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X2019-0347 - Misc (2)
X2019-034 7 5000 Birch 51 A !N%It -; Equal Air Balance Company Spec Suite 4800 CERTIFIED TEST; ADJUST; BALANCE REPORT Project Name: Spec Suite 4800 Address: 5000 Birch Street City: Newport Beach, CA 92660 Architect: NS Engineer: PDA HVAC Contractor: HVAC Mechanical, Inc. NEBB Certified TAB Firm: Equal Air Balance Company Address: 357 East Arrow Highway, Suite 206 City: San Dimas, CA 91773 EAB Job #: 19244 Certification Number: 2910 License #: 1006492 Date: 7/9/2019 Technician: Matt Wood AIR BALANCE REPORT IS NOT VALID WITHOUT NEBB STAMP ABOVE Equal Air Balance Company REPORT CERTIFICATION PreleetName: Spec Suite 4800 Certifying NEBB Qualified TABSaperulSOr: Erik Dlugajczyk Firm license Number: 1006492 Explrall0n gale: 8/31/2019 Firm fieri flcatlen Number: 2910 Eapiratl0n 68te: 3/31/2021 "THE DATA PRESENTED IN THIS REPORT IS A RECORD OF SYSTEM MEASUREMENTS AND FINAL ADJUSTMENTS THAT HAVE BEEN OBTAINED IN ACCORDANCE WITH THE CURRENT EDITION OF THE NEBB PROCEDURAL STANDARDS FOR TESTING, ADJUSTING, AND BALANCING OF ENVIRONMENTAL SYSTEMS. ANY VARIANCES FROM DESIGN QUANTITIES, WHICH EXCEED NEBB TOLERANCES, ARE NOTED IN THE TEST - ADJUST - BALANCE REPORT PROJECT SUMMARY." 357 E. Arrow Hwy. Suite 206 San Dimas, CA 91773 Phone (714) 637-3500 Fax(714)637-3050 Web: www.equalairbalance.com Specializing in testing and balancing of environmental systems A RM% Oft Equal Air Balance Company Table of Contents Spec Suite 4800 Certification Symbol Sheet: Report Summary: Outlet Sheet: VAV-1 thru VAV-7 Coded Drawing 4-7 10 o wa 0 0 A coo N P a~ � aH I� wa za N a~ � aH I� w wa za N �w aH I� _ zLAA 40 o o W w y b � o as oLIS. �y F � H rd d Jaz 'N �' :" �a q U z � o ~ U W seg d o M o w hN F+ k7 go W z All instruments used in the performance of the shown calibration have traceability to the National Institute of Standards and 'technology (NIST). The uncertainty ratio between the calibration standards (DM.S'I D.) used and the unit under test (UUT) is a minimum of 4:1- unless otherwise noted. Calibration has been performed per the shown procedure number. in accordance \sith ISO 10012:2003. ISO 17025:2005. ANSUNCSI.%540.3. and/or MIL -STD -45662A. Test methods: AP12530-92 & ASME MFC -3M-1989. Date: Dick Manns Company • 11133 Winners Circle " Los Alamitos, CA 90720 Phone (714) 827-1215 " Fax (714) 827-0823 111,,(i,l,... I h,lf ll fltA ri J�t`n'�.IIv'a��Ih n�1'.-l11n nI(K\I.rMN\11 J...I 4"". '. " � . .......�.1. '11 .�.�J u�J\ I... vJu Cul ihria ion 'I Cc lia iclan: Page I of..)_, CERTIFICATE OF CALIBRATION CUSTOMER: EQUAL AIR BALANCE :SAN DIMAS, CA CALIBRATION DATA; 06/0612019 PO NUMBER: N/A CALIBRATION DUE: 06/06/2020 INST. MANUFACTURER: TSI I ALNOR PROCEDURE: NAVAIR 17-20MG-02 INST. DESCRIPTION: BALOMETER CALIBRATION FLUID: AIR @ 14.7 PSI 70-F MODEL NUMBER; EBT -731 RECEIVED CONDITIONS: WITHIN MFG. SPECS SERIALNUMBER; EBT731818009 LEFT CONDITIONS: WITHIN MFG. SPECS RATED UNCERTAINTY: SEE NOTES*' AMBIENT CONDITIONS: 760mmHGA 46% RH 72-F UNCERTAINTY GIVEN: ±0.796% RD K=2 CERTIFICATE FILE B: 490433.2019 NOTES: VEL:t3%RD+±7 FTIMIN'— PRESS: ±2%RD; ±.01"H2O"— VOL ±3%+±7 FT/MIN'-- TEMP: ±0.5°F""""RH%:±3%RD, ._.__.______..._--._._.____ _._.._....._.._... CALIBRATED WITH DMC ACCESORIES AIRFOIL STD GRID DM STD. EBT 731 DM STD. INDICATED _ _DM _ _ ACTUAL VINDICATED ACTUAL INDICATED ACTUAL_ ----FT/MIN Iffili IN.._...._.F17NIIN ,.__JFT/MIN—:.-N20- --- ...;,X20-...._. 118 _-_--- 116 74 73 D.00 - O.000M 530 528107.-.... . -1.29 .-._._..-1.290.- _ 1096 1087__233_.._._..__.231 1521 --1508 516---�-.514 - -10.7110.103_- 2479 2454 4993- . - - 2465__- -_ -. 2463 14.95--� 14.924--_- 4938 - _-- __._ UUT �DM STD UUT . - DM STD ACTUAL--- IND. ---_ACTUAL- IND. ._ACTUAL_-- FT/MIN -'---FT/MIN ----- of -----'----'F—__.----RH%--- -'- RH%-._. 2566-----_.2578 --_ 6329 6285-.._._ .'97.7...._._ .._- 98.1:__-.- -- 76.1 -- -- 77.3 STANDARDS USED - _ A220 12 WIND TUNNEL 0 8000 FPM CMC t 203 h RDI TRACE# 15204232380523/2020 A24: HART SCIENTIFIC TEMP STANDARD. t 024 F I TRACE# 152042_3238 _ DUE 03/07/2020 _ _ A321 CEC PRESSURE STD 0-600 PSI t 011 / RD TRACE# 1520349429 1519224431 _.. .. .— _. _ 1_—.._.. _�__ . _ . .._. _ _. _ _. DUE 04/02/2020_-� All instruments used in the performance of the shown calibration have traceability to the National Institute of Standards and 'technology (NIST). The uncertainty ratio between the calibration standards (DM.S'I D.) used and the unit under test (UUT) is a minimum of 4:1- unless otherwise noted. Calibration has been performed per the shown procedure number. in accordance \sith ISO 10012:2003. ISO 17025:2005. ANSUNCSI.%540.3. and/or MIL -STD -45662A. Test methods: AP12530-92 & ASME MFC -3M-1989. Date: Dick Manns Company • 11133 Winners Circle " Los Alamitos, CA 90720 Phone (714) 827-1215 " Fax (714) 827-0823 111,,(i,l,... I h,lf ll fltA ri J�t`n'�.IIv'a��Ih n�1'.-l11n nI(K\I.rMN\11 J...I 4"". '. " � . .......�.1. '11 .�.�J u�J\ I... vJu Cul ihria ion 'I Cc lia iclan: Page I of..)_, A NMW *V% Equal Air Balance Company BSL swo %0 Air Symbol Sheet AK Free Area Factor ATM Atmosphere BHP Brake Horse Power CAV Constant Air Volume CD Ceiling Diffuser CER Ceiling Exhaust Register CFM " Cubic Feet per Minute CHWR Chilled Water Return CHWS Chilled Water Supply CO Cooling Only CRR Ceiling Return Register CSG Ceiling Supply Grille CWR Condenser Water Return CWS Condenser Water Supply D.A. Direct Acting DNA Data Not Available DO Duct Opening DT Duct Traverse EAG Exhaust Air Grill EAR Exhaust Air Register EAT Entering Air Temperature EF Exhaust Fan EG Exhaust Grill ESP External Static Pressure EWT Entering Water Temperature EXH Exhaust FC Fan Coil FLA Full Load Amps FP Fan Powered FPM Feet per Minute GEX General Exhaust GF Grease Filter HF Hepa Filter HP Horse Power HWR Hot Water Return HWS Hot Water Supply LD Linear Diffuser LSD Linear Slot Diffuser LWT Leaving Water Temperature MAT Mixed Air Temperature MB Mixing Box NA Not Applicable NI Not Installed NL Not Listed NVL No Valid Location NM Not Measured NR Not Read NS Not Specified OSA Outside Air R.A Reverse Acting RA Return Air RAG Return Air Grille RAR Return Air Register RD Round Diffuser RH Re -Heat RPM Revolutions per Minute SA Supply Air SAG Supply Air Grille SAR Supply Air Register SAV Supply Air Valve SEF Smoke Evac Fan SP Static Pressure SW Sidewall SWG Sidewall Grill TBD To Be Determined TSP Total Static Pressure T -STAT Thermostat UA ULPA Filter V Volts VAV Variable Air Volume VP Velocity Pressure WER' Wall Exhaust Register M Rm% A*w% Equal Air Balanoo Company A V %Ml+ Report Summary 357 East Arrow Highway Suite 206 San Dimas, CA 91773 (714)637-3500 PROJECT: Spec Suite 4800 LOCATION: Newport Beach, CA 92660 SYSTEM: Supply TECHNICIAN: Matt Wood AREA SERVED: Suite 4800 DATE: 7/9/2019 JOB # 19244 Conference Room is very negative, because the main return is in room. The room has full height walls. A ffm% AF% TEST AND BALANCE REPORT Equal Air Balanc® Company DIFFUSER AND GRILLE TEST Spec Suite 4800 Date: 7/9/2019 Readings by: Matt Wood Job No.: 19244 Notes: (1) VAV-7 Box is only cooling, no hot deck. 10 m®m®m®m® � • • - • iivii�iiiiii� • � � ��������� � • • - • ©gym - � � ��������� � • • - • ©gym - • � ��������� � • • - • i©iiiil�iiiiii� - • � ��������� � • • - • ivii�iiiiii� • • ��������� � • • - • ©aim � � ��������� ����� • � � iii • � � �mmmm�m Notes: (1) VAV-7 Box is only cooling, no hot deck. 10 CY fix � o till b9 � t.tg. I A e9 t t i,Eg��bv IJ' e� I Itv tl s+ $ , E d i 19� PIY � E E i I` i9 ig s i tgggaj lid Z / P tt Ilp l i,J�g,lg iCp E e yiit ltll�t vi It 1Eii,9iie E,I �' � Eig J 111! In Jill EEEs4E E$II tEi ; 111; J4i J! J iEEilJlg JtI !i! pJti CY fix Pq � t.tg. I A e9 t t i,Eg��bv IJ' e� I Itv tl $ , E d i 19� PIY � E E i I` i9 ig s i tgggaj lid / P tt Ilp l i,J�g,lg iCp E e yiit ltll�t vi It 1Eii,9iie E,I �' � Eig J 111! In Jill EEEs4E E$II tEi ; 111; J4i J! J iEEilJlg JtI !i! pJti e :q =r } .i .rt 'I,'!96ez{i{6{i{lpii;: P A � �'�'6 mi9,s,•`>3A E8g g r z 7 i96Ailli Jgl � •v � a e �• J m99 s pp tl5�A V8 C� �am my •.0 X2019- 03g7 5000 B1 'Ch s4 General Information Building Type: r Nonresidential r High -Rise Res (Common Area) r Hotel/Motel (Common Area) Phase of Construction: r New Construction r Addition r Alteration r Unconditioned Scope of Responsibility Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy efficiency measures for the scope of responsibility for this Installation Certificate. Date: 3/28/2019 12;00:00 AM This is page 1 of 2 CERTIFICATE OF INSTALLATION NaCl -Ln -0L[ Inlom ugFung Prej¢d Name: SPEC SUITE 4800 ISnomemand Agency: CITY OF NEWPORT BEACH IIIPelmil Number. X2019.0342 Pmja4Aplans pa"BIRCHSTREET III Ncurphi BEACII1LPCale: yisN1� DOCUMENTATION AUTHOR'S DECLARATION STATEMENT 1 certify that this Certificate of Acceptance document is accurate and complete. Documentation Author Company Name lose Moreno Name Ironwood Electric, Inc Address Cty 1239 N. TUSTIN AVE ANAHEIM Zip Code Phone 92802 (214)313-0851 CEA/ATT Certification Author Signature Identification (if TC-A2170I0 applicable) Data of Signature: 06/22/2019 RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of perjury, under the laws of the State of California: 1. 1 am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and 1 have revlevmd the information provided oa this Certificate of Acceptance. 2. Iam eligible order Division 3 of the Business And Professions Code in the applicable classification to accept responsibility for the system regard, construction installation of features, materials, components, or manufactured devices for the scope of work identified on this Certificate of Acceptance and attest to the declarations in this patement(fesponsible acceptance person). 3. The Information provided on this Certificate of Acceptance substantiates that the construction or installation identified on this Certificate of Acceptance complies will the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable acceptance requirements and procedures specified in Reference Nonresidential Appendix NA2, 4. 1 have confirmed that the Certlficate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and Is posted or made available with the building permit(s) issued for the building. S. 1 will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the Unald ing permit(s) issued for the building, and made available to the enforcement agency for all applicable inspections. I undeatand that a signed copy of this Certificate of Acceptance is required to be included with the documentation the holder provides to the building owner at occupancy. Responsible Acceptance Company Name Person Name lose 1-0ore no Irom+ootl Electric, Inc Address: city 1239 N. TUSTIN AVE ANAHEIM Zip Code Phone 92802 (214)313-9851 CSLB License Position with Company C 10 612921 TitLIGHTING CONTROLS TECHNICIAN le ) Responsible Acceptance Person Signature I Date of Signature: 06/22/2019 This is page 2 of 2 This is page I of 5 CERTIFICATE OF INSTALLATIONNRCI-LTF@-p. EMCSur Liyh1ing Cnntml Sy 1_ Jcn Name: SPEC SUITE 49MBnfonxm l A6cncY CITY OF NEWPORT BEACH Permit Nmnh..