Advanced User`s Guide
Contents
1. 0 2 0008 32 Bypass module FGB 001 nn 33 Wiring diagram Bypass 2 20 0 0 e 34 Universal Binary Sensor Icons Views 02 000 4 36 Universal Binary Sensor connections description Al Universal Binary Sensor standard alarm line 41 Universal Binary Sensor parametric alarm line 42 93 94 4 5 4 6 4 7 4 8 4 9 4 10 4 11 4 12 4 13 4 14 4 15 4 16 4 17 4 18 4 19 4 20 4 21 5 1 5 2 5 3 5 4 9 9 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 5 14 5 15 5 16 5 17 5 18 5 19 5 20 5 21 5 22 5 23 5 24 LIST OF FIGURES DS18B20 temperature sensors connection diagram 42 DS18B20 connections description 22 2 2 nn nn 42 Universal Binary Sensor connection diagram 2 2 2 2 43 Electronic Thermostat Danfoss Living Connect 44 Danfoss Thermostat Parameters Modification Window 44 Danfoss Electronic Thermostat configuration window 45 Danfoss Thermostat available adapters 47 Motion Sensor ato ete oa eS Se yas Bete EO re 48 Motion Sensor Configuration Window 04 48 Flood Sensor a en eee doth ae ate Pie ae El 50 Flood Sensor Configuration Window 0004 50 Temperature and Humidity Sensor 200 52 Temperature amp Humidity Sensor icons 00004 52 Door Window Sensor aus 04 A a SS 54 Door Window Sensor2. mn nn 84 5 7 9 Localization Panel 2 2 2 ee ee 85 5 83 Configurations Ecs mare Bove a egy AEE DA ak 86 5 8 1 General on aang sudo de udn ELAS E NS ae ne a 86 5 8 2 LAN Settings yea as ee oo Quer ar ein a PE ao ls 87 9 8 9 LOCATION a ead eS aoe a ek we Wa ae a 89 KEA Backup AA AAA ar N en 90 5 9 Recovery Mode nen 91 List of Figures 93 Chapter 1 Fibaro System General Information Fibaro is a wireless intelligent building automation system based on the Z Wave communication protocol Thanks to MESH network topology Fibaro has certain advantages over competitive solutions which establish a direct connection be tween the signals emitter and receiver In such a situation the radio signal is weakened by any obstacle in its way walls furniture etc Each Fibaro System component serves as a signal emitter and receiver plus also as a signal repeater This is the main advantage of the Fibaro System if establishing a direct connec tion between devices proves impossible a connection may be established thanks to the other devices serving as a signal repeaters The Fibaro System uses two way communication between system components Communications are sent to devices and the devices send back communication confirming the signal s reception This way each device reports its current state so that it may be easily determined if a certain action has been performed Data transmission security in the Fiba
3. Figure 5 11 Linked Devices humidity window 5 6 LINKED DEVICES 73 5 6 4 Video Gate The Video gate is a link between three devices an IP ro gt camera the module responsible for opening the gate and the module responsible for triggering the doorbell After the link has been created the video gate may be controlled via Y an iPhone To create the video gate three devices must be added to the link an IP camera overlooking the gate a Relay Switch used to open the gate and a Relay Switch connected to the doorbell Video gate configuration Figure 5 12 Linked Devices Video gate Window 74 CHAPTER 5 HOME CENTER 2 5 7 Panels Panels simplify managing groups of related devices serv ing the same functionality such as heating air conditioning or watering the garden Using Panels you can easily pro gram the devices schedule for the entire week 5 7 1 SMS Panel SMS Home Management is available in selected countries and allows you to stay in control of your home even when you don t have a viable internet connection SMS Panel lets you define SMS communications sent by the system define the list of telephone numbers allowed to manage the house and top up the return messages account used for the confir mation messages sent from sensors etc SMS Panel SMS Home Management 48 515 512 515 List of authorised numbers Notifications Top up Figure 5 13 SMS Panel window Example messages 2001
4. 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 3 9 3 10 3 11 3 12 3 13 3 14 3 15 3 16 3 17 3 18 3 19 3 20 3 21 3 22 3 23 3 24 4 1 4 2 4 3 4 4 Dimmer module FGD 211 0 7 Dimmers Configuration Window o e o 9 Dimmer wiring diagram e 13 Dimmer wiring diagram 2 wire connection 14 Dimmer wiring diagram 3 wire connection 14 Dimmer wiring diagram 3 way connection 15 Dimmer wiring diagram 4 way connection 15 Relay Switch 2x1 5kW module FGS 221 16 Relay Switch 2x1 5kW configuration window 17 Single switch Relay Switch 2x1 5kW connection diagram 20 Single switch with an alternative power supply for the load 21 Double switch Relay Switch 2x1 5kW connection diagram 21 Double switch with an alternative power supply for the load 22 Relay Switch 1x8kW module FGS 211 23 Relay Switch 1x3kW Configuration Window 24 Single switch Relay Switch 1x3kW wiring diagram 27 Single switch with an alternative power supply for the load 27 Double switch Relay Switch 1x3kW wiring diagram 28 Double switch with an alternative power supply for the load 28 Roller Shutter module FGR 221 2 2 2 2m nn nennen 29 Roller Shutter configuration window 2 2 Emm nennen 30 Wiring diagram Roller Shutter
5. button Scene may be also triggered by user defined actions e g run the scene if the motion sensor is tripped or the room temperature exceeds 27 degrees Another option is to define the scene triggering timers e g run the scene each day at 8 30 and on Monday at 12 15 To open a new scene window click Add The new scene must me named and assigned to certain room for easier configuration After general parameters have been set The Scene Advanced tab should be opened This is the tab in which the scene actions are programmed 5 5 SCENES New Scene Advanced General Scene Information Figure 5 8 New Scene Creation Window 5 5 1 Example Scenes 67 CHAPTER 5 HOME CENTER 2 68 eJ SU Jey woy passed s noy Zp pue paues y ajqeuea p uy p Jasn p uie y J M9949 we 00 9 Je ep y9ea oo EB ES ET ETT ES ETS unu JE Aaaa usos umy 53 peseg easaqu Q oo wu gt a couy UNS ge Se YS ry A VW HMP O B E Bees We 00 9 JE UO s sjyuuds Uapeb un z ausos ajdwexa seJaWe sao nag A swooy Cg EN e lp SOAR juaueja o 5 en sausos a pey Suu O Bie saigeuen a suompuoo apem CI J9YIL2M UEM ausos ajdwex3 result in controlling the group of related devices as if they were one single device The Home Center 2 offers four different Linked Devices panels Linked Devices combine several devices into one device Us
6. Figure 5 19 User configuration window e If the user is to be tracked how frequently GPS position from the user s iPhone will be collected The shorter collection time the more frequent readouts resulting in more accurate positioning e Hotel mode which rooms should be included in hotel mode for the user Hotel Mode Hotel mode is designed for defining a single room that a given user will be able to manage through the iPhone interface For example if there is USER 1 in the system and the room ROOM 1 assigned to the user the person will be able to manage this single room only through his iPhone application Users Rights Management Users Panel gives the possibility for advanced control over users rights It is possible to grant or block an access to e Devices rights to operate certain devices e Cameras rights to check the image from certain IP cameras 5 7 PANELS 83 e Scenes rights to use certain scenes e System rights to manage certain system sections List of OS devices This enables you to determine which of the users using Os applications are to receive Push notifications If the user is allowed to remotely access to the system his iPhone must be marked on the list 84 CHAPTER 5 HOME CENTER 2 5 7 8 Notifications Panel Notifications panel gives the ability to create messages to be used for informing the user of certain events taking place in the house Notifications Notification Fi
7. DIMMER B Figure 3 5 Dimmer wiring diagram 3 wire connection 3 1 FIBARO DIMMER FGD211 15 Figure 3 6 Dimmer wiring diagram 3 way connection Figure 3 7 Dimmer wiring diagram 4 way connection 16 CHAPTER 3 FIBARO SYSTEM MODULES 3 2 Relay Switch 2x1 5kW FGS211 INTELLIGENT Hove MAS LS WILSAS Oyvala yaums Aepy Figure 3 8 Relay Switch 2x1 5kW module FGS 221 The radio controlled Fibaro Double On Off Relay Switch is designed to be installed in standard wall switch boxes or anywhere else where it is necessary to operate two independent devices of 1 5kW power output each The Fibaro Double On Off Relay Switch can switch connected devices on or off either through radio waves or through the wall switch connected directly to it 3 2 1 Product Characteristics e Controlled by FIBARO system devices or any Z Wave controller e Microprocessor control e Executive elements relays e The device may be operated by mono stable press switch and bi stable push buttons 3 2 2 Specifications e Power supply 24 230V 10 50 60Hz e Maximum load current for single AC output 8A 230V 50 60Hz e Maximum load current for single DC output 8A 30V Output circuit power resistive load 230V 2 x 1 5 kW Comply with standards EN 55015 EN 60669 2 1 AS NZS 3100 Temperature limits 105 C Operational temperature from 0 to 40 C 3 2 RELAY SWITCH 2X1 5KW FGS211 17 F
