Photocontrol System Field Study Final Report
Contents
1. Possible causes of failure Use of clear glazing beam sunlight penetration Inadequate diffusion of daylight Large variance in light levels across the control area glare potential B What are design lighting conditions Action Interview site contact for desired light level criteria and satisfaction with current light levels data available from user dissatisfaction issues above Record equipment types Measure existing light levels Measure daylight levels with without electric light Record electric light levels Possible causes for failure Insufficient daylighting due to skylight sizing obstructions to skylight Electric lighting levels too high for the task resulting in excessive lighting Dark surface colors or low reflections resulting in lesser diffusion of light 1 Confirm the owners agreement before taking photographs HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SCE PHOTO CONTROLS BASELINE PROJECT 4 AUGUST 16 2002 2 Hardware Issues B Where is the photocontroller Is it operational Actions Record exact location of controller and ease of access to the controller Record type of photocontroller relay control panel setup number of control inputs etc Calculate wattage controlled and maximum wattage reduction Record schedule and other parameters needed to run SkyCalc Observe display panel for signs of operation Confirm that in2. Figure 13 Dimming control adjustment functions Figure 14 Open loop dimming single point calibration Figure 15 Open loop dimming sensitivity slope ratio method 4 4 8 13 13 14 15 20 21 25 25 29 30 32 33 Southern California Edison 2003 HI November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 1 INTRODUCTION This Guideline has been developed to assist in the design and deployment of photocontrol systems In skylit buildings These are lighting control systems that reduce electric lighting In response to daylight from skylights For many commercial buildings where there are large relatively open areas under a flat roof this type of system can be used effectively to provide high guality lighting and cost effective energy savings While the combination of skylights and photocontrols is relatively straightforward field research has shown that these systems do not always function as effectively as desired In some cases the systems do not work to the occupants satisfaction and so the photocontrols are simply disabled and the lights are left on all the time resulting in lower energy savings or the photocontrol system is disabled and the lights are left off most of the time often at the expense of lighting guality In the space In other cases the lighting provided by the skylighting system is inadequate In still other cases the photocontrols are not installed or calibrated properly a
3. An open loop control for skylighting can be straightforward the photosensor looks up at the skylight sees only the diffuse light entering through the skylight which can be the result of both beam sunlight and diffuse light from the sky An open loop control system assumes that the available daylight in the space is a simple linear function of the amount of light entering the skylight This assumption is reasonable for skylighting although it may not always be so for sidelighting through windows Figure 4 Open loop photosensor mounting e Closed loop control In this control scheme the sensor sees both daylight and electrical light in the space and adjusts the electrical lights output based on the total illumination from both sources Typically the photosensor looks down on a work surface or some other surface that represents the Figure 5 Closed loop photocontrol uses in the space Since the control scheme is dependent on interior lighting conditions any changes in lighting due to reflections or glare on the sensor or to changes in the reflectance of the reference surface such as putting white papers on a dark desktop can trigger a false response and provide unnecessary control of the lights and excessive cycling Selecting the right control strategy depends upon the space type lighting system type and source of daylight Skylighting systems lend themselves especially well to open loop controls as all of t
4. considerably more than other sensors for the loads they control We found these fixture integrated sensors in 3 of the 46 sites 7 2 in retail applications and 1 in office application Southern California Edison 2003 23 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 2 Outdoor Sensors This type of controller is ideally suited for outdoor lights 3 4 9 Se Sk Se and has the photosensor looking at the sky or ambient light levels outside In our sample these controllers were used to control Indoor lights by using a co relation between outdoor and indoor illuminance levels These controllers work well for large warehouse type spaces where there are uniform light levels throughout the space and there are no critical tasks that require different light levels and controls We found these outdoor sensors in 3 of the 46 sites 7 all of which were manufacturing warehouse applications Power Packs These are relay switches that drive a set of lighting circuits Often the power packs are line voltage relays that drive a set of low voltage relays that in turn the lights ON or OFF The power packs can take input from a photosensor time clock or occupancy sensor These sensors are typically used for smaller spaces where there are limited number of lighting circuits and are typically used with ON OFF or Hi Lo controls algorithms We found power packs in 8 of the 46 sites 18 2 in manufactu
5. design illuminance if this is not known then calibration at mid day noon is best to ensure the maximum amount of daylight available Identify the location of minimum task illuminance in the zone where the lights are being controlled This task location should NOT be directly under a skylight or under a light fixture This is the location where we shall measure task footcandles TF If there are another set of lights that are also controlled by the photocontrol system and this circuit is designed to be turned off at the same time of at a lower daylight footcandles than the circuit you are calibrating turn them off Extra task lighting is any light source that provides a significant amount of light to the task in the controlled lighting zone and is Not controlled by the photocontrol such as emergency lighting or A stage of lighting control that requires HIGHER levels of daylight before it is turned OFF The light from extra lighting on the task reduces the amount of daylight needed at the task and is measured as follows Extra footcandles EF TFEON TFEoFF where TFeon task footcandles with extra lights ON TFeorr task footcandles with extra lights OFF all or almost all of this light should be from the skylight DTF the daylight task footcandles is the amount of daylight needed at the task in addition to the extra footcandles EF to turn off the controlled lighting in the zone Daylight task footcandles DTF is DT
6. insufficient system documentation incorrect location of sensors and general user dissatisfaction with the overall performance 1 PG amp E Codes and Standards Enhancement Initiative Updates to Title 24 Treatment of Skylights http www energy ca gov 2005 standards documents 2002 05 30 workshop 2002 05 17 SKY LT PROP T24 PDF gt Table B9 Year Constructed Floorspace 1999 from Buildings Energy Consumption Survey CBECS US Energy Information Administration http www eia doe gov emeu cbecs Data is for an average year s new construction for the 10 vear time period ending in 1999 gt RLW Analytics Inc for Southern California Edison Statewide Market Assessment and Evaluation Non Residential New Construction Program Area Building Efficiency Assessment Guarterly Reports 4 Quarter 1999 through 3d Quarter 2000 June 4 2001 Southern California Edison 2003 2 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT of the systems In cases where the daylighting controls were not working per the design intent the surveyors found the systems in the override position The study recommended that the SBD program might consider requiring the commissioning of photocontrol systems to insure operational performance met the design intent It was recommended that commissioning of the system also include staff training and documentation to operate and troubleshoot the systems during periods of sub optimal performance whic
7. the electric lighting layout complements the daylighting from skylights by covering areas between skylights that might not receive adequate light At the same time the electric light layout should be able to provide adequate lighting throughout the space during night and when the daylight is not adequate Coordinating the daylighting and electric lighting also makes controlling the electric lighting systems more effective 2 6 Coordination with photocontrol system The photocontrol system marries the skylights with the electrical lighting system and enhances the ability to conserve energy To achieve optimal savings it is Southern California Edison 2003 5 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES essential to devise a control scheme that switches or dims light fixtures in a timely fashion while maintaining uniform illuminance throughout the space The control system should be designed such that it dims or switches light fixtures in areas with adeguate daylight while keeping the light fixtures in areas without daylight at the design output This will ensure that there Is adeguate light throughout the space and reduces the risk of over rides to the control sequence See section 4 for more information on this important coordination issue 2 8 Reference Skylighting guidelines energy design resources The Skylighting Design Guidelines available on the Energy Design Resources EDR website are excell
8. wana ies Wal Controller Type m oe A EMStied tied a oe D EE 28 1 2 Powerpacks 1 5 2 Outdoor Sensors 1 1 1 Table 15 Photocontrol Operation vs Controller Type Southern California Edison 2003 30 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Plotting the operational status of the photocontrols against the type of photocontrol system also indicates a good spread of performance across the types No particular product type is seen to be prone to failure more than other types or of being completely incompatible with the controls objectives The larger control types such as control panels and EMS tied system typically tend to perform well per the site operators due to the fact that most of these systems are installed in retail and manufacturing warehouse applications where there is a corporate energy policy as well as service contracts to keep the systems running efficiently wane ge vasen wang ios wei Lamp Type m aa aan TE st Fluorescent Fluorescent Lamps es i oh a oe ea Table 16 Photocontrol Operation vs Lighting System Plotting the operational status against the lighting system controlled shows that both fluorescent and HID lighting systems lend themselves well to photocontrols Both of them had almost identical performance records on the sites HMG visited Further we looked at the impact of the lighting control algorithm on the photocontrol syst
9. 1 hour on site Date Time JU No Who can we contact to get authorization to visit the site Name Phone Position title 23 Do you have access to the technical specs and or electrical drawings that describe your photocontrol system U Yes Confirm that they will be on site during the site visit LI No Who can we contact to get access to these drawings specs Name Phone Position title Photocontrol System Questions Ask only for sites we will be surveying We a few questions that will help us understand the operation of the photocontrol system HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 5 August 1 2002 24 What type of lighting system is controlled by the photocontrol system Multiple responses are okay U Fluorescent LJ Metal Halide Q High Pressure Sodium Q Other Specify 25 How are the lights controlled U Dimming JU On Off Switching U Stepped control increasing fraction of lights turn off as more daylight is available Q Other Specify 26 What is the brand of the photocontrol system 27 Where is the daylight photosensor located On the roof Under a skylight facing up On the ceiling facing down Facing a window Fixture mounted Orientation Other Don t know Could you please find out prior to our visit where the photosensor is located This will save us a lot of time during the survey UUUUUL Skip to End We will collect day
10. 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 7 ENERGY SAVINGS IN SURVEYED SYSTEMS The energy savings analysis was based upon the monitored power data from the sites along with SkyCalc analysis of the system as described in Section 5 Energy Savings Potential The realized savings ratio is the measure of performance of the photocontrol system and a system with realized savings ratio of 100 is assumed to be working per its technical potential and design intent In addition to the realized savings ratio we also calculated the predicted annual savings for each site using SkyCalc This kWh yr savings estimate gives the magnitude of savings from the photocontrol system For any given system the realized savings ratio expresses the scope for improvement in system operation while predicted annual savings provide the significance of the photocontrol system savings to the building operational budget The first task was to verify if the user reported operational conditions matched the actual system performance data Of the 33 sites analyzed users had stated that they were using manual overrides on three sites had problems with the photocontrol system operation on 15 sites and had no problems with the photocontrol operation on 13 sites We re classified all the sites under two categories systems that were operational without any manual controls henceforth called operational sites and systems that had manual overrides he
11. 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT ONSITE PROTOCOL AND DATA ENTRY FORMS Southern California Edison 2003 46 November 12 2003 HESCHONG MAHONE GROUP 11626 Fair O aks Blvd 302 Fair Oaks CA 95628 Sacramento area Phone 916 962 7001 Fax 916 962 0101 E mail info h m g com September 20 2002 SCE PHOTOCONTROLS BASELINE PROJECT ONSITE PROTOCOL To Jack Melnyk Gregg Ander From Jonathan McHugh Abhijeet Pande and Douglas Mahone ONSITE PROCEDURES There are three main components to the survey on each of the sites visited during this project 1 Interview to ascertain design intent use patterns history of usage and problems if any 2 Physical inspection a Record existing daylighting conditions electrical lighting layout task layout and surface properties b Record the condition of the photo controller photo sensor and other controls equipment installation and maintenance Record any problems and probable causes c Record the power consumption of the electrical lighting system under various control conditions 3 Generate a sky calc run to determine savings potential SITE INTERVIEWS 1 Whom to interview A Initial Contact pre screening survey B Occupants of the actual space if different than the initial contact C Decision maker if different than the contact or the occupants 2 What to ascertain A Historical inform
12. BACKGROUND The primary scope of this study is the actual energy savings of photocontrol systems when used in conjunction with skylighting Photocontrols are lighting control devices that reduce electric lighting power consumption in response to daylight available inside of buildings Skylighting is the use of skylights to bring daylight inside buildings We have chosen to Investigate the operation of photocontrols in conjunction with skylighting because we hypothesize that this type of daylighting application is the type that is most likely to have sustained savings due to its simplicity Understanding what separates well functioning photocontrol systems from malfunctioning ones under the more predictable luminous environment in skylit buildings will help to develop guidelines on how to apply photocontrols successfully for long term energy savings In many quarters it is believed that photocontrol systems rarely work regardless of their application We believe that this perception is from the many case studies and reports of photocontrol failure in the most arduous daylighting controls application controlling lighting in a sidelit office This perception has resulted in requirements for photocontrols being pulled from energy standards In the 1989 version of ASHRAE 90 1 photocontrols were required whenever the area exemption was used for skylights By the 1999 version of ASHRAE 90 1 the maximum allowable skylight area was severely reduced and
13. CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 9 PHOTOCONTROL INSTALLERS COMMISSIONERS GUIDELINES The purpose of this section Is to give guidance to the photocontrol manufacturers on the type of information that is needed to help an installer calibrate their control As such the instructions would be less generic and more specific to the configuration of their control In addition it is hoped that better understanding of the calibration process by manufacturers may lead to control designs that are easier to calibrate The photocontrols installer is responsible for the physical installation of the photocontrol system and the calibration of the control system to the manufacturers and photocontrol designer s specifications You may have heard horror stories on how difficult it is to calibrate daylighting controls If your control system is to be used to control lighting under diffusing skylights don t worry it is much simpler than daylighting controls for spaces that are daylit with windows Here is why e lf the skylights are truly diffusing the ratio of illuminance in the light well to that at a given location in the space is virtually constant under all sky conditions Thus once you have identified this ratio you can figure out the daylight contribution quite easily This makes open loop controls where the photosensor is in the light well under the skylight looking up easy to adjust This is the method of choice if you have a s
14. D G et al Estimation of Diffuse Radiation Fraction for Hourly Daily and Monthly Average Global Radiation Solar Energy 1982 Vol 28 p293 Perez R et al Modeling Daylight Availability and Irradiance Components from Direct and Global Irradiance Solar Energy 44 5 pp 271 289 Southern California Edison 2003 20 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 3 weeks due to limitations of the datalogger These amperage readings were converted to hourly averages The hourly averages were compared to the maximum amperage readings for the lighting system at full power based on the highest instantaneous power reading during the monitored period The resulting monitored power fraction represents the percentage of the lights that are on over the course of each hour These hourly ratios represent a snapshot system operation for the monitored period It should be noted that the sole information that was logged was periodic amperage readings for the circuits under the control of the photocontrol system These current readings could only tell the time and the amount of power consumption of the circuits This data could not directly indicate if other controls on the same circuit such as light switches time clocks occupancy sensors etc reduced energy consumption 5 2 Realized Savings Ratio The realized savings ratio of the photocontrol system is the ratio of the monitored power fraction to the calcula
15. Determine the circuit layout for luminaries gt Confirm the owners agreement before taking photographs Southern California Edison 2003 13 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 7 Acquire electrical plans equipment manuals and EMS program criterion 4 1 3 SkyCalc Inputs The approximately 30 questions below are most easily answered by filling out the input tab in SkyCalc spreadsheet If this is done on site one can quickly gain the site contac s interest as controls savings at the sites that have been filtered for inclusion into the program are likely to be large e Building occupancy For rooms containing skylights gather the following information e Dimensions height floor area e Colors of walls roof floors e Lighting source fluorescent metal halide high pressure sodium e Fixture type high bay low bay industrial strip downlight indirect e Fixture mounting height e Lighting control on off 1 2 off 2 level plus off 3 level plus off dimming e Design footcandles e Fixture count and wattage e Lighting schedules weekday and weekend hours e Shelving or rack height and width e Aisle width e Number of skylights e Skylight dimensions e Skylight glazing single vs double and glazing color e Light well height and color e Safety grate or insect screen Y N e Space heated e Heating system gas furnace heat pump etc e Space cooled 4 2 Troubleshooting 1 Daylightin
16. NOT be directly under a skylight or under a light fixture This is the location where we shall measure task footcandles TF e Set ramp and fade to 0 e Set sensitivity to maximum e Set offset high and then reduce offset until lights start to dim then back off a hair e f controller has adjustments for fade and ramp set the ramp rate to 15 sec and fade to 60 seconds Adjust in response to comments or observations that lights are responding to quickly or too slowly e During day when daylight contribution is close but below desired footcandles refine sensitivity if needed Set ramp and fade 0 while refining sensitivity Then restore ramp and fade values after making adjustments to sensitivity 5 6 Calibrating open loop dimming controls Most dimming controls do not allow you to define range of control voltages over which ballasts vary their output it is usually some small portion of the 0 to 10 VDC range As a result we can only approximate the appropriate control response via a sensitivity adjustment The protocol described below errs on the side of providing too much electric lighting This is considered preferable to maximizing energy savings but providing inadequate illuminance some of the time And certainly preferable to receiving callbacks due to complaints If we try to simply adjust the sensitivity of the control so that there is enough total light in the room at the time of calibration we could end up with the problem shown i
17. T si S a 16 2X 30 47 ae Davieht Foot Candle Daylight Foot4Candk L 2 controlled m ot er 24 controled oof lighting Pon a a 0 30 40 M0 60 NM 9 WwW 10 30 40 fi 6 TO Si Daylight Foot Candle Daylight Foot andk Figure 6 Switching Control Strategies Continuous Dimming The light output is gradually dimmed to an OFF state or to a minimum light level based upon the available daylight Fluorescent lamps respond better to continuous dimming than HID lamps due to their faster response While HID lamps can be dimmed energy savings are relatively low and color guality Is diminished When dimming ballasts are used the circuiting is continuous for all fixtures in a given control zone but there is usually separate control Southern California Edison 2003 14 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES a z c T wiring For retrofit applications where a separate control circuit is undesirable dimming ballasts and controls can use PLC power line carrier or triac based controls to send the dimming signal in the current carrying conductors lighting Fon a 2 OO 40 D 60 T Si Fd a 14 Z j 4 3 Daylight Foot Candles Daylight Foot ande a Fluorescent dimming b HID dimming Figure 7 Dimming control strategies 4 4 Placement of photosensor The importance of correctly placing and orienting the photosensor cannot be overstated The control algorithms