%3019-034] Pm,wtAJJmss: 5(MRIRC1ISTREET CiIy: NEWPORT BEACII Zip C,k 92ffA a The installed Lighting Control System complies with the requirements checked below; and all components of the system considered together as installed meet all applicable requirements for the application for which they are installed as required in Sections 130.0 through 130.5, Sections 140.6 through 140.8, Section 141.0, and Section 150.0(k). PART 2 Lighting Control Functional requirements: Check all that apply when verifying the installation of an EMCS or Lighting Control System. r A. All lighting controls and equipment have been installed in accordance with the manufacturer's instructions. P B. The manufacturer has provided instructions for calibration. r C. If indicator lights are integral to any components, such indicator lights consumes no more than 1 watt of power per indicator light. r D. Components that are regulated by the Title 20 Appliance Efficiency Regulations have been certified to the Energy Commission. r E. The EMCS or Lighting Control System functions as one or more of the Time -Switch Lighting Controls checked below, and complies with all of the following requirements: r 1. Automatic Time -Switch Controls meeting all requirements for Automatic Time Switch Control devices in the Title 20 Appliance Efficiency Regulations, including the requirements below: a. Residential automatic time -switch controls have program backup capabilities that prevent the loss of the device's schedule for at least 7 days, and the device's date and time for at least 72 hours if power is interrupted. b. Commercial automatic time -switch controls meet the following requirements: i. Has program backup capabilities that prevent the loss of the device's schedule for at least 7 days, and the device's date and time for at least 72 hours if power is interrupted ii. Is capable of providing manual override to each connected load and shall resume normally scheduled operation after manual override is initiated within 2 hours for each connected load and iii. Incorporates an automatic holiday shutoff feature that turns off all connected loads for at least 24 hours and then resumes normally scheduled operation. r 2. Astronomical Time -Switch Controls meeting all requirements for Astronomical Time -Switch Control devices in the Title 20 Appliance Efficiency Regulations, including the requirements below: a. Meets the requirements of an automatic time -switch control b. Has sunrise and sunset prediction accuracy within plus -or -minus 15 minutes and timekeeping accuracy within 5 minutes per year c. Is capable of displaying date, current time, sunrise time, sunset time, and switching times for each step during programming d. Has an automatic daylight savings time adjustment; and e. Has the ability to independently offset the on and off for each channel by at least 99 minutes before and after sunrise or sunset. r 3. Multi -Level Astronomical Time -Switch Controls, in addition to meeting all of the requirements for Astronomical Time -Switch Controls, includes at least 2 separately programmable steps per zone. f✓ F. The EMCS or Lighting Control System functions as one or more of the Daylighting Controls listed below: This is page 2 of 5 CERTIFICATE OF INSTALLATION JNRoi EMCS m Li8Ltin8 Gnwl Syum P1WNs SPEC3UH1348Wofoii Agmcy. CRY OF NEWPORTBEACH emilNwiM: MOIM347 P jm AJMss:50W BIRCH5TRfi4T city: NENCVRT BEACH Ip Catle; 93660 r 1. Automatic Daylight Controls meet all requirements for Automatic Daylight Control devices in the Title 20 Appliance Efficiency Regulations, including the fallowing: a. Is capable of reducing the power consumption in response to measured daylight either directly or by sending and receiving signals; b. If the system includes a dimmer, complies with the Dimmer Control device requirements in the Title 20 Appliance Efficiency Regulations. c. Automatically return to its most recent time delay settings within 60 minutes when put in calibration mode; d. Has a set paint control that easily distinguishes settings to within 10 percent of full scale adjustment; e. Has a light sensor that has a linear response within 5 percent accuracy over the range of Illuminance measured by the light sensor; I. Has a light sensor that is physically separated from where the calibration adjustments are made, or is capable of being calibrated in a manner that the person initiating the calibration is remote from the sensor during calibration to avoid influencing calibration accuracy; and g. Complies with the Title 20 requirements for photo controls if the system contains a photo control component, r 2. Photo Controls meet all requirements for Photo Control devices in the Title 20 Appliance Efficiency Regulations, including the following that it does not have a mechanical device that permits disabling of the control. G. The EMCS or Lighting Control System functions as a Dimmer and meets all requirements for a Dimmer Control device In the Title 20 Appliance Efficiency Regulations, including the fallowing: 1. Is capable of reducing power consumption by a minimum of 65 percent when the dimmer is at its lowest level; 2. Includes an off position which produces a zero lumen output; and 3. Does not consume more than i watt per lighting dimmer switch leg when in the off position. 4, Dimmer controls that can directly control lamps provide electrical outputs to lamps for reduced Flicker operation through the dimming range so that the light output has an amplitude modulation of less than 30 percent for frequencies less than 200 Hz without causing premature lamp failure. 5. If designed for use in three way circuits is capable of turning lights off, and to the level set by the dimmer if the lights are off. WV H. The EMCS or Lighting Control System meets the following requirements: 1. Is capable of automatically turning off controlled lights in the area no more than 30 minutes after the area has been vacated; 2. Allows all lights to be manually turned off regardless of the status of occupancy; and 3. Has a visible status signal that indicates that the device is operating properly, or that it has failed or malfunctioned. The visible status signal may have an override switch that turns off the signal. 4. All occupant sensing devices that utilize ultrasonic radiation for detection of occupants meet the Ultrasound Maximum Decibel Values in the Title 20 Appliance Efficiency Regulations S. All occupant sensing devices that utilize microwave radiation for detection of occupants meet the radiation requirements in the Title 20 Appliance Efficiency Regulations 6. Occupant sensing devices incorporating dimming comply with the requirements for dimmer controls in the Title 20 Appliance Efficiency Regulations 7. The EMCS or Lighting Control System functions as one or more of the Occupant Sensing Controls Checked Below: r a. Occupant Sensors meeting all applicable requirements for Occupant Sensor Control devices in the Title 20 Appliance Efficiency Regulations r b. Motion Sensors meeting all applicable requirements for Motion Sensor Controls devices in the Title 20 Appliance Efficiency Regulations, including that motion sensors are rated for outdoor use. r c. Vacancy Sensors meeting all applicable requirements for Vacancy Sensor Controls devices in the Title 20 Appliance Efficiency Regulations, including the following: I. Does not turn on lighting automatically and does not incorporate DIP switches, or other manual means, for conversion between manual and automatic functionality; ii. Has a grace period of no more than 30 seconds and no less than 15 seconds to turn on lighting automatically after the sensor has timed out; and if. Does not have an override switch that disables the sensor. This is page 3 of 5 d. Partial -ON Sensors meeting all applicable requirements for partial on sensing devices in the Title 20 Appliance Efficiency Regulations, including the fallowing: I. Has two poles each with automatic -off functionality; ii. Has one pole that is manual -on and does not incorporate DIP switches, or other manual means, for conversion between manual and automatic functionality; and iii. Has one pole that is automatic -on and is not be capable of conversion by the user to manual -on functionality. r e. Partial -OFF Sensors meet all applicable requirements for partial off sensing devices in the Title 20 Appliance Efficiency Regulations, including the following: I. Has two poles; ii. Has one pole that is manual -on and manual off; and iii. Has one pole that is automatic -on and automatic -off and is not capable of conversion by the user to manual -on only functionality. r f. Occupant Sensing Control systems consist of a combination of single or multi-level Occupant, Motion, or Vacancy Sensor Controls, and all components installed to comply with manual -on requirements are not capable of conversion by the user from manual -on to automatic -on functionality. PART 3 Requirements for which the control is being installed to complied with: Identify all requirements in the Standards for which the EMCS or Lighting Control System is installed to function as and complies with: Check all that are applicable. r A. Section 130.1(a) Area Controls. W B. Section 130.1(b) Multi -Level Lighting Controls A C. Section 130.1 (c) Shut -OFF Controls IF, D. Section 130.1 (d) Automatic Daylighting Controls. r E. Section 130.1 (e) Demand Responsive Controls. r F. Section 130.5 (d) Circuit Controls for 120 -Volt Receptacles. F` G. To qualify for the PAF for a Partial -ON Occupant Sensing Control in TABLE 140.6-A r H. To qualify for the PAF for an occupant sensing control controlling the general lighting In large open plan office areas above workstations, in accordance with TABLE 140.6-A r I. To qualify for the PAF for a Manual Dimming System PAF or a Multiscene Programmable Dimming System PAF in TABLE 140.6-A r 1. To qualify for the PAF for a Demand Responsive Control in TABLE 140.6-A r K. To qualify for the PAF for Combined Manual Dimming plus Partial -ON Occupant Sensing Control in TABLE 140.6-A This is page 4 of 5 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT 1 Certify that this Certificate of Acceptance document is accurate and complete. Documentation Author Company Name Name Jose Moreno Ironwood Electric, Inc Address City 1239 N. TUSTIN AVE ANAHEIM Zip Code Phone 92807 (719)313-9851 CEP/ATT Certification Author Signature Identification (if TC A217010 applicable) Date of Signature: RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of peUrry, under the laws of the State of California: 1. 1 am the Field Technician, or the Fred Techolos, Is .,he, oa my behalf as mV employee or my agent and I have reviewed the Information provided on this Certificate of Acceptance. 2 1 am allglble under Dlvlslc n 3 of the f1maness and Professions Code In the applicable classlflcation to accept responsibility for the system design, construction or lnstallatlon offeatures, materials, components, or manufactured devices forthe scope of work identified on this Certificate of Acceptance and attest to the declarations m this statement (responsible acceptance person). 3. The Information provided on this Certificate of Acceptance substantiates that the construction or installation identified be this Certificate of Acceptance complies with the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable acceptance requirements and procedures specified in Reference Nonresidential Appendix Nat. 4 I have confirmed that the Certificates) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and is posted or made available with the building permit(s) issued for the building. 5. I will ensure that a Completed, signed Copy of this Certificate of Acceptance shall be posted, or made available With the building permit(s) Issued far the building, and made evellable to the enforcement agency for all applicable inspections. i understand that a signed copy of this Certificate of Acceptance is required to be included with the documentation the builder provides to the buildup owner at occupancy. Responsible Acceptance Jose Moreno Company Name 1}onwnod Electric, lnc Paul— Name Add .... : City 1239 N. TOSTIN AVE ANAHEIM Zip Code 92807 Phone (719)313-9851 CSLB License C-10 617971 Position with Company (TiCie) LIGHTING CONTROLS TECHNICIAN Responsible Acceptance Person Signature 2� Data of signature: AE/27/2019 This is page 5 of 5 --_v— � This is page 1 of 31 CERTIFICATE OF ACCEPTANCE NRCA-LTLUE-A urhlmy Cmwl IM,jen Nome: SPECSUITtl.i. E.1fi-1 em AE -1: CIT' OF NEWPORT BEACH in—i: Nnmbr. COIJA3.0 PNltttA ,s:51IWRIRC1JsT1ZEE7r City: NEWMRTREACII ZiR—J3(!A B. Functional Testing of Lighting Controls For every space in the building, conduct functional tests I through 5 below if applicable. If there are several geomeU'icaily similar spaces that use the same lighting controls, test only one space and list in the cells below which "untested spaces' are represented by that tested space. EXCEPTION: Far buildings with up to seven (7) occupancy sensors, all occupancy sensors shall be tested. (NA7.6.2.3) Representative Spaces Selected Tested space room name: 4808 BREAKROOM Space Type (office, corridor, etc) BREAK ROOM Untested areasAmoms Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition a. All fights can be turned on and off by their respective area control switch r b. Verify the switch only operate=_ lighting in the ceiling -height partitioned area in r which the switch Is located. Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r remain on per Section 130.1(c)i and 130.1(a)1. b. Manual override switch controls only the lights in the selected ceiling height partitioned spare where the override switch is located and the lights remain an no longer than 2 hours (unless serving public areas and override switch is captive key type). r Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) r It. