Philips LightMaster
Contents
1. Parameter LED is switch ON if This parameter defines the mode to switch on the LED Options Object Tele Switch 0 Object Tele Switch 3 2 1 1 2 Parameter Time limit of LED control 3 2 1 1 3 2 1 1 4 Parameter Send status by object Tele Status 3 2 1 1 This parameter defines whether to enable the function to restrict the time to switch on the LED Options Yes No 3 Parameter Time limit Basex Factor This parameter is visible if the time limit is active It is defines the time of LED flashing Base x Factor After this period the LED switches off automatically Base options Is 0s Ih Factor options 255 9999 This parameter defines whether to send the LED status report on the bus Options Yes No i ies If Yes is selected the object Send its status X will send value when LED switches on it will send value 0 when LED switches off 5 Parameter State of LED on bus voltage recovery It is defines the state of LED during bus voltage recovery Options On Off 3 2 12 Parameter window Control by input gt C The parameter window Control by input X is shown below the LED is used to indicate the button input Philips LightMaster 42 LightMaster KNX Dry Contact Interface Device Universal Interfaces 4 fold General Setti bE ng if LED function is enable in input lt NOTE Information2. Scene No motion No motion Scene detected for detected for 10 minutes 5 minutes Motion Detected In this example they are named Occupied Grace and Vacant No other scenes are configured e For the Occupied Scene Scene the space is illuminated to provide occupants with suitable lighting levels The multifunction sensor is configured to change to the Grace Scene after 10 minutes of no motion activity e Inthe Grace Scene Scene 2 the space is dimmed to warn any occupants that the lights are about to be automatically turned off The multifunction sensor is configured to return to the Occupied Scene if motion is detected If a period of 5 minutes of no motion activity passes the multifunction sensor will progress to the Vacant scene e For the Vacant scene Scene 4 the lights are turned off to save energy The multifunction sensor is configured to select the Occupied Preset when motion is detected Philips LightMaster 97 LightMaster DALI MultiMaster Controller 8 4 2 1 Occupied Scene action No motion detected for 10 minutes Occupied Scene Scene actions should include a No Motion Action to go to the Grace Scene Scene 2 The Motion Action should be set to No Action The timeout should be set to 600 seconds 10 minutes 8 4 2 2 Grace Scene action Motion Detected Grace Scene No motion detect
3. Channel C Channel D Distinction between long and Wes LED A short operation LED 8 Reaction on short operation LED C LED D Output value 0 255 127 Reaction on long operation ibyte value 0 255 Output value 0 255 Long operation after base Factor 255 Debounce time Device Universal Interfaces 4 fold General Setting Channel A Channel B Channel C Channel D Distinction between long and LED A short operation Function of the channel Connect contact type LED B Reaction on operation LED C LED D Output value 0 255 Send object value after voltage recovery Debounce time Min Time 3 2 4 1 Parameter Connect contact type This parameter defines whether the contact at the input is a normally open or a normally closed Normally open is used as the example Options Normally open Normally closed Philips LightMaster 24 LightMaster KNX Dry Contact Interface 3 2 4 2 Parameter Distinction between long and short operation This parameter sets whether the input distinguishes between a short and long operation If yes is selected there is a waiting period after the opening closing of the contact to determine whether the operation is long or short Options Yes No 3 2 4 3 Parameter Reaction on operation This parameter is visible if there is no distinction between a short and a long operation It defines the data type that is sent when the contact is pressed Opt
4. Philips LightMaster KNX Commissioning Guide PHILIPS KNX Philips LightMaster Commissioning Guide version 1 0 Specifications subject to change without notice Copyright 2012 Controls Systems amp Services Philips Lighting manufactured by WMGD Pty Ltd ABN 33 097 246 921 All rights reserved Not to be reproduced without permission LightMaster and associated logos are the registered trademarks of WMGD Pty Ltd The KNX logo is a registered trademark of the KNX Association DALI trademarks are registered for ZVEI Zentralverband Elektrotechnik und Elektronikindustrie e v Stresemannallee 19 D 60596 Frankfurt am Main Registered are the name DALI and the DALI logo Philips LightMaster 2 Contents 1 About this Guide 5 1 1 Topics 5 1 2 References 5 1 3 Related Documents 6 1 4 Technical Support Contacts 7 1 4 1 Phone 7 1 4 2 Email 7 1 4 3 Web 7 1 5 Conventions 7 2 System Information 9 2 1 Safety Instructions 10 2 2 Verify hardware installation 10 2 3 Device LED indications I 2 4 Plug ins I 2 5 Firmware Download Tool I 2 6 Commissioning Approach 13 3 LightMaster KNX Dry Contact Interface 14 3 1 Description 14 3 2 Configuration 15 3 2 1 General Settings 16 3 2 2 Parameter window Switch X 7 3 2 3 Parameter window Switch dimming X 2l 3 2 4 Parameter window Value force output x 24 3 2 5 Parameter window Scene control X 26 3 2 6 Parameter window Switching sequence x 30 3 2
5. Only visible in the switching sequence Sequentially on off several push buttons It can be set whether an operation of the push button switches up or down a level The difference between the one push button and several push buttons is that in the first one the sequence goes up and then goes down As shown in the example When several push buttons is chosen the sequence goes only in one direction If upwards it would stop at 1 1 1 And if downwards it would stop at 0 0 0 Options Switch upwards Switch downwards The implement direction of the parameter Switch upwards is O00 001 O1 1 111 the implement direction of the parameter Switch downwards is I I 1 01 1 001 000 After the bus voltage recovery the current value is 000 if the parameter Switch downwards is selected the effect will be invisible when operation then it is possible to operation after switch up a few levels by the object level increment decrement X 3 2 6 5 Parameter Sequence is This parameter indicate the management process when there are different switching sequences 3 2 6 6 Parameter Debounce time Min Time It can set the vibration time to prevent unwanted multiple operation by bouncing contacts in vibration time which means the effective time of the contact operation Options 0Oms 20ms 50ms Min operation The parameter window for Min Operation is shown in Parameter Debounce time Phil
6. To add an Activator object select Activator in the drop down list of the Function 2 parameter as shown below Device 1 1 1 PLOS CM KNX General Settings d Motion Control Settings Pancha Activator 7 d Light Control Settings Function 3 None Function 1 Notifier 7 Light Sensing a d Corridor Hold On Function 4 Noe Notifier 1 Activator 2 Function 6 None Philips LightMaster 164 LightMaster Multifunction KNX Sensor The Activator 2 group objects below are introduced when this function is selected a 6 Light Sensor Light Level 2Byte C R T lux Lux E 11 Coridor Hold On Enabled Disabled 1 bit C R Wi enable a 12 Corridor Hold On Notitier 1 1 bit Cc R W T occupied a 13 Corridor Hold On Activator 2 1 bit C R W T occupied E 18 Corridor Hold On Notifier 1 Scene l Eye C R W T scene number a 19 Corridor Hold On Activator 2 Scene liate C R W T scene number The Activator 2 behavior can be set by selecting Activator 2 in the left hand column of the parameter page The page below appears after selection Device 1 1 1 PLOS CM KNX General Settings a nl E oan Cantal On Activation Recall Scene 1 l o Light Control f Bierce Gelaine Active Scene Range Count 1 m settings Xa a Notifier 1 Scene Range 1 Minimum 1 Activator 2 aia Scene Range 1 Maximum 1 The On Activation Recall Scene defines the scene that the Activator will recall upon receiving a N
7. Band 2 Threshold Band 3 Recall Level This parameter recalls an absolute channel level as a percentage 10 4 6 5 Switch Device 1 1 15 PLOS CM KNX General Settings Execute Actions 4 Motion Control Settings d Light Control Settings Open Loop Control Bands o Light Sensing Ho Comidor Hold On Execute Actions i OF This parameter turns the lights ON or OFF Philips LightMaster 57 LightMaster Multifunction KNX Sensor Options On Off 10 4 6 6 Timer Device 1 1 15 PLOS CM KNX General Settings Motion Control Settings Light Control Settings Open Loop Control Light Sensing Cormidor Hold Gn This parameter starts or stops the delay timer Options Start Stop Philips LightMaster 158 LightMaster Multifunction KNX Sensor 10 5 Light Sensing The multifunction sensor can also transmit the actual light level it is sensing to other network devices for example a third party LCD page or dimming controller with light level input The light sensing behavior can be set by selecting Light Sensing in the left hand column of the parameter page The page below appears after selection Dewice PLOS CM KNX General Settings P Laj Min Update Period s Motion Control gaii 6 i EJ a ight Control Ug Max Update Period s 254 Settings Light Sensi a Min Update Delta LUX 16 i Corridor Hold On The following group object is provided when this function is selected
8. Switching sequence X The parameter window Switching sequence is shown below It is visible if function Switching sequence is selected as the input A switching sequence enables the stepwise modification of several values via a single operation Device Universal Interfaces 4 fold General Settin ee Function of the channel Switching sequence Channel A Ca Channel 6 Connect contact type normally open Channel C Channel D No of objects a level LED A A LED B Type of swiching sequence Sequentially on offseveral push buttons hd LED C ila Function on operation Switch upwards LED D c Sequence is lt NOTE Information 000 001 011 111 Debounce time Min Time 50ms 3 2 6 1 Parameter Connect contact type This parameter defines whether the contact at the input is a normally open or a normally closed Normally open is used as the example Options Normally open Normally closed 3 2 6 2 Parameter No of objects This parameter defines the number of objects or levels which equals the number of output level group objects Options 2level 3level 4level 5level For example parameter 3level means there are 3 group objects level level 2 level 3 The first operation modifies the value of level the second operation modifies the value of level 2 the third operation modifies the value of level 3
9. 6 2 5 20 Delay for switching ON 0 59 sec Time period for delay of ON switch in seconds 6 2 5 2 Delay for switching OFF 0 255 min Time period for delay of OFF switch in minutes 6 2 5 22 Delay for switching OFF 0 59 sec Time period for delay of OFF switch in seconds 6 2 5 23 Delay for protection ON 0 255 min Time period for delay of light protection ON in minutes 6 2 5 24 Delay for protection ON 0 59 sec Time period for delay of light protection ON in seconds 6 2 5 25 Delay for protection OFF 0 255 min Time period for delay of light protection OFF in minutes 6 2 5 26 Delay for protection OFF 0 59 sec Time period for delay of light protection OFF in seconds Note The Delay time for Light protection ON starts once the OFF switch is activated and will only switch to ON once this time has expired Similarly The delay for Light protection OFF starts once the ON switch is activated and will only switch to OFF once this time has expired Philips LightMaster 66 LightMaster Relay Actuators 6 2 6 Scene function Device PORC 16FR KNX General Channel A Acfunction Actime Arscene A threshold A blinds Alogic Channel B Channel C Channel D gt gt Qutput is assigned to scene 1 allocate Ouput ON OFF gt gt Qutput is assigned to scene 1 allocate Quput ON OFF gt gt Qutput is assigned
10. Enabled Disabled Disabled Disabled 4 OU EJ EJ Le EJ E To invoke motion control select Enabled from the drop down list of the Motion Control Enabled parameter Then select the motion control actions required by enabling the required Action parameters This section will outline the actions Scene Level Switch and Timer Combinations of any two actions can be deployed by enabling the corresponding actions 8 4 1 2 Enable Scene This parameter enables or disables scene control Options Enabled Disabled 8 4 1 3 Enable Level This parameter enables or disables level control Options Enabled Disabled 8 4 1 4 Enable Switch This parameter enables or disables Switch control Philips LightMaster 96 LightMaster DALI MultiMaster Controller Options Enabled Disabled 8 4 1 5 Enable Timer This parameter enables or disables the timer control Options Enabled Disabled Note Only two of the above controls Scene Level Switch or Timer can be enabled at one time The controls available will depend on objects enabled disabled in General Settings 8 4 1 6 Scene Count This parameter sets the number available scenes that can be recalled 8 4 2 Scene X motion control Within the multifunction sensor a set of Scenes are defined as the Occupancy Monitoring Scenes Typically three Scenes are defined as shown in the Motion sensor configuration flow chart below Motion Detected Vacant Occupied
11. 2 push button moving shutter 2 switch operation moving shutter and 2 push button stepping The three different control types provide different operation actions For the first two control types the options are MOVE UP and MOVE DOWN for the last control type the options are Stop lamella UP and Stop lamella DOWN Options Move up Move down Options Stop adjust up Stop adjust down 3 2 9 7 Parameter Long operation after This parameter is visible if long operation activate The period is defined here after which an operation is interpreted as long Options 0 3s 0 5s IOs 3 2 9 8 Parameter Debounce time It can set the vibration time to prevent unwanted multiple operation by bouncing contacts in vibration time which means the effective time of the contact operation Options Oms 20ms 50ms Philips LightMaster 39 LightMaster KNX Dry Contact Interface 3 2 10 Description of setting the system parameter in part of LED channel The LED priority in the LED channel page is lower than the LED in the device channel When enabled the LED setting in the device channel the LED actions in the LED channel will not operate 3 2 10 1 Parameter window Flashing X The parameter window is shown below It is able to set the LED flash function and turn on the LED for a long time simultaneously Device Universal Interfaces 4 fold Gener
12. 8 4 2 5 Recall Scene This parameter sets the scene number recalled by this action 8 4 2 6 On No Motion The On No Motion Action permits an action Scene Level Switch and or Timer action to be recalled as enabled in the Motion Control Settings page For scene based control the On No Motion Action permits a Recall Scene and Timeout period to be entered As Scene is the Occupied Scene in the example the On No Motion Action must be set to Recall Scene 2 which is the Grace Scene The Timeout of 600 seconds is also be set achieve the required delay of 10 minutes Options No Action Execute Actions 8 4 2 7 Recall Scene This parameter sets the scene number recalled by this action 8 4 2 8 Timeout s The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Philips LightMaster 99 LightMaster DALI MultiMaster Controller Device 1 1 1 PLOS CM KNX General Settings l SS On Motion Action No Action m 4 Wlotion Control Settings scene 1 o Scene 2 On No Motion Action Execute Actions Scene 3 Scene 4 Recall Scene 3 Light Control l a b Corridor Hold On Timeout s 600 For the example in the Grace Scene 2 the sensor must recall the Occupied Scene again if movement is detected within the Timeout period of 5 minutes otherwise the sensor must recall the Vacant Scene 4 Following are the parameter settings for Scene 2 to achieve this Device 1 1 1 PDBC120 D
13. DALI Switch Settings ame Dynamic Enable Disable Both Add Switch On Off Enabled n Add Timer Disabled Enable Lux Sensor Disabled Startup Scene The Start up Scene is the scene that the sensor will start in when powered up which occurs when network power is restored after a temporary network shutdown or momentary power outage This is typically set as the occupied scene When the group that the sensor controls starts in the occupied scene it will effectively turn off the lights after the no motion timeout period if the group is unoccupied 8 3 1 2 Enable Open Loop This parameter enables or disables Open Loop light control Options Enabled Disabled Philips LightMaster 94 LightMaster DALI MultiMaster Controller 8 3 1 3 Enable Closed Loop This parameter enables or disables Closed Loop light control Options Enabled Disabled Note Scaling must be enabled to use closed loop application mode 8 3 1 4 Dynamic Enable Disable This parameter allows telegrams to enable or disable the sensor functions Options None Motion Only Light Only Both 8 3 1 5 Add Scaling object This parameter enables or disables the Sensor X Absolute Level group object Options Enabled Disabled 8 3 1 6 Add Switch On Off This parameter enables or disables the Sensor X On Off group object Options Enabled Disabled 8 3 1 7 Add Timer This parameter enables or disables the Sensor X Timer Start Stop group object Options Enabled
14. Disabled 8 3 1 8 Enable Lux Sensor This parameter enables or disables the Sensor X Lux Sensor group object Options Enabled Disabled 8 4Occupancy detection Philips LightMaster 95 LightMaster DALI MultiMaster Controller The objective of occupancy detection 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 for occupancy detection from a single sensor 8 4 1 Motion Control Settings The Motion Control Settings group in the left column of the parameters page displays the parameters illustrated below These parameters are used to enable disable the actions that the sensor will execute for motion control The Scene option is selected to implement the motion control routine described in the previous example The Scene Count parameter defines the range of actual Scenes over which the sensor will operate motion control In the example scenes I 2 and 4 are used The scene count must be set to the highest scene number used in this case 4 Device 1 1 1 POBC120 DALI KNX DALI Actuators A A Motion Control Enabled Actuator Scenes DALI Device Settings Enable Scene 4 PLOS CM DALI 1 General Settings Enable Level _ Motion Control Settings nae Enable Switch Scene 2 Enable Timer Scene 3 SELES Scene Count Light Control Settings PPMI4 DALT 2 8 4 1 1 Motion Control Enabled Enabled
15. Disabled 8 5 5 6 Enable Switch This parameter enables or disables Switch control parameters for each band Options Enabled Disabled 8 5 5 7 Enable Timer This parameter enables or disables the timer control parameters for each band Options Enabled Disabled Note Only two of the above controls Scene Level Switch or Timer can be enabled at one time The controls available will depend on objects enabled disabled in General Settings 8 5 5 8 Scene Count This parameter sets the number available scenes that can be recalled 8 5 5 9 Control in scene X This parameter sets in which scenes open loop control will operate The number of parameters visible depends on the scene count This parameter enables or disables control in the scene Options Enabled Disabled 8 5 6 Bands To define the bands and related actions select Bands in the left hand column of the parameters page The number of bands displayed depends on the band count The following page appears The first band represents the lowest lux level range Subsequent bands start from the previous band s threshold level Note Only two of the above controls Scene Level Switch or Timer can be enabled at one time The controls available will depend on objects enabled disabled in General Settings Philips LightMaster 110 LightMaster DALI MultiMaster Controller Device 1 1 1 PDBC120 DALI KNX Scene 9 Scene 10 Scene 11 Scene 12 Scene 13 Scene 14 Scene 15 Scene 16 D
16. If the parameter Dimming and switching is selected the push button action will have a delay to determine whether the Philips LightMaster 21 LightMaster KNX Dry Contact Interface operation is long or short In this case the lighting is dimmed via a long operation and switched via a short operation 3 2 3 3 Parameter Reaction on short operation This parameter is visible if the value Dimming and switching has been set in the parameter Dimming functionality It is able to set a short operation option for the object Switch X Options No action OFF ON TOGGLE 3 2 3 4 Parameter Reaction on long operation This parameter is visible if the value Dimming and switching has been set in the parameter Dimming functionality It is able to set a dim brighter or a dim darker after a long operation Options Dimming brighter Dimming darker Dim brighter darker with start brighter Dim brighter darker with start darker The parameter Dim brighter darker with start darker is selected it can be dim brighter or dim darker after a long operation It toggles between dimming darker first and dimming brighter first Note The long and short operations are separate and use two objects 3 2 3 5 Parameter Long operation after This parameter is visible if the value Dimming and switching has been set in the parameter Dimming functionality The period TL is defined here after which an
17. It will open LED if receive telegram negate priority and the LED resume the foregoing operation if receive 0 30 LED X Send its status Send its status X I bit C T 9999 ce 29 selected Yes It is used to send the status of LED Sending means if sending open It is visible if Send status by object Tele Status LED open and sending 0 means the LED is stop The object LED switch X will send telegram requirement every time Philips LightMaster 50 LightMaster KNX Dry Contact Interface Line Couplers 4 LightMaster Line Coupler e PLC KNX LightMaster Line Coupler 4 Description The LightMaster Line Coupler provides a data connection between two separate bus lines and also isolates the bus lines from each other in order to enable the independent local operation of a bus line The coupler can be used as a line coupler as a backbone coupler and a repeater As a line coupler it connects a line with a main line As a backbone coupler it connects a main line with a backbone line As a repeater it connects one section of a line to another section of the same line The corresponding lines are then galvanically isolated from each other The filter table is created by the ETS software automatically on commissioning the system The filter table determines which telegrams are passed through the coupler With the LK2 coupler the primary line is connected to a data rail the LK2 2 coupler has bus
18. The Notifier Timer and Activator objects are configured to perform the above functions by associating them to Parent or Child Groups These objects reside in the KNX Multifunction Sensor The sensor has a total of 6 objects which can be independently configured as a Notifier Timer or Activator Notifier Activator _ Timer Key point The Notifier Timer and Activator are scene centric objects which require scene based control to be utilized in order to function Philips LightMaster 160 LightMaster Multifunction KNX Sensor 10 6 1 1 Notifier Object Child Group The Notifier sends recurring messages onto the KNX network heartbeats notifying its parent Group that its own Group is currently occupied The data point type DPT Occupancy is used for these messages To commission the Notifier Object e The Scene group object is associated with its own Group e The Occupancy group object is associated with the parent Group e Parameters are entered to define all the active scenes generally the occupied for its own Group e Parameter is entered for the heartbeat period When the Notifier receives a scene message for its own Group that is defined as an active scene it will transmit an occupancy message for the parent Group The Notifier s heartbeat timer is restarted every time an occupancy signal is sent from the Notifier or received from another Notifier associated with a different child G
19. detected Philips LightMaster 102 LightMaster DALI MultiMaster Controller 8 4 5 Timer motion control Timer occupancy control can be used to start and stop a timer in another network device such as an actuator An example would be to start a timer when no motion has been detected for a period of 10 minutes and stop the timer if motion is detected To invoke level occupancy control in the Motion Control Settings Page select Enable Timer from the available actions as illustrated below Device 1 1 1 PDBC120 DALI KNX DALI Actuators Actuator Scenes DALI Device Settings 4 PLOS CM DALI 1 Motion Control Enabled Enable Scene General Settings Enable Level _ Motion Control Settings Actions Enable Switch Light Control Settings Enable Timer d PPMI4 DALI 2 DALI Switch Settings embed o isabled Disbled Enabled ha The motion control behavior can be set by selecting Actions in the left hand column of the parameter page The page below appears after selection Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to Execute Actions from the drop down list as shown below Device 1 1 1 PDBC120 DALI KNX DALT Actuators R On Motion Actuator Scenes DALI Device Settings Timer d PLOS CM DALI 1 General Settings Motion Control Settings Jaleo On No Motion Light
20. lt Input object value lt upper threshold If the object value lies between the preconfigured threshold values the switch responds in accordance with the following options Options Unchanged ON OFF 6 2 7 9 Input object value lt upper threshold value If the received object value is larger than the upper threshold value the switch responds in accordance with the following options Options Unchanged ON OFF Philips LightMaster 69 LightMaster Relay Actuators 6 2 8 Blind function Device PDORC416FR KNX General i Hen Blinds UP 0 value Channel A Channel A Acfunction Blinds DOWWN 1 value Channel B _ A blinds Channel B Control mode Move UP DOWN and Adjustment Channel Adjustment time 100ms ha Channel D Delay time for running direction changed 200ms Moving time 65535s 10 The blind function requires two channels in combination one of which opens the blind while the second one closes it The blind will stop after the expiry of the pre set time period or by way of a corresponding telegram Note If channel A is activated as the blind channel please be sure to deactivate channel B Channel B should be exclusively activated for the function of closing the blind Device PORC416FR KNX General Channel A A function A blinds Channel B Channel C Channel D Channel B work mode Inactivated 6 2 8 1 Blinds Up 0 value Th
21. 1 SSS eee Switch A Function lon Off z General Settings Motion Control Settings switch B Function Absolute Level Scene 1 Scene 2 Switch B Level 5 50 Scene 3 ee Switch C Function Scene A Light Control Settings TS Switch C Scene Number Open Loop Control j pao ai d EF Bands a PPMI4 DALI 2 DALI Switch Settings Switch D Function None 8 7 1 1 Switch X Function This parameter determines the action triggered by the Switch A group object is used for each selected action Scene ON OFF Absolute Level or Relative Level Options None Scene Absolute Level On Off 8 7 1 2 Switch X level This parameter is visible if absolute level is chosen It sets the channel level as a percentage 8 7 1 3 Switch X Scene Number This parameter is visible if scene is chosen It sets the scene number that will be recalled Philips LightMaster 114 LightMaster DALI MultiMaster Controller 8 8 Group Addresses 8 8 1 Group Address Naming The group address is a two byte logical address used for all bus group in normal operating mode Group address can be represented in three different ways e three digits x y z x O 31 y O 7 z O 255 e two digits x z x O 31 z O 2047 e one digit x x 0 65535 A group object for an input device such as a sensor user interface can send a single group address but the group object for each Actu
22. 1 1 Switchi2fold General Channel A Channel B Operation delay after recovery 2 200s Sending cycle of object In Channel C operation 1 65535s 0 invalid Channel D Channel E Channel F Channel G Channel H Channel I Channel J Channel K Channel L Two parameters can be configured in the general parameter configuration window Operation delay after recovery 2 200s 2 Sending cycle of object In operation 1 65535 0 invalid 6 2 1 1 Operation delay after recovery 2 200s The relay switches with a delay time of 2 200 s after turning on The preconfigured selection is 2 seconds The delay time is min 2 s and max 200 s Options 2 200 s If the device is set to start the timer counting and once the delay time has expired the switch will respond 6 2 1 2 Sending cycle of object In operation 1 65535 0 invalid The range of the parameter is 0 to 65535 s With zero as the parameter value the function will be blocked all other parameters activate it Options 0 65535 s If the parameter is not set to zero the device will send a periodical telegram at regular intervals once the time period expires The values 0 and will be sent alternately Philips LightMaster 57 LightMaster Relay Actuators 6 2 2 Channel N functional parameters Device PORC 16FR KNX General Bl Channel A work mode Switch actuator kai pa TEIDE A on Channel B Normally connected type Normally Opened kas Ch
