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X2019-1207 - Misc
r PROFESSIONALAIR & HYDRONIC SYSTEM TESTING • BUILDING SYSTEMS COMMISSIONING PROJECT PROJECT/JOB# CONTRACTOR ARCHITECT ENGINEER X2019.1207 100 Bayvlety Ctr CERTIFIED TEST, ADJUST & BALANCE REPORT WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 19436 RENKOW MECHANICAL 4530 BRAZIL ST., STE 4, LOS ANGELES, CA 90039 MSA ARCHITECTURE + DESIGN NOT AVAILABLE 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 Standard for Testing, Adjusting and Balancing of Environmental Systems. The measurements shown, and the information given, in this report are certified to be accurate and complete, at the time and date the information was gathered. Any variances from design quantities, which exceed NEBB tolerances, are noted in the TAB report project summary. NEBB CERTIFICATION NUMBER 2756 TECHNICIAN B. CLARK APPROVED S. MILLER DATE 9/2312019 pir Bat r -, r- fa HEN C. MILLI 1240 N. Jefferson St., Suite H • Anaheim, CA 92807-1632 • Phone (714) 630-3796 • Fax (714) 630-3998 r 3330 W. Hacienda Ave., Suite 407 • Las Vegas, NV 89118 • Phone (702) 270-2688 • Fax (702) 270-0788 7525 Mission Gorge Rd., Suite E • San Diego, CA 92120 • Phone (600) 339-3796 www.precisioneirbalance.com Email: sales@precisionairbalance.com `` CA STATE_ LICENSE #633805 L ,71 cib AIR BALANCE CO., INC. PROFESSIONAL AIR & HYDRONIC SYSTEM TESTING • BUILDING SYSTEMS COMMISSIONING INSTRUMENTATION LIST INSTRUMENT MANUFACTURER MODEL# SERIAL# CALIBRATION DUE DATE AIRDATA MULTIMETER * SHORTRIDGE ADM -880C M16701 3/19/2020 DIGITAL ANEMOMETER ALNOR 5725 T57251730002 8/27/2019 VOLT/AMP METER FLUKE 335 92853012 11/5/2019 TACHOMETER HERMAN STICHT MT -1B B1538533P 3/15/2020 HYDRODATA MULTIMETER SHORTRIDGE HDM-250 W07035 11/28//19 * Also used on flowhoods 1240 N. Jefferson St., Suite H • Anaheim, CA 92807-1632 • Phone (714) 630-3796 • Fax (714) 630-3998 I 3330 W. Hacienda Ave., Suite 407 • Las Vegas, NV 89118 • Phone (702) 270-2688 • Fax (702) 270-0788 I�1 pp 7525 Mission Gorge Rd., Suite E - San Diego, CA 92120 • Phone (800) 339-3796 www.precisionairbalance.com Email: sales@precisionairbalance.com CA STATE LICENSE #633805 I I Alli BALANCE CO., INC. PROFESSIONAL AIR & HYDRONIC SYSTEM TESTING • BUILDING SYSTEMS COMMISSIONING MASTER CODE SHEETS AIR DISTRIBUTION CODES CD.................................................................................. CEILING DIFFUSER CG.................................................................................. CEILING GRILLE CR.................................................................................. CEILING REGISTER RG.................................................................................. RETURN GRILLE SR.................................................................................. SUPPLY REGISTER RR.................................................................................. RETURN REGISTER DO.................................................................................. DUCT OPENING FG.................................................................................. FLOOR GRILLE FIR-- ...................................................... ..................... FLOOR REGISTER AB.................................................................................. AIR BAR LR.................................................................................. LINEAR RETURN LD.................................................................................. LINEAR DIFFUSER EG.................................................................................. EXHAUST GRILLE ER.................................................................................. EXHAUST REGISTER SG.................................................................................. SUPPLY GRILLE SO.................................................................................. SCREENED OPENING HO.................................................................................. HOOD OPENING LT.................................................................................. LIGHT TROFFER DT.................................................................................. DUCT TRAVERSE 1240 N. Jefferson St., Suite H • Anaheim, CA 92807-1632 • Phone (714) 630.3796 • Fax (714) 630-3998 3330 W. Hacienda Ave., Suite 407 • Las Vegas, NV 89118 • Phone (702) 270-2688 • Fax (702) 270-0788 B 7525 Mission Gorge Rd., Suite E • San Diego, CA 92120 - Phone (800) 339-3796AM rwww.precisionairbalance.com Email: sales@precisionairbalance.com CA STATE LICENSE 9633805 Alit BALANCE C., INC. PROFESSIONALAIR & HYDRONIC SYSTEM TESTING • BUILDING SYSTEMS COMMISSIONING GENERAL REPORTING CODES DNA.................................................................................. DATA NOT AVAILABLE DNL.................................................................................. DATA NOT LISTED NA.................................................................................. NOTACCESISLE NI............................ ...... .......... .......... .................. —....... NOT INSTALLED NS.................................................................................. NOT SPECIFIED NT.................................................................................. NOT TESTED, DUE TO LO.................................................................................. ABNORMAL CONDITION NVL.................................................................................. NO VALID LOCATION CD.................................................................................. CEILING DIFFUSER NM.................................................................................. NOT MEASURED NG.................................................................................. NATURAL GAS DX.................................................................................. DIRECT EXPANSION DT.................................................................................. DUCT TRAVERSE LO.................................................................................. LOUVERED OPENING ........................... ........................... ................... I.... MEASURED WITH FLOW HOOD 1240 N. Jefferson St., Suite H • Anaheim, CA 92807-1632 * Phone (714) 630-3796 , Fax (714) 630-3998 f = 3330 W. Hacienda Ave., Suite 407 • Las Vegas, NV 89118 • Phone (702) 270-2688 • Fax (702) 270-0788 p3 7525 Mission Gorge Rd., Suite E • San Diego, CA 92120 • Phone (800) 339-3796 4 www.precisionairbalance.com Email; sales@precisionairbalance.com CA STATE LICENSE #633805 va 0 FIT FA F T --T WIN 1144 � PROFESSIONALAIR & HYDRONIC SYSTEM TESTING - BUILDING SYSTEMS COMMISSIONING WE WORK NEWPORT BEACH GENERAL NOTE SHEET ALL VAV SYSTEMS ARE FED FROM THREE EXISTING AIR HANDLERS. THE HEATING HOT WATER AND CHILLED WATER SYSTEMS ARE FED FROM EXISTING PUMPS. 1240 N. Je6erson St., Suite I I • Anaheim, CA 92807-1632 - Phone (714) 630-3796 • Fax (714) 630-3998 3330 W. Hacienda Ave., Suite 407 - Las Vegas, NV 89118 • Phone (702) 270-2688 • Fax (702) 270.0788 rrd E7525 Mlsslon Gorge Rd., Suite E • San Diego, CA 92120 • Phone (800) 339-3796 9� w ,.precisinnnirbalance.com Email: sales@precisionalrbelance.com CA STATE LICENSE 8633805 VE �jj . • AIR BALANCE CO., INC. DATE 9/17/2019 PAGE 1 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-01 K=0.97 1-303 1 SG 10X4 0.19 1263 240 1269 241 1-303 2 SG 10 X 4 1 0.19 1263 240 1 1208 230 1-303 3 SG 10 X 4 0.19 1263 240 1287 245 1-303 4 SG 10 X 4 0.19 1263 240 1253 238 TOTAL 960 954) 90 93 200 208 VAV 1-02 K=0.96 FL 122 1 SG 12 X 6 0.35 1 814 285 823 288 TOTAL 285 288 95 95 (0) (0 VAV 1-03 K=0.87 FL 118 1 SG 12 X 6 0.35 957 335 955 334 FL 118 2 SG 12 X 6 0.35 957 335 936 328 FL 118 3 SG 12 X 6 0.35 957 335 980 343 FL 118 4 SG I 12 X 6 0.35 1 957 335 1 973 341 TOTAL 1340 1346) (130) (132) (300 307 VAV 1-04 K=1.03 FL 117 1 SG 18 X 6 0.53 706 375 745 395 FL 117 2 SG 18 X 6 0.53 706 375 729 386 FL 117 3 SG 18 X 6 0.53 706 375 677 359 FL 117 4 SG 18 X 6 0.53 1 706 375 1 680 360 TOTAL 1500) 1500) (135) (137) (300) (312 ------------- REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. DATE 9/17/2019 PAGE 2 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-05 K=0.94 FL123 1 SG 12 X 6 0.35 900 315 920 322 FL123 2 SG 12 X 6 1 0.35 900 1 315 915 320 FL123 3 SG 12 X 6 0.35 900 315 867 304 FL123 4 SG 12 X 6 0.35 900 315 882 309 FL123 5 SG 12 X 6 0.35 900 315 908 318 FL123 6 SG 12 X 6 0.35 900 315 916 321 TOTAL 1890 1894 175 184 (400) (409 VAV 1-06A K=0.93 FL 127 1 SG 12 X 6 0.35 700 245 685 240 FL 127 2 SG 12 X 6 0.35 700 245 740 259 FL 127 3 SG 12 X 6 0.35 700 245 736 258 FL 127 4 SG 12 X 6 0.35 700 245 718 251 TOTAL (980) 1008) (90) 92 200 207 VAV 1.06B K=0.97 FL128 1 SG 12 X 6 0.35 1014 355 986 345 FL128 2 SG 12 X 6 0.35 1014 355 1015 355 FL128 3 SG 12 X 6 0.35 1014 355 1036 363 FL128 4 SG 12 X 6 0.35 1014 355 1030 361 TOTAL (1420) (1424) 130 133 300 312 VAV 1-07 K=0.92 FL129 1 SG 18 X 6 0,53 689 365 696 369 FL129 2 SG 18 X 6 0.53 689 365 685 363 FL129 3 SG 18 X 6 0.53 689 365 677 359 FL129 4 SG 18 X 6 0.53 689 365 702 372 TOTAL 1460 1463) (130) (135) (300 308 REMARKS: 46 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU Ave��� • AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/16/2019 PAGE 3 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN, REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-8A 14" K=0.64 FL130 1 SG 18 X 6 0.53 848 445 857 450 FL130 2 SG 18 X 6 1 0.53 848 1 445 840 441 FL130 3 SG 18 X 6 0.53 848 445 853 448 FL130 4 SG 18 X 6 0.53 848 445 850 446 TOTAL 1780 1785 130 (132) (300 308 VAV 1-8B 14" K=0.67 FIL 132 1 SG 18 X 6 0.53 802 425 1 807 428 FL 132 2 SG 18 X 6 1 0.53 802 425 819 434 FL 132 3 SG 18 X 6 0.53 802 425 814 431 TOTAL (1275) (1293 175) 180 (400)1(409 VAV 1-9 14" K=0.66 FL 304 1 SG 12 X 6 0.35 700 245 720 252 FL 304 2 SG 12 X 6 0.35 1 700 245 1 729 255 FL 137 3 SG 12 X 6 0.35 943 330 960 336 FL 137 4 SG 12 X 6 0.35 943 330 937 328 FL 137 5 SG 12 X 6 0.35 943 330 926 324 FL 137 6 SG 12 X 6 0.35 943 330 977 342 TOTAL (1810) 1837) 195) 195) 400 400 VAV 1-10 12" 1 K=0.67 FL139 1 SG 12 X 6 0.35 943 330 949 332 FL139 2 SG 12 X 6 0.35 943 330 966 338 FL139 3 SG 12 X 6 0.35 943 330 931 326 FL139 4 SG 12 X 6 0.35 943 330 946 331 TOTAL 1320 1327 140) 137 300 304 REMARKS: 4 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 4 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN, REQ. MIN. ACT. HTG. REQ, HTG. ACT. SUPPLY AIR SYSTEM VAV 1-11A 8" K=0.66 1-305 1 SG 12X6 0.35 1,071 375 1,100 385 1-305 2 SG 12 X 6 1 0.35 1,071 375 1 1,074 376 TOTAL (750) 761) (75) (76) (100) 102 VAV 1-11B 12" K=0.66 FL155 1 SG 12 X6 0.35 1,043 365 1,012 354 FL155 2 SG 12 X 6 0.35 1,043 365 1;029 360 FL155 3 SG 12 X 6 0.35 1 1,043 365 1,099 384 FL155 4 SG 12 X 6 0.35 1,043 365 1,000 350 TOTAL 1460 1448 155 152 (300) (302) VAV 1-12A 12" K=0.66 FL 159 1 SG 12 X 6 0.35 914 320 937 328 FL 159 2 SG 12 X 6 0.35 914 320 949 332 FL 159 3 SG 12 X 6 0.35 1 914 320 1 926 324 FL 159 4 SG 12 X 6 0.35 914 320 920 322 TOTAL 1280 1306 130) 134) 300 305 VAV 1-12B 14" K=0.69 FL 159 1 SG 18 X 6 0.525 885 465 918 482 FL 159 2 SG 18 X 6 0.525 885 465 882 463 FL 159 3 SG 18 X 6 0.525 1 885 465 1 893 469 FL 159 1 4 SG 18 X 6 0.525 885 465 909 477 TOTAL 1860 1891 (175) (173) (400 408 REMARKS: 44,6 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU 30� • • AIR BALANCE CO., INC. DATE 9/17/2019 PAGE 5 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU IIIIiiiiiimiiIiii III M"I MM 903 MOM 03 REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU 4AO . • AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 6 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AR FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-15 10" K=0.66 FL 165 1 SG 12 X 6 0.35 671 235 689 241 FL 165 2 SG 12 X 6 1 0.35 671 1 235 676 237 FL 165 3 SG 12 X 6 0.35 671 235 658 230 FL 165 4 SG 12 X 6 0.35 671 235 682 239 TOTAL (940) (947 95 97 (200) (204 VAV 1-16 12" K=0.67 FL 169 1 SG 12 X 6 0.35 943 330 955 334 FL 169 2 SG 12 X 6 1 0.35 943 330 1 940 329 FL 169 3 SG 12 X 6 0.35 943 330 952 333 FL 169 4 SG 12 X 6 0.35 943 330 936 328 TOTAL 1320 1324) (135) (135 300 312 VAV 1-17 14" K=0.68 01-306 1 SG 12 X 6 0.35 1 814 285 810 284 01-306 2 SG 12 X 6 0.35 814 285 1 759 266 01-306 3 SG 12 X 6 0.35 814 285 763 267 FL 172 4 SG 18 X 6 0.53 943 500 920 488 FL 172 5 SG 18 X 6 0.53 943 500 909 482 TOTAL 1855 1787 175 172 545 559 VAV 1-18 10" 1 K=0.72 FL 172 1 SG 18 X 6 0.53 849 450 856 454 FL 172 2 SG 18 X 6 0.53 849 450 832 441 TOTAL 900 895 95 95 200 208 REMARKS: tib CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU r r AlAeAmuian AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 7 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN, REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-19 K=0.93 FL 175 1 SG 18 X 6 0.53 745 395 765 405 FL 175 2 SG 18 X 6 0.53 1 745 395 1 723 383 FL 175 3 SG 18 X 6 0.53 745 395 732 388 FL 175 4 SG 18 X 6 0.53 745 395 746 395 TOTAL 1580 1571) (165) (169) (300) (305 VAV 1-20 K=0.65 01-307 1 SG 18 X 6 0.53 434 230 442 234 01-307 2 SG 18 X 6 0.53 434 230 421 223 FL 177 3 SG 18 X 6 0.53 821 435 1 796 422 FL 177 4 SG 18 X 6 0.53 821 435 812 430 1330 1309 145 148 (300) (312 VAV 1-21 K=0.59 FL 180 1 SG 18 X 6 0.53 1 877 465 882 467 FL 180 2 SG 18 X 6 0.53 877 465 859 455 TOTAL 920) 922 95 97 (200)1(207 VAV 1-22 K=0.98 FL 190 1 SG 18 X6 0.53 887 470 856 454 FL 190 2 SG 18 X 6 0.53 887 470 879 466 FL 190 3 SG 18 X6 0.53 887 470 883 468 FL 190 4 SG 18 X 6 0.53 887 470 895 474 TOTAL 1880) 1882 175 172 (400)1(412 REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU ��t� AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 8 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ, HTG. ACT. SUPPLY AIR SYSTEM VAV 1-23 K=0.96 FL196 1 SG 18 X 6 0.53 943 500 945 501 FL196 2 SG 18 X 6 1 0.53 849 1 450 669 1 461 FL196 3 SG 18 X 6 0.53 849 450 643 447 FL196 4 SG 18 X 6 0.53 849 450 872 462 TOTAL 1850 1871) 195 198 (400)1(407 VAV 1-24 K=0.94 FL 197 1 SG 18 X 6 0.53 717 380 723 383 FL 197 2 SG 16 X 6 1 0.53 717 1 380 731 1 387 FL 197 3 SG 18 X 6 0.53 717 380 729 386 FL 197 4 SG 18 X 6 0.53 