8. nn 29 II CONTENTS 3 4 1 Product Characteristics 2 2 2 222m 29 3 4 2 Specifications 2 CE Innen 29 3 4 3 Roller Shutter Calibration 31 3 4 4 Example Configuration Parameters 31 3 4 5 ASSOCIALIONS Lata AOR A ee ee a 31 3 4 6 Connecting Scheme Roller Shutter 31 3 5 Dimmer Bypass FGB 001 o 33 370 1 Specifications esou 2 BF 24 a ae e toe ee e 33 3 5 2 Connecting Scheme Bypass 34 Wireless Z Wave Sensors 35 4 1 Universal Binary Sensor 2 2 2 mn mn nn 36 4 1 1 Specifications 2 2 a N m rennen 37 4 1 2 Example Configuration Parameters 2 22 22 20 37 4 1 3 Universal Binary Sensor Inclusion Exclusion 39 4 1 4 Wiring Diagrams Universal Binary Sensor 39 4 2 Danfoss Living Connect Electronic Thermostat 44 ADM Specifications 44 Gm zer rn LE Er ti 45 4 2 2 Danfoss Thermostat Inclusion Exclusion 46 4 2 3 Adapters as sae bk Henna Die 47 4 3 Motion Sensor 2 22 2 nennen 48 4 3 1 Specifications an hor ia a an e e e e 48 4 3 2 Everspring Motion Sensor Inclusion Exclusion 49 AA A LA A E 50 AAT SpecificabiOns ai ies a a A RS e a 51 4 4 2 Everspring Flood Sensor Inclusion Exclusion 51 4 5 Temperature and Humidity Sensor 52 ADL Specifications gas sois rd ea ee 52 4 5 2 Everspring Temp Humidity sensor Inclusion Exclus
9. the HC2 will have following settings e IP Address 192 168 81 1 e Subnet Mask 255 255 255 0 e Gateway address 192 168 81 1 When static IP has been set it is possible to connect HC2 directly to Ethernet port of a PC however PC network settings must be set to match those of HC2 PC MAC IP 192 168 81 5 e Subnet mask 255 255 255 0 e Gateway address 192 168 81 1 NOTICE After setting a static IP for the HC2 by pressing and holding the Recovery button please enter LAN settings to change connection type to DHCP when the HC2 is connected to the PC 5 8 CONFIGURATION 89 5 8 3 Location Location settings include time zone location within which HC2 is installed Ad ditionally it is possible to enter the longitude and latitude used for monitoring weather conditions also used in scenes LAN Settings Connection Type Figure 5 24 Configuration Panel Location info 90 CHAPTER 5 HOME CENTER 2 5 8 4 Backup In this section the list of created backup files is displayed Backup file is a copy of a file containing the information s about all devices added to the system and all of their settings users individual settings and the HC2 operating system Retrieving data from backup file means going back to all of the systems settings that had been saved Create Backup Choose Backup from Recovery Disc Date Figure 5 25 Configuration Panel Backup Creation Window 5 9 RECOVERY MODE 91 5 9 Recovery Mo
10. 30V Figure 4 5 DS18B20 temperature sensors connection diagram BOTTOM VIEW 295 ooo a Q Ea Fr Figure 4 6 DS18B20 connections description 4 1 UNIVERSAL BINARY SENSOR BELL PUSH PRECIPITATION SENSOR Figure 4 7 Universal Binary Sensor connection diagram 43 44 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 2 Danfoss Living Connect Electronic Thermostat 0 e Figure 4 8 Electronic Thermostat Danfoss Living Connect The Danfoss living connect is an electronic radiator thermostat which com municates with the Fibaro System through the Z Wave wireless protocol Desired temperature is set by the simple click of a button or through Heating Panel in HC2 and then Danfoss Living Connect opens closes the radiator s valve with an electromechanical actuator The thermostat features an open window function which closes the valve if the temperature in the room is falling dramatically Figure 4 9 Danfoss Thermostat Parameters Modification Window Danfoss Thermostat configuration window HC2 interface shows following parameters e Devices name e Room Parameter available from the list of rooms created see 5 3 for detailed description Device kind e Device type e ID Devices number 4 2 DANFOSS LIVING CONNECT ELECTRONIC THERMOSTAT 45 Thermostat General Figure 4 10 Danfoss Electronic Thermostat configuration window Node ID Unique device number within the Z Wave network EndPointID Mu
11. Configuration Parameters Parameter 10 Roller Blind positioning status Default Setting ON Parameter 14 Switch Type monostable press switch or bistable Default Setting 16 3 4 5 Associations Association lets Roller Shutter trigger other Z Wave devices e g Dimmer Relay Switch another Roller Shutter or a scene only involving Home Center 2 Trig gering is realised in direct communication between devices without contacting Home Center 2 except for the use as a scene triggering device Roller Shutter supports two association groups I and II I association group is triggered by single click of any Switch Key II association group is triggered by pressing and holding any Switch Key Roller Shutter may associate with up to 16 ordinary devices or up to 7 multi channel devices per association group from which 1 device is always a network controller Recommended number of devices per association 10 The more devices are associated the longer time is needed for association action to take effect on each associated device 3 4 6 Connecting Scheme Roller Shutter 1 Before beginning please make sure power supply is disconnected 2 Connect Roller Shutter observing connecting scheme shown below 3 Insert Roller Shuttter and wall switch into connecting box 4 While completing point 3 please take special care to lay antenna wire properly 32 CHAPTER 3 FIBARO SYSTEM MODULES Symbols description e L live wire N ne
12. input of the alarm control unit to O1 and O2 of the first Relay Switch 2x1 5kW e Connect Status i e Armed Disarmed output of the alarm control unit to S1 and S2 inputs of the first Relay Switch 2x1 5kW e connect alarming input of the alarm control unit Breach No Breach to outputs O1 and O2 of the second Relay Switch 2x1 5kW 78 CHAPTER 5 HOME CENTER 2 5 7 3 Heating Panel The Heating Panel allows you to schedule heating pro grams at predetermined times After the heating zones have been created and rooms are added to it all devices respon sible for maintaining the desired temperature will work in accordance with schedule Part of Day Temperature Lasa iil Temperature For Temperature Turn On Turn On Add zone for heating Figure 5 15 Heating panel window 5 7 PANELS 79 5 7 4 Heating Panel The Cooling Panel allows you to schedule cooling pro grams at predetermined times After the cooling zones have been created and rooms are added to it all devices respon sible for maintaining the desired temperature will work in accordance with schedule Part of day Temperature Temperature f Temperature Turn On Turn On Add Zone for Air Conditioning Figure 5 16 Air Conditioning panel window 80 CHAPTER 5 HOME CENTER 2 5 7 5 Humidity Panel The Humidity Panel allows you to schedule cooling pro grams at predetermined times After the cooling zones have g re Y been created and rooms are a
13. network the central controller has a direct wireless connec tion to all of the other networking nodes This always requires a direct radio link In case of disturbances the controller does not have any backup route to reach the nodes However Z Wave is a wireless system that offers a very powerful mechanism to overcome this limitation Z Wave nodes can forward and repeat messages that are not in direct range of the controller This gives greater flex ibility as Z Wave allows communication even though there is no direct wireless connection or if a connection is temporarily not available due to some change in the room or building Z Wave is able to route messages via up to four repeating nodes This is a compromise between the network size and stability and the maximum time a message is allowed to travel in the network Every node is able to determine which nodes are in its direct wireless range These nodes are called neighbours During inclusion and later on request the node is able to inform the controller about its list of neighbours Using this information the controller is able to build a table that has all the information about possible communication routes in a network The user can access the routing table There are several software solutions typically called installer tools which visualise the routing table to optimize the network setup A controller will always try first to transmit its message directly to the destination If this is n
14. the system devices will be removed from HC2 Z Wave chip memory i e all of the device will have to be re added to the system e Default settings Home Center 2 memory is reset to factory state i e all of the devices are deleted together with their settings and dependencies scenes HC2 software is downgraded to it s oldest available version Af ter resetting to defaults the HC2 software needs to be upgraded to latest available version 5 8 CONFIGURATION 87 General Information General Information HC2 000507 38 60 77 4e e0 df 1 027 3 20 L 1 N A 2012 06 13 15 11 00 31d 22h 15m Figure 5 22 Configuration Panel General 5 8 2 LAN Settings There are two basic options available DHCP or Static IP Following parameters may be defined Home Center 2 IP address e Subnet mask Default gateway IP used by HC2 to connect the web e DNS server address Remote access enabling LAN Settings Connection Type Figure 5 23 Configuration Panel LAN settings 88 CHAPTER 5 HOME CENTER 2 Important information on LAN settings By default the HC2 expects to be connected to a DHCP server In this mode HC2 IP address may be obtained with the use of the HC2 Finder see HC2 Finder Another option is to set Static IP Static IP may be set from the LAN settings tab or manually by holding the Recovery button back side of the HC2 casing after the device has been connected to power supply In this case