18. causes Record the power consumption of the electrical lighting system under various control conditions Generate a SkyCalc run to determine savings potential 4 1 1 Site Interviews 1 Whom to interview a Initial Contact pre screening survey b Occupants of the actual space If different than the initial contact c Decision maker if different than the contact or the occupants 2 What to ascertain Southern California Edison 2003 11 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT a Historical information i When was the photocontrols system installed li How well is the photocontrols system working iii If not working well when did the problems arise iv Are these problems related to other changes made to the building occupancy v How are these systems been maintained vi Do they have any suggestions about good installation design and maintenance practices b Photocontroller information i Make and model number of the photosensor ii Make and model of the controller iii Is the controller part of a larger EMS system iv If so description of the EMS system and the control logic v How does the controller talk with the sensor and the lighting system Are there relay panels and how are they operated vi Software controls on the controller c Plans and documentation do they have any of the following available for copying or reference i Set of plans showin
19. clear documentation on the photocontrol system design intent and controller settings on most sites The performance criterions for the photocontrol operation are not documented onsite and there is no feedback to the users about the actual effectiveness of the photocontrol systems Most of the systems are not supported with adequate documentation to allow the users to learn about their capabilities and do not provide easy and step by step instructions on how to change their system settings The roles of the various actors involved in the photocontrol system design installation and operation are often not well documented This leads to a lack of clear direction when something does go wrong with the system or when the system does not perform optimally 8 0 Future Investigations Based upon the data collection and analysis we feel there Is a need to further explore a number of issues critical to successful operation of photocontrol systems These issues can be summarized with the following questions Southern California Edison 2003 42 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Can existing equipment be used more effectively Can the installation process be improved with better information Canthe calibration process be made easier and intuitive Can we agree on installation calibration guidelines or methods How can we work with manufacturers to improve products We attempt at answering a few of t
20. control system controlled the lights as per the site operators expectations 16 of the 46 sites had photocontrols that were working well per the site operators 5 No photocontrols On these sites no photocontrol system was installed Instead either an occupancy sensor or time clock was controlling the lights User Stated Photocontrol Status Overridden photocontrols Photocontrols not working Photocontrols working w problems Photocontrols working well No Photocontrols Table 11 Photocontrol Operational Status Reported by Site Operators While HMG did not find any photo control systems that had failed physically almost 60 the sites had some problems with the photocontrol operation or photocontrols that were not believed to be working per the expectations of the site operators and users This initial classification of the photocontrol operational status was later revised during the analysis of the measured power consumption data from the sites and is presented in Section 7 Energy Savings in Surveyed Systems of this report 6 2 2 User Satisfaction Reasons HMG further investigated the reasons for the site operator s satisfaction or dissatisfaction with the photocontrol systems through the onsite interviews These responses were tallied for systems that were not working working with problems or overridden Southern California Edison 2003 27 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Reasons
21. database as well as to generate a savings analysis The following discussion summarizes the site characteristics found at the 46 sites 6 1 Site Characteristics The 46 sites visited included four building types The greatest number of sites 44 was classified as manufacturing warehouse and the second most common 37 was retail About 10 of the sites were classified as offices and 10 as classrooms The high concentration of manufacturing warehouse and retail buildings In our sample Is a result of the high percentage of the above building types in the Savings By Design contact database our main source of site contacts The manufacturing warehouse and retail applications also account for the low hanging fruit in the existing potential for daylighting controls as these building types typically have large open spaces that can be easily skylit to provide uniform daylight penetration Building Type Sites Manufacturing Warehouse 20 Retail 17 Office 5 Classrooms 4 Table 8 Building Types Visited The building vintages ranged from building commissioned in 1993 to buildings commissioned in 2002 However 29 of the 46 buildings were commissioned in the last three years We also verified onsite that the photocontrol systems found onsite were the original systems that were installed at the time of building commissioning so the building vintage can be used as a good proxy for age of the photocontrol system 7 of the 46 buildings h
22. electric lighting output TFun and also make note of value of the sensitivity control SCwin e Turn off electric lighting measure daylight on task TFoFF e Full output electric lighting task footcandles EFon are EFon TFon TForr e Minimum output electric lighting task footcandles EFun are EFmin TFmin TFoFF e The electric lighting dimming percentage at minimum light output DPun IS DPMIN 1 EFmN EFon x 100 e The dimming percentage ratio measured DPRweas is the ratio of the percent dimming per footcandle of light at the task DPRwmeas DPmin TForr e Define the desired dimming percentage ratio DPRser the dimming percentage at minimum light output to the appropriate daylight task footcandles DIF ser DPRset DPun DIF set where DTF set EFON EF yin e The desired sensitivity control setpoint SCser is the value that the photocontroller should be adjusted for the desired performance SCser DPRset DPRmeas X SCMIN e Turn lighting back on e Make adjustment to sensitivity verify scale of sensitivity setting Some controllers have a non linear sensitivity scale Make sure to ask them how they scale sensitivity to the adjustment gradations on their controller e After lighting has warmed up take measurements to validate that the measured task footcandles are at or above design desired footcandles e f controller has adjustments for fade and ramp set the ramp rate to 15 sec and fade to
23. heating and cooling loads in the space The general rule of thumb for large open spaces such as warehouses retail buildings industrial work floors is to have the gross skylight opening area within 3 6 of the daylit floor area good skylight design will provide adequate daylight in the space with the smallest skylight opening area in a cost effective manner Excessive skylight area can lead to overheating and glare problems 2 2 Skylight layout and spacing While the SFR Is a predictor of the total daylight entering the space effective daylight distribution throughout the space depends on a good layout and sizing of the skylights For special skylight applications such as lobbies and display areas the skylight layout will be dictated by the design considerations of the space For large open spaces the main focus of this Guideline the main concern is to provide uniform lighting throughout the space Using the same SFR the designer can choose either large sized skylights spaced wide apart or smaller skylights spaced closer The former is easiest to install but produces areas of brightness under the skylights with relatively dark spaces in between The later produces more uniform daylighting and more energy savings but costs more to install A general rule of thumb is to set the center to center spacing of the skylights at 1 0 to 1 5 times floor to ceiling height in a typical open space configuration with a Energy Design Resources webs
24. sector independently to ensure flexibility in operation e Generally the more circuits per layout the greater the control options However a circuiting done without attention to the architectural elements and interior layout is ineffective Southern California Edison 2003 1 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 4 LIGHTING CONTROLS DESIGNER GUIDELINE The lighting controls designer is the specialist dealing with the selection calibration and commissioning of the photocontrol system In some cases the lighting system designer may also be the lighting controls designer The lighting control designer needs to work in close coordination with the lighting system designer and the bullding designer in devising a control strategy that both satisfies the performance needs and achieves desired savings without causing discomfort to the users 4 1 Consideration for the user and building operator needs Above all the other factors the control scheme needs to be sensitive to the user needs and perceptions Often the control schemes are over ridden by the building operators because the users feel there is too much or too little light in their space and complain about it In some cases users become dissatisfied because lights are switching on and off without apparent reason so satisfaction is also related to training and understanding of the role of the photocontrol system The control scheme needs to be eas
25. see Section 5 Deadband settings the deadband setting ensures that the lights do not cycle through the control stages too frequently and cause user discomfort There are two settings to a deadband based on the photosensor Southern California Edison 2003 16 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES readings the upper setting turns off the electric lights when the daylight level exceeds the upper limit while the lower setting turns the electric lights back on when the daylight level falls below the lower limit For open loop controls if there were no deadband the electric lights would cycle on and off whenever the daylight levels were near the set point and the daylight levels fluctuated even slightly Deadband is significantly more important for closed loop controls since the control senses the combination of electric lighting and daylight Without sufficient deadband in a closed loop system the cycling of the lamps on and off will be limited only by the time delay The deadband for closed loop controls should be slightly greater than difference in light levels between the lights being ON and OFF as measured by the photosensor e Ease of changing setpoints and deadband settings The space usage and interior coverings often change and necessitate changes to the setpoints and deadband settings It is critical that the controller allow the user to change the settings easily and without extensive
26. system capabilities and instructions on how to change the control variables e A user manual for the control system and all associated components must be maintained onsite in an easy to access and safe location e Contact information for the designers and manufacturers should be readily available to the building operator in case of future troubleshooting 6 2 Optimizing operation for energy savings Despite the designers and manufacturers best intentions it is possible that the system does not perform to its optimal performance The personnel best suited for judging day to day performance of the system is the building operator A properly designed system will allow the building operator to change the setpoints and the control features after the initial training While it is advisable not to make changes to the control system that might be detrimental to the system performance fine tuning of the operation is critical to ensure user satisfaction and adequate savings This may also be necessary due to a number of variables such as changing peak demand savings targets changes in interior layout etc A diligent building operator can increase the savings yield of the photocontrol system while improving the comfort of the building users Southern California Edison 2003 35 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 6 3 What to do in case of failure The first step in case of failure is the ability
27. the 46 sites we visited the site operators reported that they were overriding the systems on 5 sites 2 Photocontrol not working On these sites the photocontrol systems were reported as being not working at all i e they were installed but never turned lights OFF or dimmed the lights as programmed The operators did not bypass the controls but rather the installers and operators were unable to get the controls to work as designed We found 2 of the 46 sites had photocontrols not working 3 Photocontrols working with problems On these sites the site operators reported that they were generally happy with the operation of the control system but wished that the system worked a little better The problems ranged from lights being controlled too often causing cycling of lights to lights being controlled too conservatively resulting in the system keeping the lights ON when the operators would prefer them to be OFF The problems were not severe enough for the site operators to override the system but given the opportunity they would like to see the system settings changed to improve the Southern California Edison 2003 26 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT control function 20 of the 46 sites visited were reported to have photocontrols working with some problems 4 N Photocontrols working well On these sites the site operators were satisfied with the control system operation and the
28. the light level on the photosensor exceed the OFF Setpoint then the lights turn off Lights stay OFF until the light level on the photosensor is less than the ON setpoint The DEADBAND is the light level difference on the photosensor between the ON Setpoint and the OFF Setpoint Almost all switching controls will refer to an illuminance setpoint but this could refer to the ON Setpoint the OFF Setpoint and in some cases midway between the ON Setpoint and the OFF Setpoint Thus it is important to ask the manufacturer to define how both the ON Setpoint and the OFF Setpoint are adjusted However they are all related by the following simple relations e OFF Setpoint On Setpoint Deadband e Deadband OFF Setpoint On Setpoint e ON Setpoint OFF setpoint Deadband Most switching controls have an adjustable time delay This time delay prevents lights from cycling on and off on partly cloudy days when daylight footcandles can jump around With a time delay when the photosensor footcandles drop below the ON Setpoint the lights do not immediately turn on Instead the control starts a timer and if the photosensor footcandles remain below the ON Setpoint for the duration of the time delay then the lights are switched on Since maintaining light levels above a desired minimum footcandles is more important than immediately turning off lights when there is sufficient daylight some controllers have separate time delay ON adjustments from time del
29. to understand if the photocontrol system performance degraded over time As seen in Table 22 majority of the systems we analyzed were commissioned in the last 3 years and over half of these systems were operational 8 of the 33 sites analyzed were commissioned 3 6 years ago and a large majority of these systems were operational There was one system that was older than 6 years and it was manually overridden It is important to note again that only one of the 12 overridden sites had the lights turned ON by the users On all the other sites users were overriding the systems to turn lights OFF to achieve more savings Analyzed Overrides 6 2 100 Table 23 System Operational Status vs Building Type Total Sites We then looked at the impact of building type on the photocontrol operational status Majority of our sites were either manufacturing warehouse or retail buildings For these building types about 2 3 of the systems were operational The one office application we analyzed was also operational The classroom operations proved to be much harder to analyze than the other building types This was due to the changing schedules in the classrooms along with changing needs for lighting for various activities in the classrooms From the data it was not clear when the photocontrol system was operating to control the lights and when the teachers were manually turning the lights OFF It was clear though that the teachers were indeed tur
30. transmittance due to glazing weathering and dirt 10 Well efficiency fraction of light entering a light well that exits it Coefficient of Utilization faction of light that leaves the light well that makes it to the task surface This is a function of space geometry and reflectances Multiplying the calculated Daylight Factor times the hourly external illuminance during the monitoring period yielded the interior hourly illuminances Applying these interior illuminances to the control function resulted in estimated power reduction factors for each hour of the monitored period for the 33 of 46 sites that were skylit and had monitored data Comparing the actual energy savings from monitored electric power data during daylit hours to the idealized savings estimate from SkyCalc resulted in a realized savings ratio for the 33 sites with power measurements The realized savings ratio is an indication of how well the system is performing relative to predicted savings calculated for a system that works as designed 5 1 Monitored Power Fraction The monitoring equipment recorded amperage levels on the lighting circuits at 4 6 minute intervals over approximately a 2 week period Since the installed loggers were returned by the site operators at their convenience the amount of time the loggers were collecting data on the sites varied largely 2 weeks to 2 months however the data collection was limited to a maximum of approximately Erbs
31. 03 7 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 3 2 Screening Interview Responses The interviewers used the standard script described above and collected as much information as was allowed by the Interviewee s schedule and level of knowledge A number of interviews had incomplete information This was due to the focus of the interviewers to concentrate on obtaining permissions for on sites and the contention that exact information would be collected in the on site survey In Table 2 the breakdown of the occupancy type of the sites we contacted is shown The most common occupancy type was C amp l warehouse consisting of 40 of the population The prevalence of warehouse buildings in our population resulted from the high percentage of the building type in the Savings By Design contact database our main source of site contacts C amp I warehouse 100 Table 2 Occupancy Type Of Contact Population Of the interviews with completed answers to the floor area questions most buildings were found to be over 100 000 sg ft In Figure 2 the distribution of floor area for the sites is shown The large floor area of the buildings in the sample ties back to the prevalence of the warehouse occupancy type Table 3 illustrates that over half of the sites are controlling their entire lighting system with photocontrols Number of Sites 7 i u
32. 60 seconds Adjust in response to comments or observations that lights are responding to quickly or too slowly Southern California Edison 2003 34 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 6 BUILDING OPERATORS GUIDELINE All the above actors play a role in the design installation and commissioning of the photo control system but none have as much vested in the system s performance as the building operators It is the building operators responsibility to monitor the photo control system for adequate performance and to perform regular maintenance In certain cases the manufacturers and or the controls designer will assume a role in maintaining and monitoring the system performance but even these require some building operator participation It is therefore essential for the building operators to understand how the system works how to improve its operation and what to do when the system fails 6 1 Understanding how the controls are supposed to work The building operator must be a participant of the controls design and implementation process If the building operator is aware of the control system capabilities and how the control system is set up it is easier to monitor the system for intended operation Few considerations in this regard are e A training session for the building operators must be scheduled after the system is installed and commissioned This training should include explanation of the
33. CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES This program is funded by California utility customers and administered by Southern California Edison under the auspices of the California Public Utilities Commission Southern California Edison 2003 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES TABLE OF CONTENTS 1 INTRODUCTION 2 BUILDING DESIGNERS GUIDELINE 2 1 Skylight to Floor Area Ratio SFR 2 2 Skylight layout and spacing 2 3 Skylight glazing type 2 4 Coordination with the interior layout 2 5 Coordination with electric lighting system 2 6 Coordination with photocontrol system 2 Consideration of user and building operator needs 2 0 Reference Skylighting guidelines energy design resources 2 9 Reference SkyCalc analysis tool 3 LIGHTING SYSTEM DESIGNERS GUIDELINE 3 1 Choice of lamp ballast type 3 1 1 High Intensity Discharge HID Lamps Ballasts 3 1 2 Fluorescent Lamps Ballasts 3 2 Layout of lighting fixtures 3 3 Circuiting of lighting for controls 4 LIGHTING CONTROLS DESIGNER GUIDELINE 4 1 Consideration for the user and building operator needs 4 2 Selection of control strategy 4 3 Coordination with lighting system 4 4 Placement of photosensor 4 5 Selection of controller features and algorithms 4 6 Establishing target savings 4 7 Installation and commissioning 9 PHOTOCONTROL INSTALLERS COMMISSIONERS GUIDELINES 5 1 Switching controls overview 5 2 Commissioning protocol for o
34. F Design footcandles EF If you do not have a feel for what the design footcandles should be turn on and off all the lights and record the difference in light levels at the same point where the task light level TF measurements are taken Design Footcandles TFon TFoFF where Southern California Edison 2003 22 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 7 TFon task footcandles with ALL lights ON TForr task footcandles with ALL lights OFF Record task footcandles with all electric lighting turned off TForr This is the amount of daylight footcandles at the task 5 2 3 Calibration adjustments 1 2 3 4 9 6 7 8 Start the procedure by minimizing the time delay and the deadband settings set to zero if possible If the controlled lights are on in the space reduce the setpoint until the lights go out Record the sensor footcandles SF measured by the control photosensor in the skylight well either from an electronic readout from the photocontroller or by increasing the ON Setpoint until the lights turn ON Record the value of sensor footcandles SF as a Display of sensor footcandles or voltage b Dial or slider note the angle of the dial or position of slider with respect to the OFF position or by manufacturers designated setpoint indicators numbers or letters by the adjustment c LED s note the number of LEDs lit for one manufacture
