PRESENCE DETECTORS PD00C03KNX – Inwall
Contents
1. 0 for unlocking Parameter Function when locking switching mode This parameter defines the function when locking The following parameters can be selected Lock only no telegram is sent to the bus Locking prevents the channel from being activated the detector being active the follow up time elapses Afterwards the detector does not switch on again Lock with ON telegram Lock with OFF telegram Parameter Function when unlocking switching mode This parameter defines the function when unlocking The following parameters can be selected Time corridor function in seconds Unlock only Eelectron Spa info eelectron com www eelectron com PDOOCO3KNXF100020101 Pagina 8 di 16 Unlock with ON telegram Unlock with OFF telegram Parameter Locking via object possible dimming mode This parameter defines the function when locking The following parameters can be selected Lock only no telegram is sent to the bus Locking prevents the channel from being activated the detector being active the follow up time elapses Afterwards the detector does not switch on again Lock and transmit value a dimming value between 0 to 100 can be defined Parameter Function when locking This parameter defines the function when locking The following parameters can be selected Lock only no telegram is sent to the bus Locking prevents the channel from being acti2. Factor Correction value Settings HVAC Presence output 1 2 3 HVAC channel Operating mode detector O ND Light dependent switching Channel HVAC presence Set value HVAC presence output 1 Detector transmits Overwrite follow up time Overwrite set value NO gi R WO DN Change trigger function Eelectron Spa info eelectron com www eelectron com PDOOCO3KNXF100020101 D gt oo OA ooa AA aoa Aah A Bp BR DB BA a a 2 mp 32 3 at ok a v NNN i Do ck F Row W lt i fo i oe ot eas a aaa A A Bp Pp Pagina 2 di 16 PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR eelecicon PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook 8 Safety pause 15 9 Follow up time 15 10 Number of observation window 15 11 Length of observation time 15 12 Reaction via central object 16 13 Bus voltage return 16 14 Behavior upon locking 16 Eelectron Spa info eelectron com www eelectron com PDOOCO3KNXF100020101 Pagina 3 di 16 1 General 1 Basics for KNX BUS PDOOCOxKNX KNX occupancy detector receives its operating voltage via the BUS cable It also sends or receives telegrams via this cable To do this the communication objects of the occupancy detector have to be linked to the desired communication objects of other actuators The settings are made using the ETS programming tool To understand these instructions users have to have completed a KNX commiss
3. The communication object Value 1 Output is defined as the base channel If for example an offset of 30 is parameterized the second channel is only activated when the base channel reaches 30 This provides a fixed control difference of 30 between the two objects Value 1 Output and Value 2 Output The base channel reaching 100 the second channel is raised to 100 automatically Orientation light By means of the function orientation light the lighting can be dimmed after elapse of the follow up time The dimming value can be defined in The duration of the dimming can be limited or can last permanently if no movement is detected and the preset lux value is not exceeded Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook Lamp burn in function At present it is said that lamps should be burned in Therefore a burn in function is implemented in the software It can be activated and deactivated Burning in a lamp means that the lamp can be switched on and off but no dimming is possible during this time During the burn in time the lighting cannot be controlled automatically by means of the occupancy detector or manually The current state of the burn in function time passed can be recalled via the communication object Recall burn in time Input and is output via
4. com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook Change trigger function This function being activated it becomes possible to change the trigger behavior of the occupancy detector by means of the communication object Switch on upon movement Input or the remote control Steps In the fully automatic mode the occupancy detector is activated by a detected movement If the trigger function is changed the occupancy detector can only be activated via the communication object External influence Input light control output Reaction via central object This parameter is for defining the reaction to an OFF telegram 0 telegram to the communication object central off input Delay time via central object in seconds This parameter is for defining a delay time for executing the central off command 0 triggering a reaction without delay Manual switching on in case of sufficient ambient light This feature offers the possibility to decide whether the end user is allowed to switch on the lighting in case the ambient light is sufficient The function being activated the dimming or switching output can be activated in case of sufficient ambient light When activating the occupancy detector the various operation modes have to be taken into consideration 1 bit The lighting switches on and remains o