15. 14 192 168 100 67 38 60 77 4e c0 16 HC2 000200 192 168 100 200 20 69 95 77 fe c5 cassada R FIBARO Home intelligence 5 2 YOUR HOUSE 5 2 Your House Your house tab is the Home Center 2 interface main win dow It displays all devices available within a given Fibaro System such as modules sensors and virtual devices Ele ments are divided into groups depending on the device type and location in certain room Figure 5 1 Your Home tab 61 62 CHAPTER 5 HOME CENTER 2 5 3 Rooms The Rooms tab is designed for adding rooms and sections i e single rooms room groups floors or any user defined locations To add a section first enter it s name and click Add The new section will be created and it s name will be displayed on left hand list After a new section has been created new room within the section may be created To do so the room name must be entered the desired section chosen and the Add button clicked Add Section and rooms To Add Sections and Rooms Add Section Figure 5 2 Adding Rooms Sections Window 5 4 DEVICES 63 5 4 Devices 5 4 1 Z Wave Devices Inclusion The Devices tab enables management of devices included in the Fibaro System Devices are Fibaro modules Fibaro system compatible sensors IP cameras and virtual devices To add a Z Wave device click Add Once the system sets itself into learning mode Perform the tasks described in the manual
16. 4 swiatlo 20014 e HC2 000417 lights livingroom on turns on all the lights in livingroom e HC2 000417 lights livingroom off turns off all the lights in livin groom e HC2 000417 lights house status sends the message informing of the status of all devices named light in the house If for example in the living room any light is on an excerpt from the return message will appear as follows livingroom on If all of the lights in the room are off excerpt 5 7 PANELS 75 from a return message will appear as follows livingroom off To use the functionality return messages pool must be bought 76 CHAPTER 5 HOME CENTER 2 5 7 2 Alarm Panel The Alarm Panel is designed to manage the alarm control unit integrated into the Fibaro System The alarm central unit is integrated with the use of two Relay Switch 2x1 5kW modules In the Alarm Panel the following devices need to be present e Controlling Module arming disarming alarm e Status Module informing about zone status armed disarmed e Alarming Module indicating armed zone breach The defined alarm will be presented in the Your House menu Alarm Panel Add Zone Zones List PIN codes User admin Zone Name old PIN new PIN confirm new PIN Figure 5 14 Alarm Panel Alarm Integration For integrating the alarm system into Fibaro System two Relay Switch 2x1 5kw modules may be used 5 7 PANELS 77 e Connect Arming Disarming
17. Configuration Window 54 Smoke Sensor 1 ee a 56 Smoke Sensor Configuration Window 2 0004 56 Your Home tabs sis sa a a dd Pee na 61 Adding Rooms Sections Window 4 62 Adding Devices Window ooa a a 63 Adding IP Camera window 0000000200 64 Adding Virtual Device Window 0 000002 eee 65 Virtual Device Example Icon 0 non nn 65 Deleting Device Window 2 mn 66 New Scene Creation Window e o 67 Linked Devices Heating Window 204 70 Linked Devices Air Conditioning Window 71 Linked Devices humidity window 200 4 72 Linked Devices Video gate Window 0 008004 73 SMS Panel window 1 0 ee a 74 Alarm Panel a Aniar Sync dn See ph ae a 76 Heating panel window 0 000000 eee ee ee 78 Air Conditioning panel window 2 0 4 79 Humidity panel window 2 2 2 Eon 80 Access Control Panel 22 2 2 2 n nn nn 81 User configuration window 2 2 2 Com nn 82 Notification Panel pacanie 2 2 kk 202 a aa 84 Localization Panel 2 2 2 Common 85 Configuration Panel General 2 2 2 En ee 87 Configuration Panel LAN settings 2 2 2 2 nn nennen 87 Configuration Panel Location info 2 2 22 nn nn 89 LIST OF FIGURES 95 5 25 Configuration Panel Backup Creation Window 90 5 26 Recovery Mode View auaa aaa A 91 5 27 Recovery Mode r
18. FGD211 11 Parameter 18 Synchronize Dim level for associated devices On Off Default setting OFF 3 1 4 Associations Association lets a Dimmer trigger other Z Wave devices e g another Dimmer Relay Switch Roller Shutter Triggering is performed in direct communication between devices without contacting the Primary Master Controller Home Cen ter 2 A Dimmer may associate with up to 16 ordinary devices or up to 7 multi channel devices per association group from which 1 device is always a network controller Recommended number of devices per association 10 The more devices are associated the longer time will take for association action to take effect on each associated device Dimmer supports two association groups I and II I association group is designated for Switch Key no 1 II association group is designated for Switch Key no 2 NOTE The following parameter refers to II association group Parameter 7 GET Device State before sending steering frame assigned to key no 2 De fault Setting GET frame sent device state checked before sending association command 12 CHAPTER 3 FIBARO SYSTEM MODULES 3 1 5 Tips and Tricks 1 How to include a Dimmer module connected to fluorescent lamp To include a Dimmer connected to fluorescent lamp please connect the module and fluorescent lamp observing wiring diagram operating manual connect power input and double click button B or key switch connected to S1 input Fluo
19. Switch can switch connected device on or off either through radio waves or through the wall switch connected directly to it 3 3 1 Product Characteristics e Controlled by FIBARO system devices or any Z Wave controller e Microprocessor control e Executive elements relays e The device may be operated by mono stable press switch and bi stable push buttons 3 3 2 Specifications e Power supply 24 230V 10 50 60Hz e Maximum load current for single AC output 8A 230V 50 60Hz e Maximum load current for single DC output 8A 30V Output circuit power resistive load 230V 2 x 1 5 kW Comply with standards EN 55015 EN 60669 2 1 AS NZS 3100 Temperature limits 105 C Operational temperature from 0 to 40 C 24 CHAPTER 3 FIBARO SYSTEM MODULES e For installation in boxes gt 50mm e Radio protocol Z Wave e Radio Frequency 868 MHz for EU 908 MHz for US 921 MHz for AUS NZ BRA e Range up to 50 m outdoors up to 30 m indoors depending on building materials e Dimensions H x W x D 15 x 42 x 38 mm e Electricity consumption 0 8W In case of load other than resistive pay attention to the value of cosp and if necessary apply load lower than the rated load Figure 3 15 Relay Switch 1x3kW Configuration Window Relay Switch 2x1 5kW configuration window HC2 interface shows following parameters e Device name e Room Parameter available from the list of rooms created see 5 3 for det
20. X FIBARO Home intelligence Advanced User s Guide 8 V111 2012 ver 1 021 beta witajwr dom amp 13 22 Home Center 2 FIBARO SYSTEM Contents Contents I 1 Fibaro System General Information 1 2 The Z Wave Protocol 3 21 Device ypes ner Herr AA ee ae 3 2 2 How the network works 0 0 2020004 4 2 3 Ro ting Principles soro ut car eg E ee 4 3 Fibaro System Modules 7 3 1 Fibaro Dimmer FGD211l non nn nn 7 3 1 1 Product Characteristics 2 2 0 nme 7 3 1 2 Specifications aus ea ai ee 8 3 1 3 Example Configuration Parameters 10 3 1 4 Associations oopa 222mm 11 31 5 TipsandLricks ssa ha 2 8222 a a Rn 12 3 1 6 Wiring Diagrams Dimmer 13 3 2 Relay Switch 2x1 5kW FGS211 o 16 3 2 1 Product Characteristics 2 2 22 nn nennen 16 3 2 2 Specifications saci a capa a aa an Dial a 16 3 2 3 Example Configuration Parameters 18 32 4 ASSOCIaLIONS 7 u Han Ec ee ee oe een de a ana 18 3 22 57 Tips amd Tricks ua saca sia BLE a an ga aes 19 3 3 Relay Switch 1x3kW FGS211 o 23 3 3 1 Product Characteristics 2 2 0 e 23 3 3 2 Specifications 02 0202 eee ee ee 23 3 3 3 Example Configuration Parameters 25 3 3 4 ASSOCIAtiONS a aaa toe Seal et Se en ae 25 3 3 5 Wiring diagrams Relay Switch 1x3 0kW 26 3 4 Roller Shutter FGR211 o
21. ailed description e Device kind e Devices type e ID Devices number e Node ID Unique devices number within Z Wave network 3 3 RELAY SWITCH 1X3KW FGS211 25 e EndPointID Multichannel devices number Controlled Device Parameter taken from available devices list Show Slave devices Show Slave devices e Power Output 3 3 3 Example Configuration Parameters Configuration parameters for each module are available in the Advanced Settings tab for each device in he Home Center 2 interface Parameter 3 Relay Auto OFF after specified time Default Setting Auto OFF disabled Parameter 4 Relay Auto OFF after specified time Default Setting 0 2s Parameter 13 State Change ON OFF for bistable switch Parameter no 14 Default Setting key position change ON or OFF Parameter 14 Switch Type mono stable press switch or bistable Default Setting mono stable Parameter 15 Operating associated Dimmer Roller Shutter enable disable Default Set ting disable If enabled hold or double click given key to trigger associated Dimmer Roller Shutter Parameter 16 Device On Off after power cut Default setting OFF 3 3 4 Associations Association lets a Relay Switch 1x3 0kW trigger other Z Wave devices e g Dim mer another Relay Switch Roller Shutter or a scene only involving Home Cen ter 2 Triggering is performed in direct communication between devices without contacting Home Center 2 except
