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no edit summary
<languages />
<nowiki><translate></nowiki>
{{Infobox module
{{Infobox module
| name = MFC-14
| name = MFC-14
| dim = 9U, 156x110x58 mm
| dim = 9U, 156x110x58 mm
}}
}}
==Introduction==
==Введение==
*10 universal outputs support:
*10 universal outputs support:
**Light
**Light
**NC/NO heating valves
** NC/NO heating valves
**Blinds
**Blinds
**1 or 2-pole gates
**1 or 2-pole gates
**1 or 2-pole valves
** 1 or 2-pole valves
**NC/NO locks
**NC/NO locks
**Fan coil units
**Fan coil units
*open modules and sensors.
*open modules and sensors.
==System configuration and purpose==
== System configuration and purpose==
===Purpose of the system===
===Purpose of the system===
{| class="wikitable"
{| class="wikitable"
|-
|-
! Universal outputs can be used to control: !! Universal inputs allow you to connect:
! Universal outputs can be used to control:!!Universal inputs allow you to connect:
|-
|-
| Lighting || Buttons/switching units
|Lighting||Buttons/switching units
|-
|-
| Socket connectors || Magnetic reed switches
| Socket connectors||Magnetic reed switches
|-
|-
| Underfloor heating || Magnetic reed switches
|Underfloor heating|| Magnetic reed switches
|-
|-
| Curtain/gate actuators || Leakage sensors
| Curtain/gate actuators ||Leakage sensors
|-
|-
| Water supply/heating valves ||
|Water supply/heating valves||
|}
|}
The package, which is completely ready-to-install, includes the basic hardware and software.
The package, which is completely ready-to-install, includes the basic hardware and software.
===Package contents===
=== Package contents===
{| class="wikitable"
{| class="wikitable"
|-
|-
| Mainframe METAFORSA MFC-14.А || 1 pc
| Mainframe METAFORSA MFC-14.А||1 pc
|-
|-
| Power supply unit MEANWELL DR-15-12 || 1 pc
|Power supply unit MEANWELL DR-15-12||1 pc
|-
|-
| Motion sensor CW-MSD || 3 pcs
| Motion sensor CW-MSD||3 pcs
|-
|-
| Leakage sensor FW-WL.A || 2 pcs
|Leakage sensor FW-WL.A||2 pcs
|-
|-
| Temperature-sensitive element FW-TS.A || 4 pcs
|Temperature-sensitive element FW-TS.A||4 pcs
|-
|-
| Magnetic reed switch (window/door position sensor) || 4 pcs
|Magnetic reed switch (window/door position sensor)||4 pcs
|-
|-
| Ethernet-cable noise filter || 1 pc
|Ethernet-cable noise filter||1 pc
|-
|-
| Power supply cord || 1 pc
| Power supply cord||1 pc
|-
|-
| Manual || 1 pc
|Manual||1 pc
|}
|}
===Basic technical specifications of the System===
===Basic technical specifications of the System===
{| class="wikitable"
{| class="wikitable"
|+ style="text-align:left;" | Table1
|+ style="text-align:left;" |Table1
|-
|-
!Specification !! Meaning
!Specification!!Meaning
|-
|-
|colspan="2"|'''Output ports'''
| colspan="2" |'''Output ports'''
|-
|-
| Number of switched channels || 10
|Number of switched channels||10
|-
|-
| Number of dimming channels || 4
|Number of dimming channels|| 4
|-
|-
| Commutation voltage || 0-250 V AC/DC
|Commutation voltage||0-250 V AC/DC
|-
|-
| Peak load (one channel) || 16A
|Peak load (one channel) ||16A
|-
|-
| Peak load (device) || 160A
|Peak load (device)||160A
|-
|-
| Max load per dimming channel || 0.5A (110W at 220V)
|Max load per dimming channel||0.5A (110W at 220V)
|-
|-
| Max load per PWM outputs || 50mA
| Max load per PWM outputs||50mA
|-
|-
| Dimmer type || MOSFET
|Dimmer type ||MOSFET
|-
|-
| Dimming type || trailing edge
|Dimming type|| trailing edge
|-
|-
| Power supply cable connection type || connector
|Power supply cable connection type ||connector
|-
|-
|Permissible section of power supply cable to connect in socket:<br>single-conductor cable<br>multiple-conductor cable<br>tipped multiple-conductor cable||<br>0.5 … 4mm2<br>0.5 … 4mm2<br>0.5 … 2.5mm2
