Philips LightMaster
Contents
1. Corridor Notifier Sync a TERT CelOfie 1 _______________ Cell Office 2 Sensor 04 1 1 3 1 1 3 1 1 4 1 1 4 L Motion Scene J Lamp Driver X Scene L Motion Scene Lamp Driver X Scene 1 1 3 1 1 4 Corridor Notifier Scene Corridor Activator Scene 1 5 2 1 5 2 Corridor Activator Scene Corridor Timer Scene Corridor Activator Sync Corridor Timer Sync Corridor Lobby 1 5 2 Corridor Timer Sync Corridor Notifier Sync Corridor Activator Sync a 1 1 4 Philips LightMaster 126 Group Addresses BD Dynamic Folders 4 580 New main group 8 12 Lamp Driver 2 Scene Scene control 4 58 0 1 New middle group 82 23 Lamp Driver 3 Scene Scene control 0 1 1 Cell Office 1 a 705 Sensor 1 Motion Scene Scene control 725 Sensor 1 Corridor Notifier Scene Scene Sync E 1 Lamp Driver 1 Scene Scene control 1 1 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX U E Group Addresses Dynamic Folders 0 New main group 4 9 0 1 middle group 0 1 1 Cell Office 1 a 34 Lamp Driver 4 Scene Scene control 82 45 Lamp Driver 5 Scene Scene control a 56 Lamp Driver 6 Scene Scene control a 742 Sensor 2 Motion Scene Scene control 0 1 2 Cell Office 2 22 762 Sensor 2 Corridor No2. 1 3 1 Room Light Regulation Window Row 715 Sensor 1 Light Absolute Level Row 1 Absolute level 11 1 PDBC120 DALI KNX No percentage 0 100 C 4 111 Associations 4 Group Addresses Device E ACK PL Data Types Dynamic Folders 1 Lamp Driver 01 Scene Scene control 11 1 PDBC120 DALI KNX No scene control 0 New main group a 12 Lamp Driver 02 Scene Scene control 1 1 1 PDBC120 DALI KNX No scene control 4 0 1 Scenes 22 23 Lamp Driver 03 Scene Scene control 1 1 1 PDBC120 DALI KNX No scene control 0 1 1 Light Regulation Room Scene 22 705 Sensor 01 Motion Scene Scene control 11 1 PDBC120 DALI KNX No scene control B2 713 Sensor 01 Light Scene Scene control 1 11 PDBC120 DALI KNX No scene control Be 0 A rocker scene group A object 1 1 1 2 Philips First Series Panel Euro Style KNX No scene number 22 7 C1 1 switching channel Scene 1 1 3 PDTC100 KNX No scene number _ f Associations Setup Fade time when dimming value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s Philips LightMaster 113 2 Select a fade time value or select NoFade from the Fade time when dimming dropdown list 3 Enable the Absolute level DPT Scaling group object parameter for each DALI channel in your area 4 Link the Lamp Driver X Absolute dimming objects for the channels in your area
3. 2 Select a DALI Sensor for Corridor On the Sensor Applications page Select the Corridor application Enable the option Use Motion Sensor Set the option This Motion Sensor is used for AutoOnAutoOff Enter the Switch Off Timer Enable the option Show Advanced This will display Use Corridor hold on option Enable Use Corridor hold on Enable Area has a parent Link Sensor 3 Motion Scene Sensor 3 Activator Scene and Sensor 3 Timer Scene to the scene control group address for Corridor area Link Sensor 3 Activator Sync and Sensor 3 Timer Sync Objects to the Cell office Occupancy Sync group address Link Sensor 3 Notifier Sync to the Corridor Occupancy sync group address Configure a Sensor for Lobby 2 Philips LightMaster Select a DALI Sensor for Lobby On the Sensor Applications page Select as Corridor application Enable the option Use Motion Sensor Set the option This Motion Sensor is used for as AutoOnAutoOff Enter the Switch Off Timer Enable the option Show Advanced This will display Use Corridor Hold On option Enable Use Corridor Hold On Link Sensor 4 Motion Scene Sensor 4 Activator Scene and Sensor 4 Timer Scene to the scene control group address for the Lobby area Link Sensor 4 Activator Sync and Sensor 4 Timer Sync Objects to the Corridor Occupancy Sync group address 129 3 25 Background level for Open Plan Also known as adjace
4. Philips LightMaster 83 24 454 Locate lamp driver channels and assign DALI addresses Flash and Stop Flash are used to find the physical location of ballasts and sensors in a project by sending messages to alternate levels between minimum level and maximum level This information is then used to determine DALI lamp driver channels assignments and group address links for that area Tip Ensure your channels are named according to their areas before assigning short addresses The enumeration process randomly assigns DALI short addresses to DALI lamp driver channels and devices This will most likely not be in the order that you have chosen for your floor layout The DALI addresses can be swapped to match the correct DALI lamp driver channels devices Locate lamp driver channels devices and assign DALI addresses l Select the lamp driver channel device in the configuration window 2 Click Flash to identify the lamp driver channel device location use the sign on procedure below for DALI dry contact devices 3 Find the correct channel device name that belongs to this DALI Address and drag it to the flashing channel The flashing moves to the correct channel device name and the swap assignment icon and new short address is displayed previous assignment is shown in brackets 4 Click the Confirm icon for the channel device that is now flashing to confirm that it correctly assigned 5 Click m Stop Flash 6 Cli
5. Stop Ramp Program Scene Program Scene 1 Toggle Scene On Scene 1 Off Scene 4 Toggle On Off Toggle On Off Toggle Level Minimum Level 5 0 Maximum Level 100 Toggle Ramp Step Up 51 100 Step Down Size 100 Philips LightMaster Recall Scene Enter a scene number in the range 1 to 32 Recall On Off Enter a target state Recall Level Enter a target level as a percentage Ramp Level Enter a direction Increase or Decrease and a step size as a percentage Stop Ramp No entry required Program Scene Enter a scene number where the current levels will be saved Toggle Scene Enter an on scene number and an off scene number Toggle On Off No entry required Toggle Level Enter a minimum level and a maximum level as a percentage Toggle Ramp Enter a step up size and a step down size 60 2 1553 Group objects Click the checkboxes to enable the following group objects e Scene DPT SceneControl e ON OFF Switch e Absolute level Scaling e Relative level Control Dimming Philips LightMaster 61 2 15 Group object types This section lists the KNX group objects The group objects are used for the assignment of group addresses Objects become visible when their function is enabled Number 8 2 8 4 82 5 826 82 7 8 82 9 10 82 11 m 12 Lamp Driver 01 On Off Lamp Driver 01 Absolute Dimming Lamp Driver
6. Enables motion and no motion actions to switch channels ON and OFF in addition to scene changes Not compatible with Corridor hold on 2 8 2 4 Use light sensor Click the checkbox to enable light control functions 2 8 2 5 Use coridor hold on Click the checkbox to enable Corridor hold on control functions Philips LightMaster 32 2 8 3 Motion control The purpose of motion control is to automatically illuminate a space when it is occupied and reduce or extinguish lighting when it is vacant to save energy Any number of light fixtures may be controlled with motion control from a single sensor Motion control This motion sensor is used for FS aaa Switch off timer s 600 Smart timer i Daylight override Multiple sensor area F 2 8 3 1 This motion sensor is used for Select how the motion sensor in the room will be used e Auto On and Auto Off e Auto On and Manual Off e Manual On and Auto Off e Manual On and Manual Off 2 8 3 2 Switch off timer s Time period before going to the Switch Off Warning scene Default 15 minutes Min 70 seconds 2 8 3 3 Smart timer s Enable extended timeout Extends the time before Switch Off Warning to 25 minutes if motion is detected during the first switch off warning 2 8 3 4 Daylight override Used in Open loop light control Disables motion detection when there is sufficient daylight by placing the area into a scene that does not use motion control actions 2 8 5
7. Motion scene object and Sensor 2 Notifier Scene object to Lamp Driver X Scene Object s for Cell Office 2 Link Sensor 3 Motion Scene object Sensor 3 Activator scene object Sensor 3 Timer scene object to Lamp Driver X Scene Object s for Corridor area Create an Occupancy sync group address Link Sensor Notifier Sync Sensor 2 Notifier Sync Sensor 3 Timer Sync and Sensor 3 Activator Sync to the occupancy sync group address 1 1 1 Motion Scene SS 1 1 1 Corridor Notifier Scene 1 1 3 1 1 3 Motion Scene Lamp Driver X Scene Corridor Activator Scene 1 5 1 Corridor Activator Sync 1 1 3 Corridor Timer Scene 1 1 2 1 1 2 ibas L Motion Scene Lamp Driver X Scene 1 1 2 Corridor Notifier Scene 1 5 1 Corridor Notifier Sync 1 5 1 Corridor Notifier Sync 1 5 1 Corridor Timer Sync Philips LightMaster 123 ea Obst ____ Devi __ Sensing _A0x 1 Lamp Driver 1 Scene Scene control 1 1 1 PDBC120 DALI KNX 111 PDBC120 DALI KNX No 111 PDBC120 DALI KNX No 111 PDBC120 DALI KNX No 11 PDBC120 DALI KNX No Group Addresses Dynamic Folders 0 New main group 4 B80 1New middle group 82 23 Lamp Driver 3 Scene Scene control 0 1 1 Cell Office 1 27 705 Sensor 1 Motion Scene Scene control a 725 Sensor 1 Corridor Notifier Scene Scene Sy
8. 2 Select the function in the Action Chain Editor window 3 Enter the required parameters for the function or click Delete to remove the function 4 Enable the related group objects for the selected functions Function Parameters Recall Scene Recall Scene 1 Recall On Off Target State On Recall Level Target Level 5 100 Ramp Level Direction Decrease Step Size 100 e Recall Scene Enter a scene number in the range 1 to 32 e Recall On Off Enter a target state e Recall Level Enter a target level as a percentage e Ramp Level Enter a direction Increase or Decrease and a step size as a percentage 2 9 4 1 Use global timeout Use the value in the Timing Switch off timer parameter 2 9 4 2 Switch off timer s Specify an individual Switch off timer parameter value no motion timeout period This parameter is only enabled when Use global timeout is unchecked 2 9 4 3 Delay Select No Delay Action Delay or Resend Inhibit for an individual scene Philips LightMaster 38 2 9 5 Logic function Logic function Logic input motion motion output AND Logic input motion logic output AND Invert logic input Fl Invert motion input 2 9 5 1 Logic input motion motion output The Sensor X Motion Logic Input and Logic Output objects allow the sensor to perform a logical function AND OR XOR with an external bit input and the internal motion sensor state 1 O Unoccu
9. Output DPT_ Scaling 8 bit Low C R W T U The Sensor X Motion Absolute Level object provides a percentage dimming level for the lighting channels When receiving a light level different from the current light level the channel will fade to the new light level using the Fade time when dimming value set for the channel Philips LightMaster 65 Sensor X Motion Off Function Type Size Priority Flags Output Switch bit Low C R W T U The Sensor X Motion On Off object is used for switching the lighting channels ON O OFF If the channel is OFF and an ON telegram is received then then the lights will fade up to the previous level using the Fade time when switching value set for the channel 2 15 2 4 Sensor X Motion Relative Level Function Type Priority Output DPT Control Dimming 4 bit Low CRT The Sensor X Motion Relative Level object is used for increasing or decreasing the channel level by a set percentage It provides a way to dim the lights using a relative target level One variable indicates an increase or decrease in brightness and the other indicates the step code which is converted to a percentage step size Ramping up will stop after changing by the step size or at the maximum level configured for the channel Ramping down will stop after changing by the step size or at the minimum level configured for the channel The lights will make the relative change using the Fade time when ramping va
10. bit Low C R W The Sensor X Light Enable object allows an external object to dynamically enable disable the light control function on the device It uses a bit data point type Enabled O Disabled The dynamic enable disable does not persist After a power up the configured enable disable parameter will initialize the state PA be P 17 Sensor X Corridor Hold On Enable Function Type Size Priority Flags Input DPT_Enable bit Low C R W T The Sensor X Corridor Hold On Enable object allows an external object to dynamically enable disable the Corridor Hold On function on the device It uses a bit data point type Enabled 0 Disabled The dynamic enable disable does not persist After a power up the configured enable disable parameter will initialize the state Philips LightMaster 69 DARD Sensor X Corridor Timer Sync Function Priority Input Output DPT Occupancy bit Low C R W T The Sensor X Corridor Timer Sync object sends receives a regular heartbeat to signal the occupancy state Occupied 0 Unoccupied It enables child areas to report their occupancy state to parent areas and to other child areas Heartbeat notification period timers are restarted whenever a heartbeat signal is sent received Network traffic is reduced as only the area with the next occurring timeout needs to signal occupancy The heartbeat signal only operates when an area is in a predefined active scene Occupied scenes are the act
11. lamp driver channel can receive telegrams from many group addresses Group address can be represented in three different ways e three digits x y z O 31 y O 7 z 0 255 e two digits x z x 0 31 z 0 2047 e digit x x 0 65535 Using the customer requirements and reflected ceiling plan you can identify the lighting functions and channels lamp groups required in each area The example illustrates group addresses for typical lighting functions using three digit addressing Tip In the plug in make sure you name each Lamp driver Output channel according to the area where it will be located and record this information to help identify the lamp driver objects z 0 Office Link DALI lamp drivers to group addresses d 0 1 Scenes 0 1 0 All areas 0 1 1 Reception 2 Add Middle Groups for each type of lighting control 0 1 2 North corridor 0 1 3 Meeting room Add a Main Group for your office 3 Adda Group Address for every group of lamp 0 1 4 Meeting roam Presentation room drivers that you want to control together SRM 0 175 Presentation room 4 Add an additional group address in each area if you 0 1 8 Boardroom want to control all the lamp drivers in the area 0 1 11 Small office together or to control multiple groups 0 1 12 Breakout 5 Under each type of lighting control link the 0 1 15 West corridor matching lamp driver objects to the group addresses 0 2 On Off for each channel lamp group w
12. 11 PDBC120 DALI KNX S 11 1 PDBC120 DALI KNX S 11 1 PDBC120 DALI KNX S S 11 1 PDBC120 DALI KNX 724 Sensor 01 Corridor Notifier Sync On Off Sync 4 EBO New main group 82 761 Sensor 02 Corridor Notifier Sync On Off Sync 4 0 5 New middle group n 796 Sensor 03 Corridor Timer Sync On Off Sync 0 5 1 Occupancy Sync 800 Sensor 03 Corridor Activator Sync On Off Sync Setup scenes for lamp driver channels On the DALI MultiMaster Scenes page enter a scene name 2 Entera percentage in the Level 76 column for each DALI channel in your area 3 Enter a fade time for each channel if applicable advanced 4 Enter level 10075 for Occupied scene Scene 1 level 20 for Switch off warning scene scene 10 and level 0 for unoccupied cell office scene Scene 13 Enter level 10076 for unoccupied corridor Scene 11 and level 076 for corridor hold time out scene Scene 15 5 Enable the Scene DPT SceneControl group object for each DALI channel in your areas 6 Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Philips LightMaster 124 Configure Sensor for Cell Office and Sensor for Cell Office 2 2 12 Select a DALI Sensor for Cell Office On Sensor Applications page select the CellOffice application Enable the option Use Motion Sensor Set the option This Motion Sensor is used for AutoOnAutoOff Enter the Switch
13. 16 16 l6 7 7 18 19 19 19 20 2 5 DALI lamp drivers global channel properties 2 5 1 Channel control 2 5 2 Emergency testing 2 5 3 Group objects 2 5 4 DALI group objects 2 6 DALI lamp driver channel properties 2 6 1 General 2 6 2 DALI address 2 6 3 Channel control 2 6 4 Emergency testing Philips LightMaster 21 21 21 22 22 23 23 23 24 24 2 6 5 Group objects 2 6 6 DALI group objects 2 7 Sensor device properties 2 7 1 Device identification 2 2 Product information 27 3 DALI address 2 8 Sensor applications 2 8 2 General 2 8 3 Motion control 2 8 4 Light control 2 8 5 Corridor hold on 2 9 Sensor properties Motion control 2 9 1 General 2 9 2 Timing 2 9 3 Scene actions 2 9 4 Action Chain Editor 2 9 5 Logic function 2 9 6 Group objects 2 10 Sensor properties Light control 2 10 1 Closed loop 2 10 2 First offset row 2 10 3 Second offset row 2 10 4 Closed loop scenes 2 10 5 Open loop 2 10 6 Open loop bands 2 10 7 Action Chain Editor 2 10 8 Lux sensor 2 10 9 Calibration 2 10 10 Group objects 2 11 Calibrating the sensor 2 12 Sensor properties Corridor hold on 2 12 1 Corridor hold on linking 2 12 2 General 2 12 3 Corridor hold on objects 2 12 4 Action Chain Editor 2 13 Dry contact device properties 2 13 1 Device identification 2 13 2 Product information 2 13 3 DALI address 2 14 Dry contact switch properties Switches 2 14 1 Action 2 14 2 Action Chain Editor 2 14 3 Group o
14. 27 The standard applications use the following default scene numbers to enable the selected behavior e Scene Automatic Mode e Scenes 2 8 Manual Override e Scene 9 Smart Timer Active e Scene 10 Switch Off Warning e Scene Unoccupied Corridor e Scene 12 Unoccupied Open Plan e Scene 3 Unoccupied Cell Office e Scene 14 Daylight Override e Scene 5 Corridor Hold Time Out e Scene l6 User Defined scene For example to override motion sensing send scene 2 to the Sensor Motion Scene object Note Selecting an application modifies the settings on the Application page as well as on Sensor properties page Reselecting any application resets all Sensor settings to the defaults for that application The default levels used for LightMaster applications are 100 2 70 3 40 4 0 5 80 6 60 7 50 8 20 9 100 10 20 E 100 12 20 13 0 14 0 5 0 l6 100 Philips LightMaster 28 2 8 1 1 Cell Office Application Motion control actions e On first motion recalls Automatic Mode Scene 1 e After 15 minutes of no motion recalls Switch Off Warning fades in 2 sec to 20 for 30 seconds before recalling Unoccupied Cell Office and switching off e Selection between auto manual and on off e Optional Daylight Override whole room e Optional multi sensor area enables Motion Timeout Sync group object e Optional Smart Timer adds 10 minutes to timeout if motion is detected during Switch Off Warning Light
15. DALI status polling interval ms Tick the Show Advanced check box in the top right hand corner to reveal additional parameters The button opens the DALI configuration Wizard The button restores the plug in configuration to the default settings Philips LightMaster 2 2 1 Standard configuration When configuring the MultiMaster controller the configuration may be completed in two phases Offline and Online Offline configuration steps 11 Online configuration steps Enter MultiMaster properties 5 Download All KNX information a Channel names 6 Run Plug In and enumerate DALI b Enable group objects network C Scene count and scene names d Lighting scene levels and fade times 7 Locate lamp driver channels devices and assign DALI short addresses Select application and or enter Sensor properties and Dry Contact Switch properties 8 Save configuration data Create Group addresses for each function in 2 Maintenance Activities each area Link group addresses to input objects and output objects Note During maintenance activities if there are any modifications to the scene levels or new KNX group addresses added then Update DALI Scenes is a mandatory step when saving configuration data 2 2 2 Configuration Menu The Configuration Menu can be expanded and collapsed using the gt and w icons Clicking expands the tree to reveal the configuration p
16. Firmware minor version e Firmware build number e Bootloader major version e Bootloader minor version e Bootloader build number e GTIN Philips LightMaster l6 2 3 3 Startup settings Startup settings Startup scene 2 3 3 1 Startup scene A startup scene for all lamp driver channels can be specified for when the device powers up Default last scene 2 3 4 Count settings When using more than 10 MultiMaster devices in a universe the number of allowed DALI ballasts is reduced due to DALI power limitations see table Usually less than the maximum 64 addresses are installed due to circuit loading considerations and to leave spare addresses for future modifications Maximum number Maximum number of of Sensors Switches DALI lamp drivers 59 12 54 13 49 14 44 15 39 16 34 Count settings Device configuration Lamp drivers and 10 DAL devices Lamp drivers count sensors devices count 10 Dry contact devices count 10 2 3 4 1 Device configuration Click the dropdown list to select the combination of DALI devices and DALI lamp drivers for this controller 2 5 4 2 Lamp drivers count Enter the total number of DALI lamp drivers connected to this controller 2 3 4 3 Sensor devices count Enter the total number of DALI sensors connected to this controller 2 5 4 4 Dry contact devices count Enter the total number of DALI dry contacts connected to this controller Philips LightMaster 17
17. Lamp Driver X Scene 0 1 2 Corridor Activator Scene Open Plan 0 1 2 Corridor Timer Scene Work Island 2 Corridor Activator Scene 0 1 5 Lamp Driver X Scene 0 1 4 Motion Scene 0 1 4 Corridor Notifier Scene 0 5 1 Corridor Notifier Sync 0 1 4 J 0 1 4 Lamp Driver X Scene Corridor Timer Scene Corridor Activator Scene 0 5 1 l Corridor Activator Sync 0 1 4 Corridor Timer Scene 0 5 1 Corridor Timer Sync Work Island 4 PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX scene control scene control scene control scene control Scene Sync scene control Scene Sync scene control 0 1 4 Worklsland 4 MI ne ee a 4 Find Philips LightMaster Associations 133 Group Addresses Dynamic Folders 4 0 New main group 4 8 0 1 New middle group B8 0 1 1 Worklsland 1 0 1 3 Worklsland 3 0 1 4 Worklsland 4 Group Addresses gt e Dynamic Folders 4 BaO New main group 4 8 0 1 New middle group 0 1 1 Worklsland 1 0 1 2 Worklsland 2 EB 0 1 4 Worklsland 4 Find E sz Group Addresses Dynamic Folders 0 New main group 4 8 0 1 New middle gro
18. LightMaster 41 LAOS Second offset row Second offset row Max offset Negative affset Zero offset level 96 C3 Zo Max offset Maximum light level difference between the window row and the corridor row ZA a2 Negative offset Select this checkbox if the sensor is located near the corridor row Zero offset level There will be no offset if the light level at the offset row is above this value 2 10 4 Closed loop scenes 100 Zero oftset level Max offset row Closed loop regulation may be defined for the first primary second and third lighting rows nearest to the incoming daylight The two corridor rows have a configurable max offset and zero offset level default 30 and 50 offset The Offset cannot be changed using dimming telegrams 0 Corridor rows still regulate while primary window row is at min level They reach min level when light level detected by the sensor is 100 max offset setpoint A negative offset is allowed e g regulate middle row when the sensor is in the middle Often the corridor rows will by default have a minimum output greater than zero indicating to the user that the lighting is operational It is however possible to configure corridor rows to be switched OFF completely All rows can be configured to switch off on a daylight threshold Daylight override applies to all rows Not just the window row Min and max levels are configurable per row Phili
19. LightMaster 67 Sensor X Light Absolute Level Row 1 Function Priority Output DPT Scaling 8 bit Low C R W T U The Sensor X Light Absolute Level Row object provides a percentage dimming level for lighting channels near incoming daylight It is primarily used for closed loop light regulation The sensor modifies the current light level to maintain a constant light level setpoint in the area below the sensor It is essential that the sensor can see the effect of the light modification Each lighting channel can have a different offset value from the setpoint depending on the location relative to the incoming daylight When a scene is recalled in which closed loop regulation is enabled the sensor will request the current light level as the starting level While regulating the sensor can only regulate the light level between the min level and max level configured for that scene 215 212 Sensor X Light Absolute Level Row 2 Function Type Size Priority Flags Output DPT Scaling 8 bit Low C R W T U The Sensor X Light Absolute Level Row 2 object provides a percentage dimming level for lighting channels near incoming daylight It is primarily used for closed loop light regulation The sensor modifies the current light level to maintain a constant light level setpoint in the area below the sensor It is essential that the sensor can see the effect of the light modification Each lighting channel can have a different offset
