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Home My WebLink AboutX2017-2255 - Misc (2)City of Newport Beach Special Inspector Manual Project Address: Permit Number: Inspection Type (s). Inspection Date (s): x2017-zz55 3000 Coasf taw, W CITY OF NEWPORT BEACH COMMUNITY DEVELOPMENT DEPARTMENT BUILDING DIVISION 100 Civic Center Drive I P.O. Box 1768 1 Newport Beach, CA 92658 www.newoortbeachca.aov 1 (949) 644-3200 SPECIAL INSPECTION REPORT 3000 W. Pacific coast HWY New Port Beach Ca, 92663 X2017-2250 Structural steel weldina ( ) Periodic (X) Continuous of (E) BEAMS, On going installation of new steel. embeds onto (E) concrete columns and beams Total Inspection Time Each Day: Date .Mon 07-09-18 Tus 07-10 18 Wen 07-11-18 ,Thu 07-12-18 Fri 07-13-18 ....... .............................................. ........ Moms 8 g g 8 8 List All ttems Requiring Correction (Indude Previously Usted Uncorrected Items): ........ LdjQms..N.ot per..plan_and are NOR -.COMPLIANT ......... ......... ........... To the best of my knowledge, the work inspected was in accordance with the Building Division approved design drawings, specifications an tl applicable workmanship provisions of the U.B.C. except as noted above. S, ed IIn ,Ii.nReP.A 11-F�5TFri. 07-13-2018 V v� 67 City of Newport Beach Special Inspector Manual Project Address: Permit Number: Inspection Type Inspection Date CITY OF NEWPORT BEACH COMMUNITY DEVELOPMENT DEPARTMENT BUILDING DIVISION 100 Civic Center Drive I P.O. Box 1768 1 Newport Beach, CA 92658 www.newoortbeachca.00v 1(949)644-3200 SPECIAL INSPECTION Final Project Report on which I Based upon my personal observation and written reports of this work, it is my judgment that the inspected work was performed, to the best of my knowledge, in accordance with the approved plans, specifications, and the applicable workmanship provisions of the Uniformed Building Code. Date: Report of Special Inspection X2011-9155 3000 C4154 lawy I / Project Name & Address Sterling BMW, & 3000 W. Coast hwy Permit Number X2017-2255 Inspection Type(s) RIC Inspection Date(s) 6 11 18 Periodic WIConfinuous Describe Inspection Made, including locations: Observed the installation of epoxy dowels into existing concrete using Simpson xp epoxy, expiration 2019. Verified the hole depths and proper cleaning with a nylon brush and compressed air prior to epoxy. Schedule on sheet S2.1 of the appr. plan. Locations: 1) Anchor Bolts for new column Lines AA/B1.8 detail 51.5/7 Note#1 = (1) 3/4" Threaded Rod with min 12" embed. Mason's were observed for proper low lift procedures and techniques. Also observed the placement and consolidation of grout. Location: 1st FI. Elv Mech. Rm Walls With (1st two courses only) (1) grout box made. Observed reinforcing steel for size, grade, lap, location and clearance per schedule and details of the approved plan. Note# 11 on sheet S2.1 Location: 1st Floor 8" Elv. Mech Room CMU Walls (1st two courses only) 1) With #5's Vert @ 16" o.c and #5's Horz @ 16" o.c, with (1) added #5 @ corners, end of walls and openings. Work is complete for the areas listed. List Tests Made Total Inspection Time Each Day: Date Hours List Items Requiring Correction, Include Uncorrected Items Previously Listed: To the best of my knowledge, the work inspected was in accordance with the Building Department approved design drawings, specifications and applicable workmanship provisions of the IBC except as noted above. V. 6-11-18 PrintFQNamg: Jon Newsom Re2iftratlonNn NB -0303 FOWSI-K,1014 Report of Special Inspection Project Name & Address Sterling BMW, & 3000 W. Coast hwy Permit Number X2017-2255 Inspection Type(s) R/C Inspection Date(s) 6-5-18 y eriodic Describe Inspection Made, including locations: Observed the installation of epoxy dowels into existing concrete using Simpson xp epoxy, expiration 2019. Verified the hole depths and proper cleaning with a nylon brush and compressed air prior to epoxy. Schedule on sheet S2.1 per approved plan. Work is complete for the areas listed. Locations: 1) Grade Beam Line A1.1 Btwn lines AA - AD, Detail S3.1 / 10 A) (3) #6's @ top and Bot with 8" min. embedment. (7 Places) 2) New to existing slab on grade, Various locations A) #4's @ 16" o.c with min. 4" embedment. 3) Col / Ftg Conn Detail 57.3.1 / 9 = (3) #5's Top & Bot with 8" emb Lines B1 / BD 4) Slab to Wall Conn. Line B from lines BA.8 - BF with #4's @ 16" o.c 5) Elevator Pit Conc Wall to Masonry Wall conn. with #5's @ 16" o.c Horz with 4" emb. 6) Col Base Plate @ Lines 61/BE Detail S1.5/7with (2) 3/4" rods with min 12" emb Work is complete for the areas listed. List Tests Made Total Inspection Time Each Day: Date Hours List Items Requiring Correction, Include Uncorrected Items Previously Listed: To the best of my knowledge, the work inspected was in accordance with the Building Department approved design drawings, specifications and applicable workmanship provisions of the IBC except as noted above. , 6-5-18 Print FXN,y c, Jon Newsom Reeistration No NB -0303 FORM sr.az, 2014 e*'WIP0 c94FonNsP Report of Special Inspection Project Name &Address Sterling BMW, & 3000 W. Coast hwy Permit Number X2017-2255 Inspection Type(s) R/C Inspection Date(s) 6 6 18 I (Periodic WiCominuous Describe Inspection Made, including locations: Epoxy/ Rebar Observed the installation of epoxy dowels into existing concrete using Simpson xp epoxy, expiration 2019. Verified the hole depths and proper cleaning with a nylon brush and compressed air prior to epoxy. Schedule on sheet S2.1 of the approved plan. Locations: 1) GB Retrofit Detail S3.1A 0 = #6's top & Bot with min. 8" embed. A) Lines AA/A2.5 @ stairs and lines BE1/B1 2) slab dowels north side of GB with #4's @ 16" and min. 6" embed. 3) Anchor Bolts for new columns typical detail S4.1/2 at lines A1.1/AD and A1.1/AC with six 1" A.Bolts per base plate and min. 1'-9" embed. and (2) Bolts @ line A1.1/AB Observed reinforcing steel for size, grade, lap, location and clearance per schedule and details of the approved plan. Location: 1) GB @ Line A1.1 Btwn lines AA thru AD with #6's T & Bot and ties @ 8" and 12" o.c 2) Elevator Pit Walls with #4's horz @ 12" o.c and #5's Vert. and #5's Vert @ 16" o.c mason Work is complete for the areas listed. List Tests Total Inspection Time Each Day: List Items Requiring Correction, Include Uncorrected Items Previously Listed: To the best of my knowledge, the work inspected was in accordance with the Building Department approved design drawings, specifications and applicable workmanship provisions of the IDC except as noted above. Q; A. izrn 6-6-18 Printullame: Oen Newsom Registration No. NB -0303 rnamsi�2,W1a Report of Special Inspection Project Name&Address Sterling BMW, & 3000 W. Coast hwy Permit Number X2017-2255 Inspection Type(s) R/C Inspection Date( 6-4-18 RPeriodic Describe Inspection Made, including locations: Concrete Observed the placement and consolidation of approximately 9 cubic yards of 4500psi concrete mix# R8450T31 supplied by Robertson's. With one set of (4) test cylinders made. Location: 1) Elevator Pit slab on grade. Work is complete for the areas listed. List Tests Total Inspection Time Each Day: Date Hours List Items Requiring Correction, Include Uncorrected Items Previously Listed.