User Guide for Optimisation v1
Contents
1. Exit on absence Scene 7 dimming level fixed 0 Automatic scene exit Scene 7 Exit on absence IR Transmission Power 30 30 Startup Mode ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 53 of 57 ORES auto mode 4 PERSONALITY TABLE Qi The following is a list of configurable Personalities for the system highlighting both the Light Level Output of each level and how long the system will dwell in that state LIGHT LEVELS PERSONALITY i aE ae LEVELI LEVEE 2 LEVEL 3 LEVEL 4 LEVEL 3 LEVEL 6 vee LOWLIGHT STANDBY serine Mins MaxLight LEVEL Open Floor 1 100 40 10 0 Open Floor Saver Wo 100 10 10 0 Corridor i 100 80 70 0 Closed Office 100 10 0 0 0 0 15 Amenities 100 10 10 0 15 Store Room wo 100 80 0 0 0 0 15 Breakout 100 10 10 0 15 Super Saver 100 10 o 0 o 0 Demo 10s 100 10 10 0 All On Always 1 100 100 100 Never off 100 50 0 0 100 50 0 0 0 0 0 0 Ripples 1 100 0 100 o 0 0 0 Wall Wash 1 100 100 100 100 100 20 0 Moien n 100 100 0 0 0 0 0 0 100 70 100 10 90 80 80 10 50 10 100 80 100 50 100 40 60 40 100 100 ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 54 of 57 5 5 USER LEVEL PERSONALITY2. e Temporary dimming e Trimming maximum light output levels e Adjusting dwell times e Using different personalities e Daylight dimming e Adjusting motion sensor sensitivity Tier 2 interaction might be appropriate in the following situation David is an office manager of a medium sized internet services business that recently relocated to a refurbished office in the city The business has 24 staff working across half of one floor of a three storey building The office fit out is a few years old and includes Organic Response enabled light fittings across the entire office including the open plan area two closed offices three meeting rooms and an open plan kitchen area David s impressed with the way the lights turn on and off automatically but thinks the office is too bright especially given that there is so much natural light coming into the office through a long row of windows along one side He downloaded the remote app to his smartphone and has optimised some of the settings to improve energy savings Tier 3 Interaction Configuration Interaction at this level is more complex and additional devices can be introduced which start to interact with and contribute to the Occupancy Information Cloud The features of Organic Response that are relevant to this Tier are Zones e Scenes e Wall Switch customisation e Start up mode Tier 3 interaction is appropriate in scenarios like this one Carlos is a Facilities Ma
3. 4 3 FACTORY DEFAULTS SETTINGS esesesesesesececececececececececececescscscsececececececeseseccccccecececscscsecescsesceseosescecececececeee 53 54 PERSONALITY TABLE soriano EE NETE 54 5 5 USER LEVEL PERSONALITY PROFILES sessssssessessssscecesesesececsososcsososcscscscscscscscececececececececececececececscsceceo 55 5 6 ADDITIONAL OPTIMISER LEVEL PERSONALITY PROFILES ccscsccsccececcsccecsccsccsccscsccncescscscescnssceeees 56 ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 2 of 57 Chapter One 1 INTRODUCTION TO ORGANIC RESPONSE Welcome to Organic Response Inspired by nature Organic Response lighting control is based entirely on Distributed Intelligence the best example of which is a school of fish Schooling fish move effortlessly and in complete harmony with their environment with individual fish continuously making small decisions in response to the actions of their neighbours and the environment Each fish is smart enough to operate independently yet together they comprise an elegantly flexible system that solves complex problems easily without the need for centralised control Organic Response enabled lighting operates in a similar fashion There is no centralised control each light fitting is fitted with a Sensor Node that allows it to respond to its environment and information from its neighbouring li
4. The default Personality is Open Floor Personality A setting of the Sensor Node that determines the dimming level for various distances from the closest occupants as well as default values for the dwell timers PIR Passive Infrared The motion sensor in the Sensor Node is a PIR sensor Relay Rather than optimising each luminaire separately the Relay function on the remote control makes it possible to optimise a single luminaire the source light fitting and then have it relay those settings to alll other luminaires This saves time by immediately providing a fully operational starting point for all lights in an area This allows you to eliminate the repetitive work of setting up identical parameters on each luminaire and only spend time individually optimising specific luminaires where required Remote App The Organic Response app that turns your iPhone iPad iPod touch into an infrared remote control in association with the infrared dongle Download instructions at www organicresponse com au resources Scene A temporary mode that typically is to have light at preset levels and ignore occupancy For example a board room may require lights to be at a specific level for projector mode or a hospital may have a night light mode where lights are maintained at 10 to provide adequate light to move around without waking up patients with lights responding to occupancy Sensor Node The Organic Response hardware that conta
5. buttons on the remote app see Light Output screenshot opposite until you reach the required light level Revert to Auto DIMMING LEVELS You can dim a single luminaire using the left hand side buttons or an entire zone using the right hand side buttons LIGHT LEVELS HOW TO DIM A LUMINAIRE Remote app commands 1 Point the dongle at the Sensor Node of the light you want to dim and press the Dim button or Dim button 2 Continue to press the Dim or Dim button until the desired light level is achieved Note that you can speed up dimming by holding the Dim or Dim button down until the desired light level is reached Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of command Dome of Sensor Node flashes red once foreach command received Note that the light will eventually turn off if the Dim button is pressed repeatedly To switch the light on again simply press the Dim button If the Sensor Node flashes red twice in response to a dim command then you have either reached the maximum light level of the luminaire or the luminaire is in Burn In mode and cannot be dimmed see section 4 2 on Burn In Mode Response from luminaire Light will increase in brightness by one dimming level Dim or decrease in brightness by one dimming level Dim Light will increase in brightness Dim or decrease in brightness Dim The second option for dimming a luminair
6. whereby the lights immediately above or adjacent to a large wall are brightened to increase the amount of softer reflected light off the wall To use this feature increase the MaxLight of the relevant luminaires and change their Personality to Wall Wash see section 2 2 on Personalities Conversely you can target lower MaxLight levels for luminaires that sit above pot plants or other decorative furniture By reducing the light levels above these items you further reduce energy consumption and create a more interesting and pleasing lighting environment for the occupants 2 1 5 LowLight HOW TO ADJUST AND RELAY LOWLIGHT LEVELS Remote app commands 1 Using the Dim and Dim buttons of the remote app adjust the light output to the desired LowLight level 2 Still pointing your dongle at the luminaire s Sensor Node press the Set Low button 3 To relay the LowLight setting to other luminaires within the space point the dongle at the Sensor Node of the light you have just adjusted and press the kelay button Note As always be careful when using the Relay command as ALL luminaires that receive the relay signal will adopt the new LowLight setting If you are only wanting to change some of the luminaires in the space change each of their LowLight settings individually Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of each dimming command Dome of Sensor Node flashes r
7. Android devices Together with the Organic Response remote apps the dongle turns the smart device into a simple remote control tool that allows you to optimise or configure the Organic Response Sensor Nodes Dwell Time The System Dwell Time refers to how long it takes for a light fitting to dim down to LowLight state after an area becomes vacant Firmware The software that runs on the microprocessor on Sensor Node Different versions of the firmware apply to different versions of the remote app as well as the User Guide The details of each firmware release is contained in the Release Notes for each firmware release available at organicresponse com au Firmware Interrogate The remote button that initiates the Sensor Node to display the firmware version in Morse Code on the dome LED of the Sensor Node Infrared Dongle Infrared attachment that turns your iPhone iPad iPod into an infared remote control that allows you to optimise your Organic Response Enabled lighting system LinkedIn Forum The online LinkedIn forum that all Organic Response remote app users join when they register to use the Organic Response remote app The forum is a very useful Community of Organic response users that share information and respond to queries about installing and using Organic Response LowLight The state an Organic Response Enable luminaire enters once there is no occupancy in the area just prior to entering Standby state LowLight Time The length of t
8. Dwell Time of between 2 5 minutes for corridor areas e Conversely in bathrooms it may make more sense to increase the Dwell Times to 20 minutes so that people are not having lights turn off on them whilst in a toilet cubicle ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 25 of 57 Ultimately Organic Response is infinitely flexible and there is a wide range of Dwell Times to choose from Remember that if you choose a Dwell Time that is not suitable it is just as easy to re adjust it so don t be afraid to experiment with Dwell Time optimisation The Configuration section of the app see opposite allows you to adjust the Lowlight Time The primary reason you would reduce LowLight Time is to save energy If a light is in its LowLight state then by definition there is no occupancy in the space so it may make sense to reduce the LowLight time below the default setting However if you make the LowLight time too short then the lights may turn off their MinLight level whilst there are still some undetected occupants in the soace which may cause some DWELL TIME HOW TO ADJUST LOWLIGHT TIME Remote app commands 1 Point the dongle at the Sensor Node of the light you want to adjust and press the button showing your preferred Lowlight Time 2 Point the dongle at the Sensor Node of the light whose Lowlight Time you have just adjusted and p