22. an electronic switch it may work with Compact fluorescent lamps LED bulbs Fluorescent lamps with electronic ballast and the majority of conventional ballasts When used with FGB001 it may operate with any dimmable load up to 500W 3 1 2 Specifications Power supply 230V 10 50Hz Output Power 25 500W for resistive loads 230V 10 250W for resistive loads 110V Dimmer type Leading edge dimmer In accordance with EU standards EN 55015 noise EN 60669 2 1 opera tional safety AS NZS 3100 general requirements for electrical products Overcurrent protection 2 5A Circuit temperature limits 105 C Ambient temperature from 10 to 40 C For installation in boxes gt 50mm Radio protocol Z Wave Radio Frequency 868 4 MHz for EU 908 4 MHz for US 921 4 MHz for AUS NZ BRA Range up to 50 m outdoors up to 30 m indoors depending on building materials 3 1 FIBARO DIMMER FGD211 9 e Dimensions H x W x D 15 x 42 x 36 mm e Electricity consumption 0 8W General o Figure 3 2 Dimmers Configuration Window Dimmers configuration window HC2 interface shows following parameters e Device name e Room parameter available from the list of rooms created see 5 3 for detailed description e Device kind e Device type e ID Devices number e Node ID Unique devices number within Z Wave network e EndPointID Multichannel devices number e Controlled device Parameter taken
23. ase take special care to lay antenna wire properly Symbol descriptions Relay Switch 2x1 5kW e N Neutral wire e L Live wire I Output device power in O1 Output 1 O2 Output 2 S1 Switch key 1 also enters the module into learning mode see inclusion process e S2 Switch key 2 e B Service key used for including excluding device see S1 single switch L SWITCH Figure 3 10 Single switch Relay Switch 2x1 5kW connection diagram 3 2 RELAY SWITCH 2X1 5KW FGS211 21 single switch option with an alternative power supply for the load alternative power supply SWITCH Figure 3 11 Single switch with an alternative power supply for the load double switch 0201 SWITCH Figure 3 12 Double switch Relay Switch 2x1 5kW connection diagram 22 CHAPTER 3 FIBARO SYSTEM MODULES double switch option with an alternative power supply for the load alternative power supply SWITCH Figure 3 13 Double switch with an alternative power supply for the load 3 3 RELAY SWITCH 1X3KW FGS211 23 3 3 Relay Switch 1x3kW FGS211 INTELLIGENT Hove MAS DZ WILSAS Oyvala yaums Aepy Figure 3 14 Relay Switch 1x3kW module FGS 211 Radio controlled Fibaro Double On Off Relay Switch is designed to be in stalled in standard wall switch boxes or anywhere else where it is necessary to operate one single device of 3 0kW power output Fibaro Double On Off Re lay
24. cordance with standards EN 55022 EN 61000 AS NZS 3100 Temperature limits 105 C 30 CHAPTER 3 FIBARO SYSTEM MODULES e Operational temperature from 0 to 40 C e For installation in boxes 4 gt 50mm e Radio protocol Z Wave e Radio Frequency 868 MHz for EU 908 MHz for US 921 MHz for AUS NZ BRA e Range up to 50 m outdoors up to 30 m indoors depending on building materials e Dimensions H x W x D 15 x 42 x 36 mm e Electricity consumption 0 8W Figure 3 21 Roller Shutter configuration window Roller Shutter configuration window HC2 interface shows following param eters e Devices name e Room Parameter available from the list of rooms created see 5 3 for detailed description e Device kind e Device type e ID Devices number e Node ID Unique devices number within Z Wave network e EndPointID Multichannel devices number e What device controls Parameter taken from available devices list e Show slave devices 3 4 ROLLER SHUTTER FGR211 31 3 4 3 Roller Shutter Calibration After a successful inclusion process the Roller Shutter module should be cali brated The calibration process involves performing two complete cycles of open ing closing the roller blind Properly completed calibration may be verified by setting required position of the roller blind using the icon e g 30 of roller blind opening the actual opening should correspond to specified value position 3 4 4 Example
25. d in high humidity or temperature situations The Universal Binary Sensor was designed primarily for the use with existing wired and wireless alarm and control systems so that they could be easily integrated with the Fibaro System For the use with alarm system the module is 100 transparent to parametric lines Disarm Figure 4 1 Universal Binary Sensor Icons Views Product Characteristics e Controlled by Fibaro System devices or any other Z Wave controller e Microprocessor control e Compatible with standard and parametric alarm lines may be connected to single alarm sensor with tamper button or two alarm sensors without tampers e Compatible with binary sensors may be connected to two binary outlets e Compatible with DS18B20 temperature sensors supports up to four DS18B20 temperature sensors 4 1 UNIVERSAL BINARY SENSOR 37 4 1 1 Specifications e Power supply 9 30V 10 DC e Inputs 2 floating inputs 1 digital input 1 wire e Outputs 2 floating outputs e Max input voltage 36V 5 DC e Output carrying capacity 150mA e Operational temperature from 0 C to 40 C e Radio protocol Z WAVE e Radio Frequency 868 MHz for EU 908 MHz for US 921 MHz for AUS NZ BRA e Range up to 50 m outdoors up to 30 m indoors depending on building materials e Number of supported DS18B20 temperature sensors up to 4 4 1 2 Example Configuration Parameters Configuration parameters for each module a
26. dded to it all devices respon a Dd sible for maintaining the desired temperature will work in 5 u 2 accordance with schedule JS y Part of Day Humidity Humidity Humidity Turn On Add Zone Figure 5 17 Humidity panel window 5 7 6 History Panel The History Panel is a register of all of the activities taking place in a given Fibaro System The panel lets the user monitor changes in status of all devices and filter them depending on the time they occured 5 7 PANELS 81 5 7 7 Access Control The Users Panel is configured to manage the accounts of the users of a certain HC2 unit It allows you to grant block access to the devices e g cameras scenes and system set tings From the Users Panel it is also possible to grant block access using the hotel mode for a given mobile application or set a perion for reporting GPS locations from a certain iPhone device Also the Users Panel gives an option to de fine mobile devices which will receive Push Notifications User List Hotel mode iOS devices list iPhone iPad iPod iPod Fibaro 1 Figure 5 18 Access Control Panel After clicking the user s name the Users Panel shows the window shown in fig 5 19 e Login Password at least 4 characters The system will ask for password confir mation e E mail address all notifications will be sent to this e mail e If the user is receive the notification massages 82 CHAPTER 5 HOME CENTER 2
27. de Recovery Mode is a special panel designed for retrieving the HC2 operating system in case of technical problems e g when it is not possible to log into the user s panel Using recovery mode the Home Center 2 will be brought back to the factory installed software version i e 1 009 To access Recovery mode 1 Turn the Home Center 2 OFF 2 When turning the Home Center 2 ON again hold Recovery button in the back of HC2 casing diodes will turn ON sequentially starting from the left hand side 3 Entering Recovery Mode is signaled with a control diode NOTE if you press and hold the recovery button for too long the HC2 will set to static IP and network connection will be lost see 5 8 2 Home Center 19 07 2012 FIBAR YSTEM ERE E m Sisto m Recoveries m Movieg B Dewricading ez Figure 5 26 Recovery Mode View The left hand menu displays the following information e Recovery version e HC2 serial no IP Address 1P address visible in local network e MAC address Module name and software version 92 CHAPTER 5 HOME CENTER 2 m Recovering Recover Figure 5 27 Recovery Mode retrieving from backup e Last backup The date and time when last backup file was created e Devices The Number of devices saved in last backup file e Rooms The Number of rooms saved in last backup Scenes The Number of scenes saved in last backup file Online The HC2 internet access List of Figures
28. designated communication protocols Managing virtual devices is performed with TCP IP protocols Target IP and TCP communication ports must be defined Next the user defines a designated button and defines the communication to be sent after the button is used The system supports string communicates 5 4 DEVICES 65 Advanced Button number newl Figure 5 5 Adding Virtual Device Window text data type For example turn ON command line for Toshiba projector will be as follows GET cgi bin webrc cgi P ON 0K HTTP 1 10x0DOx0A0x0DOx0A Another option is to create value slider NOTE If the device confirm communication receipt please choose wait for device s response option Figure 5 6 Virtual Device Example Icon 66 CHAPTER 5 HOME CENTER 2 5 4 4 Deleting Devices To delete device simply click Delete Device may be successfully deleted after the HC2 enters the learning mode please refer to Chapters 3 and 4 Delete Device To delete device Figure 5 7 Deleting Device Window 5 5 Scenes TheScenes tab lets the user program complicated func tions between multiple devices included in the system Scenes may be initiated by weather condition a series of intuitive timers or various sensor module state A Scene is a group of commands sent to user defined group of devices e g open the blinds 50 and set the lights to 30 brightness Scenes may be triggered by clicking the Run scene