35. November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 3 On site Recruitment In this section we recruited on sites scheduled the survey and collected the logistical information for the survey 4 Photocontrol System Questions This section gathered general information of the photocontrol system for sites we have scheduled a survey 5 Daylighting Questions This section was completed for sites we were unable to receive permission for a survey It gathered additional information on the photocontrol system 6 Detailed Building Specific Questions This section covered building information used in SkyCalc runs Similar questions were asked during the on site survey Each phone call lasted on average fifteen minutes In Figure 1 the key questions for recruitment are represented in a flowchart The complete phone interview is attached in the appendix Q3 Occupancy If residential Type S end call 04 Appropriate Site Contact Yes No 06 Significant 05 Find Appropriate Daylighting Contact end call Yes No Q13 Photocontrols Q7 Other Skylit Facility Yes No Yes No Q22 Appropriate Contact Q31 Proceed to Q7 Same End Call to Schedule Onsite Daylighting Section Contact Yes No Q23 Find Appropriate Restart Q8 Find Appropriate Contact Survey Contact end call Complete Follow up Call to Appropriate Contact Q24 Schedule Onsite Figure 1 Phone Interview Flowchart Southern California Edison 20
36. Photocontrol System Field Study Final Report SOUTHERN CALIFORNIA EDISON An CRAN D ER NA UNALL Compani Submitted to Gregg Ander FAIA and Jack Melnyk P E Southern California Edison Co 6042 N Irwindale Ave Suite B Irwindale CA 91702 Submitted by HESCHONG MAHONE GROUP INC 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 Phone 916 962 7001 Fax 916 962 0101 e mail info h m g com website www h m g com Southern California Edison 2003 October 28 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES This program is funded by California utility customers and administered by Southern California Edison under the auspices of the California Public Utilities Commission Southern California Edison 2003 November 12 2003 SOUTHERN CALIFORNIA EDISON TABLE OF CONTENTS 1 2 PROJECT BACKGROUND PROJECT OUTLINE 2 1 Project Goals 2 2 Project Stages SITE SELECTION 3 1 Screening Interview Process 3 2 Screening Interview Responses 3 3 Final Sample Size ONSITE PROCEDURES 4 1 Onsite Protocol 4 2 Troubleshooting ENERGY SAVINGS POTENTIAL 5 1 Monitored Power Fraction 5 2 Realized Savings Ratio FIELD SURVEY OBSERVATIONS 6 1 Site Characteristics 6 2 User Satisfaction With Photocontrol System Operation 6 3 User Satisfaction With Photocontrol System Vs Site Characteristics __ 6 4 Site Characteristics Summary ENERGY SAVINGS IN SURVEYED SYSTEMS 7 1 Comparing S
37. SHGC and the overall conductivity of the skylight unit for all types of heat flow measured by U factor The skylights should help in reducing heat loss from the space in cold weather by using lower U factor and reduce heat gains in sunny hot weather by using lower SHGC This is especially true for more extreme climates The trade off is that the features that reduce U factor and SHGC such as dual or triple glazing often tend to reduce light transmittance In most jurisdictions energy codes require that skylights over conditioned spaces at least be double glazed 2 4 Coordination with the interior layout A good skylight layout is aligned with the interior layout Locating skylights between tall wide stacks in warehouses prevents the light from being blocked by the stacks Often the interior layout in a space is not known at the time of design of the space In such cases the skylights should be laid out on a standard grid in order to ensure that there is uniform distribution of light in the space For special conditions such as lobbies and display areas however the skylighting design is a function of the aesthetic requirements and hence the layout may be customized to generate the right moods in the space 2 5 Coordination with electric lighting system The building designer needs to coordinate with the lighting system designer to ensure optimal lighting coverage in the space for more information see section 3 If designed correctly
38. ad been retrofitted with photocontrols and the retrofits had occurred in the last three years The building vintages for these sites were adjusted to reflect the photocontrol system vintage Southern California Edison 2003 22 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 16 14 12 10 c 2 8 O 6 4 al o x 1 se A PDO A DMD ES SE PP PLS LS S O Year Photocontrol System Installed Figure 4 Vintages of Buildings Surveyed There were two main lighting system types found in the survey population HID high intensity discharge and fluorescent luminaires The HID s were found predominantly in the manufacturing warehouse spaces while the fluorescents were common in the office and classroom buildings Building Type Sites with Sites with HID Fluorescent Lamps Manufacturing Warehouse Table 9 Lighting System Types Surveyed There are various types of photocontrol devices commercially available in the market ranging from single fixture controllers to whole building EMS tied control systems HMG found five different types of controllers in the buildings surveyed see Table 10 1 Fixture Integrated The photosensor is mounted either on the light fixture or on the ceiling next to the fixture Each fixture or group of fixtures is controlled with the sensor directly without any additional master controller These sensors are typically used in high end applications and cost
39. alculate CSOFF ser the desired OFF control setpoint as follows CSOFF set CSOFFmeas CSONset CSON meas Southern California Edison 2003 27 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 11 Adjust the OFF control setpoint to the desired setting CSOFFsgr You must confirm with the manufacturer how control setpoints relate to the markings on the adjustment control If the adjustment is linear you can apply CSOFFsgr directly otherwise use the manufacturer s look up table or graph 12 Once the setpoint is set change the time delay back to the manufacturer s recommendations Typically the ON time delay is set to a low value to ensure immediate response when the daylight is inadequate while the OFF time delay is set to a higher value to prevent lamp cycling due to sudden changes in daylight levels such as clouds passing overhead The OFF time delay is typically 5 minutes If there are any complaints on the operation of the system investigate the reason If the complaint is that the task light level is too low measure the light level and if indeed it is too dark then increase the desired control setpoint up by an appropriate fraction If the complaints are about the lights cycling on and off increase the deadband or the time delay Multi level switching controls If you have multiple stages of control on the same set of lights first calibrate the circuit s of lights that are furthest away from
40. are governed by the photosensor outputs which in turn are dependent on what the photosensor sees Following are recommendations for the placement of photosensor depending on the control strategy For sky lit buildings with open loop control it is best to locate the photosensor directly underneath a representative skylight facing up towards the skylight well If some of the skylights are smoke vents it is worthwhile to consider placing the sensor under the smoke vent as it is easier to access the sensor for cleaning from the roof The sensor should have a wide angle of view so that it averages the brightness of the entire skylight dome This strategy assumes a diffusing rather than a clear skylight glazing Clear glazing would not work well here because at times the photosensor would be looking at beam sunlight at other times it would see blue sky which is not bright and at other times it would see overcast sky With diffusing glazing the photosensor sees an averaged sky luminance which will be proportional to the illuminance on the task surfaces below For sky lit buildings with closed loop control it is best to locate the photosensor facing a vertical surface internal wall that is equally distant from the skylights and electric lighting at a height sufficient to avoid shading from any furniture or equipment In this strategy the target surface and the other room surfaces are assumed to receive diffuse and reflect the typi
41. are identified by a site number assigned for the study and not by the name of the owners or tenants in order to protect their privacy Southern California Edison 2003 5 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 3 SITE SELECTION To find appropriate sites for the study we gathered data from the Savings By Design program Building Energy Assessment study and SCE s New Construction Assistance program contact databases We also contacted photocontrol systems and skylight manufacturers lighting designers and architects to obtain their cooperation in contacting customer sites We concentrated our efforts on the SCE service territory but also looked farther afield when it was necessary to recruit sufficient candidates for the project The list of sites included 150 buildings with a variety of occupancy types including C amp I warehouse retail manufacturing office and school buildings and various types of photocontrol systems ranging from individual fixture mounted sensors to multi zone control panels tied with the buildings energy management system Primary emphasis was on non residential buildings with daylighting from skylights along with photocontrols While attempts were made to ensure a balance of building types photocontrol system types lamp types and building sizes in the sample we did not employ any formal techniques of generating a sample that was representative of the entire population Rather th
42. arly any glazing can be mounted in single double or even triple layers for greater thermal resistance For open spaces such as warehouses where uniform daylighting distribution is required translucent glazing materials frosty white in appearance are the best choice hese skylights diffuse the skylight and distribute it evenly over their coverage area even under direct sun conditions and therefore do not require as much supplementary control from shades or other objects If clear glazing is selected then the light must be diffused by some other means within the space to prevent glare and spread the light more evenly through the space Southern California Edison 2003 4 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES Another important glazing characteristic is overall light transmittance As long as it is highly diffusing the glazing should also have the highest practical transmittance to admit the most light through the smallest opening Apart from the light transmitting properties the skylight glazing also has thermal transmittance properties that affect the heat loss or gain through the skylight to the space below and hence the heating and cooling loads on a space There are two properties that are important in determining the thermal performance of the skylight glazing the relative proportion of the sun s radiant heat that is blocked by the glazing material measured by solar heat gain coefficient
43. ation When was the photocontrols system installed ii How well is the photocontrols system working iii If not working well when did the problems arise IV Are these problems related to other changes made to the building occupancy V How are these systems been maintained vi Do they have any suggestions about good installation design and maintenance practices SCE PHOTOCONTROLS BASELINE PROJECT 2 AUGUST 16 2002 B Photocontroller information i Make and model number of the photosensor ii Make and model of the controller jii Is the controller part of a larger EMS system IV If so description of the EMS system and the control logic V How does the controller talk with the sensor and the lighting system Are there relay panels and how are they operated Vi Software controls on the controller C Plans and documentation do they have any of the following available for copying or reference i Set of plans showing electrical lighting and control layout ii Photocell location and control diagram lil Photocell and controller documentation D Nature of problems if any i Describe if the problem is select from the list e Controls do not maintain appropriate light levels e Controls do not achieve optimum energy savings e Controls seem to cause frequent lamp or ballast failure e Lights switch on off too frequently e Controls too difficult expensive to calibrate or maintain e Controls irritate occupants e Occupants disa
44. ay OFF adjustments Southern California Edison 2003 20 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 5 2 Commissioning protocol for open loop switching controls This protocol makes the following assumptions e The space is lit with top lighting from skylights with diffusing glazing If you can see images through the glazing it is not diffusing The skylight should be casting a broadly spread blob of light not a shaft of light that creates a distinct image on the floor e The photosensor is located in the skylight well facing up towards the skylight glazing This sensor should have a wide angle of view typically 120 degrees and should be mounted in 8 from the edge of the light well on a standoff and be at least 12 below the sky Figure 9 Open loop photosensor mounting e The control algorithm uses a switching strategy ON OFF or multi level switching e f multi level circuiting is used circuiting is organized so that lights closest to skylights are on a separate circuit from those that are further away from skylights Also circuiting is on a regular pattern so that lights on one stage of control alternate with lights on another stage of control Once the photosensor is mounted in the skylight well the photocontroller needs to be calibrated The purpose of the calibration is to assure that no location in the room is less than the design illuminance and that the lights do not cycle o
45. bled for unknown reasons e Failed for unknown reasons e Other Specify ii Source of problems e Design problem e Equipment problem e User intervention e Calibration commissioning problem e Other describe ili Describe the problems story E Functional requirements note down the following for each of the spaces i Tasks ii Illumination levels desired lil Desired performance of lights dimming switching levels sought IV Which lights to be controlled And which to be left out HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SCE PHOTOCONTROLS BASELINE PROJECT 3 AUGUST 16 2002 SITE OBSERVATIONS AND MEASUREMENTS vi VII Gather SkyCalc inputs Determine sensor and control system location Record physical state of the equipment record with photos U Record response of sensors and controller to light levels Measure daylight and electric light levels over the space Determine the circuit layout for luminaries Acquire electrical plans equipment manuals and EMS program criterion 1 Fenestration Issues A Is the daylighting distribution from the fenestration uniform across the control area Actions record location and numbers of windows skylights record the type of glazing record light distribution patterns without electric lighting if possible record light distribution patterns with electric lighting identify lighting quality problems glare dark spots etc
46. cal daylight and electric lighting and so to represent the Southern California Edison 2003 15 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES general light levels throughout the space The photocontrol will use the light level reading from this surface to raise or lower the electric lighting to maintain a constant level of illuminance and so the target surface must respond to both kinds of lighting In a way that is similar to the rest of the space The surface must be protected from excessive shading and from extraneous light sources such as reflections off of surfaces outside the space which would send the wrong signal to the photocontrol system and inappropriately dim electric lighting As implied in the previous two recommendations there are several ways to get the photosensor placement wrong The most basic mistake is to place the photosensor in a location that does not receive illumination representative of the task areas If the photosensor receives extra light that is not typical of the space then it will turn down the lights excessively If it does not receive as much light or a proportional amount of light as the rest of the space then the electric lights will be controlled brighter than necessary The former case could lead to dissatisfied occupants the latter case to lost lighting savings Another mistake is to place the photosensor in a location where it can be easily damaged where it will bec
47. ccupant control during short duration specialized tasks time clocks turn off lights after hours 3 Optimize the performance of the system for maximum occupant satisfaction and maximum energy savings This is fine tuning the system in response to occupant complaints or requests Southern California Edison 2003 2 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 2 BUILDING DESIGNERS GUIDELINE The building designer is the focal member of the design team and tt is the building designers responsibility to coordinate different aspects of the building systems and envelope design To this end it is the building designer s responsibility to create a program that allows successful integration of the lighting and daylighting systems with the envelope design Following are key considerations for designing an effective skylit building This is a much larger topic than the design aspects we mention here however For a more complete discussion please refer to the Skylighting Design Guidelines published through the Energy Design Resources EDR website Also refer to the SkyCalc skylighting tool on the EDR website for information on estimating savings from skylighting 2 1 Skylight to Floor Area Ratio SFR The SFR is defined as the ratio of gross skylight opening area to daylit floor area The gross skylight opening area is determined by the amount of daylight needed in the space along with the energy tradeoffs on
48. ce 10 Table 7 Satisfaction With Photocontrol System 10 Table 8 Building Types Visited 22 Table 9 Lighting System Types Surveyed 23 Table 10 Photocontroller Types Surveyed 29 Table 11 Photocontrol Operational Status Reported by Site Operators 27 Table 12 Stated Reasons for Disabling Photocontrol System 28 Table 13 Stated Problems With Working Systems 29 Table 14 Photocontrol Operation vs Building Type 30 Table 15 Photocontrol Operation vs Controller Type 30 Table 16 Photocontrol Operation vs Lighting System 31 Table 17 Photocontrol Operation vs Lighting Control Algorithm 32 Table 18 Photocontrol Operation vs System Vintage 33 Table 19 Manual Override Status 39 Table 20 Comparing User Satisfaction with Actual System Performance 39 Table 21 Mean Predicted Savings vs Savings Potential 36 Table 22 System Operational Status vs Age of System 37 Table 23 System Operational Status vs Building Type 37 Table 24 System Operational Status vs System Control Strategy 38 Table 25 System Operational Status vs Controller Type 38 Table 26 System Operational Status vs Control Algorithm 39 Southern California Edison 2003 I November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Table 27 System Operational Status vs Lighting System 39 Table 28 System Operational Status vs Incentives 39 Southern California Edison 2003 IV November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 1 PROJECT
49. conditions in California The user selects a particular climate zone and SkyCalc calculates the energy impacts from skylights on an hourly basis throughout the year See Figure 2 Effective Aperture 2 50 Skylight to Floor Ratio SFR 5 00 Average daylight foot candles oe 12 13 14 15 16 1 s a BE 67 ER de dr S EE 0 67 oo g0 84 gg 99 93 g3 103 107 102 98 110 113 108 90 101 105 101 d 95 96 6G BA 53 La 53 Ai Pal ae Bee DT Boer es HT CAT RE R EL Biel BEI BEI e do an lt 25 fc able Figure 2 SkyCalc M daylight illumination chart This sample SkyCalc daylight illumination chart illustrates average hourly room illumination in foot candles that would result from a given skylighting design for a particular climate SkyCalc also includes an optimization feature that helps designers identify where the energy performance of a particular design falls among a range of possible designs See Figure 3 Southern California Edison 2003 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES Total Annual Energy Savings from Skylihis Lighting Cooling and Heating all fuek conv erted to kWh yA RER 0 PIO Annual Energy Saving kWh OC 1 2 04 3 04 A 7 SC 6 Dii 7 04 8 04 a 0o l 0s 110 110 Skylight to Floor Ratio SFR Figure 3 SkyCalc M optimization curve The above graph is a SkyCalc optimization curve generated or a grocery store located in Bakersfie
50. cramento area Phone 916 962 7001 Fax 916 962 0101 E mail info h m g com Photocontrol Screening Phone Survey Hello am calling on behalf of Southern California Edison as a part of its ongoing efforts to increase energy efficiency in buildings SCE has been actively promoting energy efficiency through the use of use of daylighting or natural lighting with lighting controls We are conducting research on the effectiveness of these controls In non residential applications and your facility Is one of several sites identified as having these lighting controls If you are calling SCE program participants add the following We understand that you had participated in SCE s Savings by Design or Commercial New Construction Assistance Program and that daylighting controls were considered As a first part of this research would like to ask you a few simple questions to learn about the daylighting in your facility This should take about 30 minutes of your time Is this a good time to talk J Yes U No Please specify a time Thank them for their time and end call Gualifying Guestions 1 Can you confirm the address for your facility Is it lt lt address gt gt U Yes Skip to 33 LI No 2 Please update our address information Address Contact name Contact number 3 What occupancy best describes your building type Warehouse Manufacturing Retail commercial Office Other specify Residential Thank them for their tim
51. cturers and designers and are intended to be distributed amongst the manufacturers specifiers designers and building operators 2 2 Project Stages The project involved three distinct phases 1 Site selection Generating a database of existing building stock in southern California that had daylighting with photocontrols and screening the sites for eligibility 2 Onsite data collection Collecting performance and name plate data on the photocontrol system space design and operating parameters from the sites selected for the study 3 Data analysis and reporting Analyzing the site characteristics and photocontrol characteristics with the aim of establishing any patterns or Southern California Edison 2003 4 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT reasons for the performance or non performance of the photocontrol systems The aimis to identify the weak links in the photocontrols design installation and maintenance processes that hinder successful operation of the photocontrol systems This phase also involved the generation of the photocontrols installation and maintenance guidelines While this study analyzed the reasons for performance or non performance of photocontrol systems it did not look into improving the performance of systems that are operational It also did not recommend any re commissioning procedures on a site level All information is presented in an aggregate format and sites