20. control actions e Closed loop enabled in Automatic Mode disabled in Manual Override scenes e Two optional extra rows are configurable with dynamic offset compared to Row Default max offset Row 2 30 higher channel level Row 3 50 higher channel level e If there is enough light gt 15076 of target level the lights will switch OFF after a 15 minute delay and ON when the light level drops lt 11076 of target level e If scene is recalled the lights will fade to the level defined for scene Scene levels are configurable but default is 10076 before regulating to the required lux level Regulation starts after 10 seconds and it will take several minutes to regulate from 10076 to 176 The switch on level is defined in the scene and does not depend on the current light sensor value The same applies for corridor rows e Corridor rows still regulate while window row is at min level They reach min level when light level detected is 10076 offset setpoint e Daylight Switch off for all rows is configurable advanced application settings Manual control actions e Scene recalls automatic behaviour motion and light e Scene 2 8 are manual overrides No daylight regulation o Motion times out after 15 minutes using Switch Off Warning After no motion time out triggering motion will recall scene not the previous scene o Smart timer operates but it will go back to automatic behaviour not to the manually selected s
21. drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when ramping dropdown list 3 Enable the Relative level DPT Control Dimming group object parameter for each DALI channel in your area 4 Link the Lamp Driver X Relative Dimming objects for the channels in your area to the Relative level control group address for that area Philips LightMaster 97 Configure Switches to perform Toggle Ramp and Stop Ramp functions 2 Philips LightMaster Select DALI dry contacts DALI dry contact X Switches Switch Select Toggle Ramp from the Switch actions dropdown list Select 100 from the Step Up Size dropdown list Select 100 from the Step Down Size dropdown list Select DALI dry contacts DALI dry contact X Switches Switch 2 Select Stop Ramp from the Switch actions dropdown list Enable the Relative level DPT Control Dimming group object parameter for the Switch Link the Switch X X Relative level objects to the Relative level control group address for the area 98 3 9 Ramp Up or Down and Stop A single switch can perform a Ramp Up or Ramp Down upon an extended press action and a Stop Ramp function upon release of the extended press action Relative level control ramps the channel level UP or DOWN 100 until maximum level or minimum level is reached or the stop ramp command is triggered The switch ramps the level
22. is above a certain threshold ZON 0 OFF If the channel is OFF and an ON telegram is received then then the lights will fade up to the previous level using the Fade time when switching value Philips LightMaster 68 2 192 125 Sensor X Light Relative Level Function Type Priority Output DPT Control Dimming 4 bit Low CR T The Sensor X Light Relative Level object is used for increasing or decreasing the channel level by a set percentage It provides a way to dim the lights using a relative target level One variable indicates an increase or decrease in brightness and the other indicates the step code which is converted to a percentage step size Ramping up will stop after changing by the step size or at the maximum level configured for the channel Ramping down will stop after changing by the step size or at the minimum level configured for the channel The lights will make the relative change using the Fade time when ramping value set for the channel It is not possible to switch lights off with this function The most significant bit indicates the ramping direction increase O decrease The step code is a 3 bit value in the range 0 to 7 A zero code provides the stop ramp function Step code 10076 Step size Step size 0 Break indication Stop ramp 100 2 2 50 3 4 25 4 8 12 5 5 l6 6 2576 6 32 3 12576 7 64 1 5625 1202 16 Sensor X Light Enable Function Type Size Priority Flags Input DPT_Enable
23. level 11 1 PDBC120 DALI KNX M Associations Setup Fade time when switching value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when switching dropdown list 3 Enable the ON OFF DPT Switch group object parameter for each DALI channel in your area 4 Link the Lamp Driver X On Off objects for the channels in your area to the On Off control group address for that area Configure Switch to Toggle On Off l Select DALI dry contacts DALI dry contact X Switches Switch 1 2 Select Toggle On Off from the Switch actions dropdown list 3 Enable the ON OFF DPT Switch group object parameter for the Switch 4 Link the Switch X X On Off object to the On Off control group address for the area Philips LightMaster 95 3 Toggle Level Toggle level uses absolute level control to alternate between two dimmed levels The switch recalls Minimum level and Maximum level using the fade time when dimming value specified in the Lamp Driver channels Create an Absolute level control group address Link the Switch X X Absolute Level object with the Lamp Driver X Absolute Dimming object s Dry Contact 1 0 3 1 Minimum Level 0 3 1 Switch X X Absolute Level Maximum Level Lamp Driver X Absolute Dimming 4 Addresses D
24. objects Group objects Scene DPT_SceneControl m ON OFF DPT Switch wl Absolute level DPT_Scaling Fl Relative level Contol Dimming Feedback ON OFF DPT Switch Feedback level DPT Scaling Running hours DPT_TimerPeriodHrs 2 Click the checkboxes to enable the following group objects e Scene DPT SceneControl e ON OFF Switch e Absolute level Scaling e Relative level Control Dimming e Feedback ON OFF Switch e Feedback level Scaling e Running hours TimerPeriodHrs 2 5 4 DALI group objects DALI group objects Lamp failure DPT Alarm Communication failure DPT Alarm Emergency test failure DPT Alarm Emergency test status xxx e Click the checkboxes to enable the following group objects e Lamp failure Alarm e Communication failure Alarm e Emergency test failure Alarm e Emergency test status xxx Philips LightMaster 22 2 6 DALI lamp driver channel properties Right click the DALI lamp driver in the menu to Copy or Paste settings 2 6 1 General Gerneral Channel name DALI lamp driver 1 2 6 1 1 Channel name Enter a meaningful name for each DALI lamp driver channels to indicate the area and channel location For example Boardroom front Corridor east 2 Training room 3 etc 2 6 2 DALI address DALI address Short address 255 Random address 16
25. page Enter a scene name Enter levels for occupied scenes Scene and levels for unoccupied scenes Scene 13 for each DALI channel in your area Enter a fade time for each channel if applicable advanced Enable the Scene SceneControl group object for each DALI lamp driver channel your area Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Configure a Sensor for Daylight regulation and Occupancy control 2 Select a Calibrated DALI Sensor On the Sensor Applications page select the CellOffice application Enable Use Motion Sensor Enable Use Light Sensor Set This motion sensor is used for as AutoOnAutoOff Enter Switch Off timer Enter Required lux level Enter Rows with Offset as 0 Link the Sensor X Absolute level row object to the Absolute level control group address for that area 10 Link Sensor X Motion Scene Object to the scene control group address for that area l Link Sensor X Light Scene Object to the same scene control group address for that area Philips LightMaster 120 3 20 Daylight Override This feature controls the room light based on the outside light level using Open Loop Light Control The sensor monitors the outside lux level and controls the output based on the light level bands defined in the sensor configuration A high level scene is recalled if the detected lux is low and wit
26. t care option to leave the level of a lamp driver unchanged from the current level 2 4 2 3 Level for all channels This is a global parameter to specify the same value for all channel levels in the scene 2 4 2 4 Fade time for all channels s This is a global parameter to specify the same value for all channel fade times in the scene Philips LightMaster 19 2 4 3 DALI Channels The DALI channels scene editor allows you to set up all the scenes required in each area of your floor layout Scenes can be easily added or changed as occupancy and room usage changes Different fade times and lamp driver levels can be selected for each channel Before configuring scenes identify the areas where each DALI lamp driver channel belongs It will be easy to identify each lamp driver channel if they have been given a meaningful area channel name on the Channel properties page A different range of scenes can then be specified for each area group address Note It is not necessary to set all 64 lamp drivers levels for each scene Only set the channel levels for lamp drivers that will have a common area group address DALI Channels 100 2 4 DALI lamp driver 4 1 DALI lamp driver 1 E 2 DALI lamp driver 2 E 100 2 3 DALI lamp driver 3 100 2 7 100 2 2 4 3 1 Index The DALI lamp driver channel number 2 4 3 2 Name This parameter displays the name of the DALI lamp driver channel The channe
27. that share a common group address are called logical channels Philips LightMaster 79 217 DALI Configuration Wizard All DALI functions can be configured using the DALI Configuration Wizard Press to run the DALI Configuration Wizard PDBC120 DALI KNX Configuration Wizard DALI Lamp Drivers and Devices Flash amp i Query Status XX Remove unconfirm Calibrate i Show Log Name DALI Address KNX Address Galaxy Long Address Serial Number Type Device Code Firmwar 3 Lamp Drivers j Wb Universe 1 a DE Lamp Drive 1 1 1 Training Room Unknown ml Lamp Drive 1 1 1 Training Room Unknown mI Lamp Drive i 1 1 1 Training Room Unknown Lamp Drive 3 1 1 1 Training Room Unknown IH Lamp Drive 1 1 1 Training Room Unknown mM Lamp Drive 5 1 1 1 Training Room Unknown Hl Lamp Drive 1 1 1 Training Room Unknown Lamp Drive 1 1 1 Training Room Unknown E Wi Unused Lamp Drivers Devices f Sensors 2636139 General Ballast 4165728 General Ballast 4435307 General Ballast 5882720 General Ballast 11659360 General Ballast 11928939 General Ballast 11936107 General Ballast 13442144 General Ballast xu hes Device 1 Unknown 1062768 1909341 PLOS CM DALI Dry Contact Interfaces ml Device 2 i ifi Training 1 Unknown 12616217 1939415 PPMIS DALI Unused Devices lt gt 3 Enumerate All g Reset Enumeration All
28. the controller assigns DALI addresses to all the ballasts devices connected to the DALI network The DALI controller checks for any known ballasts devices before enumerating and masks them from the enumeration process Each ballast device remembers its own DALI address and the controller remembers the addresses for all ballasts devices gt Click 53 Enumerate All If more ballasts devices appear than are installed click Reset Enumeration All to clear the enumeration data from the ballasts devices and then click Enumerate All again After enumeration the Configuration Wizard updates the ballast device icons and assigns the DALI addresses to the MultiMaster DALI lamp driver channels or MultiMaster Devices The channel names are listed in lamp driver number order This information is held in the ETS project and in the MultiMaster controller Note A newly installed or replaced ballast may create a short address conflict A short address conflict is when two or more DALI ballasts have the same short address In this situation ballast s that have the same short address must be re enumerated to have unique addresses DALI Configuration Wizard a DALI Lamp Drivers and Devices Flash Query Status Remove Confirm Calibrate i Show Log Name DALI Address Status Galaxy Long Address Serial Number Type Device Code Firmware Version 5 Ej Lamp Drivers Ej WR Universe 1 m Boardroom 1 1 Unknown Boardroom 2 2 3 Unknown
29. this value 2 1045 19 Ihird Max level The regulated light level will not go above this value 2 10 4 20 Third Switch off allowed Click the checkbox to allow the regulation to switch the channel OFF when there is sufficient incoming light The Light On Off group object must be linked with the lighting channels Philips LightMaster 44 210474 Third Switch on allowed Click the checkbox to allow the regulation to switch the channel ON when there is insufficient incoming light Once the light level drops below the Switch on threshold the lights will switch back on immediately and daylight regulation will commence Zu Open loop Open loop lighting control should be used where the sensor is not located within the same area of the group under control In this arrangement the control loop is open as the sensor will not directly detect any changes in lighting level from the luminaires that it controls In this Light Control application mode bands of lighting levels are defined with related actions When the light level enters a band the actions defined for that band are executed Open loop Open loop light control enabled Fj Initial action on startup y Update period ms 17000 Active scene mask 2 105 Open loop light control enabled disabled Click the checkbox to use open loop light control functions Initial action on startup Click the checkbox to use the open loop light control action on device startup 2 1
30. to select the preconfigured functions for the switch e No Function The action has no defined function e Recall Scene Recalls a scene number Enter the Recall Scene number range to 32 e Recall On Off Switches the Channel Enter the Target State ON or OFF e Recall Level Recalls a channel level as a percentage Enter the Target Channel Level 76 e Ramp Up Increases the channel level by the step size Enter the Step Size Default 10076 e Ramp Down Decreases the channel level by the step size Enter the Step Size Default 100 e Stop Ramp Stops the ramping functions No parameters required e Toggle Scene The recalled scene alternates between two scenes Enter the ON scene number and the OFF scene number range to 32 e Toggle On Off The switched state alternates between ON and OFF No parameters required Philips LightMaster 58 e Toggle Level The recalled channel level alternates between a maximum level and a minimum level Enter the Maximum level and the Minimum level 7 e Toggle Ramp The ramping direction alternates between Increasing and decreasing Enter the Step Up Size and the Step Down Size Default 100 e Ramp Up and Stop Increases the channel level up by the step size or until stopped by the release action e Ramp Down and Stop Decreases the channel level down by the step size or until stopped by the release action e Ramp Up Stop and program Increases the channel level up by the step size or
31. to the Absolute level control group address for that area 5 f combined control for Occupancy control and Daylight regulation is required Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Configure Sensor for Daylight Regulation Select a Calibrated DALI Sensor 2 the Sensor Applications page select any of the following applications e CellOffice e Worklsland e MeetingRoom e Kitchen e BreakOut e Other 3 Enable Use Light Sensor 4 Enter Required Lux level 5 Enter zero for Rows with Offset 6 In Sensor Properties Light Control page Closed loop Scenes Enable disable or set Target level Lux for different scenes if required uses Scene by default This will enable the Sensor to operate at different Target Levels Advanced 7 Link the Sensor X Absolute level row object and the window row Lamp driver X Absolute level objects to the Absolute level control group address for the area 8 Link the Sensor X Light Scene Scene control object and a Switch Timeclock scene object to a light regulation scene control group address for the area 9 Enable disable light regulation by changing scenes for the Sensor X Light Scene object if applicable 10 If combined control for Occupancy control and Daylight regulation is required Link the Sensor X Motion Scene to the light regulation scene control group address Tip Lig
32. up or down using the Fade time when ramping value specified in the Lamp Driver channels Create a Relative level control group address Link the Switch X X Relative Level Objects with the Lamp Driver X Relative Dimming object s 0 4 1 Ramp Up 100 and Stop Switch X 1 Relative Level 0 4 1 Lamp Driver X Relative Dimming 0 4 1 Ramp Down 100 and Sto Switch X 2 Relative Level 4 5 Addresses Device Dynamic Folders a 1300 Switch 01 1 Relative Level Relative Level 11 1 PDBC120 DALI KNX dimming control 4 0 Office a 1304 Switch 01 2 Relative Level Relative Level 11 1 PDBC120 DALI KNX dimming control 4 0 4 Relative Levels a 15 Lamp Driver 02 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX dimming control 0 4 1 Room Ramp a 26 Lamp Driver 03 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX dimming control 4 Lamp Driver 01 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX dimming control 4 m 0 0 XE Associations Setup Fade time when ramping value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when ramping dropdown list 3 Enable the Relative level DPT Control Dimming group object parameter for each DALI channel in your area 4 Link the La
33. 0 5 3 Update period ms The time period that must elapse before the action occurs Tip Setting a short period will increase responsiveness however generate higher network traffic Conversely setting a longer period will decrease network traffic though reduce the responsiveness of control LACIE Active scene mask Click enable disable scenes where open loop control will be active Active scenes Enable disable scenes 113 2 3 10 17L 1811 250 26 Philips LightMaster 45 2 10 6 Open loop bands Open loop bands Low Level Band Lux High Level Band Lux 0 505 Recall Scene 1 505 Recall Scene 4 210 61 Count Min 2 Max 10 Enter the number of lux bands required 2 10 66 2 Band The Band sequence number Band lowest lux band 2 10 5 3 Low level band lux The low range of the lux band 2 10 64 High level band lux The high range of the lux band 21065 Action Click to open the Action Chain Editor Philips LightMaster 46 Z107 Action Chain Editor Enter actions for open loop bands l Click New Y Ito add a function from the menu 2 Select the function in the Action Chain Editor window 3 Enter the required parameters for the function or click Delete to remove the function 4 Enable the related group objects for the selected functions Function Parameters Recall Scene Recall Scene 1 Recall On Off Target State Un Recall Level T
34. 01 Relative Dimming Lamp Driver 01 Feedback On Off Lamp Driver 01 Feedback Level Lamp Driver 01 Running Hours Lamp Driver 01 Lamp Failure Lamp Driver 01 Communication Failure Lamp Driver 01 Emergency Test Failure Lamp Driver 01 Emergency Test Status Lamp Driver 02 Scene Lamp Driver X Objects Object Function On Off level Absolute level Relative level On Off level feedback Absolute level feedback Hours On Off lamp failure On Off communication failure On Off emergency failure Test status Scene control Description Length 1 bit 1 Byte 4 bit 1 bit 1 Byte 2 Byte 1 bit 1 bit 1 bit 1 Byte 1 Byte fae NX O NX B 095 O IDEM 5E 4 4 Data Type Priority on off Low percentage 0 100 Low dimming control Low on off Low percentage 0 100 Low time h Low alarm Low alarm Low alarm Low Low scene control Low 2 15 1 1 Lamp Driver X Scene Priority Function Input Output DPT SceneControl 8 bit Low C R W The Lamp Driver X Scene object is used for recalling predefined scenes It also supports saving levels of several lighting channels to a scene by the user The most significant bit defines whether the scene is recalled or saved save O recall When receiving a scene number the channel will fade to the predefined light level using the configured fade time for this scene If the light level for the recalled
35. 2 1558 Sector Z Emergency Duration Test Start Emergency Duration Test Z 1 bit W start stop Low DALI Emergency ballasts have relays that allow the user to switch off the maintained live to the emergency inverters so they can be tested if they switch to battery operation This allows the user to visually check if the system is in emergency mode The Dimmer Actuator supports DALI inverters that adhere to the DALI 202 specification for self contained emergency lighting The Dimmer Actuator does not hold the testing parameters They are stored in the DALI ballasts according to EIC62385 202 During enumeration the Dimmer Actuator recognizes DALI emergency inverters and flags them in the Dimmer Actuator memory Each lamp driver has the following two emergency test reporting DPT Alarm output objects e Lamp Driver X Emergency Test Failure e Lamp Driver X Emergency Test Status Note Some DALI ballasts support a pending state if they are not ready to start the test immediately This feature is not supported by the Philips KNX controllers If a ballast goes into the test pending state the test on this ballast is cancelled and a failure is reported 24153 Sector Y Z Emergency Functional Test Start Input Output DPT Start bit Low C R W This object starts and stops the Sector Y Z Emergency Functional Test When lamp drivers have been marked as belonging to an emergency sector Y or Z then they are included in the emergency test Testing can b
36. 2 Read From Device Save To Device Update DALI Scenes amp Query Status All Sign On Devices g Finish The DALI Configuration Wizard displays the DALI Lamp Drivers and Devices grouped by universe The Configuration Wizard Page displays the following information columns e Name e Device Code e DALI Address e Firmware Version e Status Online Offline or Unknown e Group Address e Galaxy e Relay ballasts connected through e DALI Long Address controller s power relay e Serial Number e DALI Min Level e Type e DALI Max Level The Lamp Driver Device icons in the main configuration page will show one of the following states enumerated DALI ballast device assigned to a DALI lamp driver channel or device in the project An enumerated DALI ballast device NOT assigned to a DALI lamp driver channel or device in the project An un enumerated DALI ballast device Philips LightMaster 80 PM EU DALI configuration toolbar The following buttons are located on the DALI Configuration Toolbar below the main configuration page dag Enumerate All Devices Lamp Drivers Triggers the enumeration process Enumeration discovers the DALI addresses for each DALI item in the universe Clicking the dropdown arrow allows enumeration to be performed for all items only devices or only lamp drivers ballasts f Reset Enumeration All Devices Lamp Drivers Resets the whole DALI universe Clears the enumerat
37. 2 3 5 DALI driver settings DALI driver settings Write DAL power on level to driver a DAL power on level 75 Write DALI system failure level to driver IF DALI system failure level 2 1 Automatic DALI driver status reporting 2 DAL status polling interval ms 1800 2 3 5 1 Write DALI power on level to driver Tick the checkbox to specify the power on level The power on level is written to the DALI lamp drivers during enumeration If set to 255 Don t care the ballast will return to the previous level before the power down state The ballast will go to this level if no other power level telegram is received 2 3 5 2 DALI Power on Level 76 This level is written to the DALI ballasts during enumeration 2 3 5 3 Write DALI system failure level to driver Tick the checkbox to specify a DALI system failure level The level in the DALI system failure level parameter will be used by DALI ballasts upon system failure 2 3 5 4 DALI system failure level 76 The level in this parameter will be written to the DALI ballasts during enumeration If set to 255 Don t care the ballast remains at the level previous to the failure This level is used when there is insufficient voltage on the DALI line eg Short circuit open circuit 2 3 5 5 Automatic DALI driver status reporting Telegrams are automatically generated upon lamp status changes instead of just when requested 2 3 5 6 DALI status polling interval ms The time peri