29. dule another one for the device triggered by the module Yes a Relay Switch 2x1 5kW may be connected to two independent circuits at the same time one powering the module another one even powered by a different voltage powering the circuit triggered by the module 3 May I use Relay Switch 2x1 5kW in two and three wire electrical systems just like the Dimmer The Relay Switch 2x1 5kW is designed to work on three wire electrical system only i e it needs the Neutral wire 4 I would like to use two Relay Switch 2x1 5kW modules to control home alarm control unit but it is powered by 12V current In such a case another circuit powering the Relay Switches with 24V at least will be necessary see p 2 5 Can I use the Relay Switch modules to operate floor heating Yes These modules may be used to operate both electrical and hydraulic floor heating systems in such use the modules will be used to turn electric valves ON or OFF Heating itself will be programmed in the Heating Panel in of the HC2 For monitoring temperature we recommended the use of a DS18B20 sensor together with a Fibaro Universal Binary Sensor Wiring Diagrams Relay Switch 2x1 5kW 1 Before beginning please make sure power supply is disconnected 2 Connect Relay Switch 2x1 5kW observing wiring diagram shown below 20 CHAPTER 3 FIBARO SYSTEM MODULES 3 Insert Relay Switch 2x1 5kW and wall switch into connecting box 4 While completing point 3 ple
30. e as 3 to 7 different devices e In case of any changes in TP TD line 1 wire configuration i e adding removing DS18B20 temperature sensors it is necessary to exclude and re include the Universal Binary Sensor to Z Wave network Please note HC2 will enter learning mode only after all connected sensors are detected which may take up to 10 seconds e Do not connect sensors other than DS18B20 temperature sensor to TP TD line 1 wire e Do not connect devices not supporting 1 wire protocol to TP TD line Lines not in use must be isolated Symbol descriptions e Live wire red e GND GROUND ground wire blue e IN1 INPUT 1 input 1 yellow e IN2 INPUT 2 input 2 green e TP TEMP POWER power 3 3V to DS18B20 temperature sensor brown e TD TEMP DATA signal to DS18B20 temperature sensor white e ANT antenna black e B service button used for including excluding device e OUT output no 1 assigned to input IN1 e OUT2 output no 2 assigned to input IN2 4 1 UNIVERSAL BINARY SENSOR 41 ANT Figure 4 2 Universal Binary Sensor connections description NC NC TMP TMP COM 12V AUX COM Z1 22 ALARM SYSTEM HUB MOTION DETECTOR Figure 4 3 Universal Binary Sensor standard alarm line 42 CHAPTER 4 WIRELESS Z WAVE SENSORS COM AUX COM Z1 ALARM MOTION DETECTOR SYSTEM HUB NC NC TMP TMP COM 12V Figure 4 4 Universal Binary Sensor parametric alarm line GND 9
31. etrieving from backup 92
32. for the use as a scene triggering device 26 CHAPTER 3 FIBARO SYSTEM MODULES Relay Switch 1x3 0kW may associate with up to 16 ordinary devices or up to 7 multi channel devices per association group from which 1 device is always a network controller Recommended number of devices per association 10 The more devices that are associated the longer it will take for association action to take effect on each associated device Relay Switch 1x3 0kW supports two association groups I and II I association group is designated for Switch Key no 1 II association group is designated for Switch Key no 2 3 3 5 Wiring diagrams Relay Switch 1x3 0kW 1 Before beginning please make the sure power supply is disconnected 2 Connect Relay Switch 1x3 0kW observing wiring diagram shown below 3 Insert Relay Switch 1x3 0kW and wall switch into connecting box 4 While completing point 3 please take special care to lay antenna wire properly Symbol descriptions e N neutral wire L live wire I output device power in O output e S2 switch key 2 e S1 switch key 1 also enters the module into learning mode see inclusion process e B service key used for including excluding device see S1 3 3 RELAY SWITCH 1X3KW FGS211 27 single switch L SWITCH Figure 3 16 Single switch Relay Switch 1x3kW wiring diagram single switch option with an alternative power supply for the load SWITCH Fi
33. from available devices list e Show Slave Devices e Power Output 10 CHAPTER 3 FIBARO SYSTEM MODULES 3 1 3 Example Configuration Parameters Configuration parameters for each module are available in the Advanced Settings tab for each device in the Home Center 2 interface Parameter 8 change assigned to one step automatic operation Default setting 1 Parameter 9 Time to switch between min max dimm level at manual operation De fault setting 0 05s Parameter 10 Time to switch between max min dimm level at remote operation 0 turns off smooth dimming level change WARNING inductive and capacitive devices must be set to 0 to work prop erly fluorescent lamps electric motors Parameter 12 Max dimming level Default setting 99 Parameter 13 Min dimming level Default setting 2 WARNING Maz level must be always higher then min NOTE In case of fluorescent lights or non dimmable LEDs the maz dim ming level must be set at 98 min at 99 If settings are too low when AC powered motors are used operation may result in motor failure Parameter 14 Wall Switch type mono stable press switch or bi stable Default setting mono stable Parameter 15 Double Click ON OFF Default setting ON double click lights set to 100 Parameter 17 Stair switch function On Off Stair Switch Off WARNING Dimmer works with two bi stable switches or infinite number of mono stable switches 3 1 FIBARO DIMMER
34. gure 3 17 Single switch with an alternative power supply for the load 28 CHAPTER 3 FIBARO SYSTEM MODULES double switch L SWITCH Figure 3 18 Double switch Relay Switch 1x3kW wiring diagram SWITCH Figure 3 19 Double switch with an alternative power supply for the load 3 4 ROLLER SHUTTER FGR211 29 3 4 Roller Shutter FGR211 INTELLIGENT HOME Y EN ul WEES Roller Shutter FIBARO SYS WILSAS OuVElS JSANUS A904 Figure 3 20 Roller Shutter module FGR 221 Radio controlled module designed to work with electric motors in blinds rollers canopies Fibaro Blind Roller Shutter can control the connected device either through radio waves or through the wall switch connected directly to it Equipped with unique feature of monitoring current Roller Blind position 3 4 1 Product Characteristics e Controlled by FIBARO system devices or any Z Wave controller e Microprocessor control e Executive elements relays e The device may be operated by mono stable press switch bi stable push buttons dedicated roller blinds buttons NOTE Precise roller blind positioning is possible for blind witch mechanical stop switches For roller blinds with electronic control please turn OFF position ing function parameter 10 3 4 2 Specifications e Power supply 110 230V 10 50 60Hz e Power of supplied motor up to 1kW for 230V up to 500W for 110V e Rated motor current 4 3A 230V 50 60Hz In ac
35. gure 5 20 Notification Panel 5 7 PANELS 85 5 7 9 Localization Panel Localization Panel uses user defined GPS points to ac m tivate GPS scenes There are two ways of defining GPS dd points choosing on a map or entering certain GPS co ordinates Each user may enter indefinite number of GPS points New location Q Graczyk Andrzej Transport Point data ci arowy Su oy Metalzbyt METALZBYT Pozna Czamkowska Centrostal Save localisation Daned Mapy 82012 Soogle Figure 5 21 Localization Panel Usage example USER 1 defines two GPS points HOME and WORK Now it is possible to create scene turning OFF all the lights in the house once the user leaves the HOME location and arms the alarm at home once the user enters WORK location 86 CHAPTER 5 HOME CENTER 2 5 8 Configuration The Home Center 2 configuration options are divided into the following categories fey e General e LAN settings e Location e Backup 5 8 1 General Basic information about the Home Center 2 including e Serial no e MAC address e Current software version e Z Wave chip software version e Time and date last software update was performed e Time and date last system backup file was created e Server status General information window also allows for performing following actions e Restart Home Center 2 soft restart i e system shut down and started again e Z Wave network reset All of
36. he transceiver is mounted on the wall and the flood sensor is placed in a location where water presence such as a result of leakage or flooding is probable Upon flood detec tion the Detector will beep and flash and report its status to the node ID Once water is released it will report to the node ID as well General e Disarm Figure 4 15 Flood Sensor Configuration Window Eversprings Flood Sensor s configuration window HC2 interface shows the following parameters e Devices name 4 4 FLOOD SENSOR 51 e Room Parameter available from the list of rooms created see 5 3 for detailed description e Device kind e Device type e ID Devices number e Node ID Unique devices number within Z Wave network e EndPointID Multichannel devices number e Wake up interval Time interval for HC2 to communicate with the Flood Detector 4 4 1 Specifications e Communication protocol Z WAVE e Power supply 3x1 5V AA batteries e Z Wave communication range Up to 30m indoors 4 4 2 Everspring Flood Sensor Inclusion Exclusion After setting HC2 to learning mode Chapter 5 triple click the tamper button on the sensor s body The same sequence must be performed to exclude the device from Z Wave network 52 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 5 Temperature and Humidity Sensor S SE CFT MAXA MNO Figure 4 16 Temperature and Humidity Sensor The Temperature Humidity sensor is designed to monitor the current tem peratu