23. 16A 6 Description The Philips LightMaster series of Relay Actuators is ideally suited to control lighting window blinds or other switching functions in a professional KNX bus installation The 4 8 or 2 channels can be switched simultaneously The autonomous switching of up to twelve devices is enabled by shutter contacts Outputs can switch a maximum of 16A and can also be manually operated The LightMaster Relay Actuators generally require no additional power supply The 8 channel and 2 channel Relay Actuators only need an additional 24V DC power supply if synchronous RTS real time systems switching of several channels is necessary 6 1 1 Connections _ AC250V Labeling area 2 Programming knob amp LED 3 KNX Bus connection 4 Connection pole 5 Notification window for contact position and manual operation 6 Additional 24 V DC supply max 24 mA in operation min 4 mA in standby not shown 6 2 Co nfi gu ration KNX E B BUS The objects and parameters for the device are outlined in this chapter The application table lists the number of available group objects group addresses and connections The Relay Actuators have the following capabilities Philips LightMaster 56 LightMaster Relay Actuators SwitchME4 KNX SwitchME8 KNX SwitchME 12 KNX max number of group objects 90 170 250 max number of group Addresses 254 254 254 max number of associations 254 254 254 6 2 1 General Device 1
24. 3 Select DALI Configuration 2 PDBC 170 DALI KNX Configuration Wizard DALI Control Gears and Devices Flash Query Status SA Link Remove DALI Address E Control Gears G Universe 1 General Ballast General Ballast General Ballast General Ballast General Ballast 13888060 i4288 15670844 4995388 6394428 6729020 8111420 14229820 Actuator 1 Online Actuator 2 Online Actuator 3 Online Actuator 4 Online Actuator 5 Online Actuator 6 Online Actuator 7 Online Actuator 8 Online General Ballast General Ballast General Ballast Unused Control Gears E Devices H Sensors MH PLOS CM DALI Device 1 Online 11160822 1625029 10h El Dry Contact Inputs OH PPMIS DALI Device 2 Online 15168620 1662411 iih Unused Devices B Unused 3 Device 3 Unknown FPS 29 1 Avg F 0 SSS eee Pee ee i 42 Enumerate All gg Reset Enumeration All B Read From Device j Sav evil a Write Group Data gt Query Status All EE Sign Gn Devices g Finish The DALI Configuration Wizard displays the DALI control gears ballasts devices grouped by universe The Configuration Wizard Page displays the following information columns e Name e Serial Number e DALI Address e Device Code e Linked To Actuator Channel e Firmware Version e Status Online Offline or Unknown e Group Address e KNX Address e Relay ballasts connected through e Universe controller s power relay e DALI Long Address e DALI Min Level e DALI Max
25. 3 1 bit Cc R W T occupied Low B 18 Corridor Hold On Notifier 1 Scene 1l Eyte C R Wo T scene number Low a 19 Corridor Hold On Activator 2 Scene 1Byte C R Wo T scene number Low a 40 Corridor Hold On Timer 3 Scene l Eye C R Wo T scene number Low The Timer 3 behavior can be set by selecting Timer 3 in the left hand column of the parameter page The page below appears after selection Device 1 1 1 PLOS CM KNA General Settings TD b Motion Control Sate ime E ja b Light Control A a Coridor Hold On When Timer Expires Recall Scene 1 settings 2 Active Scene Range Count 1 e Notifier 1 Activator 2 Scene Range 1 Minimum 1 Timer 3 Scene Range 1 Maximum 1 Philips LightMaster 166 LightMaster Multifunction KNX Sensor The When Timer Expires Recall Scene defines the scene that the Timer object will recall upon the timer reaching the Hold On Time when in an active scene The Active Scene Range Count defines the number of consecutive Active Scene ranges In this example the default range of will be used the When Timer Expires Recall Scene will be set to Scene 4 and the Active Scene range as Scene 2 only as shown below Device 1 1 1 PLOS CM KNX General Settings ES 4 Motion Control Set Su TS a C settings f E 4 EE When Timer Expires Recall Scene 4 Settings C Active Scene Range Count 1 Light Sensing d Corridor Hold On Rs Scene Range 1 Minimum 2 Settings ia Notifier
26. Boardroom Switching 3 Open Plan Switching The Group Address Assignment Window displays the following information columns e Name e Associations e Data Type e Data SubType Philips LightMaster 121 LightMaster DALI MultiMaster Controller Link group addresses using the Group Address Assignment Window Select a ballast device in the configuration window 2 Click Link to open the 4 1 Group Address Assignment Window 3 Click and drag a group address to the corresponding group object for the Actuator channel device 4 The group address is displayed in the Associations column next to the group object 5 Right click the group object and select Remove Group Address to delete the link if applicable Tip The group address will not link if it is using a different data type to the group object Hex Eel Group Address Assignment 1 Lighting Scenes Name Association 2 1 Reception Scenes Dry Contact 2 Switch A Scene Control 1 byte 17x ID 17 LengthinBit 8 DPT_SceneNumber ID 1 2 Boardroom Scenes Dry Contact 2 Switch B Absolute Level 1 byte 02 2 5200 ID 5 LengthInBit 8 DPT_Scaling ID 1 3 Open Plan Scenes Dry Contact 2 Switch C On Of 1 bit 120 ID 1 LengthinBit 1 DPT_Switch ID 1 4 Training Room Scenes 2 Absolute Levels 2 Boardroom Absolute Le H 3 Relative Levels E 4 Switching ill amp Group Address Assignment El MainGroups El 0 Office Dry Contact 2 Switch A Scene Control 1
27. DALI KNxX 4 DALI Actuators Settings Actuator 1 Actuator 2 Actuator 3 Actuator 4 Actuator 5 Actuator 6 Actuator 7 Actuator 8 a Actuator Scenes Settings DALI Device Settings Scene 1 Scene 2 Scene 3 Scene 4 Actuator 1 FadeTime s Actuator 1 Level 5 Actuator 2 FadeTime s Actuator 2 Level 5 Actuator 3 FadeTime s Actuator 3 Level Actuator 4 FadeTime s Actuator 4 Level Actuator 5 FadeTime s Actuator 5 Level 5 Actuator 6 FadeTime 5 Actuator 6 Level Actuator 7 FadeTime 5 Actuator 7 Level 5 Actuator 8 FadeTime 5 Actuator amp Level 2 8 2 4 1 Actuator X FadeTime s 100 l2 100 75 l2 73 2 z l2 50 This parameter sets the time period for a transition from one level to the next during a scene change Options are in seconds or no fade Instant 8 2 4 2 Actuator X Level This parameter sets the channel level for the specified scene Philips LightMaster 92 LightMaster DALI MultiMaster Controller 8 2 5 DALI Device Settings Select the DALI Device Settings group in the left column of the parameters page to set the number of DALI MultiMaster devices 8 2 5 1 Device X These parameters is used to select the type of DALI MultiMaster device PLOS CM DALI sensor or PPMI4 DALI dry contact Up to ten devices can be created Device 1 1 1 PDBC120 DALI KNX DALI Actuators Actuator Scenes L i M L
28. DALI open communication protocols Users can implement sophisticated user friendly and energy efficient lighting control solutions for a wide range of industry sectors The Philips LightMaster range brings the following benefits to the KNX world including e Light control actuator solutions that allow the user to decide which lighting protocol output they want to work with including DALI addressable DALI broadcast DSI and 1 Ov e A true structured cabling solution to bring the benefits of faster installation commissioning and reduced costs e The ability to add sensors and dry contact user interfaces to the DALI line reducing installation costs in parameter wiring e Low profile aesthetics to the multifunctional sensor range reducing ceiling clutter without compromising performance e The LightMaster networked control system is fully scalable and suited to both large and small installations This guide provides commissioning and programming information as well as configuration procedures and technical details for the Philips LightMaster range of products LishtMaster echnologies e DALI Digital Address Lighting Interface is a worldwide standard for network based systems that control lighting in buildings It was established as a successor for 0 10 V lighting control systems and as an open communication standard alternative to Digital Signal Interface DSI The DALI standard which is specified in the IEC 60929 standard for
29. Fade Time When Switching s This parameter is presented when On Off is included in the selected CO Presentation This parameter sets the fade time in seconds or no fade Instant when switching 8 2 2 6 Fade Time When Ramping s This parameter is presented when Relative Level is included in the selected CO Presentation This parameter sets the fade time in seconds or no fade Instant when ramping 8 2 2 7 Fade Time When Dimming s This parameter is presented when Absolute Level is included in the selected CO Presentation The parameter sets the fade time in seconds or no fade Instant when dimming 8 2 3 Actuator Scenes Settings Select the Settings group in the left column of the parameters page to set the number of available scenes Device 1 1 5 PDBC120 DALI KNX DALI Actuators a Actuator Scenes naa i settings Scene 1 Scene 2 Scene 3 Scene 4 DALI Device Settings a3 8 2 3 1 Scene count This parameter sets the number of predefined lighting scenes A lighting scene specifies the lighting level and fade time for each channel in an area Philips LightMaster 9 LightMaster DALI MultiMaster Controller 8 2 4 Parameter Window Scene X Parameter window Scene X will be shown for each actuator scene created by the Settings Scene Count Parameter Set up all the preset scenes required in each area of your floor layout Scenes can be easily added or changed as occupancy and room usage changes Device 1 1 5 PDBC120
30. Level The Control Gear Device icons in the main configuration page will show one of the following states An enumerated DALI ballast device not assigned to an Actuator Channel or Device E An un enumerated DALI ballast device ME A DALI ballast device assigned to an Actuator Channel or Device Philips LightMaster 117 LightMaster DALI MultiMaster Controller 8 9 1 DALI Configuration Toolbar The following buttons are located on the DALI Configuration Toolbar below the main configuration page dag Enumerate All 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 control gears Ballasts i Reset Enumeration All Resets the whole DALI universe Clears the enumeration data from the controller ballasts devices in the universe Clicking the dropdown arrow allows reset enumeration to be performed for all items only devices or only control gears Ballasts E Read from Device Reads the enumeration data from the controller yl Save to Device saves modified enumeration data to the controller af Write Group Data Creates DALI scenes and groups based on the KNX parameter 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 a
31. LightMaster Switch Range 9 2 1 Rocker Functions Rocker functions always combine the configuration of two physical push buttons They are used for faster configuration Device 1 1 1 Philips First Series Panel Euro Style KNX group A Ae eee name of rocker max 16 chars C left rocker group A night rocker group left rocker function of rocker switching 1 object group B group group right rocker action of rocker top ON bottom OFF group C left rocker group D 9 2 2 Rocker Function switching object This logical function configures two physical push buttons top and bottom button to set one KNX group object to OFF 0 or ON 1 Parameters allow you to configure which physical push button is for switching ON and which is for switching OFF Device 1 1 1 Philips First Series Panel Euro Style KNA group Aunia f name of rocker max 16 chars A rocker group group function of rocker switching 1 object group C group D action of rocker top ON bottom OFF no action top OFF bottom ON top ON bottom OFF For this function only one KNX group object is provided Fal 0 A rocker switching group A object 1 1 bit C T Low 9 2 3 Rocker Function switching 2 objects This logical function configures two physical push buttons top and bottom button to set two KNX group objec
32. Loop Light Control the multifunction sensor can execute Scene Level Switch and Timer actions including combinations of these as shown in the drop down list below Device 1 1 15 PLOS CM KNX General Settings Band Count 3 CJ 4 Motion Control i Settings a Min Update Period s if 4 Light Control x ees Actions Open Loop Control Bands Scene Count Light Sensing Switch Timer Comidor Hold On Control in Scene 1 Scene Level Scene Switch l Scene Timer Control in Scene 2 Pepen Level Timer Control in Scene 3 Switch Timer Scene Level Switch Scene Level Timer Control in Scene 4 Scene Switch Timer Level Switch Timer Scene Level Switch Timer Philips LightMaster 155 LightMaster Multifunction KNX Sensor 10 4 5 5 Scene Count This parameter sets the number available scenes that can be recalled 10 4 5 6 Control in scene X This parameter sets in which scenes open loop control will operate The number of parameters visible depends on the scene count This parameter enables or disables control in the scene Options Enabled Disabled 10 4 6 Bands To define the bands and related actions select Bands in the left hand column of the parameters page The number of bands displayed depends on the band count The following page appears Dewice 1 1 15 PLOS CM KNX General Settings Band 1 Execute Actions kd 4 Motion Control Eee
33. Motion Control Enabled Enabled 4 Motion Control a settings Actions Timer Actions a I Light Control Coridor Hold On The following group objects are provided when this function is selected a 0 Motion Sensor Scene 1 Bye C R W T scene number a 3 Motion Sensor Enable Disable 1 bit C R W enable B 4 Motion Timer Start Stop 1 bit C R T start stop F 6 Light Sensor Light Level 2Byte C R T lux Lux The motion control behavior can be set by selecting Actions in the left hand column of the parameter page The page below appears after selection Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to Execute Actions from the drop down list as shown below Device 1 1 1 PLOS CM KNA General Settings On Motion Action Execute Actions 4 Motion Control aang l Timer Stop Actions Light Control Corridor Hold On On No Motion Action Execute Actions Timer Start Timeout s 600 The Timer parameters and Timeout parameter in this page have been set to achieve the control outlined in the example 0 3 5 1 Timer This parameter starts or stops a timer by this action 10 3 5 2 Timeout s The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Low Low Low Low iG y Philips LightMaster 148 LightMaster Multifunction KNX Senso
34. Move up gt Stop Adjust upward gt or Operation gt Move down gt Stop Adjust downward gt Move up down set by parameter 2 push button stepping Stop Adjust upward or Stop Adjust downward set by parameter Operation keep pressing the button can send cyclic 2 switch operation moving shutter Move up or Move down set by parameter Operation start Stop Adjust upward or Stop Adjust downward the sending value is identical to Operation end the value when the operation started Philips LightMaster 38 LightMaster KNX Dry Contact Interface 3 2 9 3 Parameter Tele STOP lamella adj Cyclical send It is visible if the shutter control type is push button short moving long stepping and 2 push button stepping It is able to set the interval time of sending the object stop adjust adj cyclical Options 0 3s 0 5s 10s 3 2 9 4 Parameter Reaction on short operation It is visible if the shutter control type is 2 push button standard This parameter defines the action of a short operation Options Stop adjust up Stop adjust down 3 2 9 5 Parameter Reaction on long operation It is visible if the shutter control type is 2 push button standard This parameter defines the action of a long operation Options Move up Move down 3 2 9 6 Parameter Reaction on operation It is visible if the shutter control type is
35. Switch Timer gt Comidor Hold On Scene Level Switch Scene Level Timer Scene Switch Timer Level Switch Timer Scene Level Switch Timer 10 3 1 3 Scene Count This parameter sets the number available scenes that can be recalled Philips LightMaster 14 LightMaster Multifunction KNX Sensor 10 3 2 Scene X motion control Within the multifunction sensor a set of Scenes are defined as the Occupancy Monitoring Scenes Typically three Scenes are defined as shown in the Motion sensor configuration flow chart below Motion Detected Vacant Scene No motion detected for 10 minutes No motion detected for 5 minutes Motion Detected In this example they are named Occupied Grace and Vacant No other scenes are configured e For the Occupied Scene Scene the space is illuminated to provide occupants with suitable lighting levels The multifunction sensor is configured to change to the Grace Scene after 10 minutes of no motion activity e Inthe Grace Scene Scene 2 the space is dimmed to warn any occupants that the lights are about to be automatically turned off The multifunction sensor is configured to return to the Occupied Scene if motion is detected If a period of 5 minutes of no motion activity passes the multifunction sensor will progress to the Vacant scene e For the Vacant scene Scene 4 the lights are turned off to
36. a 0 zero is returned 6 3 2 2 Object Statistics for ON switch Number Function Data types EIS10 12 Output N Statistics for ON mode C R W A U DPT 7 007 2byte This object creates statistics for channel N It can be read written via the bus if this function has been activated 6 3 2 3 Object staircase light Number Function Data types EISIO 13 Output N Staircase light duration C RW DPT 7 005 2byte This object can be used to regulate the staircase light time when this function is activated control is permitted via the data bus Philips LightMaster 78 LightMaster Relay Actuators 6 3 2 4 Object warning staircase light Function Data types EISI 14 Output N Warning staircase light C RA DPT 1 005 I bit This object is a safety against unwanted ON OFF switching if the staircase light goes On or Off the object sends a warning via the bus Channel N is ON gt a I other a 0 zero 6 3 2 5 Scene object Number Name Function Data types EISI 4 I5 Output N Scene 8bit CW U DPT 18 001 byte The purpose of this object is to control scenes See the following explanation Telegram value 8 bit C7 R6 N5 N4 N3 N2 NI NO C By setting the 7th bit to 0 the scene will be called up I continue scene if scene has been assigned and is valid R Reserved N Scene No binary 050403020100 151413121110 1 64 e g Hexadecimal 00h Call up scenel if scene assigned Olh Call up scene2 if
37. a normally open contact or a normally closed contact Normally open is used as the example Options Normally open Normally closed 3 2 5 2 Parameter Control the scene by It is possible to select whether the scene control is carried out via 5 separate objects or whether values that are stored in the actuators are recalled and saved via an 8 bit scene Options 5 separate objects 8 bit scene If the parameter Sseparate objects is selected it will activate control of the actuator groups the 5 objects parameter window will be shown If the parameter 8 bit scene is selected it can control the scene function in a dimming actuator or switch actuator The 8 bit scene parameter window will be shown 3 2 5 3 Parameter No of scene 0 63 This parameter will be visible when the scene control is 8 bit scene it can be set the No of scene The No range is 0 63 Parameter Reaction on short operation This parameter defines whether a short operation of the input causes a light scene to be recalled or no reaction takes place Options No reaction Recall scene 3 2 5 4 Parameter Store scene This parameter defines how the saving of the current scene Options No On long operation With object value I On long operation and object value I The following table provides an overview of scene control behavior Philips LightMaster 27 LightMaster KNX Dry Contact Interf
38. alarm Low 1 bit C R T alarm Low Fa 2533 DALI Actuator Ballast Failure 8 10 5 Sector Y Z Emergency Test Objects Number Name Object Function Description nn Length C R Wi T U Data Type Priority a 234 Sector Y Emergency Functional Test Start 1 bit C R W T start stop Low Ee 235 Sector Z Emergency Functional Test Start 1 bit C EF wW T start stop Low Fal 236 Sector Y Emergency Duration Test Start 1 bit C R wW T start stop Low 1 bit Cc R W T start stop Low Pa oF Sector Z Emergency Duration Test Start Philips LightMaster 125 LightMaster DALI MultiMaster Controller 8 10 6 Emergency Fixture X Status Objects Number Name Object Function Description Length Cc R We T U Data Type Priority Ee 238 Emerency Fixture 1 Status 1 bit C R alarm Low P 239 Emerency Fixture 2 Status 1 bit C R alarm Low Pi 240 Emerency Fixture 3 Status 1 bit C EF alarm Low Fal 241 Emerency Fixture 4 Status 1 bit C R alarm Low a 242 Emerency Fixture 5 Status 1 bit C R alarm Low Fal 243 Emerency Fixture 6 Status 1 bit C R alarm Low Fal 24 Emerency Fixture 7 Status 1 bit c R alarm Low a 245 Emerency Fixture 8 Status 1 bit C R alarm Low Pi 246 Emerency Fixture 9 Status 1 bit C FR alarm Low Pa 247 Emerency Fixture 10 Status 1 bit C R alarm Low 8 10 7 Preset Table Start Index Number Name Object Function Description Length r R w z lu Data Type Priority Pi 248 Preset Table Start I
39. channel A is ON and LED A will go off when the switch value of channel A is OFF e Ifthe parameter LED X TOGGLE by switch value is selected the LED status will be the opposite of the current value of the object Tele Switch X ie LED A will go off when switch value of channel A is ON and LED A will light when switch value of channel A is OFF Options No action LED A accord to switch value LED A TOGGLE by switch value LED D accord to switch value LED D TOGGLE by switch value Note If the four channels invoke the same option the priority of channel A will be the highest it indicates the status according to the value of the object Tele Switch X in channel A Then the priority of channel B is next highest then channel C and lastly channel D The priority of LED X in channel function page is higher than in the LED X page If the LED has been configured via the channel pages the settings in the LED pages are ignored 3 2 2 8 Parameter Debounce time This sets the vibration time to prevent unwanted multiple operations from the vibration time of bouncing contacts this is the effective time of the contact operation Options Oms 20ms 50ms Min Operation The minimum operation time can only be set when there is no distinction between a short and a long operation This parameter differs from the others in that the effective time of the contact operation is not only the time for contact close bu
40. fluorescent lamp ballasts encompasses the protocol and electrical interface for lighting control networks KNX is a worldwide standard for applications in home and building control ranging from lighting blind and shutter control to full building management systems including HVAC ETS Engineering Tool Software is a manufacturer independent configuration tool to design and configure intelligent home and building control installations with the KNX system Philips LightMaster 9 System Information 2 Safety Instructions Please read these instructions carefully before starting to work with the products 2 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 If any faults occur or for servicing you should contact Philips LightMaster Clean the device regularly Do not use any alcoh
41. gt gt Time for off 0 255 Min LI Channel B i C e Time for off 0 59 Sec CJ Time for off 0 59 Sec 5 Channel D Additional furction Warming staircase lighting ON gt OFF gt ON No The staircase function causes the automatic switch off of the switching procedure after a pre set time The staircase time can be parameterized without restriction There are other optional functions that can be combined with the staircase function these are described below 6 2 5 10 Control staircase lighting Options Start with l stop with 0 Start with I invalid with 0 Start with 1 70 Can t Stop If the Start with I stop with 0 function is selected and the switch is activated the light will be turned on and the timer begins counting until the pre set set point is achieved after which the light will be turned off The light can be turned off earlier by manually operating the switch If the Start with I invalid with O function is selected and the switch is activated the light will be turned on and the timer begins counting until the pre set set point is achieved after which the light will be turned off The light cannot be turned off by manually operating the switch If the Start with 1 70 Can t Stop function is selected and the switch is activated or turned off the light will be turned on and the timer begins counting until the pre set set point is achieved a
42. loop lighting control should be used where the sensor is not located within the same area of the group under control With 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 An example would be the level of background lighting on a display located in an area that also receives natural light In this scenario it may be necessary to increase the background lighting level as natural light increases in the foreground to achieve an appropriate contrast ratio Specifically this could be achieved by selecting a low background Scene 3 when the lighting level is between 0 350 lux an intermediate scene 2 when the lighting level is between 350 700 lux and a high level scene 1 when the lighting level exceeds 700 lux Philips LightMaster 108 LightMaster DALI MultiMaster Controller To invoke open loop light control in the PLOS CM DALI General Settings Page enable Open Loop Control from the Application Mode drop down list 8 5 5 1 Open Loop Control The light control behavior can be set by selecting Open Loop Control in the left hand column of the parameter page The page below appears after selection Device 1 1 1 POBC120 DALI KNX DALI Actuators Band Count Actu
43. operation Channel D Cydic send Tele Tele switch LED A LED B Reaction on closing the contact LEDC Rising edge LED Reaction on opening the contact Falling edge Interval of Tele cyclic send Base Factor 1 255 Send object value after voltage recovery if YES not equal TOGGLE LED function set Debounce time Min Time OFF no action r 15 a a Moo LED A accord to switch value 5oms Parameter Function of the channel This parameter determines the function option in the channel the current option is switch If No function is selected it means the channel is disabled Options No function Switch Switch Dimming Value Forced output Scene control Switching sequence Counter Multiple operations Shutter Control 3 2 2 2 Parameter Distinction between long and short operation This parameter sets whether the input distinguishes between a short and long operation If yes is selected there is a waiting period after the opening closing of the contact to determine whether the operation is long or short Only then is a possible reaction triggered Options Yes No Philips LightMaster Without distinction between short long Input signal Possible reaction to the input signal I7 With distinction between short long Possible reaction to the input signal LightMaster KNX Dry Contact Interface 3 2 2 3 Parameter Cycli
44. priority is higher than the group object LED Flashing X It will open LED if receive telegram I negate priority and the LED resume the foregoing operation if receive 0 30 Sey BRem innit Upper limit position X Ibit cw position It is visible if Send status by object Tele Status selected Yes it is used to send the status of LED Sending means LED open or flashing and sending 0 means the LED is stop The object LED Flashing X will send telegram I if sending open flashing requirement every time Philips LightMaster 49 LightMaster KNX Dry Contact Interface 3 3 10 Group object LED X SWITCH The group object LED X Switch is shown in below Humber Hame Object Function Descr Group Addresses Le C R Y T U Data Type Pro gzs LED switch A LED A Switch l bit C RF Low gza LED permanent on A LED A Permanent on l bit C RF Low gza Send its status A LED A Send its status l bit C T Low Function Object name 28 LED X Switch LED switch X l bit C w This group object is used to open LED It will open LED if the object receive a or 0 telegram defines by LED is Switch ON if the open time can be set by parameter it will stop LED if receive 0 or I 29 LED X Permanent on LED permanent on X I bit C W It is used to open LED for a long period and its priority is higher than the group object LED switch X
45. scene assigned 3Fh Call up scene64 if scene assigned 80h Load scenel if scene assigned 8lh Load scene2 if scene assigned BFh Load scene64 if scene assigned 6 3 2 6 Threshold value object Number Function Data types EIS14 l6 Output N Threshold value input C W U DPT 5 004 byte If this object is activated the input value will be compared with threshold values and 2 and the switch status will be determined in accordance with the configuration EIS14 I7 Output N Change threshold value C W U DPT 5 004 I bit Changing the threshold valuel via the bus only EIS14 18 Output N Change threshold value2 C W U DPT 5 004 I bit Changing the threshold value2 via the bus only Philips LightMaster 79 LightMaster Relay Actuators 6 3 2 7 Blind object EISI 19 Output N Open blind C W U DPT 1 010 I bit This object opens the blind EISI 20 Output N Close blind CW U DPT 1 010 I bit This object closes the blind 6 3 2 8 Logic object EISI 2l Output N Logic connection C W U DPT 1 002 I bit If this function is activated the object will be visible and the logic function has validity The logic function contains AND OR XOR GATE EISI 22 Output N Logic connection 2 CW U DPT 1 002 I bit If this function is activated the object will be visible and the logic function has validity The logic function contains AND OR XOR GATE Philips LightMaster 80 LightMaster Relay Actuators 6 3 2 9 Heating ac
46. sends a telegram via the linked group address to the actuator channels to perform the corresponding function The table below shows a typical configuration GROUP ADDRESSES OFFICE FUNCTIONS DATA POINT TYPE ACTUATOR GROUP OBJECTS RECEPTION FUNCTIONS 0 I I Reception Scenes Actuator 3 Scene byte scene number 0 3 1 Reception Relative Levels Actuator 3 Relative Level Control 4 bit dimming control 0 4 1 Reception Switching Actuator 3 On Off bit on off BOARDROOM FUNCTIONS 0 1 2 Boardroom Scenes Actuator 4 7 Scene byte scene number 0 2 2 Boardroom Absolute Levels Actuator 4 7 Absolute Level Control byte percentage 0 4 2 Boardroom Switching Actuator 4 7 On Off bit on off OPEN PLAN FUNCTIONS Actuator 8 48 Scene 0 1 3 Open Plan Scenes 0 4 3 Open Plan Switching TRAINING ROOM FUNCTIONS 0 1 4 Training Room Scenes Actuator 8 48 On Off Actuator 49 59 Scene byte scene number bit on off byte scene number Tip Each Actuator channel can have multiple group addresses per function type Actuator channels in different areas will use a different range of group addresses for these functions Philips LightMaster LightMaster DALI MultiMaster Controller 8 9DALI KNX Configuration Wizard All DALI functions can be configured using the DALI Configuration Wizard To run the DALI Configuration Wizard Right click the device name in the devices list page 2 Select Plug in