5. lighting in fully semi automatic mode If the device is parameterized as a dimmer the settings described under point 3 par 2 apply The parameters for use as a switch are described under point 3 par 3 8 Internal logic of detector The entire logic is processed internally by the device This means that other devices such as light sensors timers or logical devices are not required Interventions in the light controlling are not recommended as this could cause behavior that may be interpreted as an error In particular this applies to higher level logical devices such as KNX servers or operator panels Manual interventions should only be made using the objects Locking object Input or External influence Input 2 General Settings 1 Activate deactivate outputs The communication objects of the following channels become visible only after activation of achannel in ETS Light control output HVAC Presence Output 1 HVAC Presence Output 2 HVAC Presence Output 3 Light sensor settings Test Mode Led In case the light control output or one of the three HVAC Presence outputs is activated further parameter settings become visible enabling to define detail functions PDOOCO3KNXF100020101 Pagina 5 di 16 2 Test Mode The test mode serves for checking the detection area Upon detection of movement the lighting is switched on for 2 seconds and then switched off again The sw
6. time passed Burn in time Since various lamp producers indicate different burn in times it is possible to vary the time in the occupancy detector 1 100 hours The programmed time being elapsed the occupancy detector returns to its automatic mode 3 Additional functions Switching mode Tolerance Here the tolerance can be defined which is added to the calculated threshold for switching off For further details please refer to the diagram concerning light evaluation in section 1 par 6 Parameter Daylight depending shutdown This parameter is for setting time T2 For further details please refer to the diagram concerning light evaluation in section 1 par 6 Q A parameterized time of 10 minutes is recommended Output This parameter is for defining the signal which is sent to the BUS upon detected movement For standard applications the 1 bit signal is sufficient Additionally a 1 bit 1 byte 1 bit 1 byte and scenes mode can be parameterized This sends a value of 0 100 to the BUS The 1 bit signal can be selectively parameterized for switching on or off Scenes mode The parameter Scenes mode is for starting scenes upon activation or deactivation of the Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook channel Please select the corresponding scene number Paramete
7. PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR eelecicron PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook PRESENCE DETECTORS PDOOCO3KNX Inwall Mounting PDOOCO4KNX Surface Mounting Product Handbook Products PDOOCO3KNX PDOOCO4KNX Description Inwall Mounting Surface Mounting presence detectors Document Version 1 1 Date 12 01 2015 Eelectron Spa info eelectron com www eelectron com PDOOCO3KNXF100020101 Pagina 1 di 16 PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR eelecicron PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook General Basics for KNX BUS Symbols used i Function of an occupancy detector Detection of movement with the PDOOCOxKNX KNX occupancy detector Installation Location Light evaluation Detector operating mode Internal logic of detector MO PND a fF O LD General Settings Activate deactivate outputs Test Mode Led Oo N General Settings Light Control Output Common Settings switch dimming Additional functions Dimming mode Additional functions Switching mode Occupancy independent dimming mode Slave mode of the occupancy detector AR ak OD Manual influencing possibilities Daylight depending resetting semi automatic mode _ External influence Input Dimming the lighting manually 0O N Light sensor settings Send lux value via object Reflection
8. TECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook off button on the remote control deactivates the LED 3 General Settings Light Control Output PDOOCO3KNX and PDOOCO4KNX presence detectors offer the possibility to control actuators via switching or value telegrams For dimming or switching functions different characteristics of the actuators or the lamps have to be taken into consideration Therefore different parameter settings have to be made respectively 1 Common Settings switch dimming Output Type This parameter defines the function of the occupancy detector The selectable functions are switching and dimming In the switching mode 1 bit 1 byte 1 bit 1 byte or scene mode telegrams are sent to the KNX bus in the dimming mode 1 byte telegrams Follow up time The follow up time determines how long the lighting remains on after the last detected movement Each newly detected movement restarts the follow up time see diagram The follow up time can be defined under Follow up time in seconds Follow up time in minutes and Follow up time in hours and is the sum of these three times For fluorescent lamps a follow up time of at least 10 minutes is recommended in order to improve the lifetime of the lamp LAG TIME ON f MOVEMENT NO MOVEMENT PDOOCO3KNXF ___ _ X RETRIGGERING Pagina 6 di 16 20 TIME MIN Overwrite Follow up time Th