38. 20 DALI KNX 4 n Associations Setup Fade time when switching value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when switching dropdown list 3 Enable the ON OFF DPT Switch group object parameter for each DALI channel in your area 4 Link the Lamp Driver X On Off objects for the channels in your area to the On Off control group address for that area Philips LightMaster 88 Configure Switch to recall an ON OFF state 2 Philips LightMaster Select DALI dry contacts DALI dry contact X Switches Switch Select Recall On Off from the Switch actions dropdown list Select On from the Target State dropdown list Select DALI dry contacts DALI dry contact X Switches Switch 2 Select Recall On Off from the Switch actions dropdown list Select Off from the Target State dropdown list Enable the ON OFF DPT Switch group object parameter for the Switch Link the Switch X I On Off object and the Switch X 2 On Off object to the On Off control group address for the area 89 3 3 Absolute Level Control Absolute level control is used to dim channels to a predetermined level The switch sensor recalls a percentage target level using the fade time when dimming value specified in the Lamp Driver channels Create an Absolute level control gr
39. 5 3 19 Occupancy Control with Daylight regulation 119 3 20 Daylight Override 121 3 21 Corridor Hold On 123 3 22 Cascaded Corridor Hold 126 3 23 Background level for Open Plan 130 Philips LightMaster 1 System Information 1 1 Safety instructions Please read these instructions carefully before starting to work with the products 2 Philips LightMaster Electrical devices may only be installed and assembled by specialist technicians The applicable accident prevention regulations must be observed Failure to follow the instructions could result in electrocution damage to the device fire or other hazards Opening a device will render the warranty null and void Keep the device out of the range of sources of disruption Please maintain the proper ambient temperature for the device Avoid moisture corrosive gases strong vibration and dust Never allow liquid of any kind to come in contact with the device If the device nevertheless comes into contact with moisture or other liquids shut the device off immediately and dry it completely before using again Cleaning the device do not use any alcohol petrol or petroleum based cleaners and make sure not to touch connected contacts Check the cables regularly and replace damaged cables in good time For your own safety make sure every power connection is made via a fuse or an MCB Main Control Block If any faults occur or for servicing you should contact P
40. 5 Multiple sensor area Enables the Timeout Sync group object These objects are linked when using multiple sensors in the one area to synchronize their timeout periods Note when using multiple sensors link the Timeout Sync objects for each sensor using the same group address Philips LightMaster 33 2 8 4 Light control The objective of light control is to automatically maintain a specific lighting level appropriate for the tasks being conducted in the area under control Light control Required lux level lux 400 Rows with offset 0 Allowed to switch off Fl Switch off above lux 600 Switch off delay m 15 Allowed to switch on NI Switch on below lux 440 2 8 4 1 Required lux level Closed loop light control setpoint 2 8 4 2 Rows with offset Select the number of corridor offset rows 0 or 2 These are lighting rows that are less affected by incoming daylight so are generally set to a higher light level than the lighting row nearest to the incoming daylight 2 6 4 3 Allowed to switch off lux Enable daylight switch off feature 2 6 4 4 Switch off above lux Lighting switches OFF and stops regulating if the detected lux level is above this value 2 6 4 5 Switch off delay m Delay in minutes when switching off the lighting after the Switch off above lux level is detected 2 8 4 6 Switch off corridor rows Enables corridor row to be switched OFF when lux level is reached Default NOT switch off This par
41. 777215 Galaxy 255 Universe 255 The DALI address information is displayed and can be modified using the DALI Configuration Wizard e Short address e Random address e Galaxy e Universe Philips LightMaster 23 2 6 3 Channel contro Channel control DALI Minimum level 55 1 DALI Maximum level 35 100 Fade time when dimming 5 3 Fade time when switching 5 NoFade Fade time when ramping 5 E 2 6 3 1 DALI Minimum level 76 This parameter sets the minimum channel level as a percentage This is a DALI parameter that is updated to the DALI lamp drivers during enumeration 2 6 3 2 DALI Maximum level 76 This parameter sets the maximum channel level as a percentage This is DALI parameter that is updated to the DALI lamp drivers during enumeration 2 6 3 3 Fade time when dimming s The fade time used for Absolute level dimming 2 6 3 4 Fade time when switching s The fade time used for ON OFF switching 2 6 3 5 Fade time when ramping s The fade time used for Relative level dimming ramping for each ramping step 2 6 4 Emergency testing Emergency testing Emergency test sector 2 6 4 1 Emergency test sector Select Y or Z to include the channel in an emergency sector Philips LightMaster 24 2 6 5 Group objects Group objects Scene DPT_SceneControl m ON OFF DPT Switch wl Absolute level DPT_Scaling Fl Relative level Contol Dimming Feedback ON OFF DPT Swit
42. Alarm bit Low CRT This object allows the DALI network to provide feedback on the status of lamps using a standard one bit data type The Dimmer Actuator regularly scans the DALI network for ballasts that have a lamp failure A lamp failure should be detected within 10 minutes Bit set to means Lamp failure alarm 0 means no alarm Lamp Driver Communication Failure Function Priority Output DPT Alarm bit Low CRT This object allows the DALI network to provide feedback on the status of communication to ballasts using a standard one bit data type DPT_Alarm The Dimmer Actuator regularly scans the DALI network for ballasts that go missing or have power cycled since their last light level update command A non communicating ballast should be detected within 10 minutes Bit set to Lamp driver failure alarm 0 no alarm 2 45 1510 Lamp Driver X Emergency lest Failure Function Type Size Priority Flags Output DPT Alarm bit Low CGR T This output object enables Emergency test failure reporting to be performed for each lamp driver assigned to either emergency sector Y or Z At the start of a test all Emergency Fixture Status group objects that are part of that sector are cleared Results of the emergency test for the drivers that are part of the requested sector are updated in the bit Emergency Test Failure object where 0 Pass and Fail 2 15 1 11 Lamp Driver X Emergency Test Status Function Type Size Priori
43. DALI KNX dimming control 82 4 Lamp Driver 01 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX dimming control 4 m AT Associations Setup Fade time when ramping value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when ramping dropdown list 3 Enable the Relative level DPT Control Dimming group object parameter for each DALI channel in your area 4 Link the Lamp Driver X Relative Dimming objects for the channels in your area to the Relative level control group address for the area Philips LightMaster 91 Configure Switches to perform Ramp Up 10075 Stop Ramp and Ramp Down 10076 functions 2 Philips LightMaster Select DALI dry contacts DALI dry contact X Switches Switch Select Ramp Up from the Switch actions dropdown list Select 100 from the Step Size dropdown list Select DALI dry contacts DALI dry contact X Switches Switch 2 Select Stop Ramp from the Switch actions dropdown list Select DALI dry contacts DALI dry contact X Switches Switch 3 Select Ramp Down from the Switch actions dropdown list Select 100 from the Step Size dropdown list Enable the Relative level DPT Control Dimming group object parameter for the Switch Link the Switch X X Relative level objects to the Relative level control group address for th
44. E Group Addresses b BO Dynamic Folders 8 91 Lamp Driver 9 Absolute Dimming Absolute level 1 New main group 8 80 Lamp Driver 8 Absolute Dimming Absolute level 4 1 3 New middle group 12 717 Sensor 1 Light Absolute Level Row 3 Absolute level 1 3 3 Room Corridor Area 2 a 69 Lamp Driver 7 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 4 m percentage 0 100 C percentage 0 100 C percentage 0 100 C percentage 0 100 C Philips LightMaster 116 20 E EJ e 2 29 Group Addresses Device Data Types Dynamic Folders 1 Lamp Driver 01 Scene Scene control 1 1 1 PDBC120 DALI KNX 4 0 New main group a 12 Lamp Driver 02 Scene Scene control 1 1 1 PDBC120 DALI KNX 4 0 1 Scenes 82 23 Lamp Driver 03 Scene Scene control 11 1 1 PDBC120 DALI KNX Y 2 34 Lamp Driver 04 Scene Scene control 1 1 1 PDBC120 DALI KNX a 45 Lamp Driver 05 Scene Scene control 1 1 1 PDBC120 DALI KNX 56 Lamp Driver 06 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control scene control scene control scene control scene control scene control 67 Lamp Driver 07 Scene Scene control 1 1 1 PDBC120 DALI KNX a 705 Sensor 01 Motion Scene Scene control 1 1 1 PDBC120 DALI KNX 713 Sensor 01 Light Scene Scene control 1 1 1 PDBC120 DALI KNX a 78 Lamp Driver 08
45. Functional Lamp Driver X Emergency Test Failure Duration Test Report 1 6 X Emergency Functional Duration Test Status New Dynamic Folder 4 Addresses Dynamic Folders 4 0 Office 4 8 0 2 Start Stop Emergency Test Sector Z Emergency Functional Test 0 2 111 Sector Y Emergency Duration Test 0 2 111 Sector Y Emergency Duration Test 2 1557 Sector Y Emergency Duration Test Start Emergency Duration Test Y 1 1 1 PDBC120 DALI KNX EB 0 2 112 Sector Z Emergency Duration Test _ 0 2 112 Sector Z Emergency Duration Test 1558 Sector 2 Emergency Duration Test Start Emergency Duration Test Z 1 1 1 PDBC120 DALI KNX Delete New Dynamic Folder Find Object sss Device Sending ACK PL Datatypes w u 0 2 101 Sector Y Emergency Functional Test 82 1555 Sector Y Emergency Functional Test Start Emergency Function Test Y 1 1 1 PDBC120 DALI KNX 0 2 102 Sector Z Emergency Functional Test 1556 Sector 2 Emergency Functional Test Start Emergency Function Test 2 1 1 1 PDBC120 DALI KNX 4 Group Addresses gt o Dynamic Folders 4 0 Office E 0 6 Emergency Test Reporting 0 6 102 Emergency Test Failure 0 6 101 Emergency Test Failure a 21 Lamp Driver 02 Emergency Test Failure On Off emergency failure 1 11 PDBC120 DALI KNX 0 6 102 Emergency Test Failure zs 0 6 103 Emergency Test Failure 0 6 103 Emergency Test Failure 82 32 Lam
46. Off Timer s Enable the option Show Advanced This will display Use corridor hold on option Enable Use corridor hold on Select a DALI Sensor for Cell Office 2 and repeat Sensor configuration steps to 7 for Cell Office 2 Link Sensor Motion Scene and Sensor Notifier Scene to the Scene Control group address for Cell Office 1 Link Sensor Notifier Sync Object to the Cell Offices Occupancy Sync group address Link Sensor 2 Motion Scene and Sensor 2 Notifier Scene to the Scene Control group address for Cell Office 2 Link Sensor 2 Notifier Sync Object to the Cell Offices Occupancy Sync group address Configure a Sensor for Corridor 2 Philips LightMaster Select a DALI Sensor for Corridor On the Sensor Applications page Select the Corridor application Enable the option Use Motion Sensor Set the option This Motion Sensor is used for AutoOnAutoOff Enter the Switch Off Timer Enable the option Show Advanced This will display Use Corridor hold on option Enable Use Corridor hold on Link Sensor 3 Motion Scene Sensor 3 Activator Scene and Sensor 3 Timer Scene to the scene control group address for Corridor area Link Sensor 3 Activator Sync and Sensor 3 Timer Sync Objects to the Occupancy Sync group address 125 3 22 Corridor Hold On The conditional exit path lighting can be cascaded to create multiple dependencies This feature allows c
47. PDBC120 DALI KNX 1 11 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX Data Types scene control scene control scene control scene control scene control 101 Setup Fade time when ramping value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s Select a fade time value or select NoFade from the Fade time when ramping dropdown list Enable the Relative level DPT Control Dimming group object parameter for each DALI channel in your area Link the Lamp Driver X Relative Dimming objects for the channels in your area to the Relative level control group address for that area Configure Switches to perform Ramp Up Stop and Program scene and Ramp Down Stop and Program scene 2 Philips LightMaster Select DALI dry contacts DALI dry contact X Switches Switch Select Ramp Up Stop and Program from the Switch actions dropdown list Enter the Program Scene number Select DALI dry contacts DALI dry contact X Switches Switch 2 Enter the Program Scene number Select Ramp Down Stop and Program from the Switch actions dropdown list Enable the Relative level DPT Control Dimming group object parameter for the Switches Enable the Scene DPT SceneControl group object for the Switches Link the Switch X I Relative level object and the Switch X 2 Relative level object to the Relative level control group address for the area L
48. Presentation Mid 2 Unknown MeetingRoomre 14 Unknown Reception 5 2 Unknown Boardroom 6 Unknown Open office 7 1 Unknown open office 8 1 Unknown open office 9 Unknown i open aoffice10 3 Unknown IM small office 11 Unknown open affice 12 Unknown open office 13 25 Unknown open office 14 31 Unknown open office 15 Unknown break aut area 16 Unknown open office 17 2 Unknown open office 18 2 Unknown open office 19 1 Unknown open office 20 15 Unknown hallway 21 2 Unknown 4 n 5125420 General Ballast N NA 5845389 General Ballast NA 10647862 General Ballast N NA 8784676 General Ballast N NA 11928405 General Ballast 9476264 General Ballast NA 9266687 General Ballast N NA 4479586 General Ballast N NA 3763222 General Ballast N NA 16686082 General Ballast N NA 2609438 General Ballast N NA 15230775 General Ballast N NA 12753639 General Ballast N NA 15578314 General Ballast N NA 3493121 General Ballast N NA 3574311 General Ballast N NA 556909 General Ballast NA 12286559 General Ballast N NA 10176768 General Ballast N NA 8949861 General Ballast 12882679 General Ballast m F Ln HH HR HR HR LR n ndm LH HH ooo oOo ENS FPS 17 3 Avg FPS 22 0 G Enumerate All 22 Reset Enumeration All Read From Device Save To Device Gf Update DALI Scenes Query Status All Bi Sign On Devices Status
49. R XOR 0 FALSE TRUE DA S210 Sensor X Motion Enable Function Type Size Priority Flags Input DPT Enable bit Low C R W The Sensor X Motion Enable object allows an external object to dynamically enable disable the motion control function on the device It uses a bit data point type Enabled 0 Disabled The dynamic enable disable does not persist After a power up the configured enable disable parameter will initialize the state 24929 Sensor X Light Scene Function Type Size Priority Flags Input Output DPT SceneControl 8 bit Low C R W T U The Sensor X Light Scene object is used for recalling predefined scenes configured for lighting channels When receiving a scene number the channel will fade to the predefined light level using the configured fade time for this scene Only the lower 6 bits are used to recall scene numbers to 64 Z4 8 Sensor X Light Lux Level Function Type Size Priority Flags Output DPT Value Lux 16 bit Low CRT The Sensor X Light Lux Level object makes the detected lux level value available on the network for monitoring purposes This can be used by an external controller to control lamps or feedback this information to a BMS or a user interface display The update frequency depends on the Lux sensor configured values This is a two byte floating point value Range is 0 to 670760 lux Resolution 0 1 lux Negative values are not allowed Ox7FFFF invalid data Philips
50. Scene Scene control 82 122 Lamp Driver 12 Scene Scene control 816 Sensor 04 Motion Scene Scene control 82 834 Sensor 04 Corridor Timer Scene Scene Sync 836 Sensor 04 Corridor Notifier Scene Scene Sync 82 838 Sensor 04 Corridor Activator Scene Scene Sync 133 Lamp Driver 13 Scene Scene control 2 144 Lamp Driver 14 Scene Scene control 2 155 Lamp Driver 15 Scene Scene control 729 Sensor 01 Corridor Object 04 Scene Scene Sync 82 731 Sensor 01 Corridor Object 05 Scene Scene Sync 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 82 722 Sensor 01 Corridor Timer Sync On Off Sync 724 Sensor 01 Corridor Notifier Sync On Off Sync 22 726 Sensor 01 Corridor Activator Sync On Off Sync 2 728 Sensor 01 Corridor Object 04 Sync On Off Sync 2 730 Sensor 01 Corridor Object 05 Sync On Off Sync 82 759 Sensor 02 Corridor Timer Sync On Off Sync 761 Sensor 02 Corridor Notifier Sync On Off Sync 763 Sensor 02 Corridor Activator Sync On O
51. Scene Scene control 1 1 1 PDBC120 DALI KNX 2 89 Lamp Driver 09 Scene Scene control 1 1 1 PDBC120 DALI KNX 27 0 A rocker scene group A object 1 1 12 Philips First Series Panel Euro Style KNX a 7 C1 1 switching channel Scene 1 1 3 PDTC100 KNX scene control scene control scene control scene control D D D scene control scene number wo WwW un www VV uin len o 0 60 t O0 6 O zm 1 scene number Associations Tip Light regulation can be configured to operate differently in different scenes Refer to Sensor properties Light control Closed loop scenes Setup Fade time when dimming value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when dimming dropdown list 3 Enable the Absolute level DPT Scaling group object parameter for each DALI channel in your area 4 Link the Lamp Driver X Absolute dimming objects for the channels in your area to the Absolute level control group address for Window row area and Corridor row areas 5 If combined control for Occupancy control and Daylight regulation is required Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area this includes Lamp drivers in Window row corri
52. Scene 10 u Recall Scene 10 E Recall Scene 10 e Recall Scene 10 E Recall Scene 10 None Recall Scene 13 None None m None None None The number of scenes set for motion control actions 2 9 3 2 Scene The scene number 2 9 3 3 Enabled Enable or disable motion control actions for the scene 2 9 3 4 Name Displays the name from the Scenes page Defaults are Scene Automatic Mode 2 9 3 9 Motion actoris Scenes 2 8 Manual Override Scene 9 Smart Timer Active Scene 10 Switch Off Warning Scene 11 Unoccupied Corridor Scene 12 Unoccupied Open Plan Scene 3 Unoccupied Cell Office Scene 4 Daylight Override Scene 5 Corridor Hold Time Out Scene 16 User Defined scene Click open the Action Chain Editor 2 9 3 6 No motion actions Click to open the Action Chain Editor Philips LightMaster 37 CCC lt 6 sp 6 6 amp 65535 NoDelay 65535 a 65535 65535 NoDelay M 65535 NoDelay ss 65535 65535 NoDeay 65535 70 NoDelay T NoDelay NoDelay gt NoDelay v NoDelay v NoDelay Note The no motion timeout has a tolerance of up to 30 seconds from the configured value This is only likely to be noticeable when the timeout is set to a very short duration 294 Action Chain Editor Enter actions for motion or no motion l Click New Y add function from the menu
53. X percentage 0 100 C 82 715 Sensor 1 Light Absolute Level Row 1 Absolute level 1 1 1 PDBC120 DAU KNX percentage 0 100 4 a Group Addresses Uo X I ACK PL aes lela Me Tr To Dynamic Folders a 1 Lamp Driver 01 Scene Scene control 111 PDBC120 DALI KNX S scene control C 4 0 New main group a 12 Lamp Driver 02 Scene Scene control 111 PDBC120 DALI KNX S scene control C R 4 0 1 New middle group 23 Lamp Driver 03 Scene Scene control 1 1 1 PDBC120 DALI KNX 5 scene control R S R S R 0 1 1 Room Combined Control 7 705 Sensor 01 Motion Scene Scene control 111 PDBC120 DALI KNX 0 2 New middle group 27 713 Sensor 01 Light Scene Scene control 1 1 1 PDBC120 DALI KNX scene control C scene control C 4 m Associations p Philips LightMaster 119 Setup Fade time when dimming value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s Select a fade time value or select NoFade from the Fade time when dimming dropdown list Enable the Absolute level Scaling group object parameter for each DALI lamp driver channel in your area Link the Lamp Driver X Absolute dimming objects for the channels in your area to the Absolute level control group address for that area Setup Scenes for lamp driver channels 2 Select DALI MultiMaster Scenes
54. ages for the DALI lamp driver channels the DALI MultiMaster Sensor and the DALI MultiMaster Dry Contact devices The available configuration pages are Philips LightMaster DALI MultiMaster device properties DALI MultiMaster scenes DALI lamp drivers global channel properties DALI lamp driver channel properties Sensor device properties Sensor applications Sensor properties Motion control Sensor properties Light control Sensor properties Corridor hold on Dry contact device properties Dry contact switch properties Switches Ld Lamp drivers Li Sensors 4 Dry Contacts 2 3 DALI MultiMaster device properties 2 3 1 Device identification Device identification properties are entered into the database only as a job reference They are NOT downloaded into the device 2 3 1 1 Device name Enter a local site specific name for the device 2 3 1 2 Location Enter device location information 2 3 1 3 Description Enter relevant device function information 2 3 1 4 KNX Individual address The physical address downloaded into the device by pressing the programming button 2 3 1 5 Serial number Job only Enter device serial number for future reference 2 3 2 Product information The product information properties are read from the device and are not editable e Product name e Product category e Product type e Device code e PCB assembly version e PCB assembly revision e Firmware major version e
55. ameter is only visible when Rows with offset is set to greater than 0 2 8 4 7 Allowed to switch on Lets the lighting recommence regulating upon reaching the Switch on below lux level 2 6 4 8 Switch on below lux Lighting switches ON and starts regulating if the detected lux level is below this value Philips LightMaster 34 2 8 5 Corridor hold on 2 6 5 1 Area has a parent Enables the Notifier object for the area where the sensor is located This parameter is only visible when the selected application is Corridor Lift Lobby Reception or Stairway Philips LightMaster 35 29 Sensor properties Motion control 2 9 1 General General Motion control enabled FA E Scene wrap around Fj Single sensor motion control 2 9 1 1 Motion control enabled disabled Click the checkbox to use motion control functions 2 9 1 2 Scene wrap around Click the checkbox to use scene warp around If a scene telegram is sent with a scene number greater than the total available scenes then the scene recalled will be based on the scene number sent minus a multiple of the total available scenes For example if there are 16 scenes and scene number 17 is sent then scene is recalled or if scene 8 or 34 is sent then scene 2 is recalled etc 2 9 1 5 Single sensor motion control Select when using a single sensor Disables the timeout sync object 2 9 2 liming Timing Switch off timer s 600 Action delay period 5 10 Resend inhibit del
56. an absolute level control group address for the Window row Link the Sensor X Light Absolute level row object to the Lamp Driver X Absolute Dimming objects Create a scene control group address Link the Sensor X Light Scene object to an object that can set the light regulation scene such as the Sensor X Motion Scene object see screenshot below a Switch X Scene object or a Timeclock Scene object for example Note If Occupancy control and Day light regulation are combined then in this example Sensor X Motion Scene shall drive the Sensor X Light Scene Object Switch or Time clock can also be a Scene control devices to drive Sensor X Light scene Obiect Sensor 1 Dimmer Window Row Scene control device 0 3 1 0 3 1 Sensor X Abs Level Row 1 Lamp Driver X Absolute Dimming 0 1 1 0 1 1 Switch Timeclock Scene OA pe OO Recall Scene 4 0AA Il Lamp Driver X Scene Control BR o M n 4 2 Group Addresses ACK PL Dynamic Folders a 14 Lamp Driver 2 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX No percentage 0 100 C 4 1 New main group 22 25 Lamp Driver 3 Absolute Dimming Absolute level 11 1 PDBC120 DALI KNX No percentage 0 100 C 4 1 3 New middle group 7 3 Lamp Driver 1 Absolute Dimming Absolute level 11 1 PDBC120 DALI KNX No percentage 0 100 C
57. arget Level 5 100 Ramp Level Direction Decrease Step Size 100 e Recall Scene Enter a scene number in the range to 32 e Recall On Off Enter a target state e Recall Level Enter a target level as a percentage e Ramp Level Enter a direction Increase or Decrease and a step size as a percentage Philips LightMaster 47 240 9 ux sensor The multifunction sensor can also transmit the actual light level it is sensing to other network devices for example a third party display or actuator with light level input Lux sensor Lux sensor enabled Fl Minimum update period s 5 Maximum update period s 30 Update when change is greater than lux 16 21081 Lux sensor enabled disabled Click the checkbox to use the Lux sensor function 2 10 8 2 Minimum update period s Minimum time for sensor to update the lux value onto the KNX bus 2108 2 Maximum update period 5 Maximum time for sensor to update the lux value onto the KNX bus 210 84 Update when change is greater than lux Only update the Lux value to the KNX bus when the change is greater than this amount 2 10 9 Calibration Calibration Use default lux coefficient Lux calibration gradient coefficient 65535 Lux calibration offset coefficient 65535 Linearization scaler 955 2 109 1 Use default lux coefficient Select this to value to use the default lux coefficient A lux level must still be entered in the calibration tool 2 109 7 Lux calibration gradient c