47. terminals for both lines The LEDs indicate the operating status of the device Ki e Al ON S1 e A2 secondary line traffic A1 O e A3 primary line traffic e A4 programming mode fe e SI programming button e TI primary line i i e T2 secondary line Ti T2 Secondary line Primary line The primary line is connected via a bus terminal on the left side of the device The secondary line is connected via a bus terminal on the right side of the device Philips LightMaster 5I LightMaster Line Coupler 4 2 Configuration The device is programmed with the ETS Software Two database application options exist for the line coupler one for backbone or line coupler and another for line repeater Note As long as the coupler has not been assigned its own physical address it can cause malfunctions at the initial start up of other devices 4 2 Line coupler functional parameters Device 1 0 0 Philips Line Coupler KNX Configuration Group telegrams main line gt line filter Group telegrams line gt main line filter Main group 14 15 let through Repetitions if errors Yes on main line Tr Repetitions if errors Yes on line l S Telegram confirmation on main line only if let through Telegram confirmation on line only if let through 4 2 1 1 Group telegrams main line gt line This parameter defines how the line cou
48. the parameters illustrated below These parameters are used to enable disable the actions that the sensor will execute for motion control The Scene option is selected to implement the motion control routine described in the Scene X occupancy control example The Scene Count parameter defines the range of actual Scenes over which the sensor will operate motion control In the example scenes I 2 and 4 are used The scene count must be set to the highest scene number used in this case 4 Philips LightMaster 140 LightMaster Multifunction KNX Sensor Device 1 1 1 PLOS CM KNX General Settings Motion Control Enabled Enabled d Motion Control Settings Sean Scene i Scene 1 Scene 2 Scene Count 4 Scene 3 Scene 4 b Light Control Po Corridor Hold On 10 3 1 1 Motion Control Enabled To invoke motion control select Enabled from the drop down list of the Motion Control Enabled parameter Options Enabled Disabled 10 3 1 2 Actions Motion control actions Scene Level Switch and Timer are selected from the Actions parameter drop down list Combinations of these can be deployed by selecting the corresponding option from the drop down list Device 1 1 15 PLOS CM KNX General Settings 4 Motion Control Scene 1 Scene 2 Scene Count Level i Switch Scene 3 Timer Motion Control Scene 4 Scene Level N Scene Switch 4 Light Control Scene Timer Settings Level Switch Level Timer Light Sensing
49. to scene 1 allocate Ouput ON OFF gt gt Output is assigned to scene 1 allocate Ouput ON OFF gt gt Qutput is assigned to scene 1 allocate OQuput ON OFF gt gt Qutput is assigned to scene 1 allocate Quput ON OFF gt gt Qutput is assigned to scene 1 allocate Quput ON OFF gt gt Qutput is assigned to scene 1 allocate Ouput ON OFF gt gt Qutput is assigned to scene 1 allocate Ouput ON OFF gt gt Qutput is assigned to scene 1 allocate OQuput ON OFF 64 or mot 64 or not 64 or not 64 or not 64 or mot 64 or mot 64 or not 64 or not 64 or not 64 or mot Scene NO Not allocate lore 4 Not allocate orr Not allocate sooo Not allocate Not allocate orr Not eT OFF 4 The scene function is useful if room functions of various elements e g light heating blinds are to be synchronously changed To enable this the value must be assigned to the appropriate memory space Scene A L Up to five scenes can be programmed on each switch output In order to call up a particular scene the value for that scene must be sent to the groups object for the scene function In this context the value of the scene call up however is always one number lower than the pre set scene number The scene numbers can therefore have the values 64 but the
50. values of the call up for the scene may only be 0 63 Five scenes memories are available for each channel The 64 available scene numbers can be freely assigned to these five memories A scene will be called up if it receives a binary command bits 0 6 scene number bit 7 0 from the bus corresponding to a scene number The seventh bit of the dataset must always be 0 in this context Philips LightMaster 67 LightMaster Relay Actuators A scene will be stored if it receives a binary command bits 0 6 scene number bit 7 from the bus corresponding to a scene number The scene status remains unchanged The seventh bit of the dataset must always be in this context 6 2 6 1 Output is assigned to scene 64 or no allocated Not allocated Scene No 01 Scene No 02 Scene No 64 6 2 6 2 Output ON OFF Scene output ON OFF 6 2 7 Threshold function Device PORCI16FR KNX General EEEE_ _ anaana SSSS Threshold input type 1 byte 0 255 Channel A l S i Poo Astime a Acscene Enable threshold 2 value on bus o o Arthreshold A blinds gt Threshold 1 value is 0 255 a0 A logic Channel B gt Threshold 2 value is 0 255 120 Ca Channel C Channel D Threshold input 0 255 after bus voltage 0 recovery gt Input object value lt Lower threshold JON s gt Lower thr lt Object value lt Upper thr Unchange m gt Input object value gt Upper threshold
51. which means the effective time of the contact operation Options Oms 20ms 50ms Philips LightMaster 36 LightMaster KNX Dry Contact Interface 3 2 9 Parameter window Shutter control X The parameter window Shutter control X is shown in the following screenshot It is visible if the channel function Shutter control is selected When this function is enabled it is possible to control the shutter by one button switch or two button switch operation Device Universal Interfaces 4 fold General Settin ae g Function of the channel shutter Control Channel A Channel B Connect contact type normally open Channel Channel D Operation functionality type LED A LED B LED C Short Stop lamella UP MOVE Note about fuctionality Long Move UP MOVE LED D Reaction on short operation sTOP lamella UP Reaction on long operation MOVE UP Long operation after Debounce time 3 2 9 1 Parameter Connect contact type This parameter defines whether the contact at the input is a normally open or a normally closed Normally open is used as the example Options Normally open Normally closed Philips LightMaster 37 LightMaster KNX Dry Contact Interface 3 2 9 2 Parameter Operation functionality type This parameter defines the types of the shutter operations with a detailed description each function OPERATION FUNCTIONALITY push button sh
52. will be issued Consideration of an appropriate period should take into account the responsiveness of required level changes and the corresponding volume of network traffic generated 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 8 6 1 2 Max Update Period s The Max Update Period parameter sets the longest time interval that light level messages will be issued 8 6 1 3 Min Update Delta LUX The Min Update Delta parameter defines the minimum change in lighting level that is required from the last level issued before another will be issued If the change in lighting level has not exceeded the Min Update Delta but the time since the last level issued has reached the timeout period another level messaged will be issued Philips LightMaster 113 LightMaster DALI MultiMaster Controller 8 7PPMI4 DALI The Dry Contact Interface provides four programmable inputs to control devices on the DALI network Each channel can be independently configured for a wide variety of application areas such as e Scene For recalling and storing the states of several actuator groups e Level For dimming the lighting by sending absolute levels to the actuator channels e On Off For switching the lighting 8 7 1 PPMI4 DALI Switch X Settings Device 1 1 5 PDBC120 DALI KNX a PLOS CM DALI
53. 1 FE e Scene Range 1 Maximum 2 Activator 2 Timer 3 Philips LightMaster 167 LightMaster Multifunction KNX Sensor
54. 153 70 179 80 204 90 230 100 ON Philips LightMaster 84 LightMaster Relay Actuators 6 4 7 Byte PWM control Value x x 0 255 x 0 gt OFF Philips LightMaster 25 26 50 51 76 77 101 102 127 28 152 153 178 79 203 204 229 230 254 255 0 10 20 30 40 50 60 70 80 90 ON 85 LightMaster Relay Actuators Dimmer Actuators 7 LightMaster Dimmer Actuator e PDLPC416FR KNX Philips DIN Rail Lighting Protocol Controller 4 Channels x 16 AMPS Feed through Relays KNX e PLPC905GL 3 KNX LightMaster Structured Cabling Dimmer Controller 9 Channel 5 AMPS General Device Loading 3 Pin Output KNX e PLPC9O5GL 3 HD KNX LightMaster Structured Cabling Dimmer Controller 9 Channel 5 AMPS General Device Loading Heavy Duty Relay 3 Pin Output KNX e PLPC9O05GL 4 KNX LightMaster Structured Cabling Dimmer Controller 9 Channel 5 AMPS General Device Loading 4 Pin Output KNX e PLPC905GL 4 HD KNX LightMaster Structured Cabling Dimmer Controller 9 Channel 5 AMPS General Device Loading Heavy Duty Relay 4 Pin Output KNX 7 1 Currently under development Philips LightMaster 86 LightMaster Dimmer Actuator 8 LightMaster DALI MultiMaster Controller e PDBC120 DALI KNX LightMaster DALI MultiMaster Dimmer controller 64 DALI channels 10 MultiMaster devices 1 x 20 A relay e PLOS CM DALI MultiMaster Sensor e PPMI4 DALI MultiMa
55. 20ms 50ms Min operation A minimum operation time can only be set if there is no distinction between a short and long operation The parameter window for Min Operation is shown in Parameter Debounce time Philips LightMaster 25 LightMaster KNX Dry Contact Interface 3 2 5 Parameter window Scene control X Parameter window Scene control X is shown below It is visible when the function channel Scene control is selected This function enables the states of several actuator groups to be recalled and stored Device Universal Interfaces 4 fold General Setting Channel A Scene A Connect contact type normally open bed Channel B Channel Control the scene by 5 separate objects Channel O LED A Reaction on short operation Recall Scene LED B Store Scene on operation LED C eke ks Function of the channel Scene control ki LED D long operation after Debounce time Device Universal Interfaces 4 fold General Setting Channel A Channel B Channel C Channel D Control the scene by Sbit scene LED A LED B No of scene 0 63 Function of the channel Scene control Connect contact type normally open LEDC EDD Reaction on short operation Store Scene long operation after Debounce time Philips LightMaster 26 LightMaster KNX Dry Contact Interface 3 2 5 1 Parameter Connect contact type This parameter defines whether the contact at the input is
56. 3 Save statistics for ON switching time hour 2bytes Save statistics for ON switching time Saving statistics is useful for controlling and monitoring Options Enable Disable 6 2 3 4 gt Alarm for time out Use an alarm for time out Options Yes No 6 2 3 5 Alarm when time out 1 65535h 6 2 3 6 Alarm telegram interval when timer out 1 255s 6 2 3 7 Alarm telegram number 1 255 0 unlimited Philips LightMaster 59 LightMaster Relay Actuators Save statistic for ON switching time Enable x hour 2bytes gt Alanm for time out Yes x Alanm when time out 1 65535h 0000 Alanm telegram interval when timer out 10 1 255s Alarm telegram number 1 255 0 unlimited 9 6 2 3 8 Save statistics for ON switching counter 4bytes Save statistics for ON switching counter Saving statistics is useful for controlling and monitoring Options Enable Disable 6 2 3 9 gt Alarm for counter out Use an alarm for time out Options Yes No 6 2 3 10 Alarm when counter out 10 0000000 6 2 3 1 Alarm telegram interval when counter out 1 255s 6 2 3 12 Alarm telegram number 1 255 0 unlimited 4bytes gt Alanm for counter out Yes x Alarm when counter out 10 10000000 100000 Alanm telegram interval when counter out 10 1 2555 Alarm telegram number 1 255 0 unlimited 0 6 2 3 13 Switch status with bus power failure You can decide what happens in the event of a bus power
57. 32bit 2 147483648 2 147483647 3 2 7 4 Parameter Counter starts at The starting value of the absolute counter is defined in this parameter When the bus powers on it will calculate the new counter value from this preset starting value 3 2 7 5 Parameter Debounce time It can set the vibration time to prevent unwanted multiple operation by bouncing of contacts in vibration time which means the effective time of the contact operation Options 0Oms 20ms 50ms Min operation The parameter window for Min Operation is shown in Parameter Debounce time 3 2 7 6 Parameter Send object value after voltage recovery This parameter defines whether to send the current value after bus voltage recovery If the differential counter has been enabled it is also sent on the bus and it is reset to zero During bus voltage failure the standard counter and the differential counter are reset to the starting value the standard counter will calculate from the preset starting value Options Yes No 3 2 7 7 Parameter Enable additional options factor divider Cyclical send Additional functions are possible here If this parameter is set to yes the following parameter window is displayed Options Yes No Philips LightMaster 33 LightMaster KNX Dry Contact Interface Device Universal Interfaces 4 fold General Setting GC i Divider number of input pulse for 1 Channel A one counter step 1 32
58. 7 Parameter window Counter X 32 3 2 8 Parameter window Multiple operation Xx 35 3 2 9 Parameter window Shutter control X 37 3 2 10 Description of setting the system parameter in part of LED channel 40 3 2 11 Parameter window Switch X 4 3 2 12 Parameter window Control by input X 42 3 2 13 Parameter window Indicate object in X 43 3 2 14 Parameter window Indicate object out X 44 Philips LightMaster 3 2 15 Parameter window Indicate object in and out X 3 3 Description of group objects 4 3 3 1 Group object switch 3 3 2 Group object switch dimming 3 3 3 Group object value force output 3 3 4 Group object scene control 3 3 5 Group object switch sequence 3 3 6 Group object counter 3 3 7 Group object multiple operation 3 3 8 Group object shutter control 3 3 9 Group object LED X flashing 3 3 10 Group object LED X SWITCH LightMaster Line Coupler 4 1 Description 4 2 Configuration 5 4 2 1 Line coupler functional parameters 4 2 2 Line repeater functional parameters LightMaster Network Power Supply 5 1 Description 5 2 Configuration 6 LightMaster Relay Actuators 6 1 Description 6 1 1 Connections 6 2 Configuration 6 2 1 General 6 2 2 Channel N functional parameters 6 2 3 Channel as Switch actuator 6 2 4 Functions 6 2 5 Time function 6 2 6 Scene function 6 2 7 Thresh
59. 767 Counter A S TE Factorone counter step changes 1 cranna b counter value by 32768 32767 Cc Channel Chamel Send counter value cyclically Wes LED A i Base is LED B WEES Factor 1 255 30 LED D Enable differential counter Yes Over underrun of differential g S at 32768 32767 3 2 7 8 Parameter Divider number of input pulse for one counter step 32767 It can be set via this parameter how many pulses are necessary to generate a counting pulse The range of pulse importability 32767 3 2 7 9 Parameter Factor one counter step changes counter value by 32768 32767 This parameter defines how much the counter and differential counter should be increased by in the event of a counting pulse Range 32768 32767 3 2 7 10 Parameter Send counter value cyclically This parameter defines whether to send the current value cyclically If this parameter has the value ce yes the values of the counter and the differential counter are sent cyclically on the bus Options Yes No 3 2 7 1 Parameter Base Factor 1 255 It is visible if the parameter Send counter value cyclically is Yes This parameter is used to set the interval time between two telegrams that are sent cyclically Transmission cycle time Basex Factor Base options Is lOs Ih Factor options 255 3 2 7 12 Parameter Enable different counter This parameter define
60. A Differential Counter 1 Byte C W T Low a3 Request counter value A CH A Request counter value ibit C f Low Eja Differential counter overflo CH A Differential overflow rat G T Low m s Reset differential counter A CH A Rst differential counter Ibt C Y Low i CHX Counter valie Output counter value Ibyte X Ibyte l C W T I bit 2bit 4byte I bit 2bit 4byte This group object is used to transmit the current counting value of the standard counter and it can modify the counting value simultaneously Different data type makes the different counting range it is defines by parameter Date width of counter 3 CH X Differential Differential Counter Ibyte X l byte CWT Counter I bit 2bit 4byte I bit 2bit 4byte bah It is visible if enable the parameter Enable differential counter This group object is used to transmit the current counting value of the differential counter and it can modify the counting value simultaneously Different data type makes the different counting range it is defines by parameter Date width of counter 3 CH X Request Counter value This group object is used to ask for the current counting value of the standard counter and the differential counter The group object CH X Counter value and CH X Differential Counter will transmit the current counting value if receive a Request Counter value X bit C w logic value I it will no reaction if rece
61. ALI Device Settings Band 2 4 PLOS CM DALT 1 General Settings Recall Scene Motion Control Settings Scene 1 Band 2 Threshold Scene 2 Scene 3 Scene 4 Light Control Settings Open Loop Control Bands gt PPMI4 DALI 2 Band 1 Recall Scene Band 1 Threshold Band 3 Recall Scene 8 5 6 1 Band X This parameter enables or disables control in the scene Options No Action Execute Actions 8 5 6 2 Recall scene This parameter sets the scenes number that is recalled if the lux level is above the threshold 8 5 6 3 Band X Threshold The lux level defines the start of the next band not applicable for highest numbered band 8 5 6 4 Recall Level Device 1 1 1 PDOBC120 DALI KNX Scene 10 Scene 11 a Recall Level Scene 13 scene 14 Band 1 Threshold Scene 15 Scene 16 DALI Device Settings a PLOS CM DALT 1 Band 2 Execute Actions Band 1 General Settings Motion Control Settings Scene 1 Scene 2 Scene 3 Scene 4 Light Control Settings Band 3 Open Loop Control Recall Level Band 2 Threshold Recall Level Po PPMI4 DALI 2 Philips LightMaster Il LightMaster DALI MultiMaster Controller This parameter recalls an absolute channel level as a percentage 8 5 6 5 Switch Device 1 1 1 POBC120 DALI KNX Scene 9 Scene 10 Scene 11 Scene 12 Scene 13 Scene 14 Scene 15 Scene 16 DALI Device Settings Band 2 4 PLOS CM DALT 1 General Settings Switch Motion Control Settings Scene 1 Scene 2 Scene 3 Scen
62. ALI KNX DALT Actuators Actuator Scenes DALI Device Settings PLOS CM DALT 1 General Settings Motion Control Settings Scene 1 On No Motion Seme2 Scene 3 Scene 4 Light Control Settings PPMI4 DALI 2 Recall Scene Timeout 5 Finally the Vacant Scene 4 will need to be configured so that when motion is detected the sensor will recall the Occupied Scene Following are the parameter settings for Scene 4 to achieve this Device 1 1 1 PDBC120 DALI KNX DALT Actuators Actuator Scenes DALI Device Settings PLOS CM DALT 1 General Settings Motion Control Settings Scene 1 On No Motion Scene 2 Scene 3 ene Light Control Settings PPMI4 DALT 2 Philips LightMaster 100 LightMaster DALI MultiMaster Controller 8 4 3 Level motion control Another approach to motion control is for the sensor to set lighting in a group to specific levels in response to changes in occupancy An example would be to set lighting to 85 when motion is detected and 10 when no motion has been detected for 10 minutes Level Actions are used to achieve this To invoke level occupancy control in the Motion Control Settings Page select Enable Level from the available actions as illustrated below 7 Dewice 1 1 1 PDOBC120 DALI KNX DALI Actuators Actuator Scenes semasi Enable Scene ees o a PLOS CM DALI 1 General Settings Enable Level Enabled Actions Enable Switch Disabled sf Light Control Settings PPMI4 DALT 2 M
63. CH A Yalue lbit long l bit C I Low No Function Object name Data Flags 0 CH X Value Ibit Output Ibit X l bit CT I bit 2bit 4byte Ibit 2bit 4byte I bit 2bit 4byte This group object is used to transmit the input value It is only transmit the object value in short operation if distinguish a long and short operation The value range depends on the data type if the data type of the group object is different the importability range of the object value is different The data type depends on parameter Reaction on short operation CH X Value Ibit long Output Ibit long X bit CT lbit 2bit l4byte lbit 2bit l4byte lbit 2bit l4byte i This group object is visible if there is a distinction between long and short operation it is used to transmit the object input value in long operation The value range is depending on the data type if the data type of the group object is different the importability range of the object value is different The data type depends on parameter Reaction on long operation 3 3 4 Group object scene control The group object Scene control is shown in below It is including the actuator group and the group object in the scene control mode The control mode of actuator group control by 5 independent group object it is control by Ibit and 8bit data The scene control mode control by a 8 bit data Humber Hame Object Function Descer Group Addresses
64. Channel A this must chose Control by input Channel B Channel C Channel D LED A LED B LED LED D Function of the LED Channel 3 2 13 Parameter window Indicate object in XC The parameter window Indicate object in X is shown below the LED is used to indicate the input of the group object Device Universal Interfaces 4 fold Ge Setti a ts if LED function is enable in input lt NOTE Information Channel A this must chose Control by input Channel B Function of the LED Channel Channel Channel D LED A LED B LED C LED D LED on time 3 2 13 1 Parameter LED on time This parameter defines the indicative time of the LED when there is an input on the group object Options 00ms 200ms 60s Philips LightMaster 43 LightMaster KNX Dry Contact Interface 3 2 14 Parameter window Indicate object out X The parameter window Indicate object out X will be shown in Fig 20 the LED is used to indicate the output of the group object Device Universal Interfaces 4 fold General Setting if LED function is enable in input lt NOTE Information Channel A this must chose Control by input Channel B Function of the LED Channel indicate Object Out Channel C LEDA LED B LED C LED D Fig 20 Parameter window Indicate object out X 3 2 14 1 Parameter LED on time This parameter define
65. Control Settings f Timer 4 PPMI4 DALTI 2 DALI Switch Settings Timeout s Execute Actions top a Execute Achioms Start x 600 8 4 5 1 Timer This parameter starts or stops a timer by this action 8 4 5 2 Timeout s The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Philips LightMaster 103 LightMaster DALI MultiMaster Controller 8 5Light Control The objective of light control is to automatically maintain a specific lighting level which is generally so that it is appropriate for the tasks being conducted in the space of the group under control As with motion control the multifunction sensor also enables a set of Scenes to be defined as light level control Scenes Typically this would apply to all scenes except the OFF scene For example lighting in an enclosed office can be maintained at 400 lux when occupied as appropriate for normal office based tasks For a grace scene that is typically recalled immediately after the office is unoccupied a lighting level of 100 lux would be appropriate 8 5 1 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
66. Count The Scene Count parameter defines the range of actual Scenes over which the sensor will operate light control In the example only scenes and 2 require light control The scene count must be set to the highest scene number used in this case 4 Control is invoked in each scene by setting the respective Control in Scene parameter to Enabled from the drop down list Device 1 1 1 PLOS CM KNX General Settings Motion Control d Light Control Settings Closed Loop Control scene 1 Scene 2 Light Sensing Corridor Hold On Scene Count Min Update Period 5 Target Lux Level Dead Zone Decrement Steps Increment Steps Control in Scene 1 Control in Scene 2 Control in Scene 3 Control in Scene 4 So We Se H ee ee Ln i LA Enabled Disabled Disabled 10 4 3 3 Min Update Period s The Min Update Period parameter sets the shortest time interval that light level adjustment messages will be issued to the group under control Consideration of an appropriate period should take into account the responsiveness of required level changes and the corresponding volume of network traffic generated 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 110 4 3 4 Control in scene X This parameter s
67. Fal 6 Light Sensor Light Level 2Bytee C R T lux Lux Low 10 5 1 1 Min Update Period s The Min Update Period parameter sets the shortest time interval that light level messages will be issued Consideration of an appropriate period should take into account the responsiveness of required level changes and the corresponding volume of network traffic generated 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 10 5 1 2 Max Update Period s The Max Update Period parameter sets the longest time interval that light level messages will be issued 10 5 1 3 Max Update Delta LUX The Min Update Delta parameter defines the minimum change in lighting level that is required from the last level issued before another will be issued If the change in lighting level has not exceeded the Min Update Delta but the time since the last level issued has reached the timeout period another level messaged will be issued Philips LightMaster 159 LightMaster Multifunction KNX Sensor 10 6 Corridor Hold on With Corridor Hold on different dependencies can be created between Groups to perform functions such as e Corridor Hold on Group cascading e Background lighting for open plan offices e Automatic switch off timer Staircase timer e Out of hours timer e Switch off warning e Step over patterns
68. Hold On Philips LightMaster 145 LightMaster Multifunction KNX Sensor 10 3 3 Level motion control Another approach to motion control is for the sensor to set lighting in a group to specific levels in response to changes in occupancy An example would be to set lighting to 85 when motion is detected and 10 when no motion has been detected for 10 minutes Level Actions are used to achieve this To invoke level occupancy control in the Motion Control Settings page select Level from the Actions parameter drop down list as illustrated below Device 1 1 1 PLOS CM KNX General Settings d Motion Control l settings Actions Light Control Coridor Hold On Motion Control Enabled Actions Enabled Level The following group objects are provided when this function is selected a 0 Motion Sensor Scene a 1 Motion Sensor Absolute Level a 3 Motion Sensor Enable Disable a 6 Light Sensor Light Level 1 Byte 1 Byte 1 bit 2 Byte C amp G C scene number Low percentage 0 100 Low enable Low lux Lux Low The motion control behavior can be set by selecting Actions in the left hand column of the parameter page The page below appears after selection Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to Execute Actions from the drop down list as Device 1 1 1 PLOS CM KNX General Settings d Motio
69. KNX Philips LightMaster 87 LightMaster DALI MultiMaster Controller 8 2 Configuration The objects and parameters for the DALI MultiMaster Controller and DALI MultiMaster devices are outlined in this chapter The configuration of a DALI MultiMaster system is ideally completed in two phases Offline and Online Offline configuration steps Online configuration steps Enter controller parameters 5 Download All KNX information a Actuator count 6 Enumerate DALI network 5 Scene eourne c CO Presentation 7 Locate ballasts devices by flashing d Light levels and fade ti T DALI Device Settings ee 8 Assign short addresses to actuator channels and devices 2 Enter MultiMaster devi ters S l x E E PRERASTE 9 Save to Device and Write group data ry Contact 3 Create Group addresses for each function in 10 Maintenance Activities each area 4 Link group addresses to input objects and output objects The application table below lists the number of available group objects group addresses and connections for the DALI MultiMaster controller max number of group objects 254 i b f max number of group Addresses 252 i b f iati max number of associations 254 Philips LightMaster 88 LightMaster DALI MultiMaster Controller The PDBCI20 DALI KNX Controller allows lamps actuator channels and input devices to be grouped in any configuration within the constraints of KNX which overcomes the 6 group and 16 scene limits of
70. LI Actuator 3 On Ol Plug In R DALI Configuration X Execute Actions x y m2 8 DALI Actuator 3 Absolut T LE gt Add to Favorites paning Philips LightMaster 104 LightMaster DALI MultiMaster Controller 2 PDBC 170 DALI KNX Configuration Wizard DALI Control Gears and Devices Flash 4 Query Status E Link ka Remove Calibrate i About i ShowLog DALI Address Assigned To KNX Address Long Address Serial Number Device Code Control Gears E Devices H Sensors PLOS CM DALI Device 1 Online 11160822 1625029 Dry Contact Inputs i BE PPMI4 DALI Device 2 15168620 ig FPS 120 5 Avg FPS 972 OR ae ees 42 Enumerate All gF Reset Enumeration All E Read From Device la Gf Write Group Data Query Status All HE Sign On Devices g Finish Status The calibration plug in page displays as below PLOS CM KNX Sensor Calibration Connected Raw Level Current Lux 360 Reference Lux 635 Calibrate 0 Min 0 0 0 5 15 10 28 Max Raw Value 7000 Max Lux Value 500 a Polling Interval ims 1000 The Max Raw Value and Max Lux Value parameters define the upper limits of the graph within the page for display purposes only Adjust these as necessary to provide the preferred graphing resolution 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 Enter the measured value in the Reference Lux parameter