717 380 707 375 TOTAL (1520) (1531 (155) (159) (300 296 VAV 1-25A K=1.00 FL 199 1 SG 18 X 6 0.53 745 395 759 402 FL 199 2 SG 18 X 6 0.53 745 395 763 404 FL 199 3 SG 18 X 6 0.53 745 395 728 386 TOTAL (1185) 1192 (130) 133 300 298) VAV 1-25B K=0.97 FL 199 1 SG 18 X 6 0.53 755 400 769 408 FL 199 2 SG 1 18 X 6 0.53 755 400 752 399 FL 199 3 SG 18 X 6 0.53 755 400 746 395 TOTAL (1200) (1202) (130) (135) (300 304) REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU Avor4uon • AIR BALANCE CO., INC. DATE 9/19/2019 PAGE 9 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-26 K=0.95 01 313 1 SG 12 X 6 0.35 643 225 659 231 01 313 2 SG 12 X 6 0.35 1 643 225 1 640 224 TOTAL (450) 455 (65) (67 100 98 VAV 1-27A K=0.96 FL200 1 SG 12 X 6 0.35 929 325 935 327 FL200 2 SG 12 X 6 0.35 929 325 920 322 FL200 3 SG 12 X 6 0.35 929 325 919 322 FL200 4 SG 12 X 6 0.35 1 929 325 912 319 TOTAL 1300 1290 130 133) 300 309 VAV 1-27B K=1.04 FL 200 1 SG 12 X 6 0.35 671 235 659 231 FL 200 2 SG 12 X 6 0.35 671 235 677 237 FL 200 3 SG 12 X 6 0.35 671 235 1 683 239 FL 200 4 SG 12 X 6 0.35 671 235 670 235 TOTAL 940 942 (90) 93 200 196 VAV 1-28 K=1.02 FL 201 1 SG 12 X 6 0.35 657 230 675 236 FL 201 2 SG 12 X 6 0.35 657 230 663 232 FL 201 3 SG 1 12 X 6 0.35 1 657 230 669 234 FL 201 4 SG 12 X 6 0.35 657 230 642 225 FL 201 5 SG 12 X 6 0.35 657 230 659 231 FL 201 6 SG 12 X 6 0.35 657 230 660 231 FL 201 7 SG 12 X 6 0.35 657 230 672 235 FL 201 8 SG 12 X 6 0.35 657 230 652 228 TOTAL (1840 1852) 175 ](17M7 REMARKS: 41 -i's CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU Aveoc��. • • AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 10 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-29 K=0.96 FL 221 1 SG 10 X 4 0.19 1053 200 1069 203 FL 221 2 SG 10 X 4 1 0.19 1053 1 200 1048 199 FL 221 3 SG 10 X 4 0.19 1053 200 1055 201 FL 221 4 SG 10 X 4 0.19 1053 200 1065 202 TOTAL (800) (805 190 193 200 207 VAV 1-30 K=0.98 FL 226 1 SG 10 X 4 0.19 658 125 676 128 FL 226 2 SG 1 O X 4 0.19 1 658 125 1 689 131 FL 226 3 SG 10 X 4 0.19 658 125 652 124 FL 226 4 SG 10 X 4 0.19 658 125 668 127 FL 226 5 SG 10 X 4 0.19 658 125 641 122 FL 226 6 SG 10 X 4 0.19 658 125 670 127 FL 226 7 SG 10 X 4 0.19 658 125 665 126 TOTAL 875 885) 235 (239) (270 276 VAV 1-31 K=0.85 01-311 1 SG 10 X 4 0.19 658 125 642 122 01-311 2 SG 10 X 4 0.19 658 125 639 121 01-311 3 SG 10 X 4 0.19 658 125 656 125 01-311 4 SG 10 X 4 0.19 658 125 669 127 01-311 5 SG 10 X 4 0.19 658 125 675 128 01-311 6 SG 10 X 4 0.19 658 125 650 124 01-311 7 SG 10 X 4 0.19 658 125 663 126 01-311 8 SG 10 X 4 0.19 658 125 675 128 TOTAL (1000) (1001) 330 (339) (330 345 REMARKS: 46 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 11 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION REMARKS: ' �` 6 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU MRSifflimm mm �©m®moo®■v®���� REMARKS: ' �` 6 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • • AIR "BALANCE CO., INC. DATE 9/17/2019 PAGE 12 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN, ACT. HTG. REQ. HTO. ACT. SUPPLY AIR SYSTEM VAV 1-35 K=0.65 01F 1 CD 12X12 1.0 " 95 98 01G 1 2 CD 12 X 12 1.0 95 99 OIL 3 CD 12 X 12 1.0 95 97 01H 4 CD 12 X 12 1.0 * 95 99 01K 5 CD 12X12 1.0 90 98 01J 6 CD 12 X 12 1.0 80 87 TOTAL (550) 578) (455) (456) (0 0 VAV 1-36 K=0.77 FL116 1 CD 12 X 12 1.0 * 80 74 FL115 2 CD 12 X 12 1.0 140 126 FL112 3 CD 12 X 12 1.0 140 138 FL111 4 CD 12 X 12 1.0 140 134 FL110 5 CD 12 X 12 1.0 140 137 FL109 6 CD 12 X 12 1.0 140 128 01-701 7 CD 12 X 12 1.0 250 261 01-711 8 CD 12 X 12 1.0 * 250 272 TOTAL 1280 1270 300 313) (0) 0 VAV 1-37 K=0.75 FL133 1 CD 12 X 12 1.0 80 74 FL135 2 CD 12 X 12 1.0 * 140 ' 128 FL136 3 CD 12 X 12 1.0 95 89 FL138 4 CD 12 X 12 1.0 " 140 130 FL150 5 CD 12 X 12 1.0 " 140 * 127 FL151 6 CD 12 X 12 1.0 * 110 101 TOTAL (705) 649 200 204 0 (0 REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • AIR BALANCE CO., INC. DATE 9/17/2019 PAGE 13 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU p . • J e AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/18/2019 PAGE 14 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-41 K=0.70 FL 108 1 CD 2406 1.0 * 95 * 102 FL 107 2 CD 2406 1.0 ' 95 ' 101 FL 106 3 CD 2406 1.0 ' 95 * 102 FL 105 4 CD 2406 1.0 ' 95 100 FL103 5 CD 2406 1.0 * 95 * 89 FL 102 6 CD 2406 1.0 95 * 97 TOTAL 570 591) 155 163 0 0 VAV 1-42 K=0.68 FL 101A 1 CD 12 X 12 1.0 100 96 FL 101 2 SG 10 X 4 0.19 553 105 574 109 FL 101 3 SG 10 X 4 0.19 553 105 588 112 FL 101 4 SG 10 X 4 0.19 553 105 559 106 FL 101 5 SG 10 X 4 0.19 553 105 580 110 TOTAL (520) 1 (533 (200) (199) 0) 0 VAV 1-43 K=0.61 01E 1 CD 12 X 12 1.0 200 * 208 01C 2 CD 12 X 12 1.0 ' 80 86 01B 3 CD 12 X 12 1.0 80 84 TOTAL (360) (378 (210) (222) 0 0 VAV 1-44 K=0.65 01M 1 CD 12X12 1.0 110 113 01D 2 CD 12X12 1.0 110 102 01A 3 CD 12X12 1.0 110 114 TOTAL 330 329 330) 333) (0 0 REMARKS: 4 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • 36,AeAmutm AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/17/2019 PAGE 15 SYSTEM EXISTING _ 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION REMARKS: (1) SCHEDULE 375 MAX 105 MIN 46 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU �©®moi®• ��������� REMARKS: (1) SCHEDULE 375 MAX 105 MIN 46 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. DATE 9/1812019 PAGE 16 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AR FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ, HTG. ACT. SUPPLY AIR SYSTEM VAV 1-48 K=1.05 01-301 1 SG 12 X 6 0.35 429 150 439 154 01-301 2 SG 12 X 6 1 0.35 429 1 150 435 152 01-301 3 SG 12 X 6 0.35 429 150 430 151 01-301 4 SG 12 X 6 0.35 429 150 442 155 TOTAL 600 612 (385) (396) (0 0 VAV 1.49 K=0.70 01N 1 CD 12X12 1.0 " 200 181 01 P 2 CD 12 X 12 1.0 80 88 010 3 CD 12 X 12 1.0 80 87 01R 4 CD 12X12 1.0 * 80 88 TOTAL 440 444 275 283 0 0 VAV 1-50 K=0.74 01S 1 CD 12 X 12 1.0 250 225 TOTAL 250 225 (135). (140 0 0 VAV 1-51 K=0.90 01-301 1 SG 10 X 4 0.19 342 65 350 67 01-821 2 SG 10 X 4 0.19 421 80 433 82 TOTAL 145 149 (75) (77) (0 0 VAV 1-52 K=0.69 OFFICE 1 CD 12 X 12 1.0 55 59 FL 178 2 CD 12 X 12 1.0 55 " 58 OFFICE 3 CD 12 X 12 1.0 55 50 OFFICE 4 CD 12 X 12 1.0 * 55 " 54 TOTAL 220 221 70 ](77(0 0 REMARKS: 4 B - CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • • 036veAc4uiow AIR BALANCE CO., INC. PROJECT: WE WORK DATE 9/18/2019 PAGE 17 SYSTEM EXISTING 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION REMARKS: CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU 304WAMSIMM AIR BALANCE CO., INC. DATE 9/19/2019 PAGE 18 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-55 K=0.90 FL 229 1 CD 12 X 12 1.0 50 51 FL 181 2 CD 12 X 12 1.0 * 50 53 FL 228 3 CD 12 X 12 1.0 50 55 FL 182 4 CD 12 X 12 1.0 ' 50 49 FL 227 5 CD 12 X 12 1.0 * 50 52 FL 183 6 CD 12 X 12 1.0 * 50 54 F185 7 CD 12 X 12 1.0 50 50 FL 225 8 CD 12 X 12 1.0 * 50 * 52 FL 223 9 CD 12 X 12 1.0 50 55 FL 186 10 CD 12 X 12 1.0 * 50 51 FL 222 11 CD 12 X 12 1.0 50 51 FL 187 12 CD 12 X 12 1.0 50 * 54 FL 220 13 CD 12 X 12 1.0 50 49 FL 188 14 CD 12 X 12 1.0 ' 50 52 FL 189 '15 CD 1 12X12 1.0 50 53 FL 219 16 CD 12 X 12 1.0 50 50 TOTAL (800) (2 831) (195) (200 (0) (0 1 VAV 1-56 K=0.96 FL 190A 1 CD 2406 1.0 100 96 FL 190 2 SG 1 12 X 6 0.35 486 170 495 173 FL 190 3 SG 12 X6 0.35 486 170 1 492 172 TOTAL (440) (441) (160) (163 (0) 0 REMARKS: (1) DUCTWORK CHANGE (EXISTING GRILLE FOR 900 CFM CONNECTED TO EXISTING ZONE), GARY& RALPH W/RENKOW-SN ARE AWARE OF SITUATION (2) SCHEDULE 1345/195 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. DATE 9/18/2019 PAGE 19 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION ROOM NO. CODE SIZE AK FACTOR REQUIRED F.P.M. REQUIRED C.F.M. ACTUAL F.P.M. ACTUAL C.F.M. MIN. I REQ. MIN. ACT. HTG. REQ. HTG. ACT. SUPPLY AIR SYSTEM VAV 1-57 K=0.68 01X 1 CD 12 X 12 1.0 * 120 122 01W 2 CD 12X12 1.0 * 110 * 113 01V 3 CD 12 X 12 1.0 * 85 * 90 011J 4 CD 12X12 1.0 115 105 01T 5 CD 12 X 12 1.0 85 92 TOTAL 515 522 375) 363 0 0 VAV 1-58 K=0.61 FL 218 1 CD 12 X 12 1 1.0 * 55 50 FL 217 2 CD 12 X 12 1.0 55 50 FL 191 3 CD 12 X 12 1.0 45 * 42 FL 192 4 CD 12 X 12 1.0 45 41 FL 216 5 CD 12X12 1.0 55 51 FL 193 6 CD 12 X 12 1.0 1 45 42 FL 215 7 CD 12X12 1.0 55 51 FL 195 8 CD 12 X 12 1.0 * 45 41 FL 215 9 1 CD 12 X 12 1.0 55 1* 50 FL 211 10 CD 12 X 12 1.0 145 131 FL 210 11 CD 12 X 12 1.0 55 * 50 FL 198 12 CD 12 X 12 1.0 * 45 * 42 TOTAL (700) (641) 200)211 0 0 1 VAV 1-59 K=0.74 01-314 1 CD 2410 1.0 240 * 220 01-314 2 CD 2410 1.0 * 240 246 01-314 3 CD 2410 1.0 240 254 01-314 4 CD 2410 1.0 * 240 253 TOTAL 960 973 150 165Ao REMARKS: (1) 8"0 BOX 100% OPEN (UNIT SP 2.00") 416 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU �jj • • J• AIR BALANCE CO., INC. DATE 9/18/2019 PAGE 10 SYSTEM EXISTING PROJECT: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 VAV AIR DISTRIBUTION REMARKS: 4 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU mm REMARKS: 4 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. ANAHEIM / LAS VEGAS 800.339.3796 PROJECT WE WORK 100 BAYVIEW CIRCLE NEWPORT EACH CA 92660 MANUFACTURER: NUTECH SYSTEM: HOT WATER REHEAT CIRCUIT SETTER DATE: 9/16/2019 PAGE: 11 ZONE TAGGING INFO VALVE MODEL VALVE SIZE (INCHES) DEGREE SETTING REQUIRED VALVE FLOW (GPM) ACTUALVALVE PRESSURE DIFFERENTIAL ACTUAL FLOW " GPM (+/-5/0) VAV 01-1 1A 0.75" 60% CL 0.6 20.9" 0.6 VAV 01-3 1A 0.75" 100% OPEN 0.9 49.2" 0.9 VAV 01.4 1A 0.75" 20% CL 0.9 45.7" 0.9 VAV01-5 1A 0.75" 20% CL 1.3 92.5" 1.3 VAV 01-6A 1A 0.75" 70% CL 0.6 20.6" 0.6 VAV 01-6B 1A 0.75" 50% CL 0.9 46.2" 0.9 VAV 01-7 1A 0.75" 75% CL. 0.9 47.3" 0.9 VAV 01 -BA 1A 0.75" 75% CL. 0.9 45.9" 0.9 VAV 01-8B 1A 0.75" 50% CL. 1.3 94.6" 1.3 VAV 01-9 1A 0.75" 50% CL 1.3 94 1.3 COMMENTS: C46 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • • tAveAm"ian AIR BALANCE CO., INC. ANAHEIM / LAS VEGAS 800.3394796 PROJECT WE WORK 100 BAYVIEW CIRCLE NEWPORT EACH CA 92660 MANUFACTURER: NUTECH SYSTEM: HOT WATER REHEAT CIRCUIT SETTER DATE: 9/16/2019 PAGE: 12 ZONE TAGGING INFO VALVE MODEL VALVE SIZE (INCHES) SETTING DEGREE REQUIRED VALVE FLOW (GPM) ACTUALVALVE PRESSURE DIFFERENTIAL ACTUAL FLOW GPM (+/-5%) VAV01-10 1A 0.75" 25% CL 0.9 45" 0.9 VAV01-11A 1A 0.75" 30% CL 0.5 14 0.5 VAV 01-11B 1A 0.75" 25% CL 0.9 45" 0.9 VAV 01-12A 1A 0.75" 100% OPEN 0.9 44" 0.9 VAV 01-12B 1B 0.75" 30% CL 3.0 40" 3.0 VAV 01-13 1A 0.75" 20% CL 0.9 45" 0.9 VAV 01-14A 1A 0.75" 25% CL 0.9 45" 0,9 VAV 01-14B 1A 0.75" 40% CL 0.9 45" 0.9 VAV 01-15 1A % CL 0.6 20" 0.6 VAV 01-16 1A % CL 0.9 45" 0.9 VAV 01-17 1B R"I % CL 1.6 11 1.6 COMMENTS: qjjB CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU Aveimsf• • AIR BALANCE CO., INC. ANAHEIM/ LAS VEGAS 800.339.3796 PROJECT 19aulve 7 100 BAYVIEW CIRCLE NEWPORT EACH CA 92660 MANUFACTURER: NUTECH SYSTEM: HOT WATER REHEAT CIRCUIT SETTER DATE: 9/16/2019 PAGE: 13 ZONE TAGGING INFO VALVE MODEL VALVEREQUIRED SIZE (INCHES) DEGREE SETTING VALVE FLOW (GPM) ACTUALVALVE PRESSURE DIFFERENTIAL ACTUAL FLOW GPM (+/-5/0) VAV 01-18 1A 0.75' 80% CL 0.6 20" 0.6 VAV 01-19 1A 0.75' 25% CL 0.9 45.8" 0.9 VAV 01-20 1A 0.75' 25% CL 0.9 47.2" 0.9 VAV 01-21 1A 0.75' 10% CL 0.6 20.6" 0.6 VAV 01-22 1A 0.75' 10% CL 1.3 95.8" 1.3 VAV01-23 1A 0.75' 10% CL 1.3 96.7' 1.3 VAV 01-24 1A 0.75' 20% CL 0.9 45.8" 0.9 VAV 01-25A 1A 0.75' 20% CL 0.9 44.6" 0.9 VAV 01-25B 1A 0.75' 40% CL 0.9 45.5' 0.9 VAV 01-26 1A 0.75' 60% CL 0.5 14.8" 0.5 VAV 01-27A 1A 0.75' 20% CL 0.9 44.8" 0.9 COMMENTS: CCERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AIR BALANCE CO., INC. DATE: 9/16/2019 ANAHEIM/ LAS VEGAS 800.339.3796 PAGE: 14 PROJECT WE WORK 100 BAYVIEW CIRCLE NEWPORT EACH CA 92660 MANUFACTURER: SYSTEM: HOT WATER REHEAT CIRCUIT SETTER ZONE TAGGING INFO VALVE MODEL VALVE SIZE (INCHES) DEGREE SETTING REQUIRED VALVE FLOW (GPM) ACTUALVALVE PRESSURE DIFFERENTIAL ACTUAL FLOW GPM (+/-5%) VAV 01-27B 1A 0.75" 40% CL 0.6 20.3" 0.6 VAV 01-28 1A 0.75" 20% CL 1 1.3 95.6" 1.3 VAV 01-29 1A 0.75" 60% CL 0.6 20.7" 0.6 VAV 01-30 1A 0.75" 60% CL 0.7 27.5" 0.7 VAV 01-31 1A 0.75" 20% CL 0.8 37.3" 0.9 VAV 01.32 1A 0.75" 0% CL 0.9 50.4" 0.9 COMMENTS: AiBCERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • d�414omluoow AIR BALANCE CO., INC. Project Name: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 AIR MOVING EQUIPMENT TEST SHEET Date: 9/18/2019 Page: 15 SYSTEM HP 01-1 DIRECT DRIVE Fan Sheave & Shaft Size I HP 01-2 Equipment Location CEILING DIRECT DRIVE DIRECT DRIVE CEILING Area Served IDF RM IDF RM Equipment Manufacturer CARRIER CARRIER Model 5OPCH024 5OPCH024 Serial Number 1119V96904 4917V71513 Specified Actual Specified Actual Total CFM - fan 850 NVL 850 NVL Total CFM - Outlet 850 865 850 861 R/A CFM 850 865 850 861 O/A CFM -0- -0- -0- -0- Static Pressure Total/Ext NS NA NS NA Inlet Pressure NA NA Discharge Pressure NA NA Fan RPM NS NA NS NA Specified Actual Specified Actual Motor Manufacturer 1 1 Motor H.P. NS 1 1Phase 3 3 3 Volta a 460 462/465/467 gNS 460/462/460 Am era a 0.90 0.6/0.7/0.8 0.7/0.8/0.6 Motor RPM 1 NA NA Motor Service Factor 1 1 Motor Sheave Pitch Motor Sheave & Shaft Size I DIRECT DRIVE DIRECT DRIVE Fan Sheave & Shaft Size I DIRECT DRIVE DIRECT DRIVE Belts I DIRECT DRIVE DIRECT DRIVE Remarks: (1) NO ACCESS TO MOTOR TAG. 9-46 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU AlRoo�� AIR BALANCE CO., INC. PROJECT: WE WORK DATE: 9/21/2019 PAGE: 16 SYSTEM #: HP 01-1,2 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 AIR DISTRIBUTION neve neve. IY��C CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • • 436WAIC4144tm AIR BALANCE CO., INC. Project Name: WE WORK 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 AIR MOVING EQUIPMENT TEST SHEET Date: 9121/2019 Page: 17 SYSTEM HP 01-3 Fan Sheave & Shaft Size DIRECT DRIVE Equipment Location CEILING Area Served F & B Equipment Manufacturer CARRIER Model 5OPCH012 Serial Number 118V76812 Specified Actual Specified Actual Total CFM - fan 850 NVL Total CFM - Outlet 850 835 R/A CFM 850 835 O/A CFM -0- -0- Static Pressure Total/Ext NS NA Inlet Pressure NA Discharge Pressure NA Fan RPM NS NA Specified Actual Specified Actual Motor Manufacturer 1 Motor H.P. NS 1 Phase 1 1 Voltage 208 212 Amperage 0.96 0.8 Motor RPM 1 NA Motor Service Factor 1 Motor Sheave Pitch Motor Sheave &Shaft Size DIRECT DRIVE Fan Sheave & Shaft Size DIRECT DRIVE Belts DIRECT DRIVE Remarks: (1) NO ACCESS TO MOTOR TAG I� B CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU Abeim"vcw AIR BALANCE CO., INC. PROJECT: WE WORK DATE: PAGE: 18 SYSTEM #: HP 01-3 & EXH 100 BAYVIEW CIRCLE NEWPORT BEACH CA 92660 AIR DISTRIBUTION REMARKS: �t6 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU ©mom � • 0 � � ©��� REMARKS: �t6 CERTIFIED MEMBER - NATIONAL ENVIRONMENTAL BALANCING BUREAU • • 9141419AIC41"lan AIR BALANCE CO., INC. ANAHEIM / LAS VEGAS 800.3393796 PROJECT 100 BAYVIEW CIRCLE NEWPORT BEACH CA9 92660 MANUFACTURER: HAYS SYSTEM: CHILLED WATER AUTO FLOW CONTROL DEVICE DATE: 9/19/2019 PAGE: DPLE SCREEN ROC ZONE TAGGING INFO VALVE MODEL VALVE SIZE (INCHES) DIFFERENTIAL RANGE PSI REQUIRED VALVE FLOW (GPM) ACTUALVALVE PRESSURE DIFFERENTIAL ACTUALFLOW GPM (+/-5%) HP 01-1 2520 3/4" 3-80# 7.0 11# 7 HP 01-2 2520 3/4" 3-80# 7.0 7# 7 HP 01-3 2520 3/4" 2-80# 3.0 8# 3 COMMENTS: ENT AIR DB REQ.75/ACT. 73. ENT AIR WB REQ. 63/ACT. 63 LVG AIR DB REQ. NS/ACT. 55. LVG AIR WB REQ. NS/ACT.53 ENT COND. WTR REQ. 85/ACT. 84. LVG COND. 