|Permissible section of power supply cable to connect in socket:<br>single-conductor cable<br>multiple-conductor cable<br>tipped multiple-conductor cable||<br>0.5 … 4mm2<br>0.5 … 4mm2<br>0.5 … 2.5mm2
|-
|-
|colspan="2"|'''Input ports'''
| colspan="2" |'''Input ports'''
|-
|-
|Number of discrete inputs || 24
|Number of discrete inputs||24
|-
|-
|Number of digital inputs || 4
|Number of digital inputs ||4
|-
|-
|Current maximum rating on the direct-current voltage connectors || 50mA
|Current maximum rating on the direct-current voltage connectors||50mA
|-
|-
|colspan="2"|'''Other'''
| colspan="2" |'''Other'''
|-
|-
|Operating ambient temperature || 0 … +45°С
|Operating ambient temperature||0 … +45°С
|-
|-
|Storage/transportation temperature || -20 … +60°С
|Storage/transportation temperature||-20 … +60°С
|-
|-
|Permissible humidity || 0 … 95% (non-condensing)
|Permissible humidity||0 … 95% (non-condensing)
|-
|-
|Supply voltage || 11.5 … 27.5 V DC
|Supply voltage||11.5 … 27.5 V DC
|-
|-
|Maximum demand || 1А
|Maximum demand||1А
|-
|-
|Available interfaces || Ethernet, CAN, OneWire
|Available interfaces||Ethernet, CAN, OneWire
|-
|-
|Bus type || CAN (4-wire)
| Bus type||CAN (4-wire)
|-
|-
|CAN (4-wire) || 800 m* (twisted pair 5 cat)
|CAN (4-wire)||800 m* (twisted pair 5 cat)
|-
|-
|CAN wire type || FTP Cat 5E
| CAN wire type||FTP Cat 5E
|-
|-
|CAN connection type || connector
| CAN connection type||connector
|-
|-
|Digital line maximum length || 30 m
|Digital line maximum length || 30 m
|-
|-
|Digital line wirde type || UTP/FTP Cat 5E
| Digital line wirde type||UTP/FTP Cat 5E
|-
|-
|Digital line connection type || Connector RJ-12
|Digital line connection type||Connector RJ-12
|-
|-
|LAN maximum length || 100 m
|LAN maximum length||100 m
|-
|-
|LAN wire type || UTP/FTP Cat 5E
|LAN wire type||UTP/FTP Cat 5E
|-
|-
|LAN connection type || Connector RJ-45
|LAN connection type ||Connector RJ-45
|-
|-
|Dimensional specifications || 9U, 156x110x58 mm
|Dimensional specifications||9U, 156x110x58 mm
|-
|-
|Shell material || ABS plastic
|Shell material||ABS plastic
|-
|-
|Casing || IP40
|Casing||IP40
|-
|-
|Equipment installation type || DIN-rail (EN 60715)
|Equipment installation type||DIN-rail (EN 60715)
|-
|-
|Weight || 300 g
|Weight ||300 g
|}
|}
<nowiki>*</nowiki> – installing additional power supply units is required for long lines; the maximum length of the line may be reduced by various interference factors
<nowiki>*</nowiki> – installing additional power supply units is required for long lines; the maximum length of the line may be reduced by various interference factors
===General structure of the System===
===General structure of the System ===
{| class="wikitable" style="clear:left;"
{| class="wikitable" style="clear:left;"
|-
|-
|1 || — connector for load application and power supply
|1||— connector for load application and power supply
|-
|-
|2 || — connector for dimming-lamps application
|2||— connector for dimming-lamps application
|-
|-
|3 || — power connector
|3||— power connector
|-
|-
|4 || — Ethernet network connector
|4||— Ethernet network connector
|-
|-
|5-6 || — connectors for digital sensors and buttons/switching units
|5-6||— connectors for digital sensors and buttons/switching units
|-
|-
|7 || — OneWire interface connector (for digital sensors)
|7||— OneWire interface connector (for digital sensors)
|-
|-
|8 || — connector for expansion module.
|8||— connector for expansion module.
|}
|}
{| class="wikitable"
{| class="wikitable"
|+ text-align="left"|'''Table2'''
|+ text-align="left" |'''Table2'''
|-
|-
!Connector!!Contact!!Assignment
!Connector!!Contact !!Assignment
|-
|-
|[[File:Out.png|80px|frameless]] ||1-10|| Load application (light lamps, thermal actuators, etc.)
|[[File:Out.png|80px|frameless]]||1-10 ||Load application (light lamps, thermal actuators, etc.)