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition E. Status indicator or annunciator operates correctly r b. Lights controlled by occupancy sensors tum on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually r This is page 2 of 31 Step 3: System returned to initial operating conditions r 3. Partial Off Occupancy Sensor Step 1: Simulate an unoccupied condition a. Lights go to partial off state within a maximum of 20 minutes from start of an r unoccupied condition per Standard Section 110.9(a) b. The occupant sensor does not trigger a false 'oh- from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. r C. In the partial off state, lighting shall consume no more than 50% of installed lighting power, or! No more than 60% of installed lighting power for metal halide or high pressure sodium lighting in warehouses. No more than 60% of installed lighting power for corridors and stairwells in which the installed lighting pourer is 80% or less of the value allowed under the, Area Category Method. r Light level may be used as a proxy for lighting power when measurements are taken Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled areas, Immediately upon an occupied condition r 4, Partial On Occupancy Sensors Step 1. -Simulate an occupied condition. Verify partial on operation. a. Immediately upon an occupied condition, the first stage activates between 50 to 70% of the lighting automatically. r b. After the first stage occurs, manual switches allow an occupant to activate the alternate set of lights, activate 100% of the lighting power, and manually deactivate all of the lights. 17 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) r b. The occupant sensor does not trigger a false 'on' from movement in an area r J adjacent to the controlled space or from HVAC operation, This is page 3 of 31 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces larger than 25O ft , to Qualify for a Power Adjustment Factor (PAF) Step e: First, complete Functional Test 2 (above) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting R2 b. Enter PAF corresponding M controlled area from line (a) above (<125 11:2 for PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft' for PAF=0.2). c. Enter PAF claimed for occupant sensor cortrol in this space from the Certificate of Compliance. d. The PAF corresponding to the controlled area (line b), is greater than or equal to the PAF claimed in the compliance documentation (tine c). r e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces r f. Ail steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r and ail answers are Yes. This is page 4 of 31 t. Automatic Time Switch Controls (all answers must be Yes). r 2. Occupancy Sensor (On Off Control) (all answers must be Yes). F- 3. 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be T„ accompanied by passing Test 1 or Test 2, 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested spacefroom name: 4801 OPEN WORK AREA Space Type (office, corridor, etc) OPEN OFFICE Untested areas rooms SAMPLED FOR AREA 4802, 4503 Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition F, All Ilghte can be turned on and off by their respective area control switch r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. r Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may remain on per Section 130.1(()1 and 130-1(a)1. r b. Manual override switch controls only the lights in the selected ceiling height partitioned space ;vhere the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key type) r Step 3: System returned to initial operating conditions E- 2. 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 5 of 31 i CERTIFICATEOFACCEPTAVCE NBCA -un -112-A ISPNiny(FnYol P imt Nene: SPEC SUITE 4800 FnfrrtxmentAgenpe CITY OF NEWPORT Bistro til Numb: Rol IMI47 P ju:l AJdre 50f10 Bruce STREET CiV: TTi ORT BEACH .gdi4.—m a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the contiv lied space or from HVAC operation. r Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly It. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually r Step 3; System returned to initial operating conditions r 3. Partial Off Occupancy Sensor Step 1: Simulate an unoccupied condition a. Lights go to partial off state within a maximum of 20 minutes from start of an r unoccupied condition per Standard Section 110.9(a) b. The occupant sensor does not trigger a false 'On' from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. r c In the partial off state, lighting shall consume no more than 501% of installed lighting power, or: No more than 60% of installed lighting power for metal halide or high pressure sodium lighting in warehouses. No more than 60% of installed lighting power for corridors and stairwells in which the installed lighting power is 00% or less of the value allowed under the Area Category Method. Light level may be used as a proxy for fighting power when measurements are taken r Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled areas, immediately upon an occupied condition r- 4. 4. Partial On Occupancy Sensors Step 1. -Simulate on occupied condition- Verffy partial on operation. a. Immediately upon an occupied condition, the first stage activates between 50 to 704'. of the lighting automatically. r 77 b. After the first stage occurs, manual switches allow an occupant to activate the alternate set of lights, activate 100% of the lighting power, and manually Ir deactivate all of the lights. This is page 6 of 31 Step 2. Simulate an unuc[uio ed condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) b. Theoccupant sensor tines not [ringer a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r This is page 7 of 31 5. Adds: ionai test for Occupancy Sensors Serving Small Zones in Office Spaces larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step o: First complete Functional Test 2 (above) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting R2 b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for PAF=0.4, 126-250 ft? for PAF=0.3, 251-500 ft2 for PAF=0.2). c. Enter PAF claimed for occupant sensor control in this space from the Certificate of Compliance. d. The PAF corresponding to the controlled area (line b), is greater than or equal to the PAF claimed in the compliance documentation (line e). r e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 8 of 31 1. Automatic Time Switch Controls (all answers must be Yes). r 2. Occupancy Sensor (On Off Control) (all answers must be Yes). r- 3. 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be accompanied by passing Test i or Test 2. r 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/mom name: 480? COPY Space Type (office, corridor, etc) COPY AREA Untested areas/rooms Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition F, All lights tan be turned on and off by their respective area control switch r b. Verify the switch only operates lighting in the ceiling -height partitioned area in r which the switch is located. Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r, remain on per Section 130.1(c)1 and 130.1{a)1. It. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and oven'ide switch is captive key type) r Step E: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 9 of 31 I a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) I r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. G Step 2: Simulate an occupied condition a, Status indicator or annunciator operates correctly b. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually Fr Step 3: System returned to initial operating conditions F 3. Partial Off Occupancy Sensor Step 1: Simulate an unoccupied condition a. Lights go to partial off state within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 1109(a) 6 b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled spam or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. c. in the partial off state, lighting shall consume no more than 5011. of installed fighting power, or: No more than 60% of Installed lighting power for metal halide or high pressure sodium fighting in warehouses. No more than GO-/. of installed lighting power for corridors and stairwells in which the installed lighting power is 80% or less of the value allowed under the Area Category Method. r Light level may be used as a proxy for lighting power when measurements are taken Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled areas, Immediately upon an occupied condition r 4. Partial On Occupancy Sensors Step 1. -Simulate an occupied condition. Verify partial an operation_ a. Immediately upon an occupied condition, the first stage activates between 50 to 70% of the lighting automatically. r b. After the first stage occurs, manual switches allow an occupant to activate the alternate out of lights, activate 100% of the lighting power, and manually deactivate all of the lights. rV This is page 10 of 31 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. This is page 11 of 31 S. AdVional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step 0: First, complete Functional Test 2 (above) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting ft2 b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2). c. Enter PAF claimed for occupant sensor control in this space from the Certificate of Compliance. d. The PAF corresponding to the controlled area (line b), is greater than or equal to the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces L All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 12 of 31 C. Testing Results 1. Automatic Time Switch Controls (all answers must be Yes). C 2. Occupancy Sensor (On Off Control) (all answers must be Yes). r 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwelis in nonresidential buildings must also be r accompanied by passing Test i or Test 2. I4. Partial On Occupant Sensor for PAF (all answers must be Yes). I r S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: 4804 OFFICE Space Type (office, corridor, etc) OFFICE Untested areas/rooms Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition a. All lights can be turned on and off by their respective area control switch f" It. Verify the switch only operates lighting in the ceiling -height partitioned area in r which the switch is located. Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r remain on per Section 130.1(c)1 and 130-1(a)1. b. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch Is captive key type). E - step 3: System returned to initial operating conditions C 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 13 of 31 CEIITIFICATE OF ACCEPFAVCE I FR- -L'RM-A lion .C -oil Pmjecl Neme: YPEC YURBOMJU Gfomemmr Agency. CRY OFNEWPORT BEACH PuntirNMbia X W n -(A4] Pmjttii Aa - 5000 BIRCH S Hni1T C.V: TTiWPORT BEACH .ip C,Wv-93fiM a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes r from start of an unoccupied condition per Standard Section 110.9(b) b. The occupant sensor does not trigger a false 'on' from movement in an area r adjacent to the controlled space or from HVAC operation. Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly I r b. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on Fr manually Step 3: System returned to initial operating conditions r 3. Partial Off Occupancy Sensor Step 1: Simulate an unoccupled condition a. Lights go to partial off state within a maximum of 20 minutes from start of an r unoccupied condition per Standard Section 1I0.9(a) b. The occupant sensor does not tngger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r the aisle or stack. c. In the partial off state, lighting shall consume no more than 50411. of installed lighting power, or: No more than 60% of installed lighting power for metal halide or high pressure sodium lighting in warehouses. No more than 600f, of installed lighting power for corridors and stairwells in which the installed lighting power is 80% or less of the value allowed under the Area Category Method. r Light level may be used as a proxy for lighting power when measurements are taken Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled r areas, Immediately upon an occupied condition 4. Partial On Occupancy Sensors Step 1. -Simulate an occupied condition. Verify partial on operation. a. Immediately upon an occupied condition, the Flrst stage activates between 50 to 70% of the fighting automatically. r b. After the first stage occurs, manual switches allow an occupant to activate the alternate set of lights, activate 100% of the lighting power, and manually F deactivate all of the lights. This is page 14 of 31 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turnoff within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) b. The occupant sensor does not trigger a false 'an' from movement in an area adjacent to the controlled space or from HVAC operation. This is page 15 of 31 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step 0: First, complete Functional Test 2 (above) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting ft2 b. Enter PAF corresponding to controlled area from line (a) above (<125 11:2 for PAF=0.4, 126-250 11:2 for PAF=0.3, 251-500 ft2 for PAF=0.2). r. Enter PAF claimed for occupant sensor control in this space from the Certificate of Compliance. d. The PAF correspondina to the controlled area (line b), is greater than or equal to r the PAF claimed in the compliance documentation (line c). e. Sensors shall nottrigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 16 of 31 1. Automatic Time Switch Controls (all answers must be Yes). r 2. Occupancy Sensor (On Off Control) (ail answers must be Yes). 