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BSOL2015-0233 Solar PlansAHJ NOTES PLAN SET LEGEND ABBREVIATIONS PROJECT INFORMATION 68 X 327 W SUNPOWER o 8 OE ALL CONDUIT TO RUN ON EXTERIOR MSP MAIN SERVICE PANEL (E) EXISTING SPR-327-NE-WHT-D O w U OF HOUSE UNLESS OTHERWISE NOTED ROOF MOUNTED SOLAR � E SUB SUB SERVICE PANEL (N) NEW PHOTOVOLTAIC MODULES 0 2,+i N "o N _ OCCUPANCY: R-3 EXT EXTERIOR 1 X 6000 W SMA America SB6000TL-US-22 y a m CONSTRUCTION TYPE: VB AC AC DISCONNECT (240V) W Z a .0? UNSPRINKLERED INT INTERIOR 3 X 5000 : W SMA America SB5000TL-US-22 W DC DC DISCONNECT (240V) t2 C;;3�1 EMT ELECTRICAL METALLIC TUBING �o SLC SOLAR LOAD CENTER SYSTEM SIZE: 22.236 kW DC STC RMT RIGID METALLIC TUBING ARRAY AREA: 1197 SF 0) "C MONITORING METER W VOC VOLTAGE OPEN CIRCUIT`S AHJ:CI 'GUVF LA QU�N te If INV INVERTER VMP VOLTAGE AT MAX. POWER APN: 65-334DOLl DING &SAFETY +r E DEP JB JUNCTION BOX ISC SHORT CIRCUIT CURRENT APPROVED _ JEANNE THERE E FOR CONSTRUCTION U Z CB COMBINER BOX IMP CURRENT AT MAX. POWER 48775 AVENIDA FERN NDO IY FLEXIBLE METALLIC NTS NOT TO SCALE LA QUINTA, CA 92253 DATE BY �— � w FMC CONDUIT ❑ Li /Z V U Lmzm LDow� VICINITY MAP APPLICABLE CODES �w o z acro ALL WORK TO COMPLY WITH w 0= THE FOLLOWING CODES: 2013 CA BUILDING CODE *; E;senhowerRrEis 2013 CA RESIDENTIAL CODE E Lu ` 1 .r 4 ,.- ;vr =•' t s �t �� 2013 CA MECHANICAL CODE N W r i 2013 CA ELECTRICAL CODE o z 2013 CA GREEN CODE W T z 2013 CA PLUMBING CODE LL °' a acy V,Blae U 2013 CA ENERGY CODE t a W Z z - ._ t J amc�`o Q PROJECT _ 147.5 2013 ArIRE D G� 'oL.r yihAq Mmn ok Q L> z cLoSITE o C!Co ' -- LLI o � , the%�� . „ Aventje Fernando SHEET INDEXol/ • /� •--�.3 'r� .- o w PV -1 PROJECT INFORMATION o o ,� caa, r - s,ri1nner?ot '" PV -1A SITE PLAN, HOUSE PHOTO a a �� }j PV -2 ROOF PLAN PV -2A ATTACHMENT DETAILS o e halm Spdngs'foUs `?'- - t. PV -213 OTHER DETAILS W F- PV -3 ELECTRICAL LINE DIAGRAM & o ELECTRICAL CALCULATIONS o z PV -3A ELECTRICAL NOTES, LOAD CALCS w w PV -4 REQUIRED SIGNAGELn a PV -1 -r- rn 00 0 D D r m z Wt fo com J ROOF PLAN SCALE: 1":20'-0" ARRAY & ROOF INFO - , o s FIRE ACCESS POINT Roof Plane 1 2 m in e MSP SIZE IS AN Roof Type: CONC S TILE CONC S TILE}' cad Roof Framing: 2x4 TRUSSES @ 24" o.c 2x4 TRUSSES @ 24" o.c a o o (E) 400 A INTERIOR TRUSS Roof Azimuth (deg): 155 245 Q N DIAGONAL, TYP. Roof Slope (deg): 