- To isted To the best of my knowledge, the work inspected was in accordance with the Building Department approved design drawings, specifications and applicable workmanship provisions of the IDC except as noted above. Print Full Nan(, / Jon Am. NB -0303 FORM S14Q, 2014 Report of Special Inspection Project Name & Address Sterling BMW, & 3000 W. Coast hwy Permit Number X2017-2255 Inspection Type(s) R/C Inspection Dates) 5 31-18 �eriodicContinuous Describe Inspection Made, including locations: Epoxy Observed the installation of epoxy dowels per schedule and details on the approved plan using Simpson xp, expiration 2019. Verified the hole depths and proper cleaning with nylon brush and compressed air prior to epoxy. Locations: 1) Elevator Pit (Slab) Detail S3.1 /1 = #4's Top & Bot 12" o.c with min. 8" emb. 2) Slab on grade Detail S1.3/13 = #4's @ 16" o.c, 2'-6" with min. 6" emb. A) Line B2 Btwn lines BA.8 - BE B) Line BA.8 Btwn lines B1 - B2 Work is complete for the areas listed. List Tests Made Total Inspection Time Each Day: List Items Requiring Correction, Include Uncorrected Items Previously Listed: To the best of my knowledge, the work inspected was in accordance with the Building Department approved design drawings, specifications and applicable workmanship provisions of the IBC except as noted above. I 5-31-18 Print F/,dI Nome: Jon Newsom R, .k".t;. W. NB -0303 FORM 9402, 2014 SME C13 () uj - (4 / — s -j 6a - L - # &W I ( )Pwftft 67 t 9 E U Q U O nC.4x o� W O W Z W K W 2 N $ I W &§ "Od .2 |� DICK NIGRA INSPECTIONS, INC. 4735 Oakado Place La Canada, CA 91011 xzan-x55 3000 0651 14wy V Phone (818) 957-2759 Fax (818) 957-2885 Cell (818) 326-4291 REGISTERED INSPECTOR'S DAILY REPORT Date Fri. 07-13-2018 TYPEOF INSPECTION REQUIRED ❑ Reinforced concrete J Structural Steel Assembly ❑ Gunite ❑ Post Tensioned Concrete 0 Welding ❑ Epoxy ❑ Reinforced Masonry ❑ Spray -Applied Fireproofing ❑ Other Job Address 3000 W. Pacific coast Hwy Newport Beach Ca, CItyNewport beach Job Name Sterling BMW image upgrade Permit No X2017-2255 Issued By Newport beach Type of Structure Existing I story building Architect ATH Material Description (type, grade, source) ASTM A36 angle, plates Engineer Jeff Chen Contractor KS CONSTRUCTION Inspector(s) Name RUDY DUARTE Subcontractor CAPITAL STEEL FABRICATORS TEST PERFORMED TYPEOFSAMPLE SLUMP OUANTRYINSET ADDITIONAL REMARKS ON SAMPLES Welder: Julian Martin LA City LIC. #P030008 Exp 09-21-2019 Filler Metal: Lincoln NR -232 072 E71T-8 (DCEP) INSPECTION SUMMARY On site as requested checked in with job superintendent David Lyons. Checked city approved plans, details , steel Steel surface ,steel type, welding equipment ,welders certifications, filler metal, weld type , weld location, weld profile Weld size and all completed weld. Observed (FCAW) of new L 3X4X3/8 ledge angle and stiff plate onto existing Beams with 1/4+ fillets & PL 1/2X7 continues plate onto bottom flange of existing beams work per detail 5&6/S1.5.2 On going installation of 3/4 all thread A307 galvanize bolts onto existing concrete columns and beams with 6" embedment And new 3/4 and 1/2 embedment plats for new canopy connections using hilti HIT-HY 200-R (ICC ESR 3187) Work per detail 2/S3.1.1 in progress. NON-COMPLIANT IDIOMS See attached pictures All work is subject for approval from structural engineer and all governing agencies . All inspections per D1.1 Table 6.1 for visual acceptance criteria V cn I InUAr IV ry Ur UUNIrl1ANUIE I HEREBY CERTIFY THAT I HAV PECTED TOTHE BEST OF MY KNOWLEDGEALLOF THE ABOVE REPORTED WORK U LE 0TH RWISE I HAVE F UND THIS WORK TO COMPLY WITH THE APPRO NS, ECIFI AT N , AND ICABLE SECTIONS OF THE GOVERNING BUILDIN S. S113NATURED GISTERED INSPECTOR SSW NB -0670 City of Newport Bea SPECIALTY NUMBER AGENCY PAGE OF TIME IN TIME OUT I REG. HOURS I O.T. HOURS SAMPLES 7:OOAM 3:30PM 1 8 All inspections based on a minimum of 4 hoVandover4hours-8hourminimum. Approved D IF j `(n 'e:_� roject Supervise Llavid Lyons Superintendent XXI-1-2755 3000 Coast Nwy W Grimm & Chen Structural Engineering, Inc STRUCTURAL OBSERVATION REPORT Project Sterling BMW Date of Observation May 31, 2018 Newport Beach, CA Project No. 16-079 Date of Report May 31, 2018 Participants Osvaldo Sales (Grimm & Chen) Report No. 1 David Lyons (Kunzik and Sara) Structural Observer Osvaldo Salas Construction Stacie Observations / Deficiencies Notes Foundation Elements Reviewed: Reviewed elevator pit mat -slab reinforcement and elevator pit walls dowel reinforcement. NO DEFICIENCIES OBSERVED. Cc: G&C file 17500 Redhill, Suite 240 • Irvine • California • 92614 • Tel 949.250.3150 • Fax 949.203.0450 Grimm & Chen Structural Engineering, Inc Project Sterling BMW Newport Beach, CA Project No. 16-079 Participants Osvaldo Sales (Grimm & Chen) David Lyons (K&S) Date of Observation June 6 . 2018 Date of Report Report No. June 7, 2018 2 Structural Observer Osvaldo Salas Construction Stage Observations / Deficiencies Notes Foundation Elements Reviewed: Momennt frame grade beam steel reinforcement, moment frame anchor bolts, pad footing reinforcement, epoxy dowels to slab, cmu dowels at elevator pit. The moment frame column base plate located at gridline AC, Al.1 was offset from centerline of existing grade beam. Please refer to sketch SK -2 for field repair sketch. The post that occurs at gridline intersection B1, BEI needed to supported on a new pad footing since the existing grade beam is offset from existing wall and does not allow for full bearing surface. Please refer to sketch SK -1 for proposed repair solution. The above repair recommendations per details SKI and SK2 were observed to have been addressed on 6/7/2018. NO DEFICIENCIES OBSERVED. Cc: G&C file 17500 Redhill, Suite 240 . Irvine . California a 92614 . Te[ 949.250.3150 . Fax 949.203.0450 jI Op x2ot712z55 GEOTECHNICAL: 3000 60a5l'.14Wy PROFESSIONALS INC - J PAGE' OF DAILY FIELD SUMMARY ''t GPI PROJ. NO. ?_RESP G pROJ. NAME 1 ,Y �i E RATE 1 WEATHER FILL LOCATION/PURPOSE Ofd r 2 foo I i & h bo 14 ra p" S REQUIRED COMPACTION j ® EQUIPMENT USED Ya hrz�' blAwlee SOURCE OF FILL: ONSITE IMPORT SOIL TYPE(S) I j%4 sa 0 DEPTH OF FILL/BACKFILL GENERAL SUMMARY OF OBSERVATIONS— �0.I rmY7�? re7un fel L, o "">Prve fubt 1, (A LtA1 a8 ,i 4 i"'In oo 41io n.46 A,,rp 64yi Gt 1� A ')' "T6 41rm =moi ho"fft.,AL el W J frt 5 ec AREA OF BY FOR: GEOTI FORMS/F-7(8/88) x20174g55 9000 Cori{ �Jwy IA/ Christian Brothers Mechanical Svcs, Inc. License: 499547 11140 Thurston Lane Mira Loma, CA 91752 Phone: 951 361-2247 Fax: 951 361-1581 km Sterling BMW 3000 West Coast HWY Newport Beach CA 92663 JOB NUMBER: 298318 DATE: 04/01/2019 Christian Brothers Mechanical Svcs, Inc. 11140 Thurston Lane Mira Loma, CA 91752 951361-2247 Fax: 951361-1581 License: 499547 To: Kunzik & Sara Const., Inc. 1699 La Costa Meadows Dr. Suite 102 San Marcos CA 92078 Attn: Ron Specification Section Submittal Submittal#: Submittal Date: Prepared By: 011 04/01/2019 Bryan Lemons Project: 298318 Sterling BMW 3000 West Coast HWY Newport Beach CA 92663 Contract#: 2355 TAB Item Description Action Required Specification Paragraph # 001 Test and Air Balance Report Contractor: Christian Brothers Mechanical Svcs, Inc. ❑ Approved ❑ Approved with corrections as noted on submittal data and/or attached sheet (s). Signature: Title: Date: Please sign and date this form as proof that you are in receipt of the above listed items. Return form to Christian Brothers Mechanical Svcs, Inc. Signed: Date: py....y✓� f M1 Job Address: .> %G-}!.� 4,g,/C::-�' (� �'ct—t � �-( Lasa ; G=%G ' ��^'�s? i 1 Job Number: Y 1 Technician: _. l I,{ i g ie X- Mech. Contractor e Date: 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 ENVIROMRNTAL SYSTEMS, ANY VARIANCES FRON DESIGN QUANTITIES, WHICH EXCEED NRBR TOLERANCES, ARE NOTED IN THE TEST - ADJUST - BALANCE REPORT PRO.TFr. r RTTMMAu V �ME WIRA 11 VA Oil ' '�� ''�� Fan Number: Location �P Service lltzA Manufacturer f g},t ,. Model Number i 42 R Q Serial Number Z64Ck1 Classification Motor Make/Frame Motor HP (WI/RPM Volts/Phase/Hertz z V F.L. Amps/$.F. Motor Sheave Make Motor Sheave Diam./ Sore Fan Sheave Make Fan Sheave Diamd Bore No. Belts/Make/Size Sheave & Distance READINGS BY: . .. READINGS BY: Fan Number. Air— Location Service Is Manufacturer Model Number Serial Number C-1 Classification Motor Make/Frame Motor HP (W)/RPM t Volts/Phase/Hertz 12-10 Motor Sheave Make Motor Sheave Diam./ Bore Fan Sheave Make Fan Sheave Diam./ Bore No. Belts/Make/Size Sheave & Distance SUCTION SP NOTE: Fan Number: Ll Location Service Manufacturer Model Number (2 m 6 ALS br, Ap Serial Number iA I?, /"I q 1� � I Classification Motor Make/Frame Motor HP (W)/RPM Volts/Phase/Hertz 3419 Fl. Amps/S.F. Motor Sheave Make Motor Sheave Diam.1 Bore Fan Sheave Make ,Fan Sheave Diam f Bore No. Belts/Make/Size ISheave & DistanGe Klmolor'10CIAM2 NOTE: M.MT-WIlom WaTm®rm MOM P Ire an ut Klmolor'10CIAM2 NOTE: M.MT-WIlom Fan Number: C— Location :';Outside . Service Manufacturer G e1— Model Number C 12 Al VIC Serial Number klC» `� Classification Motor Make/Frame Motor HP (W)/RPM Volts/Phase/Hertz 2"AP F.L. Amps/S.F. Motor Sheave Make Motor Sheave Diam./ Bore Fan Sheave Make Fan Sheave Diamd Bore No. Belts/Make/Size Sheave & Distance TEs -F DATA :';Outside . ►�.