58. ay 30 These are global parameters to set all motion control actions of the sensor 2 9 2 1 Switch off timer s Switch off timer is the no motion timeout period 2 9 2 2 Action delay period s Action delay is used to prevent the sensor immediately switching the lights back on when the user overrides the light level to OFF It provides time for the user to leave the room Action delay gets activated whenever a scene is recalled external to the sensor Only when the sensor itself has recalled a scene for example because of a no motion event the action delay is ignored and an event on the motion sensor will immediately be executed 2 9 2 3 Resend inhibit delay 5 The period that must elapse between motion detection telegrams Stops unnecessary triggering Philips LightMaster 36 2 9 3 Scene actions Scene actions Count Minz 16 Automatic mode Scene 2 Scene 3 Scene 4 Scene 5 Scene 6 Scene 7 Scene 8 Smart timer active 1 3 4 5 6 7 8 9 1 Switch off warning Unoccupied corridor Unoccupied open plan Unoccupied cell office Daylight override Corridor hold time out Scene 16 amp lt lt lt lt s S Ts ss 2931 Count None None None None None None None None Recall Scene 1 None None Recall Scene 1 None None None Recall Scene 10 Recall Scene 10 Recall Scene 10 Recall
59. below lists the number of available group objects group addresses and associations for the DALI MultiMaster Dimmer Actuator Type PDBC120 DALI KNX maximum number of group objects 1559 i f maximum number of group Addresses 2400 pee ati maximum number of associations 2400 2 1 2 Version information The product name database version and firmware version can be found in both ETS or in the Configuration Plug In Check version information in ETS Right click the device name in the devices list 2 Select Info gt Device Info 3 Click 3 in the right hand side panel to display the Device Information Info Device Info Device Info With Group Communication Check version information in the configuration plug in Right click the device name in the devices list 2 Select Plug In gt PDBCI20 Configuration 3 Tick the Advanced checkbox 4 Scroll down to Product information on the DALI MultiMaster Device Properties page Plug In PDBC120 DALI KNX Configuration Note A device must be connected and have an individual address to read the version information Philips LightMaster 13 PAP Configuration All DALI MultiMaster Dimmer Actuator settings are configured using the configuration plug in Run the configuration plug in Right click the device name in the devices list 2 Select Plug in 3 Select PDBCI20 Configuration to open the configuration window DALI Configuration DALI
60. bjects 2 15 Group object types 2 15 1 Lamp Driver X Objects 2 15 2 Sensor X Objects 2 15 3 Dry Contact Switch X Objects 25 25 26 26 26 26 27 32 33 34 35 36 36 36 37 38 39 39 40 40 41 42 42 45 46 47 48 48 49 49 51 53 54 54 56 57 57 57 57 58 58 60 6 62 62 65 72 2 15 4 Lamp Status Objects 74 2 15 5 Sector Y Z Emergency Test Objects 75 2 15 6 Scene Table Start Index Object 76 2 16 Group Addresses 77 2 16 1 Group address linking 77 2 16 2 Group address example 78 2 17 DALI Configuration Wizard 80 2 17 1 DALI configuration toolbar 8 2 17 2 DALI lamp drivers and devices toolbar 82 2 17 3 Enumerate DALI network 83 2 17 4 Locate lamp driver channels and assign DALI addresses 84 2 17 5 Save configuration data 85 2 17 6 Maintenance Activities 86 3 A Application Examples 87 3 1 Scene Control 87 3 2 On Off Control 88 3 3 Absolute Level Control 90 3 4 Relative Level Control 9 3 5 Toggle Scene 93 3 6 Toggle On Off 95 3 7 Toggle Level 96 3 8 Toggle Ramp 97 3 9 Hamp Up or Down and Stop 99 3 10 Ramp Up or Down Stop and Program 101 3 11 Lamp Status and Lamp Level Monitoring 103 3 12 Lamp Runtime Reporting 104 3 13 Lamp Failure and Communication Failure Reporting 105 3 14 Emergency Ballast Testing and Test Failure reporting 106 3 15 Occupancy Control 109 3 16 Occupancy control with Manual control 111 3 17 Daylight Regulation 113 3 18 Daylight Regulation with Corridor rows 1
61. cene e Default fade time between scenes is 2 seconds Philips LightMaster 29 2 8 1 2 Work Island Application Actions differences compared to Cell Office On no motion timeout the lights fade to background light level scene 12 If Corridor hold on is selected the lights will stay on background level until the whole open plan is vacated If Corridor hold on is selected the lights will switch on to background lighting level when one of the other areas in the open plan becomes occupied If Corridor hold on is not selected the lights will stay on background level until they are switched off manually or by a time program Always auto on off No daylight override 2 8 1 3 Meeting Room Application Actions differences compared to Cell Office application No daylight switching No daylight override 2 8 1 4 Corridor Application Actions differences compared to Cell Office application Philips LightMaster No daylight override No smart timer when Corridor hold on is active If Corridor hold on is selected on no motion timeout lights will go to standby scene 11 and will still stay on if any connected office areas are still occupied If Corridor hold on is selected the lights will switch on scene when one of the connected office areas becomes occupied If Corridor hold on is selected the Timeout can be configured for a switch off delay after the last connected office area is vacated If Corridor hold
62. cene Objects in Open Plan Link the entire Sensor Corridor Sync Objects Notifier Sync Activator Sync and Timer Sync to Occupancy Sync group address Philips LightMaster 132 0 1 1 0 1 1 Motion Scene Lamp Driver X Scene 0 1 1 Corridor Notifier Scene 0 5 1 Corridor Notifier Sync 0 1 1 Corridor Activator Scene 0 5 1 L Corridor Activator Sync 0 1 1 Corridor Timer Scene 0 5 1 Corridor Timer Sync J Work Island 1 0 1 3 Motion Scene 0 1 3 Corridor Notifier Scene 0 5 1 i Corridor Notifier Sync 0 1 3 Corridor Activator Scene 0 1 3 Lamp Driver X Scene 0 5 1 Corridor Activator Sync 0 1 1 Corridor Timer Scene 0 5 1 Corridor Timer Sync Work Island 3 Group Addresses t Dynamic Folders 0 New main group 2 0 1 New middle group 0 1 1 Worklsland 1 1 Lamp Driver 01 Scene Scene control 0 1 2 Worklsland 2 0 1 3 Worklsland 3 22 12 Lamp Driver 02 Scene Scene control 82 23 Lamp Driver 03 Scene Scene control B 705 Sensor 01 Motion Scene Scene control 723 Sensor 01 Corridor Timer Scene Scene Sync 8 725 Sensor 01 Corridor Notifier Scene 727 Sensor 01 Corridor Activator Scene Motion Scene j 0 1 2 Corridor Notifier Scene 1 5 1 Corridor Notifier Sync 1 1 2
63. ch Feedback level DPT Scaling Running hours DPT_TimerPeriodHrs 2 Click the checkboxes to enable the following group objects e Scene DPT SceneControl e ON OFF Switch e Absolute level Scaling e Relative level Control Dimming e Feedback ON OFF Switch e Feedback level Scaling e Running hours TimerPeriodHrs 2 6 6 DALI eroup objects DALI group objects Lamp failure DPT Alarm Communication failure DPT Alarm Emergency test failure DPT Alarm Emergency test status xxx e Click the checkboxes to enable the following group objects e Lamp failure Alarm e Communication failure Alarm e Emergency test failure Alarm e Emergency test status xxx Philips LightMaster 25 2 sensor device properties Right click the DALI Sensor in the menu to Copy or Paste settings 2 1 Device identification Device identification properties are entered as a job reference into the database They are NOT downloaded into the device 2 1 1 Device name Enter a local site specific name for the device 2 4 1 2 cation Enter device location information 2 1 3 Description Enter relevant device function information 2 1 4 Serial number Job only Enter device serial number for future reference 2 7 2 Product information The product information properties are read from the device a
64. ck Save To Device to resolve the assignments This will refresh the window and remove the swap assignment icons This can be performed at any time during the assigning procedure 7 Repeat the assigning procedure until all DALI addresses are assigned to the correct DALI lamp driver channels devices 8 Once all addresses have been correctly assigned Click Update DALI Scenes DALI Sensor devices have a red LED that can be flashed However DALI Dry contact devices do not have a built in LED Both DALI devices have a service switch that can be used to sign on the device If the service switch is not accessible devices can be identified by serial number Locate a DALI Dry Contact or Sensor device Click Sign On Devices 2 Press the service switch on the Dry contact or Sensor 3 The DALI Configuration Wizard displays the M sign on icon next to the corresponding device Philips LightMaster 84 241713 Save configuration data When saving the configuration data for a DALI MultiMaster system the data is saved in three steps Download Application or download partial to the Controller KNX interface 2 Save to Device to the Controller DALI interface 3 Update DALI Scenes to the DALI Ballasts The Controller manages the translation between DALI group addressing and KNX group addressing Step 1 Step 2 Step 3 Controller KNX interface Controller DALI interface DALI Ballasts Download Application Save to Dev
65. d Scene Scene level 20 for switch off warning scene scene 10 and level 0 for unoccupied cell office Scene Scene 13 Enter level 10075 for unoccupied corridor Scene 11 and level 0 for corridor hold time out scene Scene 15 Enable the Scene DPT SceneControl group object for each DALI channel in your area Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Configure Sensor for Cell Office and Sensor for Cell Office 2 2 12 Philips LightMaster Select a DALI Sensor for Cell Office 1 On Sensor Applications page select the CellOffice application Enable the option Use Motion Sensor Set the option This Motion Sensor is used for AutoOnAutoOff Enter the Switch Off Timer s Enable the option Show Advanced This will display Use corridor hold on option Enable Use corridor hold on Select a DALI Sensor for Cell Office 2 and repeat Sensor configuration steps to 7 for Cell Office 2 Link Sensor Motion Scene and Sensor Notifier Scene to the Scene Control group address for Cell Office Link Sensor Notifier Sync Object to the Cell Offices Occupancy Sync group address Link Sensor 2 Motion Scene and Sensor 2 Notifier Scene to the Scene Control group address for Cell Office 2 Link Sensor 2 Notifier Sync Object to the Cell Offices Occupancy Sync group address 128 Configure a Sensor for Corridor
66. dor row and corridor row 2 areas Philips LightMaster 117 Configure Sensor for Daylight Regulation with Corridor Row Offset 2 Philips LightMaster Select a Calibrated DALI Sensor On the Sensor Applications page Select any of the following Applications e CellOffice e Worklsland e MeetingRoom e Kitchen e BreakOut e Other Enable Use Light Sensor Enter Required Lux level Enter the Rows with Offset as either or 2 This will enable the objects Sensor X Absolute level row 2 and Sensor X Absolute level row 3 In Sensor Properties Light Control page Closed loop Scenes Enable disable or set Target level Lux for different scenes if required uses Scene by default This will enable the Sensor to operate at different Target Levels Advanced Link the Sensor X Absolute level row object to the Absolute level control group address for the Window row Link the Sensor X Absolute level row 2 object to the Absolute level control group address for First Corridor row Link the Sensor X Absolute level row 3 object to the Absolute level control group address for Second Corridor row Link the Sensor X Light Scene Scene control object and a Switch Timeclock scene object to a light regulation scene control group address for the area Enable disable light regulation by changing scenes using the Sensor X Light Scene object if applicable If combined control for Occupancy contr
67. down list 3 Enter a percentage channel level in the Target Level 75 parameter 4 Enable the Absolute level DPT Scaling group object parameter for the Switch 5 Link the Switch X X Absolute Dimming object to the Absolute level control group address for the area Philips LightMaster 90 3 4 Helative Level Control Relative level control is used to ramp channel levels a by a specified amount from the current level The switch sensor ramps the level up or down by the step size using the fade time when ramping value specified in the Lamp Driver channels Create a Relative level control group address Link the Switch X X Relative Level Objects with the Lamp Driver X Relative Dimming object s 0 4 1 Switch 1 1 Relative Level 0 4 1 0 4 1 Switch 1 2 Relative Level Lamp Driver X Relative Dimming 0 4 1 i i j Ramp Down 100 Switch 1 3 Relative Level 4 E Addresses Device Lo Dynamic Folders 82 1300 Switch 01 1 Relative Level Relative Level 1 1 1 PDBC120 DALI KNX dimming control 4 0 Office a 1304 Switch 01 2 Relative Level Relative Level 1 1 1 PDBC120 DALI KNX dimming control 4 0 4 Relative Levels 82 1308 Switch 01 3 Relative Level Relative Level 11 1 PDBC120 DALI KNX dimming control 0 4 1 Room Ramp 82 15 Lamp Driver 02 Relative Dimming Relative level 11 1 PDBC120 DALI KNX dimming control 82 26 Lamp Driver 03 Relative Dimming Relative level 1 1 1 PDBC120
68. e Dimming object to the Absolute level control group address for the area Philips LightMaster 96 3 8 Toggle Ramp Toggle Ramp uses relative level control to alternate between ramping the channel level UP and ramping the channel level DOWN by a specified amount from the current level Another Switch is usually set to perform the Stop Ramp function The switch ramps the level up or down by the step size using the fade time when ramping value specified in the Lamp Driver channels Create a Relative level control group address Link the Switch X X Relative Level Objects with the Lamp Driver X Relative Dimming object s 0 4 1 Ramp Up 100 0 4 1 Switch X 1 Relative Level Ramp Down 100 Lamp Driver X Relative Dimming 0 4 1 Switch X 2 Relative Level 4 Group Addresses Device Dynamic Folders 1300 Switch 01 1 Relative Level Relative Level 1 1 1 PDBC120 DALI KNX dimming control 4 0 Office E 1304 Switch 01 2 Relative Level Relative Level 11 1 PDBC120 DALI KNX dimming control 4 0 4 Relative Levels 27 15 Lamp Driver 02 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX dimming control B 26 Lamp Driver 03 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX dimming control 27 4 Lamp Driver 01 Relative Dimming Relative level 1 11 PDBC120 DALI KNX dimming control n Associations Setup Fade time when ramping value for lamp driver channels Select DALI lamp
69. e Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Configure a Switch to recall a scene Select DALI dry contacts DALI dry contact X Switches Switch X Select Recall Scene from the Switch actions dropdown list Enter the scene number in Recall Scene Enable the Scene DPT SceneControl group object for the Switch vr ie d d Link the Switch Scene object to the scene control group address for the area Philips LightMaster 87 3 2 On Off Control On Off control is used to switch channels ON and OFF The switch sensor switches to the target state using the fade time when switching value specified in the Lamp Driver channels Create an On Off control group address Link the Dry Contact Switch X X On Off objects to the Dimmer Lamp Driver X On Off object s 0 2 1 E Switch 1 1 On Off Target State 1 ON 0 2 1 Lamp Driver X On Off Target State 0 2 1 Switch 1 2 On Off 4 Group Addresses Device Dynamic Folders 04 1298 Switch 01 1 Off On Off Level 11 1 PDBC120 DALI KNX 4 0 Office 04 13 Lamp Driver 02 On Off On Off level 11 1 PDBC120 DALI KNX 4 0 2 Switching 82 1302 Switch 01 2 Off On Off Level 1 1 1 PDBC120 DALI KNX 0 2 1 Room Switching 04 2 Lamp Driver 01 On Off On Off level 1 1 1 PDBC120 DALI KNX 24 Lamp Driver 03 On Off On Off level 1 1 1 PDBC1
70. e Window Row and Corridor rows can be overridden 100 80 30 76 c max offset Create three absolute level control group addresses for the Window row one for the first corridor row and one for the second corridor row Link the three Sensor Light Absolute level row X objects to the Dimmer Lamp Driver X Absolute Dimming objects of the channels in the window row and two corridor rows Create a scene control group address Link the Sensor X Light Scene object to an object that can set the light regulation scene such as the Sensor X Motion Scene object see screenshot on next page a Switch X Scene object or a Timeclock Scene object for example Philips LightMaster 15 Note If Occupancy control and Day light regulation are combined then in this example Sensor X Motion Scene shall drive the Sensor X Light Scene Object Switch or Time clock can also be a Scene control devices to drive Sensor X Light scene Obiect 0 3 1 Sensor X Abs Level Row 1 0 3 2 Sensor X Abs Level Row 2 0 3 3 Sensor X Abs Level Row 3 Scene control device Sensor 1 0 1 1 0 1 1 Switch Timeclock Scene sensor X Light Scene Group Addresses Target Level 96 Target Level 96 Target Level 96 Recall Scene Dimmer Window Row 0 3 1 Lamp Driver X Absolute Dimming Dimmer Corridor Row 1 0 3 2 Lamp Driver X Absolute Dimmin
71. e area 92 3 5 Toggle Scene The Toggle scene function recalls two scenes an On scene and an Off scene A switch alternates recalling the On scene number and the number Off scene number in the range to 32 for the linked lamp driver channels The channel levels for each scene are setup in the Scenes page Create a scene control group address Link the Switch X X Scene object to the Lamp driver X Scene object s 0 1 1 Recall On Scene 0 1 1 Switch 1 X Scene Recall Off Scene Lamp Driver X Scene s Group Addresses j Device Sener gt Dynamic Folders 82 1 Lamp Driver 01 Scene Scene control 1 1 1 PDBC120 DALI KNX orc 0 Office 04 12 Lamp Driver 02 Scene Scene control 1 1 1 PDBC120 DALI KNX aan 4 60 0 1 Scenes 82 1297 Switch 01 1 Scene Scene 11 1 PDBC120 DALI KNX i ela 0 1 1 Room Scene 04 23 Lamp Driver 03 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 0 0 amp Associations Setup two scenes for lamp driver channels Select DALI MultiMaster Scenes page Scene 1 2 Enter a scene name 3 Enter percentage in the Level 76 column for each DALI channel in your area 4 Enter a fade time for each channel if applicable advanced 5 Select DALI MultiMaster Scenes page Scene 2 6 Entera scene name 7 Enter percentage in the Level 76 column for each DALI channel in your area 8 Enter a fade time for each channel if applicable advanced 9 Enable
72. e performed on either of the two sectors In this test the system is placed in emergency mode for a short time to see if the lamps switch to battery power A Sector Y or Z emergency functional test is started using the bit start stop object As long as the test is running the start stop object is set to start When the Start Stop emergency functional test object receives a Start test telegram the emergency test opens and closes the emergency test relays in the DALI ballasts When the object receives a Stop test telegram all tests that are in progress are cancelled While an emergency functional test is running the lights can still be switched ON and OFF using button panels At the completion of the test the Dimmer Actuator will recall the scene that was active before the emergency test Philips LightMaster zd Sector Y Z Emergency Duration Test Start Function Priority Input Output DPT Start bit Low C R W This object starts and stops the Sector Y Z Emergency Duration Test When lamp drivers have been marked as belonging to an emergency sector Y or Z then they are included in the emergency test Testing can be performed on either of the two sectors In this test the system is placed into emergency mode to test the time period provided under battery power for a period as defined in the DALI inverter default 90 minutes A Sector Y or Z emergency duration test is started using the bit start stop object As long as the
73. e with the aid of the ETS software Check that all the system functions are operating correctly 1 4 Device LED indications PROGRAMMING MODE PDBC120 DALI KNX MULTIMASTER OTLOADER zZ t Y a 8 Non Programming Mode FALSE TRUE RED FLASH ON 1076 OFF 90 Programming Mode FALSE TRUE FLASH ON 9096 OFF 1096 Non Programming Mode FALSE TRUE RED FLASH ON 1076 OFF 9096 Programming Mode FALSE TRUE RED FLASH ON 9096 OFF 1096 1 5 Plug ins LightMaster uses the following ETS plug in Plug in Description PDBCI20 Configuration Enables configuration of DALI MultiMaster controller Includes product name version information device properties application properties preset scenes lamp driver channels Sensor properties Dry Contact properties Sensor Calibration and DALI enumeration and maintenance tasks From the Parameters tab in ETS you can e Enable fault logging e Select product language Device 4 logging nissim Enable Logging Group Objects Parameters Commissioning Device 1 1 1 PDBC120 DALT KNX Logging 4 Product language Select product language Select product language Group Objects Parameters Commissioning Philips LightMaster 7 1 6 1 Heferences The Philips LightMaster range of products complies with international standards KNX ISO IEC 14543 3 and EMC standard electromagnetic compatibi
74. ell offices to keep corridors lit corridors to keep lift lobbies lit lift lobbies to keep reception area s lit etc Create scene control group addresses for cell office cell office 2 Corridor and Lobby Link Sensor Motion Scene object and Sensor Notifier Scene object to Lamp Driver X Scene object s for cell office Link Sensor 2 Motion scene object and Sensor 2 Notifier Scene object to Lamp Driver X Scene Object s for Cell Office 2 Link Sensor 3 Motion Scene object Sensor 3 Notifier Sensor 3 Activator scene object Sensor 3 Timer scene object to Lamp Driver X Scene Object s for Corridor area Link Sensor 4 Motion Scene object Sensor 4 Activator scene object Sensor 4 Timer scene object to Lamp Driver X Scene Object s for Lobby area Create an Occupancy sync group address for Cell offices and Corridor Link Sensor Notifier Sync Sensor 2 Notifier Sync Sensor 3 Timer Sync and Sensor 3 Activator Sync to that occupancy sync group address Create an Occupancy Sync group address for Corridor and Lobby Link Sensor 3 Notifier Sync Sensor 4 Activator Sync and Sensor 4 Timer Sync to that occupancy sync group address 1 1 1 1 1 1 1 1 2 1 1 2 Motion Scene Lamp Driver X Scene Motion Scene Lamp Driver X Scene 1 1 1 1 1 2 Corridor Notifier Scene Corridor Notifier Scene 1 5 1 1 5 1 Corridor Notifier Sync
75. evice p Dynamic Folders 1299 Switch 01 1 Absolute Level Absolute Level 111 PDBC120 DALI KNX percentage 0 100 C 4 0 Office 27 14 Lamp Driver 02 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX percentage 0 10095 C 4 0 3 Absolute Levels a 25 Lamp Driver 03 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX percentage 0 100 C 0 3 1 Room Level 3 Lamp Driver 01 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX percentage 0 100 C 0 0 Associations Set the Fade time when dimming value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when dimming dropdown list 3 Enable the Absolute level DPT Scaling group object parameter for each DALI channel in your area 4 Link the Lamp Driver X Absolute dimming objects for the channels in your area to the Absolute level control group address for that area Configure a Switch to Toggle Level Select DALI dry contacts DALI dry contact X Switches Switch X 2 Select Toggle Level from the Switch actions dropdown list 3 Enter a percentage channel level in the Minimum Level 76 parameter 4 Enter a percentage channel level in the Maximum Level 76 parameter 5 Enable the Absolute level DPT Scaling group object parameter for the Switch 6 Link the Switch X X Absolut