52. e description Frame description Frame description Frame description Frame description HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 0207 SCE Photocontrols project Project DH Surveyor _ Photocontrols Installation Historical Information Survey Date 1 When was the Photocontrols system installed 2 Was the Photocontrols system a retrofit What else was added changed during the process of installing the photocontrols system 3 What was the main reason s for installing the photocontrols system 4 Who position or title recommended that photocontrols be installed Architect electrical engineer owner facilities manager energy manager utility etc 5 Did you receive any design assistance or incentives to install the photocontrols system If so could you give a brief description of the nature of assistance received 6 Howis the photocontrols system currently working Is it performing as per your original ideas If there are problems with photocontrols systems ask the following else skip to Q9 7 When did these problems first occur 8 Was the problem in the photocontrols system operation due to any changes made to the building or the lighting system If so please describe the changes 9 Briefly describe the nature of the problem with the photocontrols system Open ended U Controls do not maintain appropriate light levels U Controls do not achie
53. e and end call LD J U UL L 4 Are you the best person to talk to regarding the maintenance of the lighting and daylighting systems in your facility U Yes Skip to Q6 U No X 10207 SCE PC Field Study deliverablesScreening Phone Survey Final doc Charles Ehrlich 09 25 02 5 04 PM 2 August 1 2002 5 Can you refer me to the person who is Name Phone Position title Thank them for their time and end call 6 Is significant daylighting brought in through windows skylights or clerestories Discuss with them as needed what we mean by significant daylighting to assure that it is a daylit building LJ Yes J No 7 Do you have any other facility that is daylit U No If yes for Q6 Skip to Q10 building specific questions U No If no for Q6 thank them for their time and end call U Yes Continue with question 8 to get more contact information 8 Are you the same contact for that facility U Yes Get site name and address in Q9 Conduct another interview for the second site after this interview is over If time does not permit set up a separate time if needed U No Get all information in Q9 9 What is the facility s name and address and other contact information if needed Facility Name Address Contact Name Phone Position title If not responsible for any daylit sites thank them for their time and end call Building Specific Questions 10 Does your company pay the utility bills for thi
54. e applications while there were 14 sites that were retail applications 10 of the 14 retail sites visited had central corporate energy management policies that demanded aggressive energy savings Southern California Edison 2003 24 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Figure 5 Images of Controller Types Figure 5 shows representative photos of the different types of photocontrol systems surveyed by HMG HMG also found three sites where no photocontrol system was installed in contradiction to the information received during the telephone screening survey On one site there was no significant daylight penetration in that there were only a couple of skylights in a 125 000 sf site and the lights were on a timer clock On one other site the lights were being controlled using an occupancy sensor while the third site did not have any lighting controls installed Photocontroller EMS Tied Control Outdoor Fixture Type Panels Sensors Integrated Manufacturing 12 Warehouse Retail Office Classroom Table 10 Photocontroller Types Surveyed Southern California Edison 2003 25 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 6 2 User Satisfaction With Photocontrol System Operation During the onsite surveys the surveyors asked the building operators about their satisfaction levels with the photocontrol system operation The intent of the qu
55. e concepts described here can be used for ballasts that use other communication protocols The ballast light output response to control signal Is usually pretty linear However most ballast do not dim over the entire 0 to 10 volt range Figure 12 shows a 20 dimming ballast that changes light output only when the control voltage is between 8 and 2 volts Thus knowing at what control voltage dimming begins and ends is an important calibration consideration 120 100 va 80 _ O 60 T 40 20 0 0 2 4 6 8 10 Control Voltage DCV Figure 12 Typical dimming ballast light output response to control voltage Depending upon whether the configuration of the controller is open loop photosensor is looking up into light well and is sensing only daylight or closed loop photosensor is looking down into the space and is sensing the combination of daylight and electric light there are different calibration requirements In addition oftentimes controls made for sidelighting are applied to toplighting thus the manufacture s calibration instructions may not be written for your application There are but a few types of calibration adjustments for dimming controls The affect that most of these calibration adjustments have on the dimming ballast control signal is visualized in the control function graphs in Figure 13 These adjustments include a Offset Adjustment this tells the controller how
56. e quite simple and are based upon the concept of daylight factor which is the ratio of interior illuminance to global horizontal illuminance outdoors Interior Illuminance Ambient Global Horizontal Illuminance x Daylight Factor Hourly global horizontal irradiances and dewpoint temperatures during the monitoring period were obtained from SCE weather stations in the vicinity of the site The global horizontal irradiances where decomposed into diffuse and direct Southern California Edison 2003 19 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT beam components via the Erbs correlation These irradiance values were then converted into illuminance values via the use of the Perez luminous efficacy correlation which is a function of irradiance and dewpoint temperature If the spaces we surveyed were unoccupied it would be quite simple to measure the daylight factor by turning off all interior lighting and measuring interior and exterior illuminances simultaneously However we did not have this luxury and thus the daylight factor had to be estimated from the Lumen Method and skylight transmittance calculation embedded in SkyCalc The daylight factor is calculated by the following relation Daylight factor SFR x Tvis x DF x Well Efficiency x Coefficient of Utilization Where SFR total skylight area to floor area ratio Tvis visible transmittance of glazing and diffusers DF dirt factor loss of glazing
57. e sample represents sites that are documented as having photocontrols by the utilities designers or photocontrols manufacturers 3 1 Screening Interview Process HMG prepared a telephone survey with approval from SCE aimed at screening each building to ensure their eligibility for participation in the field study The phone interviews were conducted from August 2002 to January 2003 A total of 150 sites were called Contact was made with 70 sites With the exception of a few sites all buildings had installed photocontrol systems We conducted phone interviews for 62 sites in total Of these sites we were successful in scheduling on site surveys on 46 sites We explained in each telephone call the nature of the project and Edison s sponsorship the kinds of information we will be gathering on site and the level of cooperation we will need from the site representative The objective of the script was to obtain permission to conduct the on site survey It was also to confirm our information about the key photocontrol system characteristics The scheduling for the on site survey was completed at the end of each call The interview script consisted of the following sections 1 Qualifying Questions This section determined if the site is appropriate for the study 2 Building Specific Questions This section gathered general information of the building and customer satisfaction of the photocontrol system Southern California Edison 2003 6
58. ease ON setpoint until lights turn ON Record ON control setpoint measured during calibration CSON meas 5 Let electric lighting warm up 5 minutes for fluorescent 10 minutes for HID lighting and measure task footcandles with lights ON TFon 6 Gradually decrease OFF setpoint or deadband control until lights turn off and then increase value slightly to prevent cycling Record task footcandles with this stage of lighting control turned OFF TForr it should be close to the TForr as measured in step 3 If not start over from step 2 a If the controller uses OFF setpoint control record OFF control setpoint measured during calibration CSOFF meas and then increase OFF setpoint control to maximum b If the controller uses deadband control record deadband setting measured during calibration DEADBAND meas 7 Calculate CSONser the desired ON control setpoint as follows where TFOFF desired or design footcandles 8 Adjust the ON control setpoint to the desired setting CSONser You must confirm with the manufacturer how control setpoints relate to the markings on the adjustment control If the adjustment is linear you can apply CSONset directly otherwise use the manufacturer s look up table or graph 9 If the controller uses a deadband control you can leave the deadband as calibrated earlier 10 If the controller uses an OFF setpoint control the footcandle is increased by the same amount as for the ON setpoint control C
59. ed down it is better to place the sensor over a circulation area rather than over a task area and to use a moderately broad acceptance angle such as 60 sensor so that the change in reflectance is averaged out by other surfaces in the space 9 3 1 Reguired tools 1 Light meter to check light levels at task locations in the space 2 Small screwdriver or other tool for turning adjustment screws or controls 3 Method of communicating with person taking light level readings In larger spaces this may require a radio or cell phone 4 Ladder or lift if control settings are located up in light well with sensor not recommended 5 3 2 Measuring Task Footcandles TF The purpose of this calibration is to adjust the control so that all task areas have at least the design task footcandles at all times while saving as much energy as possible by turning off lamps as soon as there is sufficient daylight 1 This procedure is best performed at times when interior daylight is near the design illuminance if this is not Known then calibration at mid day noon is best to ensure the maximum amount of daylight available 2 Identify the location of minimum task illuminance in the zone where the lights are being controlled This task location should NOT be directly under a skylight or under a light fixture This is the location where we shall measure task footcandles TF 3 If there are another set of lights that are also controlled by the photoco
60. em operation The lighting control algorithm was categorized into four categories 1 ON OFF here the photocontrol system turns the lights OFF when there is adequate daylight in the space and turns them ON when the daylight levels fall below a minimum threshold 2 Hi Lo Here the photocontrol system switches half the lights OFF on any given circuit or fixture when there is adequate daylight in the space In a two lamp fixture the control system will turn one light OFF when there is enough daylight while in a circuit containing one lamp fixtures it will turn half the lamps OFF 3 Multi level Switching here the photocontrol system turns lights OFF in a stepped manner Thus in a multi lamp fixture the system will stage the lights so that as the daylight levels increase an increasing number of lamps are turned OFF Typical strategies in the category include 72 OFF 2 3 ON OFF 2 levels and 3 levels of control 4 Dimming Here the photocontrol will linearly reduce the light output of the light fixtures with increasing daylight levels in the space While fluorescent systems can be dimmed down to 0 light output HID systems are typically dimmed to a 20 or 30 light output due to their long re strike times Southern California Edison 2003 31 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Can rm Fin wana vin Wal Control Algorithm a uno 6 a ON OFF es M ae EOS Multi level Sw
61. en changes in daylight levels such as clouds passing overhead The OFF time delay is typically 5 minutes 9 Change or reset the deadband to the manufacturer s specifications In an open loop configuration this is typically 10 of the desired control setpoint DCS If there are any complaints on the operation of the system investigate the reason If the complaint is that the task light level is too low measure the light level and if indeed it is too dark then increase the desired control setpoint up by an appropriate fraction If the complaints are about the lights cycling on and off increase the deadband or the time delay Multi level switching controls If you have multiple stages of control on the same set of lights first calibrate the circuit s of lights that are furthest away from the skylights as described above This is the circuit of lights that will be turned OFF last by the photocontrol as daylight levels increase Thus all of the other stages of the control should be turned OFF during calibration this control stage and are NOT included as part of the extra lighting calculated in Extra Footcandles EF see Section 5 2 2 Identify Daylight Task Footcandles DTF step 4 Then calibrate the circuit s of lights that are second furthest away from the skylights This is calibrated as described above EXCEPT e The location where task footcandles TF is measured is moved in closer to the skylights because the circuit controlled is c
62. ent reference material for architects and engineers for using skylights to maximum advantage in commercial and industrial buildings These guidelines Describe opportunities for energy savings and good lighting design Explain how to integrate skylights with other building elements Show how to estimate energy and dollar savings Help designers avoid costly mistakes The guidelines can be viewed online and downloaded from the following URL lt http www energydesignresources com resource 140 gt Southern California Edison 2003 6 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 2 9 Reference SkyCalc analysis tool SkyCalc Skylighting Tool for California This Microsoft Excel spreadsheet application helps building designers determine the optimum skylighting strategy that will achieve maximum lighting and HVAC energy savings for a building SkyCalc operates at three levels of detail The first level requires little information from the user instead relying on extensive defaults to describe the user s skylighting system and building operation The second level allows the user to modify any default in order to describe the situation more precisely The third level allows the user to enter detailed information about products and schedules such as performance data for specific products or detailed building operation information SkyCalc also can take into account a variety of climate
63. eparately circuited and have separate channels or photocontrols from lights over the open areas The stacks may have different desired minimum task footcandles DTF and will definitely have a different sensor to task footcandles ratio STR than the open area ETT Fa a ZETA Figure 10 Warehouse with tall racks and open loading area 5 3 Commissioning protocol for closed loop switching controls As shown in Figure 11 closed loop controls have the photosensor in the space that sees both light from skylights and from the electric lighting system Since the sensor is affected by the lights it is controlling and these lights have discrete jumps in output corresponding to lamps being turned ON setting the deadband becomes very important If the deadband is too small the control will cycle on and off limited only by the time delay If the deadband Is too large the control will not be saving as much energy as is possible Figure 11 Closed loop photocontrol The sensor can be looking down at the task surface or a floor but can be just as likely be pointed at a wall In general the closed loop sensor is receiving reflected light from both the electric light and the skylight Thus it is important to Southern California Edison 2003 25 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES place the sensor looking at something that is not likely to have its reflectance change If the sensor is point
64. estion was to find out if the building operators felt that the photocontrol systems were performing as per their expectations The expectations of the site operators do not always reflect the design intent and in many cases the building operators are not aware of the design intent It was not possible for the surveyors to judge the design intent by their observations onsite or asking the site operators since the design intent was not documented onsite The surveyors therefore noted the site operators satisfaction level with the control system and backed it up with their own observation of the control state and additional interviews with other site personnel wherever possible This section reports on the site operator reported satisfaction levels with the photocontrol system and it should be noted that these observations do not always match up with the actual state of the control system as observed through short term monitoring reported later in this report in section 7 Energy Savings in Surveyed Systems 6 2 1 User Satisfaction Levels User satisfaction was reported on a subjective scale ranging from systems that are non operational to systems that are working well as per site operators expectations 1 Overridden photocontrols On these sites the building operators were not satisfied with photocontrol system operation and would often at least once a day override the photocontrol systems by manually turning the lights ON or OFF Of
65. for disabling photocontrol systems 5 46 sites Stated reasons for disabling system sites Setpoint too high Setpoint too high 2 Setpoint too low ST Lights do not dim down enough Setpoint not calibrated for actual usage Problems exist since time of installation commissioning 5 5 sites Table 12 Stated Reasons for Disabling Photocontrol System For the 5 sites where the site operators had disabled the photocontrol system the stated reason for discomfort with the system was incorrect setpoints Setpoint is the threshold illuminance level set for the photocontrol system to control the lights Two sites were reported to have the setpoint set too high i e the lights were being turned OFF at a setpoint that was too high compared to the amount of light needed in the space This would result in the lights being ON at higher levels of daylighting in the space than what the site operators would require On one site the site operator felt that the setpoint was too low i e the lights were being turned OFF at light levels deemed to be insufficient by the site operator This would result in the lights being OFF more often than what the site operator would expect or like On one site there was enough daylight available most of the time and the site operator wanted a control scheme that would turn the lights OFF However the dimming controls on the lighting system did not allow the lights to be turned OFF so the site operator disab
66. fornia Edison 2003 18 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 9 ENERGY SAVINGS POTENTIAL How well a given control system was performing was evaluated by comparing the potential energy savings of the system with the actual measured savings The potential savings of the photocontrol system was calculated by applying a daylighting control function such as shown in Figure 3 to interior illuminances that can be expected over the course of a given time period Note that savings are importantly a function of both the function type such as 10 dimming or two level plus off switching and the target illumination settings for these functions In many cases we did not know the actual target illumination settings or the precise control function specifications but we deduced these based upon the interviews onsite the surveyors observations the electric lighting system type and the lighting power density Two level off switching ja Q 5 Ae ON 5 30 40 50 60 70 80 90 Daylight Foot Candles Figure 3 Example of a Daylighting Control Function for a Two Level Off Switching Control While the surveyors took spot measurements of the interior illuminance levels at the time of survey we needed to estimate the interior illuminances over the extended period of analysis 2 weeks of data collection The calculations needed to estimate interior illuminances in diffusing skylighting systems ar
67. g Issues Southern California Edison 2003 14 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT a Is the daylighting distribution from the fenestration uniform across the control area i Actions e Record location and numbers of windows skylights e Record the type of glazing e Record light distribution patterns without electric lighting if possible e Record light distribution patterns with electric lighting e Identify lighting quality problems glare dark spots etc ii Possible causes of failure e Use of clear glazing beam sunlight penetration e Inadequate diffusion of daylight e Large variance in light levels across the control area e Glare potential b What are design lighting conditions i Action e Interview site contact for desired light level criteria and satisfaction with current light levels data available from user dissatisfaction issues above e Record equipment types e Measure existing light levels e Measure daylight levels with without electric light e Record electric light levels ii Possible causes for failure e Insufficient daylighting due to skylight sizing obstructions to skylight e Electric lighting levels too high for the task resulting in excessive lighting e Dark surface colors or low reflections resulting in lesser diffusion of light 2 Hardware Issues a Where is the photocontroller Is it operational i Actions Southern Ca
68. g conditions li Possible causes of failure Southern California Edison 2003 16 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT e Initial calibration was wrong or subsequent changes made were wrong Loss of calibration due to sensor or controller wear and tear e Calibration out of sync with changed usage patterns d How is the controller integrated into other energy management systems i Actions e Record the various control pane s make and model number e Identify the control sequence and determine how the panels talk to each other e Determine if any of the panels was replaced added after the initial installation and calibration li Possible causes of failure Incompatible hardware added after the initial installation e Hardware malfunction on one of the panels Incorrectly configured panels e Lack of in house expertise on changing the control settings leading to disabling of control panels 3 User dissatisfaction a Are the users satisfied with the design light levels i Actions e Record the user satisfaction on a scale of 1 5 with 5 being very satisfied and 1 very unsatisfied e Record reasons for dissatisfaction e Record suggestions for desired levels ii Possible causes of failure e Task requirements changed after installation e User preferences differ from design intent b Are the users affected by the changes in light levels due to the photo con