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COM-PLIES AIRFLOW (MAX OF I OR L) gFM) MINCFMBYOCCU- {A 1j'L �• Q N PANT CFM PER PERSON Fu NUM. OF PEOPLE MIN CFM BY AREA MIN CFM PER AREA CONDI-TIONED AREA IN, TRANSFER AIRFLOW (CFM) CNTRL TYPE DDC (YIN) DESIGN PRIMARY w ° MAXIMUMREHEAT g 6 (CFM) d DESIGN PRIMARY o u Z a CFM (MAX OF O� fbi zW g � N E COOLING AIRFLOW OR 0) (CFM( J `L a ZONE/SYSTEM/ n VAV BOX TAG $ � PRIMARY COOLING s 0 �% O 0 (s0%DUC,3D% 19 v ,^ %n N NOM,C( F S cl3 ( N COM-PLIES AIRFLOW (MAX OF I OR L) gFM) MINCFMBYOCCU- {A 1j'L �• Q N PANT CFM PER PERSON Fu NUM. OF PEOPLE MIN CFM BY AREA MIN CFM PER AREA CONDI-TIONED AREA IN, TRANSFER AIRFLOW (CFM) CNTRL TYPE DDC (YIN) DESIGN PRIMARY w ° HEATINGAIRFLOW g 6 (CFM) d DESIGN PRIMARY o u EAO-BAND DEAD -BAND a AIRFLOW (CFM) O� zW DESIGN PRIMARY � N COOLING AIRFLOW o (CFM( J `L a ZONE/SYSTEM/ VAV BOX TAG LO G N a v z m u .6 J N L D c t1 u LL N O E � u U Y U 0 d C u 6 E c o > M o � a y « O a of u y n c N y o E ppV y 'O a _ Z M a C .0Q y0 c 9 O 19m`o Eu°ym ^' u' ° 2,:a N c m E u m°E Lp -m mu o `. 2e ¢ m o s vw� �ovY^g�E E d E E t ow m E �j w w00 Im u s«« y c Z a o N 3 d 0 0 1°-. C 9 C 0 9U C A d 0 0 0Oc E t u .� A m r '��', v 'a E« m e o «, E o 3 a_ LE d«�'a:G3oEt a v A y c u ta, o a v `0 m o° 0 4 Z m m ma u O Z. Wy a M 3 m c Q 4 a« p E w« p ° c c c o'" O0^ 2''c E E'•` -'w Z d« L L 0 7 Ip a Q c 0 a C Z y C Y a1 a a' $991 "( u fl 000 0 0 m 0 5� vvu-S«OD 0 nad zi°'a 91„ O" z E? vi j� a p d� O VO1 C O N C O c E m o 0 y v 3 t a m zE t o 9 s v E 'c E o f w a ° .ac 'k m .c c n�nu°Axa3 m2 'cm2 Q vI C C i5 MW o a c c J° J V N a *m C V c V 2�EMEC -E J c E c a o a o a v M G m c a= v c m `o c `0 o c a s= a- '� E c v E z E E E E E a ME9 E W C J 0 a J d J O I E m m E m E E a �- ° m E u m E �°, m o: i C6U6 W ,:±- :�ZOiC)z vi STATE OF CALIFORNIA HVAC SYSTEM REQUIREMENTS CERTIFICATE OF COMPLIANCE J NRCC-MCH-02-E HVAC Wet System Requirements (Page 3 of 3) DOCUMENTATION AUTHOR'S DECLARATION STATEMENT 1. 1 certify that this Certificate of Compliance documentation is accurate and complete. Documentation Auth Name: Documentation Author Sl u1 Company Si ature ate: /01-,e / Address: ♦ [EA/HERS Certification ld [iflcatio tapplicable}: �S3D �Z♦• T /•�-Phone:v City(State/Zip: A 003 RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of perjury, under the laws of the State of California: 1. The Infortion provided on this Certificate of Compliance is true and correct. 2. 1 am eligible nder Division 3 of the Business and Professions Code to accept responsibility for the building design or system design identified on th Certificate of Compliance (responsible designer). 3. The energy feature performance specifications, materials, components, and manufactured devices for the building design or system design identified on th ertificate of Compliance conform to the requirements of Title 24, Part 1 and Part 6 of the California Code of Regulations. 4. The building design features or sy m design features identified on this Certificate of Compliance are consistent with the information provided on other applicable complian ocuments, worksheets, calculations, plans and specifications submitted to the enforcement agency for approval with this building permi lication. S. I will ensure that a completed signed copy of this ificate of Compliance shall be made available with the building permit(s) issued for the building, and made available to the enforcement agent all applicable inspections. I understand that a completed signed copy of this Certificate of Compliance is required to be included with the mentation the builder provides to the building owner at occupancy. Responsible Designer Name: AZsp ible Designer Signature: Company: Date Sign Address: license: City/State/Zip: Phone: CA Building Energy Efficiency Standards - 2016 Nonresidential Compliance January2016 STATE OF CALIFORNIA HVAC DRY & WET SYSTEM REQUIREMENTS CERTIFICATE OF COMPLIANCE _ _ r NRCC-MCH-02-E HVAC Dry & Wet System Requirements r (Page 2 of 3) S. Equipment Tags and System Description'- Wet Systems MANDATORY MEASURES Heating Hot Water Equipment Efficiency' Cooling Chilled and Condenser Water Equipment Efficlency3 Open and Closed Circuit Cooling Towers conductivity or flow -based controls Open and Closed Circuit Cooling Towers Maximum Achievable Cycles of Concentration (LSI)' Open and Closed Circuit Cooling Towers Flow Meter with analog output Open and Closed Circuit Cooling Towers Overflow Alarm Open and Closed Circuit Cooling Towers Efficient Drift Eliminators Pipe Insulation PRESCRIPTIVE MEASURES Cooling Tower Fan Controls Cooling Tower Flow Controls Centrifugal Fan Cooling Towers° Air -Cooled Chiller Limitations Variable Flow System Design Chiller and Boiler Isolation CHW and HHW Reset Controls WLHP Isolation Valves VSD on CHW, CW & WLHP Pumps>5HP DP Sensor Location T-24 Sections Reference to the Requirements in the Contract DocumenW 110.1 110.1,140.4(i) 110.2(e) 1 110.2(e) 2 110.2(e) 3 110.2(e) 4 110.2(e) 5 120.3 140.4(h)2, 140A(h)5 O Yes O No O Yes Q No O Yes O No 140.4(h)3 140.4(h)4 140.4(j) 140.4(k) 140.4(k) 140.4(k) 140.4(k) 140.4(k) 140.4(k) Notes: 1. Provide equipment tags (e.g. CH 1 to 3) or system description (e.g. CHW loop) as appropriate. Multiple units with common requirements can be grouped together. 2. Provide references to plans (i. e. Drawing Sheet Numbers) and/or specifications (including Section name/number and relevant paragraphs) where each requirement is specified. Enter "NIA "if the requirement is not applicable to this system. 3. The referenced plans and specifications must include all of the following information: equipment tog, equipment nominal capacity, Title 24 minimum efficiency requirements, and actual rated equipment efficiencies. Where multiple efficiency requirements are applicable (e.g. full- and part -load) include all. For chillers operating at non-standard efficiencies provide the Kadf values. For chillers also note whether the efficiencies are Path A or Path B. 4. Identify if cooling towers have propeller fans. If towers use centrifugal fans document which exception is used. S. If air-cooled chillers are used, document which exceptions have been used to comply with 140.4Q) and the total installed design capacity of the air-cooled chillers in the chilled water plant. 6. identify the existence of a completed MC14-06-E when open or closed circuit cooling towers are specified to be installed, otherwise enter "N/A". CA Building Energy Efficiency Standards - 2016 Nonresidential Compliance January 2016 ZS I A It Ur UALIf UHNIA HVAC DRY & WET SYSTEM REQUIREMENTS CEC-NRCC-MCH-02-E(Revised 01/16) CALIFORNIA ENERGY COMMISSION CERTIFICATE OF COMPLIANCE NRCC-MCH-02-E HVAC Dry System Requirements (Page 1 of 3) RejeQN.m.: f Dare Weearad: A. Equipment Tags and System Description'- Dry Systems MANDATORY MEASURES Heating Equipment Efficiency' Cooling Equipment Efficiency' HVAC or Heat Pump Thermostats Furnace Standby Loss Control Low Leakage AHUs Ventilation Demand Control Ventilations Occupant Sensor Ventilation Control' Shutoff and Reset Controls' Outdoor Air and Exhaust Damper Control Isolation Zones Automatic Demand Shed Controls Economizer FDD Duct Insulation PRESCRIPTIVE MEASURES Equipment is sized in conformance with 140.4(a&b) Supply Fan Pressure Control Simultaneous Heat/Cool' Economizer Heat and Cool Air Supply Reset Electric Resistance Heatings Duct Leakage Sealing and Testing.10 T-24 Sections Reference to the R uiremeots in the Contract Documents? 110.1 or 110.2(a) /./ 110.1 or 110.2(a) yD 110.2(b), 110.2(c) 110.2(d) 110.2(f) 120.1(b) 0 9,00 120.1(c)4 120.1(c)5,120.2(e)3 120.2(e) 120.2(f) 120.2(g) 120.2(h) 120.2(1) 120.4 140.4(a & b) Q Yes Q No Q Yes ONO Q Yes Q No 140.4(c) 140.4(d) 140.4(e) 140.4(f) 140.4(g) 140.4(1) Notes: 1. Provide equipment tags (e.g. AHU Ito 10) and system description (e.g. Single Duct VAV reheat) as appropriate. Multiple units with common requirements can be grouped together. 2. Provide references to plans the. Drawing Sheet Numbers) and/or specifications (including Section name/number and relevant paragraphs) where each requirement is specified. Enter "NIA" if the requirement is not applicable to this system. 3. The referenced plans and specifications must include all of the following information: equipment tag, equipment nominal capacity, Title 24 minimum efficiency requirements, and actual rated equipment efficiencies. Where multiple efficiency requirements are applicable (e.g. full- and part -load) include all. Where appliance standards apply (110.1), identify where equipment is required to be listed per Title 201601 et seq. 4. Identify where the ventilation requirements are documented for each central HVAC system. Include references to both central unit schedules and sequences of operation. If one or more spaces is naturally ventilated identify where this is documented in the plans and specifications. Multiple zone central air systems must also provide a MCH -03-E compliance document. S. If one or more spaces has demand controlled ventilation identify where it is specified including the sensor specifications and the sequence of operation. 6. If one or more space has occupant sensor ventilation control identify where it is specified including the sensor specifications and the sequence of operation 7. If the system is DDC identify the sequences for the system start/stop, optimal start, setback (if required) and setup (if required). For all systems identify the specification for the thermostats and time clocks (if applicable). 8. Identify where the heating, cooling and deadband airflows are scheduled far this system. Include a reference to the specification of the zone controls. Provide a MCH -03-E compliance document. 9. Enter N/A if there is no electric heating. If the system has electric heating indicate which exception to 140.4(g) applies. 10. If duct leakage sealing and testing is required, a MCH -04-A compliance document must be submitted. 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S Sa pg a, P.3mx 3 N o M- 0 N' f o z m$ a m H w+ 3^ a N n m w o c m W a u C °° 0 o'n a W o p, o z< 3 0 o a 3_ Si ^ O w m O 0 ° 0N b m p o C -O A 2 40 w n p �° 3 m p N 3 3 90 H p m¢ 9 3 o 3 — ' '23v oc mo .27 o fl .o b �• N D O w 3 O 0 w m e f c oa' o m m C d O �• $ $ o m ((Z�� d [p£ n 3 3c i> 0 3 3 o v N m m N^ �osN w o 3 3 c n O ? p O n0 3 N 3 n n � � o 0 a o o 9 n x Q m Owu S 9VIXOa AVA n a�-.,[lO IN I6I�I�I�I VHva WiJNIW I_ 3ld03d d0'WON NOSN3d aid W3J x 1NVd =0 A8 W13 NIW AS r r 9 IJo $ y� ,,� r haoli0 xvwl VI v1 V1 h Moliaro S311d-W0J 6` 000 -NON < %OV000%OSI 0 �A U1 W d N O UI (p aro n� 9N1100JAavw18a $ , (0 Ho 3 W V4100V IND s IV3H3a wn txvW v a Mlld-WOJ (Wd3) (300 -NON m V/N '300 %OZ) (wd31 (300 u 3 -NON do3 V/N 'a ,lo V4;0 iasno S31ld-W03 vm Owu S 9VIXOa AVA (W315A5 /3NO2 > z S AoR rai d OTC C 3 ^ lwdJl o = o Z � MOIialV 9NI100D< m m o o C 01 ANVWINd N91530 s - 'i O D? m ry N, IMJI M0I48IV ONv9-0V30 n n 3 a '8 m AaVWlad N91S30 " m° Q, D o Z c o 3 �zm�I m y {will M011alV 9NIIV314 o m m °1 AaVWlad N91530 O ZD N/A! 0003dAL la1N3 Z v (wil) MOlialV LIN m a3ASNVN1 = m I ut > V3vv 03N011-IONW A V3NV aid MJ NIW D s � a�-.,[lO IN I6I�I�I�I VHva WiJNIW I_ 3ld03d d0'WON NOSN3d aid W3J x 1NVd =0 A8 W13 NIW AS r r 9 IJo $ y� ,,� r haoli0 xvwl VI v1 V1 h Moliaro S311d-W0J 6` 000 -NON < %OV000%OSI 0 �A U1 W d N O UI (p aro n� 9N1100JAavw18a $ , (0 Ho 3 W V4100V IND s IV3H3a wn txvW v a Mlld-WOJ (Wd3) (300 -NON m V/N '300 %OZ) (wd31 (300 u 3 -NON do3 V/N 'a ,lo V4;0 iasno S31ld-W03 DESIGN PRIMARY HEATING AIRFLOW (CFM) DESIGN PRIMARY DEAD -BAND AIRFLOW )CFM) DESIGN PRIMARY COOLING AIRFLOW (CFM) ZONE/SYSTEM/ VAVBOXTAG N m o 4i a H COM -PLIES (/j a U y (larger of M or R, mo m 0 a m 'c o N/A for NOW M S" V v N DDC) Ip a Z m m '4 (CFM) JF — ,9 Cd u c « c n E c ? -- « O pj � E c E (20% DOC, N/A VI n ¢ NON -DDC) 11) Q E c > (CFM) , C _ m u u r o b U t 4 O �, [f COM -PLIES? Q- Q l� 4 MAXIMUM REHEAT %( m E ,Et Z. a CFM(MAXOFM P I �T tt 0 $$ E OR 0)at u 3c a o 5 co m= Q ;.2 c` � V G O M v u PRIMARY COOLING gy r U AIR f r O ISNON-DOC) CA to -. a > NON -DOC) "(iU"4-4 _ �r t E o Q v m o z E N (CFM) N O N COM -PLIES 46 ✓J V Y d °c c� `O Q REQ'D VENT v ti� m 0 o -O -y v n 0 v E 2 �- E Eso m m Eu v,v_oo 4 ARROW ^ (^ y m a9 m s u (CFM) u h! r 0 E v m MIN CFM BY OCCU- ^ ° v y m °" o v °u 3 u m PANT c « o y Z 3 E m C N p ^1 Q .m E .m c v o v m o m a xt�j a CFM PER PERSON a, u c D o 3 s o u m E ,° a° W c om v o rt o a m V C L C D U c 0 C Q Z C 0 y, E o 0, al- °' o m u u m Y w a a¢ v E m a m y 4cE c c oN.vcO° NUM. OF PEOPLE a` m aw E c E m 9 m v y o v w p o' moo«ocD MIN CFM BY AREA •103a Q. a y,t.w «o Z C5 t 6 E c p E � mam `w u v u �''v" z MIN CFM PER AREA '=an °u > 3`t m 3a m �v LaX'. 4 H C 0. G a OO M cc w c c c c c a °° 3 :°' ° E '= ° E o E o„- 2 m O v o y 2 L E m E •'c E E E c 9 m w 9 m CONDI-TIONED v m m y 1 o of 4>> 4° AREA 3iP ._ �n q ,c 'a m f (ft') TRANSFER AIRFLOW (CFM) �, CNTRL TYPE DDC v/NI DESIGN PRIMARY HEATING AIRFLOW (CFM) DESIGN PRIMARY DEAD -BAND AIRFLOW )CFM) DESIGN PRIMARY COOLING AIRFLOW (CFM) ZONE/SYSTEM/ VAVBOXTAG 0 4i a (/j 0 a m 'c o u c « c n E c ? -- « O � E c VI °' c 8 E c > _ m u u r o b U t 4 O if)OD C E m E m E ,Et u o Z v o 0 $$ u 3c a o 5 co m= Q ;.2 c` � V G O M yg gy r U U°? ti« m -. 