9. PROFILES OPEN FLOOR 4 Number of light fittings from motion event gt MOTION EVENT 15 94 3 2 1 i OYO 44 64 44 4 44 64 44 44 64 444A 100 5 80 2 g 60 40 D 20 The factory default personality for all Sensor Nodes Appropriate for general commercial office use and suitable if not ideal across a range of building spaces SUPER SAVER Number of light fittings from motion event gt MOTION EVENT 15 94 3 2 1 i LOYCOYOYOYOYOV o yevyeyey ey eye 100 80 60 40 20 Light Output Reduces energy consumption further by having a slightly narrower cone of light around occupancy Definitely worth trying in most office spaces CORRIDOR Number of light fittings from motion event gt MOTION EVENT 1510 4 3 2 1 1 2 3 4 10 15 4 Pevevevevevey Al Peveveveyeye 100 80 60 40 20 Py N O g A t E Light Output Developed for corridor spaces and other transition spaces A wide throw of light is delivered when occupancy is detected so the entire length of a corridor is lit uo when someone enters the space Additional energy savings in these spaces can be achieved by reducing Dwell Times ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 55 of 57 CLOSED OFFICE 4 Number of light fittings from motion event MOTION EVENT 15 94 3 2 1 1 2 3 4 9
10. all of the luminaires in the zone must be set prior to this relay command being sent 4 If you wish to calibrate and enable alll of the luminaires in the space just press the Calibrate and Enable Relay button Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of each dimmingcommand Dome of Sensor Node flashes red once to acknowledge receipt of each dimming command The Sensor Node will acknowledge the calibration message by flashing its dome red and allow you 3 seconds to move out of the way before it takes a light reading and calibrates the Sensor Node for this level of light as read by the ambient light sensor Each Sensor Node in the zone will acknowledge the calibration message by flashing its dome red and allow you 3 seconds to move out of the way before it takes a light reading and calibrates the Sensor Node for this level of light as read by the ambient light sensor Response from luminaire Light will increase in brightness by one dimming level Dim or decrease in brightness by one dimming level Dim for each button press Light will increase in brightness by one dimming level Dim or decrease in brightness by one dimming level Dim for each button press From this point onward the luminaire will attempt to maintain the same level of light that was read by the ambient light sensor at the moment Daylight Dimming was calibrated From this point onward th
11. allowing users to experience their preferred lighting behaviour for their building environment The result is comfortable lighting conditions around all occupants lower light levels in areas adjacent to them but importantly no wasted lighting of unoccupied or naturally lit areas Once an area becomes vacant each light gently dims to a LowLight state until the system is sure that nobody remains in the area After this time the lights switch off completely 1 2 THE TIERS OF SIMPLICITY As indicated above Organic Response is a plug amp play system requiring no commissioning and operates out of the box with default factory settings see Appendix 5 3 However the system also allows for simple Optimisation and more advanced Configuration to both increase energy savings and provide a more customized user experience In future it is anticipated that the Occupancy Information Cloud will interact with third party building management systems allowing a two way sharing of information to allow each system to become even more efficient The Tiers of Simplicity provide a framework for Understanding the different levels at which an end user can interact with the Organic Response system through the Occupancy Information Cloud Hybrid Systems Configuration Figure 5 The Tiers of Simplicity Tier 1 Interaction Plug amp Play The first tier is the standard plug amp play system operating with default factory sett
12. level MinLight is the light level that the luminaire will adopt when there is no one in the space Under most circumstances the MinLight would be set to zero the default setting meaning the light would turn off a few minutes after the space is completely vacated However there may be circumstances e g for security reasons a night light is required where you want one or more lights to remain on even after the space is vacated In this case you would set the MinLight setting for these specific luminaires to a low level so that they remain on but at low levels to reduce energy consumption Organic Response allows all these parameters of light level to be adjusted in various ways using the remote app ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 12 of 57 2 1 1 Temporary Dimming D organic response The dimming function of the Remote App allows you to adjust the light a level of an individual luminaire This can be useful when you need to adjust the brightness of one or more luminaires temporarily Any dimming adjustment is only temporary and the light will eventually revert to using its pre existing MaxLight more on this later after the adjusted luminaire s Dwell Time has elapsed LIGHT OUTPUT DIMMING Di There are two ways for you to dim a light fitting The first method involves dimming a light using the Dim
13. other 4 2 MORSE CODE TABLE The Interrogate Firmware remote command initiates the Sensor Node to flash the dome LED with the firmware version encoded in Morse Code The following table is to assist with decoding it The length of a dot is one unit A dash is three units Short gap between digits is three units DECIMAL NUMBER MORSE CLO DB ores ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 52 of 57 4 3 FACTORY DEFAULTS SETTINGS The following table contains all of the factory default settings for Organic Response Sensor Nodes SYSTEM PARAMETER SENSOR NODE DEFAULT WALL SWITCH DEFAULT Light Level Max 100 00 Light Level Min 0 00 Light Level Low 10 00 Dwell Time 10min Lowlight Time 10min Personality Open Floor Daylight Dimming Disabled Motion Sensitivity High Burn In Mode Disabled Zone 1 Un zoned Scene O dimming level 50 Automatic scene exit Scene 0 Exit on absence Scene 1 dimming level 10 Automatic scene exit Scene 1 Exit on absence Scene 2 dimming level 90 Automatic scene exit Scene 2 Exit on absence Scene 3 dimming level 70 Automatic scene exit Scene 3 Exit on absence Scene 4 dimming level 25 Automatic scene exit Scene 4 Exit on absence Scene 5 dimming level 100 Automatic scene exit Scene 5 Scene 6 dimming level Automatic scene exit Scene 6 Exit on absence Maxlight
14. setting the MaxLight level appropriately for the area you can reduce energy consumption and significantly improve occupancy comfort As MaxLight is an attribute of an individual Sensor Node the light output from each Organic Response enabled luminaire can be adjusted to exactly match the task being Undertaken in the space under it For example corridor and breakout areas can have their MaxLight levels reduced to lower levels than open plan or closed office areas The system can easily be set to provide exactly the right amount of light in exactly the right place whilst still allowing the flexibility to raise or lower the MaxLight of a specific light fitting above an occupant who requests more or less light The process of adjusting MaxLight levels across an entire building space to save energy and improve occupancy comfort is called Trimming and is covered later in this chapter Under Trimming Using MaxLight HOW TO SET AND GO TO THE MAXLIGHT FOR A SINGLE LUMINAIRE Remote app commands Response from Sensor Node Response from luminaire Dome of Sensor Node flashes red once 1 Using the Dimming Percentages or the Dim and Dim buttons of the remote app adjust the light output to the desired level 2 Still pointing your dongle at the luminaire s Sensor Node press the Set Max button 3 If you have dimmed light levels Up or down temporarily and want to return to the SetMax Light level simply press the Go To Max butto
15. typical open or closed office environment it can be further reduced especially in open plan offices where there is moderate to high occupancy Reducing the Dwell Time to for example 5 minutes will dim lights quicker so that they do not continue to deliver high light levels in vacant space for too long One approach is to reduce the Dwell Times to the point of it becoming uncomfortable for occupants and then increase it slightly This will strike the optimum balance between energy savings and occupancy comfort Also bear in mind that if most people in a soace are happy with a particular Dwell Time but one or two people are not you can leave most of the office at the lower Dwell Time but increase the Dwell Times of those Sensor Nodes above or immediately next to these people You can also consider lowering or raising the Dwell Times for specific areas of the office Some examples are as follows e Reducing the Dwell Time of lights in a small storeroom In small storerooms which people access for a specific purpose and then leave within a few minutes it makes sense to consider having the storeroom light s on a short Dwell Time e g 5 minutes so that the light turns off very quickly once the storeroom is vacated e Transition areas like close or open corridors can also have reduced Dwell Times as occupancy is temporary and it is wasting energy to light the space for any length of time once the corridor area is vacated Consider a
16. 15 OOOO OOOO a ON a AA 5 Bo 2 g 60 40 D 20 A Suitable for enclosed offices where the focus of light is offen around a single occupant IF the occupant experiences switch off due to lack of detected motion then consider increasing Dwell Time to compensate 5 6 OPEN FLOOR SAVER Number of light fittings from motion event gt MOTION EVENT 15 10 4 3 2 1 1 2 3 4 10 15 i 100 5 80 2 g co 40 D 20 A more aggressive open office personality with a much tighter cone of light around occupancy Suitable for open plan offices with medium to high occupancy AMENITIES 4 Number of light fittings from motion event gt MOTION EVENT 15 10 4 3 2 1 2 3 4 10 15 I LOYOYOYOYOYOV OWO YOYOYOYOYOS 100 5 Bo g 60 40 D om Suitable for bathrooms amp toilets with low occupancy Can be complemented by adjusted Dwell Times if required ADDITIONAL OPTIMISER LEVEL PERSONALITY PROFILES STORE ROOM Number of light fittings from motion event gt MOTION EVENT LYOV YYY e vevyevevevyevye 100 gt 80 Q Appropriate for small storerooms with low occupancy and short periods of occupancy Additional energy savings can be achieved by reducing Dwell Times especially if the average duration of a visit to the storeroom is very short ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmon
17. 15 94 3 2 1 1 2 3 4 9 15 i 4a 4a 44 4 4444 4 44 44 46444644 444A 100 gt 80 Q 3 60 yp N E ES fr 40 D 90 Use this to trouble shoot the Occupancy Information Cloud with a real time visualization of the distance of level signal propogation ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 57 of 57 MOTION ONLY Number of light fittings from motion event gt MOTION EVENT 1510 4 3 2 1 1 2 3 4 10 15 Luminaires only resoond to direct motion detection so can be used for demonstration purposes