�� M •Will • L74� a Fan Number: r�trr� Outside Atr—CFM f • • 1 ! iii . �g�� • , • Y s11 J IIIIIIIIIIIIII�■.�� Volts/Phase/Hertz um Wo—tor Sheave Diarn./ Bore fan Sheave_■�. !Fan Sheave Diam.1 Bore a No. ♦� `. Distance �� MUT Outside Atr—CFM f • NOTE: Fan Number:- Location Service T SP, Manufacturer Model Number - Serial Number Q L8 F3r0a5 Classification Motor Make/Frame Motor HP (W)/RPM Volts/Phase/Hertz 2 F.L. Am s/S.F. Motor Sheave Make Motor Sheave Diam./ Sore Fan Sheave Make Fan Sheave Dlam./ Bore No. Belts/Make/Size Sheave & Distance SUCTION SP DISCHARGE SP ( Fan Number: Location t� lr�E " Service=e- l r -L6- t Manufacturer 0 2 Model Number Serial Number zI19 l aY90 Classification Motor Make/Frame Motor HP (W)/RPM Volts/Phase/Hertz 2 4 40 F.L. Amps/S.F. Motor Sheave Make Motor Sheave Diam./ Bore Fan Sheave Make Fan Sheave Dam./ Bore No. Belts/Make/Size Sheave & Distance : 4W AAA r f� X11 AM s 1111.1"MrALCMM NOTE: . .f Fan Number: MEMO Location Service Qko-L,\c- Manufacturer Model Number Serial Number lk Classification Motor Make/Frame Motor HIP (W)/RPM Volts/Phase/Hertz OV F.L. Amps/S.F. 112 Motor Sheave Make Motor Sheave Diarn./ Bore Fan Sheave Make Fan Sheave Diam-1 Bore No. Belts/Make/Size qhonup A niqt;;nr.p SUCTION SP DISCHARGE SIP NOTE: READINGS BY: MEMO outside Air CFM I win :4Zvi A SUCTION SP DISCHARGE SIP NOTE: READINGS BY: Fan Number: Location Service Manufacturer U Model MllmhAr Serial Number Classification Motor Make/Frame Motor HP (W)/RPM Volts/Phase/Hertz F.L. Amps/S,F . ...... Motor Sheave Make Motor Sheave Yam./ Bore Fan Sheave Make Fan Sheave Diam./ Bore No. Belts/Make/Size DISCHARGE SP MMA Tan Number: :Outside Air CIF M Location Service Manufacturer !A DeracieTVUM Model Number Serial Number ke Classification Motor Make/Frame Motor HIP (W)/RPM Volts/Phase/Hertz F.L. Amps/S.F. Motor Sheave Make Motor Sheave Diam./ Bore Fan Sheave Make Fan Sheave Diam-1 Bore No. Belts/Make/Size Sheave $� Distance NOTE: :Outside Air CIF M !A DeracieTVUM :VSD Amp _�ating NOTE: Fan Number: Location p - Service rt Manufacturer (4, ModelNumber d. Serial Number `;'ig, Classification Motor MakelFrame Motor HP (W)/RPM Volts/Phase/Hertz ^ t! d F.L. Amps/S.F. Motor Sheave Make Motor Sheave Diam./ Bore Fan Sheave Make Fan Sheave Diam./ Bore No. Belts/Make/Size Shaave P Distance I:;Outside Air CFMTan RPM NONA READINGS BY: OF X.2011 - AUTOMATIC DAYLIGHTING CONTROL ACCEPTANCE DOCUMENT 3(XO Coa$} Enforcement Agency Use: Checked by/Date Check boxes for all pages of this NRCA-LTI-03-A completed and included in this submittal NRCA-LTI-03-A Page 1&2 Construction Inspection, This page required for all submittals. 13 NRCA-LTI-03-A Page 3&4 Continuous dimming control functional performance test — watt -meter or amp -meter measurement NRCA-LTI-03-A Page 5&6 Stepped Switching/ Stepped Dimming functional performance test—watt-meter or amp -meter measurement 13 NRCA-LTI-03-A Page 7&8 Continuous dimmingcontrol functional performance test — light meter power measurement, and default look -up table of fraction of rated power versus fraction of rated light output. O N & 10 A-LTI-03-A Page Stepped Switching/ Stepped Dimming functional performance test — based on light output C Design Footcandles: (Enter footcandle (fc) value or "U" If unknown): 1. NA7.6.1.1 Construction Inspection: 1. Drawing of Daylit Zone(s) 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 Name and Page #'s Light Control 6 Add Control Systems below. If sampling method is used in accordance with NA7.6.1.2, If adding, attach a page with names of other controls in sample (only for buildings with > 5 daylight control systems, sample group glazing same orientation) Might This is page I of 7 ought Plans Page Number Check if Tested Control is Representative of Sample r 2. System Information Zone Type: Skylit (Sky), Primary Sidelit (PS), or Secondary Sidelit (SS) PS Control Type: Continuous Dimming with more than 10 light levels (C), Stepped Dimming (SD), Switching (SW) C Design Footcandles: (Enter footcandle (fc) value or "U" If unknown): 3. Sensors and Controls Control Loop Type: Open Loop (OL), Closed Loop (CL) CL Sensor Location: Outside (0), Inside Skylight (IS), Near Windows facing out (NW), In Controlled Zone (CZ) CZ Sensor Location is Appropriate to Control Loop Type: (Yes/No) If control loop type is Open Loop (OL): Enter yes (Y) if location = Outside (0), Inside Skylight (IS), or Near Windows facing out (NW); otherwise, enter no (N). If Control loop type is Closed Loop (CL): Enter yes (Y) if location = In Controlled Zone (CZ); otherwise, enter no (N). Yes Control Adjustments are in Appropriate Location (Yes/No): Yes, If Readily Accessible or Yes if in Ceiling less than or equal to 11 ft, Yes This is page I of 7 OFACCEPTANCE "o wi du omen. 4. Has Documentation Been Provided by the Installer: Installation Manuals and Calibration Instructions Provided to Building Owner: (Yes/No) Yes Location of Light Sensor on Plans: (Yes/No) Yes Location of Light Sensor on Plans: (Page Number) 5. Separate Controls of Luminaires in Daylit Zones: Are luminaires controlled by automatic daylighting controls only in daylit zones: (Yes/No) Yes Separately circuited for day l it zones by windows and day l it zones under skylights: (Yes/No) Yes 6. Daylighting Control Device Certification Daylighting control has been certified In accordance with §110.9: (Yes/No) Yes Construction Inspection PASS/FAIL. If all responses on Construction Inspection pages 1 & 2 are complete and all Yes/No questions Pass have a Yes response, the tests PASS; If any responses on this page are incomplete OR there are any No responses, the tests FAIL PASS/FAIL Evaluation (check one): r PASS: if all responses on Construction Inspection pages 1 Is 2 are complete and all Yes/No questions have a Yes (Y) response, the tests PASS FAIL: Any applicable Construction Inspection responses are incomplete OR there is one or more negative IN - no) responses in any applicable Functional Performance Testing Requirements section. System does not pass and is NOT eligible for Certificate of Occupancy according to Section 10- 103(a)3B. Fix problem(s) and retest until the system(s) passes all portions of this test before retesting and resubmitting NRCA-LTI-03-A with PASSED test to the enforcement agency. Desai be below the failure mode and corrective action needed. This is page 2 of 7 92663 2. NA7.6.1.2.1 Functional Performance Testing - Continuous Dimming Systems: Power estimation using amp -meter measurement, or alternate option - watt -meter measurement Complete all tests on page 3 & 4 (No Daylight Test, Full Daylight Test, and Partial Daylight Test) and fill out Pass/Fail section on Page 4. nLight System Information a. Control Loop Type: Open Loop or Closed Loop? (0 or C) 365 b. Indicate if Mandatory control - M (required for skylit zone or primary sidelit zone with installed general lighting power > 120 W); for Control Credit - CC; or Voluntary -V (M, CC, V) F0 I I+I c. If automatic daylighting controls are mandatory, are all general lighting luminaires in daylit zones controlled by automatic daylight controls? (Yes/No) Ves d. General lighting design footcandles. (Enter footcandle (fc) value or "U" if Unknown) No e. Power estimation method. Measured Amps Multiplied by Volts, Volt -Amps (VA), alternate option is Measured Watts (W) 1044 Step 1: Identify Reference Location (location where minimum daylight illuminance is measured in zone served by the controlled lighting.) f. Method Used; Illuminance. or Distance? (I or D) Override daylight control system and drive electric lights to highest light level for the followina: g. Highest light level fc: Enter measured footcandles (fc) from controlled electric lighting (does not Include daylight illuminance) h. Full load Highest light level power: Enter measured Amps times Volts, Volt -Amps (VA) or measured Watts (W). 