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CL v o v � _ c = m N E E O N L O O O O U i— m 4.J d = N t6 tlp L @ O U N Y — .LZ U C M C7 ❑ b0 6 vOi O C .0 rn C7 ❑ C�0 u p @ O bD = i m V Y m CL O W W bn N vii tlq - m l7 Y d C s u LL u c m a o. °- Q c S m c �` Q m v ° ,m.. *' ❑C —c F m .m y m s u m ut in u. pq N j fl. �_ C N N = .� N = ut of ut b0 N a"' O. C d C G G J W C G 2 N Q LL Z z c❑c cc .'' ❑ Mr. Joe Chou M/eWork Construction, LLC October 16, 2019 Page 2 repairs of base building HVAC equipment or components, warranties on any and all items not furnished or installed by Renkow Mechanical, Inc. Our base bid price for the aforementioned scope of work is $ 1,788,455.00. Thank you for considering Renkow Mechanical, Inc. and we look forward to working with you on this project. If you have any questions in regard to this pricing, please feel free to contact me at my office. Very truly yours, RENKOW MECHANICAL, INC. M. Renkow President Rf W AfCIflhICIL 1*W COMMERCIAL • INDUSTRIAL HEATING & AIR CONDITIONING - October 16, 2019 Mr. Joe Chou WeWork Construction, LLC 1240 Rosecrans Avenue; 2nd Floor Manhattan Beach, CA 90266 Re: WeWork 2221 Park Place El Segundo HVAC Bid Dear Joe, We are pleased to submit our price for a complete tenant improvement HVAC installation pursuant to the permit set of mechanical design drawings sheet numbers M001, M002, M003, M101, M101A,'M101B, M102, M102A, M10213, M201, M201A, M201B, M202, M202A, M2026, M203, M203A, M20313, M301, M301A, M30113, M302, M302A, M30213, M303, M303A, M30313, M401, M701, M702, M801, M901 and M902 as drawn by Glumac dated 09/27/19. Included in our bid shall be the following scope of work: 91 - New LG VRF heat pump fan coil units with vibration isolation 4 - New LG wall mounted ductless fan coil units 4 - New LG roof mounted condensing units for the ductless split systems 4 - New LG condensate pumps :635 - New Titus duct mounted sidewall supply air registers $58 - New Price sidewall return air registers 10 -New Price return and exhaust air grilles 2, New Greenheck inline exhaust fans with vibration isolation 10 - New Roto -Twist cable operated volume dampers for hard lid ceilings All the necessary new supply & outside air ductwork as shown on the mechanical plans All the necessary new supply air duct Insulation per Title 24 & the specifications All the necessary new DX refrigerant piping as show on the mechanical plans All the necessary new DX refrigerant piping insulation per the specifications & Title 24 Sealing of all new duct joints Permit and inspections Independent air balance Check, test and start-up of all of the new HVAC equipment We exclude all cutting, painting, patching, line voltage wiring and conduit, low voltage conduit, motor starters, time clocks, smoke detectors, domestic plumbing, condensate drains, fire/life safety shutdown wiring, overtime, duct pressure testing, louvers, BTU meters, asbestos detection or removal, wall or ceiling access doors, coring or saw cutting, removal or replacement of ceilings, structural calculations, structural reinforcement, equipment platforms, curbs or bases, warrantees of the existing HVAC equipment, plan check fees, any items not specifically shown on the mechanical design drawings, survey or 4530 BRAZIL STREET, SUITE 4 • LOS ANGELES, CA 90039 -TEL: 818.246.7191 FAX: 818.246.7196 E-MAIL: michael@renkawmechanical.com CONTRACTOR'S STATE LICENSE N0..773622 General Information IOD Bayview Cts Building Type: r High -Rise Res Common Area �✓ Nonresidential 9 ( ) r Hotel/Motel (Common Area) Phase of Construction: r New Construction r Addition r Alteration r Unconditioned Scope of Responsibility Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy efficiency measures for the scope of responsibility for this Installation Certificate. Date: 6/11/2019 12:00:00 AM LIGHTING PLAN E1 6/11/2019 12:00:00 AM This is page 1 of 2 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT I certify that this Certificate of Acceptance document is accurate and complete. Company Name Documentation Author Rusty Espinoza Name AddressCity 3069 c mire Irma Zip Code 92806 Phone CEA/ATT Certification Author Signature Identificati9L� 4 applicable) Date of Signature: 09/25/2019 Sunwest Electric, Inc. Anaheim (714)264-8278 RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of perjury, under the laws of the State of California: 1. 1 am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and 1 have 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 substantlates 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 NA7. 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. S. 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 Sunwest Electric, Inc. Person Name Rusty Espinoza Address:City Anaheim 3064 a mira loma Zip Code 92806 CSLB License c.,co Responsible Acc/ptance Pe� Signature Date of 5113weeefe: 09/25/2019 Phone (714)264-8278 Position with Company Project Manager (Title) This is page 2 of 2 INDOOR LIGHTING NRCI_LTI_02_E We WOrks Bayview Orange General Information Building Type: F Nonresidential r High -Rise Res (Common Area) r Hotel/Motel (Common Area) Phase of Construction: r New Construction r Addition V Alteration r Unconditioned Scope of Responsibility Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy efficiency measures for the scope of responsibility for this Installation Certificate. Date: 6/11/2019 12:00:00 AM §130.4(b) Before an Energy Management Control System (EMCS), or Lighting Control System can be recognized for compliance with the lighting control requirements in Part 6 of Title 24, the person who is eligible under Division 3 of the Business and Professions Code to accept responsibility for the construction or installation of features, materials, components, or manufactured devices shall sign and submit this Installation Certificate. If any of the requirements in this Installation Certificate fail the Energy Management Control System or Lighting Control System installation requirements, these options for controlling lighting shall not be recognized for compliance with the Building Energy Efficiency Standards. Check all that apply PART 1 What type of Lighting Control System has been installed? F A. Energy Management Control System (EMCS) - Is a computerized control system designed to regulate the energy consumption of a building by controlling the operation of energy consuming systems, such as the heating, ventilation and air conditioning (HVAC), lighting, and water heating systems, and is capable of monitoring environmental and system loads, and adjusting HVAC operations in order to optimize energy usage and respond to demand response signals. r The Energy Management Control System has been installed to function as a lighting control required by Part 6 and functionally meets all applicable requirements for each application for which it is installed, in accordance with Sections 110.9, 130.0 through 130.5, 140.6 through 150.0, and 150.2; and complies with Reference Nonresidential Appendix NA7.7.2. V The EMCS has been separately tested for each respective lighting control system for which it is installed to function as. r B. Lighting Control System - Requires two or more components to be installed in the building to provide all of the functionality required to make up a fully functional and compliant lighting control. This is page 1 of 5 The installed Lighting Control System complies with the requirements checked below; and all components of the system considered together as installed meet all applicable requirements for the application for which they are installed as required in Sections 130.0 through 130.5, Sections 140.6 through 140.8, Section 141.0, and Section 150.0(k). PART 2 Lighting Control Functional requirements: Check all that apply when verifying the installation of an EMCS or Lighting Control System. P A. All lighting controls and equipment have been installed in accordance with the manufacturer's instructions. !✓ B. The manufacturer has provided instructions for calibration. P C. If indicator lights are integral to any components, such indicator lights consumes no more than 1 watt of power per indicator light. P D. Components that are regulated by the Title 20 Appliance Efficiency Regulations have been certified to the Energy Commission. P E. The EMCS or Lighting Control System functions as one or more of the Time -Switch Lighting Controls checked below, and complies with all of the following requirements: P 1. Automatic Time -Switch Controls meeting all requirements for Automatic Time Switch Control devices in the Title 20 Appliance Efficiency Regulations, including the requirements below: a. Residential automatic time -switch controls have program backup capabilities that prevent the loss of the device's schedule for at least 7 days, and the device's date and time for at least 72 hours if power is interrupted. b. Commercial automatic time -switch controls meet the following requirements: I. Has program backup capabilities that prevent the loss of the device's schedule for at least 7 days, and the device's date and time for at least 72 hours if power is interrupted U. Is capable of providing manual override to each connected load and shall resume normally scheduled operation after manual override Is initiated within 2 hours for each connected load and iii, Incorporates an automatic holiday shutoff feature that turns off all connected loads for at least 24 hours and then resumes normally scheduled operation. fJ 2. Astronomical Time -Switch Controls meeting all requirements for Astronomical Time -Switch Control devices in the Title 20 Appliance Efficiency Regulations, including the requirements below: a. Meets the requirements of an automatic time -switch control b. Has sunrise and sunset prediction accuracy within plus -or -minus 15 minutes and timekeeping accuracy within 5 minutes per year c. Is capable of displaying date, current time, sunrise time, sunset time, and switching times for each step during programming d. Has an automatic daylight savings time adjustment; and e. Has the ability to independently offset the on and off for each channel by at least 99 minutes before and after sunrise or sunset. 3. Multi -Level Astronomical Time -Switch Controls, in addition to meeting all of the requirements for rronomicall Ast Time -Switch Controls, includes at least 2 separately programmable steps per zone. i� F. The EMCS or Lighting Control System functions as one or more of the Daylighting Controls listed below: This is page 2 of 5 F 1. Automatic Daylight Controls meet all requirements for Automatic Daylight Control devices in the Title 20 Appliance Efficiency Regulations, including the following: a. Is capable of reducing the power consumption in response to measured daylight either directly or by sending and receiving signals; b. If the system includes a dimmer, complies with the Dimmer Control device requirements In the Title 20 Appliance Efficiency Regulations. c. Automatically return to its most recent time delay settings within 60 minutes when put in calibration mode; d. Has a set point control that easily distinguishes settings to within 10 percent of full scale adjustment; e. Has a light sensor that has a linear response within 5 percent accuracy over the range of illuminance measured by the light sensor; f. Has a light sensor that is physically separated from where the calibration adjustments are made, or is capable of being calibrated in a manner that the person initiating the calibration is remote from the sensor during calibration to avoid influencing calibration accuracy; and g. Complies with the Title 20 requirements for photo controls if the system contains a photo control component. i✓ 2. Photo Controls meet all requirements for Photo Control devices in the Title 20 Appliance Efficiency Regulations, including the following that it does not have a mechanical device that permits disabling of the control. GR G. The EMCS or Lighting Control System functions as a Dimmer and meets all requirements for a Dimmer Control device in the Title 20 Appliance Efficiency Regulations, including the following: 1. Is capable of reducing power consumption by a minimum of 65 percent when the dimmer is at Its lowest level; 2. Includes an off position which produces a zero lumen output; and 3. Does not consume more than 1 watt per lighting dimmer switch leg when In the off position. 4. Dimmer controls that can directly control lamps provide electrical outputs to lamps for reduced flicker operation through the dimming range so that the light output has an amplitude modulation of less than 30 percent for frequencies less than 200 Hz without causing premature lamp failure. 5. If designed for use in three way circuits is capable of turning lights off, and to the level set by the dimmer if the lights are off. iJ H. The EMCS or Lighting Control System meets the following requirements: 1. Is capable of automatically turning off controlled lights in the area no more than 30 minutes after the area has been vacated; 2. Allows all lights to be manually turned off regardless of the status of occupancy; and 3. Has a visible status signal that indicates that the device is operating properly, or that it has failed or malfunctioned. The visible status signal may have an override switch that turns off the signal. 