|-
|-
|[[File:Dimm.png|80px|frameless]] ||D1-4, L, N|| Load application (dimming lamps)
|[[File:Dimm.png|80px|frameless]]||D1-4, L, N||Load application (dimming lamps)
|-
|-
| colspan="2"| Device status indicators || The module status indicators are described in '''table 3'''
| colspan="2" |Device status indicators||The module status indicators are described in '''table 3'''
|-
|-
|[[File:24vconn.png|80px|frameless]] ||+24V<br>GND|| +24V — module power supply by an external 24 V power supply GND — common
|[[File:24vconn.png|80px|frameless]]||+24V<br>GND|| +24V — module power supply by an external 24 V power supply GND — common
|-
|-
|[[File:Rj45.jpg|80px|frameless]] ||RJ45|| Connector for LAN connectivity
|[[File:Rj45.jpg|80px|frameless]]||RJ45|| Connector for LAN connectivity
|-
|-
|[[File:Inputs.png|80px|frameless]] ||In1-12, In13-24 GND|| Controlling devices connection (buttons, magnetic reed switches, motion or leakage sensors): +12V — sensor power output +12 V<br>In1 … In24 — logic inputs (0-12 V)<br>GND — common
|[[File:Inputs.png|80px|frameless]]||In1-12, In13-24 GND||Controlling devices connection (buttons, magnetic reed switches, motion or leakage sensors): +12V — sensor power output +12 V<br>In1 … In24 — logic inputs (0-12 V)<br>GND — common
|-
|-
|[[File:OW.png|80px|frameless]] ||OneWire|| Digital sensors connection (temperature)<br>VCC — sensors power supply output +5V<br>OW1-OW4 — OneWire data buses<br>GND — common
|[[File:OW.png|80px|frameless]]||OneWire ||Digital sensors connection (temperature)<br>VCC — sensors power supply output +5V<br>OW1-OW4 — OneWire data buses<br>GND — common
|-
|-
|[[File:Can.jpg|80px|frameless]] ||VCC<br>GND<br>L<br>H|| External modules connection for CAN-bus<br>VСС — 12V output for external devices power supply<br>GND — common<br>L — CAN-L data bus<br>H — CAN-H data bus
|[[File:Can.jpg|80px|frameless]]||VCC<br>GND<br>L<br>H||External modules connection for CAN-bus<br>VСС — 12V output for external devices power supply<br>GND — common<br>L — CAN-L data bus<br>H — CAN-H data bus
|}
|}
Typical diagram of METAFORSA MFC-14.A module connection is shown in '''fig. 3.'''
Typical diagram of METAFORSA MFC-14.A module connection is shown in '''fig. 3.'''
<div style="clear: both">[[File:Mfc14chcon.png|700px|Fig. 3]]</div>
<div style="clear: both">[[File:Mfc14chcon.png|700px|Fig. 3]]</div>
===Connection of the actuators===
===Connection of the actuators===
====Connection of the lights/electric contactor/heating thermal actuator====
====Connection of the lights/electric contactor/heating thermal actuator====
{| class="wikitable" style="width:800px";
{| class="wikitable" style="width:800px" ;
|-
|-
|[[File:lamps.png|350px|lamp]]<br>'''Fig. 4'''|| style="margin:20px"|Such actuators as light, electric contactor, heating thermal actuator should be switched on any of the outputs 1 – 10, the neutral wire and the ground wire should be connected directly to the switchboard. The example of connection is shown in '''Fig.4'''.
|[[File:lamps.png|350px|lamp]]<br>'''Fig. 4'''|| style="margin:20px" |Such actuators as light, electric contactor, heating thermal actuator should be switched on any of the outputs 1 – 10, the neutral wire and the ground wire should be connected directly to the switchboard. The example of connection is shown in '''Fig.4'''.
|}
|}
====Connection of high load device====
====Connection of high load device====
{| class="wikitable" style="width:800px";
{| class="wikitable" style="width:800px" ;
|-
|-
|[[File:Contactor.png|350px|Contactor]]|| style="margin:20px"|Recomended contactors:
|[[File:Contactor.png|350px|Contactor]]|| style="margin:20px" |Recomended contactors:
*ABB ESB series
*ABB ESB series
*Schneider Acti 9 iCT series
*Schneider Acti 9 iCT series
*Hager ESC series.