71. Le C E Y T U Data Type Pies Ejo Disable CH Disable l bit C E Low mi Qutput lbit Group A A CH A 11bit Group A l bt C F I1 U Low H2 Qutput lbit Group B A CH A 11bit Group B i bit C IT U Low Bak Qutput lbit Group C A CH A Ibit Group C i bit C T U Low Hija Output lbit Group D A CH A 1bit Group D li bit C IT U Low Gas Qutput lbit Group E A CH A Ibit Group E i bit C IT U Low Ge Store scene A CH A Store scene i bit C Ff I Low Humber Hame Object Function Descr Group Addresses ery C E Y T U Data Type Fe Eo Disable A CH A Disable l bit C ff gt Low m Qutput bit Group A A CH A Shit Group A i Byte C E T U Low Ez utput Sbit Group B A CH A Sbit Group B i Byte C E T U Low G3 Output Gbit Group A CH A Sbit Group C 1 Byte C W I U Low Eja Qutput Sbit Group D A CH A Sbit Group D i Byte C E T U Low Gs Output Sbit Group E A CH A Sbit Group E 1 Byte C E T U Low Function Object name Philips LightMaster 46 LightMaster KNX Dry Contact Interface Output bit 8bit Group A E X It is visible if parameter Control the scene selected 5 separate It is used to control the actuator group it can control by a I bit or 8 bit data set by parameter When saving the scene the value of object output bit 8bit group A E will be read and storage by bus When the bus voltage recovery the value of the object resume to the default value and the new storage va
72. OF 6 2 7 1 Threshold input type The threshold value function enables two threshold values to be set These two threshold values can be set between 0 and 255 for a byte threshold input type or 0 to 65535 for a 2 byte threshold input type The switching status changes once a corresponding value is received from the bus There are three ways in which threshold values can be activated Options byte 0 255 2 byte 0 65535 6 2 7 2 Enable threshold value on bus YES enables threshold value to be changed via the bus NO prohibits the change of threshold value via bus 6 2 7 3 Enable threshold 2 value on bus YES enables threshold value 2 to be changed via the bus NO prohibits the change of threshold value 2 via bus Philips LightMaster 68 LightMaster Relay Actuators 6 2 7 4 Threshold value is 0 255 The selection of the first threshold value is between the range of 0 255 The pre set value is 80 6 2 7 5 Threshold 2 value is 0 255 The selection of the second threshold value is between the range of 0 255 The preconfigured value is 180 6 2 7 6 Threshold input 0 255 after bus voltage recovery Upon bus voltage recovery the threshold input value is set to this value 6 2 7 7 Input object value lt lower threshold If the object value is less than the lower threshold value the switch will respond in accordance with the following options Options Unchanged ON OFF 6 2 7 8 Lower threshold
73. Panel Euro Style KNX group A group A rocker group B group A usage connected group C group D group A arrangement rocker For a single module only the group A rockers buttons are programmable with ETS For a double module the main module is always group A and the extension satellite module is group C Groups B and D are not used Device 1 1 1 Philips First Series Panel Euro Style KNX group A group A rocker group C usage group B group C group D Each group may be configured with one or two rockers physically Logically this is described as rocker or rocker left and rocker right In addition to the logical rocker functionality it is possible to consider a physical rocker as two buttons an upper button and a lower button With two physical rockers double rockers this leads to two buttons left and two buttons right Logical rocker functions allow the configuration of two physical buttons together Logical button functions allow the configuration of two physical buttons separately Device 1 1 1 Philips First Series Panel Euro Style KNX group A group A rocker group B group A usage connected group C group D group A arrangement two buttons rocker left rocker right rocker left two buttons right two buttons left rocker right two buttons left two buttons right Philips LightMaster 128
74. The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Device 1 1 1 PLOS CM KNX General Settings 4 Motion Control On Motion Action No Action Settings scene 1 Scene 2 On No Motion Action Execute Actions Scene 3 pa Scene 4 Recall Scene 2 Light Control Corridor Hold On Timeout s 600 es We Philips LightMaster 144 LightMaster Multifunction KNX Sensor For the example in the Grace Scene 2 the sensor must recall the Occupied Scene again if movement is detected within the Timeout period of 5 minutes otherwise the sensor must recall the Vacant Scene 4 Following are the parameter settings for Scene 2 to achieve this Device 1 1 1 PLOS CM KNX General Settings Moy E On Motion Action Execute Actions see Recall Scene 1 Scene 1 Scene 2 Scene 3 Scene 4 On No Motion Action Execute Actions b Light Control _ Coridor Hold On Recall Scene 4 Timeout s 300 Finally the Vacant Scene 4 will need to be configured so that when motion is detected the sensor will recall the Occupied Scene I Following are the parameter settings for Scene 4 to achieve this Device 1 1 1 PLOS CM KNX General Settings l i eS i l On Motion Action Execute Actions 4 Motion Control ee en Recall Scene 1 e Scene 1 Scene 2 Scene 3 Scene 4 On No Motion Action No Action d Light Control Ee settings Light Sensing b Coridor
75. This parameter defines whether the line repeater will re transmit a physical address telegram sent to the segment if it does not receive an acknowledgement Options No Yes 4 2 2 4 Repetitions if errors on segment in group telegrams This parameter defines whether the line repeater will re transmit a group telegram sent to the segment if it does not receive an acknowledgement Options No Yes Philips LightMaster 54 LightMaster Line Coupler Network Power Supplies 5 LightMaster Network Power Supply e PPS640 KNX LightMaster Network Power Supply 5 Description The 640ma power supply unit provides the system power necessary for the bus system The integrated choke prevents the data telegrams from short circuiting on the bus line The connection to the bus line is established by clicking the device onto the DIN rail installed data rail or by using the bus connection terminal red black on the front side The power supply unit can supply DC24V power from an additional pair of terminals yellow white This DC24V output voltage is only allowed to power an additional line via a separate choke It is a passive device that does not require programming 5 2Configuration Not Applicable Philips LightMaster 59 LightMaster Network Power Supply Relay Actuators 6 LightMaster Relay Actuators e PDRC416FR KNX 4 Channels x 230 VAC 16A e PDRC816FR KNX 8 Channels x 230 VAC x 16A e PDRC1216FR KNX 12 Channels x 230 VAC x
76. ace Control the scene via 8 bit scene On long operation After a long operation the object 8 bit scene sends a save command on the bus and thereby triggers the storing of the current scene in the actuators e g dimming actuator switch actuator Solis If object value I If the object Store scene X receives the value 1 the object 8 bit scene sends a save command on the bus and save the current scene wall leas On long operation and object value I If the object Store scene X receives the value on the bus the next long push button action triggers the sending of a save command via the object 8 bit scene the current scene will be saved When the object store scene X receives the value 0 end up the saving the value of current scene figs Provided that a has not been received at the object Store scene since the last save a long operation is interpreted in the same way as a short operation Control the scene via 5 separate objects On long operation As soon as a long operation is detected the object Store scene X sends the value I on the bus and the object Output bit 8bit group A E sends a read out telegram The objects Output bit 8bit group A E can be modified via the bus for the duration of the long operation Once the long operation has finished the object Store scene X sends the value 0 on the bus
77. ad Test the operation of each device with the aid of the ETS software Check that all the system functions are operating successfully 13 System Information Dry Contact Interfaces 3 LightMaster KNX Dry Contact Interface e PPMI4 KNX LightMaster Dry Contact Interface e PPMI4 DALI refer to DALI MultiMaster controller for configuration steps 3 1 Description The Dry Contact Interface provides four programmable inputs to control devices on the KNX network The extremely compact design enables the device to be inserted into a conventional 60 mm wiring box The Interface connects to the bus though the EIB connection terminals and requires no additional supply voltage ETS and associated database files are required to assign the physical address and set parameters 20VDC Philips LightMaster 14 LightMaster KNX Dry Contact Interface Each channel can be independently configured for a wide variety of application areas such as e Switch sensor For switching the lighting or scanning a floating contact Distinction between short long operation and cyclical sending of the contact state is possible e Switch dimming sensor For switching dimming the lighting start stop dimming and stepwise dimming as well as dimming via a single push button is possible e Value Forced operation For sending the value of different data types e g temperature values It is possible to send different values or data types for short long op
78. al Setti O if LED function is enable in input lt NOTE Information Channel A this must chose Control by input Channel B Function of the LED Channel Flashing Channel Channel D LED flashes if Object LED flashing 1 x LEDA LED B Time limit of LED control Yes LED C Sor LEDO Time limit base is Time limit factor 10 Cs 1 255 Send status by object No 2 Tele Status State of LED on bus voltage recovery OFF LED is switched ON for 400ms LED is switched OFF for ds i 3 2 10 2 Parameter Function of the LED channel This parameter defines the function of the LED channel The default parameter is Flashing function If No action is selected it means this channel disable Options No action Flashing Switch Control by input Indicate object in Indicate object out Indicate object in and out Philips LightMaster 40 LightMaster KNX Dry Contact Interface 3 2 10 3 Parameter LED Flashing if This parameter defines the mode of opening the LED flashing Options Object LED flashing 0 Object LED flashing 3 2 10 4 Parameter Time limit of LED control This parameter defines whether to enable the function to restrict the flashing of the LED Options Yes No 3 2 10 5 Parameter Time limit Basex Factor This parameter is visible if the time limit is active It is defines the time of LED flashing Base x Factor Base
79. and the current object values can t be modified On the long operation If the object Store scene X receives the value 0 on the bus even if the long operation has not finished the current object value also can t be modified fis If object value I If the object Store scene X receives the value 1 the object values Output bit 8bit group A E are read out via the bus While the object value is the objects Output bit 8bit group A E can be modified via the bus On receipt of the object value 0 the current object values can t be modified celles On long operation and object value I If the object Store scene X receives the value on the bus on the next long operation the object Output bit 8bit group A E sends a read out the telegram The objects Output bit 8bit group A E can be modified via the bus for the duration of the long operation After the end of the long operation the object values can t be modified the object store scene X will send value 0 On the long operation If the object Store scene X receives the value 0 on the bus even if the long operation has not finished the current object value also can t be modified ol ia Provided that a has not been received at the object Store scene X a long operation is interpreted in the same way as a short operation Philips LightMaster 28 L
80. and then click Calibrate 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 Note Where illumination levels are high raise the Max Raw Value and Max Lux Value scales to bring the graph traces within the visible range Philips LightMaster 105 LightMaster DALI MultiMaster Controller 8 5 2 Light Control Settings The application mode displayed depends on whether Open Loop or Closed Loop is enabled in the General Settings page Device 1 1 1 PDBC120 DALI KNX __ Light Control Settings Application Mode Closed Loop Control Open Loop Control Bands i PPMI4 DALI 2 8 5 3 Closed loop light control Closed loop lighting control should be used where the sensor is located within the same area of 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 for enclosed office spaces To invoke closed loop light control in the PLOS CM DALI General Settings Page enable Closed Loop Control from the Application Mode drop down list 8 5 3 1 Closed Loop Cont
81. annel Channel D Response of switch state ON OFF No respone x Save statistic for ON switching time Disable hour 2 bytes Save statistic for ON switching counter Disable 4bytes Switch state on bus voltage fail Unchange Switch state after bus voltage recovery Unchange Show function page gt gt No 6 2 2 1 Channel A work mode The function of the output N can accept 3 operating states Options Switch actuator Heating actuator Inactivated If Inactivated is selected the channel N function will then be invalid and one of the other two options can be employed Philips LightMaster 58 LightMaster Relay Actuators 6 2 3 Channel as Switch actuator Under Channel A work mode select Switch actuator to use the device as a switch actuator 6 2 3 1 Parameter Normally connected type This parameter defines whether the contact is a normally opened or normally closed Normally Opened is used in the example Options Normally Opened Normally Closed 6 2 3 2 Response of the switch state ON OFF This parameter decides the working mode by way of a response Options No response Continuous response Only after change If no response is selected the switch status will not be communicated If continuous response is selected the switch status will be continuously sent and with only after change the status will only be reported following performance of a change 6 2 3
82. as Qutput level 5 A CH A level 5 l bit E JT Low g e Level increments decrement A CH A Level increment decrement l bit C W Low I 5 CH X level I 1 5 Output level I 1 5 X l bit C T The number of the group object maximum 5 which the levels of switch set by parameter No of object The group object sent on bus is the object which is modified which the value of the group object had been changed The detail process will be described in the switching sequence parameter chapter CH X level level 6 increment decrement increment decrement X The group object level increment decrement X is used to increase decrease the level of the switch It will increase one level when sending and decrease a level when sending 0 The detail process will be describe in the switching sequence parameter chapter bit C w 3 3 6 Group object counter The group object Counter is shown in below Including standard counter and differential counter group object both these group objects are initiated counter by one operation and the counter range are the same but the counting are independent of each other Philips LightMaster 47 LightMaster KNX Dry Contact Interface Humber Hame Object Function Descr Group Addresses Le C R Y T U Data Type PE jo Disable A CH A Disable Lbit C Low map Output counter value lbyte A CH A Counter value 1 Byte C W T Low map Differential Count lbyte A CH
83. ation Philips LightMaster 123 LightMaster DALI MultiMaster Controller 8 9 8 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 Adding Ballasts Devices Removing Ballasts Devices Replacing Ballasts Devices Swapping Ballasts Devices Add Ballasts Devices To add new DALI Ballasts Devices first enumerate the universe by clicking the 3 Enumerate button When enumeration is complete any new ballasts devices found will appear in the list with the or FE image next to them New ballasts devices can be identified by selecting them and clicking the Flash button They can then be swapped to a different Actuator channel by clicking and dragging them onto the other channel To link a group address to a new ballast device click the Ea Link button Swap Ballasts Devices Philips LightMaster DALI addresses can be swapped to a different Ballast Device by dragging them onto another Ballast Device When finished click the lal Save to Device button 124 Remove Ballasts Devices To determine the online status of all DALI Ballasts click the Query Status All button To remove a DALI Ballast select it and click the gt R
84. ator Scenes a C DALI Device Settings Min Update Period s a lin Update Period s 4 PLOS CM DALI 1 ad G General Settings Grable Soene Motion Control Settings S Light Control Settings Enable Level Disabled Open Loop Control ar Enable Switch Disabled Bands PPMI4 DALT 2 Enable Timer Enabled nS Scene Count 4 Control in Scenel Enabled hd Control in Scene Enabled r Control in Scene3 Enabled bd Control in Scene4 Enabled had Open Loop Light Control actions follow the same conventions as outlined for Motion Control previously 8 5 5 2 Band Count The Band Count parameter sets the number of light level bands for which control actions can be defined 8 5 5 3 Min Update Period s The Min Update Period parameter sets the shortest time interval that light level adjustment messages will be issued to the group under control Consideration of an appropriate period should take into account the responsiveness of required level changes and the corresponding volume of network traffic generated For Open Loop Light Control the multifunction sensor can execute Scene Level Switch and Timer actions 8 5 5 4 Enable Scene This parameter enables or disables scene control parameters for each band Options Enabled Disabled Philips LightMaster 109 LightMaster DALI MultiMaster Controller 8 5 5 5 Enable Level This parameter enables or disables level control parameters for each band Options Enabled
85. ator channel can receive many group addresses Using the customer requirements you can identify the lighting functions required in each area A range of group addresses can be created for each function type scene absolute level relative level and switching and then expanded to include those functions in each area The example illustrates the naming of group addresses for typical lighting functions using three digit addressing r 0 office 0 1 Lighting Scenes 0 1 1 Reception Scenes O 1 2 Boardroom Scenes a 0 1 3 Open Plan Scenes 0 1 4 Training Room Scenes d 0 2 Absolute Levels 0 2 2 Boardroom Absolute Levels 0 3 Relative Levels 0 2 1 Reception Relative Levels F 0 4 Switching O 4 1 Reception Switching 0 4 2 Boardroom Switching 0 4 3 Open Plan Switching Philips LightMaster 115 LightMaster DALI MultiMaster Controller 8 8 2 Group Address Linking Group addresses must be linked to the input and output group objects of each device Group addresses can be linked by dragging and dropping the object onto the group address in ETS or from the Group Address Assignment Window in the DALI Configuration plug in Each group address must only be used with one Datapoint type After group addresses have been linked to all inputs and outputs the KNX application can be downloaded to the DALI MultiMaster controller The linked group addresses enable each input device such as an occupancy sensor or button press to trigger an action that
86. ber increases the rate of change 10 4 4 Scene X light control The light control parameters for each scene can be set by selecting the respective scene in the left hand column of the parameter page as shown below The light control parameters for each scene can be set by selecting the respective scene in the left hand column of the parameter page as shown below Device 1 1 1 PLOS CM KNx General Settings b Motion Control d Light Control Settings Setpoint LUX 400 og Max Level a5 4 Closed Loop Control Min Level ue Scene 1 Scene 2 Light Sensing Cormidor Hold On Device 1 1 1 PLOS CM KNx General Settings b Motion Control d Light Control Settings ac Setpoint LUX 200 Max Level 65 4 Closed Loop Control Min Level 4 f Scene 1 Scene 2 Light Sensing Coridor Hold On 10 4 4 1 Setpoint LUX The Setpoint LUX parameter defines the light level that the sensor seeks to achieve by adjusting the level of the associated group under control Philips LightMaster 153 LightMaster Multifunction KNX Sensor 10 4 4 2 Max Level The Max Level defines the upper percentage to which a channel can change to achieve the Setpoint LUX 10 4 4 3 Min Level The Min Level defines the lower percentage to which a channel can change to achieve the Setpoint LUX 10 4 5 Open loop light control Open loop lighting control should be used where the sensor is not loca
87. button value ha group B group C group D datatype subtype value 0 4794967295 For this function one KNX group object per button is provided The object is set to the predefined value Fi 0 A upper button va group A object 1 4Byte C T Low Fil 2 A lower button sw group A object 3 1 bit C T Low Philips LightMaster 138 LightMaster Switch Range Sensors 10 LightMaster Multifunction KNX Sensor e PLOS CM KNX 10 1 Description The Philips LightMaster KNX multifunction sensor combines motion detection PIR and ambient light level detection PE in the one device In applications such as homes lecture theatres and office towers universal sensors can be utilized to detect motion and switch on the lights This chapter covers the set up and configuration of the universal sensor in ETS The multifunction sensor is an integrated energy management sensor and group controller Sensor functions include e Occupancy detection e Light Level regulation When rooms are unoccupied lights can be automatically dimmed or switched off to provide energy savings In situations where it is critical to maintain precise lighting levels for individual workspaces such as a flight control tower or office workstation the multifunction sensor facilitates light compensation The multifunction sensor can be placed in an automatic Daylight Harvesting mode for energy savings Key point The multifunction sensor
88. byte w171 17 xx ID 17 LengthlnBit 8 DPT_SceneNumber ID 1 1 Lighting Scenes Dry Contact 2 Switch B Absolute Level 1 byte 5 200 ID 5 LengthInBit 8 DPT Sealing ID 1 1 Reception Scenes Dry Contact 2 Switch C On Of 1 bit Tx ID 1 LengthInBit 1 DPT_Switch ID 1 2 Boardroom Scenes 3 Open Plan Scenes 4 Training Room Scenes H 2 Absolute Levels H 3 Relative Levels H 4 Switching Philips LightMaster 122 LightMaster DALI MultiMaster Controller 8 9 7 Save to Device and Write Group Data When saving the configuration data for a DALI MultiMaster system the data is saved in three steps Download Application writes the KNX configuration to the controller Saving to device saves the DALI address assignments to the controller Write group data gives each ballast a DALI group address based on the KNX group addressing 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 Downloads the KNX application to MultiMaster controller Save to Device Assigns DALI addresses to actuator channels and devices Write Group Data Writes DALI group addresses and DALI scenes to ballasts Note To factory reset a DALI MultiMaster controller you need to click Reset Enumeration All in the Plug in and then right click the controller and select unload Applic
89. c send Tele Tele Switch This parameter is visible if there is no distinction between a short and long operation It is able to set whether to send the current value of object Tele Switch X cyclically on the bus Options No Always If switch off If switch on lf the parameter value always is selected the object sends cyclically on the bus regardless of its value is O or I If the parameter value if switch off or if switch on is set only the corresponding object value is sent cyclically 3 2 2 4 Parameters Reaction on closing the contact rising edge Reaction on opening the contact fall edge These two parameters are visible if there is no distinction between a short and long operation It can be set to operate on opening and or closing the contact Options No action OFF ON TOGGLE stop cyclic send If the parameter Toggle is selected it negates the operation that means negate the current value For example if On is selected negate will carry out Off operation If the parameter Stop cyclic transmission is selected it will stop the cyclical sending telegram till there is a new object value to be sent If the parameter No action is selected it will not implement any operation 3 2 2 5 Parameter Interval of Tele Cyclic send Base x Factor This parameter is used to set the interval time between two telegrams that are sent cyclically it is visibl
90. cademy Philips LightMaster About this Guide 3Related Documents The following PDF documents are available for download via the web at http www philips com knx Philips LightMaster Philips LightMaster Philips LjghtMaster PHILIPS PHILIPS PHILIPS Application Guide Commissioning Guide Service Manual PHELPS ry ii O ams Installation Manuals Data Sheets Philips LightMaster 6 About this Guide 4 Technical Support Contacts Contact Controls Systems amp Services Philips Lighting call desk for assistance with hardware or software questions 4 1 Phone Call desk 800 7445 4775 Europe Call desk 61 2 8338 9899 Australia New Zealand 4 2 Email knx info philips com 1 4 3 Web http www philips com knx S5Conventions Caution highlights safety issues or where there is a risk of permanent damage to equipment Note highlights important factors you need to consider Tip highlights shortcuts accepted conventions and best practice Philips LightMaster 7 About this Guide Intentionally Blank Philips LightMaster 8 About this Guide 2 System Information Philips LightMaster makes use of industry standard solutions and convergent technology to produce lighting control functions that are both simple to operate and intuitive to commission By adding acknowledged lighting and controls expertise Philips LightMaster provides outstanding functional integration between the KNX and
91. ch senden Ausgang 4 kanal Ausgang Ausgang R ckmeldung Schall Ausgang 4 Statistik F r AM Sch Ausgang 4 Treppentlichtdauer Ausgang 4 Warnung Treppenli Ausgang 4 Szene C bity Ausgang 4 Schwellenwert Eing Ausgang 4 nderung Schwelle Ausgang 4 nderung Schwelle Ausgang 4 Jalousie ffnen Ausgang 4 Jalousie schlieGen Ausgang 4 Logik verbindung 1 Ausgang Logik verbindung 2 Ezo Ausgang kanal Ausgang Ausgang D kanal Ausgang allgemein Ausgang 4 Ausgang 4 Ausgang 4 usgang amp usgang 4 usgang 4 usgang 4 usgang 4 usgang amp usgang 4 usgang 4 usgang 4 Ausgang Ausgang _ 4usgang zyklisch senden kanal Ausgang R ckmeldung Schaltzustand Statistik Far AMN Schaltung Treppenlichtdauer Warnung Treppenlicht Szene bith Schwellenwert Eingang Anderung Schwellenwert 1 Anderung Schwellenwert 2 Jalousie ffnen Jalousie schliehen Logik verbindung 1 Logik verbindung 2 kanal Ausgang Kanal Ausgang 1 bit 1 bit 1 bit 2 Byte 2 Byte 1 bit 1 Eyte 1 Eyte 1 Eyte 1 Eyte 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit ran AOR FR FRO OF OOF OOOO OR Lia un now ut un in i E fit P EPPPEPPPPEPEPEPDP Function Data types EISI I Output N Switch status response C RA DPT 1 001 l bit This object is used to respond to the switch status of channel N For channel ON the response is I otherwise
92. ch the correct Actuator Channel numbers and Device numbers Assign short addresses to Actuator Channel Device numbers Click and drag the DALI address that is at the required location to the correct Actuator Channel Device number 2 The DALI address is moved to the correct Actuator Channel Device number and shows the amp swap assignment icon and previous assignment in brackets 3 Repeat moving procedure until all DALI addresses are assigned to the correct Actuator Channel Device numbers Tip click lal Save to Device to resolve the assignments and refresh the window 8 9 6 Group Address Assignment Window The Group Address Assignment Window provides an alternative view for linking group objects to group addresses This function can also be performed natively in ETS by dragging group objects to the required group addresses Group Address Assignment E BE MainGroups Name ociations Data Sub Type 0 Office DALI Actuator 1 Scene 1 byte oes 17 xa ID 1 LengthinBit 8 DFT_SceneNumber ID 1 1 Lighting Scenes DALI Actuator 1 On Off 1 bit 04 1200 lD 1 LengthinBit 1 DPT Switch ID 1 1 Reception Scenes DALI Actuator 1 Relative Level Control 0 371 3200 ID 3 Length In Bit 4 DPT_Control_ Dimming ID 2 Boardroom Scenes 3 Open Plan Scenes 4 Training Room Scenes El Absolute Levels 2 Boardroom Absolute Level 3 Relative Levels 1 Reception Relative Scene El 4 Switching 1 Reception Switching
93. ciations The Dry Contact Interface has the following capabilities Binary Input display 4f l 40 80 80 Philips LightMaster I5 LightMaster KNX Dry Contact Interface 3 2 1 General Settings Parameters for the functions that affect the entire device are set via the general settings Device Universal Interfaces 4 fold General Setting Channel A Limit number of Tele Wes Channel B Period Channel C Channel D Max Number Tele within a period 70 LED A 1 255 LED B LED C LED D Wt Le E 3 2 1 1 Parameter Limit number of Tele This parameter limits the number of sent telegrams to decrease the burden on the bus It is possible to set how many telegrams can be sent within an adjustment period Options Yes No 3 2 1 2 Parameter Period It is able to set the limit time of sending telegrams Options 00ms 500ms Is Imin lOmin 3 2 1 3 Parameter Max Number Tele Within a period I 255 It is able to set the maximum number of sending telegrams within a setting period Options 255 Philips LightMaster l6 LightMaster KNX Dry Contact Interface 3 2 2 Parameter window Switch X 52 2 Distinction between long and short operation No Device Universal Interfaces 4 fold General Settin a Function of the channel i Channel A Channel B Distinction between long and Channel C short