4. All occupant sensing devices that utilize ultrasonic radiation for detection of occupants meet the Ultrasound Maximum Decibel Values in the Title 20 Appliance Efficiency Regulations 5. All occupant sensing devices that utilize microwave radiation for detection of occupants meet the radiation requirements in the Title 20 Appliance Efficiency Regulations 6. Occupant sensing devices incorporating dimming comply with the requirements for dimmer controls in the Title 20 Appliance Efficiency Regulations 7. The EMCS or Lighting Control System functions as one or more of the Occupant Sensing Controls Checked Below: W a. Occupant Sensors meeting all applicable requirements for Occupant Sensor Control devices in the Title 20 Appliance Efficiency Regulations fJ b. Motion Sensors meeting all applicable requirements for Motion Sensor Controls devices in the Title 20 Appliance Efficiency Regulations, including that motion sensors are rated for outdoor use, r c. Vacancy Sensors meeting all applicable requirements for Vacancy Sensor Controls devices in the Title 20 Appliance Efficiency Regulations, including the following: 1. Does not turn on lighting automatically and does not incorporate DIP switches, or other manual means, for conversion between manual and automatic functionality; ii. Has a grace period of no more than 30 seconds and no less than 15 seconds to turn on lighting automatically after the sensor has timed out; and iii. Does not have an override switch that disables the sensor. This is page 3 of 5 We F d. Partial -ON Sensors meeting all applicable requirements for partial on sensing devices in the Title 20 Appliance Efficiency Regulations, Including the following: i. Has two poles each with automatic -off functionality; li. Has one pole that is manual -on and does not incorporate DIP switches, or other manual means, for conversion between manual and automatic functionality; and iii. Has one pole that is automatic -on and Is not be capable of conversion by the user to manual -on functionality. e. Partial -OFF Sensors meet all applicable requirements for partial off sensing devices in the Title 20 Appliance Efficiency Regulations, including the following: I. Has two poles; ii. Has one pole that is manual -on and manual off; and iii. Has one pole that is automatic -on and automatic -off and is not capable of conversion by the user to manual -on only functionality. r f. Occupant Sensing Control systems consist of a combination of single or multi-level Occupant, Motion, or Vacancy Sensor Controls, and all components installed to comply with manual -on requirements are not capable of conversion by the user from manual -on to automatic -on functionality. PART 3 Requirements for which the control is being installed to complied with: Identify all requirements in the Standards for which the EMCS or Lighting Control System is installed to function as and complies with: Check all that are applicable. 7 A. Section 130.1(a) Area Controls. F B. Section 130.1(b) Multi -Level Lighting Controls F C. Section 130.1 (c) Shut -OFF Controls W D. Section 130.1 (d) Automatic Daylighting Controls. F E. Section 130.1 (e) Demand Responsive Controls. r F. Section 130.5 (d) Circuit Controls for 120 -Volt Receptacles. F G. To qualify for the PAF for a Partlal-ON Occupant Sensing Control in TABLE 140.6-A r H. To qualify for the PAF for an occupant sensing control controlling the general lighting in large open plan office areas above workstations, in accordance with TABLE 140.6-A F I. To qualify for the PAF for a Manual Dimming System PAF or a Multiscene Programmable Dimming System PAF In TABLE 140.6-A r ]. To qualify for the PAF for a Demand Responsive Control in TABLE 140.6-A F K. To qualify for the PAF for Combined Manual Dimming plus Partial -ON Occupant Sensing Control in TABLE 140.6-A This is page 4 of 5 CERTIFICATE OF INSTALLATION WCI-LTI-02-E ,,..s,,,,,,s.............n..... Project Name: We Works Bayview Enforcement Agency: CITY OF NEWPORT BEACH Permit Number: X2019-120] Project Address: 100 BAWIEW City: Newport Beacb Zip Code: 92660 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT I certify that this Certificate of Acceptance document is accurate and complete. Documentation Author Company Name Sunwest Electric, Inc. Rusty Espinoza Name Address City Anaheim 3064 a mire tomo Zip Code 92606 Phone (714)264-8278 CEA/ATT Certification Author Signature Identification (if TC -A813874 applicable) Date of Signature: 09/25/2019 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 eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design, am 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). that the construction or installation Identified on this Certificate of Acceptance 3. The Information provided on this Certificate of Acceptance substantiates 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 NA7. for or Installation Identified on this Certificate of Acceptance has been completed and 4. I have confirmed that the Certificate(s) of Installation the construction Is posted or made available with the building permit(s) Issued for the building. Certificate Acceptance shall be posted, or made available with the building permit(s) Issued for the 5. I will ensure that a completed, signed copy of this of 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 Sunwest Electric, Inc. Rusty Espinoza Person Name Atltlress:City Anahelm 3064 a mira tomo Zip Code 92806 Phone (714)264-8278 CSLB License Position with Company 511697 (Title) project Manager Responsible Acceptance Person Signature Date of Signature: 09/25/2019 This is page 5 of 5 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 e a. All automatic time switch controls are programmed for (check all): P Weekdays 7 Weekend r Holidays b. Document for the owner automatic time switch programming (check all): r Weekday settings r Weekend settings r Holidays settings r Set-up settings I7 Preference program setting 7 Verify the correct time and date is properly set in the time switch P Verify the battery is installed and energized r Override time limit is no more than 2 hours V 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 F Occupancy sensors are not located within 4. feet of any HVAC diffuser r Ultrasonic occupancy sensors do not emit audible sound 5 feet from source This is page 1 of 47 B. Functional Testing of Lighting Controls For every space in the building, conduct functional tests 1 through S 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: PANTRY Space Type (office, corridor, etc) PANTRY Untested areas/rooms 0 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)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) 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) b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. 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 This is page 2 of 47 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 v 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. rJ Light level may be used as a proxy for lighting power when measurements are taken Step 2: Simulate an occupied condition The occupant sensing controls shall turn lights fully ON in each separately controlled r areas, Immediately upon an occupied condition y 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 1000% of the lighting power, and manually r deactivate all of the lights. Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 r adjacent to the controlled space or from HVAC operation. This is page 3 of 47 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ftl-, 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 r the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 4 of 47 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). 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 S. Occupant Sensor serving small zones for PAF (ail answers must be Yes). Also must pass Test 2. C Representative Spaces Selected Tested space/room name: LARGE PRIVATE OFFICE Space Type (office, corridor, etc) LARGE PRIVATE OFFICE Untested areas/rooms 0 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. b. Manual override switch controls only the lights In the selected ceiling height partitioned space where the override switch Is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key type) r Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 5 of 47 It. The occupant sensor does not trigger a false 'on' from movement in an area F adjacent to the controlled space or from HVAC operation. Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly I✓ 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 rV 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) It. 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. I✓ 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 800/o 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 17 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 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. This is page 6 of 47 OF 92660 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 r adjacent to the controlled space or from HVAC operation. This is page 7 of 47 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft r 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 f:2 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 r the PAF claimed In the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 8 of 47 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). r 3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library book stacks, corridors, stairwells in nonresidential buildings must also be r accompanied by passing Test 1 or Test 2. 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: IT room Space Type (office, corridor, etc) IT ROOM Untested areas/rooms 0 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 F which the switch is located. Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may i✓ 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 r type). Step 3: System returned to initial operating conditions 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 9 of 47 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) b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. 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 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 (✓ 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 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. This is page 10 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r 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 r adjacent to the controlled space or from HVAC operation. This is page 11 of 47 OFACCEPTANCE 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 112 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 r the PAF claimed In the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted In Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 12 of 47 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. 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: CORRIDOR Space Type (office, corridor, etc) CORRIDOR Untested areas/rooms 0 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 F which the switch is located. Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may F 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). F Step 3: System returned to initial operating conditions I✓ 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 13 of 47 CERTIFICATE OF ACCEPTANCE NRCA-LTI-02-A Liglrt'vr Cnntml 8 Project Name: We Works Beyview Enforcement Agency: CITY OF NEWPORT BEACH Permit N: J(2019-120] Project Address: 100 BAYVIEW City: Newport Beacfi 9266 Zip Code: 92660 a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation, r Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly It. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually 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. 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 60% or less of the value allowed under the Area Category Method. rJ 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 rJ 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. 7: 1 This is page 14 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 r adjacent to the controlled space or from HVAC operation. This is page 15 of 47 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 1`1:2 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 r the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 16 of 47 C. Testing Results 1. Automatic Time Switch Controls (ail answers must be Yes). 2. Occupancy Sensor (On Off Control) (all answers must be Yes). 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. 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: COMMUNITY BAR Space Type (office, corridor, etc) COMMUNITY BAR Untested areas/rooms 0 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. r Step 2: Simulate unoccupied condition a. All lighting, including emergency and egress lighting, turns off, Exempt lighting may r remain on per Section 130.1(c)1 and 130.1(a)1. b. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key r type). Step 3: System returned to initial operating conditions F 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 17 of 47 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) 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 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. I✓ 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 F10 - Step 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 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 It. 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. This is page 18 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 19 of 47 5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft r 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 r the PAF claimed In the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces r f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 20 of 47 OF 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. 4. Partial On Occupant Sensor for PAF (all answers must be Yes). 7r- 5. 5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must P pass Test 2. Representative Spaces Selected Tested space/room name: HOT DESK AREA Space Type (office, corridor, etc) HOT DESK AREA Untested areas/rooms 0 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 rj 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. 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 r type). Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 21 of 47 CERTIFICATE OF ACCEPTANCE NRCA-LTI-02-A Project Name: We Works Bayview JEnfomement Agency: CITY OF NEWPORT BEACH N it Number. X2019-120] Project Address: 100 BAYVIEW 1Ci1, Newpon Beach IlZi, Code: 92660 a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes from start of an unoccupied condition per Standard Section 110.9(b) r b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly b. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually 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) 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 WV 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 rJ 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. This is page 22 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 23 of 47 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 r the PAF claimed in the compliance documentation (line c). 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)' F and all answers are Yes. This is page 24 of 47 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. 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: large conference room Space Type (office, corridor, etc) large conference room Untested areas/rooms 0 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 It. 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)i. b. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key type). Step 3: System returned to initial operating conditions 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 25 of 47 loo 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) 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 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 FrI 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 So% 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 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. This is page 26 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 r adjacent to the controlled space or from HVAC operation. This is page 27 of 47 5. Add}tional 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 r workspaces f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 28 of 47 ACCEPTANCE 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 F accompanied by passing Test 1 or Test 2. 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: SMALL PRIVATE OFFICE Space Type (office, corridor, etc) SMALL PRIVATE OFFICE Untested areas/rooms 0 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 r remain on per Section 130.1(c)1 and 130.1(a)1. b. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch Is captive key type) r Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 29 of 47 It. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition 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 rV manually 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 r unoccupied condition per Standard Section 110.9(a) b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. For library book stacks or warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in the aisle or stack. r c. In the partial off state, lighting shall consume no more than SO% 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 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. This is page 30 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r 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 r adjacent to the controlled space or from HVAC operation. This is page 31 of 47 5. AdVional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than 250 ft , to Qualify for a Power Adjustment Factor (PAF) Step 0: First, complete Functional Test 2 (above) for each controlled zone. Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2. a. Area served by controlled lighting ft2 b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2). c. Enter PAF claimed for occupant sensor control in this space from the Certificate of Compliance. d. The PAF corresponding to the controlled area (line b), is greater than or equal to r the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 32 of 47 C. Testing Results 1. Automatic Time Switch Controls (ail 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. 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: LOUNGE Space Type (office, corridor, etc) LOUNGE Untested areas/rooms 0 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 F 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). F Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 33 of 47 CERTIFICATE OF ACCEPTANCE NBCA-LTF02-A 6lnh6re Cmrnol Projeol Name: We Works Bayview Enforcement Agency: CITY OF NEWPORT BEACH Permit Number: X2019-1207 Pmjnt Address: 100 BAYVIEW City: Newport Beach Zip Code: 92660 a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes r from start of an unoccupied condition per Standard Section 110.9(b) b. The occupant sensor does not trigger a false 'on' from movement in an area 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 W 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) rI. 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. rV 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 pr 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. This is page 34 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 r. adjacent to the controlled space or from HVAC operation. This is page 35 of 47 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 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 r the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or workspaces r f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 36 of 47 ACCEPTANCE 100 BAYVIEW 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 (ail answers must be Yes). For warehouses, Ilbrary 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). Ill - 5. 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: SMALL CONFERENCE ROOM Space Type (office, corridor, etc) SMALL CONFERENCE ROOM Untested areas/rooms 0 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 areacontrol switch r It. 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 r remain on per Section 130.1(c)1 and 130.1(a)1. It. Manual override switch controls only the lights in the selected ceiling height partitioned space where the override switch Is located and the lights remain on no longer than 2 hours (unless serving public areas and override switch is captive key type). Step 3: System returned to initial operating conditions 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 37 of 47 OFACCEPTANCE fNiilYRy.1�AI•SO:i�Ua•RNa 100 BAYVIB W 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) U 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 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 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. This is page 38 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 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 r adjacent to the controlled space or from HVAC operation. This is page 39 of 47 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 to. 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 r the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces f. All steps are conducted In Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 40 of 47 We 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. i✓ 4. Partial On Occupant Sensor for PAF (all answers must be Yes). r 5. Occupant Sensor serving small zones for PAP (all answers must be Yes). Also must r pass Test 2. Representative Spaces Selected Tested space/room name: OPEN OFFICE AREA Space Type (office, corridor, etc) OPEN OFFICE AREA Untested areas/rooms 0 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)1 and 130.1(a)i. 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) Cv Step 3: System returned to initial operating conditions r 2. Occupancy Sensors Step 1: Simulate an unoccupied condition This is page 41 of 47 Code : 92660 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) b. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r Step 2: Simulate an occupied condition a. Status indicator or annunciator operates correctly r b. Lights controlled by occupancy sensors turn on immediately upon an occupied condition OR sensor indicates space is 'occupied' and lights may be turned on manually r Step 3: System returned to initial operating conditions IWO 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 W 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 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. This is page 42 of 47 Step 2. Simulate an unoccupied condition a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r minutes from start of an unoccupied condition per Standard Section 110.9(a) It. The occupant sensor does not trigger a false 'on' from movement in an area adjacent to the controlled space or from HVAC operation. r This is page 43 of 47 OP 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 ft` b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for PAF=0.4, 126-250 ft2 for PAF=03, 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 P the PAF claimed in the compliance documentation (line c). e. Sensors shall not trigger in response to movement in adjacent walkways or r workspaces F. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r and all answers are Yes. This is page 44 of 47 We C. Testing Results 1. Automatic Time Switch Controls (all answers must be Yes). Fry - 2. 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 S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r pass Test 2. D. Evaluation : P PASS: All applicable Construction Inspection responses are complete and all applicable Equipment Testing Requirements responses are positive. This is page 45 of 47 CERTIFICATE OF ACCEPTANCE NRCA-LTI-02-A Project Name:We WOrks Bayview Enfomemcat Agency: CITY OF NEWPORT BEACH Permit Nunrbee X2019-120] Project Address: 100 BAYVIEW City: Newport Heach Zip Code:92660 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT I certify that this Certificate of Acceptance documentation is accurate and complete. Documentation Author Company Name Sunwest Electric, Inc. Rusty Espinoza Name Address City Anaheim 3064 E Miraloma Ave Zip Code 92806 ( Phone 714)264-8278 CEA/ATT Certification Author Signature Identification (if TC-AB13874 applicable) Date of Signature: 09/25/2019 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. 1 am the person who performed the acceptance verification reported on this Certificate of Acceptance (Field Technician). 3. The construction or installation identified an 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 NA7. 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 Rusty Espinoza Company Name Sunwest Electrc, Inc. Address: City Anaheim 3064 E Miraloma Ave Zip Code 92806 ( Phone 714)264-8278 ATT Certification Position with Company er Manaact TC-AS13874 Project g Identification (Title) Field Technician Sig are D - - 09/25/2019. 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 an my behalf as my employee or my agent and I have reviewed the Information provided on this Certificate of Acceptance. 2, 1 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 NA7. 4. I have confirmed that the Certlflcate(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. 1 will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the building permits) 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 Sunwest Electric, Inc. Rusty Espinoza Person Name Address: 3064 E Miraloma Ave City Anaheim Zip Cade 92606 ( Phone 714)264-8278 CSLB License Position with Company PM 511697 (Title) Responsible Acce anc arson Signature Date of Signature: 09/25/2019 This is page 46 of 47 This is page 47 of 47 AUTOMATIC DAYLIGHTING CONTROL ACCEPTANCE DOCUMENT 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 Construction Inspection. This page required for all submittals. 1&2 O NRCA-LTI-03-A Page Continuous dimming control functional performance test—watt-meteroramp-meter measurement 3&4 ❑ NRC LTI-03-A Page Stepped Switching/ Stepped Dimming functional performance test —watt -meter or amp -meter measurement 13 NRCA-LTI-03-A Page Continuous dimming control functional performance test— light meter power measurement, and default look -up 7&8 table of fraction of rated power versus fraction of rated Iightoutput. E3 NRCA-LTI-03-A Page Stepped Switching( Stepped Dimming functional performance test— based on light output 9&10 1. NA7.6.1.1 Construction Inspection: 1. Drawing of Daylit 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 R's EI.01 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) PRIVATE OFFICE PRIVATE OFFICE Plans Page Number E1 Check If Tested Control Is Representative of Sample 2. System Information Zone Type: Skylit (Sky), Primary Sidelit (PS), or Secondary Sidelit (SS) Control Type: Continuous Dimming with more than 10 light levels (C), Stepped Dimming (SD), Switching (SW) Design Footcandles: (Enter footcandle (fc) value or "U" if unknown): Control Loop Type: Open Loop (OL), Closed Loop (CL) Sensor Location: Outside (0), Inside Skylight (IS), Near Windows facing out (NW), In Controlled Zone (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). Control Adjustments are in Appropriate Location (Yes/No): Yes, If Readily Accessible or Yes if In Ceiling less than or equal to 11 it, PS C OL NW Yes 1 II This is page I of 11 CERTIFICATE OF ACCEPTANCE NRCA-LTI-03-A Automatic Dayliglding Control Project Name: We Works BoyviewEnforcement Agency: CITY OF NEWPORT BEAC14 jPcpaut Number. X2019-1207 Project Address: 1001i City: Newport Beach Zip Code:92660 No for all other. 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) E1.01 5. Separate Controls of Luminaires in Daylit Zones: Are luminaires controlled by automatic daylighting controls only in dayllt zones: (Yes/No) Yes Separately circulted for dayllt zones by windows and dayllt zones under skylights: (Yes/No) Yes 6. Dayfi hting 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 i & 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 & 2 are complete and all Yes/No questions have a Yes (Y) response, the tests PASS r 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)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 2 of 11 2. NA7.6.1.2.1 Functional Performance Testing — Continuous Dimming Systems: Power estimation using light meter measurement Complete all tests on page 7 & 8 (No Daylight Test, Full Daylight Test, and Partlal Daylight Test) and fill out Pass/Fall section on Page B. PRIVATE OFFICE Svstem Information a. Control Loop Type: Open Loop or Closed Loop? (O or C) 0 b. Indicate if Mandatory control - M (required for skylit zone or primary sidelit zone with Installed general lighting power > 120 W); 22 For Control Credit - CC; or Voluntary not for credit -V (M, CC, V) 1 37.93103448275BJ2 c, If automatic daylighting controls are mandatory, are all general lighting luminaires in tlaylit zones controlled by automatic Yes daylight controls? (Yes/No) FO d. General lighting design footcandles. (Enter footcandle (FC) value, or "U" if unknown,) Yes e. Power estimation method. (see line q) Default ratio of power to Ilght (Dfc), cut -sheet ratio of power to light (CSfc) IF CSFs - Dfc attach cut -sheet, Enter Dfc or CSO 44 Step 1: Identify Reference Location (location where minimum daylight Illuminance Is measured in zone served by the controlled lighting.) 