9. all movements e g work on a PC keyboard we recommend installation directly above the desk Avoid sources of interference such as Radiators Ventilation systems exhausting warm air Lamps directly within the detection area in order to prevent optical feedback All these sources also generate heat and therefore can provoke detection errors A mounting height of 2 5m has to be strictly observed for optimizing the detection range and sensitivity 6 Light evaluation The following diagram is provided for an easier under standing light curve for fluorescent lamp with daylight Example BRIGHTNESS Switch off threshold Target value i 2 ee E E Brigh itchi MOTION PDOOCO3KNXF100020101 Pagina 4 di 16 TIME In the example shown in the diagram the light value is initially above the set value set value to be defined via Threshold value brightness The light output does not react upon detected movement When the light value falls below the set value and the occupancy detector detects movement the light is switched on The curve describes the total luminous intensity in a room with daylight and artificial light Time T1 starts after switching on the lighting This time can be defined in the parameters under Calculate threshold for switching off after As can be seen from the diagram for example fluorescent lamps take a few minutes to reach their maximum luminous intensity After elapse of t
10. ameterized change of the light value 2 Reflection Factor The light measurement on the ceiling is based on the fact that incoming sunlight as well as the artificial light in the room is reflected to the ceiling and can be measured The problem is that the light is not reflected in full intensity The degree of reflection is strongly influenced by the properties of the floor or the furniture which means that the light value measured on the ceiling does not correspond to the bright ness of the room The KNX occupancy detector must there fore be adapted to the relevant conditions Luxmetre PDOOCO3KNXF100020101 Pagina 13 di 16 To make this adjustment a lux meter must be positioned at the point where the desired lux value is to be achieved The lighting must be switched on please allow 10 minutes for fluorescent lights to warm up The lux value is then measured e g on the desk Finally the light value on the ceiling should be determined To do this a lux meter can be held at the position of the occupancy detector or the occupancy detector can output the lux value on the BUS Once the values have been determined the reflection factor can be set Example Measured value desk 600 Lux Measured value ceiling 300 Lux The ratio is 1 2 so a reflection factor of 1 2 should be defined Fine adjustments can then be made with the offset see next section 3 Correction value This parameter is used to calibrate the
11. apse of the parameterized time the device returns to the pre set operation mode This implies that a permanent deactivation of the lighting is not possible and the lights are switched on again upon the next detected movement In the semi automatic mode the corridor function is not possible Corridor function via remote control The corridor function can also be activated via remote control To this end the parameters corridor function and corridor function via remote control have to be activated PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook Here the time for the corridor function can be freely selected between 1 and 60 seconds Locking function The locking function allows for locking the detector so that telegrams cannot be sent via the light objects or the brightness objects respectively to the bus Object Switching channel Output Light control output or Value 1 Value 2 Output Light control output It is also possible to send one last defined telegram upon locking or unlocking Locking via object possible Here the locking function has to be activated The locking selectively can either be activated by sending 1 or O to the locking object Locking channel input Light control output For unlocking the other telegram is used respectively for example 1 for locking and
12. cking The value to be sent via the output Occupancy Output HVAC 1 when locking the occupancy detector can be defined This function depends on the settings defined under the parameter Detector transmits Corresponding to its configuration the occupancy detector sends an ON telegram an OFF telegram or shows no response If the switching OFF is activated there is only the possibility to send an OFF telegram Only the parameters Deactivate channel or No response are active An ON telegram cannot be sent For Only ON telegram the same behavior applies In this case only an ON telegram can be sent PDOOCO3KNXF100020101 Pagina 16 di 16
13. e available In fully automatic mode The lighting being switched off it can be switched on by means of a 1 bit ON signal to the communication object External influence Input Light control output The lighting remains on as long as movements are detected After elapse of the follow up time the occupancy detector switches off the lighting PDOOCO3KNXF100020101 Pagina 12 di 16 The lighting being switched on it can be switched off by means of a 1 bit OFF signal to the communication object External influence Input Light control output The lighting remains off as long as movements are detected After elapse of the follow up time the occupancy detector returns to its standard mode In semi automatic mode In semi automatic mode a pushbutton is essential because it triggers the first ON telegram Afterwards the follow up time elapses or is retriggered by movements The light value exceeding the set value the occupancy detector evaluates too bright and in the fully automatic mode does not switch on In the dimming mode the light value exceeding the set value or not is indicated as follows After the pushbutton has been pressed in the dimming mode the detector switches the lighting on at a value of 10 In case the lighting shall remain on permanently the dimming has to be released manually The manually adjusted dimming value remains active until the follow up time has e