044 II. Indicate whether this is Full Output (FO), or Task Tuned (Lumen Maintenance) (TT) pp I Step 2: No Daylight Test controls enabled & davliaht less than 1 fc at reference location j. Method Used: Night time manual measurement (Night), Night Time Illuminance Logging (Log), Cover Fenestration (CF), Cover COLP Open Loop Photosensor(COLP) k. Reference Illuminance (footcandles) as measured at Reference Location (see Step 1). Enter footcandles I. Enter Y if either of the following statements are true: [Reference Illuminance (line k)] /[Highest light level fc (line g)] > 70% Yes when line i = FO or [Reference Illuminance (line k)] / [design footcandles ((me d)] > 80%? (Yes/No) Step 3: Full Daylight Test conducted when daylight > 150% of reference illuminance (line kl M. Enter measured Amps Multiplied by Volts, Volt -Amps (VA) or measured Watts (W). 365 n. System power reduction enter [3 - (line m)/(line h)], Enter %. 65.038314176245 2 o. Is System Power Reduction (line n) > 55% when line i = F0, or > 56% when line 1 = TT (Yes/No) yes P. With uncontrolled lights also on, no lamps are dimmed outside of daylit zone by same control mechanism or formula (Yes/No) No q. Dimmed lamps have stable output (no perceptible visual flicker) (Yes/No) Yes r. Daylight Dimming plus OFF Controls PAF (This portion of the full daylight test applies to lighting systems that are claiming a PAF for daylight dimming plus OFF controls. This portion of the full daylight test shall be conducted instead of steps m. Him q.) Does the system automatically turn OFF the luminaires when full daylight Is available? (Yes/No) Step 4: Partial Daylight Test conducted when daylight between 60% and 95% of (line k9 s. Daylight illuminance (ilght level without electric light) measured at Reference Location (fc) I� This is page 3 of 7 TE OF �"odect Name: Sterling BMW HEnforeement Aeencv'. CITY OF NEWPORT RPACH I t. Daylight Illuminance divided by the Reference Illuminance = (line s )/ (line k). Enter %. 60 u. Is Ratio of Daylight illuminance to Ref. illuminance (line I) between 60% and 95%? (Yes/No) Yes v. Total (daylight + electric light) illuminance measured at the Reference Location (fc) w. Total illuminance divided by the Reference Illuminance = (line v )/ (line k), Enter %. 100 x. Is Total illuminance divided by the Reference illuminance (line w) between 100% and 150%? (Yes/No) Yes iS/FAIL Evaluation (check one): PASS: All applicable Construction Inspection responses are complete and all applicable Functional Performance Testing Requirements responses are positive (Y - yes) FAIL: Any applicable Construction Inspection responses are Incomplete OR there is one or more negative (N - no) responses in any applicable Functional Performance Testing Requirements section. System does not pass and is NOT eligible for Certificate of Occupancy according to Section 10- 103(a)38. Fix probieorl and retest until the system(s) passes all portions of this test before retesting and resubmitting NRCA-LTI-03-A with PASSED test to the enforcement agency. Describe below the failure mode and corrective action needed. This is page 4 of 7 2. NA7.6.1.2.2 Functional Performance Testing — Stepped Switching/ Stepped Dimming Systems Power estimation based on light output: Complete all tests (No Daylight Test, Full Daylight Test, and Partial Daylight Test) and fill out Pass/Fail section. n Light 1. Svstem Information a. Control Loop Type: open Loop or Closed Loop? (0 or C) b. Indicate if Mandatory control - M (required for skylit zone or primary sleight zone with installed general lighting power > 120 W); for Control Credit- CC; or Voluntary not for credit -V (M, CC, V) C. If automatic daylighting controls are mandatory, are all general lighting luminaires in daylit zones controlled by automatic daylight controls? (Yes/No) d. Power estimation method. Counting (C) - not allowed for step dimming, Counting plus Cut Sheet (C+CS) attach ballast cut sheet with steps of power and light. JLC ➢ 1: 8Ueffillry Kererence Location (location where minimum daylight Illuminance is measured in zone served by the controlled lighting.) e. Method Used: Illuminance or Distance? (I or D) Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location I. Method Used: Night time manual measurement (Night), Night Time Illuminance Logging (Log), attach a plot of fc or power, Cover Fenestration (CF), Cover Photosensor (CP) g. Reference Illuminance (footcandles) measured at Reference Location h. Indicate whether this is Full Output (FO), or Task Tuned (Lumen Maintenance) (TT) Step 3: Full Davliaht Test conducted when davliaht > ISDO/h of raforenep illnmfnanro /lino n1 i. Fraction system wattage turned off. j. Fraction of system wattage dimmed. k. Step dimming level as a fraction of rated light output If applicable. I. Dimmed ballast fraction of rated power from cut -sheet. T. System Power Reduction = [i - (line j)*(line U]. n. Is System Power Reduction (line m) > 65% when line i - FO or 156% when line i = TT (Yes/No). o. With uncontrolled lights also on, no lamps controlled outside of daylit zone (Yes/No). p. Dimmed lamps have stable output, no perceptible visual flicker (Yes/No). q. Daylight Dimming plus OFF Controls PAF (This portion of the full daylight test applies to lighting systems that are claiming a PAF for daylight dimming plus OFF controls. This portion of the full daylight test shall be conducted instead of steps I. thru p.) Does the system automatically turn OFF the luminaires when full daylight is available? (Yes/No) 16vp -r. 1..1611.1 v.yuyna i so r. Method Used: Light Logging (Log), Partially Cover Fenestration (PCF), Open Loop Setpoint Adjustment (OLSA). s. If the control has three steps of control or less, all steps of control are tested. If the control has more than three steps, testing three steps of control is sufficient for showing compliance. Tests have been conducted at various daylight levels that correspond to steps of electric lighting control. (Yes/No) This is page 5 of 7 BMW rlrst stage of control t. Total (daylight + electric light) illuminance measured at the Reference Location (foot-candles) when stage turns off or dims u. Is the measured total Illuminance between 100% and 150% of the Reference Illuminance (line g)? (Yes/No) v. With time delay disabled, control stage does not cycle (i.e. deadband is sufficient)? (Yes/No) Second Stage of Control w. Total (daylight + electric light) illuminance measured at the Reference Location (foot-candles) when stage turns off or dims x. Is the measured total illuminance between 100% and 150% of the Reference Illuminance (line g)? (Yes/No) y. With time delay disabled, control stage does not cycle (i.e. deadband is sufficient)? (Yes/No) Third Stage of Control z. Total (daylight + electric light) Illuminance measured at the Reference Location (foot-candles) when stage turns off or dims aa. Is the measured total illuminance between 100% and 150% of the Reference Illuminance (line g)? (Yes/No) bb. With time delay disabled, control stage does not cycle (i.e. deadband is sufficient)? (Yes/No) Ste 5: Time Delay Test (conduct at least 60 minutes after overriding time delay) cc. After change of