94. ck the Windows Start Button and select KNX Firmware Download from the Dynalite gt KNX Firmware Download folder 3 Click find devices from the Network menu KNX Firmware Download i Network Devices 7 About Address Mask Version Manufacturer Id Order Id Device Code Bootloader Version Bootloader Running Firmware Status Firmware Version Download Status Firmware image path 4 Select appropriate configured connection if applicable Find Devices and click OK in the ETS Connection Manager dialogue Existing device Individual address 5 In the Find Devices dialogue a Enter the Individual address of the device and a sssesemoe click add device r b Scan Network by entering address with mask character or In address XX XX XXX the substitutes for a single digit and the substitutes Device s in Programming Mode Find Device s for all digits in the address level c Press the programming button on the device and click the Find Devices button 6 When found the device s should appear in the upper list in the main window 7 Click the Close button 8 Select the devices that require updating multi select is available 9 Click Download Firmware to Selected Devices from the Devices menu ensure devices are all of the same type 10 Navigate to the firmware file dfw select the file and click the Open button 1 Click the Confirm button in the download firmware dialogue 2 The download status percentag
95. configure the physical push button to set the object to ON OFF or TOGGLE ON followed by OFF followed by ON and so forth for pressing and releasing Philips LightMaster 135 LightMaster Switch Range 9 2 Device 1 1 1 Philips First Series Panel Euro Style KNX group A name of button max 16 chars A upper button group A upper button group A lower button function of button switching extended not FacilityWeb group B group C no action action when releasing button For this function one KNX group object per button is provided mZ 0 A upper button SA n A object 1 1 bit c T tow Fal 2 A lower button sw group A object 3 1 bit a e gt s Low Push Button Function Scene This logical function configures one single physical push button to set one KNX group object to a predefined scene number One scene number has to be configured for the button Usually scene numbers in the range of to 8 are used But it is also possible to specify scene numbers up to 128 Parameters allow you to configure whether the scene may be CALLED only or with a short and long keystroke CALLED and STORED in the device which receives the scene telegram Device 1 1 1 Philips First Series Panel Euro Style KNX group A name of rocker max 16 chars group A rocker group B function of rocker group E group D scene number upper button 1 128 scene number lower button 1 128 save scenes wi
96. contact is a normally open or a normally closed Normally open is used in the example Options Normally open Normally closed 3 2 2 1 Parameter Reaction on short operation or Reaction on long operation These parameters are visible when there is a distinction between a short and long operation It is able to independently set actions based on either a short or a long operation When the button operation is confirmed as a short or a long operation the object value is updated immediately Options No action OFF ON TOGGLE 3 2 2 12 Parameter Long operation after Basex Factor This parameter is visible if there is a distinction between a short and long operation The effective time of the contact operation is Base x Factor The period after which an operation is interpreted as long TL Base Factor Base options 00s Is Ih Factor options 2 255 3 2 2 13 Parameter Number of objects for short long object operation This parameter is visible if there is a distinction between a short and long operation It is able to set one or two group objects Philips LightMaster 20 LightMaster KNX Dry Contact Interface e When one group object is set long and short operations share one group object e When two group objects are set long and short operations each use a separate group object Options object 2 objects 3 2 3 Parameter window Switch dimming X Parameter window Switch dimm
97. d integer offers an input range of 32768 32767 e A selected subtype of 6bit float offers an input range of 671088 670760 Device 1 1 1 Philips First Series Panel Euro Style KNX group A group A rocker group B group C group D name of rocker max 16 chars function of rocker datatype upper button subtype upper button value upper button 0 65535 datatype lower button subtype lower button value lower button 0 245 A rocker Values EIS10 16bit unsigned integer H510 16bit unsigned integer EIS10 16bit signed integer EIS5 16bit float 1Byte w input range 0 255 es If 4Byte is selected three subtypes are available for specifying the value e A selected subtype of 32bit unsigned integer offers an input range of 0 4294967295 e A selected subtype of 32bit signed integer offers an input range of 2147483648 2 147483647 e A selected subtype of 32bit float offers an input range of 99999999 9999999 Philips LightMaster 134 LightMaster Switch Range Device 1 1 1 Philips First Series Panel Euro Style KNX group A name of rocker max 16 chars A rocker group A rocker group B function of rocker values group C group D datatype upper button subtype upper button value upper button EIS11 32bit signed integer 0 429496 7295 EIS9 32bit float IEEE 5 4 datatype lower button Y subtype lower button Input range 0 255 value lower b
98. ddress 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 Enables manual identification of DALI MultiMaster devices such as sensors and dry contacts Can be used in place of flashing to locate devices flashing is not available for dry contact devices Click this icon then press the service switch on the DALI device The J sign on icon is displayed next to the corresponding device E Finish Closes the Configuration Wizard Window Philips LightMaster 118 LightMaster DALI MultiMaster Controller 8 9 2 Control Gears and Devices Toolbar Selecting an enumerated ballast device enables disables specific buttons on the Control Gears and Devices Toolbar above the main configuration page Flash and 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 0 and 100 This information is then used to determine group address links for commissioning E gt Query Status Queries the status of the selected ballast device 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 L
99. ded for enclosed office spaces To invoke closed loop light control in the Light Control Settings page select Closed Loop Control from the Application Mode drop down list as illustrated below Device 1 1 1 PLOS CM KNX General Settings Motion Control d Light Control Application Mode settings Closed Loop Control Light Sensing eo Coridor Hold On Closed Loo p Control m The following group objects are provided when this function is selected E 5 Light Sensor Scene E 6 Light Sensor Light Level a T Light Sensor Absolute Level a 10 Light Sensor Enable Disable 10 4 3 1 Closed Loop Control 1 Byte 2 Byte 1 Byte 1 bit C R Wo T scene number Low C R T lux Lux Low C R T percentage 0 100 Low C R W enable Low The light control behavior can be set by selecting Closed Loop Control in the left hand column of the parameter page The page below appears after selection Device 1 1 1 PLOS CM KNX General Settings l Motion Control d Light Control Settings Scene Count Min Update Period s Closed Loop Control light Sensing Target Lux Level Dead Zone oO Corridor Hold On Decrement Steps Increment Steps Control in Scene 1 Control in Scene 2 Control in Scene 3 Control in Scene 4 Philips LightMaster 51 4 f z 20 s z 25 Disabled m Disabled m Disabled m Disabled LightMaster Multifunction KNX Sensor 10 4 3 2 Scene
100. e 6 2 9 3 Object Value of logic connection after bus voltage recovery The selection of the value is triggered by the restoration of the bus power supply the following options are available to you 0 Initialization of Conl with 0 Initialization of Conl with 6 2 9 4 Result of logic block inverted lf this parameter is set to YES the output from block will be inverted NO on the other hand will result in no change 6 2 9 5 Logic connection 2 enable The logic connection Block 2 can be enabled or disabled using this option 6 2 9 6 Function of logic block 2 The logic block enables the user to choose between Boolean operations such as AN D OR XOR or GATE e Boolean AND 00 0 0 1 0 10 0 1 I e Boolean OR 00 0 OI 1 1O 1 I e Boolean XOR 00 0 OI1 I 10 1 I 1 0 e GATE N can only pass the logic block if the value has been configured for Con2 The output of logic Block2 remains unchanged for this time Philips LightMaster 72 LightMaster Relay Actuators 6 2 9 7 Object Value of logic connection after bus voltage recovery The selection of the value is triggered by the restoration of the bus power supply the following options are available to you 0 Initialization of Con2 with 0 Initialization of Con with 6 2 9 8 Result of logic block inverted If this parameter is set to YES the output from block 2 will be inverted NO on the other ha
101. e 4 Light Control Settings Open Loop Control Band 2 Threshold panes gt PPMI4 DALI 2 This parameter turns the lights ON or OFF Options On Off 8 5 6 6 Timer Device 1 1 1 POBC120 DALI KNX Scene 9 Scene 10 Scene 11 Scene 12 Scene 13 Scene 14 Scene 15 Scene 16 DALI Device Settings Band 2 4 PLOS CM DALT 1 General Settings Timer Motion Control Settings Scene 1 Scene 2 Scene 3 Scene 4 Light Control Settings Open Loop Control Band 2 Threshold Ded is This parameter starts or stops a delay timer Options Start Stop Philips LightMaster 112 LightMaster DALI MultiMaster Controller 8 6Light Sensing The multifunction sensor can also transmit the actual light level it is sensing to other network devices for example a third party LCD page or dimming controller with light level input The light sensing behavior can be set by selecting Light Sensing in the left hand column of the parameter page The page below appears after selection Device 1 1 5 PDBC120 DALI KNX Scene 3 Scene 4 Min Update Period s 5 Light Control Settings Open Loop Control Max Update Period s 30 Bands I 5 Light Sensing Min Update Delta LUX 16 d PPMI4 DALI 2 The following group object is provided when this function is selected E 195 Sensor 1 Lux Sensor 2 Bte C R T lux Lux Low 8 6 1 1 Min Update Period s The Min Update Period parameter sets the shortest time interval that light level messages
102. e first channel for blind opens is currently the active channel Channel N N current channel N A B C opens the blind 6 2 8 2 Blinds Down l value Another channel can now be designated for the blind closing function This should be deactivated as shown in in the screenshot to prevent any dual assignment Note If the first channel is A and the maximum number of channels is 4 then only B C or D may be selected as the second channel 6 2 8 3 Control mode Options Move UP Down and Adjustment Move UP Down Philips LightMaster 70 LightMaster Relay Actuators The Move UP Down and Adjustment parameter provides the ability to move the blinds fully up or down in the predefined time User is also given the option to set the predefined adjustment time for a small blind movement The Move UP Down parameter provides the ability to move the blinds fully up or down in the predefined time No small adjustment is possible 6 2 8 4 Adjustment time The Adjustment time parameter is used to select the adjustment time to control the blinds for small adjustments 6 2 8 5 Delay time for running direction changed Whenever user changes the direction of the blind this delay time is imposed 6 2 8 6 Moving time 2 65535 s This parameter sets the blind open or close full travel time 6 2 9 Logic function Device PORC416FR KNX General Channel A A function A logic Channel B Channel C Channe
103. e if cyclical sending has been set Transmission cycle time Base x Factor Base options Is lOs Ih Factor options 255 3 2 2 6 Parameter Send object value after voltage recovery if yes not equal toggle This can be set whether to send the value of the object Tele Switch X on the bus after voltage recovery this parameter is visible if there is no distinction between a short and long operation Options Yes No Note If the parameter Yes is selected it will send the current value of the object Tele Switch X on the bus Only when the value Toggle has not been set in either of the two parameters Reaction on opening closing the contact the value of the object Tele Switch X can be sent on the bus If one of the two parameters has the value TOGGLE no values are sent in general on the bus after bus voltage recovery If No reaction or Stop cyclic send is selected no values are sent on the bus either 3 2 2 7 Parameter LED function set This parameter sets the LED direction to indicate the status according to the object Tele Switch X There are 4 LEDs A B C D to choose each LED has 2 options Philips LightMaster 18 LightMaster KNX Dry Contact Interface e Ifthe parameter LED X accord to switch value is selected the LED status will be the same as the current value of the object Tele Switch X ie LED A will light when switch value of
104. e is displayed in the upper window list for each device 13 Other devices can be selected while downloading Note Firmware for multiple devices can be downloaded in parallel It is not necessary for devices to be in programming mode for firmware download Philips LightMaster 12 System Information Connection mode Physically these two connections are implemented in the same way Connectionless mode is preferable in a well controlled environment Even though it is less secure it is about 50 faster However if you are in Connection Mode an operational environment and you wish to have a Connectionless more secure connection use the Connection oriented mode While a download is being performed in Connection oriented mode another user cannot access the device and there for cannot interrupt the download Note By default Connection oriented mode is selected 2 6 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 Philips LightMaster Press program button on each device red program LED lights Load the physical addresses from the ETS software via the interface red LED goes out when it is connected successfully Enter applicable group addresses and object parameters Download application into each device Switch on mains voltage to the lighting lo
105. e keystroke A long keystroke affects the first object to perform moving up or moving down a blind or shutter For moving DOWN a telegram is sent for moving UP a 0 telegram is sent A short keystroke affects the second object to move a louver UP or DOWN Parameters allow you to configure which physical push button is for moving UP and which is for moving DOWN The time for a long keystroke may also be configured Philips LightMaster I3 LightMaster Switch Range Device 1 1 1 Philips First Series Panel Euro Style KNX group A A rock name of rocker max 16 chars A rocker group A rocker group function of rocker blind shutter group C group D action of rocker top UP bottom DOWN for short long keystroke ras no action top DOWN bottom UP top UP bottom DOWN time for long keystroke 200 10000 ms For this function two KNX group objects are provided The first object is the MOVE rocker UP DOWN object and is controlled by a long keystroke of the corresponding button The second object is the STEP rocker louvre object to move the louver and is controlled by a short keystroke of the corresponding button Fil 0 A rocker UP DOW group A object 1 1 bit C T Low Fi 1 A rocker louvre group A object 2 1 bit 2 Low 9 2 6 Rocker Function Scene This logical function configures two physical push buttons top and bottom button to set one KNX group object to a pred
106. ed for 5 minutes The Grace Scene Scene 2 actions should be to revert to the Occupied Scene Scene when motion is detected or fall back to the Vacant Scene Scene 4 when there is no motion detected for the Timeout period 8 4 2 3 Vacant Scene action Motion Detected The Vacant Scene Scene 4 actions should recall the Occupied Scene Scene when motion is detected No Action should be configured for the No Motion Action The motion control behavior for each scene can be set by selecting the respective scene in the left hand column of the parameter page The page below appears when Scene is selected Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to execute actions from the drop down list as shown below Philips LightMaster 98 LightMaster DALI MultiMaster Controller Device 1 1 1 PDOBC120 DALI KNX DALI Actuators On Motion Execute Actions Actuator Scenes DALI Device Settings Recall ace i 4 PLOS CM DALT 1 General Settings Motion Control Settings Scene 1 On No Motion Execute Actions Scene 2 erp Recall Scene 7 Scene 4 Timeout 5 600 L Light Control Settings i C PPMI4 DALT 2 8 4 2 4 On Motion The On Motion Action permits an action Scene Level Switch and or Timer action to be recalled as enabled in the Motion Control Settings page Options No Action Execute Actions
107. ed for each of the Actuator Channels Device The group objects can be subsequently used for the assignment of group addresses 8 10 DALI Actuator X Objects Number Name Object Function Description Length lc R w lz lu Data Type Priority a 0 DALT Actuator 1 Scene 1 Byte C R W scene number Low Fal 1 DALI Actuator 1 Absolute Level Control l Byte C R W percentage 0 100 5 Low a 2 DALI Actuator 1 Relative Level Control 4 bit Cc W dimming control Low Pa 3 DALI Actuator 2 On Off 1 bit C R W on off Low 8 10 2 Sensor X Objects Number a Name Object Function Description Length lc R w E u Data Type Priority a 192 Sensor 1 Scene 1 Byte Cc R wW T scene number Low a 193 Sensor 1 Absoulte Level 1l Bte C R W T U percentage 0 100 Low P 194 Sensor 1 Timer Start Stop 1 bit C FR T start stop Low 1 bit C R T on off Low r 195 Sensor 1 On Off 8 10 3 Dry Contact X Objects Number Name Object Function Description _ Length R Wi T U Data Type Priority a 196 Dry Contact 2 Switch A Scene Control l Bte C R wW T scene number Low Pi 197 Dry Contact 2 Switch B Absolute Level 1 Byte CE R W T percentage 0 100 Low 1 bit C R W T on off Low a 198 Dry Contact 2 Switch C On Of 8 10 4 DALI Actuator Failure Objects Number Name Object Function Description Length lc R w E lu Data Type Priority Pi 22 DALI Actuator Lamp Failure 1 bit C R T
108. efined scene number One scene number has to be configured for each button Usually scene numbers in the range of to 8 are used But it is also possible to specify scene numbers up to 128 Parameters allow you to configure whether the scene may be CALLED only or with a short and long keystroke CALLED and STORED in the device which receives the scene telegram Device 1 1 1 Kopp HKOL HKOS pushbutton 4x2f type A FacilityWeb group A i name of rocker max 16 chars A rocker group rocker group B function of rocker scenes ti group C group D scene number upper button 1 8 1 scene number lower button 1 8 2 save scenes with long keystroke For this function one KNX group object is provided Philips LightMaster 132 LightMaster Switch Range The object is set to the scene number selected by the corresponding button Fal 0 rocker scene group A object 1 Byte C Low 9 2 7 Rocker Function Value This logical function configures two physical push buttons top and bottom button to set two KNX group objects to a predefined value The upper button affects the first object the lower button affects the second object The Datapoint type for the KNX value objects is configurable It may be Byte 2Byte or 4Byte Device 1 1 1 Philips First Series Panel Euro Style KNX group A l name of rocker max 16 chars A rocker group A rocker group function
109. emove button An image will be shown next to the DALI physical channel to indicate it has been marked for removal When finished click the lal Save to Device button to remove all ballasts marked for removal from the DALI controller Replace Ballasts Devices To determine the online status of all DALI Ballasts Devices click the gt Query Status All button Select the offline DALI ballasts to be replaced and click the 2 Remove button An gt image will be shown next to the DALI Ballast Channel to indicate it has been marked for removal Click the lal Save to Device button to remove the marked for removal ballasts from the DALI controller Add the new replacement ballasts by clicking the 4 Enumerate button When the enumeration is complete any new Ballasts Devices found will appear in the list with the M or E 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 H sign on button for Dry Contacts These can then be swapped to a different short address by dragging them onto another Actuator Channel Device When finished click the lz Save to Device button LightMaster DALI MultiMaster Controller 8 10 Description of MultiMaster group objects In this section we list the group objects You will be able to see these objects if you have enabled the function Depending on the function selected the relevant group objects will be display
110. eration or to activate deactivate actuators e Control scene For recalling and storing the states of several actuator groups The actuator groups can either be controlled via maximum of five individual objects or via an 8 bit scene object e Switching sequence For the operation of several actuator groups in a preselected sequence e g a latching relay e Counter For counting input pulses Various data types for the counter can be set The counting rate can be set sending the current counting values cyclically and a differential count when an additional counter is enabled The differential counter can be reset and run a report to count daily consumption e Push button with multiple operations For triggering various functions depending on the frequency of the operation A long operation can also be detected to trigger a function e Shutter sensor For movement and adjustment of a shutter or blind Eight preset operation modes are possible e Control LED For controlling a light emitting diode indicator with switching and or flashing It can turn off automatically after a preset time and the flashing rate can be set 3 2Configuration The device objects and parameters and are outlined in this section The objects and parameters for each channel are equivalent and described in the following sections using output A as an example The application table lists the number of available group objects group addresses and asso
111. etection 10 3 1 Motion Control Settings 10 3 2 Scene X motion control 10 3 3 Level motion control 10 3 4 Switch motion control 10 3 5 Timer motion control 10 4 Light Control 10 4 1 Calibrating the sensor 10 4 2 Light Control Settings 10 4 3 Closed loop light control 10 4 4 Scene X light control 10 4 5 Open loop light control 10 4 6 Bands 10 5 Light Sensing 10 6 Corridor Hold on 10 6 2 Corridor Hold on Settings 130 31 132 133 135 135 135 136 137 10 LightMaster Multifunction KNX Sensor 139 139 140 140 140 140 142 146 147 148 149 149 150 5 153 154 156 159 160 162 About this Guide Topics 2 System Information 3 Dry Contact Interfaces 4 Line Couplers 5 Network Power Supplies 6 Relay Actuators 7 Dimmer Actuators 8 DALI MultiMaster Controller 9 Switch Range 10 Sensors 2References The Philips LightMaster range of products complies with international standards KNX ISO IEC 14543 3 and EMC standard electromagnetic compatibility elektromagnetische Kompatibilit t 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 A
112. ets in which scenes closed loop control will operate The number of parameters visible depends on the scene count This parameter enables or disables the scenes used for control Options Enabled Disabled 10 4 3 5 Target Lux Level Deadzone This parameter sets the size of the sensed Lux level zone above the target Lux level within which the sensor will not make changes to the light level It can also be referred to as the hysteresis zone For example if the sensor has a target Lux level of 300 Lux and a Lux level deadzone of 20 Lux the sensor will not make light level changes when it senses a Lux level between 300 and 320 Lux Philips LightMaster 152 LightMaster Multifunction KNX Sensor 0 4 3 6 Decrement Steps Defines the rate that the channel level decreases This parameter sets the size of light level steps the sensor will reduce the light level by when the sensed lux level is higher than the target lux level The default value is 5 and should suit most applications It may be fine tuned in small steps of or 2 ata time A higher number increases the rate of change 10 4 3 7 Increment Steps Defines the rate that the channel level increases This parameter sets the size of light level steps the sensor will increase the light level by when the sensed lux level is lower than the target lux level The default value is 25 and should suit most applications It may be fine tuned in small steps of or 2 ata time A higher num
113. failure In such a case the device still has the required capacity to set the following options Philips LightMaster 60 LightMaster Relay Actuators Options Unchanged ON OFF With unchanged the actuator will maintain the switch status If you select ON or OFF the channel will be activated or deactivated 6 2 3 14 Switch status following bus voltage recovery If the power returns following a bus power failure the following options can be selected Options Unchanged Recovery ON OFF If you select unchanged the channel will retain the current switch setting once bus voltage is returned If you select Recovery the channel will return to the initial status prior to the power failure The ON and OFF options activate and deactivate the channel upon return of the bus voltage 6 2 3 15 Show function page If this parameter is set to Yes the channel function page will be displayed The function page contains the following functions e Time e Scenes e Threshold e Blinds e Logic 6 2 4 Functions Device PDRCS1L6FR KNX General Channel A Enable function time A function J Enable function scene Actime Acscene Enable function threshold A threshald A blinds A logic Channel B Channel C Channel D Enable function blinds Enable function logic Enable Enable Enable Enable Enable Note Only one function should be enabled for each channel Ph
114. ff reserved Red flash 10 On 90 off Red flash 90 On 10 off LightMaster uses the following ETS plug ins Device Plug in DALI MultiMaster controller Sensor DALI Configuration Sensor Calibration PDLPC416FR KNX DIMMER Red 10 On flash 90 off Red flash 90 On 10 off reserved Red flash 10 On 90 off Red flash 90 On 10 off 2 5Firmware Download Tool PLPC9O5GL KNX DIMMER Red flash 10 On 90 off Red flash 90 On 10 off reserved Red flash 10 On 90 off Red flash 90 On 10 off PDRC RELAY ACTUATOR n a n a n a none none Red On 100 none PPM14 KNX DRY CONTACT INTERFACE n a n a n a none Red Orange Flash none Firmware updates for LightMaster devices are managed by the KNX Firmware Download Tool The tool consists of an upper window that shows detected devices and a lower window that shows an event log Note The lower window produces a date stamped log file The default file location is C Program Files Dynalite KNX Firmware Download Philips LightMaster System Information The individual address for each device is required before running the tool You can use the ETS diagnostic function to find individual addresses Update Firmware To update LightMaster Device Firmware Install the KNX Firmware Download Tool by completing the InstallShield Wizard steps 2 Cli
115. for switching ON DIMMING UP and which is for switching OFF DIMMING DOWN The time for a long keystroke may also be configured Philips LightMaster 130 LightMaster Switch Range 225 Device 1 1 1 Philips First Series Panel Euro Style KNA group A l en name of rocker max 16 chars A rocker group A rocker group B function of rocker dimming group C group D action of rocker top ON lighter bottom OFF darker r short long keys i for short long keystroke no action top OFF darker bottom ON lighter top ON lighter bottom OFF darker time for long keystroke 200 10000 ms For this function three KNX group objects are provided The first object is the ON OFF rocker switching object and is controlled by a short keystroke of the corresponding button The second object is the START STOP rocker dimming object and is controlled by a long keystroke of the corresponding button The third object is a VALUE object and is only controlled via remote web interface not currently available to set a certain dimming level Fal o A rocker switching group A object 1 1 bit C T Low Fil Jl A rocker dimming group object 2 4 bit C T Low Fal 2 A rocker value FW group A object 3 l Byte C T Low Rocker Function Blind Shutter This logical function configures two physical push buttons top and bottom button to set two KNX group objects depending on the length of th
116. fter which the light will be turned off The light cannot be turned off by manually operating the switch 6 2 5 1 Change Staircase lighting time via bus Options NO Changing the staircase lighting time is not possible via the bus this is automatically controlled by the database YES Allows staircase lighting time to be performed by user via bus 6 2 5 12 Alarm Staircase lighting time to bus Options Philips LightMaster NO Changing the Alarm staircase lighting time is not possible via the bus this is automatically controlled by the database 64 LightMaster Relay Actuators YES Allows Alarm staircase lighting time to be performed by user via bus 6 2 5 13 Time for OFF 0 255 min Duration of the delay for the OUT switch of the staircase light in minutes 6 2 5 14 Time for OFF 0 59 sec Duration of the delay for the OUT switch of the staircase light in seconds 6 2 5 15 Warning staircase lighting ON gt OFF gt ON Options NO YES activated The warning function shows that the staircase light has almost expired and that the output will be deactivated shortly This occurs by switching off the output for the time period of the parameterized warning time A small value of 1 3 seconds is recommended Once the warning has abated the light will be turned on again for the pre set advance warning time This advance warning time enables the staircase light time to be extended or the staircase to be vacated It