*Hager ESC series.
|}
|}
====Connection of single-pole water/gas supply valve====
====Connection of single-pole water/gas supply valve====
{| class="wikitable" style="width:800px";
{| class="wikitable" style="width:800px" ;
|-
|-
|colspan="2" style="background-color:#dededf" |'''Caution: Before applying power to the load, make sure that the output configuration of METAFORSA module is correct. The incorrect configuration or incorrect connection can cause the module failure and/or failure of the equipment connected to it, and even a fire.'''
| colspan="2" style="background-color:#dededf" |'''Caution: Before applying power to the load, make sure that the output configuration of METAFORSA module is correct. The incorrect configuration or incorrect connection can cause the module failure and/or failure of the equipment connected to it, and even a fire.'''
|-
|-
|[[File:1pvalve.png|350px|valve]]<br>'''Fig. 5'''|| style="margin:20px"|The single pole water/gas supply valve is connected to any of the outputs of 1 – 10, the (neutral wire and the ground wire are connected directly to the switchboard. The example of connection is shown in '''Fig.5'''.
|[[File:1pvalve.png|350px|valve]]<br>'''Fig. 5'''|| style="margin:20px" | The single pole water/gas supply valve is connected to any of the outputs of 1 – 10, the (neutral wire and the ground wire are connected directly to the switchboard. The example of connection is shown in '''Fig.5'''.
|}
|}
====Connection of double-pole water/gas supply valve====
====Connection of double-pole water/gas supply valve====
{| class="wikitable" style="width:800px";
{| class="wikitable" style="width:800px" ;
|-
|-
|colspan="2" style="background-color:#dededf" |'''Caution: Before applying power to the valve, it is necessary to ensure the output configuration of METAFORSA module is correct. The incorrect configuration can cause the voltage application simultaneously to both channels of the valve, which may result in the module failure and/or failure of the equipment connected to it, and even a fire.'''
| colspan="2" style="background-color:#dededf" |'''Caution: Before applying power to the valve, it is necessary to ensure the output configuration of METAFORSA module is correct. The incorrect configuration can cause the voltage application simultaneously to both channels of the valve, which may result in the module failure and/or failure of the equipment connected to it, and even a fire.'''
|-
|-
|[[File:2pvalve.png|350px|valve]]<br>'''Fig. 6'''|| style="margin:20px"|Two adjacent contact points (for example, 3, 4) are used to connect the double-pole water/gas supply valve; in these conditions the neutral wire and the ground wire are connected directly to the switchboard. The example of connection is shown in '''Fig.6'''.
|[[File:2pvalve.png|350px|valve]]<br>'''Fig. 6'''|| style="margin:20px" |Two adjacent contact points (for example, 3, 4) are used to connect the double-pole water/gas supply valve; in these conditions the neutral wire and the ground wire are connected directly to the switchboard. The example of connection is shown in '''Fig.6'''.
|}
|}
==== Connection of single-pole gate actuator====
====Connection of single-pole gate actuator====
{{ConExC
{{ConExC
|1pgate|Fig. 7|Any contact point (for example, 3) is used to connect the single-pole gate drive controllers. The example of connection is shown in '''Fig.7'''.
|1pgate|Fig. 7|Any contact point (for example, 3) is used to connect the single-pole gate drive controllers. The example of connection is shown in '''Fig.7'''.
}}
}}
|2pgate|Fig. 8|Two adjacent contact points (for example, 3, 4) should be used to connect the double-pole gate drive controller. The example of connection is shown in '''Fig.8'''.
|2pgate|Fig. 8|Two adjacent contact points (for example, 3, 4) should be used to connect the double-pole gate drive controller. The example of connection is shown in '''Fig.8'''.
}}
}}
====Connection of curtain/jalousie/shutter actuator with low-voltage control ====
====Connection of curtain/jalousie/shutter actuator with low-voltage control====
{{ConExC
{{ConExC
====Connection of FW-WL.A leakage sensors====
====Connection of FW-WL.A leakage sensors ====
FW-WL.A leakage sensors are connected to any free input in1 – in24, in these conditions the power should be connected to +12V and GND points of the relevant group. The example of connection is shown in '''fig. 12'''.
FW-WL.A leakage sensors are connected to any free input in1 – in24, in these conditions the power should be connected to +12V and GND points of the relevant group. The example of connection is shown in '''fig. 12'''.
{| style="width"700px"
{| style="width" 700px"
|- style="tezt-align:center;"
|- style="tezt-align:center;"
|[[File:Leak1.png|300px|center]]<br>'''Fig12'''||[[File:Leak2.png|300px|center]]<br>'''Fig13'''
|[[File:Leak1.png|300px|center]]<br>'''Fig12'''||[[File:Leak2.png|300px|center]]<br>'''Fig13'''
2. Sensor preset switch (optionally):
2. Sensor preset switch (optionally):
:1 — sensor sensitivity (ON – high, OFF – low);
:1 — sensor sensitivity (ON – high, OFF – low);
:2 — indicator colour setting (ON – blue, OFF – green).