state from little daylight to full daylight, time in minutes before light output is reduced dd. Is the measured time delay (line cc) greater than or equal to 3 minutes? (Yes/No) Estimated Time to Complete Acceptance Testing: Hours: Minutes: PASS/FAIL Evaluation (check orl PASS: All applicable Construction Inspection responses are complete and all applicable Functional Performance Testing Requirements responses are positive (Y - yes) FAIL: Any applicable Construction Inspection responses are incomplete OR there is one or more negative (N - no) responses in any applicable Functional Performance Testing Requirements section. System does not pass and Is NOT eligible for Certificate of Occupancy according to Section 10- 1O3(a)3B. Fix problem(s) and retest until the system(s) passes all portions of this test before retesting and resubmitting NRCA-LTI-03-A with PASSED test to the enforcement agency. Describe below the failure mode and corrective action needed. This is page 6 of 7 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT I certify that this Certificate of Acceptance documentation Is accurate and complete. Oommeatatlon Author Dante Pon M Company Name yers, lr. PpM Electric, Inc. Address Zip Code CEA/ATT Certlfleatiun IdionfiCaNOn(If applicable) Date of Signature: City Phone Aetna, Signature FIELD TECHNICIAN'S DECLARATION STATEMENT I certify the following antler penalty of perjury, under the laws of the Stale of Cahfnrnix 1. The Information provided on this Certificate of Acceptance is true antl correct 2.l am the person who performed the acceptance verification reported on this Certificate of Acceptance (Field Technician), 3. The construction or installaton Identified on this Certificate of Acceptance complies with the applicable acceptance requirements Indicated in the plans and speclfwtlons approved by the enforcement agenry, and conforms to the appllcable acceptance requirements and procedures specified in Reference Nonresidential Appendix NAT 4.I have confirmed that the Certlficate(s) of Installation for the construction or installation identified on this Certlflcate of Acceptance has been completed and siyned by the responsible bullyho-Anstaller and hes been posted or made available with the building permlt(s) issued for the building. Field Technldma Name Paul Company Name Myers, to Profit Electric, Inc. Address rbity Minorco 33964 Veena Aveqve Zip Cotle Phone 92563 (760)715-4260 ATT Certification Identif Caton TIC A217207 Position with Company (Title) Owner I Technician Signature Date of Signature: C2/15/2019 RESPONSIBLE RESPONSIBLE PERSON'S DECLARATION STATEMENT I certlfy 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 of my agent and t have reviewed the Information provided on this Certificate of Acceptance. 2. lam eligible under Division 3 of the Business and Professions Code In the applicable cl-wh atlon to accept responsibility for the system design, construction or installation of features, materials, components, or manufactured devices for the scope of wort Identified on this Certlflcate of Acceptance and attest to the declarations In this statement (responsible acceptance person). 3. The information provided on this Certlflcate of Acceptance substantiates that the construction or Installation Identified on 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 speaFlM in Reference Nonresidential Appendix NA2. 4. I have confirmed that the Certiflcate(s) of installation for the construction or installation Identified ml this Certificate of Acceptance has been Compt ed and is posted or made available with the building permlt(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 pencips) Issued for the building, and made available to the enforcement agency Mr 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 building owner at ottupanry. Responsible Acceptance Person Name Pam nyers, a. Company Name POM Electric, Inc. Address: City 33964 Verbena Ave Mwtiela Zip Cotle Phone 92563 (760)715-42II0 CSLB License Position with Company (Title) asgyoz owner Responsible Acceptance Person Signature Date of Signature: 02/15/2019 This is page 7 of 7 x201]-2255 3000 Enforcement Agency Use: Checked by/Date LIGHTING CONTROL ACCEPTANCE DOCUMENT Automatic Shut-off Controls: Automatic Time Switch Control and Occupant Sensor Intent: Lights are turned off or set to a lower level when not needed per Section 110.9(a) & 130.1(c). A. Construction Inspection Fill out Section A to cover spaces 1 through 3 that are functionally tested under Section B. Instruments needed to perform tests include, but are not limited to: hand-held amperage meter, power meter, or light meter 1: Automatic Time Switch Controls Construction Inspection—confirm for all listed in Section B a. All automatic time switch controls are programmed for (check all): F7 Weekdays Pr Weekend 17 Holidays b. Document for the owner automatic time switch programming (check all): r Weekday settings Pr Weekend settings 17 Holidays settings Fir Set-up settings W Preference program setting P Verify the correct time and date is properly set in the time switch F Verify the battery is installed and energized GT Override time limit is no more than 2 hours 9 Occupant Sensors and Automatic Time Switch Controls have been certified to the Energy Commission in accordance with the applicable provision in Section 110.9 of the Standards, and model numbers for all such controls are listed on the Commission database as Certified Appliance and Control Devices 2. Occupancy Sensor Construction Inspection—confirm for all listed in Section B F7 Occupancy sensors are not located within 4 feet of any HVAC diffuser r Ultrasonic occupancy sensors do not emit audible sound S feet from source This is page 1 of 58 IGw lode: 92661 B. Functional Testing of Lighting Controls For every space in the building, conduct functional tests 1 through 5 below if applicable. If there are several geometrically 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: For 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: Sales Manager 1-2 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 r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. 1 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 130.1(a)1. P 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). W 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) 1 17 b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. F Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly r J, 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 jJ This is page 2 of 58 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 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 60% 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. Light level may be used as a proxy for lighting 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 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. I• - 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. r This is page 3 of 58 ACCEPTANCE 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 251f 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). r" e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces I- f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes, r This is page 4 of 58 BEACH 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). P 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. 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 pass Test 2. r Space Type (office, corridor, etc) Office Untested areas/rooms Confirm compliance for all control system types (1-5) present in each space: I. Automatic Time Switch Controls Step 1: Simulate occupied condition a. 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. 17 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(a)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). 