37. his way the Fibaro System devices communicate with each other even in the event of central unit failure e g in case of fire flooding etc Each of the Fibaro System modules are tested and certified for compatibility by the Z Wave technology owner Mesk recknotofy Chapter 2 The Z Wave Protocol The Z Wave protocol uses 868 4 MHz radio frequency in Europe 908 4 MHz in USA and 921 4 in AUS NZ on unlicensed ISM bands The protocol was launched with 9600 b s data transmission but it has been raised to 40Kbps Both versions of the protocol are compatible Data is transmitted in 8bit blocks in which the most important bit is always sent first Each Z Wave network has its unique ID called HOME ID In addition each device gets its own ID Node ID Each newly added device gets two ID numbers HOME ID and Node ID Home ID is the same for all devices within the network while Node ID is unique for a given node If another controller secondary master is added to the network it gets the same HOME ID as the main controller 2 1 Device Types There are two types of devices in the Z Wave protocol Master and Slave There are two types of master devices Primary and Secondary There is always one Primary Master Controller in each Z Wave network to manage devices inclu sion exclusion and preserve network settings Secondary Master Controllers copy this data from the Primary Master Controller In the Fibaro System the Primary Master Controlle
38. ice is designed to be installed on e Danfoss RA N valves e Other valves with M30x1 5 connections e Older Danfoss RT D N valves A SE a DD p cada RA N RTD N Figure 4 11 Danfoss Thermostat available adapters 48 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 3 Motion Sensor ar Figure 4 12 Motion Sensor Everspring SP103 Motion Sensors are designed to detect movement in a pro tected area by detecting changes in infra red radiation levels caused when a person moves within or across the devices field of vision In this case a trigger radio signal will be transmitted General Disarm Figure 4 13 Motion Sensor Configuration Window 4 3 1 Specifications e Communication protocol Z Wave e Device type slave e Detection range ca 12m 4 3 MOTION SENSOR 49 e Detection angle 110 degrees e Z Wave communication range up to 30m indoors e Power supply 3x AA 4 3 2 Everspring Motion Sensor Inclusion Exclusion After setting HC2 to learning mode Chapter 5 triple click the tamper button on the sensor s body The same sequence must be performed to exclude the device from Z Wave network 50 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 4 Flood Sensor EVERSPRING Figure 4 14 Flood Sensor The Flood Detector is designed to sense the presence of water in basements yachts and many others residential and commercial applications providing early warning of developing floods The Flood Detector is designed so that t
39. ing this function will The group will be presented in the HC2 interface as a single device 5 6 Linked Devices 5 6 LINKED DEVICES e Heating Air Conditioning Humidity Video gate 69 70 CHAPTER 5 HOME CENTER 2 5 6 1 Linked Devices Heating Heating linked devices was designed to enable link be tween Relay Switch module and temperature sensor This linked may be used in control of boilers floor heating jacuzzis swimming pools etc After creating the linked devices man aging and scheduling is done by the use of Heating Panel Configuration Figure 5 9 Linked Devices Heating Window 5 6 LINKED DEVICES 5 6 2 Linked Devices Air Conditioning Air conditioning linked devices are based on the same principle as Heating Linked Devices It is possible to add multiple switches turning several air conditioning devices ON OFF so that air conditioning in multiple rooms or sections may be operated as a single device After air conditioning liked devices has been created managing and scheduling is done by the use of the Air Conditioning panel Configuration Figure 5 10 Linked Devices Air Conditioning Window 71 72 CHAPTER 5 HOME CENTER 2 5 6 3 Linked Devices Humidity Humidity linked devices uses the principle described in 5 6 1 2 After Humidity linked devices have been created g a Y managing and scheduling of the new devices is done through a the Humidity Panel Y A u Configuration
40. ion 53 4 6 Door Window Sensor Sigh he A Ave el ea 54 AG Specifications gt aan ann rare 55 4 6 2 Aeon Labs D W Sensor Inclusion Exclusion 55 4 7 Smoke Detector ss orar de ee a ha a 56 A Tl Specifications a tatan ha doe nen re 57 4 7 2 Smoke Sensor Inclusion Exclusion 57 Home Center 2 59 Bede HCX Pinder ve gaga om Be Vat ir en Boas neat sa Be as 59 5 2 Your House a sia 2a hie rs 61 9 3 ROOMS e e A RA A en 62 0 4 DEVICES oy seed eh Wand a bs Se o ea a AS 63 5 4 1 Z Wave Devices Inclusion 00 CONTENTS HI 5 4 2 IP Camera Inclusion 2222 22mm 63 5 4 3 Creating Virtual Devices a 64 5 4 4 Deleting Devices o 66 DO ID GONCSE Cua De a a ic Da bala Ap es 66 5 5 1 Example Scenes ass miot onen 67 5 6 Linked Devices 2 2 2 Coon nn 68 5 6 1 Linked Devices Heating 70 5 6 2 Linked Devices Air Conditioning 71 5 6 3 Linked Devices Humidity 72 5 6 4 Video Gate laa aan a ben 73 DER A Berne oat Das N ee Dr 74 Botel SMS Panel Suas a en Ag ad 74 5 7 2 Alarm Panel ee 76 5 7 3 Heating Panel o 78 57 8 Heating Panel qua ls a RE Pasta dia 79 Boto Humidity Panel oie feds ase 2a Gas he TAS a 80 5 46 History Panelis Sra ame ea Sina A ee 80 5 17 17 Access Control o soie aa Sok te as ek 81 5 7 8 Notifications Panel
41. ltichannel devices number Wake up interval Time interval for HC2 to communicate with the ther mosat 60 seconds at the minimum 4 2 1 Specifications Radio frequency 868 42MHz Actuator type Electromechanical Recommended use Household Mechanical strength 70N Max water temperature 90 C Estimated battery life 2 years Temperature measurement cycle every 60 seconds Power supply 2x1 5V AA battery Power consumption 3mW in standby 1 2W when active Ambient temperature from 0 C to 40 C Available temperature settings from 4 C to 28 C IP 20 should not be used in hazardous installations or in places where it will be exposed to water 46 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 2 2 Danfoss Thermostat Inclusion Exclusion After setting the HC2 to learning mode Chapter 5 press the middle button once on the thermostat body The same sequence must be performed to exclude the device from the Z Wave network Because of the Z Wave system properties the Danfoss thermostats communicate with the HC2 through one intermediate module only This is why they should be included into the Z Wave network after being installed in the desired locations A single Home Center 2 unit supports up to 20 Danfoss Living Connect electronic thermostats 4 2 DANFOSS LIVING CONNECT ELECTRONIC THERMOSTAT 47 4 2 3 Adapters The Danfoss Living Connect is supplied with adapters for Danfoss RA valves and valves with M30X1 5 K connections The dev
42. ody The same sequence must be performed to exclude the device from the Z Wave network Chapter 5 Home Center 2 er 2 FIBARO SYSTEM 4 5 t 5 o amp The Home Center 2 is an electronic device which manages the Fibaro System The HC2 communicates with the system components sensors Fibaro modules located in user s house using wireless radio communication The Home Center 2 contains certified Z Wave communication module allowing for support of up to 230 devices integrated within a Mesh network The Home Center 2 uses a simple user friendly interface for the Fibaro system The device enables it s user to manage and control the house using any mobile or stationery device with internet access from anywhere in the world 5 1 HC2 Finder In a typical configuration the Home Center 2 should be connected directly to a router This way the DHCP server will set the HC2 a dedicated dynamic IP For the greatest ease of use we have provided designated software the Home Center Finder so that the user can find his her HC2 IP within the local network Home 59 60 CHAPTER 5 HOME CENTER 2 Center Finder scans the local network and displays the IP and MAC addresses of all available HC2 units 2 Fibaro Finder finder HC2 000417 192 168 100 44 38 60 77 92 ad bc HC2 000478 192 168 100 45 38 60 77 25 56 1f HOME CENTER HC2 000337 192 168 100 42 38 60 77 25 24 le HC2 AB2 192 168 100 205 38 60 77 21 d5 f4 HC2 0004
43. or installation in boxes gt 50mm Radio protocol Z Wave Radio Frequency 868 MHz for EU 908 MHz for US 921 MHz for AUS NZ BRA Range up to 50 m outdoors up to 30 m indoors depending on building materials Dimensions H x W x D 15 x 42 x 38 mm Electricity consumption j0 8W In case of load other than resistive pay attention to the value of cosp and if necessary apply load lower than the rated load Figure 3 9 Relay Switch 2x1 5kW configuration window Relay Switch 2x1 5kW configuration window HC2 interface shows the fol lowing parameters Devices name Room Parameter available from the list of rooms created see 5 3 for detailed description Device kind Devices type ID Devices number Node ID Unique devices number within Z Wave network 18 CHAPTER 3 FIBARO SYSTEM MODULES e EndPointID Multichannel devices number e Controlled Device Parameter taken from available devices list Show Slave Devices Show Slave Devices Power Output 3 2 3 Example Configuration Parameters Configuration parameters for each module are available in the Advanced Settings tab for each device in he Home Center 2 interface Parameter 3 Relay Auto OFF after specified time Default Setting Auto OFF disabled Parameter 4 amp 5 Relay 1 2 Auto OFF after specified time Default Setting 0 2s Parameter 13 State Change ON OFF for bistable switch Parameter no 14 Default Setting key position change ON o