: 2 — indicator colour setting (ON – blue, OFF – green).
3. LED status indicator.
3. LED status indicator.
====Connection of buttons/switches/magnetic reed switches====
====Connection of buttons/switches/magnetic reed switches ====
Buttons and reed switches are connected to any free input in1-in16, while their second contact point is connected to GND point of the relevant METAFORSA module group, + 12V power outputs – not in use. The example of connection is shown in '''Fig. 14-16'''.
Buttons and reed switches are connected to any free input in1-in16, while their second contact point is connected to GND point of the relevant METAFORSA module group, + 12V power outputs – not in use. The example of connection is shown in '''Fig. 14-16'''.
{| style="width"700px"
{| style="width" 700px"
|- style="tezt-align:center;"
|- style="tezt-align:center;"
|[[File:Buttons.png|300px|center]]<br>'''Fig14''' connection of buttons/switching units || [[File:Reed-sv.png|300px|center]]<br>'''Fig15''' connection of the magnetic reed switches (window/door position sensors)
|[[File:Buttons.png|300px|center]]<br>'''Fig14''' connection of buttons/switching units||[[File:Reed-sv.png|300px|center]]<br>'''Fig15''' connection of the magnetic reed switches (window/door position sensors)
|}
|}
The OW adapter ('''Fig. 16a''') is supplied along with METAFORSA module with the possibility to connect up to 8 digital sensors to it. In these conditions, several devices can be connected to one channel ('''Fig. 16b'''). The connected sensors are detected automatically and do not require any original setting.
The OW adapter ('''Fig. 16a''') is supplied along with METAFORSA module with the possibility to connect up to 8 digital sensors to it. In these conditions, several devices can be connected to one channel ('''Fig. 16b'''). The connected sensors are detected automatically and do not require any original setting.
{| style="width"700px"
{| style="width" 700px"
|- style="tezt-align:center;"
|- style="tezt-align:center;"
|[[File:Ow1Conn.png|300px|center]]<br>'''Fig16 a'''||[[File:Ow2Conn.png|300px|center]]<br>'''Fig16 b'''
|[[File:Ow1Conn.png|300px|center]]<br>'''Fig16 a'''||[[File:Ow2Conn.png|300px|center]]<br>'''Fig16 b'''
<div style="width:700px; background-rgb:#dededf">'''Caution: Ensure the connection is correct. The incorrect connection may cause sensor and/or module malfunction. '''</div>
<div style="width:700px; background-rgb:#dededf">'''Caution: Ensure the connection is correct. The incorrect connection may cause sensor and/or module malfunction. '''</div>
===Connection of RGB and LED.===
===Connection of RGB and LED. ===
MFC has new function – switching inputs to LED outputs (in15-in18; in21-in24).
MFC has new function – switching inputs to LED outputs (in15-in18; in21-in24).
HW example for this configuration:<br>
HW example for this configuration:<br>
<syntaxhighlight lang="xml" line>hw="in='--------------RRRR--RRRR' rgb='RGBLLLLL'"</syntaxhighlight>
<syntaxhighlight lang="xml" line="">hw="in='--------------RRRR--RRRR' rgb='RGBLLLLL'"</syntaxhighlight>
|[[File:Canex.png|700px]]
|[[File:Canex.png|700px]]
|-
|-
|style="background-color:#dededf"|'''Caution! The 120 ohm terminating resistors should be installed at the end connectors between L and H contact points of CAN-bus. Ensure the connection is correct. The incorrect connection may cause sensor and/or module malfunction.'''
| style="background-color:#dededf" |'''Caution! The 120 ohm terminating resistors should be installed at the end connectors between L and H contact points of CAN-bus. Ensure the connection is correct. The incorrect connection may cause sensor and/or module malfunction.'''
|}
|}
===Module installation and connection procedure===
===Module installation and connection procedure===
<div style="width:700px; background-color:#dededf">'''
<div style="width:700px; background-color:#dededf">
ATTENTION! You must precisely follow the recommendations listed in the Security Requirements section hereof.'''</div>
ATTENTION! You must precisely follow the recommendations listed in the Security Requirements section hereof.</div>
#Install the module in the switchboard on the DIN-rail and fix it with the special latch on the module base.