69. g electrical lighting and control layout li Photocell location and control diagram iii Photocell and controller documentation d Nature of problems if any i Describe if the problem is select from the list e Controls do not maintain appropriate light levels e Controls do not achieve optimum energy savings e Controls seem to cause frequent lamp or ballast failure Southern California Edison 2003 12 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Lights switch on off too frequently e Controls too difficult expensive to calibrate or maintain e Controls irritate occupants e Occupants disabled for unknown reasons e Failed for unknown reasons e Other Specify ii Source of problems e Design problem e Equipment problem e User intervention e Calibration commissioning problem e Other describe iii Describe the problems story e Functional requirements note down the following for each of the spaces i Tasks li Illumination levels desired iii Desired performance of lights dimming switching levels sought iv Which lights to be controlled And which to be left out 4 1 2 Site Observations And Measurements 1 Gather SkyCalc inputs 2 Determine sensor and control system location 3 Record physical state of the equipment record with photos 4 Record response of sensors and controller to light levels 5 Measure daylight and electric light levels over the space 6
70. gather the following information e Dimensions height floor area e Colors of walls roof floors e Lighting source fluorescent metal halide high pressure sodium e Fixture type high bay low bay industrial strip downlight indirect e Fixture mounting height e Lighting control on off 1 2 off 2 level plus off 3 level plus off dimming e Design footcandles e Fixture count and wattage e Lighting schedules weekday and weekend hours e Shelving or rack height and width e Aisle width e Number of skylights e Skylight dimensions e Skylight glazing single vs double and glazing color e Light well height and color e Safety grate or insect screen Y N e Space heated e Heating system gas furnace heat pump etc e Space cooled HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 0207 SCE Photocontrols project Project D lt SitelD gt Surveyor Project Notes and Photo log Survey Date lt Date gt lt Time gt Customer Name Customer Project Name Project Project Address Address City_ Zip Onsite Contact Name Contact Title Title Phone Number Phone Email Email Surveyor Notes Photolog to be recorded onsite Camera Frame description Frame description Frame description Frame description Frame description Frame description Frame description Frame description Frame description Frame description Fram
71. h is when system overrides commonly occur Photocontrol systems that are not working per the design intent represent lost savings because skylights increase building cooling loads unless the photocontrol system or manual operator turns off electric lighting in the presence of daylight follow on study of the Savings by Design program conducted by RLW Analytics for the California investor owned utilities found that daylighting controls primarily with toplighting was responsible for 18 of the energy savings for the California statewide nonresidential new construction programs in 4 guarter 1999 through all of 2001 The total energy saved by photocontrols is 17 600 MWh yr Of the 9 systems that were sampled only 1 system was not operational However this one site brought the savings down to 63 of its technical potential SCE subsequently commissioned this field study to analyze a larger sample of the existing photocontrol installations in southern California The purpose of this study is to understand the installation and maintenance practices that cause the systems to either perform or fail and to assess the magnitude of energy savings from the various levels of system success or failure The Heschong Mahone Group Inc HMG conducted the study for SCE and visited 46 photocontrol installations 44 of these sites were also daylit with skylights RLW Analytics prepared for California s Investor Owned Utilities Final Report 1999 2001 B
72. hat is used for fluorescent lighting systems Some lighting controls also include an astronomical time clock that estimates the time the lights are off so that if the photosensor calls for turning the lights off but there is only a little more time in the day that the lights would be off the control keeps the lights on at the end of the day instead of allowing them to be turned off for only a few more minutes If the design of the lighting system is still under consideration fluorescent lighting should be considered as an alternative to HID lighting In general fluorescent lighting has a greater maintained efficacy than HID lighting ad as described above is easier to control Aisle lighter fixtures with T 5 high output lamps are an energy efficient alternative to high bay fixtures Since the fluorescent fixtures typically have multiple lamps per fixture even reduction of light output can be easily accomplished by switching off alternate lamps or by dimming lamps 3 1 2 Fluorescent Lamps Ballasts Fluorescent lamps can be easily dimmed or switched and do not have the long re strike times of HID lamps making them easier to use along with photocontrols In many large open spaces T8 or T5 fluorescent lamps can replace HID lamps The advantages are instant response to control signal longer lamp life and lower energy consumption when controlled well Unlike HID lamps light output of fluorescent lamps is almost proportional to their energy consump
73. he skylights in the space are typically looking up at the same sky conditions and the delivered daylight down at floor level is usually directly proportional to the amount of light entering at the skylight Southern California Edison 2003 13 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 4 3 Coordination with lighting system The viability of the photocontrol strategy is dependent upon the lighting system it is controlling Whether using an open loop or a closed loop strategy the controls designer can select any of the following control options Lighting Fou a Stepped switching The lamps are turned OFF or switched to a minimum light output in a series of discrete steps per the available daylight Some of the popular options used are ON OFF two levels plus off ON 1 2 three levels plus off and ON 2 3 s 1 3 light output The On 1 2 and ON 2 3 s 1 3 controls leave some fraction of the lights ON at the minimum light control level This is especially advantageous for retail where all the lights off give the consumer the incorrect message that they are closed Controls that leave some of the lights ON are also a benefit for HID lighting systems in that the space is not entirely dark while waiting for the re strike time to expire The choice of steps in a switching strategy will determine how the lamps are circuited within and between fixtures Two evel off switching t 79 0 S Wi d 20 r
74. he systems that are being manually assisted show a greater range In savings achieved 20 144 of potential savings than the sites those are operational 60 117 of potential savings This shows that the photocontrol systems are better at maintaining steady savings when compared to manual controls which have greater potential for variability 8 2 The cup is empty The user satisfaction surveys showed that the most critical period in the photocontrol operation was the initial calibration of the photocontrol systems Of the various problems expressed by users about the photocontrol system operation incorrect setpoints was the most common It was also seen that these problems that began at the commissioning stage never got fixed In at least one case the users tried to troubleshoot the application by bringing external electricians but even after repeated attempts the control system could not be fixed 8 3 Urban Myths There are number of assumptions and myths about the photocontrol systems that are well rooted in certain sections of energy consultants designers and users These include the belief that photocontrol systems do not function properly and that they fail often It is also believed that in most cases users will disable the systems in order to negate the energy savings goals However this study found that these urban myths are just what they are myths We found that the photocontrols in skylit applications are working fairly
75. hern California Edison 2003 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 6 3 User Satisfaction With Photocontrol System Vs Site Characteristics HMG further analyzed the observed site data to seek patterns of success or failure of the photocontrol systems as reported by site operators associated with specific site characteristics We compared various building and photocontrol characteristics against the five photocontrol operational status definition explained above LOT ridden Working problems Well Building Type Manufacturing Warehouse _ hne i Office 0 1 0 2 Classroom 0 3 Table 14 Photocontrol Operation vs Building Type Plotting the operational status of the photocontrols against the building type shows that there are working systems in all the building types and there is no clear indication of any building type being incompatible with photo controls Overall the retail applications seem to do better than other buildings types which could be attributed to the fact that most of the retail buildings have floor plans and systems designed centrally and have identical setups on a number of sites The office and school applications are harder to implement due to the complex functional requirements from the lighting system However it should be noted that the small sample size precludes us from making any prediction of conditions in the overall population Canoe cn
76. hese questions through the photocontrols guidelines we developed through this project 8 7 Photocontrol Guidelines The photocontrol guidelines address the manufacturers of photocontrol systems primarily but also provide important information to building designers and users The complete guidelines are provided in the appendix of this report but we will summarize the intent of the guidelines below The guidelines aim to address the roles of the various actors involved in the photocontrol system design installation calibration and operation and also lay out areas where these actors need to collaborate in order to facilitate a working photocontrol system The guidelines are based upon three simple principles 1 First do no harm a Make sure system does not interfere with the productivity of the users 2 Second KISS a Make the system simple understandable and adjustable 3 Third publish commissioning instructions a To meet design intent and optimize energy savings b To assist manufacturers in training their customers Southern California Edison 2003 43 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 9 APPENDICES Southern California Edison 2003 44 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT PHOTOCONTROL SCREENING PHONE SURVEY Southern California Edison 2003 45 November 12 2003 HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 Sa
77. his is due to the fact that 4 of the 5 sites with control packs are classrooms where the teachers often control the lights manually in addition to photocontrols Thus the results are not indicative of the controller type but rather of the space occupancy The one site where the users were using occupancy sensors instead of photocontrols was observed to be consistently manually operated Southern California Edison 2003 38 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Control Algorithm Sites Operational Manual Analyzed Overrides O m O n Off Table 26 System Operational Status vs Control Algorithm The control algorithm determines the steps in which the lighting system is controlled The ON OFF and multi level switching systems were the most commonly found control algorithms along with a few Hl lo and dimming systems All the dimming systems were found to be operational while the other three control algorithms were seen to be operational in about 60 of the sites It is clear from the table above that the complexity of the control algorithm is not a barrier to operational status of the photocontrol system Analyzed ride Total Sites Table 27 System Operational Status vs Lighting System It is a commonly held perception that HID lighting systems do not lend well to automated controls and fluorescent systems are much better suited for automated controls Our data indicated that this was no
78. hrough side lighting and that daylight component would not be captured by the figure above Southern California Edison 2003 32 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT vate ten wot robene we Vintage M Workino oies E lt 3ys S 14 ME E ME E 3 toys la 18l 7 Not Noteg 8 0 10 Table 18 Photocontrol Operation vs System Vintage We also looked at the impact of the vintage of the photocontrol system on its operation as reported by the site operator We found that there was no linear correlation between age of the system and its operational status The older systems did however tend to have more problems than the newer systems but our small sample size precludes any predictions for the population 6 4 Site Characteristics Summary Overall the photocontrol systems were reported to work well 16 of 46 sites or work with some minor problems 20 of 46 sites by the site operators This is a very encouraging trend in that it debunks one of the urban myths surrounding photocontrols that they do not work and that the site operators are not happy with the photocontrol systems There are however nagging problems with the photocontrol systems that were reported by the site operators While the problems were not reported to be associated with any mechanical failure of the equipment or with any of the building lighting system and photocontrol system features the problems were repo
79. icate how much the system is performing in reference to its savings potential The realized savings ratio provides that rating and it is seen that the overridden system have a higher realized savings than the operational systems Combining the two criterions it may be surmised that the users are more prone to override systems that have lower predicted savings and achieve more savings on such sites through more aggressive lighting control strategies It is however not clear how persistent savings from manual overrides will be over time or when the energy crisis related policies elapse Further there is a much larger variance in the performance of systems with manual overrides than systems with operational controls as seen by the standard deviation of the realized savings ratio in Table 21 7 1 Comparing System Operational Status with Site Characteristics Once we had categorized the systems as operational or manual overridden we looked at the correlation between the operational status and various site characteristics to understand if any particular characteristic leads to more users overriding the systems Southern California Edison 2003 36 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Analyzed Overrides e n o 7 10 Years 6 Years Not Noted Total Sites Table 22 System Operational Status vs Age of System The first criterion that we looked at was the age of the photocontrol system in order
80. in the affirmative Table 6 Contacts were also asked how satisfied they were with the Southern California Edison 2003 9 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT operation of the photocontrol system in their building For those who answered the majority was very satisfied Table 7 Dissatisfaction with the photocontrol system stemmed mainly from incorrect setpoints Cee ee vs s ox II e Table 6 Photocontrol System Performance very dissatisfied 0 0 Table 7 Satisfaction With Photocontrol System 3 3 Final Sample Size The telephone screening surveys resulted in the selection of 46 sites that surveyors from HMG visited to conduct an onsite study We collected site level characteristics on all the 46 sites visited In addition we also collected real time power consumption data on the sites for roughly two weeks While we planned to install loggers on all 46 sites we did not receive loggers or data from 9 sites 1 site had no daylight and photocontrols 2 sites Could not install loggers 4 sites Loggers not returned 1 site Logger data loss 1 site Incomplete site data We therefore had 37 sites where we could verify the energy savings Of these 37 sites 4 sites were side lit and we could not estimate savings for those 4 sites due to limitations of our energy analysis tool SkyCalc Thus the energy savings verification was conduc
81. ing the users need for illumination with the appropriate lighting system The lighting designer must work in coordination with the building designer and the building controls designer to incorporate daylighting into the lighting design The lighting system designer is responsible for selecting the lamp ballast type layout of the lamps in the space circuiting the layout to achieve the objectives of the control system see following section on controls design and daylight integration 3 1 Choice of lamp ballast type The lighting designer must of course consider all of the usual aspects of lighting system design and selection to meet the needs of the space and its occupants Selecting the lamp color temperature is an important criterion when using a combination of daylighting and electric lighting in a space Using warm color temperatures below 3500 K tend to make lamps look more pink or orange as compared to daylight while selecting cool color temperatures above 4100 K makes the lamps look bluer than daylight Selecting the right type of ballast and lamp combination is also critical to effective operations of the photo control system which will be automatically controlling the electric lighting system in response to available daylight for the purpose of saving energy Fluorescent lighting is more compatible with lighting controls than HID high intensity discharge lighting Fluorescent fixtures can be easily switched or dimmed and resp
82. is the wall color What type of space conditioning serves the daylit area Heating only Heating and air conditioning Evaporative cooling Ventilation only Other Do any activities generate duct or smoke inside of the building O Yes O No DOODO HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 End August 1 2002 These are all of our guestions Thank you for your time Responses to Typical Questions 1 2 3 4 Who are you work for the Heschong Mahone Group an energy efficiency consulting firm We ve been hired by SCE to survey the characteristics of photocontrol systems in non residential construction My name is lt name gt and my phone number is 916 962 7001 also provide e mail and web site if appropriate Who can call at SCE to verify this or ask questions Call Jack Melnyk at SCE Ss offices in Irwindale 626 633 7160 What are you selling Nothing We are conducting a study to analyze the effectiveness of photocontrol systems in non residential buildings This research will be used to develop guidelines for the best photocontrol design and installation practices Why are you interested in photocontrols We have heard varying reports on the extent of their use and energy savings SCE has asked us to find good examples and to prepare guidelines to help designers make the systems more effective HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd
83. ison 2003 10 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 3 3 Circuiting of lighting for controls To achieve the desired control of light fixtures it is critical that the lighting system is circuited per the control designers specifications Often the control strategy is defeated by the inability of the circuiting to provide the needed level of control Following are a few suggestions for achieving good control through circuiting e Circuiting must match daylight availability and task lighting requirements Circuiting should be segregated by task illuminance requirements Areas close to skylights circuited separately from areas further away from skylights Lighting over spaces with different geometries such as open areas versus stacks should be separately circuited e Specify a detailed circuiting layout to the installers and confirm the execution of the layout Keep it simple but ensure desired performance Do not accept the wiring of the lighting system until each circuit of lights has been switched on and off to show that the circuiting is installed as designed This is very expensive to fix after the acceptance date has expired e The shortest and easiest route for wiring fixtures is often not the best option for good control and the installer must be aware that the circuiting layout must be as specified e In large spaces subdivide the space into different sectors and circuit each
84. itching 1 1 7 8 Table 17 Photocontrol Operation vs Lighting Control Algorithm The Hi Lo and ON OFF controls are the easiest to implement onsite while the dimming and multi level switching involves more elaborate circuiting and equipment As seen in Table 17 though the site operators reported that all four control algorithms worked on various sites and the dimming systems worked better than say the Hi Lo systems While the sample size precludes from making any estimates for the population the limited results here show that any of the il control algorithms can be successfully implemented onsite gt Disabled Systems Working with Problems 1m1 No Photocontrols Working Well Em Not Working 10 9 8 7 6 3 4 3 2 1 0 Skylight to Floor Area Ratio Figure 6 Effect Of Skylight Floor Area Ratio on Photocontrol Operation HMG then compared the operational status of the photocontrols against the skylight floor area ratio at each of the sites which is a proxy for the amount of daylight entering the space While most of the sites with high SFR s above 3 were seen to be working or working well there was no clear trend amongst the sites with lower SFR s below 3 Again there is no clear indication that there Is a threshold of daylight level critical to good operation of photocontrols A factor that can potentially skew this analysis is the fact that some of these sites also received daylight t
85. ite lt http www energydesignresources com gt Skylighting Design Guidelines under the publications tab SkyCalc under the software tab Website content and layout may be updated without notice Southern California Edison 2003 3 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES flat roof Figure 1 The spacing and the size of the typical skylight therefore increase with higher ceiling heights Cross Saction Figure 1 Skylighting spacing rule of thumb For large open spaces with multiple skylights the spacing of skylights should be coordinated with the structural support system to ensure that none of the Structural members obstruct the skylight good layout will have the skylight curbs Integrated in the structural system In order to achieve good daylight distribution in the space it is often essential to splay the skylight well and thus integrating the skylight well and the splay in the ceiling layout become critical to performance 2 3 Skylight glazing type Glazing is one of the most important factors in good skylight design There are many alternatives and choices to consider and careful selection is important to a successful design The optical properties of the glazing materials influence daylighting quality and lighting savings The two major types of skylight glazing are transparent and translucent Either of the two types can be colorless tinted or reflective Furthermore ne