7 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be r accompanied by passing Test 1 or Test 2. 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r- 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: 4809 CONFERENCE Space Type (office, corridor, etc) CONFERENCE ROOM Untested areas/roams Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition a. All lights can be turned on and off by their respective area control switch G b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may remain on per Section 130.1(c)1 and 130 I(a)i. b. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key type). r Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 17 of 31 CERTIFICATE Of ACCEPTANCE NRcn-I.TIn2-A LiPhtiog Cwhd P Jut Nurse SPCC s11RH4800 EnPo¢emenlAgency: CITYOANEWPORTERACH Parinli b .XMJ9 34] Jcl A,Wd :SXn Men STRITT Cis=';.R01wM.ACH .ry C4n4-. P..M1fiO a. Lights rontmlled by occupancy sensors turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition a, Status indicator or annunciator operates correctly r b. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually r Step 3: System returned to initial operating conditions r 3. Partial Off Occupancy Sensor Step 1: Simulate an unoccupied condition a. Lights go to partial off state within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) r b. The occupant sensor does not trigger a false'On' from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. r c. in the partial off state, lighting shall consume no more than 50% of installed lighting power, or: No more than 60% of installed lighting power for metal halide or high pressure sodium lighting in warehouses. No more than 600A of installed lighting power for corridors and stairwells in which the installed lighting prover is 80% or less of the value allowed under the Area Category Method. Light level may be used as a proxy for lighting power when measurements are taken r Step 2: Simulate an ocoupled condition The occupant sensing controls shall turn lights fully ON in each separately controlled areas, Immediately upon an occupied condition r- 4. 4. Partial On Occupancy Sensors Step 1. -Simulate an occupied condition. Verify partial on operation_ a. Immediately upon an occupied condition, the First stage activates between 50 to 70% of the lighting automatically. r b. After the first stage occurs, manual switches allow an occupant to activate the alternate set of lights, activate 100% of the lighting power, and manually deactivate all of the lights. This is page 18 of 31 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 F, minutes from start of an unoccupied condition per Standard Section 110.9(a) b. The occupant sensor does not trigger a false 'on' from movement in an area R adjacent to the controlled space or from HVAC operation. This is page 19 of 31 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step a: First, complete Functional Test 2 (above) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting it b. Enter PAF corresponding to controlled area from line (a) above (425 R2 for PAF=OA, 126-250 f Z for PAF=0.3, 251-500 ft" for PAF=0.2). a Enter PAF claimed for occupant sensor control in this space from the Certificate of Compliance. d. The PAF corresponding to the controlled area (line b), is greater than or equal to the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces r f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 20 of 31 C. Testing Results 1. Automatic Time Switch Controls (ail answers must be Yes). C 2. Occupancy Sensor (On Off Contra[) (ail answers must be Yes). r 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be T„ accompanied by passing Test 1 or Test 2. 4, Partial On Occupant Sensor for PAF (all answers must be Yes). 117 S. Occupant Sensor serving small zones for PAP (all answers must be Yes). Also must i pass Test 2. Representative Spaces Selected Tested space/mom name: 41305 OFFICE Space Type (office, corridor, etc) OFFICE Untested areasfrooms SAMPLED FOR AREA 4806 Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition a. All lights can be turned on and off by their respective area control switch b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. r Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may remain on per Section 130.1(c)1 and 130.1(x)1. r b. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key type). Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupietl condition i This is page 21 of 31 CERTIFICATEOFACCE"kNOE NRGT 182-A C l Aojec[Nene: SP-I.UTB46Y1 ErPo emes,o,ncy: CITY of NEWPORT B2 CH Pana N+wM: X21119834] P+vjuf AaAvxe 50110 IRCH9TR1ifT iry:TTir'ORTBnACH ZipGW:TN a. Lights controlled by occupancy sensor turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) I r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly r b. Lights controlletl by occupancy sensor turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on r manually Step 3: System returned to initial operating conditions r 3. Partial Off Occupancy Sensor Stop 1: Simulate an unoccupied condition a. Lights go to partial off state within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. r C. In the partial off state, lighting shall consume no more than 50% of installed lighting power, or; No more than 601F. of Installed lighting power for metal halide or high pressure sodium lighting in warehouses. No more than 609m of installed lighting power for corridors and stairwells in which the installed lighting power is 80% or less of the value allowed under the Area Category Method. r Light level may be used as a proxy for lighting power when measurements are taken Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled r„ areas, Immediately upon an occupied condition 4. Partial On Occupancy Sensors Step 1. -Simulate an occupied condition. Verify partial on operation. a, immediately upon an occupied condition, the first stage activates between 50 to 70% of the lighting automatically. r b. After the first stage occurs, manual switches allow an occupant to activate the alternate set of light's, activate 100% of the lighting power, and manually deactivate all of the lights. I v r This is page 22 of 31 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(a) G b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. This is page 23 of 31 S. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step O: First, complete Functional Test 2 (above) for each controlled sone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting ft2 b. Enter PAF corresponding to controlled area from line (a) above (e 125 ft2 for PAF=0.4, 126-250 ftZ for PAF=0.3, 251-500 ft2 for PAF=0,2). a Enter PAF claimed for occupant sensor control in this state from the Certificate of Compliance. d. The PAF corresponding to the controlled area (line b), is greater than or equal to the PAF claimed in the compliance documentation (line e). G e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces G f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 24 of 31 C. Testing Results 1. Automatic Time Switch Controls (all answers must be Yes). r 2. Occupancy Sensor (On Off Control) (all answers must be Yes), r 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be Fr accompanied by passing Test 1 or Test 2. 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: 4800 RECEPTION Space Type (office, corridor, etc) RECEPTION AREA Untested areas/rooms Confirm compliance for all control system types (1-5) present in each space: 1. Automatic Time Switch Controls Step 1: Simulate occupied condition F, All lights can be turned on and off by their respective area control switch r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. r Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may remain on per Section 130.1(c)i and It. Manual override switch controls only the lights in the selected telling height partitioned space where the override switch is located and the lights remain an no longer than 2 hours (unless serving public areas and override switch is captive key type) r Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition r - This is page 25 of 31 It. The occupant sensor does not trigger a false 'on' from movement in an area r, adjacent to the controlled space or from HVAC operation. Step 2: Simulate an occupied Condition a. Status indicator or annunciator operates correctly It. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned an r manually Step 3 System returned to initial operating conditions r 3. Partial Off Occupancy Sensor Step 1: Simulate an unoccupied condition a. Lights go to partial off state within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.4(a) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. r C. In the partial off state, lighting shall consume no more than 50% of installed lighting power, or: No more than 60% of installed lighting power for metal halide or high pressure sodium lighting in warehouses. No more than 60% of installed lighting power fur corridors and stairwells in which the installed lighting power is 80% or less of the value allowed under the Area Category Method. 17 - Light Light level may be used as a proxy for lighting power when measurements are taken Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled r areas, Immediately upon an occupied condition 4. Partial On Occupancy Sensors Step 1. -Simulate an occupied condition. Verify partial on operation. a. Immediately upon an occupied condition, the first stage activates between 50 to 70% of the lighting automatically. J. After the first stage occurs, manual switches allow an occupant to activate the alternate set of lights, activate 1000% of the lighting power, and manually deactivate all of the lights. { ....... This is page 26 of 31 Step 2. Simulate an unoccupied mmUtfen a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 �P, minutes from start of an unoccupied condition per Standard Section 110.9(a) b. The Occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r This is page 27 of 31 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step O: First, complete Functional Test 2 (atwve) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting ft2 b. Enter PAE corresponding to controlled area from line (a) above (<125 ft2 for PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft for PAF=01). c Enter PAF claimed for occupant sensor control in this space from the Certificate of Compliance. d. The ME corresponding to the controlled area (line b), is greater than or equal to the PAF claimed in the compliance documentation (line c). G e. Sensors shall not trigger in response to movement in adjacent walkways or f" workspaces f. All step=_ are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes. r This is page 28 of 31 C. Testing Results I. Automatic Time Switch Controls (ail answers must be Yes). C 2. Occupancy Sensor (On Off Control) fail answers must be Yes). r 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be accompanied by passing Test 1 or Test 2. f 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must pass Test 2. r D. Evaluation tv PASS: Ali applicable Construction Inspection responses are complete and all applicable Equipment Testing Requirements responses are positive. I This is page 29 of 31 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT I certify that th:s Certificate of Acceptance eommentation is accurate anti complete. Daydroo itlu n Auihar )use Martina Gerlach, Name firms... ErcViq I'¢ Name Address Guy 1239 N. _ ti5Tif1 AVE Guy Zip Code 92807 phase (714)313 gS51 CEA/ATT Lefton, tion Tr A217010 Author 5i9nalure IdentlficaUch (if applicable) Data of Signal...: od; P)zo19 FIELD TECHNICIAN'S DECLARATION STATEMENT I certify the following under penalty of perjury, order the Jews of the Sfate of California: 1. The lnfermatlon provided mr tms Certificate N Acceptance is true and correct. 2. 1 am the person she perfd,had the ad e,t.m, verification reprrted oa this Certlh.la, of Accemana (field Technic an). 