76. ew middle group 0 7 1 Lamp 1 Running Hours Associations Setup Lamp Runtime Reporting In DALI Lamp Driver X Page Under Group Objects enable Running Hours DPT TimePeriodHrs 2 Link the Lamp Driver X Running Hours object and matching BMS object to the group address for that Lamp Driver runtime reporting Philips LightMaster 104 3 13 Lamp Failure and Communication Failure Reporting The system can automatically signal an alarm if a lamp fails or loses connection This dramatically reduces maintenance costs and the time to locate and replace faulty lamps Create group addresses for Lamp Failure Alarm and Communication Failure alarm for each lamp driver Link Lamp Driver X Lamp Failure object to the alarm object of Building Management Software Link Lamp Driver X Communication Failure object to the alarm object of Building Management Software Building Management System 0 6 1 Lamp Driver X Lamp Failure Lamp Driver X Communication Failure 0 6 101 0 6 101 Lamp Driver X Communication Failure Lamp Driver X Communication Failure 4 Group Addresses B i Sending ACK PL gt pP Dynamic Folders 82 8 Lamp Driver 01 Lamp Failure On Off lamp failure 1 1 1 PDBC120 DALI KNX 5 0 Office D 0 6 Lamp Failure Alarm 4 0 6 1 Lamp X Lamp Failure Associations Group Addresses gt Dynamic Folders 2 9 Lamp Driver 01 Communication Failure On Off comm
77. ff Sync 796 Sensor 03 Corridor Timer Sync On Off Sync 82 798 Sensor 03 Corridor Notifier Sync On Off Sync 2 800 Sensor 03 Corridor Activator Sync On Off Sync 833 Sensor 04 Corridor Timer Sync On Off Sync 835 Sensor 04 Corridor Notifier Sync On Off Sync m 837 Sensor 04 Corridor Activator Sync On Off Sync PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX PDBC120 DALI KNX 134 tU N tQ ee ON L N IRT 0 scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control C C C C C fie m o m o ug oo um o gm oo mmo 2 D D DDDDDDDDDD JEJ UGO ES rr S Setup scenes for lamp driver channels 2 On the DALI MultiMaster Scenes page enter a scene name Enter a percentage in the Level 76 column for each DALI channel in your area Enter a fade time for each channel if applicable advanced Identify the DALI Channel
78. for 15 minutes switch OFF If light 11096 of target level immediately switch ON Motion Manual Override Scene 2 8 Recall Scene Recall Scene Automatic M Mode Q Scene 1 NoMotion 15 min Application X W Motion lt 30 Sec Switch Off Warning Scene 10 NoMotion 30 sec Y X 25 Q Smart Timer M Active Scene 9 NoMotion min Functions X Application scenario With corridor hold on Without corridor hold on Light Control Closed loop active is Light Control Open loop active 2 Motion Event active Il No Motion Event active Q3 Corridor Notifier Active Corridor Timer Active 69 Corridor Activator Active Motion Recall Scene 1 amp Unoccupied 2 Corridor 9 Scene 11 Motion Recall Scene 1 Peer Child Activate NON lt 2 Unoccupied amp Open Plan Scene 12 Corridor Time out Recall Scene 1 1 4 3 5 10 8 Motion 11 9 Unoccupied Cell Office Scene 13 WW 25 Corridor Time out Light Level 7 gt 500 Lux 5 Peer Child 8 Light Activate 9 Level lt 500 Lux Corridor Time out uen 5 min D Application X Corridor lt Time Out 11 Daylight Override Scene 14 Philips LightMaster amp Scene 15 Standard applications flowchart
79. g Dimmer Corridor Row 2 0 3 3 Lamp Driver X Absolute Dimming Dimmer Window row Corridor row 1 amp Corridor row 2 0 1 1 I Lamp Driver Scene Control I EE A 82 14 Lamp Driver 2 Absolute Dimming Absolute level Dynamic Folders 4 1 New main group a 25 Lamp Driver 3 Absolute Dimming Absolute level 2 3 Lamp Driver 1 Absolute Dimming Absolute level 715 Sensor 1 Light Absolute Level Row 1 Absolute level 4 1 3 New middle group 1 3 1 Room Light Regulation Window Row 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 4 m percentage 0 100 C percentage 0 100 C percentage 0 100 C percentage 0 100 C Associations p Group Addresses Dynamic Folders 1 New main group 4 BA 1 3 New middle group 82 58 Lamp Driver 6 Absolute Dimming Absolute level 1 3 2 Room Corridor Row i 7 716 Sensor 1 Light Absolute Level Row 2 Absolute level 2 36 Lamp Driver 4 Absolute Dimming Absolute level a 47 Lamp Driver 5 Absolute Dimming Absolute level Device 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX Data Types _ percentage 0 100 percentage 0 100 percentage 0 100 percentage 0 100 Associations Delete New Dynamic Folder
80. ge 0 100 Low 717 Sensor 01 Light Absolute Level Row 3 Absolute level iff C R W TU percentage 0 100 Low E 718 Sensor 01 Light On Off On Off level 1 bit C R W T on off Low 74 719 Sensor 01 Light Relative Level Relative level 4 bit 5 dimming control Low 720 Sensor 01 Light Enable Enable Disable 1 bit W enable Low 8 2 721 Sensor 01 Corridor Hold On Enable Enable Disable 1 bit CR WT 2 enable Low 722 Sensor 01 Corridor Timer Sync On Off Sync 1 bit C R W T occupied Low E 723 Sensor 01 Corridor Timer Scene Scene Sync ibe LC RW D scene control Low 2 724 Sensor 01 Corridor Notifier Sync On Off Sync 1 bit C R W T occupied Low 04 725 Sensor 01 Corridor Notifier Scene Scene Sync 1Bye C R W T scene control Low E 726 Sensor 01 Corridor Activator Sync On Off Sync 1 bit T occupied Low m2 727 Sensor 01 Corridor Activator Scene Scene Sync 1Byje C WM T scene control Low 25 Sensor X Motion Scene Function Size Priority Flags Type Input Output DPT SceneControl 8 bit Low C R W T U The Sensor X Motion Scene object is used for recalling predefined scenes configured for lighting channels When receiving a scene number the channel will fade to the predefined light level using the configured fade time for this scene Only the lower 6 bits are used to recall scene numbers to 64 DAD Sensor X Motion Absolute Level Function Size Priority Flags Type
81. has a one byte data type e Bits 0 5 represent the DALI channel address 0 63 e Bits 6 7 Not applicable 215452 DALI Lamp Status Report Function Type Size Priority Flags Input Output DPT_ 0xFE04 8 bit Low C R W T The DALI Lamp Status Report object may be used to detect failures in the DALI network When an alarm is detected it will cause an unsolicited update of the DALI Lamp Status Report object When the failure is fixed it will also cause an unsolicited update on the DALI Lamp Status Report object This object can be linked to a BMS to report lamp or lamp driver failures When writing to this object e Bits 0 5 represent the DALI channel address 0 63 e Bits 6 and 7 must be set to 1 otherwise request will be ignored Object responds with e Bits 0 5 represent the DALI channel address 0 63 e Bit 6 represents Lamp failure 1 Lamp failure alarm 0 no alarm e Bit 7 represents Lamp driver failure 1 Lamp driver failure alarm 0 no alarm Philips LightMaster 74 Zoe Sector Y Z Emergency lest Objects Number Name Object Function Description Length R W d U Data Type Priority 1555 Sector Y Emergency Functional Test Start Emergency Function Test Y 1 bit C R W start stop Low 22 1556 Sector Z Emergency Functional Test Start Emergency Function Test Z 1 bit CLE W start stop Low 22 1557 Sector Y Emergency Duration Test Start Emergency Duration Test Y 1 bit C R W start stop Low
82. hilips LightMaster 1 2 Verity hardware installation Commissioning can only proceed once the integrity of the wiring has been verified Ensure the installation observes the following 1 3 Minimum distance between devices is observed with suitable position for proper ventilation The requisite safety devices e g fuses automatic safety devices etc are connected in order to prevent excessive voltage Devices are connected to the bus KNX polarity is correct for each device Loads are connected within applicable lamp load limits Power supplies are connected You can locate the program button on each device and red program LED illuminates Commissioning approach After hardware installation has been verified the next step is to commission the system by assigning individual addresses group addresses and configuring the input and output parameters 2 10 Philips LightMaster Select Device in ETS Enter Individual address Name Description and Status in Properties Settings Select Edit gt Download All ETS prompts to press the programming button Press programming button on the device red program LED lights The Individual address is downloaded from ETS into the device red LED goes out when it is completed successfully Enter applicable group addresses and object properties Select Edit gt Download Partial for each device Switch on mains voltage to the lighting load Test the operation of each devic
83. hin band A low level scene is recalled if the detected lux is high and within band 2 or above Link the Sensor Light Scene object to the Dimmer Lamp Driver X Scene Control objects for that area 0 1 1 0 1 1 Sensor 1 Light Scene Lamp Driver X Scene Control 2 2 Group Addresses Device Sending ACK PL Data Types Dynamic Folders 2 1 Lamp Driver 01 Scene Scene control 11 1 PDBC120 DALI KNX scene control 4 0 New main group 22 12 Lamp Driver 02 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 4 0 1 New middle group m 23 Lamp Driver 03 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 0 1 1 Room Open Loop 2 713 Sensor 01 Light Scene Scene control 1 1 1 PDBC120 DALI KNX scene control p 0 0 Associations Setup scenes for lamp driver channels Select DALI MultiMaster Scenes Scene X page 2 Enter a scene name 3 Enter a percentage near 10076 for insufficient daylight in the Level column for each DALI lamp driver channel in your area 4 Enter a fade time for each channel if applicable advanced 5 Select another DALI MultiMaster Scenes Scene X page 6 Entera scene name 7 Enter a percentage near 076 for sufficient daylight in the Level 76 column for each DALI lamp driver channel in your area 8 Enter a fade time for each channel if applicable advanced 9 Enable the Scene DPT SceneControl group object for each DALI channe
84. ht regulation can be configured to operate differently in different scenes Refer to Sensor properties Light control Closed loop scenes Philips LightMaster 114 3 18 Daylight Regulation with Corridor rows The LightMaster Multifunction sensor provides automatic daylight regulation harvesting with a dynamic offset for the window and corridor rows Daylight regulation is a control strategy using a PE Photo Electric sensor to measure illuminance This helps to keep a constant light level in all situations where natural light is available When there is little or no daylight the luminaires produce the required light level When there is enough daylight available the luminaires may dim or be switched OFF completely Since the window area receives more daylight than the corridor area window and corridor luminaires are controlled separately Depending on the amount of daylight entering the room the output of both window and corridor luminaire rows are dimmed to a minimum level with an offset of 30 between the window and corridor side An additional corridor row is also provided with the maximum offset of 50 When both window and corridor rows have been dimmed to the minimum level for more than 15 minutes the window row will be turned off to ensure maximum energy saving The corridor side however will by default only dim to the minimum level hence indicating to the user that the lighting is operational Note The switch off defaults for th
85. ice Update DALI Scenes Writes the KNX application to the Assigns DALI addresses to DALI Lamp Writes the KNX group addressing and controller Driver channels and devices scene values to the DALI ballasts Philips LightMaster 85 2 17 6 Maintenance Activities DALI Network configuration and address assignments are easily maintained using the DALI Configuration Wizard The Wizard provides a simple step by step method for configuring and addressing DALI ballasts devices connected to each universe The DALI Configuration Wizard can be used for the following maintenance tasks Philips LightMaster e Add Ballasts Devices e Swap Ballasts Devices Add Ballasts Devices add new DALI Ballasts Devices first enumerate the universe by clicking the amp Enumerate button 2 When enumeration is complete any new ballasts devices found will appear in the list with the or image next to them 3 New ballasts devices can be identified by selecting them and clicking the Flash button They can then be swapped to a different DALI lamp driver channel by clicking and dragging them onto the other channel 4 To link a group address to a new ballast device click the 3 Link button Swap Ballasts Devices DALI addresses can be swapped to a different Ballast Device by dragging them onto another Ballast Device 2 When finished click the la Save to Device button Note To factory reset a Dimmer c
86. ider Tip highlights shortcuts accepted conventions and best practice Philips LightMaster 9 Intentionally Blank Philips LightMaster 10 Dimmer Actuators 2 LightMaster DALI MultiMaster Dimmer Actuator e PDBC120 DALI KNX LightMaster DALI MultiMaster Dimmer Actuator up to 64 DALI channels up to 16 MultiMaster devices 1 x 20 A relay e PLOS CM DALI MultiMaster Sensor e PPMI4 DALI MultiMaster Dry Contact Interface 2 1 Description The DALI MultiMaster Actuator is a fully featured DALI load controller supporting MultiMaster bidirectional communication to DALI lamps sensors and dry contact Interfaces DALI lamps can be individually controlled by the DALI short address or controlled in groups using the DALI group address in each of the light fittings The Dimmer Actuator is able to zone and re zone logical DALI areas without changing network wiring t can also receive network messages from the light fittings and devices Multiple universes can be controlled together using additional Dimmer Actuators connected over KNX The Dimmer Actuator includes a built in DALI power supply and 20A lighting power relay A total of 64 DALI compatible lighting fittings including emergency may be controlled The power relay automatically cuts power to the load when all lamps in the DALI universe have been dimmed to zero In addition up to 16 user interfaces PLOS CM DALI and or PPMI4 DALI may also be connected directly onto the DALI b
87. imming object s and link the Switch X X Scene object to the Lamp driver X Scene object s 0 4 1 Switch X 1 Relative Level Ramp Up 100 and Stop 0 4 1 Lamp Driver X Relative Dimming 0 4 1 Ramp Down 100 and Sto Switch X 2 Relative Level j p 0 1 1 Switch X 1 Scene 0 1 1 Lamp Driver X Scene 0 1 1 Switch X 2 Scene ACK PL Data Types dimming control 4 F Group Addresses Device 82 1300 Switch 01 1 Relative Level Relative Level 1 1 1 PDBC120 DALI KNX a 1304 Switch 01 2 Relative Level Relative Level 11 1 PDBC120 DALI KNX Dynamic Folders 0 Office dimming control 4 0 1 Scenes 0 1 1 Room Scene 4 0 4 Relative Levels p sz Group Addresses Dynamic Folders 0 Office E 0 1 Scenes B8 0 1 1 Room Scene 4 0 4 Relative Levels 0 4 1 Room Ramp p Philips LightMaster sl 15 Lamp Driver 02 Relative Dimming Relative level 2 26 Lamp Driver 03 Relative Dimming Relative level Be 4 Lamp Driver 01 Relative Dimming Relative level 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX dimming control dimming control dimming control m2 1 Lamp Driver 01 Scene Scene control 82 12 Lamp Driver 02 Scene Scene control 8 1297 Switch 01 1 Scene Scene 1301 Switch 01 2 Scene Scene 22 23 Lamp Driver 03 Scene Scene control Device 1 1 1 PDBC120 DALI KNX 1 11 PDBC120 DALI KNX 1 11
88. ink the Switch X Scene object and the Switch X 2 Scene object to the scene control group address for the area 102 3 11 Lamp Status and Lamp Level Monitoring The system can provide feedback to building management systems of the On Off status and level of individual lamps This allows energy monitoring and provides an overall view of lighting usage in a building Create On Off and Level group addresses for each lamp driver Link Lamp Driver X Feedback On Off object to the Monitoring On Off Object of Building Management Software Link Lamp Driver X Feedback Level Object to the Lamp X Monitoring Level Object of Building management Software Building Management System 0 2 1 Switched State 0 2 1 Lamp Driver X Feedback On Off 1 ON 0 OFF Lamp X Monitoring On Off L Dri in space Current Level 96 d Building Management System 0 3 1 Lamp X Monitoring Level 4 5 2 a ACK PL Data Types Dynamic Folders W 5 Lamp Driver 01 Feedback On Off On Off level feedback 1 1 1 PDBC120 DALI KNX S No on off 4 0 New main group 4 0 2 New middle group 0 2 1 Lamp Driver 1 Lamp Status Associations E Group Addresses B ACK PL Data Types Dynamic Folders 6 Lamp Driver 01 Feedback Level Absolute level feedback 11 1 PDBC120 DALI KNX S No percentage 0 10095 0 New main group 0 3 New middle group 4
89. ion data from the ballasts devices in the universe Clicking the dropdown arrow allows reset enumeration to be performed for all items only devices or only lamp drivers ballasts E Read from Device Reads the enumeration data from the controller lg Save to Device saves modified enumeration data to the controller af Update DALI Scenes Creates DALI scenes and groups based on the KNX group addressing and scene values and writes the data to the DALI ballasts gt Query Status All Queries the status of all ballasts devices after enumeration e Unknown the current state of the ballast device with this short address is unknown to the controller e Online the ballast device is online and communicating with the controller e Offline the ballast device is offline and not communicating with the controller Sign On Devices amp Clear Sign On Enables manual identification of DALI MultiMaster dry contact devices It used in place of flashing to locate devices flashing is not available for dry contact devices Click the icon then press the service switch on the device The sign on icon is then displayed next to the corresponding device Finish Closes the Configuration Wizard Window Philips LightMaster 8l 2422 DALI lamp drivers and devices toolbar Selecting an enumerated ballast device enables disables specific buttons on the DALI Lamp Driver and Devices Toolbar above the main configuration page Flash a
90. it can perform an action to recall an occupied scene in the parent area A Notifier Scene Control object detects unoccupied scenes in a child area and the Notifier Sync object stops sending occupancy signals to the linked Activator and Timer and other Notifier Sync objects allowing their timers to expire If the Timer Scene Control Object is in an occupied scene and the timer expires then it can perform an action to recall an unoccupied scene in the parent area Philips LightMaster 5 An area can be both a child and a parent Although each child area must have a switch sensor a parent area does not need to have its own switch sensor It is possible to create different dependencies for example between work islands in an open plan office or to create a hierarchy of dependencies as illustrated below Child Parent Child Parent Child Parent Child Parent Child Parent Child Parent Child Parent Child Parent Child Parent Parent Open plan background lighting Child Parent Child Parent Child Parent Cascaded corridor hold on four levels Philips LightMaster 52 2 12 1 Corridor hold on linking Once the relevant Corridor hold on objects have been configured they must then be linked to each other and to the lamp drivers with matching group addresses to function correctly For example L Motion Scene J L Motion Scene J 1 1 1 1 1 2 Corridor Notifier Scene Corridor Notifier Scene 1 5 1 1 5 1 Corridor Notifier Sy
91. ithin an area 0 2 0 All Areas 0 2 8 Boardroom 0 2 14 Staff amenities Group addresses must be linked to the input and output 0 2 15 Toilets group objects of each device Once the lamp drivers have 2 0 3 Absolute been linked to the group addresses then the Sensor Switch 0 3 9 Boardroom channel 1 objects can be linked Each group address can only be used 0 3 10 Boardroom channel with one Datapoint type d 0 4 Relative After group addresses have been linked to all inputs and 0 4 4 Meeting room Presentation room outputs the KNX application can be downloaded to the 0 4 5 Presentation room controller 0 4 6 Presentation front channel 0 A 7 Presentation rear channel Philips LightMaster 77 2 16 2 Group address example The linked group addresses enable each input device such as an occupancy sensor or button to trigger an action that sends a telegram via the linked group address to specific DALI lamp drivers to perform the recalled function The table below shows a typical configuration GROUP ADDRESSES OFFICE FUNCTIONS DIMMER GROUP OBJECTS DATA POINT TYPES ALL AREAS FUNCTIONS 0 1 0 All areas scenes Lamp Driver Output channel 1 37 Scene byte scene number 0 2 0 All areas switching Lamp Driver Output channel 1 37 On Off 1 bit On Off 0 1 1 Reception scenes Lamp Driver 5 31 33 Scene byte scene control 0 1 2 North corridor scenes Lamp Driver 26 30 Scene byte scene control 0 1 3 Meeting room scenes Lam
92. ive scenes for the Corridor Timer The Corridor Timer Sync object is a parent object It is typically linked to the Corridor Activator Sync object in the same area and to the Corridor Notifier Sync objects in the child areas 2 19 21 Sensor X Corridor Timer Scene Function Type Size Priority Flags Input Output DPT SceneControl 8 bit Low C R W T The Sensor X Corridor Timer Scene object is used for recalling predefined scenes configured for lighting channels When receiving a scene number the channel will fade to the predefined light level using the configured fade time for this scene Only the lower 6 bits are used to recall scene numbers to 64 Corridor Timer active scenes are configured to wait for vacancy When child areas are all vacant then it recalls a suitable unoccupied scene for the parent area The Corridor Timer Scene object is a parent object It is typically linked to the Corridor Activator Scene object and to the lighting channel scene objects in the same area 2134 20 Sensor X Corridor Activator Sync Function Type Size Priority Flags Input Output DPT Occupancy bit Low C R W T The Sensor X Corridor Activator Sync object sends receives a regular heartbeat to signal the occupancy state Occupied 0 Unoccupied It enables child areas to report their occupancy state to parent areas and to other child areas Heartbeat notification period timers are restarted whenever a heartbeat signal is sent received Networ
93. k traffic is reduced as only the area with the next occurring timeout needs to signal occupancy The heartbeat signal only operates when an area is in a predefined active scene Unoccupied scenes are the active scenes for the Corridor Activator The Corridor Activator Sync object is a parent object It is typically linked to the Corridor Timer Sync object in the same area and to the Corridor Notifier Sync objects in the child areas Philips LightMaster 70 PAIS P RO Sensor X Corridor Activator Scene Function Type Size Priority Flags Input Output DPT SceneControl 8 bit Low C R W T The Sensor X Corridor Activator Scene object is used for recalling predefined scenes configured for lighting channels When receiving a scene number the channel will fade to the predefined light level using the configured fade time for this scene Only the lower 6 bits are used to recall scene numbers to 64 Corridor Activator active scenes are configured to wait for occupancy When a child area is occupied then it recalls a suitable occupied scene for the parent area The Corridor Activator Scene object is a parent object It is typically linked to the Corridor Timer Scene object and to the lighting channel scene objects in the same area 12002 Sensor X Corridor Notifier Sync Function Priority Input Output Occupancy bit Low C R W T The Sensor X Corridor Notifier Sync object sends receives a regular heartbeat to signal the occu
94. l in your area 10 Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Philips LightMaster 121 Configure a Sensor for Open Loop Light control 2 10 Philips LightMaster Select a Calibrated DALI Sensor On the Sensor Applications page select any application On the Sensor Properties Light Control page Open Loop section Enable Open loop light control enabled disabled Click Show Advanced and Enter the Update Period ms Click to select the active scene mask scenes in which open loop light control will be active For example Scene 13 and Scene 14 Enter the Open loop bands count as 2 for example Enter the High Level Band lux for Band as 500 Lux Enter the Action for Band as Scene 13 Enter the Action for Band 2 as Scene 14 Link Sensor Light Scene to the scene control group address for that area 122 3 21 Corridor Hold Corridor Hold on provides the opportunity to make the light level in one area dependent on the occupancy state in another area This makes it possible to make a conditional exit path for example by keeping the corridor lights ON if any of the adjacent rooms are still occupied Create scene control group addresses for cell office cell office 2 and corridor Link Sensor Motion Scene object and Sensor Notifier Scene object to Lamp Driver X Scene object s for cell office Link Sensor 2