15 15 ° a ATTACHMENT POINTS: o Roof Area (sf): 326 507 a L W 48"O.C. MAX o Array Azimuth (deg): 155 245 Z ARRAY 7 Array Tilt (deg): 15 15 6 SOLAR MODULES rn Array Area (sf): % 158.4 158.4= —L u; 05 20 ATTACHMENTS Coverage of Roof 1 48.6% 1 31.2% @ 48" O.C. MAX. �' R7 / co -, \ \ rn Roof Plane 3 4 4SID. c CD \ r o Roof Type: CONC S TILE CONC S TILE LU `� ARRAY 6 Roof Framing: 2x4 TRUSSES @ 24" o.c 2x4 TRUSSES @ 24" o.c � E j \ 23 SOLAR MODULES \ 1• � Roof Azimuth de (deg): 155 155 U) 72 ATTACHMENTS ; �. Z': Roof Slope (deg): 15 15 @ 48" O.C. MAX. \ �� , o \ ACCESS POINT Roof Area (sf): 497 275 0FIRE Array Azimuth (deg): 155 155 Z Array Tilt (deg): 15 15 z w R5 Array Area (sf): 158.4 70.4 W ARRAY 5 8 SOLAR MODULES %Covera a of Roof g 31.9% 25.6% LL Z z �8 24 ATTACHMENTS W, m Z m Roof Plane 5 6 @ 48" O.C. MAX. Lo 0 W Roof Type: CONC S TILE CONC S TILE o C 0O �P-R6 Roof Framing: 2x4 TRUSSES @ 24" ox 2x4 TRUSSES @ 24" o.c w o Roof Azimuth (deg): 155 245 0 �10 ` Roof Slope (deg): 15 15 - Roof Area (sf): 713 907 W NJ N Array Azimuth (deg): 155 245 a) CO) o \ �NJ ` R4 Array Tilt (deg): 15 15 > W z ARRAY 4 Array Area (sf): 140.8 404.8 y W z 5�- 4 SOLAR MODULES % Coverage of Roof 1 19.7% 1 44.6% 6 2 w N 16 ATTACHMENTS o H a°' MS i� @ 48" O.C. MAX. t W o a Z w a 20 Roof Plane 7 Roof Type: Roof Framing: CONC S TILEo 2x4 TRUSSES @ 24" o.c ITY OF LA QUI�NTA Z> z 4 0 Q L Ln (E) ROOF 1" Roof Azimuth (deg): 335 BUILDING & SAFETY DEPT. co g `° FRAMING, SEE 1" EMT CONDUIT, ROOF INFO Roof Slope (deg): 15 APPROVED v TO RUN ON ROOF `� Roof Area (sf): 713 FOR CONSTRUCTION Array Azimuth (deg): 155 AND UNDER EAVES Array Tilt (deg): 15 iiio ►- N c R3 Array Area (so: 140.8 DTE gY o 0 ARRAY 3 ` *�" �� rn b, �' % Coverage of Roof 19.7% Q a 9 SOLAR MODULES^' ^ rn 32 ATTACHMENTS - � ' '� ` � f=7 , @ 48" O.C. MAX. �� _ �\ fin\ c3 OpRpFESS/Q � % 6 163 N m � LLL LL o 6" \ EXT. WALL EXP. 06.30-16 ARRAY 2 ARRAY 1 `rr� CIV11: 9 SOLAR MODULES 9 SOLAR MODULES QF CAL* 30 ATTACHMENTS 2,S„ 20 ATTACHMENTS N @ 48" O.C. MAX. @ 48" O.C. MAX. PV -2 DIMENSIONS & WEIGHT ATTACHMENT DETAIL SCALE: 1/2" = 1'-0" MODULE TYPE, Cie, �o 8- PANEL TYPE: SPR-327-NE-WHT-D PANEL WEIGHT: 41 LB Unirac End Clamp Solar Module C/ 1 0 0 PANEL DIMENSIONS: 61.39 X 41.18 Prosoh, TileTrac Attachment Unirac Solarmount W PANEL AREA: 17.60 SF / 6 Threaded Stud w Railing �v/ Solarmount 