3. The wast. whou or installation id,mifird or. this Certificate of Acceptance wmpllea with Ue applicable acceptance reVuiremunls indicated In the plans and speoficetmns ap Proved hY the enforcement anency, and confer: ri to the appllcabfe acmpcaace requirements ane procedures s?enRed In Reference Nonresidential Appendix NAy, 4, I have I.f6care that He CertiFcate(s) of Instal la:ion fcf 119 cops[rceicn or installation Identified an this C,dicate of Acceptance has been completed and sisoad by iha responsible beilderilmt.I!er aoJ Yds been dac,.d or mace available'hh Che bwldin9 permit(s) issued for tae Indiaia, Field Teehn:clan Name )ase Hareno Compaey Name l onsci d Ereceric, Inc Address: 1239 N. TUSTIN AVE nP code y2eo' ATT CertlfioHon IdentiNomion iC-P2ll0:0 Field Technician 519aature Date of Signature: /06/27/2019 Cl, ANAHEIM phone (714)313-9851 Fslwith Campton, LIGHTING CONTROLS TECHNICIAN (Title) RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of pe nary, under the lases of tire SLatc of Cahmrnlal 1. 1 am the Field Technician, or the Field Techtitian is acting on illy behalf as my employee or my agent and 1 have revief,if tile-hnrmation province on this Certificate of Acceptance. 2. 1 am eli"ILIV and., Division 3 of the Business and Professinns Cade in the applicable din"o.catian in accept responsibility for the system easing., dsKruRlon or installation of features, materials, components, or manufa[tured devices fpr the sf.pe of work Identified oa this CerFli:nt, n%Acceptance and shaft to the declaraf:ins in tfly statemem (responsible ucceptande person). 3. The ioformionch provided On Ihis Cerlincale .f Acceptance suhstarltu e, that the mnsfn¢tion or insfaNatlpn identite.d en the, Certificate oArrestor, —orplies with doe acceptanm muatremenis indkated In the plans antl specifications approved to, the enfcrcemtint anency and conforms In Hm zpPL'rnhk .-,Pon, repuhements and precaduws snecified in Reference nor,a,d enlial Appendix NA2, 4. I nave mnfirmec that tan CerUficate(s) or lnstanlauon for the conslrccSnn or Instol.atima Identified on Lbis Certificate of Accearence has been completed and is posted or made available with Lhe bndd:ng pe'mit(s) issued far the bonding. 5. 1 sill ensure that a completed, signed copy of this Cartif¢te of Acceptance shah be po3ad, .f .made availa]le with the buinding perma(s) issued for the hunding, and made ovula Me to the enforcement agcicy far at applicable insuecLons. 1 undenvaad that a s:goed copy or this cerHOcale of Acceptance is rag.lred In be Included with the eochmertatlon the minicar provlbas In In. building owner at occupancy. Responsible Acceptance )ase Haien. ciolpf y clam. :ronwoad E'.cMc, I'd Name Add ... I: 1239 N. TUSTiN AVE City ANAHEIM Zip Code Me License 92807 C..-10 619071 Responsible Acceptance Person Signature Oeste of Siursor"e: , p6i27/2919 Phare (>14)-3-9851 Titl) +ei:h Company (Titlee) I IGHTING CONTR ILS TECHNICIAN Company(Title) This is page 30 of 31 This is page 31 of 3) C E AUTOMATIC DAYLIGHTING CONTROL ACCEPTANCE DOCUMENT Enforcement Agency Use: ChecheC by/Onto Check boxes for all pages of this NRCA-LTI-03-A completed and included in this submittal O NRC LTI-03-A Page Constructionlnspection. This page required for all submittals. • NRC LTI-03-A Page Continuous dimming control functional performance test—watt-meter or amp -meter measurement D NRC LTI-03APage Stepped Switching( Stepped Dimming functional performance test—watt-meteror amp -meter measurement NRCA-LTI-03-A Page Continuous dimming control functional performance test— light meter power measurement, and default look -up 13 7&9 table of fraction of rated power versus fraction of rated light output. NRCA-LTI-03-A Page Stepped Switching/ Stepped Dimming functional performance test— based on light output 9&10 1. NA7.6.1.1 Construction Inspection: 1. Drawing of Daylit Zones) must be shown on plans or attached to this compliance document. By checking this box, technician certifies that plans have been attached to this webform r Document Nnme and Page r E3.0 Add Cmu rul Sy;tom> Lehr;.:, .amylin, method is used io _-_,udpnre nidi: NA7.6.12. IF "mug, oUn't, a page vRh nnmes of "Um, controls In somplt IomA for n bulldin's .F , 5 daylight r.nine l "come, sample group n ring same nnentnson) 4802 OPEN OFFICE AREA (SS) 4802 OPEN OFFICE AREA (SS) Plans Page Number E3.0 Check if Tested Control a Fm11esentat:Ye of Semple r Zone TYpe: Soffit (Sky), Ponfory' Smel,1 (PS), or Secondary' Sleek (SS) PS Concet TYpe; Couli000ns Olmnting lut, more Ohan 101igul Immis (C), Slepped Oimntina (.ST), Svatehino (SM) Design Footcandles; (Enter foulcan ge. (R) color or 3' 1! nnknn•rn): 3. Sensors and Controls Control Loop Type: open Loop (OLL Closed Loup (CILi CL Sensor Lora:imm Outside (e), T11A, Sxyught (IS), Neal ren dc', anon, out (Nvq, in CIonlrylled For. (CZ) Sensor fomes Is Appropriate to Control Loop Type: (ver/Ne) if control foop type is Open Loop (01.): Enso yes (y) If Ironton Outsid. (0), Insir, Skyllgbt (IS), cr Ne3r Windaas facing out (Net); othomnse, mor no (N). If Control loop typo is Closed Lmp (CL): En2r yes (Y) R [reopen = to Controli,d Zone (CZ); u0mr,,-, cart, no (N). l This is page I of 20 CERT CAPHOPACCEMNCE NRCA-1,1145:n Projm Nome SPEC sul'FE iAW jeanis NnmMr. X201LLY1] PrPrOt AddresseSWOb RCHIllre ET 10f.NEWPORT OEACII n, I: urep ConRol Atljustments are in Appropriate Locatinn (Yes(iJe): Yes, If Read,iy Accessible or Yes If in Ceiling less than or equal 10 11 it, ryo for all o[M1er. 4. Has Documentation Been Provided by the Installer: Instauaeon Man0115 anti ealmrauon lestrai,I—I P—o ae m Bulmmy Owner: (Yes/No) Location of Light Sensor on Plans: (yee(NC) Ye� Locatinn Of r,h, Pointer an Plans: (Past Number) F.E3.o S. Separate Controls of Luminaires in Daylit Zones: Are luminaires Controlled by aatomabc tlaYllghting crntrals silly in daybt zones: (Yes)No) Sepafately "Int. for tlayln zones by 1,adtile and daylit Innes under skylights: (Y.,/Nd) Yes— 6. Daylighting Control Device Certification oaylshar, control has teen ciii in a,pert nee :mth gl 10.9: (YI,t Construction laspecron Pass/FAIL. If an responses on con.naURn Is spec Intent rases 1 & z are wmplete and an Yra/N. twesrnns 0vc a Yes resnansa. 10. tests Pss: If any responses on osis nope are inconaiet• OR here are any %o responses, the fasts FAIL PASS/FAIL Evaluation (check one): r PASS: If at( responses in, Corair, rin Inspection paces 1 & 2 are complete ..it all Ye1/N0 gucstlnre have a )'es (Y) response, the tests PASS f FAIL: Any arid,abW Construction Inspection responses are incomplete O3 mere is one or mere '.0'r, IN nn? responses' In art' appilrable FUOctiol121 Performance Tenni, Reseremer•te section. System tine: not pa=_, and is NOI eligible for Cert:Iitata Of occupancy a:col'ir", to South, 10- 10310)3B, Pix pablem(l) led retest nntil the ...Grist Dose•, all portant: Of do, test bebre ele,re, and rel-ut antin, NBCA -I Ti03-A :o t" PASSED test to the enforcement agency. Describe bola, the failure mode Ond correct... a I needed. This is page 2 of 20 0 2. NA7.6.1.2.1 Functional Performance Testing - Continuous Dimming Systems: Power estimation using light meter measurement Complete a': tests on page 7 h 5 (Na Daylight Test. Fun Daylight Test and taiNal eayGgno Test) and illi wt Pass(Faa secmn re Pace x. 4HC! OPEK OpFICE nRCA 55: System Information a. Control Laap Type: Open Loop onClosed ioop> (O or C) b. Indicate If Mandatary central - M (required for sky!R 1—c or 10st son t wan .rith Installed general IloMing pnn'Cr > t20 W); M for Control Credit - CC; or Vebm ary not for credit -V (M, CC, V) - 2is tlla'111 t c. If ame".1i, dayll"d, contrals ora mandatery, are all general Irgn:ins I marna,as in day, zones controlled by outonevc daynghl Contralsi (Yes/No) 100 d. General hi,hINg design fnnlcardles. Oulf. footcandle (CQ sells, m "N' S unknown.) e. Poer estlma[Yon methad. (see Ilse q) Default rat5c of poser to light (Ofc), cut -sheer ratio of power to light (CSfc) If CSFs - sebeeL Ofc ach cut Ener Ofc ar CSfc attw Step 1: Identity Reference Location (location where minimum dayfa'M Illuminance is crea=_ured in acne Served by the cmumiNd panting.) C Method Used: Oluminence ar Dt_:ance? (I ar n) g. Highest light level f, - enter measured controlled e.rldc ligbtina fnotcendles (rc) h. Indicate "I"I"al vy, Is im I Output (FO), or Task Tuned (Lumen Mat [mance) (Ti) FO Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location I. Method used: N:gnt ttme manual-easllhhant (Mohr.:, Night -;me IIIumNana Logging (Loc), Coyer Fomes:radon (CF), Cover tJigtt Open Loop Photesenw,(COLP) ). Reference Hien nca (fugt,,doe) as measdred at Referenee Location see step 1). Enter tepmanmes 0 k. Enter Y if either or the fpllnwing stalerhada are true If lime h = TO, :'Refarchl, Illuminance (hh1))] / (Ful1(lulput in (tine g)j > 7094? er (Reference Illuminance (line ]) /,'design Metcandles (line tll] > &]§L? (Yes/Ne) 1. Oa}'liont illuminance (fight at with eiectfc Imutinq tumeF off) measured at Reference Lelattee In; m. Daylight illuminance (nne I) greater than Reference Illuminance (line L7 (1'es/run) Fill mit Horns o through t nnly if electric fiahtino is turned down or off. n. Total (daylight+ electr r'ug h:) Whirmanre measured at the Reference Location ft). c. Electric panting imminence at l,e Reference :.ncation (m) ((lin= W - (line I)]. p. Electric lighting illuminance (fine e) tlivided by Mishear Ught Level In (line g). Enter r, - 2is tlla'111 t q. Oimmed lemmata fraction gf rated poser. Attach monufaCorer's cvt-mcwt Df use default graph of rated power IN, rob, output Label apolicable control system en aI-sheat on graph. Ener taction of rated towel in .c. r, system Parer Reducthim = (1 - line e] 100 (line r) > 65°,n rrhm lice's = f0, m a _56% x'hsn Ile b = T (Yas/N.)lso MP,n on, no lamps dimmed outside Of daybt zone by co,mal (Tes1Na). This is page 3 of 20 I. Simmed tam's lave stable outpjt, ne perceptible flicker IYes,-No). v, Daylight Dimming pias OFF Ctotrn15 PAF (TNs portion of th, `rH daVllght talc applies tC I!ahtlna systems that are Claim'ng a PAE for day09ht dimming pias Of r Cantrols- Thed partion of the roll daylight test stall be conducted istead of steps 1, thru u.) Deas the system automatically loin OFF the luminai25 Croom fel: de YiRht is available' (Yes./Yo) Sten at Partial Davlinht Test cnnducfed when da ribi between 6001. and 950/. of (line i!. u v Op,hi kt Illumlr.ance (Iloht level v,R,.ut eiect6c light) measured at Reference local on fill. CL x. Oa)gigha illuminance divid,6 by the Reference Put,runence = (lice vv )/ "mon. Enter ".e. F--7 ' 181818141 3 y, 11 fl.b. of Daylight illuminance :o Ret, i111mma d, (line s) between 6C% and 95v:e' (yas/NdL Check if Tested Control is Representative OI Sample z. Total (daylight a- covert, fight) Illuminance mstarted at 1hr Reference Locanoo ((c) (CL): Enter yes (Y) if location = In Cur' -died Lnne (CL); mr,"ies, able, he (N). a. Total Illuminance divided by the Reference Illuminance . (line r )/ (line )), Enter fe. 1 139.3939393939344 W Is Total ilium i nonce divided by the Reference IIIUNnance (one be) bet.eon 1009u and 150N v (Yes(No). No far ah outer. PASS/FAIL Evaluation (check one): f PASS: All applicable Constroctlon Ir5pectlon responses are Complete old all sepol.Lle Functional Performance 11.5711, Requirements ....areas arc .,.Rive (Y -yes) r FAIL; Any applicable Construction 11spection responses are Inwmplete OR deers 1, end or mare ncostly, (V - no) responses In an, applicable Funetoaal Perfnrmaoce Testing Rio,c rements section. Systam does not pass and is NOT eliyible for Cerlirmate of Occupancy earpo g to Secron 10- 103(a)30. Fix aroblec.(=_` and mdctt oral The yvsivm(s`: passes all Eur ions of th s t. st before rdresting and asvbmit5ng NRCA LT: -03-A w!rb PASSED test to the'em'dement aaelcv. Dea"No bebw the calla1.. runs. ane corrective acU,n needed. 4801 OPEN WORK AREA CL 4801 OPEN IVORk AREA Plans Pace North, E3.0 Check if Tested Control is Representative OI Sample r Zone Type: 11,111 iSky), Priaar, Soo it (PS), or Secondary Sidelit (SS) Control Type: Cont!uddre Dimming vino more than 10 bcht levels (Q, Stepped DI^.minc (SO), SvnKhing (Sk`!) Desion Footcandles (Eater luutcanule, (tc) value or "U" if unkeen): A Cancnre and f nntrnie Control Loop Type: Open Loop (OL), Clsed Loop (CL) CL Sensor LoaPio.: Outside (0), Joel. Stylistic (IS), Rear Wordows facinv but Once), In Controlled Lone (CZj enser Ldcatan is Appropriate to Control Loop Type: (Ye=_/im) If imetml loop type 15 Open Loop (OL : Enter yes (Y) it location Outside (0), Inside Sk,hchc (iS), d.