7q f. Method Used: Illuminance or Distance? (I or D) 22 Override daylight control system and drive electric lights to highest light level for the following: 1 37.93103448275BJ2 g. Highest light level fc - enter measured controlled electric lighting footcandles (fc) 58 Jr. Indicate whether this Is Full Output (FO), or Task Tuned (Lumen Maintenance) (TT) FO Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location Yes I. Method Used: Night time manual measurement (Night), Night Time Illuminance Logging (Log), Cover Fenestration (CF), Cover Open Loop Photosensor (COLP) Niqht J. Reference Illuminance (footcandles) as measured at Reference Locatlon (see Step 1). Enter footcandles 44 k. Enter Y if either of the following statements are true: if line h = F0; [Reference Illuminance (line j)] / [Full Output fc (line g)] > 70%? or [Reference Illuminance (line j)] / [design Footcandles (line d)] > 80167 (Yes/No) Yes Step 3: Full Daylight Test conducted when daylight > 150% of reference illuminance (line j) 1. Daylight Illuminance (light level with electric lighting turned off) measured at Reference Location (fc) 52 no. Daylight Illuminance (line I) greater than Reference Illuminance (line j)? (Yes/No) Yes Fill nut li n thrrvvsh t nnly if wlartrir linhtinn is turnwd dnwn nr nff- n. Total (daylight + electric light) illuminance measured at the Reference Location (fc). 7q o. Electric lighting Illuminance at the Reference Location (fc) [(line n) - (line 1)]. 22 p. Electric lighting Illuminance (line o) divided by Highest Light Level fc (line g). Enter %. 1 37.93103448275BJ2 q. Dimmed luminalre fraction of rated power, Attach manufacturer's cut -sheet or use default graph of rated power to light output. Label applicable control system on cut -sheet or graph. Enter fraction of rated power In %. li c System Power Reduction = [1 - line q] 89 s. Is System Power Reduction (line r) > 65% when line h = F0, or > 56% when fine h = TT (Yes/No). Yes I. With uncontrolled lights also on, no lamps dimmed outside of tlaylit zone by control (Yes/No). Yes u. Dimmed lamps have stable output, no perceptible flicker (Yes/No). Yes This is page 3 of 11 V. 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 u.) Does the system automatically turn OFF the luminaires when full daylight is available? (Yes/No) Stan 4: Partial Davliaht Test conducted when davliaht between 60% and 95% of (line D. Yes W. Daylight Illuminance (light level without electric light) measured at Reference Location (to). 38 x. Daylight Illuminance divided by the Reference Illuminance = (line w )/ (line J). Enter %. 8 6.363636363636 6 y. Is Ratio of Daylight illuminance to Ref. illuminance (line x) between 60% and 95%? (Yes/No). Yes z. Total (daylight + electric light) Illuminance measured at the Reference Location (fc), 55 aa. Total Illuminance divided by the Reference Illuminance = (line z )/ (line J), Enter %. 125 bb. Is Total Illuminance divided by the Reference Illuminance (line aa) between 100% and 150%? (Yes/No). Yes PASS/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)30. Fix problem(s) and retest until the systemic) 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. LOUNGE LOUNGE Plans Page Number El Check if Tested Control Is Representative of Sample r 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): Yes 3. Sensors and Controls Control Loop Type: Open Loop (OL), Closed Loop (CL) OL Sensor Location: Outside (0), Inside Skylight (IS), Near Windows facing out (NW), In Controlled Zone (CZ) NW Sensor Location Is Appropriate to Control Loop Type: (Yes/No) If control loop type is Open Loop (DL): Enter yes (Y) If location = Yes 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). Control Adjustments are in Appropriate Location (Yes/No): Yes, If Readily Accessible or Yes if In Ceiling less than or equal to 11 ft, Ves No for all other, 4. Has Documentation Been Provided by the Installer: Installation Manuals and Calibration Instructions Provided to Building Owner: (Yes/No) Yes This is page 4 of 11 OF G111:lilL'YMJxAtla Location of Light Sensor on Plans: (Yes/No) Yes Location of Light Sensor on Plans: (Page Number) EI S. Separate Controls of Luminaires in Daylit Zones: luminaires controlled by automatic dayiighting controls only In daylit zones: (Yes/No)eparately PSre circuited for daylit zones by windows and daylit zones under skylights: (Yes/No) Yes 6. Daylighting Control Device Certification Daylighting control has been certified in accordance with 5110.9: (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 & 2 are complete and all Yes/No questions have a Yes (Y) response, the tests PASS r 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 30- 103(a)3B. Fix fumblem(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 5 of 11 2. NA7.6.1.2.1 Functional Performance Testing — Continuous Dimming Systems: Power estimation using light meter measurement Complete all tests on page 7 & 8 (No Daylight Test, Full Daylight Test, and Partial Daylight Test) and fill out Pass/Fail section on Page 8. LOUNGE Svstem Information a. Control Loop Type: Open Loop or Closed Loop? (0 or C) 0 It, Indicate if Mandatory control - M (required for skylit no or primary sidelit zone with Installed general lighting power > 120 W); Yes for Control Credit - CC; or Voluntary not for credit -V (M, CC, V) 35.483870967741 3 c. If automatic daylighting controls are mandatory, are all general lighting luminaires in daylit zones Controlled by automatic Yes daylight controls? (Yes/No) 56 d. General lighting design footcandles. (Enter footcandle (FC) value, or "U" if unknown.) Yes e. Power estimation method, (see line q) Default ratio of power to light (Dfc), cut -sheet ratio of power to light (CSfc) If CSFc - Dfc attach cut -sheet. Enter Dfc or CSfc Yes 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? (1 or D) I. Highest light level fc - enter measured controlled electric lighting footcandles (fc) h. Indicate whether this is Full Output (FO), or Task Tuned (Lumen Maintenance) (TT) I. Method Used: Night time manual measurement (Night), Night Time Illuminance Logging (Log), Cover Fenestration (CF), Cover Open Loop Photosensor(COLP) Night J. Reference Illuminance (footcandles) as measured at Reference Location (see Step 1). Enter footcandles 48 R, Enter Y if either of the following statements are true: If line h = FO; [Reference Illuminance (line j)] / [Full Output Fc (line g)] > Yes 70%? or [Reference Illuminance (line j)] / [design Footcandles (line d)] > 809/0 (Yes/No) 35.483870967741 3 Step 3: Full Daylight Test conducted when daylight > 150% of reference illuminance (line j) 10 L Daylight Illuminance (light level with electric lighting turned off) measured at Reference Location (fc) 56 m. Daylight Illuminance (line 1) greater than Reference Illuminance (line j)? (Yes/No) Yes Fill out lines o throuah t only if electric liahtina is turned down or off. n. Total (daylight + electric light) Illuminance measured at the Reference Location (fc). 78 o. Electric lighting illuminance at the Reference Location (fc) [(line n) - (line I)]. 22 p. Electric lighting Illuminance (line o) divided by Highest Light Level fc (line g). Enter -A. 35.483870967741 3 q. Dimmed luminalre fraction of rated power. Attach manufacturer's cut -sheet or use default graph of rated power to light output. 10 Label applicable control system on cut -sheet or graph. Enter fraction of rated power In %. r. System Power Reduction = [i - fine q] 90 s. Is System Power Reduction (line r) > 65% when line h = F0, or > 56% when line h = TT (Yes/No). Yes t. With uncontrolled lights also on, no lamps dimmed outside of daylit zone by control (Yes/No). Yes I. Dimmed lamps have stable output, no perceptible flicker (Yes/No). Yes This is page 6 of 11 ACCEPTANCE hIg1/•SN:iY:3N:[N:I v. 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 1. thru u.) Does the system automatically turn OFF the luminaires when full daylight Is available? (Yes/No) Steo 4: Partial Daviiaht Test conducted when daviiaht between 60% and 95% of (line D. Yes W. Daylight Illuminance (light level without electric light) measured at Reference Location (fc). 41 x. Daylight illuminance divided by the Reference Illuminance = (line w )/ (line j). Enter %. 85.41666666666616 y. Is Ratio of Daylight illuminance to Ref. illuminance (line x) between 60% and 95%? (Yes/No). Yes z. Total (daylight + electric light) illuminance measured at the Reference Location (fc). 59 aa. Total illuminance divided by the Reference Illuminance = (line z )/ (line j), Enter %. 122.91666666666 6 bb. is Total Illuminance divided by the Reference Illuminance (line aa) between 100% and 150%7 (Yes/No). Yes PASS/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)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. RECEPTION RECEPTION Plans Page Number E1 Check if Tested Control is Representative of Sample r 2. System Information Zone Type: Skylit (Sky), Primary Sldellt (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) OL Sensor Location: outside (0), Inside Skylight (IS), Near Windows facing out (NW), In Controlled Zone (CZ) NW Sensor Location is Approprate 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 Reatllly Accessible or Yes if In Ceiling less than or equal to ft, No far all other. Yes 4. Has Documentation Been Provided by the Installer: Installation Manuals and Calibration Instructions Provided to Building Owner: (Yes/No) Yes This is page 7 of 11 CERTIFICATE OF ACCEPTANCE I JNRCA-LTI-03-A „.u......i,. ,>,vs.....s.,......... Project Name: We WOrks Bayview Enforcement A6etmy; CITY OF NEWPORTBEACH Permit Number:X2019-1207 Project Address: 100 BAYWEW City: Newpod Beach 114ip Code: 92660 Location of Light Sensor on Plans: (Yes/No) Yes Location of Light Sensor on Plans: (Page Number) E1,01 S. Separate Controls of Luminaires in Daylit Zones: Are luminaires controlled by automatic daylighting controls only in daylit zones: (Yes/No) Yes Separately eirculted for daylit zones by windows and dayllt zones under skylights: (Yes/ND) 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 & 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)38. Fix probtem(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 8 of I1 2. NA7.6.1.2.1 Functional Performance Testing — Continuous Dimming Systems: Power estimation using light meter measurement Complete all tests on page 7 & 8 (No Daylight Test, Full Daylight Test, and Partial Daylight Test) and fill out Pass/Fail section on Page 8. RECEPTION oystem inlDflnauvu F 68 a. Control Loop Type: Open Loop or Closed Loop? (O or C) 20 It, Indicate If Mandatory control - M (required for skylit zone or primary sldellt zone with Installed general lighting power > 120 W); I 35.714285714285 1 for Control Credit - CC; or Voluntary not for credit -V (M, CC, V) 11 c. if automatic daylightin9 controls are mandatory, are all general lighting luminaires in daylit zones controlled by automatic Yes daylight controls? (Yes/No) Yes d. General lighting design footcandles. (Enter footcandle (FC) value, or 'U" If unknown.) Yes e. Power estimation method. (see line q). Default ratio of power to light (Dfc), cut -sheet ratio of power to light (CSfc) If CSFc - Dfc attach cut -sheet. Enter Dfc or CSfc Step 1: Identity Keterence wcavon (location where minimum daylight Illuminance is measured in zone served by the controlled lighting.) I. Method Used: Illuminance or Distance? (I or D) Override daylight control system and drive electric lights to highest light level for the following: g, Highest light level fc - enter measured controlled electric lighting Footcandles (fc) 56 In. Indicate whether this is Full Output (FO), or Task Tuned (Lumen Maintenance) (TT) FO Step 2: No Daylight Test controls enabled & daylight less than 1 fc at reference location I. Method Used: Night time manual measurement (Night), Night Time Illuminance Logging (Log), Cover Fenestration (CF), Cover F Night Open Loop Photosensor(COLP) j. Reference Illuminance (footcandles) as measured at Reference Location (see Step 1). Enter footcandles 42 k. Enter Y If either of the following statements are true: If line h = FO; [Reference Illuminance (line j)] / [Full Output fc (line g)] > Yes 70%? or [Reference Illuminance (line j)] / [design footcandles (line d)] > 80%? (Yes/No) Step 3: Full Daylight Test conducted when daylight > 150% of reference illuminance (line j) I. Daylight Illuminance (light level with electric lighting turned off) measured at Reference Location (fc) 48 m. Daylight Illuminance (line I) greater than Reference Illuminance (line j)? (Yes/No) Yes rill ouc ones p mruuyn L Willy.a c.ca...r ... ..y......y •.. _.....—.. —_... n. Total (daylight + electric light) illuminance measured at the Reference Location (fc). F 68 o. Electric lighting illuminance at the Reference Location (fc) [(line n) - (line I)]. 20 p. Electric lighting illuminance (line o) divided by Highest Light Level In (line 9). Enter I 35.714285714285 1 q. Dimmed luminaire fraction of rated power. Attach manufacturer's cut -sheet or use default graph of rated power to light output. Label applicable control system on cut -sheet or graph. Enter fraction of rated power In %. 