0 " a W UNIT WEIGHT OF PANELS: 41/17.6 = 2.33 PSF L -Foot INVERTER & RACKING: 0.23 PSF AREA PER ATTACHMENT: 4'X2.76 = 11.04 SF Concrete Tile/S-Tile `� o WEIGHT PER ATTACHMENT: 11.04X2.7 = 29.80 LB Roofing Typical ;q `, rn � o ESA' w a E U) Typ. Truss @ 24" O.C. cD (1)5/16" x 3-1/2" z LE z - . SS Lag Bolt w/- CITY -OF LA �UINT � w � z - 2.5 Min. Penetra OBUILDING & SAFETY DEPT.z>_z APPROVED wm mow; FeR -1 CONS HuON o ' MOUNTING SYSTEMC CD i o �� DATEBY I W TOTAL WEIGHT OF PV MODULES & RAILS: 3030.08 LB E Cl) p co IW TOTAL NUMBER OF ATTACHMENT POINTS: 214.00 o ¢ W WEIGHT PER ATTACHMENT POINT (b/c): 14.16 U z 0 2 w N MAX. SPACING BETWEEN ATTACHMENT POINTS: 48.00 INCH > U_ 0 W o TOTAL SURFACE AREA OF PV MODULES: 1196.80 SF a Z w a z DIST. WEIGHT OF PV MODULE ON ROOF (b/fl: 2.53 PSF o Z_ z a U (DQ < o � g w 00 LL � O N O N OQ�OFES 0S. � a O o C69163 v,m Cn X .EXP. 06-30-16 * W a W s� CMI ! OF 0 LL z w CAUF o v D ¢ PV -2A -N ELECTRICAL SINGLE LINE DIAGRAM LOW MEAN TEMP PER MFR VOLTAGE 22.236kW SOLAR ARRAY ASHRAE HANDBOOK COEFFICIENT ROOF -5 -0.38 68 SUNPOWER 327W MODULES TOTAL WALL -5 STRINGS CONNECTED IN PARALLEL MAX PV VOLTAGE & CURRENT CALCS: RECORD LOW TEMP (°C): (PER ASH RAE HANDBOOK) -5 TEMP COEFFICIENT (VOC) PER MANUFACTURER: -0.38%/C VOLTAGE CORRECTION: 1.11 MAX PV SYSTEM VOLTAGE (PER CEC 2013 690.7): (Vcorrection * Voc) X # MODULES IN SERIES ( 1.11 * 64.9)* 8 = 576.31V MAX PV CONTINUOUS CURRENT PER CEC 2013 690.8(A)(1): 1.25 X Isc X # STRINGS 1 . 25 * 6.46 * 3 = 24.23 A MSP IS SINGLE 400A BUS TO UTILITY GRID BI-DIRECTIONAL UTILITY METER (E) 400 A MAIN SERVICE PANEL 1 PH, 120/240V, 3W NOT CENTER (N) MAIN SERVICE DISCONNECT 240V, 350A 2 -POLE PV BREAKER 240 V, 40 A) 2 -POLE PV BREAKER 240 V, 30 A ` 2 -POLE PV BREAKER 240 V, 30 A ` 2 -POLE PV BREAKER 240 V, 30 A) ❑E FED 2 -POLE 120A PV BREAKER, BACKFED BOND TO EXISTING UFER MAX PV VOLTAGE & CURRENT CALCS: RECORD LOW TEMP (-C): (PER ASHRAE HANDBOOK) -5 TEMP COEFFICIENT (VOC) PER MANUFACTURER: -0.389/o/C VOLTAGE CORRECTION: 1.11 MAX PV SYSTEM VOLTAGE (PER CEC 2013 690.7): (Vcorrection * Voc) X # MODULES IN SERIES (1.11*64.9)*8= 576.31V I I I O - MPPT 1 II I I II I I II I I I I I a I 3 I - MPPT 1 I I I I I 13 - MPPT 1 I TAGE LOW TEMP. CONDUIT HEIGHT R CORR. (oC) HIGH AMBIENT TEMP (oC) (in) STRING 9 AC DISCONNECT FUSED W/125A TILT: 15° 240 VAC, 200A NEMA 