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 I This is page 5 of 58 from start of an unoccupied condition per Standard Section 110.9(b) I Iv b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. P 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 F 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, 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 power 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 occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled areas, Immediately upon an occupied condition F 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, r Step 2. Simulate an unoccupied condition This is page 6 of 58 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) 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 This is page 7 of 58 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 ft2 for LPAF=0.4, 126-250 ftZ 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). r 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)' and all answers are Yes. r This is page 8 of 58 TI -02-A "-+'^•^. ^^+;_^^ Lrorcement Agency. C11'Y OF NEWPORT BEACH IlPennit Number. X017-2255 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). F 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 Representative Spaces Selected Tested space/room name: RIC 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 r J. 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(a)1, r J. 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 a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes This is page 9 of 58 #01]-2255 from start of an unoccupied condition per Standard Section 110.9(b) I IV 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 W 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 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 500% 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 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 7 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 171- 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. E 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. F Step 2. Simulate an unoccupied condition This is page 10 of 58 OF ACCEPTANCE a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 I r 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 11 of 58 5. AdiTional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 2S0 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 workspaces r f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes. This is page 12 of 58 OF C. Testing Results 1. Automatic Time Switch Controls (all answers must be Yes). -I 2. Occupancy Sensor (On Off Control) (all answers must be Yes). W 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. r 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r- 5. 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must pass Test 2. r Representative Spaces Selected Tested space/room name: Sales 1-4 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 f7 b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. 11 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(a)1. f✓ 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). rJ 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 tnt This is page 13 of 58 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 adjacent to the controlled space or from HVAC operation. 17 Step 2: Simulate an occupied condition L 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 rJ Step 3: System returned to initial operating conditions 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) J. 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 for corridors and stairwells in which the installed lighting power 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 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 r deactivate all of the lights. Step 2. Simulate an unoccupied condition This is page 14 of 58 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. 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 15 of 58 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 On 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). r- e, e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces r -- f. f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes, r This is page 16 of 58 ACCEPTANCE 92663 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 accompanied by passing Test i or Test 2. r 4. Partial On Occupant Sensor for PAF (all answers must be Yes). 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must pass Test 2. r Representative Spaces Selected Tested space/room name: Rest Room 1-2 Space Type (office, corridor, etc) Rest room IUntested 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 b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. I 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(a)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). r Step 3: System returned to initial operating conditions 17 2. Occupancy Sensors Step 1: Simulate an unoccupied condition a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes I .. This is page 17 of 58 from start of an unoccupied condition per Standard Section 110.9(b) I la. 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 cr✓ 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. 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 power 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 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. F 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. Step 2. Simulate an unoccupied condition This is page 18 of 58 OF ACCEPTANCE 926 3 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) F1 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 19 of 58 S. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 25® 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). r e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces p' f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes. r This is page 20 of 58 REACH 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 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 pass Test 2. r Representative Spaces Selected Tested space/room name: F and I Manager 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 r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. F 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(a)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). 13 Step 3: System returned to initial operating conditions 2. Occupancy Sensors Step 1: Simulate an unoccupied condition a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes This is page 21 of 58 from start of an unoccupied condition per Standard Section 110.9(b) I IM 1 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 iM 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 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) F 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 for corridors and stairwells in which the installed lighting power 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 occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled f 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 r 70% of the lighting automatically. 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 r deactivate all of the lights. Step 2. Simulate an unoccupied condition This is page 22 of 58 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) IM 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 23 of 58 TE Se Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 25® 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 ftp 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). r 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)' and all answers are Yes. r This is page 24 of 58 CERTIFICATE OF ACCEPTANCE NRCA-LTI-02-A Lighting Control Project Nome. SWImg BMW Enforcement Agrncy: CITY OF NEWPORT BEACH Permit Number: x201'/-2255 Project Address: 3000 West Coast Hwy City Newpon Beach Zip Code'. 