18. Configuration features and ending with other general features and settings that aren t specific to Optimisation or Configuration Note that you must have the Organic Response remote app downloaded to a compatible iOS Apple or Android device fitted with the infrared dongle before you will be able to perform any optimisation of your Organic Response enabled lighting system Step by step instructions for executing commands on the remote app are detailed in a consistent table format as shown below Features which are accessible via the Optimisation level of the app are coloured light blue features only accessible in the Configuration level of the app are coloured dark blue HOW TO DIM A LUMINAIRE Remote app commands Response from Sensor Node Response from luminaire s 1 Point the dongle at the Sensor Node Dome of Sensor Node flashes red once Light will increase in brightness by one of the light you want to dim and press to acknowledge receipt of command dimming level Dim or decrease in the Dim button or Dim button brightness by one dimming level Dim The Appendices contain a variety of more detailed information about the Organic Response system that you may find useful Some of the Appendices will be specifically referred to in the body of the User Guide whereas other information is provided for more general interest We encourage you to review all of the content in the Appendices so that you are familiar with the information and where to a
19. Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 30 of 57 4 APPENDICES 4 1 GLOSSARY OF TERMS Ambient Light Level The light level reading of the ambient light sensor Burn in Mode The life of fluorescent lamps is compromised if they are dimmed during the first 100 hours of their life Organic Response Enabled fluorescent light fittings are shipped in burn in mode which means that the light fitting will operate only in on off mode and will reject any dimming commands Configuration Refers to the process of adjusting the more sophisticated features of the Organic Response system Daylight Dimming Daylight Dimming allows each luminaire to dynamically respond to ambient light levels and reduce its own output to maintain the light level required by occupants This ensures both optimal and consistent lighting conditions as well as providing increased energy efficiency Default Settings Factory Defaults The configuration settings that Sensor Nodes are shipped with when they leave the factory A full list of these default settings can be found in Appendix 5 2 Dimming The process of decreasing or increasing the light output of an Organic Response Enabled luminaire Dimming Level The level of light output being delivered by the luminaire as a result of pressing the Dim button Dongle An Organic Response infrared transmission device that plugs into the headphone jack of compatible iOS Apple and
20. N SENSITIVITY If a Sensor Node is installed near a mechanical or electrical device e g an air conditioning supply outlet this may trigger a false activation of the Sensor Node s motion sensor This means that the luminaire may think an occupant is nearby and switch on to its MaxLight level unnecessarily increasing energy consumption Using the options below the Motion Sensitivity heading on the remote app see screenshot below it is possible to set the PIR sensitivity to High Medium or Low to reduce the possibility of a Sensor Node false triggering 3 2 BURN IN MODE In order to maximise lamp life new fluorescent lamps should be burnt in i e not dimmed for the first 100 hours of operation Organic Response provides a built in Burn in Mode function to make this process very simple for users When Burn In Mode is enabled luminaires will not dim until they have accrued 100 hours of operation After the 100 hours of operation has passed Burn In Mode is automatically disabled and you can then optimise luminaires to take full advantage of the energy savings offered by the Organic Response system organic response By default each Sensor Node is shipped with Burn In Mode disabled This is entirely appropriate for LED luminaires but for new fluorescent fittings it will prolong the life of the fluorescent tube if Burn In mode is activated prior to installation OTHER PARAMETERS 4G MOTION SENSITIVITY If you are having trouble di
21. Store Breakout Super Saver D organic response PERSONALITY D organic response PERSONALITY Open Open s Closed re Store Breakout Super Saver All on f 100 50 0 Ripples Motion Wallwash SAVE SETTINGS HOW TO CHANGE AND RELAY PERSONALITY Remote app commands 1 Point the dongle at the Sensor Node of the light whose personality you want to change and press the button showing your preferred Personality 2 Point the dongle at the Sensor Node of the light whose Personality you have just adjusted and press the Relay button Note If you use the Relay Personality commana it will adjust the Personality of every Sensor Node that receives the message so if you re looking to adjust only some of the luminaire s adjust their Personalities individually 2 2 1 Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of Personality command Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message will glow red for 30 seconds to indicate that they have received the Relay Personality signal Any Sensor Node that does not glow red has not received the signal and has not changed its Personality Personality Applications Configurator Personalities Response from luminaire The luminaire will immediately adopt the new Per
22. aire over time As a result of this automatic compensation if a lamp in an existing and aged installation is replaced then it may be necessary to reset MaxLight for this Luminaire Lumen Maintenance can be achieved when operating outside of Daylight Dimming mode but this must be done manually by periodically resetting Maxlight to ensure that minimum light levels are being delivered over the life of the light fitting 2 5 SIMULATED WALL SWITCH The Simulated Wall Switch performs exactly the same functions as the physical Wall Switch when it is operating using its default settings As with the physical Wall Switch activating Scene A or Scene B using the Simulated Wall Switch will activate Scenes 1 and 2 respectively either with their default settings or any reconfigured settings done for these Scenes using the remote app Refer to Section 3 3 of the Configuration User Guide for more information on the Wall Switch D organic response SIMULATED WALL SWITCH 4 On Auto ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 28 of 57 Chapter Three 3 OTHER PARAMETERS There are some additional parameters offered by the remote app that you should be aware of These include the ability to adjust the sensitivity of the Sensor Node s motion sensor activating or de activating Burn In mode and performing a Transmission Test 3 1 MOTIO
23. al help that you need to utilize these simple features The full range of Tier 2 Optimisation or Tier 3 Configuration features is accessible only by application through the drop down options in the App Settings menu of the remote app The app requires registration using your LinkedIn profile and subscription to the Organic Response LinkedIn Forum We encourage you to engage with this forum for advice technical support and general discussion 1 4 HOWTO USE THIS USER GUIDE This User Guide is the most comprehensive source of information you will find about operating an Organic Response lighting control installation and every effort is made to keep it up to date Additional information can also be obtained through application notes which are published in the Resources section of our website as a Design Guide updated as and when required We encourage you to access this at regular intervals to keep up to date with information about user applications in particular Depending on which User Guide you are reading Tier 2 Optimisation or Tier 3 Configuration the following chapters go into full detail of how to interact with the system at the Tier 2 and or Tier 3 levels using the remote app Their content is structured to make it easy for you to access the information you need The flow of information reflects the structure and sequence of features in the remote app features menu starting with simple Optimisation functions moving to more advanced
24. be a trade off that is worth making but use the option selectively Don t forget that you can always restore previous settings if something goes wrong or you re not happy with a particular setting ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 20 of 57 2 2 OPTIMISING PERSONALITY Personality is anew concept in lighting control that is unique to Organic Response The Personality defines the relationship between the occupancy level signal i e distance from occupancy as measured in number of light fittings away from motion detection and the light output of the luminaire Each Personality defines the level of light output for each occupancy level signal It thereby effectively sets how wide or narrow the cone of light aground the occupant will be Personalities also have their own preset Dwell Times See Section 3 2 of the Configuration User Guide and LowLight times The graphic below illustrates how each of three personalities Open Floor Open Floor Saver and Corridor affect the light output of each light as distance from detected motion increases As you can see the more aggressive personality of Open Floor Saver has light output falling away much more quickly as distance from motion increases as compared to the more gentle gradient of the Corridor personality or the Open Floor Personality which has a profile between the other two The defa
25. calibration should be done at a time of day when there is a low to moderate amount of natural light in the environment This is so the Sensor Node can take into account how natural light plays on the environment it is observing while still enabling the user to achieve the desired light level measured with a light meter if required by dimming the luminaires Avoid calibrating for Daylight Dimming at night or when direct sunlight is entering the space as either of these scenarios may result in over or under compensation by the lights HOW TO CALIBRATE AND ENABLE DAYLIGHT DIMMING Remote app commands 1 Using the Dim and Dim buttons of the remote app adjust the light output of the target luminaires to the desired level Use a light meter if necessary as described in MaxLight Applications Note that this is not an adjustment to MaxLight but a temporary dimming of the lights to a level that the Sensor Node can calibrate for Daylight Dimming 2 Repeat the temporary dimming of all luminaires in the zone so that light levels across the space are set appropriately for a Daylight Dimming calibration This will allow you to Relay a calibration signal across the entire zone at once 3 Now point the dongle at the Sensor Node of the target luminaire and press the Calibrate amp Enable button This calibration process can be carried out for all of the lights in the zone by using the relay function Note that the dim level of