3R, UL LISTED 51 0.5-3.5 1.11 51 N/A U W QM zLo 6.540kW SOLAR ARRAY Lu (STRINGS 5,6,7) N Lu 04 8 MODULES CONNECTED IN 1 SERIES, LL 6 MODULES CONNECTED IN 2 SERIES, 1 STRINGS CONNECTED IN PARALLEL 9 v @ INVERTER STRING 6 2 8 MODULES IN SERIES TILT: 15* w AZIMUTH: 15 STRING 5 JB _ 6 MODULES IN SERIES TILT: 15° 1 AZIMUTH: 33 - STRING 7 L- 6 MOD ULES IN SERIES TILT: 15° v g AZIMUTH: 15 5.232kW SOLAR ARRAY (STRINGS 1&2) 8 MODULES CONNECTED IN 2 SERIES, STRINGS CONNECTED IN PARALLEL 1 @ INVERTER STRING 1 8 MODULES IN SERIES TILT: 15° -FJAZIMUTH: 155° JB 1 - STRING 2 L SERIES 8 MODULES IN TILT: 15° AZIMUTH: 155° N JB L- C JB I I MAX PV CONTINUOUS CURRENT PER CEC 2013 v v I 690.8(A)(1): L 1.25 X Isc X # STRINGS 1.25 * 6.46 * 2 = 16.15 A 5.232kW SOLAR ARRAY (STRINGS 3,4) 8 MODULES CONNECTED IN 2 SERIES, STRINGS CONNECTED IN PARALLEL @ INVERTER 8 MODULES IN SERIES STRING 3 TILT: 15° AZIMUTH: 245° STRING 4 8 MODULES IN SERIES TILT: 15° AZIMUTH: 245° 5.232kW SOLAR ARRAY (STRINGS 8,9) 8 MODULES CONNECTED IN 2 SERIES, STRINGS CONNECTED IN PARALLEL @ INVERTER SCALE: N.T.S OOF TOP ADDED TEMP PER ADJUSTED TEMP TEMP Table 310.15(8)(3)@ (oC) CORRECTION 22 73 .50 0 51 .76 SMA America S86000TL-US-22 (240V) INVERTER MAX DC VOLTAGE: 600V DC VOLTAGE INPUT RANGE: 175-480V @240V PEAK POWER TRACKING VOLTAGE: 175-480V @240V AC NOMINAL VOLTAGE/RANGE: 211-264V @240V MAX AC OUTPUT CURRENT: 25A 5° CEC WEIGHTED EFFICIENCY: 97% PANEL DECAL SUNPOWER SPR-327-NE-WHT-D 327W 5° Vmp= 54.7V Voc= 64.9V Isc= 6.46A Imp= 5.98A 5, CEC PTC POWER=301.4W SMA America SB5000TL-US-22 (240V) INVERTER MAX DC VOLTAGE: 600V DC VOLTAGE INPUT RANGE: 175-480V @240V PEAK POWER TRACKING VOLTAGE: 175480V @240V AC NOMINAL VOLTAGE/RANGE: 211-264V @240V MAX AC OUTPUT CURRENT: 22A CEC WEIGHTED FFC]p( W. 976 F LA Q U ! N BUILDING & SAFETY DEI APPROVED SEE PV -3A FOR ELECI RICAL �CQrtCONSTRUCTION © 125A SOLAR LOAD CENTER 240 , DXPENEMA 3 BY ELECTRICAL EQUIPMENT CALLOUTS JUNCTION BOX 600 V, NEMA 3R W/ EUROSTRIP OR POLARIS IT CONNECTORS © 5kW INVERTER UNGROUNDED SMA AMERICA SB5000TL-US-22 (240V) (240V) INVERTER 240 VAC, 22 A NEMA 3R, UL LISTED, (WITH INTEGRATED DC DISCONNECT) 6kW INVERTER UNGROUNDED SMA AMERICA SB6000TL-US-22 (240V) (240V) INVERTER 240 VAC, 25 A NEMA 3R, UL LISTED, (WITH INTEGRATED DC DISCONNECT) 8 MODULES IN SERIES STRING 8 TILT: 15° �D SOLAR LOAD CENTER (SOLAR