- Rear YfiCde.s fol!po out OIVI); vthe,,ite, Gale: no (N)- If Control :cup type -'a Clcsed Lovp (CL): Enter yes (Y) if location = In Cur' -died Lnne (CL); mr,"ies, able, he (N). Contra! AGIUStreare are In Appmprota Ldcstan (Yes/No): Yes. If Readily AccessuRn or You d In Ce!linc less than or equal to t! ft, No far ah outer. This is page 4 of 20 4. Has Documentation Been Provided by the Installer: Installation Manuals anti Calibration Instrnctious proviUed to Burring Owner: (Yesj Nol Lacatinn of Ltghl Sensor an Plans:(Ye<j Nn) LOCatlon Of Light Sensor on Plans: (Page Nembaq E3.o S. Separate Controls of Luminaires in Daylit Zones: Are lonlini Gres controllaa by automatic day$ shUrg controls Orly no daylit area: (1'es/110 Sepaez[ , circuited for daYtit teres by rsindows anE daylit =oats antler skyligM1['_: (F[s/.h) 6. Daylighting Control Device Certification Da,-1,1bg control has been Certinee In accomana wit' ry lo.g: (Yes; No) C.pWrrtlan Inspection PASSSAIL R all responses On Cmntractron Inspectloll pzges t & 2 are comp're[e aed all Yes/No questions have a Yes response, the tests PASS; If any responses Or the page are mcott leM OR there are a, NO re=_Ponses, the tests FAIL PA55/GAIL Evaluation (check one)t f PASS: If a'1 respons-s on Consttuc ion Inzpeetlon pages t 8 2 are complete and all Yes/No gvi tions 'nave a Yes (Y) response, the to,. PASS f FAIL: Any applicable Construction Inspection res,a.s.S are incmnplate OR there's one or mare negative (Y no) responses in any aanliCable Funs -lona) Porto,-ma.ecc Testing RequirarhsKf ,actino. 5y'slel does not pass apd :s NOT e10MA for Cerfiloz-A or Occupansy accnrd:ng to Se,dho 10- F '. emblem(=_) and retest until the syscem(s) passes all Viy1ioe5t of tKs fast before retesting and resubmia.ng NRCA-LTI-03-A -n'I:h PASSED tent re the eof srrrrerx ayenry. D,su be balnlu the fa:,,,o cri and <orrecnoa a:t Or. needed. This is page 5 of 20 I 2. NA7.6.1.2.1 Functional Performance Testing — Continuous Dimming Systems: Power estimation using light meter measurement Complete all tests on page 7 as (:Yo Daylight Test, Flat Daylight Test, and Per Had Dayl!g%Test) and fill lout PaatAFaii toldim an Page R. full OPEN 1109a AREA Svstem Information a, Conlan Loop Type: open Loop or closed Leap' TO er C,; )7 in. Indicate V Mandatory cnntml - M (mqulrea for sky!R zone or primary solei It zone with installed senate. 1191,tmg prover > 120 W); for control CcedR - Cl; or Valuate, not emcredit -V tM, CC, VI n c If amonuatic daynghti'ng contmle are mandatory, are all central lighting briumoes in dav:i: ±ones eartodled by automatic do""ht cantfols'(Tes; No) ;u 4;u93u4iu$18<2 C. General lighting design fosocandne. (Enter foatcon llo (FC) value, or J' it mkoahn.l e. Power esconglon rnettmd. (see Ilse q) Defaalt fate of power to light (Dfe), cm,he,r ratb of plover to IISht (CSfc) If CSR - attach cut -sheet. Enter Life or CSN Jfc step 1: identity Reference Location (location where mmimnm Eayligm Wuminance is measured In zone served by the controlled highrng.) L Methad used: flaminence a instance? ([ or o) Override daylight controls stem and drive electric lights to highest light level for the following: ¢ 4ighest IioLt lanai ft. - enter maa,r,Ad contfollea electric llatitina ioatcaneles (far h. "Thea" xhether this is FWI Output (-0), or Task Tuned (Lumen Maintenance) (TTI FD Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location I, Method Usedi Y!ght sums Thermal ^eaeun mint (Y'ghtl, Night -_me Illuminance togging (Lou), Cover renesnallon (CF), Cover Niga Open loop Phatasenmr (COLP; J. Reference illuminance Ifoc[candles) as measured At Reference Location (see Step 1). Enter felmandles k. EnttrY if either of ton all.,um, statements are tore: If -ins h - F0; (Referees Hour Pante idr,, j)' / ;Full Output fc (line ?o%i or faeforence Illum!aa lle (Imo )1' ) (design footcandles ('.ine d)I > 10%7 (ye<JNn) 1. Daylight illuminance (Albt'evolam, thecMc lantm, Nmee off) measufad at Reference Location (olf m. Daylight iilmomance (line 1) greater than Reterepcc lllun:ivance (Ione ))% (Yes/Ty,) Fill outlines o through t omv if electric linhtino is turned down nr nff. n. Total (daylight + eiectrc Ilgh:.)lHournall measured at :he potentiate Location (Iq. )7 a E!e Yric IlybEna illuminance at the Reference Location (fq [T!ne of - (line i)], p. Electric iiobiin9 illuminance Time a) divided by Inflect L!ght Level he (Ione o). Enter 9e. ;u 4;u93u4iu$18<2 I . Dimmed IominaL-e fraction of rated pmcac Attach ntamn.c urcr's aR-sheat m' use defauh graph of rated pouter to light omm, Label applicable control system on nit -sheat or creph. emir frecnou of rated power in .o. 1'. system Power Reduction - [t - line Q :9e .:e s --ter) Pmvar Rocu Rion (Sinn r) > og a lv.Iran ilat h = F0, or > son. whey !ins h - TT (Yes/No). L 1Yitb uncnntfolled lights alsn on, he Intens d'.named outslds of da,b-±one by control (Y's/N.I. This is page 6 of 20 u. Dimmca hops have stable output, no perceptible [linter (yes; No). v. Daylight Oimrning pi., OFF Controls PAF (This portion of the full dayligbt test applies to lighting systems that are !a pt ng a PAF far dellAht dimming plus OFF.:071h.ls' This Portion of the All daylight test shall be conducted io5tead of steps I. thn: i , Does the system auWmatically tare OFF the Iu^Iwires when Leh a all,111 is availabin4 (1'as/No) R+s,n A. Partial Oaarlirshf Timi rnndrtrYs,d tvhs,n davlinht hs,iws,s,n 500/ and 09o/ of flans, il- Yes v. Oayl!oht illum!arrIn (light level 111hare s'edrR I!yb$ meascrtd at Re`erence Leal:. (FC. 3� x. Daylight ilipminanco divided by the Reference Illuminance = (Nin. w it (line D. Enter 46. 5!Dfl1pat 'ns 1 Cflt 8 y. Is Ratio Of D"Ispht ill[minance to Re`. illuminance (lire x) between SOW, add OEM (Yes/No). c3.0 e. Total (daylight + electric light) ithophyancx ;....ureal e, the Reference Location (Fq. <� aa. Total ill—npance;hide; Sy the Rcrerenr=_ ulumfn.nm = (tine z ;/ ;line )L end=_r 1. W Is Total What trance tlivided by the Reference hmca,.ane. (line aa) between then, and 1501„t (Yes/ No). PASS/FAIL Evaluation (check one): PAs.: All applicable eanstrucOnn Inspection responses are complete anti ah apprca-^le Funnnonal Perfcraari Testing Regnirements responses are pasleve (Y -yes) FAIL: Any applicable Censtruchon h5pxctio, responses ale nvc mplete OR the, , one or Or, negahv, (Y - nej responses ,, any a .Brat. Functional Pel?o9nanre Tear! 1, Regoirements tactics. System does not pass and a NOT eligible for Certh hate of 0¢upanq accord, no to Section 10- 103(a)36. Eix arable.^15) and retest until the sye sa(±) passes all portions of th;1 test Snore rouse !ng and resutpart R, NBCA -LTi 03-A mith PASSED l ee't LO the briplenmeat agenry. Desr—S, Selo, Ilia (antra mode and Corrective schen needed. Zone Type: Skyllt (sky). Primary Sidaut (PS;, or Seconder, Siaelit (55) 55 Control Type: Confnu:c=_ Dimming with more than In Hart levels (q, Shrapnel Dimming lSD), SesiNart” (SW) Ecl Desitin Footandies: (Elder foOinanNe (frj value or "U" if unknown): Control Loop Type: Open Lnop (OL), Closed I red (CL) eL 4801 OPEN OFFICE AREA (SS) 4801 OPEN OFFICE AREA (55) Plans Paye Number c3.0 Check if Tested Control is Representative of Sample r Zone Type: Skyllt (sky). Primary Sidaut (PS;, or Seconder, Siaelit (55) 55 Control Type: Confnu:c=_ Dimming with more than In Hart levels (q, Shrapnel Dimming lSD), SesiNart” (SW) Ecl Desitin Footandies: (Elder foOinanNe (frj value or "U" if unknown): Control Loop Type: Open Lnop (OL), Closed I red (CL) eL Sepsor LOcahori Outsve, (0), Inside Stoplight (TS), Near Ulyclovs Panne out (%W), In Controlled Zone (CZ) CZ Senear LowtiO. is Appropriate to Central Loop Type: (Ye./No) If central loop type is Op' -n Loop (OL): Enter yes (Y) if bndtion = Outside (0). Inside Skyllabt (IS, or Plea, WiPd irrc fatlng Out (11L4); othartise, enter no (N). If Coetroi loop type is Gleed Loop (CL): Enter yes (y) If ocat!nn = In Controlled Zone (CZ); inherent, enter no (IV). Capital Ad,dalma-s are In Fppmprtibe I.1oiaa (fertile). yes, If Raadhy, fea,a flb:e or 1'es If In CCIOnG less than or aqua to I1. it, No for all otbef. This is page 7 of 20 4. Has Documentation Been Provided by the Installer: Inslnllation dleanais ona CnitprYtion Instinct oils provided to Bnllciog or,ner: (Yes/Nnl Location of lrgbt Sli— on Glans (Yes/No) Tfs Location of Light Sensor on Plans: (Page Numbed E3.J S. Separate Controls of Luminaires in Daylit Zones: Are IuminaRes controlad by outorealic Cay[ghUng Controls only in daylit tomes (yes/No) Sepdrat[iy elrcuiled (Or deylit Anne., Sy reirdo'xa Pill, Uaylil _ones Pill,, akyliglli5: (yes/Ne) 6. Daylighting Control Device Certification oayYghNng Control has beeo Earthed in arroma., Pilth ;1 10 ,9; (Yevrvo; CVnstruction Inspection PAS5!FAIL V all responses on Constriction Inspection n,a, : @ 2 are C—pl,tn pill, all Yes/No questions have a Yes response, the nests PASS; 1' any res9nnsrs rr this Jagr are nncotpplete OR ;n -re are any No re=_porsrs, s]e to_ts FAIL PASS/FAIL Evaluation (check one): r PASS: If ail resaonses on Coru-huttion fnspaRmn penes t F 2 are complete actl all'fes(ho quastions have a Yes (Y) resppnss the tests PASS r FAIL: A, appliaotle Conattudion Inspact e, responses are inC mplace OR there's one or more negative (N no) responses In any aepllcahle Fune,ional Per.o,-mence Testing Requirements -thin. System ices net pas ane is TTOT Efpi01B For CsrUPCa-s of Occupanry acc'ord:no in, SecGen ID- ID3(a)36. Fix Prohle:n(=_) and rete=_l until the syatem(s) passes dli VPT,orl of lhx td=_t >efnrc ;ste=tting and realibrPiIz r, NRCA-LT OJ -A v.il- PASSED I'll to the enforremcot agenq. Describe below the tamale mol,, an. Corrertive aCEnn needed. This is page 8 of 20 2. NA7.6.1.2.1 Functional Performance Testing - Continuous Dimming Systems: Power estimation using light meter measurement Complete as tests an page ] H b (Na Daylight Te54 Full Daylight Test, and Pat nal Oayl'gnt Test) and fill out Pass/Fail section on Page B. 4ROt OPEN OFFICE AREA (55) Svstem Information a. Control Logo Type: Open Lon, ar Closed Lao p] to ar C: b. Indicate c Mandatory Contra' - M (inquired, for sky.lt Lane or prally seder.[ irrl orlit Installed centra' fultlna prover > 120 Y1); for Control Credit - CC; or voluntary not for credit -V IN, Cc, vl f•1 c'. It automatic cyst dung coatrvol< a,a magdotery, are all general lighting Inmimuo,z Ln day%It sones constrained by automatic daylight centrals (Yea'lPa) u'. General lightmq spittle footcandles. (Ener r.mcandle (FC) value, at "Il' r 1man,) e. active, a .violas method. (see line q) Default ra, , of poorer be T'll, (Of", i t-sCeec ratio of power to light (CSfc) If CSFs Stash cut-shee6 En --a, DF, or CSfc Step 1: Roemary KererenCe Location (location nhem minimum may' chi illuminance is rntasersd in zone served by the mmranhal I potheg.1 C Methal .sem: Illuminance a, Oizfaace? (f 11 DI g. Highest light level be - enter restarted controller electric lighting iaatcandles (to) 35 In. I161,1,heron, :his re Nh Output (PO), or Task Tuned (Lumen Maintenance) (TT) FO Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location I. Method Used: -Vight time manual .^, easuremeot fadhO, Night Time Illuminance Logging (Loc), Cover Fenestration (CFI, Cover NIgE: Open Loop PFetesenso,(COLP) ). Reference Ihumluhh", (foreendlPe: as measured at Referen.e Location (see Step I). Enter footcandles I. I fe"f if either' or the p1 owing statements are. One: If ME to a PO; ;Rererencn Llum%gens, (:ins 03 (rail Output to (line q)j > JO%? ler jReftoome. Illumbwnce ❑the j)i I recision footicandies (iirm all > 605L? (Yes/No) Ste 3: Pull Daylight Test conducted when daylight i 150% of reference illuminance (line j) I. ou"I'ght "'ch Banca (held ravel with a:—Iii, U111.1-1 1.1.14 silty measured at Reference Locatiae If,; &3 m, Daylight Illuminance (l he 1) preeler then Refere o.p Illumbence pile p? (Yes/Ne) � n. Total (daybohT + mont,c light) illuminance measured at the Reference Locsi OC), � o. Electric Oohtlng ir'nonenc'e at the Reference Locafon Oc) ((lina n) - (line )). p. Electric iiohting ihwni lisle" (line a) dlvided by Higbcst Light Level to (iirm. g1. Enter %. 22.55]t4255]142.5 q. Dimmed luminaire Notation of rated poaac Attach manufacturers cuPstnet or use default graph of rated paler to light output Label applicable control system on cel sheet cr graph. Enter fraction of rated paver m eb. r. G,haru never Reduction = (1 line el 100 s. Is Systen We" ReducLmt (line y > 6Sis he, I'me h = TO. or > Ser,. when Iau, In = T (Yez(Nt) I. With un,antroncd lights also an, no lamps dimmed outside of daYllt sone by central (Yes/No). This is page 9 of 20 a. Dimmed lamps have stable outpatl no perceptible flicker (Yes, No). V, Daylight Dlmm:nc plus OFF Controls PAF (tri, portion of the vll dayiaht Last applies tc liuhting sysaems that are claming a PAT for dayi:gnt dimming crus OFF controls. 