26. ccess it ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 9 of 57 Chapter Two 2 OPTIMISATION Tier 2 or Optimisation allows users to optimise a range of parameters of their system in situ for increased energy efficiency and occupancy comfort This section describes how to optimise a system using the Optimiser level of the remote app The features that will be covered in this section are Light Output How to raise and or lower light levels for one or more luminaires How to achieve significant energy savings by reducing average light levels How to use light levels to enhance occupancy comfort Personality The role of Personality in defining how your lighting will resoond to occupancy How to use different Personalities to deliver appropriate lighting behaviour to different types of workspaces Dwell Time How Dwell Times impact lighting behaviour How to change Dwell Times to increase energy savings Daylight Dimming How when and where to activate Daylight Dimming to take advantage of natural light thereby further reducing energy consumption without compromising occupancy comfort Note that you must have the remote app downloaded to a compatible iOS Apple or Android device fitted with the Organic Response infrared dongle before you will be able to perform any Optimisation of your Organic Response fs 1 LIGHT OUTPUT setae J enable
27. ccsscsscssscssccsccesccscceccesccsccescccccsscescucscseecceccesscescesececceccesesscseccescesceeceesss 15 2 1 4 Using Maxbight as Feature Lighting sessesessecssoesesoecoscescecessecesoecesoesoscesseoesoscesoscesoecescesseossoecescecescesseo 17 ALS LOWEN c E E 17 ELO Minen eE E E EE S 18 2 1 7 MinLight Applications s ssesessesssceseeceseececoscescecescecesoecoscesosceseecsscecescesescesseoesosoesoscesoecescessecssoesesseseseeseeo 19 2 2 OPTIMISINGPERSONALITY ssssssssssesesesesesesesesssssescsescscececscscscscscsososcscscscscscecscecececececececececececececececececeo 21 2 2 1 Personality Applications sessessesesseceseesesoscessecssoesesoecoscesosceseecsscecesoesescessecesoscesoscesoecoscesseossoesessesesseseeo 22 2 2 2 Things to Consider When Optimising Personality ssesessesessecescecescesoscessecoesoscesoscesoecoscesseossoesessesescesseo 23 2 3 OPTIUVISING DW ELL TIME sicccsssiiserrsssecst entanbestenctecst iir onene vie siueuuieweeoscaiabesivacvesauncaicvesivsavessucestseswidevesveus 24 2 4 OPTIMISING DAYLIGHT DIMMING ccssccsccssccssccesccesccscccsccusscusscescceccesccusececeeccesecesccuscceccsccesseesceeseseees 27 3 OTHER PARAMETERS ecasaeceacicndendeacnciaaucaccescssnsenenseasiaccconavsacmesnceucsiebenestwonaanncasweiaataesecsasnewaseeauaeconsete 29 Oi APPENDICES e E E E 31 Al GLOSSARY OFTERMS icisisiirasori in En E EEEE E 31 BZ MORSE CODE TABLE siorsisiccrrurrisersoirreringni oceans EENE ESO 52
28. change for other reasons For example e Anoccupant may require a temporary increase in brightness so that he or she can see fine detail more clearly e During a sunny day when there is lots of natural light coming through windows the light output from luminaires in this area can reduce e Conversely at night when there is no contribution from natural light luminaires may need to increase their light output to compensate e During a presentation in a meeting room there may be a need to temporarily reduce light output so the audience can better view a screen The diagram below shows the behaviour of an Organic Response enabled light fitting when motion is detected and after motion is no longer detected We can see the various parameters that determine the light output of a luminaire MaxLight LowLight and MinLight hari iinet dN a tisy raana AEO OE EE NE Maast hnt oe Motion LowLight Standby Motion MAXLIGHT LEVEL Light Output i ggg Mtwmnewaensew ee AT DWELL TIME p LOWLIGHT TIME Time Figure 8 How Organic Response Responds to Occupancy MaxLight sets the maximum light output of a luminaire When a luminaire directly senses an occupant through its own Sensor Node it will illuminate to 100 of its MaxLight setting When the occupant leaves the space completely and after the Dwell Time has elapsed the luminaire will dim to its LowLight state Once the LowLight time has elapsed the luminaire will dim to its MinLight
29. comfort If your focus is on energy savings Consider reducing Dwell times for luminaires that are lighting non working spaces e g corridors and other transit areas entrances store rooms etc ABN 46 151 527 098 PAGE 26 of 57 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 2 4 D organic response a DAYLIGHT DIMMING i MANUAL DAYLIGHT CALIBRATION Calibrate and ENABLE DISABLE DAYLIGHT DIMMING E amp OPTIMISING DAYLIGHT DIMMING When a Sensor Node makes a decision about its appropriate light level it can be configured to take into account the amount of ambient light in the surrounding environment By reducing a luminaire s light output in the presence of natural light especially from those light fittings that are close to windows or skylights energy savings can be increased and occupancy comfort further improved While lights that service an area with lots of natural light will see maximum benefit from Daylight Dimming operation all Organic Response enabled lights can be configured to operate in Daylight Dimming mode It is recommended that Daylight Dimming be used in combination with suitable MaxLight Levels and the process for enabling Daylight Dimming explained below assumes that all MaxLights have already been set Note that the default setting for Daylight Dimming is off Daylight Dimming is enabled using the Daylight Dimming section of the remote app Daylight Dimming
30. d Vic 3121 61 3 9486 9823 organicresponse com au PAGE 56 of 57 BREAKOUT Number of light fittings from motion event gt MOTION EVENT 15 10 4 3 2 1 2 3 4 10 15 Very similar to the Super Saver in profile but with the lower light levels extending out to 11 lights away from motion Suitable for breakout spaces e g informal meeting areas within a larger open plan space 5 7 Additional Configurator Level Personality Profiles DEMO Number of light fittings from motion event gt MOTION EVENT 15 104 3 2 1 2 3 4 10 15 Typicaly used for demonstration purposes only as it comes with very short Dwell Times WALLWASH A luminaire in Wallwash mode is always on at 100 of its Maxlight level irrespective of the level of occupancy message it receives Useful for providing a constant source of reflected light of walls and other features 100 50 0 qe Number of light fittings from motion event MOTION EVENT 15 94 3 2 1 2 3 4 9 15 The second smallest cone of light possible so can be used to push the boundaries of energy savings ALL ON ALWAYS If you ever needs the lights to stay on always and not resoond to external inputs then use this Personality However remember to turn off or de activate when the last person leaves the office otherwise they will burn alll night RIPPLES 4 Number of light fittings from motion event MOTION EVENT
31. d lighting system Relay iisi If you do not have access to the Optimisation Level features on your smart on device then you need to complete the training and ensure you are registered et Low ela iia at the appropriate app level via LinkedIn before access will be given Please osm contact us if you are experiencing problems accessing the required level of the remote app _ Before moving through the Optimisation features of the remote app it is worth noting some generic buttons on the remote app which are used across a number of the screens at various levels of the app see remote app screen shot opposite The first of these is the Relay button The second is the Save Settings button SAVE SETTINGS The Relay buttons allow you to relay a setting from a single luminaire to all other luminaires in that zone All Sensor Nodes are shipped in the default zone of Zone 1 so they will all communicate with each other It saves time in that it removes the need for you to adjust every luminaire in the zone individually ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 10 of 57 HOW TO RELAY A COMMAND Remote app commands 1 Point the dongle at the Sensor Node that has the setting you wish to relay Press the relevant Relay button Note that when you press the Relay button a confirmation message pops up asking you to confirm the R
32. dicated earlier the default light level for MinLight is zero i e the light will be off when in this MinLight state However there are occasions when adjusting the MinLight can be very useful Examples of this include security requirements where some level of lighting is required at all times or when turning lights off in a space is inappropriate for other reasons as discussed in the MinLight Applications section below HOW TO SET RELAY AND GOTO A MINLIGHT LEVEL Remote app commands Response from Sensor Node 1 Using the Dim and Dim buttons of Dome of Sensor Node flashes red once the remote app adjust the light output to acknowledge receipt of each of the target luminaire to the desired dimming command light level Dome of Sensor Node flashes once to acknowledge receipt of Set Min command 2 Press the Set Min button on the app Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds 3 Relay the MinLight if required The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message wil glow red for 30 seconds to indicate that they have received the Relay signal Any Sensor Node that does not glow red has not received the signal and will not adopt the new MinLight setting 4 To restore the previous MinLight Dome of Sensor Node flashes once to setting simply point the dongle at the acknowledge receipt of Restore Min target l
33. e is to select from one of the preset dimming percentages provided in the expanded Dimming Levels screen shown below ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 13 of 57 D organic response LIGHT OUTPUT G Revert to Auto DIMMING LEVELS v ED HOW TO SELECT AND RELAY A SPECIFIC DIMMING PERCENTAGE Remote app commands 1 Press the expand button next to Dimming Levels and the list of dimming level percentages will appear Whilst pointing the dongle at the target Sensor Node press the percentage you require Select another percentage option if you are not happy with the resulting light level 2 To Relay the dimming percentage point the dongle at the Sensor Node of the light you have just adjusted and press the Relay button 2 1 2 Maxlight Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of Dimming command Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message will glow red for 30 seconds to indicate that they have received the Relay signal Any Sensor Node that does not glow red has not received the signal and will not adopt the new light level Response from luminaire Luminaire will dim to the selected p