44. ot possible it will use its routing table to find the next best way to the destination The controller can select up to three alternative routes and will try to send the message via these routes Only 2 3 ROUTING PRINCIPLES 5 if all three routes fail the controller does not receive an acknowledgement from the destination the controller will report a failure Chapter 3 Fibaro System Modules 3 1 Fibaro Dimmer FGD211 INTELUGENT HOME ASUILUIG WGLSAS OFA Figure 3 1 Dimmer module FGD 211 Radio controlled light dimming module designed to work with light sources of any type May be connected to two wire or three wire electric installation with or without neutral wire Fibaro Dimmer can switch or dim connected light source either through radio waves or through the wall switch connected directly to it Automatically senses connected device features automatic overload protection switch off and soft start function Works as a dimmer or as a connector with two wire or three wire installations In case of fluorescent light sources or certain transformers only on off function may be possible 3 1 1 Product Characteristics As at light dimmer it operates under the following loads 7 CHAPTER 3 FIBARO SYSTEM MODULES Conventional incandescent Halogen 230V Low voltage halogen 12V with electronic transformers Dimmable LED When used with FGB001 it may operate with any dimmable load up to 500W Moreover as
45. r OFF Parameter 14 Switch Type mono stable press switch or bistable Default Setting mono stable Parameter 15 Operating associated Dimmer Roller Shutter enable disable Default Set ting disable If enabled hold or double click given key to trigger associated Dimmer Roller Shutter Parameter 16 Device On Off after power cut Default setting OFF 3 2 4 Associations Association lets Relay Switch 2x1 5kW trigger other Z Wave devices e g Dim mer another Relay Switch Roller Shutter or a scene only involving Home Center 2 Triggering is performed in direct communication between devices without contacting the Home Center 2 except for the use as a scene triggering device 3 2 RELAY SWITCH 2X1 5KW FGS211 19 Relay Switch 2x1 5kW may associate with up to 16 ordinary devices or up to 7 multi channel devices per association group from which 1 device is always a network controller Recommended number of devices per association 10 The more devices that are associated the longer it will take for association action to take effect on each associated device Relay Switch 2x1 5kW supports two association groups I and Il I association group is designated for Switch Key no 1 II association group is designated for Switch Key no 2 3 2 5 Tips and Tricks 1 What is the minimum powering voltage Relay Switch 2x1 5kW may be powered by 24V DC current 2 May I connect two different Live wires one for the mo
46. r is the Home Center 2 The Secondary Master secondary e g remote or any other device bearing Secondary Master s characteristic Controllers initiate data transmission within the network Slaves are devices serving as actors i e they perform tasks directed by Master Devices 4 CHAPTER 2 THE Z WAVE PROTOCOL 2 2 How the network works Managing network nodes is realized through two types of operation includ ing excluding nodes and associating nodes Including device to the network means creating a new network node while excluding device means deleting net work node Each Z Wave network has one Primary Master Controller able to include exclude devices create delete network node Other controllers Sec ondary Master Controllers copy the informations from the Primary Master Adding deleting node always starts with entering the Primary Master Controller into learning mode and then by activating the device s inclusion The latter is done by the switch connected to the device a specially designated switch in the device or simply by clicking an icon in the system menu Primary Master Con troller s users interface Once the primary master controller receives information from a new node the node receives a Home ID same for each node within the network and its unique Node ID Association is a direct link between network nodes realised without any action from Primary Master Controller 2 3 Routing Principles In a typical wireless
47. r that reason all of them should be included into system after being installed in desired places Because of they are battery powered wireless sensors do not communicate with the Home Center 2 on constant basis They are referred to as sleeping nodes i e Home Center 2 communicates with them checking their status and network presence in certain time intervals these are defined as the Wake up intervals parameter in the device s configuration In addition to regular interval based communication each battery powered sensor communicates with the HC2 in case of breach arming or a forced change of state i e in the case of detecting a certain action 35 36 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 1 Universal Binary Sensor The Universal Binary Sensor is a wireless module designed for increasing any binary output sensor s functionality by adding possibility of wireless communi cation with Z Wave network and Fibaro System Moreover the module enables inclusion of DS18B20 temperature sensors to the Fibaro System A single Univer sal Binary Sensor supports up to two binary sensors of any type or four DS18B20 temperature sensors The Universal Binary Sensor is so small it can be place in side the casing of a sensor or other device that needs to be increased functionality The Universal Binary Sensor may be used anywhere where wireless data collec tion from sensors is needed After the appropriate protection the module may be use
48. re and humidity of an ambient environment The reading of tempera ture humidity can be reported on a regular basis If the temperature humidity reach set points the sensor will send alerts to associated devices for further execu tion Since sudden temperature humidity change may cause health problems to people such as elderly or very young children temperature humidity sensors pro vide the most up to date temperature and humidity reading for you to maintain your family s health When located in high humidity areas such as bathrooms the sensor can trigger devices such as extraction fans to protect your homes interiors from excessive moisture Figure 4 17 Temperature amp Humidity Sensor icons 4 5 1 Specifications e Communication protocol Z WAVE e Operating frequency 868 42 MHz e Temperature range from 10 C to 50 C 4 5 TEMPERATURE AND HUMIDITY SENSOR 53 e Humidity range from 20 to 90 e Unit of temperature 105 C 105 F e Power supply 3x1 5V batteries e Z Wave communication range up to 30m indoors 4 5 2 Everspring Temp Humidity sensor Inclusion Exclusion After setting the HC2 to learning mode Chapter 5 triple click 105 C 105 F L button on the sensor s body The same sequence must be performed to exclude the device from Z Wave network NOTE ST814 Temp Humidity sensor is presented in Home Center 2 inter face as three separate devices sensor module temperature sensor and humidity sensor
49. rescent lamp should turn ON Dimmer turns ON with full power Next complete inclusion process as described in the operating manual 2 How to set parameters for fluorescent lamp e Parameter 10 O seconds e Parameter 13 98 3 What kind of dimming does the Fibaro Dimmer provides The Fibaro Dimmer is a Leading Edge type dimmer The module is com patible with universal transformers and those designed for leading edge type dimming inclining sinusoid curve 3 1 FIBARO DIMMER FGD211 13 3 1 6 Wiring Diagrams Dimmer 1 Before beginning please make sure power supply is disconnected 2 Connect Dimmer observing wiring diagram shown below 3 Insert Dimmer and wall switch into connecting box 4 While completing point 3 please take special care to lay antenna wire properly Symbols description e L live wire e N neutral wire e O Dimmer output e Sx power for Switch connected to the Dimmer e S1 switch key 1 also enters Dimmer module into learning mode see inclusion process S2 switch key 2 e B service key used for including excluding device see S1 Figure 3 3 Dimmer wiring diagram 14 CHAPTER 3 FIBARO SYSTEM MODULES single switch double switch L N O SxS2 S1 DIMMER B L N O SxS2 S1 DIMMER B Figure 3 4 Dimmer wiring diagram 2 wire connection single switch double switch L N O Sx S2 S1 DIMMER e B L N O Sx S2 S1
50. ro System is comparable to that of wired home automation systems Fibaro System uses a Z Wave certified data transmission radio frequency e g 868 4 MHz in EU Each individual network gets its own unique identifica tion number home ID which gives the possibility for two or more independent Fibaro Systems to operate in the same building without any interference Z Wave wireless communication serves as a certified standard which assures compatibil ity for products produced by various manufacturers all over the world Thanks to that approach Z Wave technology offers great potential for expansion and further development Because Z Wave intelligent systems work in Mesh topology where each device node serves as a transmitter and receiver Each device node also reports it 1 2 CHAPTER 1 FIBARO SYSTEM GENERAL INFORMATION state which enables the central unit to constantly monitor the networks status Thanks to this technology the Fibaro System creates a dynamic network in which the function and location of each device is constantly monitored in real time from the moment the System is started Fibaro System modules serve as network nodes Thanks to Mesh topology each node not only sends and receives the radio signals but also serves as a relay for other nodes i e nodes collaborate to propagate the data within the network Each time nodes change their location or one of the nodes dies the network reconfigures itself automatically T