11115 portion of the `111 daybght test shall be conducted .nsteed of steps L otO, u.) Does One system automatically lura OFF the iumi:mires ehan fWi dayiii is awil.rie' (Ye=r No) son At Partial r)av0oht Tech ...rhicted when davlial hatwean 6001 and 950/ of fiine il- 0 w. Dby"lyht IIWmN,ance (light level ..Neu- noctric light! measured at Reference cession (TC). 2E x. Daylight !luminesce divides by the Reference Ifincinance = (line w p (Tine L. Corer, ce. �e,285�1-1205%la 9 y.ls ROb. of Daylight iltaminance to Ref. ihaminance (line x) between 6040 and 95iv3 (Yes/Na). OFFICE AREA Total (daylight a e Sctr:c fight) illuminance measiued at the Reference toration (R). e� a. later dlcmineace sewed by the Res,... Incra"en" = Nene s )/ pine 1), Enter °p. :Zfl.S]Ii205:tat 5 bh. Is Total ihumioance divided by the Raference ilW""ree (rine an) enween 100%u and 150"? (Yes/No). PASS/FAIL Evaluation (check ono): r PASS: All applicable Construction Inspects, respanses ora complete and all arpTl stale For,tlonal Perforaance Testing Requlr,onts responses are ...ai" (Y -yes) T FAIL: Any applicable construction Irapection responses are incomplete OR there Is one or mate recall, iV - be) responses in any apiili,bru Funeri atel Petiorntanae Testing Requireri sacllcn. System does not pass and !s NOT eligible for Connate o4 Occupancy aenrong to faction 30- 103e)3R. Fs moble:±(=_: and retest omit .be systsm(s) passes el', partioos of this Gist before -cAstino and usiberm:Pg NRCA{Ti-03-A aril] PASSED test to the enfprceme :t agenry. Descrbe 'laic. the fa: -e mode are ice O ctive act A, needed. 4802 OPEN OFFICE AREA CL Senear Laation: Outside (0), Inside Skylight (Is), Near L4:ndon's facmq out rNV/), In Controlled Zone (CZ) 4802 OPEN Sensor Location is Appropriate to Control Loop Type: (Yes/No) If control loop type Is Open but (OLI: firer yes (Y) If local, on OFFICE AREA Plant Pace Numbef F3.o Check :f Tested Centro. is Representative of Sample r Zore Type: Skylit (Sky), Pn:;dry Strait (PS), or Secondary AMlil (55) Control Type: Coal peace Dlmmin3 Orth more than 10 bcht lev'als (C), SL,^.ped Ly...mipg (SD). Sweching Ecl) Desire Footcandles: (Enter ioaL,Obble ('C) yalNo or "0" R unY,nown): 3. Sensors and Controls Control Lovp TYpe: open Lvop (OF, Closed t oop (CI) CL Senear Laation: Outside (0), Inside Skylight (Is), Near L4:ndon's facmq out rNV/), In Controlled Zone (CZ) CL Sensor Location is Appropriate to Control Loop Type: (Yes/No) If control loop type Is Open but (OLI: firer yes (Y) If local, on Outside (0), Inside Skylichc (IS), o- Noar MIdo.s facing out (NW); sh,rAye, anter no (N). If Coetra!'.up type -5 Clesad Lou, (CL): Cater yes (Y) it ocation = In Cantered Zone (CZ): otherwise, enter no (N). Cii Ad)astments are ir Appfopnate LocaFon (YosMo): Yes. If Regally Acces=_ib'.0 or yes :f In CaMer, less teen or egml to 11 it, No lar an ather. This is page 10 of 20 CERTIFICATEOFACCEFTAVCE NRCA-Ltlu3-A is BaygrLtigeC®ool P jmfNeme SPEC 511RE4N00 Enfo¢ement Aga,cy: CITY OF NEWFORTBEACH Acnnf N—bPr ](2019](2019,B4701A4] Rog" --x: 51N10 B1RCH 5TRRT Ciry:TTaTC)RTBPACH ryCnlr:yin l 4. Has Documentation Been Provided by the Installer: Installotion dlanualz and Co Motion Instruclons Provided to Barring Omen (Yes/No) Location of Light Sins.¢ to Marc: (YP,/NcJ YCs Location of Light Senso- an Plans: (Page Monfort E3.0 S. Separate Controls of Luminaires in Da lit Zones; Are IumLnaires con:ralled by automatic dayfeh6na controls only In daYaL zones: (Yas(No) Saparate'ry--,oled for daGlit :onez by windows and daylil -arra indder skylights: (Yes!Nc) 6. Dayli hting Control Device Certification Day'igntinl cant -al has been cerUHec in accordance with §110.9: (Yes{No: Con5Vuction Inipec[ioo PASSIFAIL If all re5pansa5 an Ccnstru.Onn Inspection pages I & 2 are c—pioL. and all Tes(No qu�stbns have o Yrs rinoto e, the tests PASS If any respfor," nc IMs cage arr mrnmplco. OR there are any No re,on5C5, too 185[5 FAIL PASS/FAIL Evaluaboo {Check one); r PASS: If of responses on CensVa,b.R Inspettmn pages t & 2 are cmnpl5le .,it all'fes/Na gces[lons have a Yes (Y) response Ih' tests PASS r FAIL: Any applicable Constmctlun lr,a Ctlar responses are incompleCe OR {here's gne or more cegative (N no) lol,o9es in any aaplkable Farlional Performanc T,,,UL, Requ rchicl s' section. Syste?} cats not pas and NOT cnoiloc for CerOfcas of Ottapanq aczording to Sedroo If - 103(a)30. Flx prohlcn(=_) and [tied until Ibe sysam(s) passes M. po't'ions of fh.=_ 1x51 befnfe'e[c=_tino and 1c fubno(WR9 NRCA-LTI-03-A with PASSFO lost to :he enforcnno,t agency. Oescfiba baff,, the ra:mo mode .,.it aorrecevC actin, needed. This is page 11 of 20 2. NA7.6.1.2.1 Functional Performance Testing — Continuous Dimming Systems: Power estimation using light meter measurement Complete d; W, Is op all 7 & 6 (No 0111ight Test, Fill Daylight Test, and Partial Oayl;oM Test) dna fi'J out pass; Fail feeder; on Page B. nxoz OPEN OfFi CE ares Svstem Information a. control Loop Type; open Loop or closed Loop7 to or C) U. Indicate if Mandatory nmol: -. (requLea for skyut zone or primary sa cit Lone with Installed 5ener3i lighting power s 120 Yq; pl for Control Credit - CC; a, voluntary not far creme -V (M, Ce, V) ;9,494A99919J9i' 4 c it automat], daylignnng is ntrEv are mandatery, are au general lighting I+miroilay is d'at zones controlled by aotomatm drid,fiC controls? (Yes(No) t 0U I. General lighting nailer footcandles. (Enter footcandle (FC) value, or J' T unknown.) e. Power exlmatlon method. (see tire qi Default race of polder to light (Ofcl, cut-rteer ratio of pourer to fight (CSfc) If Csrc attach pet-eheet Enter Dfc be CSfc Step 1: Identify Reference Location location where minimum a,,t.ht Hinan naoce is measu-ed m .one served by the cnntmued lighten..) L Mathna uses: Illuminance .r Dis[za<ez (tor D) g. Nlghest light level fc - enter hi-1,,ea controHeo electric bghbgg tootezntles Jr) 36 h. Indicate -heNer [nk is Full Outpxt (FO), or Task Tuned (Lbmen Mzi:Itenance) (TTI Fo Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location 1. Method ifad: Night tone manual measurement (Mght), Nlght Time Ulumlleare I..glop (Loy), Cover Fenescr.tion (CF), Cover Nigh: OPan L.op Pbotpsens.l( COLP) j. Reference illuminance Troucandles) as measared at Reference Location (see Step 1). Enter footcandles 34 k. Unter t' If either of the folle.ing statements are erne If Me h - FO; (Reference Blum inance (',ire j)7! iFull Output ft (line g)j > 7— or (Reference Illuminance aline ;ll / ]_design tookenales (:ire d)j a 509rui (Yea/N.:) Step 3: Full Daylight Test conducted when daylight > 150% of reference illuminance (line ]i L Daylight illuminance (light level wi0h e—b— ligating turned city measured at Reterence Locabnn (to) 68 M, Daylight illuminance (line I) greater that Reference Illumiwnce (lice j)? (1es/N.1 Fill out lines o throuoh t only if electric liahtino is turned down or off. n. total (dayrghr t d".L Ilght) IIH,mmanre m..asurad at he Reference recall., (al. o. Electric 149hong IIlLoorance at the Reference Lscanch M,) ((fine n) - (line I)J. p. Electric ! lobting Illuminance (lint o) divided by Highest Lignf Level is (line,). Face, 4'e. ;9,494A99919J9i' 4 q. Dlmmea IurtA,aL-e Ta'da' of rated pose, attach manufatu ar's cut -sheet or ase default graph of rated power to halt uutput, Label apoh.ble control system oo nit -sheet or ....1, Enter bec[loo of rated power an yt, r. System Porver REductay - IT - fine gf t 0U ..e 5y=tern P.... Reduction (line f) , 65% vihnn :me h - Fo, or, v 56111, when line In + TT (Yes/Yo). I, With unreatrollea lights also Ory no letups dimmed autslde of dayllt are by control (yes/Nn). IST_ This is page 12 of 20 u. D:mmed [anus have stable Pripet, no perceptible flicker (Yesi No). v. Dayl'rgbt Dimming pros OFF Controls PAF (This IAIGen of Ihe'rAl daIitopt tell applies to ItghtliP systems that are cia an ag a pay fm da}-0:aht umming plus OFF cont -15. This partlon of the `rll daylight test shall be conducted :ostiad of steps 1. thre o.) Does the system automat cally tum OFF the iuminain, when till dayight is ava1a'ole? ;fes; No) Genn 4t Cavtial nodulinhe Tact rnndi reFvl when dnWili hetween finwn and pil of [line ii_ Yes W. Daylight illuminance iIbml level witneut ePaCP c 1191t) measured at R.ym-rce LecaUrn (fl;. 29 x. DCyliSht illuminance divided by the Reterere, IOuminaf— — (line w )/ (:inn Jj. Enter %. fio.555555555555 E y. Is Ratio of Day Onht i0[minance to Ref. illuminance (line x) between 6Col, and 951,b? (Yesleed. C3 z. Total (dayliobt . 11.111.1 lieln) illwrlinance neasered at the Reference Location (nd, Open Loop (OL): Enter yes (Y) if soma n Pa. Total illuminance divided toy it.,. Rcfereoce Illumirence = (line z )/ (line 1}, Error I r 19A4444444444JV IS. Is Total Men ieacce divided by the ReSuarCe id,inerme (line aa) between 100% and 1501/:t (Yes/No). PASSIFAIL Evaluation (check one): r PASS: All aoplicable Construction IYFPIC inn respons=es are cumulate and all aeplicanle F.Addn d Performance Testing R=_anlrem.nls responses are positive (Y -yes) r FAIL: Any npplreahle Construction Inspection responses ore Incomplete OR the- in one or mare negative ( V A.) 11.11cr ses n', any aeplleable Functional Performance Testing float harm nt5 Section. S5'ste'n does not pass and r5 NOT eligible for Certificate of Occupancy acceroun to Section 10- 103(1)36 Fix Pro oen'Mand retest until toe syrtem(s) p portions f thin felt "delete t sting and ralunum Cinif Douro LT: -03 it with PASSED Lest to th, 111f m nt a9enµ. D,,,;UC lefew Me 71;11 mode Pon ca :et a a,8ou n..Wetl 4803 OPEN OFFICE AREA Plans Pace Atli Check it Tested eortrol 15 Representative of Sample 4803 OPEN OFFICE AREA E3.G r 2. System Information Zone Type: Skylit (Sk,L Pnteary SeMit (PSI, At Secardary SiddD (5S) PS Cmtml TyreContinuous Doti 'Din mom than IO light levels (C), Stepped Dimming (50), Switching (SW) Design Footcandles: (Enter fouteencle (c) value or V- if unknown): 1 Gnncnrx and rnntrnfc Comse. Leo, Type: Cleo Loop (DL), Closed Lam, (CL; CL Sensor Locatin, Outside (0), brown SP.yllght (15), frac W Ind.,, farm, out few), In Cmttrolled Zone (CZ) C3 Sensor Location is Appropriate to Cantml Loop Type: (Yes /No) If mrtml loop type is Open Loop (OL): Enter yes (Y) if soma n Outside (0), Inside S"liSh; (t5), os Near Window facing out fol emerni enter no (N). If Canttm'.Pop type is Closed Lamp (CU: Enter yes (Y) If iawiimn = In Controlled Zane (,CZj; othemns, enter C (N)_ Curtis Adjustments are m 1ppfopritte'C'et An (YeSMO). Ycs, If Readily Arce_sibie If Yes .f in Ceilmg less than of area to 13 It, No far all other. Has This is page 13 of 20 CERTIFICATE- OFACCEFIAVCE NBGA-L'nn3-A Amomulic ILvli¢b�c Camml Parks( Nems SPEC SBRE450 CITY OF NEWPORT BEACH PmvitNmn1v X2014Uf4] 1i Addrty5: Sale BIRCH STRiifi'f City:NFVVP1RT BRACH ryQdv: TM1fi11 Instal:afion Manra!s and Caabra5on InstmcCbns Provided to Building Olerir: (Yes s No) Lrcalion of Lighr Sen=_o: on Plans: (Yes/Nr) Yds Locatnir of Light Sdnsor on Plans: (Page Numbeq E3.o S. Separate Controls of Luminaires in Daylit Zones: Are luminsiraa toatrplled by aptomeNc doyllghting controls only' in daylit zones: (Yes/No) Separaf.^iv circuited for daYlit [ones by velndows and daylit [Pass undar skylights: (YcsiNa) 6. Daylighting Control Device Certification Deylighting coptral has been certified in ar'Cordanoa vgtb §110.9: 1Yesi No) ConstrocOdn Inspection PASS!FAIL. Ir all respontts on Construction inspection pages 1 Z 2 am c,p:ete and all Yes/Ito goenions have a Yes response, sl-; teats PASS: If any responses Pn this rage are Incemptete OR tb^_re are any No responses, the tells FAIL PASS/FAIL Evaluation (check one): f PASS: If Al rasprns an ConstrvcNon Inspecflor. page> 1 5 2 are complete and all Yes/No gre56ms have a Yes (Y) response, fl, tests PASS r FA[L Any applicable Construction Inspection res,,hrr, ore incamplete OP. there ._ ane or mom re,ativ, f N -not responses In any aapli<able Fnaan,"al Petformanca Tawns irs",bmepta sa<tien. System does not pass and is NOT aligNid (er CerNI,te of 0¢apan, atcnrdfng m SecHnn 10� 1C3(d)3E. Ere prn}lem(51 and (step an t1,e system(5) passes a0 pre ian5 of tb"5 [est before ram,,unq and resubmit; ny NRCA-ITI-03-A ivith PASSED lest M the enforcement anency. De=cYbe 0elmv the 1:4a,Amode ant. mrreclWa acf:nn needad. This is page 14 of 20 2. NA7.6.1.2.1 Functional Performance Testing - Continuous Dimming Systems: Power estimation using light meter measurement Cmwplete ail tests an aaoa ) & 8 (No Dry II.,h,I Tact, Fug Daylight Test, and P a I ItoI Daylight Test) and lilt not Pass,'FaiI section nn Paye S. 4803 OPEN OF'F ICE AV,EA System Infnrmatinn a. Control Lora Type: Open Loop or Clased Loop? to or C; >4 I . Indicate If Mendntory Cmlhm , FI :required for shylit zone or primary side.it zcne with installed 9anGrdl highboy, porceh > 12O PI); M for Conant Credit - CC; O: V I,.Iary nct, a- credit -V (M, CC, F9 -.5=.8518518518 2 C. If automatic dd,r,y ttng controls are mandatory, or, all general lighOno lom_naires m Jayli: zones coatrellad by automatic daylight controls? (Yss!No) IDD d General Hplitma desian footcandles. (Enter footcandle (FC) vain, or 'U'if unknown.) e. Power es:lmatlon method. (feet Ilse qi Default rata of power to light (INQ, cut -sleet ratio of power to etch', (Csfc) If CSFs .