34. e luminaire will attempt to maintain the same level of light that was read by the ambient light sensor at the moment Daylight Dimming was calibrated ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 27 of 57 Once you have calibrated for Daylight Dimming you can disable it and re enable it if required using the Disable and Enable buttons on the remote app 2 4 1 Things to Consider When Optimising Daylight Dimming YOU will derive most benefit from calibrating Daylight Dimming for those luminaires that are immediately adjacent to windows or skylights as these lights can reduce their light output significantly when natural light is present and will make the biggest impact on energy consumption The rate with which the Sensor Node responds to changes in ambient light is deliberately slow This is so the Daylight Dimming operation of the light is not obvious and distracting to clients Users workers If at any time the lighting response from Luminaries operating Daylight Dimming mode becomes Undesirable recalibrating one or all of the Sensor Nodes may be required This can offen happen with significant changes to the environment such as a change in floor color A word on Lumen Maintenance When the Sensor Nodes are operating in Daylight Dimming mode they will automatically adjust to compensate for the degrading performance of the Lumin
35. ed once to acknowledge receipt of Set Low command Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message will glow red for 30 seconds to indicate that they have received the Relay signal Any Sensor Node that does not glow red has not received the signal and will not adopt the new LowLight setting Response from luminaire Light will increase in brightness by one dimming level Dim or decrease in brightness by one dimming level Dim for each button press The luminaire will immediately adopt this light level as its new LowLight setting and in future come on to this level when entering the LowLight phase of operation All the luminaires that received the relayed Relay LowLight signal will immediately adopt their respective LowLight levels You can adjust the LowLight levels of luminaires in the same way you adjust MaxLight levels LowLight settings are typically changed infrequently given that default LowLight levels are at 10 However you could make LowLight adjustments for much the same reasons as adjustments to MaxLight i e to increase energy savings and or improve occupancy comfort ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 17 of 57 2 1 6 MinLight As in
36. elay To bypass this confirmation pop up just quickly double press the Relay button for immediate execution of the Relay command Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message will glow red for 30 seconds to indicate that they have received the Relay MaxLight signal Any Sensor Node that does not glow red has not received the signal Response from luminaire s Adopts the relayed setting Sometimes this is visible e g adopting a new MaxLight level sometimes there is no visible response from the luminaire e g adopting a new Dwell Time Whilst transmitting changes across an entire zone very quickly is useful when the new settings are in fact required across the entire zone you should be careful to consider whether this is actually the case before you use the Relay button If you only want to make changes to some of the luminaires in a zone then you will need to make the changes to each one of these luminaires individually The Save Settings buttons allow you to save the settings of an individual Sensor Node so that these can be restored at some later date using the Recall Settings function discussed in Section 3 6 You can use the Relay button next to Save Settings to tell all Sensor Nodes in a zone to store their current settings Th
37. ercentage All the luminaires that received the relayed Dimming signal will immediately adopt this light level Adjusting the MaxLight of a luminaire allows you to set the maximum light output for that luminaire Once a MaxLight level is set the luminaire will not exceed this light output during automatic operation the luminaire can still be manually dimmed above this level An Organic Response enabled luminaire will always deliver 100 of its MaxLight level in response to motion detection by its Sensor Node except if Daylight Dimming is enabled or a Scene is active There are good reasons to adjust the MaxLight level of luminaires A correctly designed lighting system will necessarily over illuminate a soace when the luminaires are first installed This is to allow for the depreciation in light output from the luminaires over time In some instances a space will be over illuminated simply because the choice of ceiling and luminaire results in a high lux level i e highly reflective surfaces or the spacing of luminaires etc If an area is too brightly lit it not only consumes too much electricity it also creates stress for occupants dealing with too much glare ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 14 of 57 D organic response LIGHT OUTPUT DIMMING LEVELS LIGHT LEVELS Go to Max Set Low Go to Min SAVE SETTINGS By
38. ght Applications Security Lighting One of the most useful applications for MinLight is the ability to set any luminaire as a security light In this situation one or more lights can be selected to remain on at all times even when the space is vacated Go to any light that you wish to remain on at all times and set the Min Light to any non zero level Night Lighting Min light can be set at any non zero level in corridors to provide night lighting In this instance if all luminaires were set with say a 10 MinLight then the space will still be illuminated to 10 even when there are no occupants present This is particularly Useful at night time in a Hospital or Aged Care facility to ensure corridors are never dark This function eliminates the need for a separate night lighting system as is often been a requirement in Healthcare facilities Unoccupied Out of Hours Lighting There are some spaces in a building that may require lights to be on when unoccupied or after normal business hours A good example of this is the lighting in a street front or client facing reception area which without ongoing occupancy would turn off In this case Minlight can be used to highlight Architectural features or walkways Because the lights still resoond to occupancy there is no need to include time clock control Whenever there is no occupancy the lights dim to their Minlight setting Whenever an occupant returns the lights return to their MaxLight sett
39. ght fittings so that the optimal amount of light is delivered when and where needed E Figure 1 Organic Response Enabled Luminaire Each Sensor Node is fitted with a motion sensor ambient light sensor infrared transmitter and infrared receiver that allows each Sensor Node to communicate wirelessly with each of its closest neighbours Infrared Transmitter Ambient Light Sensor sesesesssessssssosssesessssesseseseesesssessessssesesesessesssss posssseseseessessssssssseseeeesesssssssssesssssesssssssseseeseeeesesssssssseesseesssses Infrared Receiver tesseseyfsessssssessssssssssssssssssosssssesssssssessosssssssss Motion Sensor Status Indicator ssssssssssssesesesssssssssesesesssessssssssesemsssssssssesesesesssessssssessesssssss Figure 2 Sensor Node Features ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 4 of 57 To enable a Sensor Node to control lighting it must first be integrated into a luminaire Once a luminaire has been fitted with an Organic Response Sensor Node it becomes Organic Response enabled and allows the luminaire to make lighting decisions based on the presence of occupants sensed directly by its own motion sensor occupancy information it receives from neighbouring luminaires via proximity limited infrared signals ambient light levels sensed directly by its own ambient light sensor and a variety of al
40. gorithms in the onboard microcontroller 1 1 HOW ORGANIC RESPONSE WORKS Figure 3 How Organic Response Works 1 The moment a Sensor Node detects occupancy the luminaire responds by outputting a predetermined light level for example 100 It simultaneously communicates that it can see someone to its neighbouring luminaires using a level 1 proximity limited infrared signal 2 Onreceipt of this level 1 signal neighbouring Sensor Nodes know someone is located within one light fitting of them They respond by outputting a predetermined light level appropriate to an occupant in that vicinity e g 80 brightness and simultaneously relay a level 2 signal to their own neighbours informing them there is an occupant two light fittings away 3 This communication propagates rapidly throughout the floor creating the Occupancy Information Cloud Each Sensor Node knows at all times how close the nearest occupant is and can adjust its light level accordingly wa on u AAL Figure 4 How Organic Response Works ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 5 of 57 The relationship between light levels and distance from the detected motion is determined by what we call the Personality discussed in Chapter 2 Different Personalities allow for more gentle or more aggressive reduction in light levels as distance from motion increases
41. h each of the corridor luminaires and change their personalities individually to the Corridor Personality The Corridor Personality illuminates to a brighter level for a greater distance from the occupant to avoid any feeling of walking into darkness so in this case the change in Personality improves occupancy comfort Another more creative application of Personality is the Wall Wash Personality An example of this would involve changing the Personality of one or more luminaires adjacent to a wall on the perimeter of a large open plan office to the Wall Wash Personality The Wall Wash Personality brings its luminaire to 100 light output upon receipt of any occupancy signal Up to 35 luminaires away This is particularly effective in offices where only a few people might be working at night The reflected light off the selected wall gives a comfortable illumination to the otherwise empty space without sacrificing overall energy performance 2 2 2 Things to Consider When Optimising Personality When you adopt and or relay a new Personality that Personality s dwell times system dwell and lowlight time will be adopted by the Sensor Node unless the Sensor Node s default dwells have already been manually overridden In other words only default dwell times will be updated to match the Personality s prescribed Dwell Time ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresp
42. he output of the luminaire you were working on All of these lights including those that were in a temporary dimming state now have the same MaxLight setting as the luminaire you have just adjusted Step 5 Because all of the lights in the area have now dimmed to the new MaxLight level you will find your lux meter reading has fallen If it falls below 320lux increase the MaxLight of the initial luminaire a little more set MaxLight and relay this new MaxLight setting again Conversely it the lux level is still significantly above the target about 5 10 or more then dim the luminaire slightly and carry out the same process Step 6 Go to a few other areas in the space and measure the lux level using the light meter If the lux level is too high or too low you can set the individual MaxLight levels for those luminaires that are affecting the lux level in that area Adjust each of these individually do NOT relay these MaxLight settings because it will relay the adjustment to all the luminaires in the space In this step you are just wanting to change MaxLight settings for one or a few luminaires in a small area by exception That is why it is best to set and relay the initial MaxLight reading from a representative area in the space Step 7 Once you are happy with the lux levels in the general area you can now begin tailoring MaxLight levels for the other types of areas of the office space For example the open plan corridor in
43. ht Setting on Personality Light Profile Open Floor Personality MaxLight Set at 70 oe we ee eee ee ee ee Light Output Level oBBBRSBBABRSE T T T T T T T T l 5 3 2 1 o 1 2 3 5 Distancefrom Motion Number of Luminaires Maxlight Setting 70 Open Floor No MaxLight Set Open Floor 70 MaxLight Set Figure 9 Impact of MaxLight on Other Light Levels The Relationship Between Maxlight LowLight and MinLight There are no restrictions on the light level that Max Low or Min light levels can be set at This provides for maximum flexibility However this felxibility should be applied carefully For example in theory the MaxLight could be set at 0 LowLight at 50 and MinLight at 0 What this would do is turn the lights off when occupancy is detected which is probably not desirable It is recommended that you always maintain the following relationship between the various light level settings Min light lt Lowlight lt Maxlightf Energy Conscious Use of MinLight A non zero MinLight setting can be extremely useful in a number of different scenarios However before you set your min light to anything above zero its worth asking yourself if its really necessary Remember this means that the light will not turn off under any circumstances except for a specified scene More energy will be used when a non zero MinLight is used that if the light is allowed to switch off completely This may
44. ime that an Organic Response enabled luminaire remains in its LowLight state before dimming down and switching off completely Lumen Maintenance similar to daylight dimming but rather than compensating for natural light it compensates for degradation in the output of the light source at a given dimming level It is functionally the same process for the Sensor Node light fixture Luminaire Integration Test When first powered each Sensor Node will automatically run a short Luminaire Integration Test to ensure that it has been wired correctly into the luminaire Once a luminaire has been continuously powered for 15 minutes the Luminaire Integration Test is disabled indefinitely The test procedure is as follows ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 50 of 57 e Luminaire is powered on and outputs 100 brightness e Confirm that luminaire then switches off entirely for 1 second before switching back on relay is wired correctly e Confirm that luminaire dims from 100 brightness to 10 brightness over 5 seconds dimming line is wired correctly e Sensor Node dome LED flashes to show the end of the test process The luminaire will then resume normal operation at 100 brightness entering Burn In mode if enabled default setting Maxlight The MaxLight level caps the maximum level of light that a luminaire will emit This is an important
45. ings Lift lobbies are also a great application of Minlight It s not particularly pleasant to arrive at a completely dark lift lobby but its also not necessary to have the lights on full when no one is there To overcome this set the Minlight of the lift lobby luminaires to for example 20 This means that an occupant arriving by lift is greeted by an illuminated space As soon as they step out into the lobby the lights will illuminate to their Maxlight 2 1 8 Things To Consider when Optimising Light Output There are some key considerations to bear in mind when you look to optimise your space for light output The Impact of MaxLight Setting on Lighting Behaviour If the MaxLight level is adjusted this affects the other light levels the levels determined by the distance from motion by capping them at this new MaxLight level This makes more sense when you consider how Personality determines the relationship between light level and distance from motion For example if the MaxLight Level below in Figure 9 Open Floor Personality is set to 70 then the light levels that follow are untouched as they are already below the new value If however any of the subsequent light levels are greater than the new MaxLight level they are capped at the new MaxLight Level ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 19 of 57 Effects of MaxLig
46. ings No optimisation is required at this level the system will simply operate using its defaults settings delivering energy savings whilst maintaining occupancy comfort An Organic Response Wireless Wall Switch can be used at this level given that it is also plug amp play and interacts with the lighting system using its own default settings which allow temporary dimming a range of preset scenes and on off switching ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 6 of 57 ON AUTO Figure 6 Organic Response Wireless Wall Switch Tier 1 operation might be found in the following scenario Hiva is a small business owner who is trying to contain costs especially in the face of recent rises in electricity prices She runs a small accounting practice out of a single open plan office with 4 desks and a small reception area She and her staff work regular hours during the week but she does sometimes come into the office herself fora few hours on weekends Hiva is happy with how the lights operate with their default settings Tier 2 Interaction Optimisation At a Tier 2 level of interaction users can optimise Organic Response by adjusting key system parameters to provide greater energy efficiency and or occupancy comfort These adjustments are made using the Organic Response smartphone app see section 1 3 and include amongst others
47. ins the sensors and Distributed Intelligence that forms the Occupancy Information Cloud OIC Soft Start A deliberate approach to powering lights up at lower levels following a power failure The typical application os for those buildings which use generator backup when mains power fails the soft start placing a lower and or more evenly distributed load on the generator on start up Start Up Mode The mode that lights will adopt when powering up after a power failure The Start Up mode is determined by selecting an appropriate Scene which sets the light levels on start up only following a power failure Stitching zones a feature to allow uni or bi directional transfer of information between different zones ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 51 of 57 Transmission Test A test of the effectiveness reliability of infrared communications between the Wall Switch and neighbouring Sensor Nodes or between Sensor Nodes Wall Switch The Organic Response Wireless Wall Switch allows for manual control of Organic Response enabled luminaires The Wall Switch is plug amp play and will interact with Sensor Nodes using its default settings The WII Switch also allows for more sophisticated setup using the remote app Zones Zoning a feature that allows different areas within communications distance of each other to pass messages between each
48. is is useful if you ve just completed an optimisation or configuration of an area and you re happy with the way it is operating Using the Relay button for Save Settings will store the entire range of settings across the zone useful if in future you try out some new settings and are not entirely happy with how they are working In this situation you can restore the entire zone to the previously Saved Settings and start again HOW TO SAVE SETTINGS Remote app commands 1 Point the dongle at the Sensor Node whose settings you want to save and press the Save Settings button ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 11 of 57 Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of Save Settings command Response from luminaire Nil 2 1 OPTIMISING LIGHT OUTPUT One of the most fundamental aspects of lighting control is the control of light output which directly affects both energy efficiency and occupancy comfort an important balance to get right Good lighting control turns lights on when occupants arrive in a space but only to the level that is appropriate for the task being performed under the lights and then turns them off again when occupants leave However occupancy itself is not the only determinant of light output The amount of light output required from luminaires can also
49. is strong and reliable the Sensor Node should blink 30 times or close to 30 times If the signal is weak and unreliable the Sensor Node will not respond or respond only a few times Sensor Nodes that are closer to the target Sensor Node will receive stronger signals than those that are further away FIRMWARE INTERROGATION Response from luminaire None This feature is not required for any aspect of optimization However if you ever report a technical problem with the Sensor Nodes you may be asked by someone from tech support to tell them the version of that Sensor Node s firmware To determine the Sensor Node s firmware version you will need to use the remote app s Firmware Interrogate feature which is found in the Other Parameters menu of the app HOW TO CONDUCT FIRMWARE INTERROGATION Remote app commands 1 Point the dongle at the target Sensor Node and press the Interrogate button under the Firmware heading on the remote app screen The Sensor Node will then communicate the firmware version by flashing its dome in Morse Code Response from Sensor Node Sensor Node dome will flash a series of short and long flashes in Morse Code Response from luminaire None Use the table in Appendix 5 2 to interpret the Morse Code and identify the Sensor Node s firmware version Once you have identified it you can communicate this information to Tech Support ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little