# Install the module in the switchboard on the DIN-rail and fix it with the special latch on the module base.
#Fasten the supply unit on the left side of the module.
#Fasten the supply unit on the left side of the module.
#Connect the connector (4) having the noise filter pre-installed which is supplied complete with the module.
# Connect the connector (4) having the noise filter pre-installed which is supplied complete with the module.
#Connect the connectors (5), (6).
#Connect the connectors (5), (6).
#Connect the connectors (1), (2).
#Connect the connectors (1), (2).
#Wait until the module is loaded, then configure it in accordance with the '''System Setup Instructions.'''
#Wait until the module is loaded, then configure it in accordance with the '''System Setup Instructions.'''
#Apply power to the connectors (1), (2).
#Apply power to the connectors (1), (2).
#Check all equipment for proper operation.
# Check all equipment for proper operation.
===METAFORSA module shut-off and deinstallation procedure===
===METAFORSA module shut-off and deinstallation procedure===
#De-energize the module by disconnecting the circuit breaker assembly of the load power supply and METAFORSA module supply unit. Verify the voltage is absent on the terminals (1), (2) of the connector wires and on the input terminals of the supply unit.
# De-energize the module by disconnecting the circuit breaker assembly of the load power supply and METAFORSA module supply unit. Verify the voltage is absent on the terminals (1), (2) of the connector wires and on the input terminals of the supply unit.
#Disconnect the load power supply connectors (1), (2).
#Disconnect the load power supply connectors (1), (2).
#Disconnect the connector (3).
#Disconnect the connector (3).
There are also some tips in the FAQ section at our website [http://www.larnitech.com/faq/].
There are also some tips in the FAQ section at our website [http://www.larnitech.com/faq/].
===The actuators do not operate:===
===The actuators do not operate: ===
*ensure the outputs are properly configured in the application (see '''System Setup Instructions''');
*ensure the outputs are properly configured in the application (see '''System Setup Instructions''');
===The sensors do not operate:===
===The sensors do not operate:===
*ensure the inputs are properly configured in the application ('''System Setup Instructions''');
* ensure the inputs are properly configured in the application ('''System Setup Instructions''');
*check the connection is correct in accordance with '''table 2''' and paragraph 3.7;
*check the connection is correct in accordance with '''table 2''' and paragraph 3.7;
*ensure the METAFORSA module is ON: circuit breaker assembly is closed, indication on the supply unit is ON, the module indication corresponds to the operating status – '''table 3''';
*ensure the METAFORSA module is ON: circuit breaker assembly is closed, indication on the supply unit is ON, the module indication corresponds to the operating status – '''table 3''';
*check the power supply availability on the sensors;
*check the power supply availability on the sensors;
*check the integrity of lines laid to the sensors.
* check the integrity of lines laid to the sensors.
===The auxiliary equipment does not operate:===
===The auxiliary equipment does not operate:===
*check the connection is correct in accordance with table 2 and paragraph 3.8-9;
* check the connection is correct in accordance with table 2 and paragraph 3.8-9;
*ensure the METAFORSA module is ON: circuit breaker assembly is closed, indication on the supply unit is ON, the module indication corresponds to the operating status – table 3;
* ensure the METAFORSA module is ON: circuit breaker assembly is closed, indication on the supply unit is ON, the module indication corresponds to the operating status – table 3;
*check the integrity of the CAN lines, voltage supply on the modules.
*check the integrity of the CAN lines, voltage supply on the modules.