51. rted and currently recorder by the sensor If the difference in temperature meets or exceeds defined level then report to device in third association group is sent Parameter 10 defines intervals between temperature readouts Value set at O means sensor reports each change in temperature Default value 8 0 5 C Parameter 13 Alarm frames or steering frames sent in broadcast mode i e to all devices within the device s reach Default vaule 0 broadcast mode OFF NOTE Broadcast mode cancels single cast communication with associated devices for given channel Parameter 14 Scene activation Scene number corresponds to button pushed Default value 0 4 1 3 Universal Binary Sensor Inclusion Exclusion After entering Home Center 2 into learning mode described in 5 triple click button B 4 1 4 Wiring Diagrams Universal Binary Sensor Please note e When using DS18B20 temperature sensors it is recommended to use single wire cables no longer than 30 m e Do not arrange DS18B20 temperature sensors cables parallel to house elec trical system cables 230V AC High voltage AC wires may induce magnetic field resulting in erroneous DS18B20 temperature sensors readouts e DS18B20 temperature sensors should be tested before being mounted in desired locations 40 CHAPTER 4 WIRELESS Z WAVE SENSORS e Depending on number of the devices connected to it the Universal Binary Sensor may be presented in HC2 interfac
52. s see chapters 3 and 4 Add Device To add device You should To Add a Camera To add the Virtual Device Figure 5 3 Adding Devices Window 5 4 2 IP Camera Inclusion To add new IP camera click Add A new window will pop up in which all camera configuration options will be available After completing the camera configuration click Save on the top of the screen When including new IP camera following options need to be configured e Camera name e Room in which the camera will be presented in the interface e Camera model May be picked from the list e Camera access User s login and password IP Address of the camera 64 CHAPTER 5 HOME CENTER 2 Camera Advanced Settings Camera Configuration Figure 5 4 Adding IP Camera window e JPG path JPG picture is used in remote access All the necessary infor mation should be available in the camera s user manual e MJPG path MJPG stream path is used in local access e If the camera can be rotated paths for each movement direction specified in camera s user manual 5 4 3 Creating Virtual Devices Virtual devices were designed to control complicated devices such as boilers air conditioning units and home appliances kitchen audio and video appliances These kinds of devices may be managed through multiple component communi cation protocol and the use of RS232 and Ethernet ports The Fibaro System makes it possible to create new device types and create
53. see fig 4 17 54 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 6 Door Window Sensor J J Figure 4 18 Door Window Sensor The Aeon Labs D W Sensor is a battery powered Z Wave magnetic door window sensor The D W sensor will send radio signals up to 6 associated Z Wave devices within its own Z Wave network when the main unit separates from the smaller magnetic unit Bidirectional mounting plate and push button allows for easy end user installation The Aeon Labs D W Sensor also has tamper prevention and low battery alerts General Disarm Figure 4 19 Door Window Sensor Configuration Window D W Sensor s configuration window HC2 interface shows following param eters e Devices name e Room Parameter available from the list of rooms created see 5 3 for detailed description e Device kind 4 6 DOOR WINDOW SENSOR 55 Device type e ID Device number Node ID Unique devices number within Z Wave network EndPointID Multichannel devices number e Wake up interval Time interval for HC2 to communicate with the Flood Detector 4 6 1 Specifications e Radio protocol Z WAVE e Frequency 868 42 MHz e Z Wave communication range Up to 30m indoors e Dimensions L x W x H 20 x 34 x 79 mm main body 4 6 2 Aeon Labs D W Sensor Inclusion Exclusion After setting the HC2 to learning mode Chapter 5 triple click the tamper button on the sensor s main body The same sequence must be performed
54. to exclude the device from the Z Wave network 56 CHAPTER 4 WIRELESS Z WAVE SENSORS 4 7 Smoke Detector Figure 4 20 Smoke Sensor The sensor is designed to detect smoke that comes into the sensor chamber It does not detect gas heat or flame The working principle is when the smoke sensor detects a certain density of smoke the siren of the smoke sensor will sound and the sensor will emit signals to the associated devices for further execution It can provide precious time for you and your family to escape before a fire spreads General VR Disarm Figure 4 21 Smoke Sensor Configuration Window Smoke Detector s configuration window HC2 interface shows following pa rameters e Devices name e Room Parameter available from the list of rooms created see 5 3 for detailed description 4 7 SMOKE DETECTOR 57 e Device kind e Device type e ID Device number e Node ID Unique devices number within Z Wave network e EndPointID Multichannel devices number e Wake up interval Time interval for HC2 to communicate with the Flood Detector 4 7 1 Specifications e Z Wave device type slave e Sensor type photoelectric smoke sensor e Estimated battery life 1 year e Power 9V e Low battery warning e Test button e Warning sound yes 85dB 4 7 2 Smoke Sensor Inclusion Exclusion After setting the HC2 to learning mode Chapter 5 triple click binding button located inside the sensor s main b
55. to last memorized status Default value 255 Parameter 8 Parameter defining forced level of dimming blinds opening in case TURN ON OPEN commands are sent to devices of 2nd association group In case of alarms alarm priority is defined Default setting enables turning device ON In case of Dimmer this means turning to last memorized status Default value 255 Parameter 9 Alarm cancelling frame or turning the device off steering frame Basic deactivated Allows you to deactivate the feature off and cancel alarms for devices paired with the given input of Fibaro Sensor Default value 0 for association groups 1 amp 2 information is sent Parameter 10 The interval between temperature readings from all sensors connected to the device NOTE The temperature reading from the sensor does not result in sending a report to HC unit Default value 20 sec Parameter 11 The interval between successive reports on the state of the temperature Forced report is sent immediately after the next reading of the temperature sensor 4 1 UNIVERSAL BINARY SENSOR 39 regardless of the setting of parameter No 12 Default value 200 sec NOTE Frequent reports on the state of the temperature make sense in the case when the sensor is placed at the point where it is exposed to rapid changes in ambient temperature In other cases we recommend you left the default value of the parameter Parameter 12 Maximum allowed difference in temperature last repo
56. utral wire e S1 switch key 1 also enters the module into learning mode see inclusion process e S2 switch key 2 e O1 output 1 02 output 2 e B service key used for including excluding device see S1 S1 S2 0102 L N Roller Shutter Figure 3 22 Wiring diagram Roller Shutter 3 5 DIMMER BYPASS FGB 001 33 3 5 Dimmer Bypass FGB 001 Figure 3 23 Bypass module FGB 001 Bypass Fibaro is a device complementary to Fibaro Dimmer FGD211 Its installation enables the Dimmer to dim light sources with minimum power con sumption such as e g single 0 5Watt LED Please note it is possible to dim only light sources clearly marked as dimmable 3 5 1 Specifications e Power source 230V 10 50Hz e Temperature limits 105 C e Outside dimmensions L x W x H 17mm x 18mm x 8 3mm 34 CHAPTER 3 FIBARO SYSTEM MODULES 3 5 2 Connecting Scheme Bypass N OUTP2 P1 DIMMER Figure 3 24 Wiring diagram Bypass Chapter 4 Wireless Z Wave Sensors The Fibaro System consists of a constantly growing range of wireless sensors All of the sensors communicate using the Z Wave protocol Their main characteristic is battery power supply allowing sensors to be installed almost anywhere within the range of Z Wave network The Expected maximum battery life is 2 3 years and the battery state may be monitored via the Home Center 2 Z Wave wireless sensors do not serve as mesh network signal relays Fo
57. vailable in Advanced Settings tab for each device in Home Center 2 interface Parameter 1 Delayed alarm cancellation at input IN1 This option enables you to define additional time after which IN1 alarm gets cancelled after it s breach is no longer present Default value 0 Parameter 2 Delayed alarm cancellation at input IN2 This option enables you to define additional time after which IN2 alarm gets cancelled after it s breach is no longer present Default value 0 Parameter 3 Input 1 type Default value 1 INPUT NC Normal Close Default value 1 INPUT_NC Normal Close Parameter 4 Input 2 type 38 CHAPTER 4 WIRELESS Z WAVE SENSORS Default value 1 INPUT NCNC Normal Close Default value 1 INPUT NC Normal Close Parameter 5 Steering frame type for 1st association group triggered from input IN1 Pa rameter enables setting alarm frame type or forces sending of steering frames BASIC SET Default value 255 BASIC SET Parameter 6 Steering frame type for 2nd association group triggered from input IN2 Pa rameter enables setting alarm frame type or forces sending of steering frames BASIC SET Default value 255 BASIC SET Parameter 7 Parameter defining forced level of dimming blinds opening in case TURN ON OPEN commands are sent to devices of Ist association group In case of alarms alarm priority is defined Default setting enables turning device ON In case of Dimmer this means turning
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