50. light whose Dwell Time you have just adjusted and press the Relay button Note If you use the Relay Dwell Time commanqd it will adjust the Dwell Time of every Sensor Node that receives the message so if you re looking to adjust only some of the luminaire s adjust their Dwell Times individually 2 3 1 Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of Dwell Time command Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message will glow red for 30 seconds to indicate that they have received the Relay Dwell Time signal Any Sensor Node that does not glow red has not received the signal and has not changed its Dwell Time setting Dwell Time Applications Response from luminaire The luminaire will immediately adopt the new Dwell Time All the luminaires that received the relayed Dwell Time signal will immediately adopt the new Dwell Time setting In the context of an optimisation of a simple office soace changing the MaxLight and reducing Dwell Times are the two major contributors to energy savings In this situation and once MaxLight adjustments and Personality changes have been completed it is appropriate to consider changes to Dwell Times The default Dwell Time is 10 minutes Whilst this is certainly appropriate for a
51. m the lift capacity etc The Tiers of Simplicity are the framework around which this User Guide and the Organic Response remote app are structured The remote app is not required at Tier 1 level that by definition involves no interaction with an installed Organic Response enabled lighting system However all Tier 2 and Tier 3 adjustments to the Organic Response system are made using the Organic Response smartphone app Tier 4 features are not covered in this User Guide as they represent future functionality that is not yet developed 1 3 THE ORGANIC RESPONSE REMOTE APP The Organic Response remote app is free to download from the Apple App Store and Google Play and includes contextual help and FAQ s The remote app requires an Organic Response infrared dongle which communicates with Organic Response Sensor Nodes using directional infrared signals Further information on downloading of the app and acquiring the dongle is available from organicresponse com Figure 7 Smartphone with IR Dongle ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 8 of 57 The remote app provides users with access to the different levels of functionality that are reflected in the Tiers of Simplicity Immediately following download of the app you will have access to some simple User level features The app itself contains all the relevant information and contextu
52. ment Systems Integration Tier 4 represents the future exploitation of the Occupancy Information Cloud It involves sophisticated integration of the OIC with third party building management systems BMS This integration allows all the energy management systems of a building to work in an integrated fashion to further reduce energy consumption and improve occupancy comfort A future application of Tier 4 might be useful in the following scenario Donna runs a building service company responsible for a large commercial property portfolio Her company offers customers a full building management service for a fixed annual fee The more efficiently that Donna s team can run their buildings the more profit they make Whilst she understands the relationship between a building s key systems e g lighting and air conditioning Donna s team is often frustrated by the lack of integration across these different systems One of Donna s team members keeps talking to her about the efficiency gains that could be made if all the systems could share each other s information He has told Donna the real time occupancy data that can be accessed from the Occupancy Information Cloud could improve the efficiency of all the systems that service the occupants For example air conditioning systems could respond a lot quicker and more appropriately to changes in occupancy a building s liff management system could use the information to deliver greater efficiency fro
53. mming a luminaire the most likely explanation is that Burn In Mode is enabled If the lamp in the luminaire are still new it is recommended that you keep this setting in order to maximise the life of the BURN IN MODE If you do want to disable Burn In Mode it can be disabled using the Organic Ea Response remote control TRANSMISSION TEST lamps ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 29 of 57 3 3 TRANSMISSION TEST This remote app function allow you to conduct a transmission test to test the range and quality of the communication from one Sensor Node to its neighbours a communication that is critically important for effective Organic Response lighting control It is one of the simple diagnostic tests that you can perform to confirm reliable communications and something you might be asked to perform by Tech Support staff HOW TO CONDUCT A TRANSMISSION TEST Remote app commands 1 Point the dongle at the target Sensor Node and press the Transmission Test button The dome of the target Sensor Node will flash red as it sends out a series of 30 infrared signals 2 per second over 15 seconds which can be picked up by any Sensor Nodes within range 3 4 Response from Sensor Node All Sensor Nodes that receive the test signal will blink red in acknowledgement of each test signal they receive If the signal
54. n To relay this message to all other luminaires in the zone press the Relay button next to Got To Max to acknowledge receipt of each dimmingcommand Dome of Sensor Node flashes red once to acknowledge receipt of SetMax command Dome of Sensor Node flashes red once to acknowledge receipt of Go To Max command Light will increase in brightness by one dimming level Dim or decrease in brightness by one dimming level Dim for each button press The luminaire will immediately adopt this light level as its new MaxLight setting and in future come on to this level in response to motion detection Luminaire will immediately adopt the MaxLight level previously set Once you have set a MaxLight level for an individual luminaire you can use the Relay function to have all the other luminaires in the soace adopt this same MaxLight setting This function is used in the process of trimming an office space for optimised MaxLight level 2 1 3 Trimming Using MaxLight A space which is over illuminated will unnecessarily waste energy and diminish occupancy comfort A space that is optimised to appropriate light levels will correct these problems This is achieved by a process alll trimming which is explained below To conduct the process of trimming effectively you ll need the following e Alight meter that measures lux levels e The minimum lux levels that you are required to deliver for the occupants for the different kinds of s
55. nager responsible of a high rise office block that has recently completed a lighting upgrade with new lights fitted with Organic Response Carlos has had several years experience working with addressable lighting control systems which he finds to be relatively energy efficient but unreliable and difficult to work with One of his key performance areas is energy efficiency and he appreciates that lighting contributes significantly to the cost of running the building ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 7 of 57 Carlos has a range of tenants in the building who have very different office layouts Some of them have multiple small offices off longer corridors whilst others have large open plan areas One of the tenants approached Carlos recently asking if he could refer her to a company that could install automated lighting for their Boardroom Carlos also has to look after all the common areas such as lift lobbies bathrooms and storage rooms on each floor Carlos used the full range of Configuration features on the remote app to set up Zones for some of his tenants Several of the meeting rooms now use the Organic Response Wireless Wall Switch to access a range of Scenes He has also used different Personalities across different types of work spaces to deliver optimal lighting whilst maximizing energy savings Tier 4 Interaction Building Manage
56. onse com au PAGE 23 of 57 2 3 OPTIMISING DWELL TIME As you learned in the previous section Dwell Times are one of the parameters of Personality and have an impact on lighting behaviour Referring back to the graphic of Organic Response lighting behaviour we can see that there are two types of Dwell Time Dwell Time and LowLight Time praeri Wefan Doo Motion LowLight Standby Motion MAXLIGHT LEVEL Light Output DWELL TIME LOWLIGHT TIME Time seseesosereseseeseesseresesessssssssse h oo Qevererereesersreressrersseeeussereseeseeseneseuseeeeese Figure 11 Organic Response Dwell Time amp LowLight Time Dwell Time defines the length of time it takes for a luminaire to dim from its occupancy state motion or any other motion level signal received via the OIC to its Lowlight state once occupancy is no longer detected If detecting motion via its own Sensor Node the light will stay in an occupancy state until the Dwell Time has lapsed after which it enters the Dwell Time state and remains in this state for as long as e occupancy messages are received from other luminaires or e it detects motion again directly via its own Sensor Node and e no further occupancy messages are received for the length of the Dwell Time after which it enters its LowLight state for the defined LowLight Time The longer the Dwell Time the longer the lights stay on and the less energy is saved Conversely the shorter the Dwell Time the quicker
57. organic response User Guide for Optimisation v1 January 2015 ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 1 of 57 Table of Contents 1 INTRODUCTION TO ORGANIC RESPONSE csccccscsccscsccscccesccccscccesccccscsccscsccscscescecescscescscescscces 4 1 1 HOW ORGANIC RESPONSE WORKG cccsccsccccsccsccccsccsccccsccsccccnccececcnccscnccncescnccscescesceseccuscececcussecescnsesceses 5 L2 THETIERS OF SIMPLICITY acess haseaciens sacar tatiana oes cacaceewaee dTa EANAN EE Gh Eiaa 6 1 3 THE ORGANIC RESPONSE REMOTE APP ccscsscsccsccsceccsccsceccnccececcnccecnccnccccnscncesceccecescnscecescncoecsccnsceceess 8 1 4 HOW TO USE THIS USER GUIDE ccssccssccesccsccnsccnscceccceccessccsccusccucccnccesscusscesccecseccesscusssusceuscesccuscsesseess 9 2 OPTIMDANON aia ees sie ian E E E EEEE E E soanaceedecesseserssacen 10 2 1 OPTIMISING LIGHT OUTPUT ssesssesssesesesesesesesessscsescscecscececscsoscscscsoscscscscscscscecscecececececececececececececececececeo 12 2 1 1 Temporary DIMMING ccssccsccsccssccsccscccscceccescscceccescsccescusceeccescucssscecccsssseccesececsescesesecseccescesceeccecss 13 21 2 AWA GIVE orcasesceedpnnenncotesesenancdecsanaace teens daetenesinaaci tees pasusensersseameausaeesee ans secu sodtqronseesosianereduneswarereteatoawesseecswanes 14 2 1 3 Trimming Using MaxLight cs