==HW Settings==
== HW Settings==
{| class="wikitable"
{| class="wikitable"
|-
|-
!Name!!Type, range!!SUBID!!Default!!Description
!Name!!Type, range!!SUBID!!Default!! Description
|-
|-
|runtime||integer 0-100 || 1-10 || 15 ||runtime is the open/close time in seconds, is used for jalousie, gate, valve(2 pole);
|runtime ||integer 0-100||1-10||15||runtime is the open/close time in seconds, is used for jalousie, gate, valve(2 pole);
<br>Example: runtime=15
<br>Example: runtime=15
|-
|-
|runtimeopen||integer 0-60000||Blinds subId || ||Runtimeopen is the open time in milliseconds, is used for blinds; Example: runtimeopen=15000
|runtimeopen|| integer 0-60000||Blinds subId|| || Runtimeopen is the open time in milliseconds, is used for blinds; Example: runtimeopen=15000
|-
|-
|runtimeclose||integer 0-60000||Blinds subId|| ||Runtimeclose is the close time in milliseconds, is used for blinds; Example: runtimeclose=15000
|runtimeclose||integer 0-60000||Blinds subId|| ||Runtimeclose is the close time in milliseconds, is used for blinds; Example: runtimeclose=15000
|-
|-
|hold||integer 0-10000||1-10||500||hold is the bridging time in milliseconds, is used for gate and jalousie (by default hold is the same as runtime for jalousie and gate), lock; Example: hold=3500
|hold||integer 0-10000||1-10 || 500||hold is the bridging time in milliseconds, is used for gate and jalousie (by default hold is the same as runtime for jalousie and gate), lock; Example: hold=3500
|-
|-
|def||string 'ON'||1-10||'OFF'||def is the element status is set after restart, is used for lamp, heating, valve(1 pole); Example: def='ON'
| def||string 'ON'||1-10|| 'OFF' || def is the element status is set after restart, is used for lamp, heating, valve(1 pole); Example: def='ON'
|-
|-
|stop||Char ‘R’||1-7||–||(for 2-pole gate and blinds) If it is declared then by Stop command during the motion, the same impulse appears as it was at the beginning of the motion. Pole, an which the stop-impules is formed, is defined by the parameter Stop value. If it is ‘r’ or ‘R’ then stop-impulse is produced on the opposite to the start-impulse pole. If any other value is delcared (e.g., ‘d’ ) then the stop-impulse is on the same pole. If a Runtime passed after the beginning of the motion then the stop-impulse is not formed. Example: stop=’r’
|stop||Char ‘R’||1-7||–||(for 2-pole gate and blinds) If it is declared then by Stop command during the motion, the same impulse appears as it was at the beginning of the motion. Pole, an which the stop-impules is formed, is defined by the parameter Stop value. If it is ‘r’ or ‘R’ then stop-impulse is produced on the opposite to the start-impulse pole. If any other value is delcared (e.g., ‘d’ ) then the stop-impulse is on the same pole. If a Runtime passed after the beginning of the motion then the stop-impulse is not formed. Example: stop=’r’
|-
|-
|out||char[10]||98||'LLLLHHHHP-'||Each char is responsible for the type of a particular channel
|out||char[10] || 98|| 'LLLLHHHHP-'||Each char is responsible for the type of a particular channel
*'L'-Lamp;
*'L'-Lamp;
*'M'-Lamp Inverse;
*'M'-Lamp Inverse;
*'D'-Gate (2 pole) Inverse, 2 pole gate, invert open-close;
*'D'-Gate (2 pole) Inverse, 2 pole gate, invert open-close;
*'X'-Gate (1 pole /short press), 1 pole gate;
*'X'-Gate (1 pole /short press), 1 pole gate;
*'Z'-Gate (1 pole) Inverse, 1 pole gate, invert open-close;
* 'Z'-Gate (1 pole) Inverse, 1 pole gate, invert open-close;
*'V'-Valve (2 pole), 2 pole valve;
*'V'-Valve (2 pole), 2 pole valve;
*'W'-Valve (2 pole) Inverse, 2 pole valve, invert open-close;
*'W'-Valve (2 pole) Inverse, 2 pole valve, invert open-close;
*'R'-Valve (1 pole), 1 pole valve,;
*'R'-Valve (1 pole), 1 pole valve,;
*'S'-Valve (1 pole) Inverse, 1 pole valve, invert open-close;
* 'S'-Valve (1 pole) Inverse, 1 pole valve, invert open-close;
*'K'-Lock (short press);
* 'K'-Lock (short press);
*'N'-Lock (short press) Inverse;
*'N'-Lock (short press) Inverse;
*'P'-Blinds (2 pole);
*'P'-Blinds (2 pole);
*'O'-Blinds Inverse (2 pole), invert open-close;
*'O'-Blinds Inverse (2 pole), invert open-close;
*'F'-FanCoil. Group1 (Lamp Toggle). For fancoil speed control;
* 'F'-FanCoil. Group1 (Lamp Toggle). For fancoil speed control;