95. l name can be edited on the Channel properties page 2 9 9 aude Tick the checkbox to not alter the channel level when changing to this scene 2 4 34 Level 96 Setup the individual levels for each channel in a scene 2 4 5 5 Fade Time 5 If applicable specify a different fade time for each channel in a scene Philips LightMaster 20 2 5 D ALI lamp drivers global channel properties 2 5 1 Channel control Channel contral DALI Minimum level 55 1 DALI Maximum level 55 100 Fade time when dimming s 2 Fade time when switching 5 NoFade Fade time when ramping 9 2 5 1 1 DALI Minimum level 96 This parameter sets the minimum channel level as a percentage This is a DALI parameter that is updated to the DALI lamp drivers during enumeration 2 5 1 2 DALI Maximum level 76 This parameter sets the maximum channel level as a percentage This is DALI parameter that is updated to the DALI lamp drivers during enumeration 2 5 1 3 Fade time when dimming s The fade time used for Absolute level dimming 2 5 1 4 Fade time when switching s The fade time used for ON OFF switching 2 5 1 5 Fade time when ramping s The fade time used for Relative level dimming ramping for each ramping step 2 5 2 Emergency testing Emergency testing Emergency test sector 2 5 2 1 Emergency test sector Select Y or Z to include the channel in an emergency sector Philips LightMaster 21 2 5 3 Group
96. lity elektromagnetische Kompatibilitat For further information about KNX and ETS refer to the KNX Association website http knx org It is assumed that readers have acquired specialist Lighting Control and KNX knowledge before commissioning LightMaster products In depth technical knowledge is provided in the form of a face to face LightMaster training module available internationally from the Philips Controls Training Academy Related documents The following PDF documents are available for download via the web at http www philips com knx http www lighting philips com main subsites dynalite index wpd Philips Light aster Philips LightMaster PHILIPS PHILIPS Application Guide Service Manual a 7 PPM Sa ZENEL a Se Philips LightMaster e a JE PHILIPS a a Commissioning Guides Installation Manuals Data Sheets Philips LightMaster 8 1 8 Technical support contacts Contact Philips Global Systems Lighting call desk for assistance with hardware or software questions 1 8 1 Phone Call desk 800 7445 4775 Europe Call desk 61 2 8338 9899 Australia New Zealand 1 8 2 Email knx info philips com 1 8 3 Web htto www philios com knx 1 9 Conventions Advanced parameters are shown in italics Caution highlights safety issues or where there is a risk of permanent damage to equipment Note highlights important factors you need to cons
97. lude scene range parameter ZZ Timeout s Is available only for Notifier and Timer objects e The Notifier Timeout it is the time period between Notifier sync telegrams This resets all linked timers Must be less than the Timer timeout value e The Timer timeout period is reset each time it receives a Notifier sync telegram Philips LightMaster 55 2 12 3 14 Actions Click to open the Action Chain Editor Actions are not required for the Notifier object as it is a child object Only the parent Activator and Timer objects are used to generate actions 2 124 Action Chain Editor Enter actions for corridor hold on Click New Y Ito add a Recall Scene function from the menu 2 Select Recall Scene in the Action Chain Editor window 3 Enter the required scene number or click Delete to remove the function Function Parameters Recall Scene Recall Scene 1 Note The Notifier Timer and Activator are scene centric objects that require DPT SceneControl to function Only Recall Scene actions should be used for Corridor hold on Philips LightMaster 56 2 13 contact device properties Right click the DALI Dry Contact in the menu to Copy or Paste settings FN Device identification Device identification properties are entered into the database only as a job reference They are NOT downloaded into the device PABA Device name Enter a local site specific name for the device TANS hed Location En
98. lue set for the channel It is not possible to switch lights off with this function The most significant bit indicates the ramping direction increase O decrease The step code is a 3 bit value in the range 0 to 7 A zero code provides the stop ramp function Step code 10076 Step size Step size 0 Break indication Stop ramp 100 2 2 50 3 4 25 4 8 12 5 5 l6 6 2576 6 32 3 12576 7 64 1 5625 2 1 559 Sensor X Motion Timeout Sync Function Type Size Priority Flags Input Output DPT TimePeriodSec 16 bit Low C R W T U The Sensor X Motion Timeout Sync object is used to synchronize the occupancy timeout period where multiple sensors are used together in one area Sensor X Motion Logic Input Function Type Size Priority Flags Input DPT_ Switch bit Low C R W The Sensor X Motion Logic Input object allows the sensor to perform a logical function with this external input and the internal motion sensor state 1 Occupied 0 This is a bit input to the selected logical function AND OR XOR 0 FALSE TRUE Philips LightMaster 66 21527 Sensor X Motion Logic Output Function Type Size Priority Flags Output Switch bit Low C R W The Sensor X Motion Logic Output object allows the sensor to perform a logical function with an external input and the internal motion sensor state 1 Occupied 0 Unoccupied This is a bit output to the selected logical function AND O
99. m 0 3 1 Lamp Driver 1 Lamp Level Associations Setup Lamp Status and Lamp Level Monitoring In DALI Lamp Driver X Page Under Group Objects enable Feedback ON OFF DPT Switch and Feedback level DPT Scaling This will enable Lamp Driver X Feedback On Off and Lamp Driver X Feedback Level Objects 2 Link the Lamp Driver X Feedback On Off object and matching BMS object to the On Off group address for that Lamp Driver 3 Link Lamp Driver X Feedback Level Object and matching BMS object to the Absolute level group address for that Lamp Driver Philips LightMaster 103 3 12 Lamp Runtime Reporting The system can log the time a specific luminaire is powered This can assist in reducing maintenance costs and can improve safety and comfort for the occupant due to the fact that end of life for the lamps can be predicted This also enables planning of systematic group lamp replacement which is more economical than individual lamp replacement Create a running hours group address for each lamp driver Link Lamp Driver X Running Hours object to the Lamp Runtime reporting Object of Building Management Software Building Management System 0 7 X 0 7 X Lamp Driver X Running Hours Lamp X Runtime Addresses ACK PL Data Types Dynamic Folders 22 7 Lamp Driver 01 Running Hours Hours 111 PDBCi20 DALI KNX 5 No time h 0 New main group 0 7 N
100. mination levels are high raise the Max Raw Value and Max Lux Value scales to bring the graph traces within the visible range The polling interval determines how often the lux level is updated Calibrate Sensor Allow the raw level blue graph to stabilize become almost a straight horizontal line 2 Using a suitable quality lux meter measure the light level at the desired working plane height at a reference point in the area below the sensor 3 Enter the measured value in the Reference Lux parameter 4 Click the Calibrate button 5 Before closing the calibration plug in page continue to view the displayed Lux trace to confirm calibration was effective Providing there has been no change in the lighting level since the reference Lux level was measured and entered the displayed Lux trace should promptly begin indicating a Lux level around the entered reference value 6 Close the Sensor Calibration dialogue box Note The title bar of the calibration plug in page must indicate the sensor status as Connected and the graph trace must be stable before attempting calibration Philips LightMaster 50 2 12 Sensor properties Corridor hold on Corridor hold on enables lighting to be maintained in an area depending on the occupancy status of other areas A typical application would involve maintaining lighting in a corridor when offices accessed by that corridor are occupied Corridor hold on is configured with Notifier Activa
101. mp Driver X Relative Dimming objects for the channels in your area to the Relative level control group address for that area Philips LightMaster 99 Configure Switches to perform Ramp Up and Stop and Ramp Down and Stop functions 2 Philips LightMaster Select DALI dry contacts DALI dry contact X Switches Switch Select Ramp Up and Stop from the Switch actions dropdown list Select DALI dry contacts DALI dry contact X Switches Switch 2 Select Ramp Down and Stop from the Switch actions dropdown list Enable the Relative level DPT Control Dimming group object parameter for the Switches Link the Switch X I Relative level object and the Switch X 2 Relative level object to the Relative level control group address for the area 100 5 10 A single switch can perform a Ramp Up or Ramp Down with an extended press action and can stop Ramp Up or Down Stop and Program ramping and program the level to the specified scene upon release of the extended press action Relative level control ramps the channel level UP or DOWN 10076 until maximum level or minimum level is reached or the stop ramp command is triggered by the programming of the scene The switch ramps the level up or down using the Fade time when ramping value specified in the Lamp Driver channels Create a Relative level control group address and a scene control group address Link the Switch X X Relative Level Objects with the Lamp Driver X Relative D
102. nc scene control 12 Lamp Driver 2 Scene Scene control scene control scene control scene control scene control li lt Group Addresses Dynamic Folders 4 BaO New main group 0 1 New middle group 0 1 1 Cell Office 1 0 1 2 Cell Office 2 Group Addresses gt M Dynamic Folders 0 New main group 4 8 0 1 New middle group 0 1 1 Cell Office 1 0 1 2 Cell Office 2 a 34 nm Driver 4 Scene Scene control 45 Lamp Driver 5 Scene Scene control 22 56 Lamp Driver 6 Scene Scene control a 742 Sensor 2 Motion Scene Scene control ne 762 Sensor 2 Corridor Notifier Scene Scene Sync m2 67 Lamp Driver 7 Scene Scene control 2 779 Sensor 3 Motion Scene Scene control 78 Lamp Driver 8 Scene Scene control E 797 Sensor 3 Corridor Timer Scene Scene Sync 801 Sensor 3 Corridor Activator Scene Scene Sync 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX scene cud scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control 0 1 3 Corridor E2 89 Lamp Driver 9 Scene Scene control 29 Group Addresses Dynamic Folders 1
103. nc Corridor Notifier Sync 1 1 1 Lamp Driver X Scene 1 1 3 1 1 4 1 1 3 i Motion Scene Lamp Driver X Scene i Motion Scene ALL 1 1 3 1 1 4 Corridor Notifier Scene Corridor Activator Scene 1 5 2 Corridor Notifier Sync 1 1 3 Corridor Activator Sync Corridor Activator Scene Corridor Timer Scene 1 5 1 Corridor Activator Sync Corridor Timer Sync Corridor Timer Scene 1 5 1 Corridor Timer Sync Corridor Philips LightMaster 53 Pa BP General Key point The process of implementing corridor hold on involves the following steps Specify occupied Notifier scenes for the child areas 2 Specify child unoccupied Activator scenes and child occupied Timer scenes for the parent area 3 Set parent area scene actions for when the child areas are occupied and unoccupied 4 Link child area objects to parent area objects General Corridor hold on enabled 2 12 21 Corridor hold on enabled disabled Click the checkbox to use Corridor hold on functions 2 1253 Corridor hold on objects Corridor hold on objects Count 3 Max 10 1 12 12 M 2 Notifier 1 9 A i 5 255 255 255 255 300 Recall Scene 15 255 255 255 255 65535 a 255 5 60 Recall Scene 12 2423 1 Count Min 3 Max 10 Total number of corridor hold on objects required f
104. nd amp Stop Flash Flash and Stop Flash are used to find the physical location of lamps and devices in a project by sending messages to alternate levels between 076 and 10076 This information is then used to determine group address links for commissioning t Query Status Queries the status of the selected ballast s device s You can multi select ballasts to query them at the same time The status can be e Unknown the current state of the ballast device with this short address is unknown to the controller e Online the ballast device is online and communicating with the controller e Offline the ballast device is offline and not communicating with the controller Remove 5 amp Unremove Removes or restores the ballast device from the controller memory Confirm 3 Unconfirm Allows you to record a tick or question mark to indicate that the identity of the Lamp Driver Channel Device is confirmed or unconfirmed Confirms the correct DALI address has been assigned after flashing signing on Calibrate Runs the sensor calibration wizard Refer to the Sensor Calibration topic i Show Log 7 Opens a log pane in the lower part of the window Clicking the dropdown arrow allows Show Log Start Log Stop Log Hide Log Clear Log actions to be performed Philips LightMaster 82 Enumerate DALI network DALI Ballasts Devices require enumeration before they can be placed into operation Enumeration is a process where
105. nd are not editable e Product name e Product category e Product type e Device code e Model ID e Firmware major version e Firmware minor version e GTIN 2 3 DALI address The DALI address information is displayed and can be modified using the DALI Enumeration Wizard e Short address e Random address e Galaxy e Universe Philips LightMaster 26 2 8 Sensor applications To enable faster commissioning the LightMaster Configuration Plug in uses default scenes 1 16 and application scenarios for example Meeting Room to easily setup lighting applications The Sensor applications page enables you to select an application scenario for each area to be controlled The application will then automatically configure the associated properties for the sensor The standard application scenarios are Ov Cell Office Work Island Meeting Room Corridor Lift Lobby Kitchen 7 Break Out 8 Reception 9 Stairway 10 Toilet Other Once the application parameters are selected then the group addresses can be created and linked to the required input and output objects If applicable more unique applications can be configured by entering further details into the properties pages for each device Note All standard applications rely on Scene DPT SceneControl and Absolute level DPT Scaling control objects These objects must remain enabled for applications to operate If light 15096 of target level
106. ne 12 Scene 12 Scene 12 Philips LightMaster 131 When the hold timer expires the open plan will switch to Scene 15 0 12 All work islands will switch to Scene 15 0 Scene 15 Create Scene Group addresses for Work Island 1 Work Island 2 Work Island 3 Work Island 4 and Open Plan Create a group address for Occupancy Sync Link Sensor Motion Scene object to the Dimmer Lamp Driver X Scene Objects in Work Island Also link Sensor Notifier Scene Sensor Activator Scene Sensor Timer Scene to the Scene Group address for Work Island 1 Link Sensor 2 Motion Scene object to the Dimmer Lamp Driver X Scene Objects in Work Island 2 Also link Sensor 2 Notifier Scene Sensor 2 Activator Scene Sensor 2 Timer Scene to the Scene Group address for Work Island 2 Link Sensor 3 Motion Scene object to the Dimmer Lamp Driver X Scene Objects in Work Island 3 Also link Sensor 3 Notifier Scene Sensor 3 Activator Scene Sensor 3 Timer Scene to the Scene Group address for Work Island 3 Link Sensor 4 Motion Scene object to the Dimmer Lamp Driver X Scene Objects in Work Island 4 Also link Sensor 4 Notifier Scene Sensor 4 Activator Scene Sensor 4 Timer Scene to the Scene Group address for Work Island 4 Link Sensor Corridor Object 04 Scene Activator and Sensor Corridor Object 05 Scene Timer to the Dimmer Lamp Driver X S
107. nsor Applications page select the Cell Office application Enable Use Motion Sensor Set This motion sensor is used for as AutoOnAutoOff Presence Mode If the occupancy control is required to be in Absence mode then set the option anualOnAutoOff Link Sensor X Motion Scene Object to the scene control group address for that area gure a DryContact for combined control Select DALI dry contacts DALI dry contact X Switches Switch X Select Toggle Scene or Recall Scene from the Switch actions dropdown list Enter a scene number in the Recall Scene Parameters Use Manual Override Scenes 2 to 8 for Manual control if Sensor is configured as AutoOnAutoOff If ManualOnAutoOff is configured then Scene to Scene 8 can be configured for Manual control Enable the Scene DPT SceneControl group object for the Switch Link the Switch X X Scene objects to the scene control group address for the area 112 3 17 Daylight Regulation Daylight regulation harvesting is a control strategy using a PE Photo Electric sensor to measure illuminance This helps to keep a constant light level in all situations where natural light is available When there is little or no daylight the luminaires produce the required light level When there is enough daylight available the luminaires may dim or switch OFF completely Daylight regulation can be used in combination with other control functions such as manual control or occupancy control Create
108. nt area standby this feature is used in larger areas equipped with multiple sensors e g modern open plan offices It can activate or maintain a background lighting level in an open plan office while at least one of the work islands is still occupied When the last work island area becomes unoccupied the lights in the open plan will switch off with a delay Example demonstrates Open Plan with 4 Work Islands Work island configuration Philips LightMaster Area 0 1 1 0 1 2 0 1 3 0 1 4 Scene 100 e Scene 12 20 background level Scene 15 Off e Scene 15 Initially everything is off and in Scene 15 Open plan configuration Area 0 1 5 Scene na Scene 12 100 Scene 15 Off Scene 15 Scene 15 When the first work island gets occupied it switches on at Scene I It sends an occupied signal to the open plan group and other Work Islands The general lighting in the open plan switches on at Scenel2 100 The other work islands switch on at Scene 12 background lighting 2076 130 Scene 12 Scene 12 6 When a second work island gets occupied it switches on at Scene 100 7 1 sends an occupied signal to the open plan group and other Work Islands 8 Unoccupied Work Islands 3 and Work Island 4 remain at Back ground level 9 When a work island is vacated it will drop back to background level while there are still occupied signals to its group area Scene 12 Sce
109. od between polling the status of DALI lamp drivers Philips LightMaster 2 4 DALI MultiMaster scenes Scene control is the preferred method for lighting control applications Scenes can be setup to allow simultaneous recall of different levels for multiple channels by a single telegram Default Scenes Ito 16 are already preconfigured for automatic application settings e Scene Automatic Mode e Scenes 2 8 Manual Override e Scene 9 Smart Timer Active e Scene lO Switch Off Warning e Scene Unoccupied Corridor e Scene 12 Unoccupied Open Plan e Scene 3 Unoccupied Cell Office e Scene 14 Daylight Override e Scene 5 Corridor Hold Time Out e Scene l6 User Defined scene The levels for all scenes including the default scenes can be modified by clicking the Scenes tab and entering a percentage level for the DALI lamp driver channels for a particular area group address 2 4 1 Scene count Min 16 Max 32 The number of scenes required for all areas controlled by the device Default 16 2 4 2 General General Name Automatic mode Exclude Level for all channels 100 Fade time for all channels s 2 2 4 2 Name Enter a meaningful name for the scene The scene name can be based on the activity supported such as presentation scene meeting scene night time cleaning scene welcome scene etc 2 4 2 2 Exclude for all channels This parameter enables exclusion of specific lamp drivers from the scene It provides a don
110. oefficient Advanced setting that is automatically set when calibrating the sensor using the calibration plug in Zi b d Lux calibration offset coefficient Advanced setting that is automatically set when calibrating the sensor using the calibration plug in 2 10 9 4 Linearization scaler Advanced setting that is automatically set when calibrating the sensor using the calibration plug in Philips LightMaster 48 2 10 10 2 11 Philips LightMaster Group objects Click the checkboxes to enable the following group objects e Scene SceneControl e ON OFF Switch e Level row DPT Scaling e Level row 2 DPT Scaling e Level row 3 DPT Scaling e Relative level Control Dimming e Lux DPT Value Lux e Enable disable Switch Calibrating the sensor For correct operation of the multifunction sensor in any lighting level control application it must be calibrated When the sensor is installed in the typical mounting position on a ceiling facing down the sensor actually measures the light reflected back to it from the surfaces below However the objective of most lighting control applications is to maintain lighting levels at a specific horizontal working plane height ie on the top of a desk Therefore if the surfaces below the sensor have a low reflectance ie dark carpets etc the level of light measured at the sensor will be quite different to that at the working plane height The sensor can compensa
111. ol and Daylight regulation is required Link the Sensor X Motion Scene to the light regulation scene control group address for that area 118 3 19 Occupancy Control with Daylight regulation Occupancy control and Daylight regulation can be combined to work together for a room When the room is occupied the lights are turned ON and daylight regulation is enabled Once the room is vacant and the delay timer expires the lights are turned OFF and daylight regulation is disabled automatically Link the Sensor X Light Absolute level row object s to the Dimmer Lamp Driver X Absolute Dimming objects of that area Link Sensor X Motion Scene and Sensor X Light Scene of the same sensor to the Dimmer Lamp Driver X Scene Control of that area Dimmer Dimmer 0 3 1 Sensor X Abs Level Row 1 0 3 1 t Level arget Level Lamp Driver X Absolute Dimming Dimmer Dimmer 0 1 1 0 1 1 Sensor X Motion Scene Lamp Driver X Scene Control Recall Scene 0 1 1 Sensor X Light Scene R 9 4 Addresses Device Le Dynamic Folders 7 14 Lamp Driver 2 Absolute Dimming Absolute level 111 PDBCi20 DALI KNX percentage 0 10095 C 4 1 New main group 82 25 Lamp Driver 3 Absolute Dimming Absolute level 111 PDBC1i20 DALI KNX percentage 0 10095 C 4 1 3 New middle group 7 3 Lamp Driver 1 Absolute Dimming Absolute level 111 PDBC1i20 DALI KN
112. on is not selected the lights will switch off scene 15 when motion times out It is possible to configure different levels for the Corridor hold on scene Scene 11 and for an occupied corridor scene Scene 1 30 2 8 1 5 Lift Lobby Application Actions are identical to Corridor application 2 8 1 6 Kitchen Application Actions are identical to Corridor application 2 8 1 7 Break Out Application Actions are identical to Corridor application 2 8 1 8 Reception Application Actions are identical to Corridor application 2 8 1 9 Stairway Application Actions are identical to Corridor application 2 9 1 109 Toilet Application Actions differences compared to Cell Office application e No light sensor options e Always auto on off Zio Other Applications Actions are identical to Cell Office application Philips LightMaster 3l 2 8 2 General General Application CellOffice Use motion sensor Autogenerate off actions Use light sensor E Use comdor hold on 2 8 2 1 Application Select where the sensor will be used CellOffice Worklsland MeetingRoom Corridor LiftLobby Kitchen BreakOut Reception eS ee Stairway 10 Toilet Other The application in your specific area does not have to exactly match one of the above scenarios it is simply an estimation of how the area is used 2 8 2 2 Use motion sensor Click the checkbox to enable motion control functions 2 8 2 5 Autogenerate on off actions
113. onfigured for the channel The lights will make the relative change using the Fade time when ramping value set for the channel It is not possible to switch lights off with this function The most significant bit indicates the ramping direction increase O decrease The step code is a 3 bit value in the range 0 to 7 A zero code provides the stop ramp function Step code 10076 Step size Step size 0 Break indication Stop ramp 100 2 2 50 3 4 25 4 8 12 5 5 l6 6 2576 6 32 3 12576 7 64 1 5625 2459 Lamp Driver X Feedback On Off Function Type Size Priority Flags Output Switch bit Low CRT The Lamp Driver X Feedback On Off object provides a bit value indicating the current switch state of the channel ON 0 OFF Lamp Driver X Feedback Level Function Priority Output DPT_ Scaling 8 bit Low CRT The Lamp Driver X Feedback Level object provides an 8 bit value indicating the current light level of the channel For example when a scene number is recalled the Scaling object will show the value 0 100765 changing during the fade Zola du Lamp Driver X Running Hours Function Type Size Priority Flags Output DPT_TimePeriodHrs 16 bit Low C R The Lamp Driver X Running Hours object provides 16 bit value equaled to the cumulative running hours of the channel Philips LightMaster 63 ASIS Lamp Driver X Lamp Failure Function Type Size Priority Flags Output DPT