117. g cycles 1 100 0 Unlimited 0 Position after stop flashing Unchange L 6 2 5 2 Condition of flash status Start Stop Options Start with I stop with 0 I flash starts 0 flash stops Start with OFF stop with ON O flash starts I flash stops Always flash Start with 170 ON or OFF flashing starts 6 2 5 3 Time for ON 0 255 min Length in minutes for ON status 6 2 5 4 Time for ON 0 59 sec Length in seconds for ON status 6 2 5 5 Time for OFF 0 255 min Length in minutes for OFF status 6 2 5 6 Time for OFF 0 59 sec Length in seconds for OFF status 6 2 5 7 Number of flash cycles 0 100 0 infinity Number of flash cycles in the range from 0 to 100 0 means unlimited 6 2 5 8 Position after stop flashing Switch position following flashing once counter overflow ends Options unchanged after the counter overflow the position remains unchanged ON switches to ON after counter overflow OFF switches to OFF after counter overflow Philips LightMaster 63 LightMaster Relay Actuators 6 2 5 9 Staircase lighting Device PORC 16FR KNX General A Time function Staircase lighting ne Ed Channel A ae ee E actien Control staircase lighting Start with 1 Stop with 0 Artime n a Arscene Change staircase lighting time via bus Mo A threshold A blinds Alarm staircase lighting to bus Na Alogi
118. his parameter is visible if YES is selected for Forced position l forced 0 cancel Options Stop Heating Return to normally heating valve Philips LightMaster 76 LightMaster Relay Actuators 6 3Description of the group objects In this section we explain the group objects You will be able to see these objects if you have activated the function Depending on the function selected the relevant group objects will be displayed for each of the channels The group objects can be subsequently used for the assignment of group addresses Note In the following section N A B C D Key to Flags C Group R Read W Write A Assign U Update 6 3 1 Objects in general and output N General Objects Number Name Function Data types EISI 10 30 Output N Channel output C T U DPT 1 003 bit This object is always active and valid If its value changes then transfer to Bus with the next run e g the last transferred value was I so the next one is a O null Output Objects Number Name Function Flags Data types EISI 0 General Send cycles C R W DPT 1 001 bit This channel output objects enable a channel N to be turned ON OFF A channel output is turned ON OFF if the object contains the value 1 0 Philips LightMaster 71 LightMaster Relay Actuators 6 3 2 All objects of channel N EEE test 1 EEE Neuer Bereich E B 1 1 Neue Linie lf 1 4 1 SwikchME4 KNX bes Al O algemein zyklis
119. ich opens the blind while the second one closes it Top Left Bottom Right Channel A Channel B If the blind the curtain is to be opened channel A switches to ON and channel B to OFF If the blind the curtain is to be closed channel B switches to ON and channel A to OFF With time out or a stop command both channels will be switched to OFF 6 4 4 Logic Con2 oO AND OR XOR GATE gt Out Block 2 Conl AND OR XOR GATE N 4 Block 1 Philips LightMaster 82 LightMaster Relay Actuators The logic function contains two logic blocks Both of these logic blocks logic Block and logic Block2 allow the user to choose between the following Boolean operations AND OR NOT EQUAL TO GATE Boolean Operation Philips LightMaster 83 LightMaster Relay Actuators 6 4 5 PWM control Control can be implemented with Ibit or byte e bit PWM 1 Start 0 Stop The PWM starts and switches ON if a I is received and will be ended with the receipt of a 0 e Byte 255 Start 0 Stop Intermediate values Switch moves to ON upon receiving the value 255 and to OFF upon receiving the value 0 The intermediate values 1 254 define the switching points within the PWM cycle ON 1 OFF 0 Te L o ae Lon Lae T valve Fe Oy en 6 4 6 Bit PWM control Value 0 OFF 100 ON 0 OFF 10 26 20 51 30 77 40 102 50 128 60
120. ightMaster KNX Dry Contact Interface 3 2 5 5 Parameter window Scene X The parameter window Scene X is shown above It is visible if the control of the light scenes is carried out via 5 separate objects Device Universal Interfaces 4 fold General Setting Control of actuator group A by bit object Channel A Scene D Preset value actuator group A JON 0 DO i 1 ON m J Channel B Channel C Control of actuator group B by ibit object Channel D i LED A Preset value actuator group B ON F E 0 0FF 1 0N LED Control of actuator group C by ibit object LED D ns Preset value actuator group C lon O0 0FF 1 0N Control of actuator group D by ibit object Preset value actuator group D ON 0 0FF 1 0N C Control of actuator group E by ibit object Preset value actuator group E ON 0 0FF 1 0N 3 2 5 6 Parameter Control of actuator group A E It can be set for each actuator group whether the control is carried out via a bit object or an 8 bit object Options bit object 8 bit object 3 2 5 7 Parameter Preset value actuator group A E This parameter sets the preset value of the actuator group This value can be modified via the bus when saving the scene During bus voltage recovery this value is modified as preset value Philips LightMaster 29 LightMaster KNX Dry Contact Interface 3 2 6 Parameter window
121. ilips LightMaster 6l LightMaster Relay Actuators 6 2 4 1 Activating Time function Options Enable Disable 6 2 4 2 Activating Scene function Options Enable Disable 6 2 4 3 Activating Threshold function Options Enable Disable 6 2 4 4 Activating Blind function Options Enable Disable 6 2 4 5 Activating Logic function Options Enable Disable 6 2 5 Time function Device PDRCS16FR KNX General Channel A Time function Flashing Acfunction Condition of flash start stop Start with 1 stop with 0 Astime Arscene gt gt Time for on 0 255 Min Acthreshald A blinds Time for on 0 59 Sec A logic Channel B gt gt Time for off 0 255 Min Channel C Channel D Time for off 0 59 Sec 5 Flashing cydes 1 100 0 Unlimited Wb Ub 00 Ub Wb Position after stop flashing The time function contains three sub functions available for selection Options Flashing Staircase lighting ON OFF delay Philips LightMaster 62 LightMaster Relay Actuators 6 2 5 1 Flashing Device PORC 16FR KNX mae Tima func i Time function j Channel A a an Acfunction Condition of flash start stop Always flash start with 1 0 Aime i A scene gt gt Time for on 0 255 Min 0 Acthreshald A blinds Time for on 0 59 Sec 5 A logic Channel B gt gt Time for off 0 255 Min o Channel Channel O Time for off 0 59 Sec 5 Flashin
122. ing X will be shown in below it is visible when Function of the channel Switch Dimming is selected The function enables the operation of dimmable lighting button operation is also possible 1 1 1 Universal Interfaces 4 fold General Setting Channel A Channel 4 Channel 6 Channel C Function of the channel Channel D LED A Connect contact type normally open LED E LEDC Dimming functionality Dimming and switching LED D l o lt Reaction on short operation Reaction on long operation Dim BRIGHTERSDAREER with start BRIGHTE cm z lt Long operation after Dimming mode Sheps dimming Brightness change on every sent 1 56 5 T a lt Interval of Tele cyclic send Debounce time o K J cancel _Defaut_ 3 2 3 1 Parameter Connect contact type This parameter defines whether the contact at the input is a normally open or normally closed Normally open is used in the example Options Normally open Normally closed 3 2 3 2 Parameter Dimming functionality This parameter determines whether the lighting is only dimmed or whether it should also be switched Options Dimming and switching Only dimming If the parameter Only dimming is selected there is no distinction between a short and long operation The dimming command is therefore carried out immediately after the push button action there is no delay to determine whether the operation is long or short
123. ink Opens the Group Address Assignment Window This is an alternative method for linking group objects to KNX group addresses W Remove Removes the ballast device from the controller memory fos Calibrate Runs the sensor calibration wizard Refer to Sensor light control i Show Log 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 119 LightMaster DALI MultiMaster Controller 8 9 3 Enumerate DALI Network DALI Ballasts Devices require enumeration before they can be placed into operation Enumeration is a process where 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 ballasts device remembers its own DALI address and the controller remembers the addresses for all ballasts devices If more ballasts devices appear than are installed click amp 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 Actuator Channels or MultiMaster Devices This information is held in the ETS project and in the MultiMaster controller Note A newly installed
124. ions No reaction bit value 0 I 4 byte value 0 4294967295 3 2 4 4 Parameter Reaction on short operation Reaction on long operation This parameter is visible if there is a distinction between a short and long operation It defines the data type that is sent after a short or long operation Options bit value 0 I 4 byte value 0 4294967295 3 2 4 5 Parameter Output value This parameter defines the value which is sent on operation The value range is dependent on the selected data type Two values can be set here when there is a distinction between a short and long operation 3 2 4 6 Parameter Long operation after Basex Factor 0 255 This parameter is visible if there is a distinction between a short and long operation The period TL is defined here after which an operation is interpreted as long TL Base x Factor Base options 00s Is Ih Factor options 2 255 3 2 4 7 Parameter Send object value after voltage recovery This parameter is visible if there is no distinction between a short and long operation If yes is selected the device sends the object Tele Value X on the bus after bus voltage recovery Options Yes No 3 2 4 8 Parameter Debounce time It can set the vibration time to prevent unwanted multiple operation by bouncing of contacts in vibration time which means the effective time of the contact operation Options 0Oms
125. ips LightMaster 3 LightMaster KNX Dry Contact Interface 3 2 7 Parameter window Counter XC The parameter window Counter X is shown below It is visible when the input is set with the function Counter Using the Counter function the device is able to count the number of pulse edges at the input A differential counter is available if required in addition to the standard counter Both counters are triggered by counting pulses but otherwise operate independently of each other The counter always has the same data width as the differential counter The function is similar with the differential counter and the standard counter The difference is the differential counter can reset the counter value count from 0 and report bus counter overflow Note When disabling the function both key scanning and object in out are disabled Any key status change will be ignored Device Universal Interfaces 4 fold c a Function of the channel Counter i kachana A DE E Counter A Pulse detection on ls josing contact rising edge r Channel B i Channel C LED status on pulse detection LED 4 ON Channel D LED A Data width of counter 15 bit 32768 32767 LED B Counter starts at 0 sie 32768 32767 LED D EEEN Debounce time Min Time 50ms Send object value after Mo voltage recovery _ Enable additional options Yes factor divider cyclical send 3 2 7 1 Parameter Pulse detecti
126. is a scene centric device in that it will respond in accordance with the control behavior defined for each scene If the sensor receives a scene message for a group with which it is associated it will start the behavior defined for that scene Philips LightMaster 139 LightMaster Multifunction KNX Sensor 10 2 Configuration 10 2 General Settings ETS is used to configure multifunction sensor When the device is loaded in ETS the following parameter window will be displayed Device 1 1 1 PLOS CM KNX General Settings Motion Control Light Control Coridor Hold On We Start up Scene 1 10 2 1 Startup Scene The Start up Scene is the scene that the sensor will start in when powered up which occurs when network power is restored after a temporary network shutdown or momentary power outage This is typically set as the occupied scene When the group that the sensor controls starts in the occupied scene it will effectively turn off the lights after the no motion timeout period if the group is unoccupied 10 3 Occupancy detection The objective of occupancy detection 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 for occupancy detection from a single sensor 10 3 1 Motion Control Settings The Motion Control Settings group in the left column of the parameters page displays
127. is recommended that there be dynamic programming based on the actual circumstances length of the staircase next light switch etc 6 2 5 16 Warning before end of time 3 255 Sec Duration of the delay for the OUT switch of the staircase light in minutes 6 2 5 1 7 Duration time for warning 1 200 Sec Duration of the delay for the OUT switch of the staircase light in seconds 6 2 5 18 ON OFF delay The ON delay will time delay the activation of the switching cycle This means the output will only be activated after a certain time period after the issue of the switch ON command The OFF delay will time delay the switch off These two functions can be combined Philips LightMaster 65 LightMaster Relay Actuators Device PORC 16FR KNX General Channel A Acfunction aafictine Ascens A threshold A blinds A logic Channel B Channel C Channel D Time function gt gt Delay for switching ON 0 255 Min Delay for switching ON 0 59 Sec gt gt Delay for switching OFF 0 255 Min Delay for switching OFF 0 59 Sec gt gt Delay for protection ON 0 255 Min Delay for protection ON 0 59 Sec gt gt Delay for protection OFF 0 255 Min Delay for protection OFF 0 59 Sec ON OFF delay 0 0 Lh Wb 00 00 Ub 09 00 Ub We 6 2 5 19 Delay for switching ON 0 255 min Time period for delay of ON switch in minutes
128. ive a logic value 0 telegram H X Diff ial 4 lt ETENA Differential counter overflow X l bit C T overflow It is visible if enable the parameter Enable differential counter Once the counting of the differential counter exceed the overflow value preset by parameter Over under run of differential at 0 255 it will send telegram I on bus to report the overflow 5 S28 REG PAE EGE Reset Differential Counter X I bit C Ww Counter It is visible if enable the parameter Enable differential counter It is used to reset the counting value of the differential counter which counting from 0 It will reset the counting value if receive a logic value telegram and it will no reaction if receive a 0 3 3 7 Group object multiple operation The group object Multiple Operation is shown in below The value of the designate operation object will be modify if detect multiple operation in period Humber Hame Object Function Deser Group Addresses Le C E T U Data Type Bree Ejo Disable A CH Disable I bit C o Low mapi Qutput i fold A CH A 1 fold l bit C I Low Eiz Qutput 2 fold A CH A 2 fold l bit C I Low Eng Qutput 3 fold A CH 3 fold L pit C T Low Eija Qutput 4 fold A CH 4 fold l bt C I Low Gas Output Long fold A CH A Long fold l bit C IT Low I 4 CH X l fold 1 4 Output l fold X 1 4 Ibit C T The number of the group object maximum 4 is se
129. l D Logic connection 1 enable Function of logic block1 Object value of logic connection 1 after bus voltage recovery Result of logic blocki inverted Logic connection 2 enable Function of logic block Object value of logic connection 2 after bus voltage recovery Result of logic block inverted AND z J No 3 Enable m AND No The logic function block contains two logical blocks e Block has two inputs one of which is N N A B C D and the other is ConlI The logic Block output is linked with the logic Block 2 input e Block 2 also has a second input Con2 and relays the result via the output Both logic blocks logic Block and logic Block2 allow the selection of AND OR XOR and GATE connections Philips LightMaster 7 LightMaster Relay Actuators Con2 AND OR XOR GATE gt Out Block 2 Con1 AND OR XOR GATE N Block 1 6 2 9 1 Logic connection enable The logic connection Block can be enabled or disabled using this option 6 2 9 2 Function of logic block The logic block enables the user to choose between Boolean operations such as AN D OR XOR or GATE e Boolean AND 00 0 01 0 10 0 1 I e Boolean OR 00 0 OI 1 10 I I e Boolean XOR 00 0 O1 1 10 1 I 1 0 e GATE N can only pass the logic block if the value has been configured for Con The output of logic Block remains unchanged for this tim
130. level changes and the corresponding volume of network traffic generated 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 8 5 3 4 Target Lux Level Deadzone This parameter sets the size of the sensed Lux level zone above the target Lux level within which the sensor will not make changes to the light level It can also be referred to as the hysteresis zone For example if the sensor has a target Lux level of 300 Lux and a Lux level deadzone of 20 Lux the sensor will not make light level changes when it senses a Lux level between 300 and 320 Lux 8 5 3 5 Decrement Steps Defines the rate that the channel level decreases This parameter sets the size of light level steps the sensor will reduce the light level by when the sensed lux level is higher than the target lux level The default value is 5 and should suit most applications It may be fine tuned in small steps of or 2 ata time A higher number increases the rate of change 8 5 3 6 Increment Steps Defines the rate that the channel level increases This parameter sets the size of light level steps the sensor will increase the light level by when the sensed lux level is lower than the target lux level The default value is 25 and should suit most applications It may be fine tuned in small steps of or 2 ata time A higher number increa
131. lue will be lost I 5 CH X I bit 8bit Group A E l bit I byte C W T U I CH X 8bit Scene Output 8bit scene X byte C T This group object is visible if parameter Control the scene selected 8bit scene It is used to control the scene It is possible to invocate or save the scene by a 8 bit command sent by this object The definition of the 8 bit command will be described below This object is only to communicate C and transmit T do not have the function modify VV and update U Assuming an 8 bit command binary coding as FXNNNNNN F invocate the scene with 0 save the scene with X 0 NNNNNN scene number 0 63 7 66 99 6 CH X Store scene Store scene X bit C W T This parameter trigger the scene storage or indicate the accomplish of the scene by bus decided by the mode of the scene storage The detail storage process will be described in the scene storage parameter chapter 3 3 5 Group object switch sequence The group object Switching sequence is shown in below It can modify the object value with an operation step by step Each object corresponding to one switch level Humber Hame Object Function Deser Group Addresses Le C Yo T U Data Type Pre afi a a y a aaa a ra gai P P o a ae sic n e a T T Tiz Qutput level 2 A CH A level 2 l bit CE I Low m3 Qutput level 3 A CH A level 3 l bit CE I Low ma Qutput level 4 A CH A level 4 l bit CE I Low g
132. move up if sending a 0 a ie 2 CH X Stop adjust adj Output Stop adjust adj X bit C T It will stop adjust the shutter by sending command by bus It will stop adjust down if sending a 1 telegram and it will stop adjust up if sending 0 3 ues SRPEN TIMIE Upper limit position X Ibit C w position It is used to limit the upper moving It is limit the upper moving if the object receive a logic value 1 and negate it if receive 0 4 Sh Power imit Lower limit position X Ibit cw position It is used to limit the lower moving It is limit the lower moving if the object receive a logic value and negate it if receive 0 3 3 9 Group object LED X flashing The group object LED X Flashing is shown in below Humber Hame Object Function Descer Group Addresses Le C KR W T U Data Type Fries gjs LED flashing A LED Flashing 1bit E FW Low gza LED permanent on A LED A Fermanent on l bit CE FW Low gao Send its status LED A Send its status Lint C T Low Function Object name 28 LED X Flashing LED Flashing X bit C wW It is used to control the LED flashing It will start flashing if receive or 0 telegram defines by LED flashing if the flashing time set by parameter And it will stop LED if receive 0 or I 29 LED X Permanent on LED permanent on X bit C w It is used to open LED for a long period and its
133. n Control Settings l Actions Light Control Comidor Hold On 10 3 3 1 Recall Level shown below On Motion Action Recall Level On No Motion Action Recall Level Timeout s Execute Actions 85 Execute Actions 10 600 This parameter sets the percentage level recalled by this action 10 3 3 2 Timeout s JE The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Philips LightMaster LightMaster Multifunction KNX Sensor 10 3 4 Switch motion control The most basic approach to Occupancy control is to simply turn the lights ON or OFF in response to changes in occupancy The obvious example would be to turn lighting ON when motion is detected and OFF when no motion has been detected for 10 minutes Switch Actions are used to achieve this To invoke Switch motion control in the Motion Control Settings page select Switch from the Actions parameter drop down list as illustrated below 7 Device 1 1 15 PLOS CM KNX General Settings i Motion Control Enabled kd 4 Motion Control Settings Actions switch Actions Light Control bo Comidor Hold On The following group objects are provided when this function is selected a 0 Motion Sensar Scene 1Byte C R WoT scene number Low a 2 Motion Sensor On Off 1 bit C R T on off Low a 3 Motion Sensor Enable Di
134. n of the object VV means it is able to modify the other devices value by the group objects R means the value of the object can be read by the other devices T means the object has the transmission function U means the value of the object can be modified by other devices Function Object name 0 CH X Disable Disable X bit C w When enable the channel function this group object will be active to disable enable the channel function The group object will disable this function if receive a telegram with logic value 0 while it will enable the channel function if receive a telegram I The control telegram sent by all objects are ineffectiveness when the channel function is disabled The channel function default to enable when the bus voltage recovery All group object Disable in channel function operate equally I CH X Switch Switch X l bit C W T This group object is visible if the channel function Switch is enable It is visible no matter to distinguish short long operation or not Operate with button input or a short operation the object value to carry out the relevant action such as ON OFF TOGGLE 2 CH X Switch long Switch long X l bit C T This group object is visible if parameter Number of objects for short long object operation is 2 objects and it is distinguish with long and short operation Operate with a long operation to input the object value to carry out the releva
135. nd will result in no change 6 2 10 Channel as Heating actuator Device PDRCS1L6FR KNX General Channel A Channel B Channel C Channel D Channel A work mode Normally connected type The switch state on bus voltage fail The operation of switch after bus voltage recovery Save statistic for ON switching counter 4bytes gt gt PWM cycle time set 1 65535 min PWM cycle time set 0 59 sec Control telegram is received as Transmit status response abject telegram status heating ON position of valve Running automatically after bus voltage recovery Forced position 1 forced 0 caincel Normally Closed Unchange Unchange ka Disable Ci S CoS 50 128 This channel operates in PWM mode pulse width modulation bit or byte and can be used to control a heating valve 6 2 10 Parameter Normally connected type This parameter defines whether the contact is a normally opened or normally closed Normally Closed is used in the example Options Normally Opened Normally Closed Philips LightMaster 73 LightMaster Relay Actuators 6 2 10 2 Switch state on Bus Voltage Failure Options Unchanged ON OFF With unchanged the actuator will maintain the switch status If you select ON or OFF the channel will be enabled or disabled 6 2 10 3 The operation of switch af
136. ndex 1 Byte Cc ER We scene number Low Philips LightMaster 126 LightMaster DALI MultiMaster Controller Button Panels 9 LightMaster Switch Range e P1PE KNX 2P LightMaster Button Page Euro style 2 position e P1PE KNX 2P 2G LightMaster Button Page Euro style 2 position double gang e P1PE KNX 4P LightMaster Button Page Euro style 4 position e P1PE KNX 4P 2G LightMaster Button Page Euro style 4 position double gang 9 Description The LightMaster Switch Range button page consists of one or two modules each offering up to four push button switches yi tl ae Each module has one or two rockers that can be configured as a single rocker to provide two button functionality or as a double rocker to provide four Per button functionality The rear of the button panel contains a KNX bus coupling unit for connection to the KNX bus and connections for three extension modules Note Only one satellite module is pre connected to the group C input for the double gang product variants The satellite module uses a prefabricated ribbon cable to connect to the rear multi pin connectors and has no connection to the KNX bus Program Button Philips LightMaster 127 LightMaster Switch Range 9 2Configuration The ETS application is used to configure all combinations of KNX rockers buttons When the application is first opened the following parameter window is displayed Device 1 1 1 Philips First Series
137. nt action such as ON OFF TOGGLE 3 3 2 Group object switch dimming Humber Hame Object Function Descr Group Addresses Le C Y T U Data Type PrE af EETRI ee me ee oe SAR ae A a uaespiseieinienaee ae T A A A eaeee i ee ee a ean ae smn 5 setae Hiz Dimming CH A Dimming tbt C T Low Function Object name 0 CH X Switch Switch X l bit C W T It is visible if parameter Dimming functionality selected Dimming and switching Operate with a short operation to input the object value to carry out the relevant action such as ON OFF TOGGLE Philips LightMaster 45 LightMaster KNX Dry Contact Interface I CH X Dimming Dimming X 4bit C C T This group object input by a long operation to send the command to dim up or dim down It can control the dimming device on bus to carry out relative dimming It will send a stop command to stop dimming when the long operation is end 3 3 3 Group object value force output There are many data types and group objects shown in below This different data types group object have the same operation that transmits the input object value which the range of transmit object value are different It is possible to distinguish a long short operation or not the two objects enable when distinguished Humber Hame Object Function Deser Group Addresses Le C T U Data Type Fr ec a ee D S ee ae mapi Qutput ibit A CH A Value ibit i bit C T Low Gz Output lbit long A
138. 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 compensate 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 The database file for the multifunction sensor includes a plug in for calibration which is accessed from the DALI Configuration Wizard To run Sensor Calibration Plug in Right click on the PDBCI20 DALI KNX controller in the topology tree 2 Select Plug In then DALI configuration 3 Select the required PLOS CM DALI from the sensor section in the topology tree must be enumerated 4 Click Calibrate Devices v Test Project PDBC120DALT Oo 4 v HX 4 EJ All Devices t Device 1 1 5 PDBC120 DALI KNX Dynamic Folders a 1 1 5 PDBC120 DALI KNX an ont Execute Actions 4 m2 0 DALI Actuator 1 On Of _ os R i m2 1 DALI Actuator 1 Absolu U4 p mz 2 DALI Actuator 1 Relative Inf gt Timer stop z m2 3 DALI Actuator 2 Scene Reset Device B 4 DALI Actuator 2 On Of Band 1 Threshold 700 m2 5 DALI Actuator 2 Absolut 2 6 DALI Actuator 3 Scene B2 7 DA
139. of rocker values k group C aE group D datatype upper button subtype upper button value upper button 0 0 255 a datatype lower button 1Byte subtype lower button Input range 0 255 value lower button 0 0 255 Ja If I Byte is selected two subtypes are available for specifying the value e A selected input range of 0 255 allows the value to be specified in the range 0 to 255 The value is transferred directly to the KNX group object e A selected input range of 0 100 allows the value to be specified in the range of 0 to 100 This value is converted to a value in the range of 0 255 whereby 0 remains 0 and 100 corresponds to 255 Tip the preferred datatype for LightMaster actuators is Byte using 0 255 or 0 100 values Philips LightMaster 133 LightMaster Switch Range Device 1 1 1 Philips First Series Panel Euro Style KNX group A group A rocker group B group C group D name of rocker max 16 chars function of rocker datatype upper button subtype upper button value upper button 0 255 datatype lower button subtype lower button value lower button 0 255 A rocker Values Input range 0 299 1Byte input range 0 255 aa H If 2Byte is selected three subtypes are available for specifying the value e A selected subtype of 6bit unsigned integer offers an input range of 0 65535 e A selected subtype of I 6bit signe