14. e follow up time of the presence detector can be changed using the communication object Follow up time in minutes Input Light control output and or by means of the remote control Via remote control predefined follow up times can be defined As soon as a new value has been entered via remote control or the communication object Follow up time in minutes Input Light control output the occupancy detector operates with the new standard time AN The new follow up time has to be entered in minutes Threshold value brightness 1 and 2 The set value is the lux value desired in the room and can be freely selected between 5 to 1200 lux Q Typical and recommended set value is 500 lux Overwrite set value 1 The 2 byte communication object overwrite set value Input is for externally overwriting set value 1 Additionally the set value can be overwritten using the remote control First both functions have to be activated After activation it is possible to choose between overwriting the set value by means of the communication object the remote control or both communication object and remote control Safety pause The safety pause is for avoiding optical feedback The safety pause is the time in seconds between switching the lighting off and on again It prevents the lighting from being switched on without any movement for example due to thermal noise Eelectron Spa info eelectron
15. he time T1 the threshold for switching off is calculated The difference in the brightness value determined in time T1 should be added to the parameterized set value In addition a tolerance is added to this value The tolerance can also be adjusted to 50 lux or 100 lux under the parameter Tolerance Movements occurring during the dark phase trigger the follow up time again so that the lighting remains on When the daylight value slowly rises and exceeds the threshold for switching off delay time T2 starts This is the daylight depending shutdown which switches off the light ing even though the follow up time has not yet elapsed The light value has to remain above the threshold for switching off constantly during this time This function is an energy saving measure The lighting switches off after elapse of time T2 7 Detector operating mode The detector operating mode can be defined under the main tab Light control output The device can be operated in the following operating modes 1 Standard mode 2 Semi automatic mode 3 Slave mode Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook 4 Permanent dimmer DIM application only The individual operating modes are explained in the description Output type This parameter can be used to determine whether the device should switch or dim the
16. here a specific lux value PDOOCO3KNXF100020101 Pagina 11 di 16 should be provided permanently bank lobby passage etc In this mode the occupancy detector only evaluates the brightness and controls it regardless of movement i e permanently If permanent light control is not required at certain times a 1 bit telegram can be sent to the locking object by means of a logic for switching off the permanent dimmer permanently for more information about locking please refer to section 3 par 1 Locking via object possible 5 Slave mode of the occupancy detector A problem that arises in practical applications is the master master operation of occupancy detectors This can lead to errors in the lighting system because both masters perform brightness evaluations and specify follow up times A solution to this problem is offered by the master slave system The master performs all logical evaluations such as brightness detection or the specification of the follow up time The slave is used only to extend the detection range Several slave devices can work together with one master SLAVE 21 o exTeRNAL MOVEMENT SLAVE MASTER E Z0 exTeRNAL MOVEMENT gt GROUP ADDRESS _ lt 4 EXTERNAL MOVEMENT SLAVE 0 EXTERNAL MOVEMENT The locking time is the only parameter that can be defined in the slave mode It specifies the dead time between sending two signals 0 A dead time gt 30 sec is rec
17. ion of the follow up time Each movement retriggers the follow up time The follow up time being elapsed a O telegram is sent Same behavior as for channel deactivation Via the communication object Value 1 2 Output Light control output 0 Upon bus voltage return the channel behaves exactly the same as when being influenced via the communication object External influence Input Light control output The offset mode not being activated the same values are sent via the object Value 2 Output as for Value 1 Output Light control output PDOOCO3KNXF100020101 Pagina 9 di 16 2 Additional functions Dimming mode Cycle time for controlling Cycle time for controlling defines the dimming speed of the lighting A A mean time of 3 seconds is recommended If the dimming speed is too fast the lights could flicker In case this happens the cycle time should be adjusted to a higher value Regulation minimum The value defined here is the minimum value for regulation Softstart If the soft start is active the brightness slowly increases from 0 to the target value upon detected movement By default the soft start is deactivated which means that the lighting is switched on at a brightness of 100 and then adjusts itself towards the set value Offset If a separate control of 2 rows of lights is required this can be realized using the offset