86. l pane s make and model number Identify the control sequence and determine how the panels talk to each other Determine if any of the panels was replaced added after the initial installation and calibration Possible causes of failure Incompatible hardware added after the initial installation Hardware malfunction on one of the panels Incorrectly configured panels Lack of in house expertise on changing the control settings leading to disabling of control panels 3 User dissatisfaction A Are the users satisfied with the design light levels Actions Record the user satisfaction on a scale of 1 5 with 5 being very satisfied and 1 very unsatisfied Record reasons for dissatisfaction Record suggestions for desired levels Possible causes of failure Task requirements changed after installation User preferences differ from design intent B Are the users affected by the changes in light levels due to the photo controls Actions Record type of daylighting controls used stepped dimming etc Interview site contact about awareness of differing light levels Record on a scale of 1 5 level of satisfaction over the consistency of lighting levels with 5 being most consistent and 1 being most in consistent Record suggestions about light levels Possible causes of failure Cycling due to improper thresholds or inadequate time delays Sudden changes in light levels due to inappropriate settings on stepped controls I
87. ld The store is eguipped with dimming controls on the electric lighting system and has daylighting through single glazed white acrylic skylights that cover five percent of its gross roof area This graph indicates that although this particular design will save significant energy at the designed 4 SFR the skylight area is not optimized to achieve maximum energy savings and that reducing the skylight area slightly would actually benefit the overall energy savings in this particular case All SkyCalc reports can be printed easily In addition the user can adjust the basic spreadsheet and save new Excel templates for different building projects and or climate zones Since the program is installed as an Excel template new copies can be saved for different building projects and or climate zones SkyCalc can be used in conjunction with the Skylighting Guidelines refer Section 2 8 to help designers select the best skylighting system for a given building SkyCalc can be downloaded free of charge from the Energy Design resources website at the following URL lt http www energydesignresources com resource 129 gt version of SkyCalc that has weather files for cities outside of California can be downloaded from www h m g com Southern California Edison 2003 8 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 3 LIGHTING SYSTEM DESIGNERS GUIDELINE The lighting system designer is responsible for balanc
88. led the control system and manually turned the lights OFF On one site the photocontrol system was commissioned and calibrated before the warehouse stacks were stocked and once the stocks were stored in place the available daylight levels dropped Due to this reduction in available light the control system did not turn OFF the lights as often as the site operator expected and the control system was therefore bypassed to turn the lights OFF For all the 5 sites the site operators reported that the problems existed since the time of commissioning of the photocontrol systems indicating that the commissioning process may have not completely succeeded in satisfying the user needs It could also point to a possible disconnect between design intent and the expectations of the site operators Southern California Edison 2003 28 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Reasons for photocontrol system not working 2 46 sites In addition to the above 5 sites with disabled system site operators reported that two of the sites visited had systems that were not working at all One of the two sites was a recent construction and the system had not been fully commissioned yet At the second site the system had been commissioned but it never worked as intended An electrician had been called to troubleshoot the problem three times but could not figure out how to get the system to work Stated problems with working pho
89. lifornia Edison 2003 15 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT e Record exact location of controller and ease of access to the controller e Record type of photocontroller relay control panel setup number of control inputs etc e Calculate wattage controlled and maximum wattage reduction e Record schedule and other parameters needed to run SkyCalc e Observe display panel for signs of operation e Confirm that input amp output wiring is intact ii Possible causes of failure e No power provided to unit e Unit turned off e Unit has failed e Wiring has been damaged or removed b Where are the photosensors Are they operational i Actions Count number of control zones assess their condition describe control strategy open loop closed loop and what sensors see e Take meter readings of photosensor control signal at the photocontrol unit ii Possible causes of failure e Photosensors have been removed or damaged e Photosensors are redirected blocked or otherwise disabled e Signal wire from photosensor to controller is damaged or missing c What are the calibration settings for the controller i Actions e Record settings on controller Attempt to determine if the settings have been changed after installation e Observe controller response to changes in photosensor readings e Check inputs from each photosensor e Determine if controller maintains desired lightin
90. lighting questions during the onsite survey Daylighting Questions Ask only for sites we will NOT be surveying 28 What type of lighting system is in the daylit space Multiple responses are okay LJ Fluorescent Q Metal Halide Q High Pressure Sodium U Other Specify 29 How are the lights controlled U Dimming JU On Off Switching U Stepped control an increasing fraction of lights turn off as more daylight is available Q Other Specify HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 6 August 1 2002 30 Do you have a time clock or a manual control to turn off lights when there is sufficient daylight in the space J Yes LJ No 31 Please explain how the control system works and how often electric lighting is reduced 32 Please describe the daylighting controlled area a Dapo What is the occupancy of daylit area What is the square footage of daylit area What are the typical hours of operation What hours are the lights typically on What is the daylighting source multiple responses are okay o Skylights How deep is the light well under the skylight O Windows How tall are the windows Q Other What is the ceiling height Are there high stacks or racks primarily in warehouse manufacturing or retail O Yes How high are the stacks racks O No What is the floor type O Concrete Q Tile O Carpet Q Other What is the floor color What
91. loser to the skylights this changes the calculation of the photosensor footcandles to task daylight footcandles ratio STR and e lf the task area is receiving more than 10 light from the lighting controlled by previous stage of control then include these lights as part of the extra lighting calculated in Extra Footcandles EF see Section 5 2 2 Identify Daylight Task Footcandles DTF step 4 Additional levels of control are calibrated similar to the lights that are second furthest away from the skylights The only difference is that all the previous stages of lighting can be considered to be part of the extra lighting calculated in Extra Footcandles EF see Section 5 2 2 Identify Daylight Task Footcandles DTF step 4 Different Tasks or Different Geometry of Space If you have more than one zone on the same multi channel control the characteristics of the other zone may be such that the sensor to task footcandles ratio STR may be different An example of this phenomenon is a warehouse like that shown in Figure 10 that has both an open receiving area and an area with high stacks The sensor to task ratio STR in the stack area will be higher than the open area Southern California Edison 2003 24 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES because the stacks intercept more of the light and thus there is less daylight at the task level in the stacks Thus lights over the stacks should be s
92. mproper equipment selection C Are the users happy about turning off electric lighting Action Record on a scale of 1 5 level of satisfaction over the ability to switch off electric lighting with 5 being most satisfied and 1 being most unsatisfied Record user preferences on minimum lighting levels using electric lighting HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SCE PHOTOCONTROLS BASELINE PROJECT 6 AUGUST 16 2002 ii Possible causes of failure e User preferences for keeping lights on despite the need for electric lights e Business compulsions e g stores e Lack of user knowledge about daylight controls F Is the equipment being maintained properly Actions e Record physical state of the hardware e Interview site contact for maintenance schedules li Possible causes of failure e Dust accumulation e Equipment aging e Physical damage HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SCE PHOTOCONTROLS BASELINE PROJECT 7 AUGUST 16 2002 SKYCALPHOTO INPUTS The approximately 30 questions below are most easily answered by filling out the input tab in SkyCalPhoto spreadsheet If this is done on site one can quickly gain the site contact s interest as controls savings at the sites that have been filtered for inclusion into the program are likely to be large e Building occupancy For rooms containing skylights
93. much light must fall on the photosensor before the control will start dimming the ballast The offset adjustment is needed for closed loop controls because photosensor sees light from the electric lighting system Without an offset the control would dim the lights even at night time b Sensitivity Adjustment this defines the slope of the dimming curve in terms of dimming percentage per footcandle of light received by the Southern California Edison 2003 29 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES photosensor A high sensitivity means that it takes a little light to dim t he lights a lot where a low sensitivity requires more light for the same amount of dimming c Min Max Voltage Output Adjustment a maximum voltage adjustment is used when one wants to tune the lighting system Tuning can be used to exactly match the electric lighting output to the desired design footcandles The minimum voltage adjustment is to prevent electric lighting levels to fall beneath a given value Using the minimum output adjustment reduces the energy savings of the control d Typical closed loop adjustment for skylighting systems shows an offset that is egual to the footcandles on the photosensor at the desired task footcandles The sensitivity of the response is set high as photosensor footcandles should remain around the amount defined by the offset The control should respond to increased daylight footcandles on
94. n Figure 14 In this situation the control is OK for that one daylighting condition but would be too dark whenever there was more sunlight Southern California Edison 2003 31 November 12 2003 PHOTOCONTROLS DESIGN GUIDELINES SOUTHERN CALIFORNIA EDISON Ballast Max 100 3 5 Lu de Wi am 5 m 11 Ballast Min Min Calibration Footcandle Photosensor Footcandle s Figure 14 Open loop dimming single point calibration lf we calibrate when the interior daylight footcandles is just below desired design footcandles then we have the situation that energy savings are maximized while assuring that the total light levels are at or above the desired design footcandles However there is a short time window when interior daylight footcandles is just below the desired design footcandles Southern California Edison 2003 32 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES Ballast Max 100 5 s D o O 2 m i l f E S 8 m DPMIN ca Ballast Min DTFSET Measured TForr Calibration Setting Photosensor Footcandles or Daylight Footcandles on Task Figure 15 Open loop dimming sensitivity slope ratio method The calibration description below describes how to adjust the photocontrol sensitivity based on the minimum electric lighting light output regardless of the actual interior daylight footcandles This dimming method identifies the sensi
95. n and off due to temporary cloud cover Correct design illuminance is accomplished by adjusting the ON Setpoint and minimizing cycling is accomplished by adjusting the deadband and time delay Ideally the location where control adjustments are made is remote from the photosensor and Is easily accessible unobstructed and accessible without needing an ladder or lift If the designer has specified a control where the calibration adjustments are made on the photosensor try to make the adjustments so that you are shielding the sensor as little as possible 5 2 1 Required tools 1 Light meter to check light levels at task locations in the space 2 Small screwdriver or other tool for turning adjustment screws or controls Southern California Edison 2003 21 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES Method of communicating with person taking light level readings In larger spaces this may require a radio or cell phone Ladder or lift if control settings are located up in light well with sensor not recommended 9 2 2 ldentify Daylight Task Footcandles DTF The purpose of this calibration Is to adjust the control so that all task areas have at least the design task footcandles at all times while saving as much energy as possible by turning off lamps as soon as there is sufficient daylight 1 2 3 4 5 6 This procedure is best performed at times when interior daylight is near the
96. nceforth called manual overrides Sites where the users informed us that they were controlling the lights manually as well as sites where we observed manual override switched being used were categorized as manual overrides In addition on a number of sites the users had permanently turned a third to half of the lights OFF due to energy efficiency policies implemented due to the energy crisis These sites were also classified as manual overrides The manual overrides included actions such as 1 Occaslonal Manual Control to provide additional savings than what the photocontrol system alone can provide Here the photocontrol system is still controlling the lights but the users manually control lights occasionally to supplement the photocontrol operation 2 Consistent Manual Control to achieve savings that the photocontrol system could not provide Here the photocontrol system is not disabled but is consistently overridden On most sites the users follow a regular schedule for operating the lights through manual control 3 Disabled System this Is an extreme case where the photocontrol system is physically disabled by the users due to dissatisfaction with its operation In all the three cases it is possible for the lights to be turned OFF or turned ON through manual action Southern California Edison 2003 34 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Sites Manual Overrides Manual Over
97. nd so the savings are suboptimal However over 2 3 s of the systems we surveyed were operating well and overall the systems in conjunction with manual switching were saving 97 of the predicted amount of energy This is in marked contrast to anecdotal reports of high failure rates for photocontrols used in conjunction with sidelighting that is daylighting through windows The difference between toplighting and sidelighting is that with diffusing skylights used for toplighting only the magnitude of daylight changes whereas with clear windows used for sidelighting the magnitude and the distribution of daylight changes depending upon sky conditions sun angle presence of snow or cars near windows etc Thus the low success rate of photocontrols used with sidelighting through windows should not scare off designers from using photocontrols with diffusing skylights which have been proven to be successful The performance of a skylighting photocontrol system is based upon a wide variety of factors including e Skylight spacing e Room geometry e Luminaire type e Skylight size e Surface reflectance Lamp ballast type e Glazing type e Location of e Circuiting partitions or e Light well geometry shelving e Photocontrol type e Light well reflectance e Sensor placement Thus the design of successful toplighting systems is a multi disciplinary effort that requires coordination between the architect the lighting system designer the photocontrol man
98. nder 50 000 100 000 150 000 200 000 250 000 300 000 350 000 90 000 99 999 149 999 199 999 249 999 299 999 349 999 and over Floor Area sg ft Figure 2 Floor Area Of Buildings Southern California Edison 2003 8 November 12 2003 SOUTHERN CALIFORNIA EDISON of Floor Area Number off o of Total on PC System Sites under 50 50 99 100 100 PHOTOCONTROLS FIELD REPORT Table 3 Percent Of Floor Area On The Photocontrol System In the survey we asked each contact specific questions on the operation of their lighting and photocontrol systems Table 4 provides a breakdown of the reported type of lighting systems The table is also segmented by whether or not permission was granted for an on site survey The most common lamp type was metal halide Agreed to Number On site Type of Lighting System of Sites not noted of Subtotals not noted CT 6 5 17 Table 4 Type Of Lighting System Similar to the previous table we also asked what type of photocontrol system was installed in each site In Table 5 it is shown that most buildings used an on off control type regardless if they agreed to an on site survey or not Agreed to Type of Number of On site Photocontols Sites not noted 6 onoff 4 U O Table 5 Type Of Photocontrol System on off 4 2 of Subtotals stepped o 2 17 stepped When asked if the photocontrol systems was working most answered
99. ning the lights OFF at times in order to assist audio visual presentations as well when the classrooms were vacated for other activities such as breaks Southern California Edison 2003 37 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT Control Strategy Operational a a Open Loop Loop 2 se O A E O E S E Total Sites Table 24 System Operational Status vs System Control Strategy The system control strategy was noted on sites where the users were aware of the control strategy and where we could observe the photocell orientation and the photocontrol algorithm Of the 33 sites analyzed we could not determine the control strategy on 11 sites and of the rest 13 sites were using open loop controls while 9 sites were using closed loop controls It was observed that both the control strategies resulted in over 50 of the systems being operational Controller Type Operational waa wanes WE ae EMSTid Tied 073 027 Control Panel Control Pack Fixture Mounted 3 100 Occupancy Sensor 1 100 Total sies a a 2 Table 25 System Operational Status vs Controller Type As explained in Section 6 3 there were six different controller types found onsite and we looked at their impact on the operational status of the systems While most of the controller types were found to have higher than 50 operational status the control pack showed a higher rate of manual overrides T
100. ns clean 1 Clean 2 Dirt deposition 3 Smoke deposition 4 Lens discoloration 5 Other Describe Notes if any Photo Sensor Information HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 0207 SCE Photocontrols project Project DHF 0 Surveyor Survey Date 1 2 3 Fax 916 962 0101 07 SER ctacotrds praat Proget IBF Surveyor Lighting Control Panel Information Survey Dte Lighting Control Panel 1 2 3 Panel Type 1 master controller 2 Slave or secondary controller 3 Relay Panel 4 Other specify Location a PE Remote access to the control If software access note software name and version Part of an EMS System Y N SS EMS System Manufacturer IEEE PE Describe how control panel fits into the EMS system Recent changes to control panel Describe if Yes Does anyone know how to operate maintain the control panels on site If yes note Name Title and Phone number of the person on AA A ait Las SE O PR Fedex Tracking EA Notes HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 0207 SCE Photocontrols project Project DH __ Surveyor _ SkyCalc Input Forms Survey Date Space __ O Occupancy o Dimensions Floor area Ceiling Height o Surface Colors U Walls U Roof Ceiling Q Floor o Lighting source U Fluorescent Q Metal Halide U High pressure sodium Q Other o Fixt
101. ntrol system and this circuit is designed to be turned off at the same time of ata lower daylight footcandles than the circuit you are calibrating turn them off 4 Extra task lighting is any light source that provides a significant amount of light to the task in the controlled lighting Zone and is e Not controlled by the photocontrol such as emergency lighting or e A stage of lighting control that requires HIGHER levels of daylight before it is turned OFF 5 If you do not have a feel for what the design footcandles should be turn on and off all the lights and record the difference In light levels at the same point where the task light level TF measurements are taken Design Footcandles task footcandles with ALL lights ON task footcandles with ALL lights OFF Southern California Edison 2003 26 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 9 3 3 Calibration adjustments 1 Extra lighting that Is normally on when this stage of lighting being calibrated is ON as described above should be turned on Other controlled lighting that would normally be OFF such as lighting that is turned on at higher daylight levels should be turned off 2 Start off with time delay set to minimum ON setpoint high and a If control has OFF setpoint set to maximum b If control has deadband adjustment set to maximum 3 Record TFoer task footcandles with this stage of lighting turned OFF 4 Gradually decr
102. ols This translated to about 1 53 kWh sf energy savings on an average from the 21 operational sites of the 33 sites analyzed We also found 12 sites 36 of total sites analyzed where the users were manually operating some or all of the lights in order to achieve higher savings than what the photocontrol system were designed to deliver In many cases the energy crisis of 2001 had generated a momentum towards maximizing energy savings and users had turned parts of their lighting circuits OFF permanently Only one of these 12 sites had a photocontrol system physically disabled It is important to note that the user overrides in all but this one site resulted in more savings than the original intent of the photocontrol system The persistence of the manual control savings is an unknown factor that can potentially reduce savings over time However on only one site where the system is disabled would the savings reduce below the original intent of the photocontrol system design Southern California Edison 2003 40 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 8 CONCLUSIONS 8 1 The cup is full Overall the skylit systems we analyzed were functioning per the system design with roughly a third of the sites showing user intervention to achieve higher than designed savings On an aggregate the photocontrol systems are performing as planned and their realized savings are within 10 of the estimated potential savings T