92G63 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 accompanied by passing Test 1 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 pass Test 2. r Representative Spaces Selected Tested space/room name: Conference Room 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 r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. h' 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(a)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). 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 This is page 25 of 58 Or from start of an unoccupied condition per Standard Section 110.9(b) la b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. F7 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 F 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) 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 for corridors and stairwells in which the installed lighting power 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 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 an occupied condition. Verify partial on operation. a. Immediately upon an occupied condition, the first stage activates between 50 to r 70% of the lighting automatically. 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. Fr Step 2. Simulate an unoccupied condition This is page 26 of 58 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 58 OF ACCEPTANCE 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 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). r 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)' and all answers are Yes. F= This is page 28 of 58 n -o2 -A C. Testing Results aon-2255 1, Automatic Time Switch Controls (all answers must be Yes). P 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 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 pass Test 2. p` 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 r 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 130.1(a)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). T Step 3: System returned to initial operating conditions F 2. Occupancy Sensors Step 1: Simulate an unoccupied condition a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes This is page 29 of 58 BMW 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 adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly P% 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 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 60% 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. Light level may be used as a proxy for lighting 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. 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, r Step 2. Simulate an unoccupied condition This is page 30 of 58 a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 I r 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. 17 This is page 31 of 58 ACCEPTANCE 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 ft4 1 1 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). r 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)' and all answers are Yes, r This is page 32 of 58 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 accompanied by passing Test 1 or Test 2. C^• 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 Representative Spaces Selected Tested space/room name: Vestibule Space Type (office, corridor, etc) Corridor 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 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 130.1(a)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). 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 This is page 33 of 58 OF W01M M 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 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 W Step 3: System returned to initial operating conditions ly 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 60% 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. 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 G 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 r deactivate all of the lights. Step 2. Simulate an unoccupied condition This is page 34 of 58 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. 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 35 of 58 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 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). r— e. e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces F f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes. r This is page 36 of 58 C. Testing Results 1. Automatic Time Switch Controls (all answers must be Yes). fJ I 2. Occupancy Sensor (On Off Control) (all answers must be Yes). 17 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. Representative Spaces Selected Tested space/room name: Hall Space Type (office, corridor, etc) Corridor 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 r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. 17 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(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). 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 This is page 37 of 58 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 adjacent to the controlled space or from HVAC operation. :::71 r 77 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 i1 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 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. G 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 power 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 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 700% 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. r Step 2. Simulate an unoccupied condition This is page 38 of 58 TE OF ACCEPTANCE 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) I r b. The occupant sensor does not trigger a false 'on' from movement in an area Fr adjacent to the controlled space or from HVAC operation. This is page 39 of 58 OF 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 25® 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). r e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces P. f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes.F This is page 40 of 58 OF x201]-2255 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). 17W, 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. 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 pass Test 2. r Representative Spaces Selected Tested space/room name: New Car Delivery Space Type (office, corridor, etc) Open 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 b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. I 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(a)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 2. Occupancy Sensors Step 1: Simulate an unoccupied condition a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes This is page 41 of 58 OF from start of an unoccupied condition per Standard Section 110.9(b) Iv 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 17 Step 3: System returned to initial operating conditions 113 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 J. 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 for corridors and stairwells in which the installed lighting power 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 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. r Step 2. Simulate an unoccupied condition This is page 42 of 58 T MOM 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) 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. 177 This is page 43 of 58 OF IIZip Code: 92663 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 1`1:2 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). r- e. e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces IT f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes. r This is page 44 of 58 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 accompanied by passing Test 1 or Test 2. 