58. paces in the building this information is often provided in building codes or Occupational Health amp Safety guidelines PAGE 15 of 57 ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au e To conduct the optimisation at night time so that natural light does not affect the light meter readings Step 1 Find a working area in the largest typical soace of the office Usually the open plan office area Try to avoid areas very close to any perimeter windows or walls or that are dominated by a large feature like a pillar Step 2 Set the light meter on the appropriate illuminated surface the appropriate illuminated surface known as the working plane is the surface where tasks are carried out within the space This is typically the surface of a desk In the middle of the office soace Note the lux level reading on the light meter Lets assume for this example that the lux level reading is 640lux and you are targeting a lux level of 320 Step 3 Dim the light that is closest to the light meter until it s just above 320lux aim for about 340lux Press the Set Max button so that this luminaire adopts this MaxLight level Step 4 Now relay that MaxLight level to all the other luminaires You will notice that all the luminaires in the area except for any that might be in a temporary dimming state immediately adjust their light output to match t
59. ress the Relay button Note If you use the Relay Lowlight Time command it will adjust the Lowlight Time of every Sensor Node that receives the message so if you re looking to adjust only some of the luminaire s adjust their Lowlight Times individually discomfort Response from Sensor Node Dome of Sensor Node flashes red once to acknowledge receipt of Lowlight Time command Dome of Sensor Node flashes red once to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay message will glow red for 30 seconds to indicate that they have received the Relay Lowlight Time signal Any Sensor Node that does not glow red has not received the signal and has not changed its Lowlight Time setting Response from luminaire The luminaire will immediately adopt the new Lowlight Time All the luminaires that received the relayed Lowlight Time signal will immediately adopt the new Lowlight Time setting Whilst reducing Dwell Times will reduce energy consumption if taken too far it may also negatively impact occupancy comfort as light levels change more frequently and false switch offs potentially increase One approach to striking the right balance is to gradually reduce dwell times until occupants become uncomfortable and then increase them slightly so that you find the optimum balance between energy savings and occupancy
60. setting for maintaining both occupancy comfort and energy savings Many luminaires emit much more light than is required for the area they service and the tasks being performed beneath them By setting a luminaire s MaxLight value to the optimal level for its purpose you will ensure the comfort of occupants as well as contribute to significant energy savings Motion Sensor PIR Sensitivity If a Sensor Node is mounted within proximity of a non human motion sensor trigger e g an air conditioning supply outlet the system will potentially false trigger reducing the energy efficiency Using the PIR Sensitivity buttons in the Advanced menu on the remote it is possible to set the PIR sensitivity to High Medium or Low to reduce the possibility of a Sensor Node false triggering Occupancy Information Cloud OIC The OIC comprises the infrared signals shared between Sensor Nodes that contain the occupancy information each Sensor Node is collecting and disseminating It contains real time location specific data relating to the closest occupant with respect to any given location Optimisation Although an Organic Response lighting system is completely plug and play the behaviour can be optimised to the requirements of the area that it is servicing Personality Each Sensor Node has the ability to adopt one of a range of pre set Personalities which represent a particular lighting behaviour relevant to specific areas as presented in Appendix 5 4
61. sonality Time All the luminaires that received the relayed Lowlight Time signal will immediately adopt the new Personality Although each of the available Personalities has their own unique lighting profile the Underlying reason for changing the default personality is often an improvement in energy savings Importantly if the right Personality is chosen for the space you can achieve the energy savings without any negative impact on the occupants In a general open plan office context for example you might choose a more aggressive Personality like Super Saver which has light levels falling away much more quickly as distance from occupancy increases In this case you might want to adjust the Personality of the entire open plan space to Super Saver in which case you could relay the Super Saver Personality to all luminaires and then make by exception adjustments to other luminaires once the relay of the Super Saver Personality is complete e g changing the Personality of corridor luminaires as described below ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 22 of 57 A very common application of Personalities during the optimisation of a space is to apply the Corridor Personality to all luminaires servicing corridor areas In this case and assuming all of the lights are already in their default Open Floor Personality you need to approac
62. the example does not need to be illuminated to such a high level as it only needs enough light for walking through not working in Lets say this can be illuminated to 150lux To achieve this set your light meter on the working plane in this case the working plane is the floor and reduce the lux level of these local corridor luminaires using the Dim and Dim buttons and setting the MaxLight for each of the individual luminaires in the corridor area ORGANIC RESPONSE PTY LTD ABN 46 151 527098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 16 of 57 Remember that you cannot use the Relay command as you will override all your previous MaxLight settings for the luminaires outside of the corridor Repeat the individual MaxLight adjustments until you are happy with the light levels in the corridor area and any other areas that you feel need adjusting Take a look at the space that you have adjusted If you are happy with it then your trimming is complete You have now set light levels that reduce energy consumption and improve occupancy comfort 2 1 4 Using MaxLight as Feature Lighting Once the trimming of general areas described above is complete you can individually change the Max Light settings for other individual luminaires as you see fit Usually this would be carried out to highlight specific areas within a space for a design effect One of the highlighting options is called wall washing
63. the lights will dim down and the more energy will be saved but the greater the risk of a false switch off of the lights The default Dwell Time is 10 minutes which strikes a conservative balance between energy efficiency and occupancy comfort LowLight Time defines the amount of time the luminaire remains in its LowLight state prior to switching off completely The default LowLight time is 10 minutes Q organic response Both of these dwell times are adjustable using the smartphone app Dwell Time DWELL TIME adjustments are available via the Optimiser level of the app see screen oppositie However LowLight Dwell time is only adjustable via the Configuration pin famine level of the app discussed later in this chapter Given that Dwell Time is also a function of the Personality that the Sensor Node is in at the time changing a psi promi pS mine Sensor Node s Dwell Time will override the default Dwell Time for the Personality So always consider the Dwell Time of the current Personality before looking to Ea oms somine make independent adjustment to Dwell Times ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 24 of 57 HOW TO ADJUST DWELL TIME Remote app commands 1 Point the dongle at the Sensor Node of the light you want to adjust and press the button showing your preferred Dwell Time Point the dongle at the Sensor Node of the
64. ult Personality for Organic Response is Open Floor Looking at the Open Floor Personality in the graphic below we can see that the light that detects motion comes on to 100 of its MaxLight level The immediately adjacent light fitting which receives a Level 1 signal from the Sensor Node that has detected motion also comes on at 100 as it is also contributing light to the soace where the occupant is located The second light away from motion comes on at 70 the third light away at 40 and the 4 light away at 10 Subsequent lights also come on at 10 up until the 14 light after which the lights ignore occupancy and remain in their MinLight standby state TRIGGER EVENT 14 ee 4 3 2 1 1 2 3 r ee Q renceeesrceenees 14 Corridor ght Output ona Extreme Saver Open Floor Figure 10 Personality Profiles The Personality features of the system are accessed and modified via the Personality section of the remote app The Optimiser level of the app contains eight Personality options the Configurator level of the app contains an additional 6 Personality options 14 in total You can review the full table of Personalities their behavior profiles and their typical applications in Appendices 5 4 5 7 ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 21 of 57 Optimiser Personalities Open Open s Closed p
65. uminaire and press the Go To command Min button 5 Relay the Restored MinLight if Dome of Sensor Node flashes red once required to acknowledge receipt of Relay command and then continues to flash red for 30 seconds The Sensor Nodes of each of the neighbouring luminaires that receive the Relay Restore Min message will glow red for 30 seconds to indicate that they have received the Relay signal Any Sensor Node that does not glow red has not received the signal and will not restore its previous MinLight setting Response from luminaire Light will increase in brightness by one dimming level Dim or decrease in brightness by one dimming level Dim for each button press The luminaire will immediately adopt this light level as its new MinLight setting and in future come on to this level when entering the Standby phase of operation All the luminaires that received the relayed Relay MinLight signal will immediately adopt their respective Minlight levels The luminaire will immediately adopt the previously stored MinLight setting and in future come on to this level when entering the Standby phase of operation All the luminaires that received the relayed Restore MinLight signal will immediately adopttheir previously stored Minlight levels ORGANIC RESPONSE PTY LTD ABN 46 151 527 098 47 Little Hoddle Street Richmond Vic 3121 61 3 9486 9823 organicresponse com au PAGE 18 of 57 2 1 7 MinLi
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