[tarn ent,hi, et. enter City, or Csfc Step 1: Ldentlty Reference Location (location where minimum Cayt:IAL i1;dminance is measured in zone served t, the centrolled lighting.) L Method Used. I'iluminance Of Distance? (I or D) D Override daylight control system and drive electric lights to highest light level for the following! , Highest light level Fc - enter measured coot -11. eRcb¢ Rayon¢ foOdsodles (fel h, indicate whether this, roil Output ('O), or Task Tuned (Lumen Maintenance! (TT) FO Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location 1. Manna Llsed. Mght rdis manual rwe,..ement (Nlgbt), Night Time Illuminance Logama (Logi. Cover fenesratlnn jCF), C.— Night OPen LOOP Photoccnsor(COLP) C Reference Illuminance boctaBpoles) as measured at Reference Location (see Ste, 1). Enter footcandles k. Enter Y if either of the fallowing stttementa are true: R line h - FD; ';Referonce Iilmnipance (line IST ! ;Full o."a fc (line g)I v ?096? Or Refcrenre Illuminance (line;)) ((Design fecleandles (rine oil a fin45i (Yes/Na) I. Daylight illuminance (hoot level with a:yetrtc liaiding tome. of F) measured at P,eference Location (is) 69 on. Ve, ight iJuminanea (line Il 9rta[er that 0.efL,b,,,e 111—:inane (line 1l? ters, Nu) :111 out lines n thrnuoh If only if eler ric liohtina is turned down nr oi. n. i..I (da1h1ht + C citKc hobo eiuminanca measnrea at the Reform,, location (fir). >4 0. EieehiC liohtina illominared at the Reterence Location Cr,) ((line n) - (line :)j. p. Electric IiabGng illuminance (line of divided by HigheFf Light Level fr (lire a). Enter °i. -.5=.8518518518 2 P. Dimmer luminaire fraction Of rated Prover. Attach man'.ifacYnar's rot -sheet or use default graph of rated power t0 light dudht Label spollcable control system o,, cut -shot or graph. Enter traction of rated their .e. r. System Paver Reduction = 11 - line Q IDD 5.:5 5y tbl Pr'aer Reeurtbn (line r) v 65w frh,, one N = FO, or , 5641 ceh. lire h - TT L With uncontrolled lights also An, no lamps dimmed ruLslde of davlC pone by control (Yes./No). This is page 15 of 20 u. Dimmed lamps have stable output, no perceptible flicker (yesftlo). V. Daylight Dimming plus OFF Controls PAF (This Portion of the full daylight test applies Is lighting systems tat are cla:mmo a PAP for daylight dimming p,us OrF crrtrole, This portion of the ill daylight test shall be conducted Lutead of steps I. thru u.) Does the system automatically turn OFF the luminaires when ful aay:ipht is avoilame? (Yes) Np) of (line 1). w. Daylight iRuminapce (light level without e•.ectr:c light) measuRd dt fleretence LacaCon (fc;. 4803 OPEN OFFICE AREA (55) z. Da511yh[ illuminance divide. by the Reference fill Ilinared = (line'yy )/ ('doe D. Enter 1. fifl.888888888888 9 y. Is Ratio d` Dayllnht Mo rannaoa to Re , illuminance (line x) between 60% and 9S°H? (Yas/No). r z. ToUI (daylight F ef.,W, fight) illuminance :neesured at We Refemnce Linchpin (f.), 39 a. IDtal dlumindnce divided by thn Reference Illuminance = (line z j/ nine C. Eche "'o. t4-4 154444.19-14y 9` bb. Is Total 1l luminance divided by .he Reference i:lu^,mance (line aa) between 100% and lboV c (Yes: No). PASS/FAIL Evaluation (check one): r PASS: All applicable Construction Inspecloo: responses are complete and Off applicable FunctienEl Performance Testing Requirements responses are pesltive (Y - mss) r FAIL: Any appkcable Coottrum in Inspection responses are Incecolote OR the, !s cute or conte negative IN no) responses rut any a^_ahcable Functional Pei`Pmance Testing kegoirements sxhinn. System does not pass and 's NOT eIi,iblA for Certif:,cate of o[<u Ca..Y accufdino to Section IC - 103(8)36. Fix arodlt.^(s) and retest until the system(s) passes aL portions of t1V5 test ]afore 'etesting and nesWmittlig NACA'LTi-03-A with PASSED test to me enrorpemeat ngencY. Describe oetm. the foliar,, mode one correctlyc adtep m:eded. 4803 OPEN OFFICE AREA (SS) 4803 OPEN OFFICE AREA (55) Plans Payn Nusber F3Ch Check If Tested Control is Representative of Sample r 2. System Information Zone Type: Skylil (Sky), Primary Simist (PS, or Secondap' Sidelit (SS) 55 Capitol Tyoa: Camillo -I Dlmming whh mole than 10 light Ievek; (C). Stepped Di.^ming (So), SORCNog SV) Deslyn Footcandles: (Enter footcandle (m) value or "W if ullknmwn): 3. Scncnre, and Enntvnlc Contra''. Lane, Type: open Loop (OL), Closed I Ann (CL) CL Sensoc Locatlon: Cutslfe (0), Inmed Skybgh: (IS), Near V4 nal (acini out (NlV), In Controlled Zene (C) CZ Serepr Locatbn is A,, -,Bate to Contra) Lou, Type: (Yeyfin) If control loop type is Open Loup (OLD Enter yes (F) It location Outside (0), taste.. Skylight (IS). of Near Wiedp., (agog out (N W ); opher: ,, trier no lN). If Coctro: loop type is Closed Loop (CQ: Error yes (Y) if iocatinn = In Car:tmlled Zeno (�C rtherwisp, enter no (N). Contra Aclottmenls are In Appnptlate Locat.en (Yasi No): Yes, If Readily Accesslbie or Yes :f In Cellon, less than or tguai to 11. It, Do far all other. This is page 16 of 20 CERTIFICATEOFACCEPThVCE nRCA-I.Tln3-A mlxa'eas®gConwl P Jett Name: SPEC SBITE48110 Fnfortement Agency. CITY OF NEWPORT BPACH Prn�d ao M019U34] Prvjc1Addris: 50IMBIRCHSfRAET iry: TTiWP(1RT BRACH .ry CnJ�-M.M1fiO 4. Has Documentation Been Provided by the Installer: Installation Manuals and Calibration InstraLtRos Provided to BWlcing O'ad, (Yes/Na) Location of Light Sees, on Plant: (Yacplc) Location of Light Sensor on Plans: (Page Mrstsep F E3.0 S. Separate Controls of Luminaires in Daylit Zones: Are Iuminares controlled by automatic dayfchUng controls only In daylitzones: (Yesi ND) separately clrculled for daYlil Sy-.tiindf,, and d,,RL _ones under skylights: (Yes/N.) 6. Daylighting Control Device Certification ooylighang contrm has been'ertiNId In acrnrdance with ;119.9: (Yes; No; Construction Inspettien P-0SS: FAIL. I:` a0 ruspcpses un Cons[raCUon Inspection pages i & Z are comp2tu and all Y,/Nd questions have a Yes response, the Mfrs PASS; If any resannsss nc this pate are incomplete OR dere are any No responses, Lbo mstT. FAIL PASS/FAIL Evaluation (check one): r PASS: If a9 r asset, on C.aslocnon Ireipsetad p igas t & 2 are camplete and ail Y=s(No quastlans have a Yea (Y) responss, the tests PASS r FAIL: Any applicable Construction In"astia4 'asponses are incomplete OR Loam is cone or more cugative (N - d)responses in any applicable Foresdltal Perrormanc2 Testing Requireme'Li z.Und, SYslem down adt pass and d NOT eligible for CPrtiGca[e of Occupancy according to Section I0- 103(a)3B. Fix problem(.) and retest nmil the system(') passes a8 y raod, of are rant before retesuat and « subAoWnt NRCA-LT!-03-A with PASSED ,.at to the eeforcmad,t ageocv. Oesn'ibe below the rsto'd footle and corrective actor. neater. This is page 17 of 20 2. NA7.6.1.2.1 Functional Performance Testing - Continuous Dimming Systems: Power estimation using light meter measurement Crimp! a ail !ears on page 7 h 5 (Yn Daylight Test, RJI Daylight Test, and Partial Dayl:yht Test) and fill net Pass; Fail section on Page 8. an0? 011 OFFICE AREA (SS1 Svstem Information a. Control Loop Type: Open Loop or Closed LoopP (O or C) ]� b. Indicate If Mandatory Call - M (required for skyill lone or primary sldcif wind -vith Instalfcd Others: lighting power > VO of for Control Credit - CC: or Veluntarg not Por Cled:t-V IF, CC, V) ! 9,55?[a2R5?f �'.. 5 C. If arrow":, daylighUng eanb'als are mandatary, ate all general IfIvvilg luminaire. In daylia zones emrtr fieri be automaEt daylight cnntmis'(Yesr Ho) d, General lighppg design hotcandles. (Intel rmtcandle (FC) vaLre, at "W 1f unknmvn,) O e. I— es:ImaC,a, oal (sea Ime q) D=faull Faro of power Ca light (Did, cuPshaet tato of poorer Co Till (CS(,) If CSFs - Ofc 71 a:[acb cut -sheet. Enter of, Or CSfe step 1: Identity Reterence Location (location where fnmimum dayI ght iliun:inance is maafs-ed in zone served by the cgntrolled 1:gnfing.; L Method Used: Iuummance. or Distance? (I or D) Override daylight controls stem and drive electric lights to highest light level for the following: g. Highest light level fc - enter measured Controller, electric lighting tlorrindles (fc) 28 h. olelf to .:he[her Utis is Fuil Oul (50), or Task Tuned (Lumen ftzi,atanance) ITT) FO L Method Used: ?Dight time manual ^.easurer-Ol (•Y.ghf% Night- ire llluminance Loaginy (Lot), Cover Fenes..'ll (Clj. Cover NigCi Open Loop PeOtosenso• (GOLF) J. Reterence Illeminalce (footcandles) as mees::red at Leraranr a Location (see Step 1), Enter fddeC , la, 20 I, Enter Y If either at the following tela rlr, db a2 are, If file h it FO; 1Referanya lilum:naree (zine IF] I MAI Output IF (line 9)1 > DOW? or (Reference Illuminance (line I)j I [desiyn footcandles (une d)l > 0040? (yes/Nn) 1. Daylight nluminance (light zeval uvith areal Vg Yong fumed of) meesured at Reference Locatirr or; IT. Daylight Illuminance (line I) greater Ihan Reference Illuminande (line j)? (Yes; No) till ru Ft lines to through t nnly if eferirir linhtinn I. 6lrned df l ho, off 0. Total (daylight + elil iwh-) illuminance measured at the Reference Oil (R). ]� o. Electric lighting I raninance at th=_ Rererance Locaoan ([c) ((!int no - (line z)). p. Illea re lighting llluminance (lids o) divided 0y Highest Light Level fir (line g). Enter `,- ! 9,55?[a2R5?f �'.. 5 Or Dimmed IUMnave fraction of rated pon'er. All manufaeumr's cut -sheet or use default graph of rated pourer to light output Label applicable control system on cut -tepee! or graph. Enter taction of rated pdwe m at. I. Syetem Rover Reduction - (1 - .r s C) . Is Else, Power Redaction (IF'. r) +85' al zine t = PQ n > c8µ:, when Ilne IF = T (111Mn). O I. With uncontrolled lights also ad, ne lamps d—ad oulmde of fayh: ?one by control (Yes/No). This is page 18 of 20 li�nivpCmoa Enforcement AV"M CITY OF NEW WKI oma•• 1 TBP.ACfI 1 Y�e: BEEa9 RrtT ' v, p'm5000 B ;metl IamPs Pave sta0le ovtG'ue, na Percept dicker v4F far tla'/1�9nt tllmmin9 Pius OL cm[rals. v. PaYll9ht Dimm�n9 plus OFF ConV01s Prl Iles m nahtln9 sYs:ems th'_t aro'aim:u a 1 M1C test shall be coctucceU ins[eatl of zC'_Ps L [M1re u.; (TNs Portion of [ha "uIl Gay114Ft test app I'll Pardon oY tta `uIl CaY �9 pL is avpilaale% (Test No; wrr. oFF n,e Imrlinmres wnh mu eay.i9 etween 66% and Gine j)• I IL' pges mE arstam aacomaucauy ed ,then da light b s li ht Test conduct >tep 4: Pattial Da 9 eat Fefereece. tncanon (lel. w'. OaYll4ht IllumlcanecAroon• el'O'la Ilghqmeaav11 99�205I 4295" 14 9 Enter °a. EE�� ferxnce tliurttinanre = Sline w )LE pb; 111'aminvnoE diviGUehveen Dlyli9M1t Illum. illuminance9ht * elect6eance measured at eke Raferene'^n<e (Ilumrnance = (line'_ i/ina^.ce tlrelCen 1°antl L O' (YiIt"Atnce UiFeterence (lum[nanca (Ilse aa) Ualwx FPASSIFAIL Evaluation tcheak one}: a licaale Funcnanal Performance Testing RE9wrements responses arc ll aaPllcaole ConctrucClan in5pectlaoare complte and a a `to Sadion iu- t (� tot f P y I-,mmo1 of Oc p n ntlOT Y Ole fo llLT "i U 5! p ele5! 9 tl s-ahrRt' g M1RCA-l03 A rvit'C PPSSEC nY aVPllcaalx cansauci an rE ,t 5 fbes al'. Pe !'ons .f [K !Pxdmman.e Tesnn9 Fx9wraeECetla n the enfo:cxment agency. DeSarihE aglow the —� '['his is page 19 of 10 YV �e.l'Iw A¢.y:a c.0.um. Rahpa:. ra.,u.�n_c.m1:v Cumyeif 4an. :rvn.�.aJ flnL: c.lrc 9ou•ne+.o. �ep✓-_mf tv:'q�a lase..a:e.: C1tY TkN:FIt T:=Nos 1.3n:A. iVsi;Y 4yi Y..an_ (3!f.�113 555: ntl roast a..v oaam s3 aw.o- � asmrem3 J sU FlcSl cert n:Uen S9nzLL-m I IIt:eU5i9n.-.o:I i Gr .neo i.w.o sses m- _Y5 stow .0 S�Ne - n ai Feel. cm nnati,er, . s.,:.e„1+.._.....o s,:la uc--•mus munrsrec_. -I•w ;ESPONSIBLE PE"OPo SId- ul p het U > e.a5wl F✓ > U Uhl 1 R . .0 C Ga 7 � ery5 GnvFeE Y� ( 1 i M N C U IU F.h t U_ _c c. . aec)oral •Gp_�pe:nxauso s.. ' rtaM a_q .. -v p .v - ✓panwU E^rtr:4 V.. .M1espans.nlc 4c.eNe�avers:+Mat'e x Ir -a •... •••. CJ1- Nwf.Ca. Atc'rt6'. 13:)iA.RiSi1N 4Y'e' Zlp Cetle 52E:) C [ n IN nora.o..5zlu vmVanY L'Uy us:.cU.�: izl:_i� .._ • Rerpon ue.. M.z-�.e�sn..5 x This is page 20 of 20