*'E'-FanCoil. Group2 (Lamp Toggle). For fancoil speed control;
*'E'-FanCoil. Group2 (Lamp Toggle). For fancoil speed control;
*'Q'-FanCoil. Group3 (Lamp Toggle). For fancoil speed control;
*'Q'-FanCoil. Group3 (Lamp Toggle). For fancoil speed control;
*‘k’ – Switch, lamp, when on/off power is supplied/deenergised immediately
*‘k’ – Switch, lamp, when on/off power is supplied/deenergised immediately
*‘l’ – LED Function, dimmable LED lamps
*‘l’ – LED Function, dimmable LED lamps
*‘v’ – linear Function of dimming
* ‘v’ – linear Function of dimming
*‘-‘ – Channel disabled
*‘-‘ – Channel disabled
*‘+’ – Regular channel
*‘+’ – Regular channel
Example: dm=’skl-‘
Example: dm=’skl-‘
|-
|-
|def||integer 0-250||11-14||100||The default brightness level in case of a power reset (1..250). Example: def=250
|def||integer 0-250||11-14||100|| The default brightness level in case of a power reset (1..250). Example: def=250
|-
|-
|min||integer 0-100||11-14||0||Minimum dimming level, example: min=10
|min||integer 0-100 ||11-14||0||Minimum dimming level, example: min=10
|-
|-
|max||integer 0-100||11-14||100||Maximum dimming level, example max=95
|max||integer 0-100 ||11-14||100||Maximum dimming level, example max=95
|-
|-
|start||integer 0-100||11-14||0||The Start function is used for lamps that lack the minimal voltage to get turned on. If the set value is lower than the start value, the lamp is turned on at the start value and them the light is dimmed down to the set level. Example: start=60
|start||integer 0-100||11-14||0||The Start function is used for lamps that lack the minimal voltage to get turned on. If the set value is lower than the start value, the lamp is turned on at the start value and them the light is dimmed down to the set level. Example: start=60
|force||integer 0-100||11-14||10||Time duration of the starting value (measured in milliseconds). Example: force=20
|force||integer 0-100||11-14||10||Time duration of the starting value (measured in milliseconds). Example: force=20
|-
|-
|runtime||integer 0-60000||11-14||1000||Runtime is the speed of changing the brightness from ‘min’ to ‘max’ (measured in milliseconds). Example: runtime=1000
|runtime||integer 0-60000|| 11-14||1000 || Runtime is the speed of changing the brightness from ‘min’ to ‘max’ (measured in milliseconds). Example: runtime=1000
|-
|-
|offset||integer (+/- 0…39)||39-46||'0'||sensor values offset; For example, offset is -3.8 :
|offset||integer (+/- 0…39)||39-46 ||'0'||sensor values offset; For example, offset is -3.8 :
Example: hw="offset='-3.8'"
Example: hw="offset='-3.8'"
|-
|-
|in||char[24]||98||'BBBBBBBBBBBBMMMLLLKKKKKK'||Each char is responsible for the type of a particular channel
|in|| char[24]||98||'BBBBBBBBBBBBMMMLLLKKKKKK'||Each char is responsible for the type of a particular channel
*'B'-Button;
*'B'-Button;
*'C'-nButton;
*'C'-nButton;
*'S'-Switch;
*'S'-Switch;
*'K'-Contact;
* 'K'-Contact;
*'H'-nContact;
* 'H'-nContact;
*‘L’-Leak, Built-in floor (EW-WL) or on-the-floor (FW-WL) leakage sensor
*‘L’-Leak, Built-in floor (EW-WL) or on-the-floor (FW-WL) leakage sensor
*‘N’-Third party leakage sensor;
*‘N’-Third party leakage sensor;
*'M'-Motion, motion sensor;
* 'M'-Motion, motion sensor;
*'V'-nMotion, motion sensor;
*'V'-nMotion, motion sensor;
*'R' (avaliable on in15-in18; in21-in24) LED outputs
*'R' (avaliable on in15-in18; in21-in24) LED outputs
|}
|}
<syntaxhighlight lang="xml" line>
<syntaxhighlight lang="xml" line="">
<item addr="339:1" auto-period="600" cfgid="40" hw="def='ON'" name="Lamp" type="lamp" uniq_id="3779">
<item addr="339:1" auto-period="600" cfgid="40" hw="def='ON'" name="Lamp" type="lamp" uniq_id="3779">
<item addr="339:2" cfgid="40" hw="def='ON'" name="Radiator" type="valve-heating" uniq_id="3780">
<item addr="339:2" cfgid="40" hw="def='ON'" name="Radiator" type="valve-heating" uniq_id="3780">
<item addr="339:98" cfgid="40" hw="out='LHB-G-XV--' in='MMM--LL-BBBBKKKK'" name="Temperature" system="yes" type="temperature-sensor" uniq_id="30"/>
<item addr="339:98" cfgid="40" hw="out='LHB-G-XV--' in='MMM--LL-BBBBKKKK'" name="Temperature" system="yes" type="temperature-sensor" uniq_id="30"/>
</syntaxhighlight>
</syntaxhighlight>
<nowiki><translate></nowiki>