scales
Parameter no. Enable / Disable Endpoint I1 or 100
select Notification Type and Event
Enabling I1 means that Endpoint (I1) will be present on UI.
Disabling it will result in hiding the endpoint according to the
parameter set value. Additionally, a Notification Type and
Event can be selected for the endpoint. Available
configuration parameters (data type is 1 Byte DEC):
Endpoint device type selection:
- notification sensor (1 - 6):
GENERIC_TYPE_SENSOR_NOTIFICATION,
SPECIFIC_TYPE_NOTIFICATION_SENSOR
default value 0
1 - Home Security; Motion Detection, unknown location.
2 - ; Carbon Monoxide detected, unknown location. CO
3 - CO2; Carbon Dioxide detected, unknown location.
4 - Water Alarm; Water Leak detected, unknown location.
5 - Heat Alarm; Overheat detected, unknown location.
6 - Smoke Alarm; Smoke detected, unknown location.
0 - Endpoint, I1 disabled
- sensor binary (9): GENERIC_TYPE_SENSOR_BINARY,
SPECIFIC_TYPE_NOT_USED
9 - Sensor binary
NOTE1: After parameter change, first exclude module
(without setting parameters to default value) and then re
include the module!
NOTE2: When the parameter is set to value 9 the
notifications are send for Home Security.
NOTE3: If "endpoint enabled" (value set to 1..9), parameter
11 must be set to "2" as "Window Sensor"!
Parameter no. - Enable / Disable Endpoint I2 or 101
select Notification Type and Event
See parameter 100 (valid for I2 instead I1) of
NOTE: If "endpoint enabled" (value set to 1..9), parameter
12 must be set to "2000" as "Condense Sensor"!
Parameter no.110- Temperature sensor offset settings
Set value result in adding or subtracting that value to actual
measured value by sensor.
Available config. parameters (data type is 2 Byte DEC):
default value 32536
fset is 0.0C 32536 of
From 1 to 100 – value from 0.1 °C to 10.0 °C is added to
actual measured temperature.
From 1001 to 1100 value from - - 0.1 °C to 10.0 °C is
subtracted to actual measured temperature.
Parameter no. 120 Digital temp. sensor reporting
If digital temperature sensor is connected, module reports
measured temperature on temperature change defined by
this parameter.
Available config. parameters (data type is 1 Byte DEC):
default value 5
- Reporting disabled 0
1- - 127 = 0,1°C 12,7°C, step is 0,1°C
Parameter no. 121 Digital temperature sensor /
setpoint selector
If digital temperature sensor is not connected, module can
grab measured temperature from external secondary
module. Available config. para. (data type is 1 Byte DEC):
default value 0
internal digital temperature sensor is mounted, 0
setpoint is set by controller
(bit 0) temperature is grabbed from external always 1
on sensor with sensor_multilevel_get sent by association
3
(bit 1) temperature is grabbed from external battery 2
powered room sensor declared in PAR.122
(bit 2) setpoint is gra ed from external always on 4 bb
module with thermostat_setpoint_get sent by association
5
- (bit 3) setpoint is grabbed from external battery 8
powered room sensor declared in parameter 122.
(bit 1 and bit 3) temperature AND setpoint are 10
grabbed from external battery powered room sensor
declared in parameter 122
Parameter no. 122 Node ID of external battery
powered room sensor
If digital temperature sensor is not connected, module can
grab measured temperature from external battery powered
room sensor defined by this parameter.
Available config. parameters (data type is 1 Byte DEC):
default value 0
external battery powered room sensor not in function 0
1- Node ID of external battery powered room 254 =
sensor
NOTE: Get sensor node_id from controller and set
parameter 122 immediately after sensor weak up (after
button press on it etc.)
Technical Specifications
Power supply
Rated load current of AC
output (resistive load)
Rated load current of DC
output (resistive load) 2 X 4A / 30VDC