LOADS AZIMUTH: 155° ONLY) 240 VAC, 200A NEMA 3R, UL LISTED STRING 9 AC DISCONNECT FUSED W/125A TILT: 15° 240 VAC, 200A NEMA 3R, UL LISTED 8 MODULES IN SERIES U) AZIMUTH: 155° m O V *^ w m E a �,q^ EUm@m Y)E rn 8 U v o C's N 12 LLJ m d_ O 'O 05 c� fO co �g 0 rn 00 0 LLI v M U) Z L✓ � Z W u� W 7 Zo Lr U 2} ti: m Zrn.i_ L7 o Lu :3W c ozC7a, C3 (.9 LI) o p� -I W E N W o U) z U W QM zLo Lu 0 N Lu 04 LL O LL r W 9 v Z w o Z Q z QLo 0 5 W i v g TF U1 0 I`-- N Q r � o �aa � O W Q o_ 0 O w W _z W W � J U U) z N PV -3 ELECTRICAL SINGLE LINE DIAGRAM LOW MEAN TEMP PER MFR VOLTAGE TEMP 22.236kW SOLAR ARRAY ASHRAE HANDBOOK COEFFICIENT (oQ ROOF -5 -0.38 68 SUNPOWER 327W MODULES TOTAL WALL -5 STRINGS CONNECTED IN PARALLEL MAX PV VOLTAGE & CURRENT CALCS: RECORD LOW TEMP (*C): (PER ASHRAE HANDBOOK) -5 TEMP COEFFICIENT (Voc) PER MANUFACTURER: -0.3854 /C VOLTAGE CORRECTION: 1.11 MAX PV SYSTEM VOLTAGE (PER CEC 2013 690.7): (Vcorrection * Voc) X # MODULES IN SERIES ( 1.11 * 64.9)* 8 = 576.31V MAX PV CONTINUOUS CURRENT PER CEC 2013 690.8(A)(1): 1.25 X Isc X # STRINGS 1.25 * 6.46 * 3 = 24.23 A MAX PV VOLTAGE & CURRENT CALCS: RECORD LOW TEMP (°C): (PER ASHRAE HANDBOOK) -5 TEMP COEFFICIENT (Voc) PER MANUFACTURER: -0.38%/C VOLTAGE CORRECTION: 1.11 MAX PV SYSTEM VOLTAGE (PER CEC 2013 690.7): (Vcorrection * Voc) X # MODULES IN SERIES ( 1.11 * 64.9 )* 8 = 576.31V MAX PV CONTINUOUS CURRENT PER CEC 2013 690.8(A)(1): 1.25 X Isc X # STRINGS 1.25 * 6.46 * 2 = 16.15 A AGE LOW TEMP. HIGH AMBIENT TEMP (oC) CONDUIT HEIGHT CORR. (oC) (in) 1.11 51 0.5-3.5 51 N/A SCALE: N.T.S ROOF TOP ADDED TEMP PER ADJUSTED TEMP TEMP Table 310.15(8)(3)© (oC) CORRECTION 22 73 .50 0 51 .76 SMA America SB6000TL-US-22 (240V) INVERTER MAX DC VOLTAGE: 600V DC VOLTAGE INPUT RANGE: 175-480V @240V PEAK POWER TRACKING VOLTAGE: 175-480V @240V AC NOMINAL VOLTAGE/RANGE: 211-264V @240V MAX AC OUTPUT CURRENT: 25A CEC WEIGHTED EFFICIENCY: 97% PANELDECAL SUNPOWER SPR-327-NE-WHT-D 327W Vmp= 54.7V Voc= 64.9V Ise= 6.46A Imp= 5.98A CEC PTC POWER=301.4W SMA America SB5000TL-US-22 (240V) INVERTER MAX DC VOLTAGE: 600V DC VOLTAGE INPUT RANGE: 175-480V @240V PEAK POWER TRACKING VOLTAGE: 175-480V @240V AC NOMINAL VOLTAGE/RANGE: 211-264V @240V MAX AC OUTPUT CURRENT: 22A CEC WEIGHTED EFFICIENCY: 97% SEE PV -3A FOR ELECTRICAL NOTES L A QUINTA AFETY DEPT.O!