11 r. System Power Reduction = (1 - line q] 09 s. Is System Power Reduction (line r) > 65% when line h = FO, or > 56% when line h = TT (Yes/No). Yes t. With uncontrolled lights also on, no lamps dimmed outside of daylit zone by control (Yes/No). Yes u. Dimmed lamps have stable output, no perceptible flicker (Yes/No). Yes This is page 9 of 11 Name: V, Daylight Dimming plus OFF Controls PAF Yes (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 u I Does the system automatically turn OFF the luminaires when full daylight is available? (Yes/No) -Q7� J....H. 6eFA'—n Gno/ ..,j QSo/ nF Mine, ii - step 4: Partial uayugnc ICtlL GYIIYYGLCY V%i r wntuyu• r.._.."".. -- •- --- -- -- -- ------ w. Daylight illuminance (light level without electric light) measured at Reference Location (fc). - 31 x. Daylight illuminance divided by the Reference Illuminance = (line w )/ (line J). Enter o� 73.809523809523 1 YIs Ratio of Daylight illuminance to Ref. illuminance (line x) between 60% and 95%? (Yes/No). Yes Z. Total (daylight + electric light) illuminance measured at the Reference Location (fc). 48 aa. Total Illuminance divided by the Reference Illuminance = (line z )/ (line J), Enter %, 114.].85]14285]1 2 bb. Is Total Illuminance divided by the Reference Illuminance (line aa) between 100% and 150%? (Yes/No). Yes PASS/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- 303(a)3B. Fix problem(s) and retest until the systems) 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 10 of 11 OF ACCEPTANCE DOCUMENTATION AUTHOR'S DECLARATION STATEMENT Rusty Espinoza 1 certiry Ina, this Certlfcate Of Accelvance documentation a accurate and complete. Address: Documentation Author Name Company Name Rusty Espinoza Sunwest Electric, be. Address Cit y Phone 3069EMIrsIama Ave Ambient 21p Code Phone ATT Codification ldentilndion 92806 Position whit Company (Title) (714)264 8278 CEA/ATT Certification ldenufca[lon (If Aetna, Signature applicable) C-AB13tlJ4 Date of Signature: 09/25/2019 FIELD TECHNICIAN'S DECLARATION STATEMENT 1 e,di hefogowmg 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 me person who performed the acceptance verification reported on this Corti tate of ACesptance 3. Th. Conet mdue or installation identified oa this CertiOmte of Acceptance complles with 'he epplindu conforms m the applicable acceptance requirements and procedures specified In Reference Nonresldentl 4.l have con0med that the Cembete(s) of installation for the construction or incaution ldenhoed on posted or made available with the building parnaps)Issued for the building. 92660 Cwptance requirements Indicated in rho plans and spedmatlons approved by the enforcement agency, and Appendix NAJ, N Certillcare of Acceptance has been completed and signed by the responsible bullder/Insraller and has been Company Name ----- ----- Rusty Espinoza Sunwest EiMmq TOP. Address: CRy 3064 E Modern Ave Anaheim Zip Code Phone 92866 (]19)269-82]8 ATT Codification ldentilndion 38]4 Position whit Company (Title) PM Feld Technician Signa! e Date of Signature: 09/25/2019 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 Tecbnided, or the Field Technician I5 acting an my behalf as my employee of my agent and 1 have reviewed the Information provlded on this Chapters of Acceptance. 2.1 am ellglble untler DNlslon 3 of the Stearns and Professions Code In the appllcable classification to accept responslblllty for the system design, construction or Installation of Features, materials, companents, or nufacNred tideless for the scope of work Identified on this Certificate of Acceptance and attest to the declarations in this statement(msponslble acceptance person). 3. The Information provlded on this CertlFleate of Acceptance substantiates that the wnstmcllon or lnstallatlon ldenspetl on this Carflflca[e of Acceptance complies with the acceptance requlrements Indicated In the plans and s,sperf atlons approved by the enfo¢eme10 r1i and conforms to the aud(whle acespainch mi,diraments and procedures Specified In Reference Nonresidential Appendix Ni 4. I have confirmed that the Certificele(s) of Installation for the construction or lnstellation identified on this COMMON of Acceptance has been completed and IS posted or made available wlth the building perrands) issued for the building, 5. I will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or matle available with the building permits)issued [Or the bull0ing, and made avallable to the enforcement agency for all appllcable Inspectlons, l understend that a signed copy of this Certificate of Acceptance IS Incident 0 be Included with the documentation the insider provides At the building owner at occupancy. Responsible Acceptance Person NomeRurty ESpinOze Company Name Sunwest Eli les. Address: 3069 F MlralDma Ave CIry Anaheim tin Code 92806 Phone (]14)264-82]0 CSW 11cense I697 solution with Company (Title) Project Manager Responsible Acceptance Pe on Agnatur r�r Date of Signature: 09/25/2019 This is page 11 of 1 I Enforcement Agency Use: Checked by/Date DEMAND RESPONSIVE LIGHTING CONTROL ACCEPTANCE DOCUMENT Demand Responsive Lighting Control: Intent: Test the reduction in lighting power due to the demand responsive lighting control as per Sections 110.9(a), 130.1(e) and 130.5(e). NA7.6.3 Acceptance tests for Demand Responsive Lighting Controls in accordance with Section 130.1(e) 1. Instrumentation to perform test includes, but not limited to: a) Hand-held amperage and voltage meter J) Power meter c) Light Meter 2. Construction inspection: WV Verify the demand responsive control is capable of receiving a demand response signal directly or indirectly through another device and that it complies with the requirements in Section 130.5(e). WV If the demand response signal is received from another device (such as an EMCS), that system must itself be capable of receiving a demand response signal from a utility meter or other external source. 130.5(e):Demand responsive controls and equipment, where installed, shall be capable of receiving and automatically responding to at least one standards based messaging protocol which enables demand response after receiving a demand response signal. Definition: DEMAND RESPONSE SIGNAL is a signal sent by the local utility, Independent System Operator (ISO), or designated curtailment service provider or aggregator, to a customer, indicating a price or a request to modify electricity consumption, for a limited time period. NA7.6.3.2 Functional Test r 1: Use either Method 1 (illuminance measurement) or Method 2 (current input measurement) to perform the functional test. 2: Test building -wide reduction in lighting power to at least 15% below the maximum total lighting power, as calculated on an r area -weighted basis (measured in illuminance or power). However, any single space must not reduce the combined illuminance from daylight and electric light to less than 50% of the design illuminance. Pr 3: For buildings with up to seven (7) enclosed spaces requiring demand responsive lighting controls, all spaces shall be tested. 4: For buildings with more than seven (7) enclosed spaces requiring demand responsive lighting controls, sampling may be done on additional spaces with similar lighting systems. If the first enclosed space with a demand responsive lighting control in the P sample group passes the acceptance test, the remaining building spaces in the sample group also pass. If the first enclosed space with a demand responsive lighting control in the sample group fails the acceptance test the rest of the enclosed spaces in that group must be tested. 5: If any tested demand responsive lighting control system fails it shall be repaired, replaced or adjusted until it passes the test. This is page 1 of A. Method 1: Illuminance Measurement: In each space, select one location for illuminance measurement. The chosen location must not be in a skylit or primary sidelit area. When placed at the location, the illuminance meter must not have a direct view of a window or skylight. If this is not possible, perform the test at a time and location at which daylight illuminance provides less than half of the design illuminance. Mark each location to ensure that the illuminance meter can be accurately located. Step 1: Full output test a: Using the manual switches/dimmers in each space, set the lighting system to design full output. Note that the lighting in areas with photocontrois or occupancy/vacancy sensors may be at less than full output, or may be off. b: Take one illuminance measurement at a representative location in each space, using an illuminance meter (fc). 62 c: Simulate a demand response condition using the demand responsive control. C7 d: Take one illuminance measurement at the same locations as above, with the electric lighting system in the demand response condition (fc). 48 e: Turn off the electric lighting and measure the daylighting at the same location (if present). (fc) f: Calculate the reduction in illuminance in the demand response condition, compared with the design full output condition. [(b- d)/b] x 100% 22.6 g: Note the area of each pontrolled space (ft2) 2500 h: Calculate the area -weighted reduction in the demand response condition using the formula shown in the box to the right. The area -weighted reduction must be at least 0.15 (15%). is The area -weighted reduction must not reduce the combined illuminance from electric light and daylight to less than 50% of the design Illuminance in any individual space. (Line f should not be more than 50%.) Step 2: Minimum output test j: Using the manual switches/dimmers in each space, set the lighting system to minimum output (but not off). Note that the lighting In areas with photocontrois or occupancy/vacancy sensors may be at more than minimum output, or may be off. k:Take one illuminance measurement at each location, using an illuminance meter (fc). 53 I: Simulate a demand response condition using the demand responsive control. F m: Take one illuminance measurement at each location with the electric lighting system in the demand response condition (fc). 39 n: In each space, the illuminance in the demand response condition must not be less than the illuminance in the minimum output condition or 50% of the design illuminance, whichever is less. (write Y/N) Yes EXCEPTION: In daylit spaces, the illuminance in the demand response condition maybe below the minimum output setting, but in the demand response condition the combined illuminance from daylight and electric light must be at least 50% of the design illuminance. This is page 2 of 5 B. Method 2: Current Measurement: At the lighting circuit panel, select at least one lighting circuit that serves spaces required to meet Section 130.1(b) to measure the reduction in electrical current. Alternatively, employ the monitoring capabilities of the DR controls system to monitor the circuits in the tests below. The testing process is constant with either approach. Step 1: Full output test a: Using the manual switches/dimmers in each space, set the lighting system to full output. Note that the lighting in areas with photocontrols or occupancy/vacancy sensors may be at less than full output, or may be off. r b: Take one electric current measurement for each selected circuit (A). c: Simulate a demand response condition using the demand responsive control. r d: Take one measurement at each circuit location with the electric lighting system in the demand response condition (A). e: Calculate the reduction in current in the demand response condition, compared with the full output condition [(b-d)/b] x 100% f: Note the area of each controlled space. (ftZ) g: Calculate the reduction in the demand response condition, using the formula shown in the box to the right. The area -weighted reduction must be at least 15% (0.15). r l + 2 + f 3+-] h: The area -weighted reduction must not reduce the output of any individual circuit by more than 50%. (Line a should not be more than 50%.) Step 2: Minimum output test is Using the manual switches/dimmers in each space, set the lighting system to minimum output (but not off). Note that the lighting in areas with photocontrols or occupancy/vacancy sensors may be at more than minimum output, or may be off. r j: Take one electric current measurement for each selected circuit location (A). k: Simulate a demand response condition using the demand responsive control. r I: Take one electric current measurement for each circuit with the electric lighting system in the demand response condition (A). m: In each space, the electric current In the demand response condition must not be less than the current in the minimum light output condition or 50% of current value at design Illuminance level, whichever is less. Evaluation : r PASS: All applicable Construction Inspection responses are complete and all applicable Equipment Testing Requirements responses are positive (Check box for yes) This is page 3 of 5 DOCUMENTATION AUTHOR'S DECLARATION STATEMENT 1 certify that this Certificate of Acceptance documentation Is accurate and complete. Documentation Author Company Name Name Rusty Espinoza Address City 3064 E Miraloma Ave Zip Code 92806 Phone CEA/ATT Certification TC -A8138]4 Author Signature Identification applicable) Date of Signature: 09/25/2019 Sunwest Electric, Inc. Anaheim (714)264-8278 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 NA7. 4. 1 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 Rusty Espinoza Company Name Sunwest Electric, Inc. Address: 3064 E Miraloma Ave City Anaheim Zip Code 92806 Phone (714)264-6278 ATT Certification Position with Company er Project Manager Identification TC-AS13674 (Title) I g Field Technic( Si gnat e Date of Signature: 09/25/2019 RESPONSIBLE PERSON'S DECLARATION STATEMENT I certify the following under penalty of perjury, under the laws of the State of California: 1. 1 am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and 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 NA7. 4. I have confirmed that the Certlflcate(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 Sunwest Electric, Inc. Person Name Rusty Espinoza Address: 3064 E Miraloma Ave City Anaheim Zip Code 92806 ( Phone 714)264-8278 CSLB License Position with Company 511697 (Title) project Manager Responsible Acc Person Signature Date of Signature: 09/25/2019 This is page 4 of 5 This is page 5 of 5