103. ome excessively dirty or where it can be blocked by occupants or objects Fortunately in skylighting systems these problems are easily avoided because the photosensor can be placed high up in the space and out of the way of hazards or unusual light sources blockages 4 5 Selection of controller features and algorithms There are numerous options when implementing any control scheme and it is important to select the right components to meet all the performance needs Following are the critical characteristics of the control scheme Control setpoints setpoints are triggers set at specified daylight levels to control the lights It is critical to select setpoints that allow the users to perform their tasks without discomfort Selecting a setpoint too high for turning OFF the lights will waste energy while selecting too low of a setpoint may result in excessively low light levels The actual value of the setpoints will depend on what the photosensor sees If it is looking up at the skylight it will be responding to high light levels much higher than the design illuminance levels within the space If it is looking into the space it may actually be seeing lower illuminance levels than the design levels The setpoints in both these cases are analogues for the design illuminance levels that the control system seeks to maintain inside the space and they must be established empirically during the commissioning of the photocontrol system
104. omments suggestions HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 0207 SCE Photocontrols project Project DH Surveyor Space Task Description Survey Date Space 1 L Occupancy Type U Tasks performed 1 Illumination level desired foot candles 2 Illumination level desired foot candles 3 Illumination level desired foot candles Space 2 U Occupancy Type U Tasks performed 1 Illumination level desired foot candles 2 Illumination level desired foot candles 3 Illumination level desired foot candles Space 3 U Occupancy Type U Tasks performed 1 Illumination level desired foot candles 2 Illumination level desired foot candles 3 Illumination level desired foot candles Space 4 L Occupancy Type U Tasks performed 1 Illumination level desired foot candles 2 Illumination level desired foot candles 3 Illumination level desired foot candles Space 5 L Occupancy Type U Tasks performed 1 Illumination level desired foot candles 2 Illumination level desired foot candles 3 Illumination level desired foot candles Space 6 U Occupancy Type U Tasks performed 1 Illumination level desired foot candles 2 Illumination level desired foot candles 3 Illumination level desired foot candles HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 0207 SCE Photocon
105. ond almost instantaneously to control signals HID lamps require 5 to15 minutes to cool down before they can be turned on again re strike time and therefore are not as well suited for On OFF type controls The choice of lamp ballast type therefore must be coordinated with the design of the photocontrol system Additional considerations 3 1 1 High Intensity Discharge HID Lamps Ballasts These include metal halide and high pressure sodium sources which are frequently used for large high bay spaces In addition to problems associated with re strike time HID lamp life is more affected by cycling lamps on and off than is fluorescent To mitigate the problems associated with HID lamp life and re strike times high low switching is occasionally used as a method of reducing energy consumption High low switching drops light output to 20 to 50 instead of turning lamps off this eliminates the re strike problem and reduces lamp life concerns However at 20 light output the lamp ballast consumes 50 of the rated power consumption Another alternative is to have on off control of lamps but to leave some fraction of the lamps on In general well designed switching controls will save more energy than high low switching Southern California Edison 2003 9 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES To minimize the re strike and cycling problems for HID switching controls often the time delay is set longer than w
106. onducting a more thorough survey of facilities with photocontrols to assess their functionality Based upon your responses you have provided so far your facility would be a good candidate and would help to establish the energy efficiency benefits of daylighting HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 4 August 1 2002 If you agree the onsite survey will be conducted by building researchers will be non intrusive to your operations and will take between 1 and 3 hours We will also conduct a short interview to understand the operation of the photocontrol system lf needed tell them We will prepare a brief site report that estimates how much energy the photocontrol system is saving 19 Would you be willing to have one of our surveyors visit your facility U Yes Q No If you decide that you are interested in participating please contact me at 916 962 7001 Skip to Q28 20 We would prefer to have an electrician available to assist us for up to one hour Do you have an electrician on site who can be present during our survey U Yes Skip to Q22 LI No 21 Can you arrange for an approved electrical contractor technician to be available on site to assist us Our company will pay for their time LI Yes LI No 22 Are you the best person to talk to schedule the site visit Q Yes What is the best time for our site visit Confirm that the electrician is available for about
107. pen loop switching controls 5 2 1 Required tools 5 2 2 Identify Daylight Task Footcandles DTF ON DOA A a A U U wo 18 19 19 21 21 22 Southern California Edison 2003 i November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 9 2 3 Calibration adjustments 23 9 3 Commissioning protocol for closed loop switching controls 25 5 3 1 Required tools 26 9 3 2 Measuring Task Footcandles TF 26 9 3 3 Calibration adjustments 27 5 4 Dimming controls overview 28 5 5 Calibrating closed loop dimming controls 31 5 6 Calibrating open loop dimming controls 31 6 BUILDING OPERATORS GUIDELINE 39 6 1 Understanding how the controls are supposed to work 35 6 2 Optimizing operation for energy savings 35 6 3 What to do in case of failure 36 Southern California Edison 2003 Il November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES TABLE OF FIGURES Figure 1 Skylighting spacing rule of tnumb Figure 2 SkyCalc M daylight illumination chart Figure 3 SkyCalc M optimization curve Figure 4 Open loop photosensor mounting Figure 5 Closed loop photocontrol Figure 6 Switching Control Strategies Figure 7 Dimming control strategies Figure 8 Photocontrol Control Diagram Figure 9 Open loop photosensor mounting Figure 10 Warehouse with tall racks and open loading area Figure 11 Closed loop photocontrol Figure 12 Typical dimming ballast light output response to control voltage gt
108. photocontrols were not required because as one committee member stated we think that photocontrols don t work or are disabled The only way to answer whether this presumption of photocontrol failure in all applications is true or not Is to survey a large enough sample of buildings monitor their performance and compare that performance to engineering estimates of the predicted savings If indeed this presumption of failure Is true this hinders the use of a substantially large commercial building energy efficiency measure Getting to the bottom of the success rates of photocontrols in skylit applications is critical for three reasons 1 Skylighting with photocontrols is a significant feature of the statewide Savings by Design program 2 The energy savings potential for skylighting is large as most commercial floor space is directly under a roof Validating the energy savings of photocontrols with skylighting could inform the mix of future energy efficiency programs 3 Skylighting with photocontrols has been proposed for all commercial spaces greater than 25 000 SF and with ceiling heights greater than 15 feet This Southern California Edison 2003 1 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT research can inform decision makers at the California Energy Commission on the advisability of going forward with this code proposal The technical energy savings potential of photocontrol systems is huge Elect
109. put amp output wiring is intact Possible causes of failure No power provided to unit Unit turned off Unit has failed Wiring has been damaged or removed C Where are the photosensors Are they operational Actions Count number of control zones assess their condition describe control strategy open loop closed loop and what sensors see Take meter readings of photosensor control signal at the photocontrol unit Possible causes of failure Photosensors have been removed or damaged Photosensors are redirected blocked or otherwise disabled Signal wire from photosensor to controller is damaged or missing D What are the calibration settings for the controller Actions Record settings on controller Attempt to determine if the settings have been changed after installation Observe controller response to changes in photosensor readings Check inputs from each photosensor Determine if controller maintains desired lighting conditions Possible causes of failure Initial calibration was wrong or subsequent changes made were wrong Loss of calibration due to sensor or controller wear and tear Calibration out of sync with changed usage patterns E How is the controller integrated into other energy management systems HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SCE PHOTOCONTROLS BASELINE PROJECT 5 AUGUST 16 2002 Actions Record the various contro
110. r you have to count number of times a button is pushed between LED s turning on Identify if reading is on a linear scale Some manufacturers use a logarithmic scale for setpoint adjustment and you must use a look up table or a graph to translate what a certain number means on their control Calculate the photosensor footcandles to task daylight footcandles ratio STR STR SF TForr Define your desired control setpoint DCS by the following DCS STR x DTF where DTF minimum daylight footcandles on task needed so that overall task footcandles with controlled lights OFF are above design footcandles Minimum daylight task footcandles are calculated in the section above Follow the manufacturers instructions to set the desired control setpoint DCS calculated above Be sure so identify how the control settings relate to each other Some control settings are linear and it is easy to make the adjustment In other cases the setpoint is non linear and you must use a look up table or graph to estimate how to make the adjustment Once the setpoint is set change the time delay back to the manufacturer s recommendations Typically the ON time delay is set to a low value to ensure immediate response when the daylight is inadequate while the OFF time delay is set to a higher value to prevent lamp cycling due to Southern California Edison 2003 23 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES sudd
111. ric lighting accounts for over one third of all commercial electricity consumption and over one quarter of peak demand for commercial buildings and 11 of peak demand for all uses in California As shown in Table 1 over 65 of ceiling area is directly below a roof and therefore there is a significant amount of building area that could be daylit with skylights Total Area Fraction of All Area Under Roofs Fraction Under Million sq ft yr Building Stock Million sq ft yr 1 109 Table 1 U S Annual Commercial Buildings Construction Area Segmented by Number of Stories and Fraction of Total Area Under a Roof For many years the Southern California Edison Company SCE and to a lesser extent the other investor owned utilities in California have promoted the use of skylighting with photocontrols as an energy efficiency measure through their Savings by Design program that encourages high performance nonresidential building design and construction Savings By Design offers building owners and their design team incentives to help offset the costs of energy efficient buildings along with design assistance services A 1999 study had found that 25 of the photocontrol systems that were sampled was not functioning properly In these buildings with problems occupants were overriding the photocontrol systems because of inadeguate system commissioning Problems included insufficient light levels unsatisfactory training of building operators
112. rides Manual Override Status Analyzed Lights ON Lights OFF Occasional Manual Control BR EE Consistent Manual Control 0 i System Disabled Total Sites Table 19 Manual Override Status 11 We observed that only one site from the 12 sites categorized as manually overridden was actually physically disabled On this site the photocontrol system was commissioned in an empty warehouse and the light levels were insufficient once the warehouse was stocked he users subseguently disabled the system and now manually control the lights such that lights are turned OFF only occasionally On the rest of the 11 sites the users were either occasionally or consistently turning the lights OFF For ease of presentation the three categories of manual overrides described above are clubbed Into one category called manual overrides henceforth User Satisfaction Sites Operational Mean Annual Analyzed Predicted Savings kWh sf Manual Overrides Work oo R Overridden No Photocontrols 1 Total Sites a 2 Mean Annual Predicted 1 31 0 73 Savings kWh sf Table 20 Comparing User Satisfaction with Actual System Performance As seen in Table 20 12 of the 33 sites monitored were using some form of manual controls in addition to or in lieu of photocontrols All 3 sites that the users had reported to be manually overridden were indeed being operated manually while 7 of the 13 sites with some problems were being manually cont
113. ring warehouse applications and 3 each in office and classroom applications Control Panel This is a centrally located controller that can control various lighting zones and circuits independent of each other The control panels have intelligence built in that allows them to perform tasks such as load management peak demand reduction time sweeps etc and have the capability of being programmed either remotely or using a user interface on the panel These types of controls are ideally suited for large spaces with higher connected loads or with spaces where different circuits need to be controlled independent of each other while allowing master sweep controls We found that the control panels were the second most common types of controllers in our sample 13 of the 46 sites 29 All but one of these controllers were found in manufacturing warehouse type applications 12 sites with the one exception being an office building EMS Tied These are control panels that have been integrated with the buildings energy management system EMS The EMS system can override the control panel for such tasks as load management emergency shutdowns time sweeps etc These controls are typically found in buildings that have centralized energy management policies and where load management is critical We found that these EMS tied controllers were the most common types of controls 16 of 46 sites 35 2 of the sites were manufacturing warehous
114. rolled in addition to photocontrols All the 13 sites categorized by the users as working well were operational without any manual overrides It is important to note that of the 12 manually overridden sites only one site was overridden to be ON The other 11 sites were overridden to turn the lights OFF thus indicating that the users are using manual controls to achieve more savings Data in Table 20 also shows the mean predicted annual savings for the sites under various categories It was seen that the sites categorized by users as Southern California Edison 2003 35 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT working well had the highest predicted savings with a mean savings of 1 53 kWh sf The sites that were working with some problems had much lower predicted savings with a mean savings of 0 77 kWh sf The last row of the table also shows the predicted mean savings for the operational systems and manual overridden systems overall The operational systems had a much higher predicted savings with a mean savings of 1 31 kWh sf while the manual overrides had a mean savings of 0 73 kWh sf Operational Manual Overrides 21 Sites 12 Sites Mean Annual Predicted Savings 1 31 0 73 kWh sf Mean Realized Savings Ratio 0 92 1 07 Std dev 0 15 Std dev 0 34 Table 21 Mean Predicted Savings vs Savings Potential While the mean predicted savings projects the size or magnitude of savings it does not ind
115. rted to be existing from the time of commissioning of the systems on most sites Most commonly reported problems hinted that the photocontrol systems were not calibrated properly and therefore did not control the lights as effectively as the site operators expected While most of the site operators tolerate these problems 20 of 46 sites that were reported as working with some problems there are a few sites where the site operators feel it necessary to over ride the photocontrol system in order to achieve desired energy savings and performance of the lighting system The site operators also showed a general lack of knowledge on how to change the photocontrol system setpoints and other settings and the documentation on the procedures to do so was minimal at best on most sites While the site operators had asserted during the telephone screening survey that their buildings nad photocontrol systems we still encountered three sites that did not have any photocontrols installed Site operators on these three sites confused occupancy sensors or time clocks installed onsite with photocontrols While the small sample size precludes us from making any generalizations about the conditions In the overall population of non residential buildings In California with daylighting and photocontrols tne study however presents a snapshot of the various conditions of photocontrol operation existing in the current market Southern California Edison 2003 33 November
116. s facility U Yes Skip to Q12 U No 11 Who does pay the bills for electricity 12 Approximately what is the floor area of your facility HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 3 August 1 2002 13 A photocontrol system reduces electrical lighting when there is available daylight in the building Does this building have one of these photocontrol systems U Yes Skip to Q15 U No Skip to Q28 Daylighting Questions U Not sure 14 Who can we contact to find out Name Phone Position title Thank them for their time and end call If no other contact ask if they can find out Continue the survey if you are confident that this person is the most knowledgeable person 15 Approximately what percentage of floor area is on the photocontrol system 16 Does the photocontrol system in your building currently work Does daylighting reduce the lighting U Yes LI No 17 How satisfied are you with its operation Q Very satisfied Skip to 019 U Somewhat satisfied Skip to 019 U Neither satisfied or dissatisfied Skip to 3019 U Somewhat dissatisfied Q Very dissatisfied 18 Please describe what is unsatisfactory about the control system s operation Are there any particular situations when the control system does not work On site Recruitment Thank you for this information about your facility In the second phase of this research project we will be c
117. t necessarily true although HID systems we analyzed had relatively simple On Off or switching controls Incentives Received Operational Analyzed ride Donio o an 5 Total Sites Table 28 System Operational Status vs Incentives Lastly we looked at the impact of energy efficiency incentives on the performance of the photocontrol systems These incentives are intended to help promote the use of photocontrols on sites where the users would have not considered installing photocontrols otherwise We found that there were a greater percentage of photocontrol systems operational on sites that had not received Southern California Edison 2003 39 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT incentives This is probably due to the fact that the non incented sites probably have users that are more energy conscious and make more concerted attempts at getting the system configured right 7 2 Summary of Energy Savings Analysis One of the urban myths surrounding photocontrols is that these controls do not save any energy Most of these assumptions are based upon earlier applications of photocontrol technology in side lit office type applications Our data analysis showed that overall the photocontrol technology is working very well in skylit applications in variety of building types More than half the sites analyzed were working properly and were savings about 92 of the technical potential of the photocontr
118. ted on 33 of the 46 sites visited Southern California Edison 2003 10 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 4 ONSITE PROCEDURES Surveyors from HMG carried out the onsite surveys between December 2002 and April 2003 The surveyors were well trained in the skills needed for the onsite surveys and had experience of conducting similar surveys The primary surveyor assigned for the project visited 37 of the 46 sites visited and was supplemented with an additional surveyor on 4 of sites The second surveyor alone visited 5 sites We developed a standard data collection protocol in order to ensure that we collected the same information on all the sites with similar levels of detail Further we developed a set of data entry forms that the surveyors used to note the onsite information Both the protocol and data entry forms were reviewed and approved by the program managers at SCE before we used them on any site 4 1 Onsite Protocol There were three main components to the survey on each of the sites visited during this project Interview to ascertain design intent use patterns history of usage and problems if any Physical inspection Record existing daylighting conditions electrical lighting layout task layout and surface properties Record the condition of the photo controller photo sensor and other controls equipment installation and maintenance Record any problems and probable
119. ted potential power fraction The operating schedule of each site as well as daylight hours were taken into account so that hours when the photocontrol system was not controlling the lights and times when the building was not in use would not influence the average realized savings ratio A realized savings ratio of 100 typically means that the photocontrol system is operating ideally for its building and lighting characteristics and its control strategy Realized savings ratios below 100 indicate that the photocontrol system is not saving as much energy as predicted by SkyCalc Conversely realized savings ratio over 100 indicates that the electric lighting is being turned off more than SkyCalc estimation In some instances the cause for the discrepancy may be occupants using manual overrides to turn the lighting system on or off independently of the photocontrols Realized savings ratios significantly higher than 100 indicate that while the photocontrol system is saving more energy it may be doing this at the cost of light levels in the space that are too low Southern California Edison 2003 21 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 6 FIELD SURVEY OBSERVATIONS Surveyors from HMG visited each of 46 sites and conducted a survey of the buildings A standard data entry form was developed by HMG and approved by the SCE program managers to collect site specific data required for developing a characteristics