18. ioning and configuration course 2 Symbols used The application description below uses various symbols to provide a better overview A brief explanation of these symbols is given here Q This symbol indicates recommended parameter settings which by experience offer the optimum device performance A This symbol indicates text passages which have to be read necessarily in order to avoid errors during configuration and commissioning 3 Function of an occupancy detector In order to offer a comfortable access to this application description the general functions of an occupancy detector will be described first The essential characteristic features are movement detection light evaluation and the internally stored logic 4 Detection of movement with the PDOOCOxKNX KNX occupancy detector The KNX occupancy detector uses the passive infrared system which detects heat movements and converts them into signals that can be evaluated by a processor The Eelectron Spa info eelectron com www eelectron com SWITCHING OBJECT PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook most important criterion for a good detection of movement is selecting the right installation location 5 Installation Location The occupancy detector should be installed so that the main direction of movement is always tangential to the side of the device For detecting very sm
19. itching Channel HVAC presence This parameter activates the brightness dependent switching As soon as the value falls below the set value defined for HVAC Presence output 1 and movement is detected the communication object HVAC Presence output 1 sends a 1 bit telegram The set value being exceeded the channel is not activated As soon as a 1 telegram is sent to the communication object External influence Input HVAC 1 the lighting is switched on for the duration of the follow up time Each movement retriggers the follow up time 3 Set value HVAC presence output 1 Defining the set value for the channel HVAC presence output 1 if the parameter HVAC 1 Occupancy Output is activated 4 Detector transmits The parameter Detector transmits defines the type of telegram the detector sends There are the following options ON and OFF telegram PDOOCO3KNXF100020101 Pagina 14 di 16 Only ON telegram Only OFF telegram 5 Overwrite follow up time The follow up time of the occupancy detector shall be changed via the communication object Follow up time in minutes Input HVAC 1 The telegram via the communication object has to include the new follow up time in minutes Upon receipt of the telegram the occupancy detector works with the new follow up time The possibility to manually change the time is enabled by selecting via com
20. itching off duration depends on the parameterized length of the safety pause The test mode can be activated as follows Activation via communication object The test mode can be activated with a 1 bit telegram to the communication object Test mode Input Activation via remote control The test mode can be activated by means of the test button on the remote control The test mode can be deactivated any time by means of three different methods automatically after 3 minutes after pressing the reset button on the remote control by means of a O telegram to the communication object test mode input The test mode has to be activated first in the General Settings 3 Led The integrated LED of the occupancy detector can be deactivated because in some cases it could be a source of interference The LED can be activated deactivated by means of the following function Activated no possibility to deactivate the LED Deactivatable activatable via comm object The LED can be deactivated with a 1 bit 0O telegram via the communication object LED input General The LED remains off until it is reactivated with a 1 bit 1 telegram Deactivatable activatable via remote control Press ing the LED on button on the remote control activates the LED pressing the LED Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DE
21. lapsed and the device switches off 3 Dimming the lighting manually A further application is the dimming by means of the pushbutton If the lighting is dimmed manually the occupancy detector only sends an OFF telegram to the BUS after elapse of the follow up time Steps When dimming manually the actuator is dimmed directly by means of a pushbutton The occupancy detector receives a signal via its communication object Manual dimming Input Light control output disabling the occupancy detector to send telegrams to the BUS via its communication objects Value 1 2 Output Light control out put Only the OFF telegram is send to the BUS after elapse Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook of the follow up time Afterwards the detector returns to its parameterized mode 5 Light sensor settings 1 Send lux value via object This parameter is deactivated by default As soon as the menu item Transmit light value in cycles or Transmit light value in the event of changes is activated the communication object Measured lux value Output appears Transmit light value in cycles The light value is sent to the BUS again after the defined time has elapsed Transmit light value in the event of changes The light value is sent to the BUS only after the par