17- 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 Representative Spaces Selected Tested space/room name: Service Advisers 5-8 Space Type (office, corridor, etc) Open 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 r✓ b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. iT 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(a)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). 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 I .. --r This is page 45 of 58 OF ACCEPTANCE 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 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 Step 3: System returned to initial operating conditions i✓ 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. Jr, 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 power 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 occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled i 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 lights, activate 100% of the lighting power, and manually deactivate all of the lights. r Step 2. Simulate an unoccupied condition This is page 46 of 58 ACCEPTANCE 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) T- b. 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 47 of 58 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 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 - e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces 177- f. ' f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' and all answers are Yes. r This is page 48 of 58 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 accompanied by passing Test 1 or Test 2. r 4. Partial On Occupant Sensor for PAF (all answers must be Yes). 171 5, Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must pass Test 2. r Representative Spaces Selected Tested space/room name: Show Room Space Type (office, corridor, etc) Open 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 r b. Verify the switch only operates lighting in the ceiling -height partitioned area in which the switch is located. F 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(a)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). 17 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 I i This is page 49 of 58 from start of an unoccupied condition per Standard Section 110.9(b) I Iw I b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. W Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly r J. 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 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 r the aisle or stack. 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 power 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 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 lights, activate 100% of the lighting power, and manually deactivate all of the lights. r Step 2. Simulate an unoccupied condition This is page 50 of 58 CITY 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) 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 51 of 58 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 (<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). r- e. 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)' and all answers are Yes. F, This is page 52 of 58 1. Automatic Time Switch Controls (all answers must be Yes). 7 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 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/room name: Records 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 R 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 130.1(a)1. F 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 17 2. Occupancy Sensors Step 1: Simulate an unoccupied condition a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes _ This is page 53 of 58 T roan/ 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 adjacent to the controlled space or from HVAC operation. W 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 17 Step 3: System returned to initial operating conditions P 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 r the aisle or stack. 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 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 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 r deactivate all of the lights. Step 2. Simulate an unoccupied condition This is page 54 of 58 CERTIFICATE OF ACCEPTANCE NRCA-LTJ-02-A Lighting Contfol Pr ject Name'. Sterling BMWEnforcement Agency: CITY OP NEW PORT BEACH Permit Number x2017-2255 Project Address:3000 West Coazt Hwy City'. Newport Beach Zip Cade: 92663 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. r This is page 55 of 58 5e 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 ft2 for PAF=0.4, 126-250 1`1:2 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). r 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)' and all answers are Yes. 1-7 This is page 56 of 58 ming BMW 3000 West C C. Testing Results 1. Automatic Time Switch Controls (all answers must be Yes). W 2. Occupancy Sensor (On Off Control) (all answers must be Yes). !J 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, F7 4. Partial On Occupant Sensor for PAF (all answers must be Yes). 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must pass Test 2. F D. Evaluation : Pr PASS: All applicable Construction Inspection responses are complete and all applicable Equipment Testing Requirements responses are positive. This is page 57 of 58 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT I certify that this Certificate of Acceptance documentation is accurate and complete. Documentation Author Company Name Name Paul Myers Ir PDM Electric Inc. Address Zip Code CEA/ATT Certification Identification (if applicable) Date of Signature: 33964 Verbena Ave 92563 City Phone Author Signature Murrieta (]60)]15-4280 x2017-2255 FIELD TECHNICIAN'S DECLARATION STATEMENT I certify the following under penalty of perjury, under the laws of the State of California: 1. The information provided on this Certificate of Acceptance Is true and correct. 2. I am the person who performed the acceptance verification reported on this Certificate of Acceptance (Field Technician). 3. The construction or installation identified on this Certificate of Acceptance complies with the applicable 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 NA]. 4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and signed by the responsible builder/installer and has been posted or made available with the building permit(s) issued for the building. Field Technician Name Company Name Paul Myers Jr PDM Electric Inc. Address: City 33964 Verbena Ave Murrieta Zip Code 92563 Phone (]60)]15-4280 ATT Certification Position with Company Identification TC -A21]20] (Title) Owner Field Technician Signature 1( Date of Signature: 02/15/2019 RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of perjury, under the laws of the State of California: 1. I am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and I have reviewed the information provided on this Certificate of Acceptance. 2. I am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design, construction or 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 statement (responsible acceptance person). 3. The information provided on this Certificate of Acceptance substantiates that the construction or installation identified on 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 NA]. 4. I have confirmed that the Certificate(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. 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 for the building, and made available 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 building owner at occupancy. Responsible Acceptance Company Name Person Name Paul Myers Jr PDM Electric Inc. Address: City 33964 Verbena Ave Murrieta Zip Code 92563 Phone (260)715-4280 CSLB License 810]02 Position with Company Owner (Title) Responsible Acceptance Person Signature Date of 51 nature: 02/15/2019mm This is page 58 of 58