120. the photosensor by dimming the electric lighting until the total photosensor illuminance has dropped close to the offset value low sensitivity typical for open loop skylighting offset max voltage high sensitivity min voltage Figure 13 Dimming control adjustment functions Similar to the time delay functions for switching controls we don t want the dimming control to be fluctuating at such a rate that is distracting Thus dimming controls have either a built in or adjustable ramp and fade rate Southern California Edison 2003 30 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES e Ramp rate adjustment this defines how quickly in seconds the control will ramp up the electric lighting levels in response to lower photosensor footcandles Since we don t want to leave people in the dark this is usually set relatively fast Typical values are around 15 seconds e Fade rate adjustment this defines how quickly the control will dim electric lighting in response to increases in photosensor footcandles Since having too much electric light is not as distracting as too little often the fade rate is slower than the ramp rate Typical values are 60 seconds which has minimal impact on energy savings 5 5 Calibrating closed loop dimming controls e Calibrate at night e Identify the location of minimum task illuminance in the zone where the lights are being controlled This task location should
121. the skylights as described above This is the circuit of lights that will be turned OFF last by the photocontrol as daylight levels increase Thus all of the other stages of the control should be turned OFF during calibration this control stage and are NOT included as part of the extra lighting See Section 5 3 2 Measuring Task Footcandles TF step 4 Then calibrate the circuit s of lights that are second furthest away from the skylights This is calibrated as described above EXCEPT e The location where task footcandles TF is measured is moved in closer to the skylights and e lf the task area is receiving more than 10 light from the lighting controlled by previous stage of control then include these lights as part of the extra lighting see Section 5 3 2 Measuring Task Footcandles TF step 4 Additional levels of control are calibrated similar to the lights that are second furthest away from the skylights The only difference is that all the previous stages of lighting can be considered to be part of the extra lighting see Section 5 3 2 Measuring Task Footcandles TF step 4 5 4 Dimming controls overview Southern California Edison 2003 28 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES companies are releasing ballasts that make use of digital signaling such as DALI Digital Addressable Lighting Interface Currently the majority of fluorescent dimming ballasts use a 0 10 VDC control signal Th
122. tion and they can easily dim or switch to the OFF state Multi step switching strategies work well with fluorescents as many fixture types include two or more lamps As long as the circuiting is done correctly it is relatively easy to switch off lamps in the fixtures one at a time in order to achieve multiple levels of control Fluorescent dimming is becoming more common but dimming ballasts are still relatively expensive Special dimming ballasts are required to implement a dimming control strategy 3 2 Layout of lighting fixtures The lighting system designer needs to coordinate with the building designer to ensure optimal lighting coverage in the space If designed correctly the electric lighting layout complements the daylighting from skylights by covering areas between skylights that might not receive adequate light At the same time the electric light layout should be able to provide adequate lighting throughout the space during night and when the daylight is not adequate Equally important is the layout of the lighting system in relation to the tasks and furniture in the space The lighting system designer needs to coordinate with the building designer to ensure that none of the light fixtures are partially or completely obstructed by high partitions stacks or machinery The lighting grid should be coordinated with the structural grid and with the furniture layout grid to allow for rearrangement of the space Southern California Ed
123. tivity setting to dim the ballast to just above its minimum light output while simultaneously measuring the interior daylight footcandles By calculating interior daylight footcandles that should correspond to ballast minimum light output one can then develop a sensitivity adjustment ratio that is the ratio of the design interior footcandles for minimum ballast output to the interior daylight footcandles at the time of calibration e One must perform this calibration during daytime hours It is desirable but not necessary to calibrate when daylight contribution is close to but below desired design footcandles e Identify the location of minimum task illuminance in the zone where the lights are being controlled This task location should NOT be directly under a skylight or under a light fixture This is the location where we shall measure task footcandles TF e Setramp and fade to 0 e Set offset to 0 e Measure task footcandles with electric lighting at full output TFon Ask controls manufacturer how to do this it may be as simple as turning sensitivity all the way down or may involve removing a lead from the controller Southern California Edison 2003 33 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES e Adjust sensitivity until lamps are dimmed to their minimum output and then back off on sensitivity just a hair until you see the task footcandles rise slightly Measure this task footcandles at minimum
124. to detect failure Often the photo control systems are not operational but the failure Is not apparent because the lights are ON The building operator therefore needs to keep track of the lighting system operation and confirm that the system is controlling the lights as expected If the system has failed It is critical for troubleshooting to record the exact nature of the failure and any set of events that contributed to the failure These could be o Recent additions or changes to the building envelope o Recent additions to the control scheme o Equipment failure o User discontent with the system causing local overrides In case of performance contracts the building operator should contact the service provider for immediate repairs and maintenance Where there are no performance contracts the operator can troubleshoot the system based upon the manufacturers literature and the control designers guidelines The operator can hire external consultants to recommission the control system or use in house personnel trained to undertake recommissioning activities The building operator should always maintain a current list of phone numbers for the manufacturers and controls designers for troubleshooting Southern California Edison 2003 36 November 12 2003
125. tocontrol systems 20 46 sites Stated problems with working systems 20 46 sites nappropriate switching Setpoint too low Setpoint too high Manual overrides due to energy policies Problem not stated 08 Problems exist since time of installation commissioning 13 20 sites Table 13 Stated Problems With Working Systems Of the 20 sites that were reported to be working with problems we got more details on the problems from 15 sites The problems were all related to the operation of the photocontrol system and were not caused by any equipment failure The most common complaint 6 sites was that the lights were not being controlled in a consistent manner All six sites had switching systems and the site operators were not happy with the number of times the systems were being turned OFF by the photocontrols and also the amount of time the systems were being turned OFF While this problem could be caused by the setpoints being too high or low it could also be a function of the time delays set on the control system On 5 other sites the site operators reported that they felt the setpoint was too low and the lights were being turned OFF or dimmed when the daylight available in the space was not adequate to provide needed illumination On 2 sites the site operators reported that they felt the setpoint was too high and the lights were not being turned OFF or dimmed when there was adequate daylight available in the space Sout
126. training It is also important of course that the controller be physically located in a location to make the adjustment process convenient 4 6 Establishing target savings It is a good design practice to set performance criteria for the control system in terms of energy savings during the design stage The performance criteria will vary slightly depending on the individual site situation and user needs In some cases it may be more important to maximize peak savings while in other cases it may be important to minimize the variability in illumination levels potentially reducing the savings potential By establishing the performance criteria for the system the designer creates a target for system performance that the installers and operators can use in the future to assess whether or not the system is performing to expectations These criteria also provide a basis for adjusting the system operation should the needs or uses of the space change over time Southern California Edison 2003 17 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES 4 7 Installation and commissioning The survey results also show that systems that were set up to work well at the time of installation have continued to operate successfully over time 1 Conducted by the Heschong Mahone Group Inc for Southern California Edison Photocontrols Field Study Repor 2003 Southern California Edison 2003 10 November 12 2003 SOUTHERN
127. trols i Actions e Record type of daylighting controls used stepped dimming etc Southern California Edison 2003 17 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT e Interview site contact about awareness of differing light levels e Record on a scale of 1 5 level of satisfaction over the consistency of lighting levels with 5 being most consistent and 1 being most in consistent e Record suggestions about light levels ii Possible causes of failure e Cycling due to improper thresholds or inadequate time delays e Sudden changes in light levels due to inappropriate settings on stepped controls e Improper equipment selection c Are the users happy about turning off electric lighting i Action e Record on a scale of 1 5 level of satisfaction over the ability to switch off electric lighting with 5 being most satisfied and 1 being most unsatisfied e Record user preferences on minimum lighting levels using electric lighting li Possible causes of failure e User preferences for keeping lights on despite the need for electric lights e Business compulsions e g stores e Lack of user knowledge about daylight controls d Is the equipment being maintained properly i Actions e Record physical state of the hardware Interview site contact for maintenance schedules ii Possible causes of failure e Dust accumulation Equipment aging e Physical damage Southern Cali
128. trols project Project DH Surveyor Light Level Readings Survey Date U o D O reading sell Light readings foot candles UP DOWN Vert1 Vert2 Vert3 Vert4 task Brightest o S l S S S o oo a o S S S S S lc a Comments Average fT T e T e RE T S S S e e oo S I PE e T Comments en Comments Photocell S S S S e S o oo S T S S S e S RS o Comments Takt RE PS ee A EE A EE U O O O O OJ Comments SSS Comments Task3 S T T e S S o S T T S S e S RE ES EE r a a Comments SSS Comments HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 Photosensor Manufacturer Model Controlled Zones Spaces Attached to control panel Control Strategy 1 z open loop 2 z closed loop Location 1 On the roof 2 gt Under a skylight facing up 3 On the ceiling facing down 4 Facing a window 5 Fixture mounted 6 Other specify Orientation View 1 Sky 2 Skylight 3 Ceiling 4 Side wall 5 Floor 6 Fixture 7 Other specify Photo sensor shielded masked Operational Y N Physical Damage 1 none 2 lens broken 3 casing broken 4 wiring exposed damaged 5 wiring disconnected 6 wiring short circuited 7 other describe Visible Tampering 1 none 2 lens taped over 3 control wiring tampered 4 sensor re oriented 5 other describe Le
129. ufacturer the interior designer the space planner and the system installer And to have sustained performance the maintenance personnel must be able to adjust the system to adapt to changes in space use or finishes Southern California Edison 2003 1 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES A successful photocontrol system depends on the integration of many building design elements and operatlons This Guideline offers advice to all the members of the design construction team on how to contribute to the success of the system and how to avoid mistakes that will prevent the building owner from reaping the full benefits of the system We start at the most basic level making sure that the building has adeguate daylighting and get progressively more detailed down to the level of guidance on how to calibrate the photocontrols This final and crucial step is Intended to complement the photocontrol installation instructions provided by the equipment manufacturer This Guideline is organized by trade or discipline starting with the building designer and ending with the building operator The priorities in terms of actions for each discipline is 1 Do no harm i e don t do anything to the system that will interfere with the satisfaction or productivity of the building occupants 2 Provide the basic functions such as lights turn off when sufficient daylight is available override switches provide o
130. uilding Efficiency Assessment BEA Study An Evaluation of the Savings by Design Program 4 Quarter 1999 through 4 Quarter 2001 April 1 2003 Southern California Edison 2003 3 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 2 PROJECT OUTLINE The field study concentrated on non residential new construction in Southern California that had significant daylighting from skylights and had photocontrols 2 1 Project Goals There were several goals for this study of skylighting and photocontrols e Survey existing photocontrol applications both working and non working in skylit and a few side lit buildings e Establish how well the photocontrol systems are functioning and how much lighting energy and overall building energy the photocontrol systems are saving e Describe the design characteristics of both unsuccessful and successful systems e identify the system characteristics most associated with success or failure of photocontrol systems e Develop guidelines for proper installation and management of photocontrol systems e Recommend program enhancements to encourage the installation of successful photocontrol systems ahead of the 2005 effective date of the new Title 24 changes The photocontrol installation and management guidelines are included in this report as an appendix but are intended to be a stand alone document The guidelines were developed through interaction with photocontrols manufa
131. ure type J High bay L Low bay I Industrial strip _I Downlight O Indirect o Fixture mounting height o Lighting control J on off LI 1 2 off J 2 level plus off J 3 level plus off J dimming O Design foot candles O Fixture count Wattage o Lighting schedules U Weekday hours U Weekend hours Shelving or rack height Width Aisle width Number of skylights Skylight dimensions Length Width Skylight glazing type single glazed LI double glazed Skylight glazing color Light well height Color Safety grate or insect screen Y N Space heated Y N Heating system gas furnace heat pump etc Space cooled Y N O0 oOo U O O O O O Cooling System packaged rooftop DX coils etc HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT PHOTOCONTROL GUIDELINES Southern California Edison 2003 47 November 12 2003 Photocontrol Systems Design Guidelines SOUTHERN CALIFOHENTA EDISON An ASO D EA AL Compani Submitted to Gregg Ander FAIA amp Jack Melnyk P E Southern California Edison Co 6042 N Irwindale Ave Suite B Irwindale CA 91702 Submitted by HESCHONG MAHONE GROUP INC 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 Phone 916 962 7001 Fax 916 962 0101 e mail info h m g com website www h m g com Southern California Edison 2003 October 28 2003 SOUTHERN
132. ve optimum energy savings U Controls seem to cause frequent lamp or ballast failure U Lights switch on off too frequently U Controls too difficult expensive to calibrate or maintain U Controls irritate occupants U Occupants disabled the controls for unknown reasons U Failed for unknown reasons Other describe D Expand HESCHONG MAHONE GROUP 11626 Fair Oaks Blvd 302 Fair Oaks CA 95628 916 962 7001 Fax 916 962 0101 0207 SCE Photocontrols project Project DH Surveyor _ Photocontrols Installation Historical Information Survey Date Photocontrols systems maintenance questions 10 What regular maintenance are you performing on the photocontrols system if any 11 Do you have access to the photocontrols manufacturers technical assistance or product support U Yes U No 12 Do you have easy access to any other lighting maintenance and service personnel for the photocontrol system U Yes LJ No 13 Do you have any recommendations on the design installation procedures for the photocontrols system 14 Do you have any recommendations on the maintenance procedures for the photocontrols system If system is not working at all Possible recommissioning of photocontrols system 15 Do you have any plans for recommissioning your photocontrols system If so please describe in brief 16 If you would need any assistance in the recommissioning process what would be the nature of that assistance and from whom Overall c
133. well as compared to their technical potential On sites where the users are manually controlling the systems they are doing so in order to achieve higher savings than the photocontrol system was designed to deliver None of the photocontrol Southern California Edison 2003 41 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT systems had physically failed nor had people taped over sensors or cut control wiring in order to negate the system performance The mean savings from operational sites was 92 as compared to the savings potential and shows that the photocontrol systems can indeed save energy as intended 8 4 Need for better education on photocontrol system operation While the surveyors did not observe anything fundamentally wrong about the photocontrol system design and intent they however observed that there was a widespread lack of knowledge about the system capabilities amongst the building operators and users Many building operators and users often confuse photocontrols with other types of automated controls such as occupancy controls We found that on 4 of the 46 sites visited the building operators were wrongly labeling occupancy sensors timers and other controls as photocontrols third of the building operators on sites visited by HMG could not even find where their photocells and control units were located 8 5 Need for better documentation on photocontrol systems Further there is no
134. witching control system that switches lights or lamps off in response to daylight e When skylights are truly diffusing their distribution of light is similar to that of the electric lighting system Thus the ratio of light at the task to that received by a closed loop photosensor on the ceiling looking down at reflected light is the same for both the skylight and the electric light This makes it relatively easy to adjust closed loop controls for continuously dimming systems While specific product characteristics vary among manufacturers the calibration process nevertheless shares some commonalties which are described below Specifics may vary according to manufacturers directions 5 1 Switching controls overview The first thing to do is be clear on the basic functions of the photocontroller they all work approximately the same way but how these functions are described and how adjustments affect these functions vary between manufacturers and models of equipment Southern California Edison 2003 19 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES ON Status of Lights K dead band ON OFF Setpoint Setpoint luminance on Photosensor Figure 8 Photocontrol Control Diagram Figure 8 illustrates the control function for switching controls The status of the control Lights ON or Lights OFF is a function of the control status and the illuminance on the photosensor Lights stay ON until
135. y to use and easy to change with the occupants needs over time Most of the control systems are maintained by staff not trained for controls operations therefore it is important to devise control schemes that are intuitive and easy to learn or at least well documented and Straightforward to maintain Some clients have controls experts within their company but not necessarily on site These clients typically have multiple sites and are use to controlling a variety of control parameters remotely The desirability of networked controls should be explored with these clients Change is inevitable in the long term operation of any space and the control scheme needs to be modified periodically to maintain desired performance It is essential that building operators be able to easily modify the control scheme 4 2 Selection of control strategy The primary photocontrol design consideration is related to the placement of the photosensor and how the control circuitry uses the photosensor signal to modify the light output of the lighting system There are two main photocontrol strategies from which the controls designer can choose Southern California Edison 2003 12 November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS DESIGN GUIDELINES e Open loop control In this control scheme the photosensor accepts inputs from or sees only the external daylight source and adjusts interior light levels based upon a preset control profile
136. ystem Operational Status with Site Characteristics 7 2 Summary of Energy Savings Analysis CONCLUSIONS 8 1 The cup is full 8 2 The cup is 4 empty 8 3 Urban Myths 8 4 Need for better education on photocontrol system operation 8 5 Need for better documentation on photocontrol systems 8 6 Future Investigations 8 Photocontrol Guidelines PHOTOCONTROLS FIELD REPORT O B hh A A 8 10 11 11 14 19 20 21 22 22 26 30 33 34 36 40 41 41 41 41 42 42 42 43 Southern California Edison 2003 l November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT 9 APPENDICES 44 Southern California Edison 2003 Il November 12 2003 SOUTHERN CALIFORNIA EDISON PHOTOCONTROLS FIELD REPORT TABLE OF FIGURES Figure 1 Phone Interview Flowchart Figure 2 Floor Area Of Buildings 8 Figure 3 Example of a Daylighting Control Function for a Two Level Off Switching Control 19 Figure 4 Vintages of Buildings Surveyed 23 Figure 5 Images of Controller Types 25 Figure 6 Effect Of Skylight Floor Area Ratio on Photocontrol Operation 32 LIST OF TABLES Table 1 U S Annual Commercial Buildings Construction Area Segmented by Number of Stories and Fraction of Total Area Under a Roof 2 Table 2 Occupancy Type Of Contact Population 8 Table 3 Percent Of Floor Area On The Photocontrol System 9 Table 4 Type Of Lighting System 9 Table 5 Type Of Photocontrol System 9 Table 6 Photocontrol System Performan
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