22. light value A value range from 200 to 200 lux can be freely parameterized 6 Settings HVAC Presence output 1 2 3 The HVAC channel Operating mode detector HVAC Heating Ventilation and Air Conditioning has been designed in such a way that systems with high energy consumption can be started with a time delay Furthermore an alarm indicator can be simulated with an HVAC channel 1 HVAC channel Operating mode detector The HVAC channel parameter Operating mode detector can be used to influence the main function of operation of the relevant HVAC channel Fully automatic mode or semi automatic mode can be selected Fully automatic mode Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook According to the parameterized behavior the HVAC channel sends a 1 bit 1 telegram to the BUS The parameters Observation time in seconds Observation time in minutes and Number of observation windows are taken into account Semi automatic mode To activate the corresponding HVAC channel a 1 bit 1 telegram has to be sent to the communication object External influence Input HVAC 1 2 3 The parameters Observation time in seconds Observation time in minutes are not taken into account Only the follow up time is observed 2 Light dependent sw
23. munication object The parameter Follow up time in minutes Input HVAC 1 becomes visible and it becomes possible to overwrite the time 6 Overwrite set value Set value 1 is overwritable externally by means of the 2 byte communication object Overwrite set value 1 Input To do this the function has to be activated first 7 Change trigger function This function being activated it is possible to change the trigger behavior of the HVAC channel via the communication object Switch on upon movement Input HVAC 1 Steps In the fully automatic mode each detected movement activates the occupancy detector The trigger function being changed the channel of the occupancy detector can only be activated via the communication object External influence Input HVAC 1 The corresponding telegrams are defined as follows 1 telegram movement dependant triggering 0 telegram semi automatic mode 8 Safety pause Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook The safety pause is for avoiding optical feedback and is the time minimum between switching the lighting off and on again It prevents an activation without any movement for example due to thermal noise 9 Follow up time The parameters Follow up time in seconds Follow up time in minute
24. n as long as persons are present in the room The follow up time being elapsed the lighting switches off each detected movement retriggers the follow up time However if the forced shutdown is activated the lighting is switched off after 15 minutes in case the ambient light is sufficient permanently PDOOCO3KNXF100020101 Pagina 7 di 16 1 byte The lighting is switched on with a value of 10 for the follow up time retriggered by movement or the duration of 15 minutes for the forced shutdown the value not passing below the set value As soon as the value passes below the set value and the lighting is on the dimming of the lighting starts again at a value of 10 Forced Shutdown This parameter becomes visible upon activation of the parameter manual switching on in case of sufficient ambient light The forced shutdown becomes active after manually switching on the lighting in case of sufficient light In case the brightness is permanently sufficient during 15 minutes the dimming switching channel is deactivated Upon pass ing below the set value the normal control starts again Corridor function The corridor function being activated the channel is deactivated by means of a 0 telegram to the communication objects External influence Input Light control output Value 1 2 Output Light control output as well as Switching channel Output Light control output After el
25. ommended in order to en sure that the BUS is not overloaded Locking time slave In the slave mode the locking time can be freely selected from 1 second to 60 minutes Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook 4 Manual influencing possibilities In the semi automatic mode the lighting is not switched on upon the first detected movement as it is the case in the fully automatic mode Here it is switched on by a 1 bit signal to the communication object External influence Input Light control output A To switch on the lighting in the semi automatic mode a pushbutton is essential The lighting is switched off automatically in the same way as for the standard mode 1 Daylight depending resetting semi automatic mode In case the set value is exceeded the occupancy detector switches off the lighting and a follow up time starts This parameter is for defining whether the lighting can be switched on again automatically in case that the brightness value falls below the set value during the follow up time 2 External influence Input The communication object External influence Input Light control output offers the possibility to establish a link with a KNX pushbutton Thereby the control of the lighting can be influenced manually The following functions ar
26. r Calculate threshold for switching off after This parameter is for defining the time the occupancy detector needs for calculating its threshold for switching off For further details please refer to section 1 par 6 Q For fluorescent lamps a time of 5 10 minutes is recommended For resistive loads such as incandescent lamps a time of 1 minute is sufficient Toggle mode If the additional value Threshold value 2 brightness or Set value 2 brightness respectively is activated the communication objects Toggle threshold value 1 and 2 Input switching as well as Toggle set value 1 and 2 Input and Toggle set value and fixed value Input dimming are displayed These communication objects respond to 1 bit telegrams If the parameter fixed value is active the communication objects regarding brightness values only send a fixed value in to the BUS upon detected movement The lighting is not dimmed any more The parameter Fixed value is for defining this value 0 100 The selected threshold or the selected set value fixed value is permanently active even after switching off manually or automatically The communication object Current set value fixed value Output displays the status Set value Threshold 1 1 Set value Threshold 2 2 Fixed value 3 4 Occupancy independent dimming mode The occupancy independent dimming mode is used in areas w