Output circuit power of AC
output (resistive load)
2 X 920W (230VAC)
Output circuit power of DC
output (resistive load)
2 X 96W (24VDC)
Power monitoring accuracy
P=0-200W, +/-2W;
P˃200W, +/-3%
Operation temperature
- 10 ~ 40°C
Distance
up to 30 meters indoors
(depending on building
materials)
Dimensions (WxHxD)
(package)
41,8x36,8x16,9mm
(115x96x22)
Weight (Brutto with
package)
48g (64g)
Electricity
consumption
0,4W
For installation in boxes
Ø ≥ 60mm or 2M
Switching
Relay (2x)
Digital temperature sensor
range
-50.0 ~ 125.0°C, resolution
0.1°C
Digital temperature sensor
cable length
1000mm
* In case of load other than resistive, pay attention to the
value of cos φ and if necessary apply load lower than the
rated load. Max current for cos φ=0,4 is 2A at 250VAC, 3A
at 24VDC.Max Power Limit is automatically set by a
software. If max power is exceeded, the output is turned off
up to next restart of the module.
Functionality
Thermostat has 2 working mode, Off or Auto. Selection
between Off and Auto is possible to select with I1 push
button or from gateway. When the thermostat is turned On,
it automatically regulates temperature according to picture
below:
When the temperature is decreasing and reaches point
‘Heating On’ (defined by parameter 43), heating is turned
on and remains active until the temperature in the room is
not increased to reach ‘Heating Off’ (defined by parameter
44). At this point heating and cooling valve are turned off
deadband zone. If the temperature rises over ‘Cooling On’
(defined by parameter 45) point the cooling valve will switch
on. The consequence will be temperature dropping, and
when temperature drops below ‘Cooling Off’ (defined by
parameter 46) cooling valve will switch off.
When the thermostat is turned off, then it is working in
antifreeze regime. The antifreeze regime turns on heating
when the temperature is lower or equal to the temperature
set by parameter 47 (default 5.0C) .
Energy saving mode:
If parameter 11 is set to value 2 and if the state of the input
I1 is active (window opened active) both outputs (Q1 and
Q2) are turned off.
Condensation:
If parameter 12 is set to value 2000 and if the state of the
input I2 is active (condensation sensor active) Q2 output
(cooling) is turned off.
Z-Wave Device Class:
ZWAVEPLUS_INFO_REPORT_ROLE_TYPE_SLAVE_ALWAYS_ON
GENERIC_TYPE_THERMOSTAT
SPECIFIC_TYPE_THERMOSTAT_GENERAL_V2
Z-Wave supported Command Classes
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_MANUFACTURER_SPECIFIC_V2
COMMAND_CLASS_DEVICE_RESET_LOCALLY
COMMAND_CLASS_POWERLEVEL
COMMAND_CLASS_BASIC
COMMAND_CLASS_SWITCH_ALL
COMMAND_CLASS_SENSOR_BINARY
COMMAND_CLASS_THERMOSTAT_MODE_V2
COMMAND_CLASS_THERMOSTAT_SETPOINT_V2
COMMAND_CLASS_NOTIFICATION_V5
COMMAND_CLASS_METER_V4
COMMAND_CLASS_SENSOR_MULTILEVEL_V7
COMMAND_CLASS_MULTI_CHANNEL_V4
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2
COMMAND_CLASS_CONFIGURATION_V2
COMMAND_CLASS_MARK
COMMAND_CLASS_BASIC
Endpoint1
Device Class:
GENERIC_TYPE_THERMOSTAT
SPECIFIC_TYPE_THERMOSTAT_GENERAL_V2
Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_BASIC_V2
COMMAND_CLASS_SWITCH_ALL
COMMAND_CLASS_THERMOSTAT_MODE_V2
COMMAND_CLASS_THERMOSTAT_SETPOINT_V2
COMMAND_CLASS_METER_V4
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO
COMMAND_CLASS_MARK
COMMAND_CLASS_BASIC
Endpoint 2 (I1):
Device Class:
GENERIC_TYPE_SENSOR_BINARY
SPECIFIC_TYPE_NOT_USED
Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_BASIC_V2
COMMAND_CLASS_SENSOR_BINARY
COMMAND_CLASS_NOTIFICATION_V5
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO
COMMAND_CLASS_MARK
COMMAND_CLASS_BASIC_V2
Endpoint 3 (I2):
Device Class:
GENERIC_TYPE_SENSOR_BINARY
SPECIFIC_TYPE_NOT_USED
Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_BASIC_V2
COMMAND_CLASS_SENSOR_BINARY
COMMAND_CLASS_NOTIFICATION_V5