140. ol 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 connection is made via a fuse or an MCB Main Control Block 2 2Verify hardware installation Commissioning can only proceed once the integrity of the wiring has been verified Ensure the installation observes the following Philips LightMaster 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 10 System Information 2 3Device LED indications PROGRAMMI NG MODE N 2 e lt x 9 mr A a lt BOOTLOADER Non Programming Mode TRUE Programming FALSE Mode TRUE Non FALSE Programming Mode TRUE Programming FALSE Mode TRUE 2 4Plug ins PLOS CM KNX SENSOR Red flash 10 On 90 off Red flash 90 On Red flash 10 On 90 off Red flash 90 On 10 off 10 off PDBC120 DALI KNX MULTIMASTER Red flash 10 On 90 off Red flash 90 On 10 o
141. old function 6 2 8 Blind function 6 2 9 Logic function 6 2 10 Channel as Heating actuator 6 3 Description of the group objects 6 3 1 Objects in general and output N 6 3 2 All objects of channel N 6 4 Applications 6 4 1 Scene 6 4 2 Threshold Value 6 4 3 Blind 6 4 4 Logic 44 45 45 45 46 46 47 47 48 49 49 50 5l 5I 52 52 54 55 55 55 56 56 56 56 57 58 59 6l 62 67 68 70 7 73 77 77 78 8l 8 82 82 82 6 4 5 PWM control 84 6 4 6 1Bit PWM control Value 0 OFF 100 ON 84 6 4 7 1Byte PWM control Value x x 0 255 x 0 gt OFF 85 LightMaster Dimmer Actuator 86 7 1 Currently under development 86 8 LightMaster DALI MultiMaster Controller87 8 1 Description 87 8 2 Configuration 88 8 2 1 DALI Actuators Settings 89 8 2 2 Parameter Window Actuator X 90 8 2 3 Actuator Scenes Settings 9 8 2 4 Parameter Window Scene X 92 8 2 5 DALI Device Settings 93 8 3 PLOS CM DALI 94 8 3 1 PLOS CM DALI X General Settings 94 8 4 Occupancy detection 95 8 4 1 Motion Control Settings 96 8 4 2 Scene X motion control 97 8 4 3 Level motion control 10 8 4 4 Switch motion control 102 8 4 5 Timer motion control 103 8 5 Light Control 104 8 5 1 Calibrating the sensor 104 8 5 2 Light Control Settings 106 8 5 3 Closed loop light control 106 8 5 4 Scene X light control 107 8 5 5 Open loop light control 108 8 5 6 Bands 110 8 6 Light Sensing 113 8 7 PPMI4 DALI 114 8 7 1 PPMI4 DALI Swi
142. old on Settings To invoke Corridor Hold on select the required function objects in the Corridor Hold On Settings page up to the six object limit as illustrated below Device 1 1 1 PLOS CM KNX General Settings Function 1 None Motion Control Light Control PRIN None has 4 Corridor Hold On EE a Settings Function 2 None Function 4 None Function 5 None oa Function 6 None For a Notifier object select Notifier in the drop down list of the Function parameter as shown below Philips LightMaster 162 LightMaster Multifunction KNX Sensor Device 1 1 1 PLOS CM KNX General Settings Function 1 Motion Control Light Control Rincon Timer d Corridor Hold On Notifier Settings Function 3 Activator Function 5 None hi Device 1 1 1 PLOS CM KNX General Settings lO Motion Control bo Light Control EnA None d Corridor Hold On Notifier 1 function 4 The following group objects are provided when this function is selected F 6 Light Sensor Light Level 2Byte C R TO lux Lux Low a 11 Corridor Hold On Enabled Disabled 1 bit C R W enable Low a 12 Corridor Hold On Notifier 1 1 bit Cc R W T occupied Low F 18 Corridor Hold On Notifier 1 Scene lE ye C R W T scene number Low The Notifier behavior can be set by selecting Notifier in the left hand column of the parameter page The page below appears after selecti
143. on Device 1 1 1 PLOS CM KNX General Settings ae Rs p a b Moton Conal Notification Period s 20 b Light Control l a Coridor Hold On Active Scene Range Count 1 Settings E D S Notifier 1 Scene Range 1 Minimum 1 Scene Range 1 Maximum 1 Philips LightMaster 163 LightMaster Multifunction KNX Sensor The Notification Period is the timer duration that controls the interval of occupancy sync messages that the Notifier sends when its own group is in an active scene The Active Scene Range Count defines the number of consecutive Active Scene ranges In this example we will define 2 ranges When setting the Active Scene Range Count to 2 the page adds another set of Scene Range Minimum and Maximum parameters as shown below for the second range Device 1 1 1 PLOS CM KNA General Settings ae l ca E Minan Cantal Notification Period s 20 b Light Control i a Condo Held On Active Scene Range Count 2 aaa Settings 1 scene Range 1 Minimum 1 Scene Range 1 Maximum 1 scene Range 2 Minimum 1 Scene Range 2 Maximum 1 For this example we will set Range as scenes to 3 and range 2 as scenes 5 to 7 as shown below Device 1 1 1 PLOS CM KNA General Settings ae i onal E Noa Cadal Notification Period s 20 b Light Control i on a Coridor Hold On Active Scene Range Count hr g Settings ion scene Range 1 Minimum 1 Scene Range 1 Maximum 3 Scene Range 2 Minimum E Scene Range 2 Maximum i
144. on Wes Long operation after is Value send TOGGLE fobject Tele long operation Debounce time 50ms ka 3 2 8 1 Parameter Connect contact type This parameter defines whether the contact at the input is a normally open contact or a normally closed contact Options Normally open Normally closed The parameter introduced in this chapter is use Normally open as the example the normally close is just Opposite 3 2 8 2 Parameter Max number of operations Num of objects This parameter specifies the maximum permitted number of operations This number is identical to the number of group objects Output X fold Options Single operation 2 fold operation 3 fold operation 4 fold operation 3 2 8 3 Parameter Value send object Tele Operation fold It can be set here which object value should be sent Options On Off Toggle The current object value is inverted in the Toggle setting 3 2 8 4 Parameter Value on every operation send This parameter defines whether to send the operation value Philips LightMaster 35 LightMaster KNX Dry Contact Interface Options Yes No If yes is entered in this parameter the associated object value is updated and sent after each operation in the case of multiple push button actions Example For three fold operations the objects output fold after the first operation output 2 fold after the sec
145. on on The type of input signal is defined in this parameter It can be set whether the contact is an opening contact pulse trailing edge or a closing contact pulse rising edge Closing contact rising edge is used as the example Options Closing contact rising edge Opening contact falling edge 3 2 7 2 Parameter LED status on pulse detection This parameter defines the indication of LED whether to be on off or no action when detecting a pulse input Options LED A ON LED A OFF LED D OFF No action Philips LightMaster 32 LightMaster KNX Dry Contact Interface Note If the four channels invoke the same option the priority of channel A is the highest it will carry out the preset operation when detecting an pulse input Then the priority of channel B is next highest then channel C and lastly channel D The priority of LED X in channel function page is higher than in the LED X page If the LED has been configured via the channel pages the settings in the LED pages are ignored 3 2 7 3 Parameter Date width of counter The data type of the counter absolute counter and differential counter is defined in this parameter The data type specifies the counting range for the counter 9 The type of the objects Output counter value and Differential counter is adapted to the data type of the parameter setting Options 8bit 0 255 6bit 32768 32767 6bit 0 65535
146. ond operation and output 3 fold after the third operation are sent If No is selected the current value will be send on the bus until the last operation delay the delay time is the interval time between two operations 3 2 8 5 Parameter Max time between two operation This parameter sets the interval between two operations If there are no further operations within this period the object output fold is sent again Options 0 3s 0 5s 10s 3 2 8 6 Parameter Additional object for long operation This parameter defines whether to activate the long operation If a long operation is carried out after one or several short operations within the maximum period the short operations are ignored Options Yes No 3 2 8 7 Parameter Long operation after This parameter is visible if long operation activate The period is defined here after which an operation is interpreted as long Options 0 3s 0 5s lOs 3 2 8 8 Parameter Value send object Tele Long Operation This parameter is visible if long operation activate This parameter defines the value sent by the object output long fold on the bus when it is set long operation Options On Off Toggle The current object value is inverted in the Toggle setting 3 2 8 9 Parameter Debounce time It can set the vibration time to prevent unwanted multiple operation by bouncing of contacts in vibration time
147. only if let through 4 2 1 7 Telegram confirmation on line If a telegram is transmitted on the line and there is no device with the group address of that telegram the telegram will not be acknowledged and the transmitting device may continue to repeat the telegram The line coupler can issue missing telegram acknowledgments in order to reduce network traffic This parameter defines when the line coupler will issue missing acknowledgments on the line Options always only if let through Philips LightMaster 53 LightMaster Line Coupler 4 2 2 Line repeater functional parameters Device 1 0 1 Philips Line Coupler KNX Configu ration a Pros E Repetitions if errors on line No In assigning physical address Repetitions if errors on line Yes in group telegrams l Repetitions if errors on segment No in assigning physical address l Repetitions if errors on segment Yes in group telegrams l 4 2 2 Repetitions if errors on line in assigning physical address This parameter defines whether the line repeater will re transmit a physical address telegram sent to the line if it does not receive an acknowledgement Options No Yes 4 2 2 2 Repetitions if errors on line in group telegrams This parameter defines whether the line repeater will re transmit a group telegram sent to the line if it does not receive an acknowledgement Options No Yes 4 2 2 3 Repetitions if errors on segment in assigning physical address
148. operation is interpreted as long Options 0 3s 0 5s 10s 3 2 3 6 Parameter Reaction on operation This parameter is visible if the value Only dimming has been set in the parameter Dimming functionality There is no distinction between a short and long operation The operation and the option of the parameter Reaction on long operation are the same It is able to set a dim brighter or a dim darker after a long operation Options Dimming brighter Dimming darker Dim brighter darker with start brighter Dim brighter darker with start darker 3 2 3 7 Parameter Dimming mode This parameter defines the dimming mode is start stop dimming or steps dimming e If Start stop dimming is selected the dimming mode begins the dimming process with a dim darker or dim brighter telegram and ends the dimming process with a stop telegram Cyclical sending of the dimming telegram is not required in this case e f Step dimming is selected the dimming telegram is sent cyclically during a long operation Once the operation has finished a stop telegram ends the dimming process Options Start stop dimming Steps dimming Philips LightMaster 22 LightMaster KNX Dry Contact Interface 3 2 3 8 Parameter Brightness change on every sent This parameter is only visible for Dimming steps It sets the increment for the change in brightness percentage value that will cause a dimming telegram to be sen
149. options Is lOs Ih Factor options 255 3 2 10 6 Parameter Send status by object Tele Status This parameter defines whether to send the LED status report on the bus Options Yes No If Yes is selected the object Send its status X will send value I when LED flashing it will send value 0 when the LED stops flashing 3 2 10 7 Parameter State of LED on bus voltage recovery It is defines the state of LED during bus voltage recovery Options On Off 3 2 10 8 Parameter LED is switched ON OFF for It is defines the time period the LED switched on off during LED flashing Options 600ms 800ms 60s 3 2 11 Parameter window Switch X The parameter window Switch X defines the switch function of the LED The LED can switch off automatically and or can remain switched on Philips LightMaster 4 LightMaster KNX Dry Contact Interface IZAI Device Universal Interfaces 4 fold General Setting if LED function is enable in input lt NOTE Information Channel A this must chose Control by input i ne Function of the LED Channel Switch Chane hh ALA _ Channel D LED is Switch ON if Object Tele Switch 0 bd LED A LED B Time limit of LED control Yes LEDC LED D Time limit base is Time limit factor 10 Ls 1 255 Send status by object No n Tele Status l State of LED on bus voltage recovery OFF
150. 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 8 9 4 Locate ballasts devices Flash and a Stop Flash are used to find the physical location of ballasts and sensors in a project by sending messages to alternate levels between 0 and 100 This information is then used to determine actuator channels assignments and group address links for that area Locate individual ballasts devices Select the ballast sensor in the configuration window 2 Click Flash and a Stop Flash to identify the ballast sensor 3 Record the currently assigned Actuator Channel number or Device number Sensor devices have a red LED that can be flashed However Dry contact devices do not have a built in LED Locate a dry contact device Click 22 Sign On Devices 2 Press the service switch on a dry contact device 3 The DALI Configuration Wizard displays the M sign on icon next to the corresponding device Philips LightMaster 120 LightMaster DALI MultiMaster Controller 8 9 5 Assign short addresses to actuator channels and devices The enumeration process randomly assigns short addresses to Actuator 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 moved to mat
151. ort stepping long moving Alternate implement Stop Adjust upward or Stop Adjust downward operation Short operation alternates between sending the value of the object 0 and 1 Alternate implement Move up or Move down operation Long operation alternate send the value of the object 0 and 1 push button short moving long stepping Alternate implement Move up or Move down operation Short operation alternates between sending the value of the object 0 and 1 Alternate implement Stop Adjust upward or Stop Adjust downward operation Long operation alternates between sending the value of the object 0 and l push button operation moving When operating sends the command in sequence gt Move up gt Stop Adjust upward gt Move down Speration gt Stop Adjust downward gt l switch operation moving Operation start Alternate implement Move up or Move down operation press the button alternate send the value of the object 0 and 1 Operation end Stop Adjust send the value opposite with the operation starting Release the button 2 push button standard Short operation Stop Adjust upward or Stop Adjust downward set by parameter Move up or Move down set by parameter Long operation 2 push button moving shutter When operation sends the command in sequence gt
152. otifier message for its group when in an active scene The Active Scene Range Count defines the number of consecutive Active Scene ranges In this example the default range of will be used the On Activation Recall Scene will be set to Scene 2 and the Active Scene range as Scene 4 only as shown below Device 1 1 1 PLOS CM KNX General Settings E r A On Activation Recall Scene 2 l Light Control f aoe dee Heldiaie Active Scene Range Count 1 ee J Scene Range 1 Minimum 4 Activator 2 i ma Scene Range 1 Maximum 4 Low Low Low Low Low Low Philips LightMaster 165 LightMaster Multifunction KNX Sensor To add a Timer object select Timer in the drop down list of the Function 3 parameter as shown below Device 1 1 1 PLOS CM KNX General Settings l TE j Function 1 Notifier d Motion Control Settings Function 2 Activator d Light Control Settings Function 3 Timer Light Sensing O a Corridor Hold On Function 4 None hol Settings l i oo y O Fuiniction 5 None Motifier 1 Acton Function 6 Ce Timer 3 The Timer 3 group objects below are introduced when this function is selected a 6 Light Sensor Light Level 2 Byte C R T lux Lux Low a 11 Corridor Hold On Enabled Disabled 1 bit C R W enable Low e 12 Corridor Hold On Notifier 1 1 bit C R Wo T occupied Low a 13 Corridor Hold On Activator 2 1 bit C R W T occupied Low a i4 Corridor Hold On Timer
153. otion Action 4 Motion Control Execute Actions Settings Scene 1 Scene 2 On No Motian Action No Action Scene 3 Scene 4 d Light Control Settings Light Sensing b Condor Hold On Philips LightMaster 143 LightMaster Multifunction KNX Sensor The following group objects are provided when this function is selected a 0 Motion Sensor Scene 1Byte C R WT scene number Low a 3 Motion Sensor Enable Disable 1 bit C R W enable Low aF 6 Light Sensor Light Level 2 Byte C R T lux Lux Low 10 3 2 4 On Motion The On Motion Action permits an action Scene Level Switch and or Timer action to be recalled as enabled in the Motion Control Settings page Options No Action Execute Actions 10 3 2 5 Recall Scene This parameter sets the scene number recalled by this action 10 3 2 6 On No Motion The On No Motion Action permits an action Scene Level Switch and or Timer action to be recalled as enabled in the Motion Control Settings page For scene based control the On No Motion Action permits a Recall Scene and Timeout period to be entered As Scene is the Occupied Scene in the example the On No Motion Action must be set to Recall Scene 2 which is the Grace Scene The Timeout of 600 seconds is also be set achieve the required delay of 10 minutes Options No Action Execute Actions 10 3 2 7 Recall Scene This parameter sets the scene number recalled by this action 10 3 2 8 Timeout s
154. otion Control Enabled Enabled Enable Timer Disabled The motion control behavior can be set by selecting Actions in the left hand column of the parameter page The page below appears after selection Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to Execute Actions from the drop down list as shown below Device 1 1 1 POBC120 DALI KNX DALI Actuators a On Motion Execute Actions bd Actuator Scenes ech i a DALI Device Settings Recall Level 9 85 7 4 PLOS CM DALT 1 _ i ei General Settings Motion Control Settings A I Asii On No Motion Execute Actions x Recall Level 5 40 oF a PPMHDAU Z 0 of DALI Switch Settings Tansee 600 La i 8 4 3 1 Recall Level This parameter sets the percentage level recalled by this action 8 4 3 2 Timeout s The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Philips LightMaster IOI LightMaster DALI MultiMaster Controller 8 4 4 Switch motion control The most basic approach to Occupancy control is to simply turn the lights ON or OFF in response to changes in occupancy The obvious example would be to turn lighting ON when motion is detected and OFF when no motion has been detected for 10 minutes ON OFF Actions are used to achieve this To invoke
155. own Group is in the active list and it receives an occupancy message for its own Group it will transmit the Action scene message Conversely if the last scene message the Activator receives for its own Group is not in the active scene list and it receives an occupancy message it will not transmit an Action preset message Philips LightMaster 161 LightMaster Multifunction KNX Sensor 10 6 1 3 Timer Object Parent Group The Timer turns its own Group off after a defined time delay when all child Groups are unoccupied and its own Group is in a standby scene To commission the Timer Object e The Scene group object is associated with its own Group e The Occupancy group object is associated with its own Group e Parameters are entered to define all the active scenes generally the standby state for its own Group e Parameter is entered for Hold On Time e Parameter is entered for the Action scene generally OFF scene If the Timer receives a scene message for its own Group that is in the active list or an occupancy message for its own Group it will start or restart the timer If the last scene message the Timer received for its own Group is in the active list and the timer reaches the Hold On Time it will transmit the Action scene message Conversely if the Timer receives a scene message for its own Group that is not in the Active Scene list and the timer reaches the Hold On Time it will not transmit an Action scene message 10 6 2 Corridor H
156. pler will handle network telegrams with group addressing from the main line to the line Options transmit all testing only block filter 4 2 1 2 Group telegrams line gt main line This parameter defines how the line coupler will handle network telegrams with group addressing from the line to the main line Options transmit all testing only block filter 4 2 1 3 Main Group 14 15 This parameter defines if telegrams for main groups l4 and I5 will be let through or blocked Options block let through 4 2 1 4 Repetitions if errors on mainline This parameter defines if the line coupler will transmit a telegram to the main line again if it does not receive an acknowledgment from the initial telegram Options No Yes Philips LightMaster 52 LightMaster Line Coupler 4 2 1 5 Repetitions if errors on line This parameter defines if the line coupler will transmit a telegram to the line again if it does not receive an acknowledgment from the initial telegram Options No Yes 4 2 1 6 Telegram confirmation on mainline If a telegram is transmitted on the mainline and there is no device with the group address of that telegram the telegram will not be acknowledged and the transmitting device may continue to repeat the telegram The line coupler can issue missing telegram acknowledgments in order to reduce network traffic This parameter defines when the line coupler will issue missing acknowledgments on the mainline Options always
157. r 10 4 Light Control The objective of light control is to automatically maintain a specific lighting level which is generally set to that appropriate for the tasks being conducted in the space of the group under control As with motion control the multifunction sensor also enables a set of Scenes to be defined as Light Control Scenes Typically this would apply to all scenes except the OFF scene For example lighting in an enclosed office can be maintained at 400 lux when occupied as appropriate for normal office based tasks For a grace scene that is typically recalled immediately after the office is unoccupied a lighting level of 100 lux would be appropriate 10 4 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 compensate for this difference by applying a factor to the measured light level to determine the actual light le
158. r 4 l Actuator 5 Max Level 100 m Actuator 6 f ae IN Fade Time When Switching s No Fade Instant F Actuator 7 Actuator amp Fade Time When Ramping s l2 4 Actuator Scenes oethinac E 8 2 2 1 Emergency sector This parameter determines if the channel is set as an emergency sector or not Options None Sector Y Sector Z 8 2 2 2 CO Presentation This parameter determines the output functions available for the actuator channel a group object is used for each function scene ON OFF Absolute Level and Relative Level Options On Off Absolute Level Relative Level Scene Absolute Level Relative Level Scene On Off Relative Level Scene On Off Absolute Level Any three of the following four group objects can be provided for each actuator channel Number Name Object Description Group Length C R Ww T U Data Type Priority Fal 0 DALI Actuator 1 Scene 1 Byte C R W scene number Low Fil 1 DALI Actuator 1 Absolute Level Control l Byte C R W percentage 0 100 Low Pi 2 DALT Actuator 1 Relative Level Control 4 bit C W dimming control Low e 3 DALI Actuator 2 On Off i bit C R W on off Low Philips LightMaster 90 LightMaster DALI MultiMaster Controller 8 2 2 3 Min Level This parameter sets the minimum channel level as a percentage 8 2 2 4 Max Level This parameter sets the maximum channel level as a percentage 8 2 2 5
159. red value in the Reference Lux parameter and then click Calibrate 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 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 Note Where illumination levels are high raise the Max Raw Value and Max Lux Value scales to bring the graph traces within the visible range 10 4 2 Light Control Settings Open Loop or Closed Loop Application Mode can be selected on the Light Control Settings page Device 1 1 1 PLOS CM KNX General Settings Motion Control d Light Control Application Mode Closed Loop Control Open Loop Control Settings Light Sensing Corridor Hold On Philips LightMaster 150 LightMaster Multifunction KNX Sensor 10 4 3 Closed loop light control Closed loop lighting control should be used where the sensor is located within the same area of 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 recommen
160. ree e r TE DALI Device Settings seen PLOS CM DALT 1 PPMI4 DALT PPMI4 DALT 2 PLOS CM DALI hd PLOS CM DALI 3 PPMI4 DALI 4 Bia Bia hd Mone None None None None None Philips LightMaster 93 LightMaster DALI MultiMaster Controller 8 3PLOS CM DALI 8 3 8 3 1 1 The Philips LightMaster DALI multifunction sensor combines motion detection PIR and ambient light level detection PE in the one device In applications such as homes lecture theatres and office towers universal sensors can be utilized to detect motion and switch on the lights The multifunction sensor is an integrated energy management sensor and group controller Sensor functions include e Occupancy detection e Light Level regulation When rooms are unoccupied lights can be automatically dimmed or switched off to provide energy savings In situations where it is critical to maintain precise lighting levels for individual workspaces such as a flight control tower or office workstation the multifunction sensor facilitates light compensation The multifunction sensor can be placed in an automatic Daylight Harvesting mode for energy savings PLOS CM DALI X General Settings Device 1 1 5 PDBC120 DALI KNX DALT Actuators l ae Startup Scene 1 Actuator Scenes d PLOS CM DALI 1 General Settings Enable Closed Loop Disabled o i Motion Control Settings ae Light Control Settings d PPMI4 DALI 2 ee i Add Scaling Object Enabled
161. rol The light control behavior can be set by selecting Closed Loop Control in the left hand column of the parameter page The page below appears after selection Device 1 1 1 PDBC120 DALI KNX 4 DAL Actuators G Settings scene Count 4 a Actuator Scenes l l an DALI Device Settings Pn peat ceric Ge d PLOS CM DAU 1 R eal Target Lux Level Deadzone 20 General Settings ima Motion Control Settings E Decrement Steps 5 fame Scene 1 em 5 2 pis Increment Steps 24 Scene 3 sua Control in Scene 1 Enabled Light Control Settings i Closed Loop Control Control in Scene 2 Enabled Scene 1 i Scene Control in Scene 3 Disabled ae Control in Scene 4 Disabled PPMI4 DALI 2 Se 8 5 3 2 Scene Count The Scene Count parameter defines the range of actual Scenes over which the sensor will operate light control In the example only scenes and 2 require light control The scene count must be set to the highest scene number used in this case 4 Control is invoked in each scene by setting the respective Control in Scene parameter to Enabled from the drop down list Philips LightMaster 106 LightMaster DALI MultiMaster Controller 8 5 3 3 Min Update Period s The Min Update Period parameter sets the shortest time interval that light level adjustment messages will be issued to the group under control Consideration of an appropriate period should take into account the responsiveness of required
162. roup for the same parent Group If the last preset the Notifier received for its own Group is in the active list and the heartbeat timer reaches the heartbeat period it will transmit another occupancy message Conversely if the Notifier receives a preset message for its own Group that is not in the active preset list it will not transmit another occupancy message until another active preset is received In order to minimize network traffic it is recommended that a slightly different heartbeat period is used for each Notifier associated with a specific Group If the same period is used all Notifiers will attempt to transmit an occupancy message at the same time creating potential network collisions and unnecessary traffic When different periods are used the Notifier with the shortest period will transmit an occupancy message first which resets the timer in all other Notifier s with the same Group association 10 6 1 2 Activator Object Parent Group The Activator turns its own Group on when it receives an occupancy message from an associated Notifier To commission the Activator Object e The Scene group object is associated with its own Group e The Occupancy group object is associated with its own Group e Parameters are entered to define all the active scenes generally the off state for its own Group e Parameter is entered for the Action scene generally the standby state If the last scene message the Activator received for its
163. s the indicative LED switch on time when there is output of group object Options 00ms 200ms 60s 3 2 15 Parameter window Indicate object in and out X The parameter window Indicate object in and out X shown below The LED is used to indicate the input and output of the group object Device Universal Interfaces 4 fold Ge Seiti ea if LED function is enable in input lt NOTE Information Channel A this must chose Control by input Channel B Function of the LED Channel Channel Channel l LED on time LEDA LED B LED C LED D 3 2 15 1 Parameter LED on time This parameter defines the indicative LED time when there is input or output of group object which means the switch on time Options 00ms 200ms 60s Philips LightMaster 44 LightMaster KNX Dry Contact Interface 3 3Description of group objects Only group objects can communicate over the KNX bus If the group object and the object in each channel are the same then use channel A as the example to introduce the function of each group object 3 3 1 Group object switch Humber Hame Object Function Deser Group Addresses Le C Y T U Data Type eee of a aaa ee a a aia so oe 5 ee A os Ea i A ae Secs E E eee er eee ee cried ae sss 5 e sername cee G2 Switch long A CH A switch long Liat C Jo Low Note C in Flag column in the below table means enable the group functio