27. s and Follow up time in hours define the follow up time of the HVAC channel It can be defined with an accuracy of a few seconds 10 Number of observation window The number of observation windows can be freely selected between 1 and 20 11 Length of observation time The length of observation windows can be defined using the parameters Observation time in seconds and Observation time in minutes The parameter Activation time offers the following selection possibilities Switch on immediately upon movement Upon detected movement a 1 telegram is sent immediately via the communication object HVAC Presence output 1 The follow up time being elapsed a O telegram is sent Observation time This parameter being activated a delay time can be defined for the channel HVAC presence output 1 via the parameters Number of observation windows Observation time in seconds and Observation time in minutes The first window is activated by movement The time defined using the parameters elapses and a 1 telegram is sent via the communication object HVAC presence output 1 Example Observation time 10 seconds observation window 3 Upon the first detection of movement the time for the first window is started At least one movement must now be detected in each PDOOCO3KNXF100020101 Pagina 15 di 16 window Upon the first detected movement in the las
28. t window the channel switches on for the duration of the follow up time As a result a delay time of 21 30 seconds depending on the last detected movement is achieved The follow up time is retriggered upon each movement in the same way as for the switching or dimming channel lf no movement is detected within one window all windows are reset 12 Reaction via central object This parameter is for defining the response to an OFF telegram to the communication object Central OFF Input Delay time via central object in seconds This item is for defining a delay time for carrying out the Central OFF command 13 Bus voltage return The reaction upon bus voltage return can be parameterized Same behavior as prior to bus voltage failure The channel directly returns to its parameterized operation mode Same behavior as for channel activation The device sends a 1 telegram via the communication object Occupancy Output HVAC 1 for the duration of the follow up time Each movement retriggers the follow up time The follow up time being elapsed a 0 telegram is sent Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook Same behavior as for channel deactivation A 0 telegram is sent via the communication object Occupancy Output HVAC 1 14 Behavior upon lo
29. the communication object Burn in time status Output The burn in function has to be started by means of the programmed medium activation ia via Activation via The burn in function should be reactivated every time the lamp is changed There are three possibilities to activate the burn in function 1 Remote control The button Burn in ON is for starting the burn in function The button Burn in OFF is for stopping the burn in function provided that the parameter inter rupt burn in function is active 2 Communication object Using the communication object Start Stop burn in function Input Light control output a 1 bit 1 telegram activates the burn in function and a 1 bit 0 telegram deactivates it the parameter interrupt burn in function being activated 3 Communication Object or emote control Combination of 1and 2 Interrupt burn in function The burn in function can be interrupted using the remote control or the communication object However the parameter interrupt burn in function has to be activated This means that this function has to be activated intentionally The function can be stopped via PDOOCO3KNXF100020101 Pagina 10 di 16 the communication object Start Stop burn in function Input In case the function Interrupt burn in function is not activated the timer is stopped and returns to the last value stored for the
30. vated the detector being active the follow up time elapses Afterwards the detector does not switch on again Lock with ON telegram Lock with OFF telegram Upon unlocking the device it returns to its standard dimming mode Bus voltage return The reaction upon bus voltage return can be parameterized In switching mode Same behavior as prior to bus voltage failure The occupancy detector adopts the same behavior as prior to bus voltage failure in order to have a predefined state Eelectron Spa info eelectron com www eelectron com PDOOCO3KNX INWALL MOUNTING PRESENCE DETECTOR PDOOCO4KNX SURFACE MOUNTING PRESENCE DETECTOR Product Handbook Same behavior as for channel activation The device sends a 1 telegram via the communication object Switching channel Output for the duration of the follow up time Each movement retriggers the follow up time The follow up time being elapsed a 0 telegram is sent Same behavior as for channel deactivation Via the communication object Switching channel Output Light control output In dimming mode Same behavior as prior to bus voltage failure The occupancy detector adopts the same behavior as prior to bus voltage failure in order to have a predefined state Same behavior as for channel activation The device sends a 1 telegram via the communication object Value 1 2 Output Light control output for the durat
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