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO
COMMAND_CLASS_MARK
COMMAND_CLASS_BASIC_V2
Endpoint 4 (I3):
Device Class:
GENERIC_TYPE_SENSOR_BINARY
SPECIFIC_TYPE_NOT_USED
Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_BASIC_V2
COMMAND_CLASS_SENSOR_BINARY
COMMAND_CLASS_NOTIFICATION_V5
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO
COMMAND_CLASS_MARK
COMMAND_CLASS_BASIC_V2
Endpoint 5 (SENSOR MULTILEVEL):
Device Class:
GENERIC_TYPE_SENSOR_MULTILEVEL
SPECIFIC_TYPE_ROUTING_SENSOR_MULTILEVEL
Command Classes:
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
COMMAND_CLASS_VERSION_V2
COMMAND_CLASS_SENSOR_MULTILEVEL_V7
COMMAND_CLASS_ASSOCIATION_V2
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
COMMAND_CLASS_ASSOCIATION_GRP_INFO
COMMAND_CLASS_BASIC
The basic command class supports the functions BASIC
SET and BASIC GET. Through the function basic SET is
possible to set the mode of the module. Basic SET can
send the values 0xff which means Auto and 0x00 which
means Off. Through the function basic GET is possible to
read the mode of the module. The module returns 0xff
which means Auto or 0x00 which means Off.
COMMAND_CLASS_SENSOR_MULTILEVEL
Flush Heat & Cool thermostat supports reading of actual
temperature which is 2 bytes long, scale is °C and its
precision is 1 (it means 0,1°C).
COMMAND_CLASS_THERMOSTAT_MODE
Flush Heat & Cool thermostat supports the following
modes:
Mode Off
Mode Auto
COMMAND_CLASS_THERMOSTAT_SETPOINT
Flush thermostat supports temperature set Heat & Cool
point, which is 2 bytes long, scale is °C and its precision is
1 .(it means 0,1°C)
This product can be included and operated in any Z-Wave
network with other Z-Wave certified devices from any other
manufacturers. All constantly powered nodes in the same
network will act as repeaters regardless of the vendor in
order to increase reliability of the network.
Important disclaimer
Z-Wave wireless communication is inherently not always
100% reliable, and as such, this product should not be used
in situations in which life and/or valuables are solely
dependent on its function.
Warning!
Do not dispose of electrical appliances as unsorted
municipal waste, use separate collection facilities.
Contact your local government for information regarding the
collection systems available. If electrical appliances are
disposed of in landfills or dumps, hazardous substances
can leak into the groundwater and get into the food chain,
damaging your health and well-being. When replacing old
appliances with new once, the retailer is legally obligated to
take back your old appliance for disposal at least for free of
charge.This user manual is subject to change and
improvement without notice NOTE User manual is valid . :
for module with SW version S5 (SW version is part of P/N)!
Example: P/N: ZMNHKDx H1S5P1
Qubino
Goap d.o.o. Nova Gorica
Ulica Klementa Juga 007
5250 Solkan
Slovenia
E-mail: info@qubino.com
Tel: +386 5 335 95 00
Web: www.qubino.com
Date: .05.201715
Document: Qubino_Flush Heat & Cool
thermostat_PLUS user
manual_V1.5eng
Temperature control:
Heating
Hysteresis
Heating
On
Off
Hysteresis
Cooling
Cooling
T actualSP
On On
Off Off


Specyfikacje produktu

Marka: Qubino
Kategoria: termostat
Model: Flush Heat & Cool

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Siemens

Siemens RDG100T Instrukcja

15 Października 2024
Junkers

Junkers TA 21E Instrukcja

14 Października 2024
Oreg

Oreg AT90E Instrukcja

9 Października 2024
Oreg

Oreg AT60E Instrukcja

9 Października 2024
Heatit

Heatit PRO Instrukcja

9 Października 2024
Heatit

Heatit MULTIREG6 Instrukcja

9 Października 2024
Avidsen

Avidsen HomeFlow W Instrukcja

9 Października 2024
ORNO

ORNO OR-SH-17701 Instrukcja

8 Października 2024
ORNO

ORNO OR-SH-17702 Instrukcja

8 Października 2024
STI

STI -9102 Instrukcja

8 Października 2024