114. ontroller you need to click c Reset Enumeration in the Plug in and then in ETS right click the controller and select unload Application 86 Remove Ballasts Devices Replace Ballasts Devices Remove Ballasts Devices To determine the online status of all DALI Ballasts Devices click the i Query Status All button To remove a DALI Ballast Device select it and click the Remove button An image will be shown to indicate it has been marked for removal When finished click the iz Save to Device button to remove all marked Ballasts Devices from the DALI controller Replace Ballasts Devices To determine the online status of all DALI Ballasts Devices click the Query Status All button Select the offline DALI ballasts to be replaced and click the Remove button An X image will be shown next to the DALI Ballast to indicate it has been marked for removal Click the al Save to Device button to remove the marked ballasts from the DALI controller Add the new replacement ballasts by clicking the Enumerate button When the enumeration is complete any new Ballasts Devices found will appear in the list with the or B image next to them The new ballasts can be identified by selecting the Ballasts Device and clicking the Flash button for Ballasts Sensors or the amp sign on button for Dry Contacts These can then be swapped to a different short address by dragging them onto another DALI lamp dri
115. or 3 Motion Scene Sensor 3 Notifier Scene Sensor 3 Activator Scene Sensor 3 Timer Scene to the Scene Control group address for Work Island 3 Link Sensor 4 Motion Scene Sensor 4 Notifier Scene Sensor 4 Activator Scene Sensor 4 Timer Scene to the Scene Control group address for Work Island 4 135 Configure the Corridor linking Objects for Open Plan 2 Philips LightMaster Choose a Sensor of any Worklsland 1 for example On Sensor Sensor Properties page Select Corridor hold on tab Under Objects Enable 4 and 5th Object Set the Object type for 4 object as Activator Enable Exclude scene Range Enter Scene Range start as 12 Scene Range End as 12 Enter Activator Action Scene as Scene 12 Set the Object type for 5t object as Timer Enter the Scene Range Start as 12 and Scene Range End as 12 Enter Timer Action Scene as Scene 15 Enter the Timer Timeout as 300sec Link Sensor Corridor Object 04 Scene Sensor Corridor Object 05 Scene to the scene control group address for Open plan Link the entire Sensor Corridor Sync Objects Notifier Sync Activator Sync and Timer Sync to Occupancy Sync group address 136 2013 Koninklijke Philips Electronics N V All rights reserved Philips International B V The Netherlands Document Revision A PHILIPS
116. or enclosed office spaces Closed loop Closed loop light control enabled Scene wrap around Proceed if level unknown Dead zone lux Decrement steps 5 Incrememt steps 25 Update period ms 17000 Switch off delay m 15 2 10 1 1 Closed loop light control enabled disabled Click the checkbox to use closed loop light control functions 2 10 1 2 Scene wrap around Click the checkbox to use scene warp around If a scene telegram is sent with a scene number greater than the total available scenes then the scene recalled will be based on the scene number sent minus a multiple of the total available scenes For example if there are 16 scenes and scene number 17 is sent then scene is recalled or if scene 8 or 34 is sent then scene 2 is recalled etc PA SN Proceed if level unknown Regulation will commence from 50 if the level is unknown If unchecked then closed loop regulation will not start at all if there is no reply to the READ command sent from sensor to the lamp drivers 2 10 14 Dead zone lux Minimum change required from the setpoint before regulation will change the light level For example if the target level is 400 lux and the deadzone is 10 lux there will be no regulation when the lux level is between 400 lux and 410 lux Philips LightMaster 40 TOMES Decrement steps The byte 0 to 254 decrement step size for changes in regulation 2 10 1 6 Increment steps The byte 0 to 254 increment step size fo
117. or the sensor PAPET Index Corridor hold on object number P N URS S Object type Select Notifier Timer or Activator object 242 34 Enabled disabled Click the checkbox to enable the corridor hold on object Philips LightMaster 54 Resume at startup Click the checkbox to initiate the corridor hold on function at startup 24528 Exclude scene range Click the checkbox to exclude the specified scene ranges non active scenes Scene ranges can be specified to be included or excluded as active scenes Default included 2 412 347 5cene range start Enter the lower scene number as the start of the range P PES 5cene range end Enter the higher scene number as the end of the range The corridor hold on object will be active in this scene range or NOT active in this scene range depending on the Exclude scene range parameter 2 12 19 Scene range 2 start Enter the lower scene number as the start of the range 2 2 9 10 Scene range 2 end Enter the higher scene number as the end of the range The corridor hold on object will be active in this scene range or NOT active in this scene range depending on the Exclude scene range parameter 2 129 31 Scene range 3 start Enter the lower scene number as the start of the range Z0 Scene range 3 end Enter the higher scene number as the end of the range The corridor hold on object will be active in this scene range or NOT active in this scene range depending on the Exc
118. oup address Link the Switch X X Absolute Level object with the Lamp Driver X Absolute Dimming object s 0 3 1 Switch 1 X Absolute Level Target Level 0 3 1 Lamp Driver X Absolute Dimming 4 Addresses Device IO Dynamic Folders BZ 1299 Switch 01 1 Absolute Level Absolute Level 111 PDBC120 DALI KNX percentage 0 100 C 4 0 Office 04 14 Lamp Driver 02 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX percentage 0 100 C 4 0 3 Absolute Levels 27 25 Lamp Driver 03 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX percentage 0 100 C 0 3 1 Room Level 27 3 Lamp Driver 01 Absolute Dimming Absolute level 1 1 1 PDBC120 DALI KNX percentage 0 100 C p 0 0 v Associations Set the Fade time when dimming value for lamp driver channels Select DALI lamp drivers Global channel properties page or the DALI lamp driver X Channel properties page s 2 Select a fade time value or select NoFade from the Fade time when dimming dropdown list 3 Enable the Absolute level DPT Scaling group object parameter for each DALI channel in your area 4 Link the Lamp Driver X Absolute dimming objects for the channels in your area to the Absolute level control group address for that area Configure a Switch to recall a channel level Select DALI dry contacts DALI dry contact X Switches Switch X 2 Select Recall Level from the Switch actions drop
119. p Driver 03 Emergency Test Failure On Off emergency failure 11 1 PDBC120 DALI KNX 111 0 6 101 Emergency Test Failure 22 10 Lamp Driver 01 Emergency Test Failure On Off emergency failure 1 1 1 PDBC120 DALI KNX 4 New Dynamic Folder 4 Group Addresses b Dynamic Folders 0 6 201 Emergency Test Status 4 BHOOffice 82 11 Lamp Driver 01 Emergency Test Status Test status 4 8 0 6 Emergency Test Reporting 0 6 202 Emergency Test Status 0 6 201 Emergency Test Status _ 22 Lamp Driver 02 Emergency Test Status Test status 111 PDBC120 DALI KNX 0 6 202 Emergency Test Status _ C 0 6 203 Emergency Test Status 82 33 Lamp Driver 03 Emergency Test Status Test status 11 1 PDBC120 DALI KNX EB 0 6 203 Emergency Test Status 1 1 1 PDBC120 DALI KNX Philips LightMaster 107 Configure Emergency Ballast Testing and Reporting Philips LightMaster Link Sector Y Emergency Functional Test Start object and matching BMS object to the Start Stop group address for the Dimmer Link Sector Y Emergency Duration Test Start object and matching BMS object to the Start Stop group address for that Dimmer Link Sector Z Emergency Functional Test Start object and matching BMS object to the Start Stop group address for the Dimmer Link Sector Z Emergency Duration Test Start object and matching BMS object to the Start Stop group address for that Dimmer and ma
120. p Driver 4 Scene byte scene control 0 1 4 Meeting Presentation scenes Lamp Driver 2 4 Scene byte scene control 0 4 4 Meeting Presentation relative levels Lamp Driver 2 4 Relative Dimming 4 bit dimming control 0 1 5 Presentation room scenes Lamp Driver 2 3 Scene byte scene control 0 4 5 Presentation room relative levels Lamp Driver 2 3 Relative Dimming 4 bit dimming control 0 4 6 Presentation room front relative levels Lamp Driver 2 Relative Dimming 4 bit dimming control 0 4 7 Presentation room rear relative levels Lamp Driver 3 Relative Dimming 4 bit dimming control 0 1 8 Boardroom scenes Lamp Driver 1 6 Scene byte scene control 0 2 8 Boardroom switching Lamp Driver 1 6 On Off bit On Off 0 3 9 Boardroom channel absolute levels Lamp Driver Absolute Dimming byte percentage 0 3 10 Boardroom channel 2 absolute levels Lamp Driver 6 Absolute Dimming byte percentage 0 1 11 Small Office scenes Lamp Driver 11 Scene byte scene control 0 1 12 Breakout area scenes Lamp Driver 16 Scene byte scene control 0 1 13 West Corridor scenes Lamp Driver 21 25 Scene byte scene control 0 2 14 Staff Amenities switching Lamp Driver 34 35 On Off bit On Off 0 4 15 Toilets switching Lamp Driver 36 37 On Off bit On Off Philips LightMaster 78 26 25 C 24 Q 23 Q 22 Q 21 C Reflected ceiling plan example Note The DALI lamp driver channels connected to the dimmer are called physical channels The lamp groups
121. p Driver X Scene 0 1 1 Sensor X Motion Scene 4 2 Group Addresses i Device i Data Types p Dynamic Folders 27 1 Lamp Driver 01 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 4 0 Office 12 Lamp Driver 02 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 4 0 1 Scene 1297 Switch 01 1 Scene Scene 1 1 1 PDBC120 DALI KNX scene control 0 1 1 Room Scene 22 23 Lamp Driver 03 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 705 Sensor 01 Motion Scene Scene cont 1 1 1 PDBC120 DALI KNX scene control m Associations Philips LightMaster 11 Setup l 2 Occupied Unoccupied and Manual Override scenes for lamp driver channels Select DALI MultiMaster Scenes page Scene X Enter a scene name Enter a percentage in the Level column for each DALI channel in your area Enter a fade time for each channel if applicable advanced Enter Level 100 for Occupied Scene Scene Level 0 for Unoccupied Scene Scene 13 and On Off or Intermediate levels for Manual Override scenes Scene 2 8 Enable the Scene DPT SceneControl group object for each DALI lamp driver channel in your area Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Configure a Sensor for Occupancy Control 2 M 6 Confi 2 Philips LightMaster Select a DALI Sensor On the Se
122. pancy state Occupied 0 Unoccupied It enables child areas to report their occupancy state to parent areas and to other child areas Heartbeat notification period timers are restarted whenever a heartbeat signal is sent received Network traffic is reduced as only the area with the next occurring timeout needs to signal occupancy The heartbeat signal only operates when an area is in a predefined active scene Occupied scenes are the active scenes for the Corridor Notifier The Corridor Notifier Sync object is a child object It is typically linked to the parent Corridor Timer Sync object the parent Corridor Activator Sync object and to the other child area Corridor Notifier Sync objects zd d Sensor X Corridor Notifier Scene Function Type Size Priority Flags Input Output DPT SceneControl 8 bit Low C R W T Corridor Notifier active scenes are configured to signal occupancy When the child area is occupied then the heartbeat sync signal is sent as long as the child area remains in an active scene The Corridor Notifier Scene object is a child object It is typically linked to the child area Sensor Motion Scene object Philips LightMaster 7 2 19 3 Dry Contact Switch X Objects Numbers Rae eei Dessin s Hem R w LT W Bat Type Prec 12 1297 Switch 1 1 Scene Scene 1Byte R T scene control Low n2 1298 Switch 1 1 On Off On Off Level 1 bit C R W T U Low 2 1299 Switch 1 1 Absolute Level Absol
123. pied to modify the motion output 0 FALSE TRUE 2 9 5 2 Logic input motion logic output The Sensor X Motion Logic Input and Logic Output objects allow the sensor to perform a logical function AND OR XOR with an external bit input and the internal motion sensor state 1 0 to modify the logic output 0 FALSE TRUE 2 9 5 3 Invert logic input Click the checkbox to invert the bit logic input 2 9 5 4 Invert motion input Click the checkbox to invert the bit motion input 2 9 6 Group objects Click the checkboxes to enable the following group objects e Scene SceneControl e ON OFF Switch e Absolute level DPT Scaling e Relative level DPT Control Dimming e Time out sync DPT_TimePeriodSec e Logic input Switch e Logic input Switch e Enable disable motion Switch Philips LightMaster 39 2 10 Sensor properties Light contro Note Link the Light scene group objects and Light Absolute level group objects to the lighting channels for light control functions 2 10 1 Closed loop Closed loop lighting control should be used where the sensor is located within the same area as the group under control In this arrangement the control loop is effectively closed as the sensor will directly detect any changes in lighting level from the luminaires that it controls Closed loop lighting control is generally recommended f
124. ps LightMaster 42 Closed loop scenes Count inz 16 32 me OO ST ee on 1 Automatic mode 400 1 106 600 440 2 2 4 1 500 440 Scene 3 400 1 100 600 440 scen 4 44 5 Scene 5 400 1 100 600 340 e6 4 440 7 Scene 7 400 H 100 600 440 8 S 40i 9 Smart timer active 400 1 100 600 440 Switch off warning 400 Unoccupied corridor 400 1 190 600 440 Unoccupied open plan 400 E Unoccupied cell office 400 1 100 600 440 14 Daylight override 440 15 Corridor hold time out 400 1 100 600 440 Scene 16 440 n b 2405 1 Count The number of scenes available for light control actions 2 10 452 5cene The sequence reference number for the scene used to control the closed loop regulation for a specific target level DIAS Primary Regulation enabled disabled Click the checkbox to enable regulation for the first lighting row nearest to incoming daylight 1057 The scene name 2104 5 Target level lux The target lux level for the selected scene 2 10450 Primary Min level 76 The regulated light level will not drop below this value Primary Max level The regulated light level will not go above this value 210 48 Primary Switch off allowed Click the checkbox to allow the regulation to switch the channel OFF when there is sufficient incoming light 21047 Primary Switch off threshold lux Enter the lux level above which the channel will switch OFF Phili
125. ps LightMaster 43 Primary Switch on allowed Click the checkbox to allow the regulation to switch the channel ON when there is insufficient incoming light Once the light level drops below the Switch on threshold the lights will switch back on immediately and daylight regulation will commence 210411 Primary Switch on threshold lux Enter the lux level below which the channel will switch ON at the level specified in Primary Min level 2 10 4 12 Second Regulation enabled disabled Click the checkbox to enable regulation for the second lighting row nearest to incoming daylight 2 10 4 1 3 Second Min level The regulated light level will not drop below this value 2 10 4 14 Second Max level The regulated light level will not go above this value 2 10 4 15 Second Switch off allowed Click the checkbox to allow the regulation to switch the channel OFF when there is sufficient incoming light 2 10 4 16 Second Switch on allowed Click the checkbox to allow the regulation to switch the channel ON when there is insufficient incoming light Once the light level drops below the Switch on threshold the lights will switch back on immediately and daylight regulation will commence ZAGAT Third Regulation enabled disabled Click the checkbox to enable regulation for the third lighting row nearest to incoming daylight 2104 18 Third Min level The regulated light level will not drop below
126. r Sync On Off Sync 0 5 1 Cell Offices Occupancy Sync 4 Group Addresses Dynamic Folders 4 BaO New main group 4 8 0 1 New middle group 82 122 Lamp Driver 12 Scene Scene control a 816 Sensor 04 Motion Scene Scene control gt B8 0 5 New middle group 834 Sensor 04 Corridor Timer Scene Scene Sync 838 Sensor 04 Corridor Activator Scene Scene Sync 2 100 Lamp Driver 10 Scene Scene control 2 111 Lamp Driver 11 Scene Scene control 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX scene control scene control scene control scene control scene control scene control We Dynamic Folders 4 B80 New main group t B 0 1 New middle group 4 8 0 5 New middle group 0 5 1 Cell Offices Occupancy Sync Ed 0 5 2 Corridor Occupancy Sync a 798 Sensor 03 Corridor Notifier Sync On Off Sync 22 833 Sensor 04 Corridor Timer Sync On Off Sync 1 1 1 PDBC120 DALI KNX a 837 Sensor 04 Corridor Activator Sync On Off Sync 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX Philips LightMaster 127 Setup scenes for lamp driver channels 2 On the DALI MultiMaster Scenes page enter a scene name Enter a percentage in the Level 76 column for each DALI channel in your area Enter a fade time for each channel if applicable advanced Enter level 100 for Occupie
127. r changes in regulation ZU Update period ms Minimum time in seconds between changes in regulation 2 10 1 8 Switch off delay The delay used in minutes when the lux level crosses the Switch off above threshold 2 10 2 First offset row Zones adjacent to windows receive more daylight than those closer to the core of the building Corridor Row Offset enables the brightness of luminaires near the window and those near the core areas to be regulated by a different factor so the corridor row luminaires have a greater output The sensor uses a different offset adjustment at maximum level and minimum level to automatically scale the offset based on the amount of daylight entering the room A variable offset ensures that the window row and corridor row lights are set to the same level when there is no natural light The values for max offset negative offset and zero offset level must be measured with a lux meter as they will depend on the location of the sensor the penetration of light into the building and the distance between the window row and corridor row First offset row Max offset Negative offset Zero offset level 56 2 10211 Max offset The maximum light level difference between the window row and the corridor row 2 10 2 2 Negative offset Select this checkbox if the sensor is located near the corridor row 2d Zero offset level There will be no offset if the light level at the offset row is above this value Philips
128. reasing the channel level by a set percentage It provides a way to dim the lights using a relative target level One variable indicates an increase or decrease in brightness and the other indicates the step code which is converted to a percentage step size Ramping up will stop after changing by the step size or at the maximum level configured for the channel Ramping down will stop after changing by the step size or at the minimum level configured for the channel The lights will make the relative change using the Fade time when ramping value set for the channel It is not possible to switch lights off with this function The most significant bit indicates the ramping direction increase O decrease The step code is a 3 bit value in the range 0 to 7 A zero code provides the stop ramp function Step code 10076 Step size Step size 0 Break indication Stop ramp 100 2 2 50 3 4 25 4 8 12 5 5 l6 6 2576 6 32 3 12576 7 64 1 5625 Philips LightMaster 73 2 194 Lamp Status Objects Name Object Function 82 1553 DALI Lamp Status Request Lamp Status Request 2 1554 DALI Lamp Status Report Lamp Status Report LADA DALI Lamp Status Request Function Priority Input DPT_ 0xFE03 8 bit Low CRW The DALI Lamp Status Request object enables the user sends a request to find the last known status of a lamp The result of the request is reported by the DALI Lamp Status Report object No DALI query is initiated The object
129. rol 1 1 1 PDBC120 DALI KNX scene control 4 0 1 Scenes 7 23 Lamp Driver 03 Scene Scene control 11 1 PDBC120 DALI KNX scene control a 705 Sensor 01 Motion Scene Scene control 1 1 1 PDBC120 DALI KNX scene control associations T E Group Addresses p Dynamic Folders 22 709 Sensor 01 Motion Timeout Sync Seconds sync 111 PDBC120 DALI KNX 5 time s 4 0 Office 22 746 Sensor 02 Motion Timeout Sync Seconds sync 111 PDBC120 DALI KNX 5 time s 4 8 0 5 Synchronization 0 5 1 Sensor Timeout Sync Philips LightMaster 109 Setup scenes for lamp driver channels 2 Select DALI MultiMaster Scenes page Enter a scene name Enter a percentage in the Level column for each DALI channel in your area Enter a fade time for each channel if applicable advanced Enter Level 100 for Occupied Scene Scene and Level 0 for Unoccupied Scene Scene 13 Enable the Scene DPT SceneControl group object for each DALI channel in your area Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Configure a Sensor for Occupancy Control 2 Philips LightMaster Select a DALI Sensor On the Sensor Applications page select any of the following applications e CellOffice e Worklsland e MeetingRoom e Kitchen e BreakOut e Toilet e Other Enable Use Motion Sensor Set the motion control type as Auto On Auto Off Enter the Switch off
130. s in Work Island Areas Enter Level 100 for Occupied Scene Scene 1 Level 20 for switch off warning scene scene 10 and Level 20 for Unoccupied Scene Scene 12 Identify the DALI Channels in Open Plan Area Enter Level 10076 for Background Scene Scene 12 and Level 0 for Unoccupied Open Plan Scene Scene 15 Enable the Scene DPT SceneControl group object for each DALI channel in your area Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for Work Island 1 Work Island 2 Work Island 3 Work Island 4 and Open Plan Configure a Sensor for Work Island 2 Philips LightMaster Select a DALI Sensor for Work Island 1 On Sensor Sensor Applications Page Select Application as Worklsland Enable the option Use Motion Sensor Enter the Switch Off Timer Enable the option Show Advanced This will display Use Corridor Hold On option Enable Use Corridor Hold On Select a DALI Sensor for Work Island 2 Work Island 3 and Work Island 4 Do the same Sensor configuration of Work Island to Sensor 2 Sensor 3 and Sensor 4 Link Sensor Motion Scene Sensor Notifier Scene Sensor Activator Scene Sensor Timer Scene to the Scene Control group address for Work Island 1 Link Sensor 2 Motion Scene Sensor 2 Notifier Scene Sensor 2 Activator Scene Sensor 2 Timer Scene to the Scene Control group address for Work Island 2 Link Sens
131. scene is set to Don t care OxFF then the channel level will not change PN o a Lamp Driver X On Off Size Priority Type Function Input Output Switch bit Low C R W The Lamp Driver X On Off object is used for switching the lighting channels ON O OFF If the channel is OFF and an ON telegram is received then the lights will fade up to the previous level using the Fade time when switching value 215553 Lamp Driver X Absolute Dimming Function Type Size Priority Flags Input Output DPT Scaling 8 bit Low C R W The Lamp Driver X Absolute Dimming object provides a percentage dimming level for the lighting channels When receiving a light level different from the current light level the channel will fade to the new light level using the Fade time when dimming value Philips LightMaster 62 Lamp Driver X Relative Dimming Function Priority Input Output DPT Control Dimming 4 bit Low CNW The Lamp Driver X Relative Dimming object is used for increasing or decreasing the channel level by a set percentage It provides a way to dim the lights using a relative target level One variable indicates an increase or decrease in brightness and the other indicates the step code which is converted to a percentage step size Ramping up will stop after changing by the step size or at the maximum level configured for the channel Ramping down will stop after changing by the step size or at the minimum level c