164. s whether to enable the differential counter function if Yes is selected it is enabled Options Yes No 3 2 7 13 Parameter Over under run of differential at This parameter is visible if the parameter Enable differential counter is set to yes This parameter sets which value generates an overflow of the differential counter The overflow sol li object will send an overflow value on the bus when in the event of an overflow Philips LightMaster 34 LightMaster KNX Dry Contact Interface 3 2 8 Parameter window Multiple operation X The parameter window Multiple operation X will be shown in below It is visible if the input is selected with the function Multiple operation Enable the function if the input is operated several times within a certain period a specified object value can be modified depending on the number of operations This enables different light scenes to be implemented with multiple push button actions Device Universal Interfaces 4 fold General Settin c a Function of the channel Multiple operation Channel A Channa 8 Connect contact type Cor Channel Channel D Max number of operations 2 fold operation z LED A Num of objects LED B Value send ON LEDC objet tele operation fold LED D Value on every operation send No Max time between two operation is Additional object for long operati
165. sable 1 bit C R W enable Low a 6 Light Sensor Light Level 2Byte C R T lux Lux Low The motion control behavior can be set by selecting Actions in the left hand column of the parameter page The page below appears after selection Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to Execute Actions from the drop down list as shown below Device 1 1 1 PLOS CM KNxX General Settings On Motion Action Execute Actions x 4 Motion Control eee Settings Switch On hi Actions E eee Light Control Conidor Hold On On No Motion Action Execute Actions Switch Off Timeout s 600 10 3 4 1 Switch This parameter sets the Switch state ON or OFF recalled by this action 10 3 4 2 Timeout s The Timeout is the delay before the On No Motion Action will be executed after motion was last detected Philips LightMaster 147 LightMaster Multifunction KNX Sensor 10 3 5 Timer motion control Timer occupancy control can be used to start and stop a timer in another network device such as an actuator An example would be to start a timer when no motion has been detected for a period of 10 minutes and stop the timer if motion is detected To invoke Timer occupancy control in the Motion Control Settings page select Timer from the Actions parameter drop down list as illustrated below Device 1 1 1 PLOS CM KNX General Settings cee
166. save energy The multifunction sensor is configured to select the Occupied Preset when motion is detected 10 3 2 Occupied Scene action No motion detected for 10 minutes Occupied Scene Scene actions should include a No Motion Action to go to the Grace Scene Scene 2 The Motion Action should be set to No Action The timeout should be set to 600 seconds 10 minutes Philips LightMaster 142 LightMaster Multifunction KNX Sensor 10 3 2 2 Grace Scene action Motion Detected No motion detected for 5 minutes The Grace Scene Scene 2 actions should be to revert to the Occupied Scene Scene when motion is detected or fall back to the Vacant Scene Scene 4 when there is no motion detected for the Timeout period 10 3 2 3 Vacant Scene action Vacant Scene Motion Detected The Vacant Scene Scene 4 actions should recall the Occupied Scene Scene when motion is detected No Action should be configured for the No Motion Action The motion control behavior for each scene can be set by selecting the respective scene in the left hand column of the parameter page The page below appears when Scene is selected Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to execute actions from the drop down list as shown below Device 1 1 1 PLOS CM KNX General Settings On M
167. sent telegram 0 OFF 10 26 20 51 30 77 40 102 50 128 60 153 70 179 80 204 90 230 100 ON 6 2 10 10 Running automatically after bus voltage recovery Options No Defined Value Recovery Selecting NO indicates heating control will not start automatically but only when requested Defined Value When this option is selected the position of valve must be set Recovery The channel will return to the initial status prior to the voltage drop 6 2 10 1 Position of valve This parameter is visible if Defined value is selected for Running automatically after bus voltage recovery 0 OFF 10 26 20 51 30 77 40 102 50 128 60 153 70 179 80 204 90 230 100 ON Philips LightMaster 75 LightMaster Relay Actuators 6 2 10 12 Forced position l forced 0 cancel This option when selected as Yes allows forced positioning of the valve via bus When value is set in Forced position object the heating control is set to the PWM value as set in Value of PWM When 0 Value is set the heating control setting in Forced cancel operation will take effect 6 2 10 13 Value of PWM This parameter is visible if YES is selected for Forced position l forced 0 cancel 0 OFF 10 26 20 51 30 77 40 102 50 128 60 153 70 179 80 204 90 230 100 ON 6 2 10 14 Forced cancel operation T
168. ses the rate of change 8 5 3 7 Control in scene X This parameter sets in which scenes closed loop control will operate The number of parameters visible depends on the scene count This parameter enables or disables the scenes used for control Options Enabled Disabled 8 5 4 Scene X light control The light control parameters for each scene can be set by selecting the respective scene in the left hand column of the parameter page as shown below Philips LightMaster 107 LightMaster DALI MultiMaster Controller Device 1 1 1 PLOS CM KNx General Settings 7 Motion Control setpoint LUX 400 d Light Control Settings e Max Level a5 4 Closed Loop Control Min Level 10 4 Scene 1 Scene 2 Light Sensing Coridor Hold On Device 1 1 1 PLOS CM KNx General Settings b Motion Control setpoint LUX 200 d Light Control Settings Closed Loop Control i A e Max Level 65 4 Wiin erel 5 4 Scene 1 Scene 2 Light Sensing Coridor Hold On 8 5 4 1 Setpoint LUX The Setpoint LUX parameter defines the light level that the sensor seeks to achieve by adjusting the level of the associated group under control 8 5 4 2 Max Level The Max Level defines the upper percentage to which a channel can change to achieve the Setpoint LUX 8 5 4 3 Min Level The Min Level defines the lower percentage to which a channel can change to achieve the Setpoint LUX 8 5 5 Open loop light control Open
169. settings Recall Scene 1 4 Light Control Settings Band 1 Threshold 350 Open Loop Control Bands Light Sensing Corridor Hold On Band 2 Execute Actions Recall Scene 2 Band 2 Threshold 700 Band 3 Execute Actions Recall Scene 3 The first band represents the lowest lux level range Subsequent bands start from the previous band s threshold level For Open Loop Light Control actions follow the same conventions as outlined for Motion Control previously For Open Loop Light Control the sensor applies a lux level deadzone of 10 of the band threshold The sensor will not execute any actions when sensing lux levels within this zone This can also be referred to as the hysteresis zone For example if the sensor has a Band Threshold of 300 lux the sensor will not execute any actions when it senses a lux level between 270 and 330 lux 10 4 6 1 Band X This parameter enables or disables control in the scene Options No Action Philips LightMaster 156 LightMaster Multifunction KNX Sensor Execute Actions 10 4 6 2 Recall scene This parameter sets the scenes number that is recalled if the lux level is above the threshold 10 4 6 3 Band X Threshold The lux level defines the start of the next band not applicable for highest numbered band 0 4 6 4 Recall Level Device 1 1 15 PLOS CM KNX General Settings 4 Motion Control Settings Recall Level 5 4 Light Control Band 1 Band 1 Threshold Band 2 Recall Level 5
170. ster Dry Contact Switch 8 Description The DALI MultiMaster Controller is a fully featured DALI load controller supporting two way groups to DALI lamps sensors and dry contact input devices Each lamp can be individually controlled by the DALI MultiMaster controller through a unique address in each of the light fittings The controller is able to zone and re zone logical DALI areas without changing network wiring It can also receive network messages from the light fittings and devices Multiple universes can be controlled together using additional controllers connected over KNX With 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 a DALI universe that are power via the relay have been dimmed to OFF A total of 10 user interfaces PLOS CM DALI and or PPM 14 DALI may also be connected directly onto the DALI bus DALI sensors and dry contact devices Max 10 devices Total of 64 DALI luminaires broken a ee up over 3 x RCDs Earth Neutral a E E wg a ToL ELE OOO OID O D 9 9 6 0 OM eae RCD RCD RCD 20A MCB Key eau r a al E La a PHILIPS 5 j Active n ontTRnouer 8 v7 a ican ra Neutral 7 SEE Sew eee See DAD ODIO DI Earth DAL
171. switch occupancy control in the Motion Control Settings Page select Enable Switch from the available actions as illustrated below Device 1 1 1 POBC120 DALI KNX DALT Actuators SSS Motion Control Enabled Enabled Actuator Scenes p DALI Device Settings Enable Scene Disabled m 4 PLOS CM DALT 1 General Settings Enable Level Disabled _ Motion Control Settings Actions Enable Switch Enabled T Light Control Settings PPMI4 DALT 2 Enable Timer Disabled The motion control behavior can be set by selecting Actions in the left hand column of the parameter page The page below appears after selection Control is invoked for either occupancy state by setting the On Motion Action and On No Motion Action parameters to Execute Actions from the drop down list as shown below Device 1 1 1 POBC120 DALI KNX DALI Actuators a On Motion Execute Actions Kol Actuator Scenes S K _ lt c _ gt gt x _ gt gt gt gt _ gt _ gt gt __ s _ DALI Device Settings Switch On 4 PLOS CM DALT 1 General Settings Motion Control Settings Atos T Bests acsons o Light Control Settings ss gt Switch or E PPMI4 DALT 2 Timeout s 500 8 4 4 1 Switch This parameter sets the Switch state ON or OFF recalled by this action 8 4 4 2 Timeout s The Timeout is the delay before the On No Motion Action will be executed after motion was last
172. t also for contact open The parameter window is shown below Device Universal Interfaces 4 fold General Setting Channel A ven TIALS Minimum operation time Factor 10 Channel B 1 255 Channel C Channel D LED A LED B LED C LED D Minimum operation time base is Wt 3 2 2 9 Parameter Minimum operation time Base x Factor These parameters become visible if Debounce time is set to Min operation The effective time of the contact operation is Base x Factor Base options 00ms Imin Factor options 255 Philips LightMaster 19 LightMaster KNX Dry Contact Interface Distinction between long and short operation Yes Device Universal Interfaces 4 fold General Settin SSS mn i Function of the channel Switch Channel A Channel B Distinction between long and Yes dogena iow Channel C short operation ee Channel D Connect contact type normally open LED A l LED B Reaction on short operation OFF LED C TE ee LED D Reaction on long operation no action Long operation after is Base iIIi Factor 2 255 20 Number of objects for short long object object operation LED function set LED A accord to switch value Debounce time cims 3 2 2 10 Parameter Connect contact type This parameter is visible when there is a distinction between a short and long operation It is used to define whether the
173. t by parameter Max number of operations Num of objects If there are multiple operations multiple objects will send the relevant telegram on bus which the telegram set by parameter value send object Tele Operation fold The detail operation process will be describe in the multiple operation parameter chapter 5 CH X Long fold Output Long fold X l bit C T It is visible if parameter Additional object for long operation selected yes Once detected a long operation the object Philips LightMaster 48 LightMaster KNX Dry Contact Interface will send telegram on bus the telegram is set by parameter value send object Tele Long operation 3 3 8 Group object shutter control The group object Shutter Control is shown in below Humber Hame Object Function Descr Group Addresses Le C oR Y T U Data Type Pon Ejo Disable A CH A Disable l bit C W amp Low Eji Dutput shutter UF DOWH A CH A shutter UF DOWH l bit CE I Low Hie Qutput Stoplamella adj A CH A Stopslamella adj l bit CE I Low HAs Upper limit position A CH A Upper limit position l bit C FW gt Low Eja Lower limit position A CH A Lower limit position l bit C WE gt Low Function Object name CH X shutter I UP DOWN Output shutter UP DOWN X I bit C T This group object move up down the shutter by sending command by bus It will move down if the group object send a telegram it will
174. t cyclically Options 100 50 1 56 3 2 3 9 Parameter Interval of Tele Cyclic send This parameter is only visible for Dimming steps It is able to set the interval for telegram cyclic sending after a long operation Options 0 3s 0 5s lOs 3 2 3 10 Parameter Debounce time This sets the vibration time to prevent unwanted multiple operations from the vibration time of bouncing contacts this is the effective time of the contact operation Options Oms 20ms 50ms Min Operation This parameter differs from the others in that the effective time of the contact operation is not only the time for contact close but also for contact open The parameter window for Min Operation is shown in Parameter Debounce time 3 2 3 1 Parameter Minimum operation time Base x Factor These parameters become visible if Debounce time is set to Min operation The effective time of the contact operation is Base x Factor Base options 00ms Imin Factor options 255 Philips LightMaster 23 LightMaster KNX Dry Contact Interface 3 2 4 Parameter window Value force output X Parameter window Value force output X is shown below with and without a distinction between a short and long operation Device Universal Interfaces 4 fold General Setting Function of the channel Walue Forced output hed Channel A i Channel B Connect contact type normally open
175. tch X Settings 114 8 8 Group Addresses 115 8 8 1 Group Address Naming 115 8 8 2 Group Address Linking 116 8 9 DALI KNX Configuration Wizard 117 8 9 1 DALI Configuration Toolbar 118 8 9 2 Control Gears and Devices Toolbar 119 8 9 3 Enumerate DALI Network 120 8 9 4 Locate ballasts devices 120 8 9 5 Assign short addresses to actuator channels and devices 121 8 9 6 Group Address Assignment Window 121 8 9 7 8 9 8 Save to Device and Write Group Data 123 Maintenance Activities 124 Philips LightMaster 8 10 Description of MultiMaster group objects 8 10 1 DALI Actuator X Objects 8 10 2 Sensor X Objects 8 10 3 Dry Contact X Objects 8 10 4 DALI Actuator Failure Objects 8 10 5 Sector Y Z Emergency Test Objects 8 10 6 Emergency Fixture X Status Objects 8 10 7 Preset Table Start Index 9 LightMaster Switch Range 9 1 Description 9 2 Configuration 9 2 1 Rocker Functions 125 25 25 25 25 25 26 126 127 127 128 129 9 2 2 Rocker Function switching 1 object 129 9 2 3 Rocker Function switching 2 objects 129 9 2 4 Rocker Function Dimming 9 2 5 Rocker Function Blind Shutter 9 2 6 Rocker Function Scene 9 2 7 Rocker Function Value 9 2 8 Push Button Functions 9 2 9 Push Button Function Switching Standard 9 2 10 Push Button Function Switching Extended 9 2 11 Push Button Function Scene 9 2 12 Push Button Function Value 10 1 Description 10 2 Configuration 10 2 1 General Settings 10 3 Occupancy d
176. ted 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 An example would be the level of background lighting on a display located in an area that also receives natural light In this scenario it may be necessary to increase the background lighting level as natural light increases in the foreground to achieve an appropriate contrast ratio Specifically this could be achieved by selecting a low background Scene 3 when the lighting level is between 0 350 lux and intermediate scene 2 when the lighting level is between 350 700 lux and a high level scene when the lighting level exceeds 700 lux To invoke open loop light control in the Light Control Settings page select Open Loop Control from the Application Mode drop down list as illustrated below Device 1 1 1 PLOS CM KNX General Settings ia a 4 Motion Control ApEn Made Oe nF settings d Light Control settings Open Loop Control Bands Light Sensing Comidor Hold On The following group objects are provided when this function is selected a 9 Light Sensor Scene l Eye C R W T scene number Low F 6 Light Sensor Light Level 2 Byte C R T lux Lu
177. ter bus voltage recovery If the power is to be returned following a bus voltage failure the following functions can be selected Options Unchanged ON OFF If you select Unchanged the channel will retain its current setting once bus voltage is returned If you select Standby the channel will return to the initial status prior to the power failure The ON and OFF options enable or disable the channel 6 2 10 4 Save statistics for ON switching counter 4bytes Save statistics for ON switching counter Saving statistics is useful for controlling and monitoring Options Enable Disable 6 2 10 5 PWM cycle time 1 65535 min The minimum cycle time amounts to minute 6 2 10 6 PWM cycle time 0 59 sec The cycle time can also be stated in seconds 6 2 10 7 Control telegram is received as Options bit PWM ON Start OFF Stop byte 255 ON 0 OFF other valve With the value 255 you permanently switch ON with 0 you permanently switch OFF the values between 1 254 define the switching points within the PWM cycle Philips LightMaster 74 LightMaster Relay Actuators 6 2 10 8 Transmit status response object telegram status heating Options No response Always respond Only after changed only respond if status changes 6 2 10 9 ON position of valve The following values determine the switching points of the PWM cycle in bit operation in the byte operation the switching points are defined by the value of the
178. th long keystroke For this function one KNX group object is provided The object is set to the scene number configured for the button Fa 0 A upper button sc group A object 1 1Byte C T Low Fal 2 A lower button sw group A object 3 1 bit eM Low Philips LightMaster 136 LightMaster Switch Range 9 2 12 Push Button Function Value This logical function configures one single physical push button to set one KNX group object to a predefined value The Datapoint type for the KNX value object is configurable It may be Byte 2Byte or 4Byte Device 1 1 1 Philips First Series Panel Euro Style KNX group A name of button max 16 chars A upper button group A uppe i group A lower button function of button group B group group D datatype subtype value 0 255 If I Byte is selected two subtypes are available for specifying the value A selected input range of 0 255 allows the value to be specified in the range 0 to 255 The value is transferred directly to the KNX group object A selected input range of 0 100 allows the value to be specified in the range of 0 to 100 This value is converted to a value in the range of 0 255 whereby 0 remains 0 and 100 corresponds to 255 Tip the preferred datatype for LightMaster actuators is Byte using 0 255 or 0 100 values Device 1 1 1 Philips First Series Panel Euro Style KNX group A name of button ma
179. 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 8 2 1 DALI Actuators Settings The controller configuration parameters can be accessed by selecting the Settings group in the left column of the parameters page Device 1 1 1 POBC120 DALI KNX 8 2 1 1 Actuator count This parameter sets the number of lighting actuator channels Control Gears This corresponds to the number of short addresses used in the DALI universe DALI short addresses are in the range from 0 to 63 permitting a maximum of 64 DALI devices Usually less than the 64 address maximum is used due to circuit loading considerations and to leave spare addresses for future modifications Philips LightMaster 89 LightMaster DALI MultiMaster Controller 8 2 2 Parameter Window Actuator X Parameter window Actuator X will be shown for each actuator channel created by the Settings Actuator Count Parameter Device 1 1 1 PDBC120 DALI KNX 4 DALI Actuators Emergency Sector None Settings cn Actuator 1 CO Presentation Scene On OF Relative Level ki Actuator 2 Actuator 3 Min Level m Actuato
180. the fourth level is modified from the value of level 3 the switch sequence is 000 001 01 1 1 11 0I1 The data sent on the bus is the value of the group object after being modified So after the first press the three objects would read 0 0 I After the second press the three objects would read 0 1 1 And so on Switch upwards Switch downwards sets the direction in which the sequence is changed The group object level increment decrement X is used to increase or decrease the switch level means increase one level and 0 means decrease one level Different options have different group objects and different switch levels but the configuration is the same in the case of the same switch sequence type 3 2 6 3 Parameter Type of switching sequence The switching sequence can be selected here Each sequence has other object values for each switching level Philips LightMaster 30 LightMaster KNX Dry Contact Interface Options Sequentially on off one push button Sequentially on off several push buttons All combinations The table uses 3level as the example send the modified data on the bus data 0 OFF I ON Sequentially on off one push button 000 001 O1 I I 11 01 1 O0I Sequentially on off several push buttons 000 001 011 I 1 lor I 11 01 1 001 000 All combinations 000 001 011 010 110 111 101 100 Gray code 3 2 6 4 Parameter Function on operation
181. ts to OFF 0 or ON 1 independently The upper push button controls the first KNX group object the lower push button controls the second KNX group object Philips LightMaster 129 LightMaster Switch Range Parameters allow you to configure each physical push button separately ON OFF or TOGGLE ON followed by OFF followed by ON and so forth may be selected Device 1 1 1 Philips First Series Panel Euro Style KNA group a name of rocker max 16 chars A rocker group A rocker group B function of rocker switching 2 objects ha group C group D action of upper button ON action of lower button For this function two KNX group objects are provided The first object is controlled by the upper button the second object by the lower button Fil 0 A rocker top switcl group A object 1 1 bit C T Low Pa 1 A rocker bottom s group A object 2 1 bit cc ly Low 9 2 4 Rocker Function Dimming This logical function configures two physical push buttons top and bottom button to set two KNX group objects depending on the length of the keystroke A short keystroke affects the first object to switch ON I or OFF 0 A long keystroke affects the second object to perform dimming up or dimming down of a light source When the key is pressed and held a START DIMMING up or down telegram is sent By releasing the key a STOP DIMMING telegram is sent Parameters allow you to configure which physical push button is
182. tuator object Heating actuator object with bit control Nummer Mame Funktion L nge JE JL S J JA Eio allgemein 2 klisch senden 1 bit E Sio x SLE m E 10 Ausgang Schaltung mit Bit Kontrolle 1 bit ko 5 Elo allgemein ahleh senden 1 bit k L Gio Ausgang Schaltung mit Byte Kontrolle 1 Byte K 5 A Number Function Data types EISI 10 Output N Switching with bit control C W U DPT 1 001 l bit The PWM will be started when I is received and stopped when 0 is received Runs automatically via the ETS once turned on EISI 22 Output N Switching with byte C W U DPT 5 004 control I bit Output ON always if value 255 output OFF if value 0 Otherwise the switching points of the PWM cycle will be determined via a value delivered by the bus 6 4Applications 6 4 1 Scene Scene output a 6 2 eter GO sw Q O Qo O Scene oulpul3 d amp Dia amp Scene outputs G G C eee sws O O OO ChannelA GS ON _ OFF Five scenes per channel can be stored in the device The scene numbers can be selected between and 64 Philips LightMaster 8l LightMaster Relay Actuators 6 4 2 Threshold Value 2595 Oberer Schwellenwert Unterer Schwellenwert AUS TURWEran 3 AN i dert 6 4 3 Blind The blind function contains two threshold values the upper and lower threshold value both of which can be defined between 0 25 This function requires two channel outputs the first of wh
183. utton 0 0 255 For this function two KNX group objects are provided The first object is set to the predefined value for the upper button The second object is set to the predefined value for the lower button Fal 0 A rocker top value group A object 1 AByte C T Low Fal 1 A rocker bottom v group A object 2 Byte CE Low 9 2 8 Push Button Functions With button functions the upper and the lower button are always configured separately Any combination of button functions are possible i e the upper button may be used for switching and the lower button may be used to call a scene 9 2 9 Push Button Function Switching Standard This logical function configures one single physical push button to set one KNX group object to OFF 0 or ON 1 Parameters allow you to configure the physical push button to set the object to ON OFF or TOGGLE ON followed by OFF followed by ON and so forth For this function one KNX group object per button is provided Fal 0 A upper button sw group A object 1 1 bit C T Low Fil 2 A lower button sw group A object 3 1 bit tS Do Low 9 2 10 Push Button Function Switching Extended This logical function configures one single physical push button to set one KNX group object to OFF 0 or ON 1 when the button is pressed and also when the button is released A first telegram is created when the button is pressed and a second telegram is created when the button is released Parameters allow to
184. vel The relationship between the two levels is determined through calibration The database file for the multifunction sensor includes a plug in for calibration To run Sensor Calibration Plug in Right click on the sensor in the topology tree 2 Select Plug In then Calibrate Sensor n a FESTITA ry X Add Devices Delete N i fina Add Devices New Dynamic Folder ina PIT 4 fr All Devices Number Name Object Function Description Group Addresses Length C R W T U Data Type Priority Dynamic Folders ng 0 Motion Sensor Scene 1Byte C R W T scene number Low a i t 10 prosicmuary x13 Mation Sensor Fnahle Disable ibt C R W enable Low B2 0 Motio Edit Parameters el 2 Byte C R T lux Lux Low mz 3 Motio Download B 6 Light Unload Info gt Reset Device a _ T Find p Plug In gt Calibrate Sensor Philips LightMaster 149 LightMaster Multifunction KNX Sensor The calibration plug in page should appear as below PLOS CM KNX Sensor Calibration Connected Max Raw Value f p00 Max Lux Value 500 a Polling Interval ms 11000 The Max Raw Value and Max Lux Value parameters define the upper limits of the graph within the page for display purposes only Adjust these as necessary to provide the preferred graphing resolution 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 Enter the measu
185. x 16 chars A upper button _ group A upper button group A lower button function of button value group B group C group D datatype subtype input range 0 255 input range 0 255 value input range 0 100 0 255 If 2Byte is selected three subtypes are available for specifying the value e A selected subtype of 6bit unsigned integer offers an input range of 0 65535 e A selected subtype of I 6bit signed integer offers an input range of 32768 32767 e A selected subtype of 6bit float offers an input range of 671088 670760 Philips LightMaster 137 LightMaster Switch Range Device 1 1 1 Philips First Series Panel Euro Style KNX group A name of button max 16 chars A upper button group A upper button group B group C group D datatype subtype EIS10 16bit unsigned integer FIS10 16bit unsigned integer value EIS10 16bit signed integer 0 65535 EISS 16bit float If 4Byte is selected three subtypes are available for specifying the value e A selected subtype of 32bit unsigned integer offers an input range of 0 4294967295 e A selected subtype of 32bit signed integer offers an input range of 2 147483648 2 147483647 e A selected subtype of 32bit float offers an input range of 99999999 99999999 Device 1 1 1 Philips First Series Panel Euro Style KNX group A A me name of button max 16 chars A upper button group A upper button group A lower button function of
186. x Low a 10 Light Sensor Enable Disable 1 bit C RK We enable Low 110 4 5 1 Open Loop Control Philips LightMaster The light control behavior can be set by selecting Open Loop Control in the left hand column of the parameter page The page below appears after selection 154 LightMaster Multifunction KNX Sensor Device 1 1 1 PLOS CM KNX General Settings J lb Motion Control Band Count 3 d Light Control gt 17 a i Settings l Min Update Period 5 1 Open Loop Control l oe Actions Scene Bands l Light Sensing Scene Count 4 Comidor Hold On Control in Scene 1 Enabled x Control in Scene 2 Enabled Control in Scene 3 Enabled Control in Scene 4 Enabled 10 4 5 2 Band Count The Band Count parameter sets the number of light level bands for which control actions can be defined 10 4 5 3 Min Update Period s The Min Update Period parameter sets the shortest time interval that light level adjustment messages will be issued to the group under control Consideration of an appropriate period should take into account the responsiveness of required level changes and the corresponding volume of network traffic generated 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 10 4 5 4 Actions For Open
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