132. sensor 1 DALI sensor 2 DALI sensor 3 DALI sensor 4 DALI sensor 5 DALI sensor 6 DALI sensor 7 DALI sensor 8 DALI sensor 9 DALI sensor 10 DALI sensor 11 DALI sensor 12 DALI sensor 13 DALI sensor 14 DALI sensor 15 DALI sensor 16 DALI dry contact 1 DALI dry contact 2 DALI dry contact 3 DALI dry contact 4 DALI dry contact 5 DALI dry contact 6 DALI dry contact 7 DALI dry contact 8 DALI dry contact 9 DALI dry contact 10 DALI dry contact 11 DALI dry contact 12 DALI dry contact 13 DALI dry contact 14 DALI dry contact 15 DALI dry contact 16 Device properties Device identification sec PHILIPS V Show Advanced KNX individual address Serial number job only Product information Product name Product category Product type Device code PCB assembly version PCB assembly revision Firmware major version Firmware minor version Firmware build number Bootloader major version Bootloader minor version Bootloader build number GTIN PDBC120 DALI KNX Load controller Ballast controller 1 channel 20A KNX DALI Multi Master 0 2 1 1 2 1 913703531709 Startup scene Count settings Device configuration Lamp drivers count Sensors devices count Dry contact devices count DALI driver settings 64 10 10 Write DALI power on level to driver DALI power on level 95 Write DALI system failure level to driver DALI system failure level Automatic DALI driver status reporting
133. sults of the emergency test for the drivers that are part of the requested sector are visualized on individual alarm group objects At the start of a test all alarm group objects that are part of that sector will be cleared When a test fails the alarm group object for that luminaire will be set An individual test status group object is available to monitor e Emergency Test Mode e Emergency Test Status In progress Complete e Emergency Failure Status Create Start Stop Sector Y group addresses and Start Stop Sector Z group addresses for the Functional and Duration tests Link them with the respective Start Stop objects of the Dimmer Create group addresses for Emergency Alarm and Emergency Status for each lamp driver channel Link them with the Individual Lamp Emergency Test Failure and Emergency Test Status objects These group addresses are exposed to Building Management Software for monitoring and control purposes Philips LightMaster 106 Building Management System 0 2 101 Sector Y Emergency Functional Test Start 0 2 101 Sector Y Emergency Functional Test 0 2 111 0 2 111 Sector Y Sector Y Emergency Duration Test Start Emergency Duration Test 0 2 102 0 2 102 Sector Z Sector Z Emergency Functional Test Start Emergency Functional Test 0 2 112 0 2 112 Sector Z Sector Z Emergency Duration Test Start Emergency Duration Test Building Management System 0 6 X Alara 0 6 X Emergency
134. tching BMS object In DALI Lamp Driver X Page Set the Emergency Test Sector as Sector Y or Sector Z This will enable the Emergency Test Failure DPT Alarm and Emergency Test Status xxx objects for this Lamp Driver Repeat for each Emergency lamp driver Link each Lamp Driver X Emergency Test Failure object and matching BMS object to the Emergency Alarm group address for that Lamp Driver Link each Lamp Driver X Emergency Test Status object and matching BMS object to the Emergency Status group address for that Lamp Driver 108 3 15 Occupancy Control Occupancy control is used to detect movement of people in an area by detecting infrared radiation Occupancy control allows hands free operation of the lighting and can help to reduce energy consumption Create a scene control group address Link Sensor X Motion Scene object to the Dimmer Lamp Driver X Scene object s If there are multiple sensors in an area link the Sensor X Motion Timeout Sync objects for each sensor together so the timeouts will be synchronized 0 1 1 0 1 1 Sensor X Motion Scene Lamp Driver X Scene Only required for multiple sensors in the same area Timeout seconds Sensor X Motion Timeout Sync Sensor X Motion Timeout Sync Group Addresses Dynamic Folders 27 1 Lamp Driver 01 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 4 0 Office a 12 Lamp Driver 02 Scene Scene cont
135. te for this difference by applying a factor to the measured light level to determine the actual light level The relationship between the two levels is determined through calibration Run Sensor Calibration Plug in Press to run the DALI Configuration Wizard 2 Select the required Sensor from the sensor section in the topology tree must be enumerated 3 Click Calibrate in the DALI configuration wizard to calibrate the sensor PDBC120 DALI KNX Configuration Wizard DALI Lamp Drivers and Devices Flash amp i Query Status XX Remove unconfirm Calibrate Name DALI Address KNX Address B Devices Sensors Device 1 0 Unknown Dry Contact Interfaces 4D Device 2 1 Unused Devices 1 1 1 Training Room 1 Unknown i Shaw Log Galaxy Long Address SerialNumber Type Device Code 1052768 1909341 PLOS CM DALI 12516217 1939415 PPMI4 DALI Enumerate All g Reset Enumeration All 2 Read From Device Save To Device Gif Update DALI Scenes amp Query Status All MB Sign On Devices The Sensor Calibration dialogue box displays as shown below 49 Firm Finish k PLOS CM KNX Sensor Calibration Connected 700 0 Min 0 0 0 5 15 10 28 Raw Value 7000 4 Max Lux Value 500 a Polling Interval ms 1000 The Max Raw Value and Max Lux Value parameters define the upper limits of the graph within the page for display purposes only Where illu
136. ter device location information 2 13 1 3 Description Enter relevant device function information 2 12 14 Serial number Job only Enter device serial number for future reference 213 2 Product information The product information properties are read from the device and are not editable e Product name e Product category e Product type e Device code e Model ID e Firmware major version e Firmware minor version e GTIN 2 13 3 DALI address The DALI address information is displayed and can be modified using the DALI Enumeration Wizard e Short address e Random address e Galaxy e Universe Philips LightMaster 57 2 14 contact switch properties Switches The DALI Dry Contact Interface provides four programmable switch inputs that can be triggered by short or extended press and release actions Each input can be independently configured for multiple Scene ON OFF Absolute level or Relative level functions Note scene control is the recommended control method used in lighting control applications Although switches and sensors can recall up to 64 scenes The DALI MultiMaster dimmer can only recall a maximum of 32 scenes 2 14 1 Action Action Switch actions Toggle Scene On scene 1 Off scene 4 Enabled Ei Press action on startup Press action On 5 1 Off Scene 4 Release action Extended press action Release from extended press action 2 14 1 1 Switch actions Click the dropdown box
137. test is running the start stop object is set to start When the last ballast completes its emergency test the state of the Start Stop emergency test group object for the requested sector will be automatically set to stop Different ballasts might have different durations The group object is updated only when the last driver in the sector is finished While an emergency test is running all outputs remain ON regardless of internal and external events At the completion of the test the Dimmer Actuator will recall the scene that was active before the emergency test and lighting will be controllable again 241 46 Scene able Start Index Object Number Name 82 1559 Scene Table Start Index Function Priority Input Output DPT SceneControl 8 bit Low C R W The Scene Table Start Index object enables you to perform a preset offset function by sending a one byte index starting number DPT SceneControl to this input object Scene numbers will then commence at the index starting number The index starting number applies to all recall scene telegrams sent to the lamp drivers For example if the start index is set to eight then a recall scene telegram will recall scene 8 Philips LightMaster 76 2 16 Group Addresses Group address linking A group address is a two byte logical address used for all bus communication in normal operating mode To operate Lamp drivers Output channels together link them to a group address Each DALI
138. the Scene DPT SceneControl group object for each DALI channel in your area 10 Link the Lamp Driver X Scene objects for the channels in your area to the scene control group address for that area Philips LightMaster 93 Configure a Switch to toggle scenes 2 Philips LightMaster Select DALI dry contacts DALI dry contact X Switches Switch X Select Toggle Scene from the Switch actions dropdown list Enter a scene number in the On Scene parameter Enter a scene number in the Off Scene parameter Enable the Scene SceneControl group object for the Switch Link the Switch X X Scene object to the scene control group address for the area 94 3 6 Toggle On Off Toggle On Off control enables the switch to work like a standard On Off power switch alternating between the ON and OFF target states The target state is switched using the Fade time when switching value specified in the Lamp Driver channels Create an On Off control group address Link the Dry Contact Switch X X On Off objects to the Dimmer Lamp Driver X On Off object s Target State 1 ON O OFF 4 E Group Addresses Device Dynamic Folders 82 1298 Switch 01 1 On Off On Off Level 1 1 1 PDBC120 DALI KNX 4 BHO Office 82 13 Lamp Driver 02 On Off On Off level 11 1 PDBC120 DALI KNX 4 B80 2O0n Off 82 2 Lamp Driver 01 On Off On Off level 111 PDBC120 DALI KNX 0 2 1 Room On Off 82 24 Lamp Driver 03 On Off On Off
139. tifier Scene Scene Sync 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX Group gt P Dynamic Folders 4 BHO New main group 4 8 0 1 New middle group 0 1 1 Cell Office 1 0 1 2 Cell Office 2 0 1 3 Corridor 67 Lamp Driver 7 Scene Scene control 779 Sensor 3 Motion Scene Scene control 22 78 Lamp Driver 8 Scene Scene control a 797 Sensor 3 Corridor Timer Scene Scene Sync 801 Sensor 3 Corridor Activator Scene Scene Sync 82 89 Lamp Driver 9 Scene Scene control 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX No No No No No scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control scene control 4 5 Addresses e pP Dynamic Folders 1 1 1 PDBC120 DALI KNX 4 0 New main group 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX 1 1 1 PDBC120 DALI KNX a 724 Sensor 01 Corridor Notifier Sync On Off Sync 82 761 Sensor 02 Corridor Notifier Sync On Off Sync 0 1 New middle group 796 Sensor 03 Corridor Timer Sync On Off Sync 4 0 5 New middle group 82 800 Sensor 03 Corridor Activato
140. timer in seconds If there is more than one sensor select Multiple Sensor Area This enables the Sensor X Motion Timeout Sync object for each sensor In Sensor Properties Page under scenes actions enter additional Motion actions and No motion actions for the required Scenes if applicable advanced Link Sensor X Motion scene object to the Scene control group address for that area For multiple sensor areas only link the Sensor X Motion Timeout Sync objects for each sensor so that they will all work together to detect motion no motion 110 3 16 Occupancy control with Manual control Occupancy control and Manual control can be combined to work together for a room This example shows Occupancy control combined with Manual control in two different modes Presence mode AutoOnAutoOff The system uses occupancy control as normal automatically switch the lights On when the area is occupied and switch them Off when unoccupied If the user manually switches the lights Off the automatic switching is disabled until the area is unoccupied 2 Absence mode ManualOnAutoOff The user must switch the lights On manually The system will automatically switch the lights Off when the area is unoccupied Create a scene control group address Link the Switch X X Scene object and the Sensor X Motion Scene object to the Dimmer Lamp Driver X Scene object s 0 1 1 Switch X X Scene 0 1 1 Recall Scene X Lam
141. tor and Timer Objects These objects are linked together to create a dependency between child areas and parent areas Child areas have a Notifier to signal occupancy to the parent area and the parent area has an Activator and a Timer to turn the lighting ON or OFF based on the occupancy signals Child Area e Notifier Scene Control Object A byte object used to detect the occupied and unoccupied scenes in the child area e Notifier Occupancy Sync Object A bit object used to signal occupancy to linked parent and child areas Parent Area e Activator Scene Control Object A byte object that operates during the unoccupied corridor hold on scenes and performs an action when the Activator Occupancy Sync object detects occupancy in a child area e Activator Occupancy Sync Object A bit object used to detect occupancy in a linked child areas e Timer Scene Control Object A byte object that operates during the occupied corridor hold on scenes and performs an action when the timeout period expires e Timer Occupancy Sync Object A bit object used to detect occupancy in a linked child areas and reset the timer countdown A Notifier Scene Control object detects the occupied scenes in a child area which enables the Notifier Sync object to send occupancy signals to the linked Activator and Timer objects in the parent area and to the Notifier Sync objects in other child areas If the Activator Scene Control Object is in an unoccupied scene
142. ty Flags Output DPT_LightMasterSpecific 8 bit Low CRT This output object allows Emergency test status to be identified for each lamp driver assigned to either emergency sector Y or Z The Emergency Test Status object indicates the DALI emergency mode is set to running or not running Test in progress 0 No test in progress Philips LightMaster 64 L loz Sensor X Objects Numbers Nome ____ Function _ Deveipion_ ienath R T 10 DataType Pioi 705 Sensor 01 Motion Scene Scene control 1Byte R T scene control Low 706 Sensor 01 Motion Absolute Level Absolute level 1Bytet C R W T U percentage 0 100 Low n2 707 Sensor 01 Motion On Off On Off level 1 bit C R W I WU tuyo Low n2 708 Sensor 01 Motion Relative Level Relative level 4 bit C R T dimming control Low 709 Sensor 01 Motion Timeout Sync Seconds sync 2Bye C R W T U time s Low 7 710 Sensor 01 Motion Logic Input Logic input 1 bit C R W boolean Low n2 711 Sensor 01 Motion Logic Output Logic output 1 bit E boolean Low 04 712 Sensor 01 Motion Enable Enable Disable 1 bit C R W enable Low E 713 Sensor 01 Light Scene Scene control 1Byte C R W T U scene control Low 714 Sensor 01 Light Lux Level Lux 2Bye C R T lux Lux Low E 715 Sensor 01 Light Absolute Level Row 1 Absolute level lite CR W T UW percentage 0 100 Low 04 716 Sensor 01 Light Absolute Level Row 2 Absolute level 1Byte C R W T U percenta
143. unication failure 1 1 1 PDBC120 DALI KNX 5 0 Office 0 6 Communication Failure Alarm 0 6 101 Lamp X Communication Failure Configure Lamp Failure and Lamp Communication Failure reporting In DALI Lamp Driver X DALI Group objects enable Lamp failure DPT Alarm and Communication Failure DPT Alarm objects 2 Link the Lamp Driver X Lamp failure object and matching BMS object to the Alarm group address for that Lamp Driver 3 Link the Lamp Driver X Communication failure object and matching BMS object to the Alarm group address for that Lamp Driver Philips LightMaster 105 3 14 Emergency Ballast Testing and Test Failure reporting Emergency Ballast Testing and Test Failure reporting enables ballasts to be selected and tested at regular intervals to ensure emergency lamps and backup batteries are functioning in the event of an emergency It shall be possible to have two different emergency test sectors This means that not all batteries are depleted after a test has been executed in case an emergency situation would occur There are two types of emergency tests Functional test In this test the system is placed in emergency mode for a short time to see if the lamps switch to battery power and that the battery is switching the lights on 2 Duration test In this test the system is placed in emergency mode for a period as defined in the DALI inverter default 90 minutes The re
144. until stopped by the release action and saves the final channel level s to the scene specified in the Program Scene parameter e Ramp Down Stop and program Decreases the channel level down by the step size or until stopped by the release action and saves the final channel level s to the scene specified in the Program Scene parameter e Custom The actions are defined using the Action Chain Editor VN E Switch enabled disabled Click the checkbox to enable the input switch 2 14 1 3 Press action startup Trigger the press action on device startup 2 14 1 4 Press action Click open the Action Chain Editor 2 14 1 3 Release action Click open the Action Chain Editor 2 14 1 6 Extended press action Extended Press is defined as greater than 1 5 seconds Click to open the Action Chain Editor 2 14 1 7 Release from extended press action Click open the Action Chain Editor Philips LightMaster 59 Actio n Chain Editor Enter switch actions l Click New Y to add a function from the menu 2 Select the function in the Action Chain Editor window 3 Enter the required parameters for the function or click Delete to remove the function 4 Enable the related group objects for the selected functions Function Recall Scene Parameters Recall Scene 1 Recall On Off Target State On Recall Level Ramp Level Stop Ramp Target Level 5 100 Direction Decrease Step Size 100
145. up B8 0 1 1 Workisland 1 B8 0 1 2 Worklsland 2 B8 0 1 3 Worklsland 3 E8 0 1 4 Worklsland 4 4 8 0 1 New middle group 0 1 1 Worklsland 1 B8 0 1 2 Worklsland 2 0 1 3 Workisland 3 B8 0 1 4 Worklsland 4 88 07 5 Open Plan Group Addresses Dynamic Folders 4 B80 New main group 4 8 0 1 New middle group B8 0 1 1 Workisland 1 0 1 2 Workisland 2 0 1 3 Worklsland 3 0 1 4 Worklsland 4 0 1 5 Open Plan 4 9 0 5 New middle group Philips LightMaster a 34 Lamp Driver 04 Scene Scene control 45 Lamp Driver 05 Scene Scene control 56 Lamp Driver 06 Scene Scene control a 742 Sensor 02 Motion Scene Scene control 760 Sensor 02 Corridor Timer Scene Scene Sync ne 762 Sensor 02 Corridor Notifier Scene Scene Sync 82 764 Sensor 02 Corridor Activator Scene Scene Sync 1 11 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 1 11 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX 1 11 PDBC120 DALI KNX 11 1 PDBC120 DALI KNX a 22 67 Lamp Driver 07 Scene Scene control 82 779 Sensor 03 Motion Scene Scene control 78 Lamp Driver 08 Scene Scene control E 797 Sensor 03 Corridor Timer Scene Scene Sync n2 799 Sensor 03 Corridor Notifier Scene Scene Sync 8 801 Sensor 03 Corridor Activator Scene Scene Sync 89 Lamp Driver 09 Scene Scene control 100 Lamp Driver 10 Scene Scene control 111 Lamp Driver 11
146. us thereby simplifying and reducing the amount of control wiring required Philips LightMaster E 2 1 1 Connections DALI sensors and dry contact devices Earth Total of 64 DALI luminaires broken up over 3 x RCDs Active 22 olo ol 1 J DIT 93 9 OLD OLO Dro RCD RCD RCD 20A MCB Active Neutral 7 00006 Fk The PDBCI20 DALI KNX Dimmer Actuator allows lamps DALI lamp driver channels and input devices to be grouped any configuration thereby overcoming the 16 group and 16 scene limits of the DALI specification For example each of the five shaded zone in the diagram below indicates a separate area that can be controlled as a group each DALI lamp can also be controlled individually The diagram also shows a DALI multifunction sensor and programmable DALI Dry Contact Interface installed in each area PDBC120 DALI KNX M l eao a gt e amma p Philips LightMaster 12 The application table
147. ute Level 1Byte C R W T U 9 percentage 0 10075 Low E 1300 Switch 1 1 Relative Level Relative Level 4 bit C R Lj dimming control Low 2 3 Switch X X Scene Function i Priority Input Output DPT SceneControl 8 bit Low C R W T U The Switch X X Scene object is used for recalling predefined scenes configured for lighting channels When receiving a scene number the channel will fade to the predefined light level using the configured fade time for this scene Only the lower 6 bits are used to recall scene numbers to 64 21552 Switch On Off Function i Priority Input Output DPT Switch bit Low C R W T U The Switch On Off object is used for switching the lighting channels ZON O OFF If the channel is OFF and an ON telegram is received then then the lights will fade up to the previous level using the Fade time when switching value DADO Switch X X Absolute Level Function i Priority Input Output DPT_ Scaling 8 bit Low C R W T U The Switch X X Absolute Level object provides a percentage dimming level for the lighting channels When receiving a light level different from the current light level the channel will fade to the new light level using the Fade time when dimming value Philips LightMaster 72 2 15 94 Switch Relative Level Function Priority Input Output DPT Control Dimming 4 bit Low CR T The Switch X X Relative Level object is used for increasing or dec
148. value from the setpoint depending on the location relative to the incoming daylight When a scene is recalled in which closed loop regulation is enabled the sensor will request the current light level as the starting level While regulating the sensor can only regulate the light level between the min level and max level configured for that scene 252 13 Sensor X Light Absolute Level Row 3 Function Priority Output DPT Scaling 8 bit Low C R W T U The Sensor X Light Absolute Level Row 3 object provides a percentage dimming level for lighting channels near incoming daylight It is primarily used for closed loop light regulation The sensor modifies the current light level to maintain a constant light level setpoint in the area below the sensor It is essential that the sensor can see the effect of the light modification Each lighting channel can have a different offset value from the setpoint depending on the location relative to the incoming daylight When a scene is recalled in which closed loop regulation is enabled the sensor will request the current light level as the starting level While regulating the sensor can only regulate the light level between the min level and max level configured for that scene 2 15 2 14 Sensor X Light On Off Function Priority Output DPT Switch bit Low C R W T The Sensor X Light On Off object is used for switching the lighting channels in open loop mode when light
149. ver channel Device When finished click the iz Save to Device button 3 Application Examples 3 1 Scene Control Scene control enables simultaneous recall of individual levels for multiple channels by a single telegram A switch sensor recalls a scene number in the range to 32 for the linked lamp driver channels Sensor behavior can also be customized to trigger different actions for each scene The channel levels for each scene are setup in the Scenes page Create a scene control group address Link the Switch X X Scene object to the Lamp driver X Scene object s 0 1 1 Recall Scene X Lamp Driver X Scene 4 2 Group Addresses Device Data Types p Dynamic Folders 4 1 Lamp Driver 01 Scene Scene control 11 1 PDBC120 DALI KNX scene control 4 0 Office 04 12 Lamp Driver 02 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control 4 0 1 Scenes 04 1297 Switch 01 1 Scene Scene 1 1 1 PDBC120 DALI KNX scene control 0 1 1 Room Scene 04 23 Lamp Driver 03 Scene Scene control 1 1 1 PDBC120 DALI KNX scene control p 0 0 Associations Setup scenes for lamp driver channels Select DALI MultiMaster Scenes page Enter a scene name Enter a percentage in the Level 76 column for each DALI channel in your area Enter a fade time for each channel if applicable advanced Enable the Scene DPT SceneControl group object for each DALI channel in your area 9v UT e d Link th
150. z if Tm M gt a 5 LE n NM MID 1 MILI Philips LightMaster KNX DALI MultiMaster Dimmer Actuator Commissioning Guide PHILIPS KNX Philips LightMaster KNX DALI MultiMaster Dimmer Actuator Commissioning Guide version 1 2 Document Revision A Not to be reproduced without permission Specifications are subject to change without notice 2013 Koninklijke Philips Electronics N V All rights reserved LightMaster and associated logos are the registered trademarks of Koninklijke Philips Electronics N V All other trademarks and logos are the property of their respective owners Philips LightMaster 2 Contents 1 System Information 1 1 Safety instructions 1 2 Verify hardware installation 1 8 Commissioning approach 1 4 Device LED indications 1 5 Plug ins 1 6 References 1 7 Helated documents 1 8 Technical support contacts 1 8 1 Phone 1 8 2 Email 1 8 8 Web 1 9 Conventions 2 LightMaster DALI MultiMaster Dimmer Actuator 2 1 Description 2 1 1 Connections 2 1 2 Version information 2 2 Configuration 2 2 1 Standard configuration 2 2 2 Configuration Menu 2 3 DALI MultiMaster device properties 2 3 1 Device identification 2 3 2 Product information 2 3 3 Startup settings 2 3 4 Count settings 2 3 5 DALI driver settings 24 DALI MultiMaster scenes 2 4 1 Scene count Min 16 32 2 4 2 General 2 4 8 DALI Channels oO 99 O OO BD BDO t Ww lI 12 13 14 5 5
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