/ELTRUCTION Y WIRE TAG # CONDUIT WIRE QTY WIRE (CARRY GAUGE WIRE TYPE CURRENT) (AWG) WIRE LENGTH TEMP (FEET) RATING: WIRE LOCATION ADJUSTED WIRE TEMP WIRE AMP TEMP CORRECTION PER TABLE 310.15(B)(2)(a): CONDUIT FILL PER Table 310.15(B)(3)(a): WIRE OCP: . TERMINAL 75oC RATING STRINGS PER SET OF WIRES (DC) OR # OF INVERTERS: SHORT CIRCUIT CURRENT (DC) OR AC OUTPUT NEC 690.8(A) NEC 690.8(B) STRING GROUND AMPS SIZE GROUND TYPE OCPD CHEC 1 NONE 2 10 PV WIRE 15 90°C ROOF 73 40 X 0.5 X 1 = 20 35 1 XI 6.46 IX 1.25 X 1.25 = 10.09 #6 SBC NONE 2 1" EMT 4 10 THWN-2 115 90°C ROOF 73 40 X 0.5 X 0.8 = 16 35 1 X 6.46 X 1.25 X 1.25 = 10.09 #8 THWN-2 NONE 2a 1" EMT 6 10 THWN-2 115 90°C ROOF 73 40 X 0.5 X 0.8 = 16 35 1 X 6.46 X 1.25 X 1.25 = 10.09 #8 THWN-2 15A 2P 3 1" EMT 3 10 THWN-2 5 90*C WALL 51 40 X 0.76 X 1 = 30.4 35 1 X 22.00 X 1.25 X 1 = 27.5 #8 THWN-2 30A 2P 3a 1" EMT 3 8 THWN-2 5 90°C WALL 51 55 X 0.76 X 1 = 41.8 50 1 X 25.00 X 1.25 X 1 = 31.25 #8 THWN-2 40A 21P 4 1" EMT 3 1/0 THWN-2 10 90°C WALL 51 170 X 0.76 X 1 = 129 150 1 X 91 X 1.25 X 1 = 113.8 #6 THWN-2 120A 2P E U) U O O 0 a m 0 U) H 0 6K 0 O °' 28 (L) o W a 1` U EU J 07 0 Z LLW Z0 L; U W M L7oWa :3w c oZC7� C3 ( O�' 3 0 QU W LU W o z W z Z L= W r LL Q W Z w Z Q Q W 00 M: 0 N P, N 0 Q 0 w Z J w J 0 z V) PV -3A M N N N 0 z Co 5 L8 c� o t C ELECTRICAL NOTES E m -.0 V 1. PV ARRAYS ARE PER SINGLE LINE.) m E 2. PV ARRAY WIRING TO JUNCTION IS #10 AWG PV WIRE W/ FIELD INSTALLED MC CONNECTORS TO INTERFACE W/ MODULES. Service Panel Load Calculation (( E o 2 3. PV ARRAY COMBINER/JUNCTION BOX PROVIDES TRANSITION FROM ARRAY WIRING TO CONDUIT v o H WIRING. MAIN HOUSE y 4. PV POWER SOURCE DISCONNECT (INTEGRATED) RATED AT 36 AMPS, 600Vdc, NEMA 3R RAINPROOF. Area 6801 sf y 5. USE LIFER GROUND ELECTRODE SYSTEM FROM INVERTER TO EXISTING MAIN SERVICE GROUND General Lighting 3 = 20.4 kVA' ELECTRODE PER N.E.C. 250.58. 6. WHEN REQUIRED, GROUND ELECTRODE CONDUCTOR FROM INVERTER TO GROUND ELECTRODE TO BE Small Appliance 2 = 13.602 kVA a a W MINIMUM PROTECTION OF BARE ARMOR SHEATHED CABLE FOR ALL CONDUCTOR SIZES. Laundry 1 = 6.801 kVA,. 7. ALL GROUND CONNECTED TO MAIN SERVICE GROUND IN MAIN SERVICE PANEL.: p co TOTAL = 40.8 kVA vv 8. CONNECTORS SHALL BE POLARIS OR EUROSTRIP IT CONNECTORS. a` G7 U 9. INVERTER SHALL BE PER ATTACHED CUT SHEET. 30OOW Q@ 100% 3 kVA m 10. AC DISCONNECT SHALL BE PER SINGLE LINE. Total @ 35% = 13.2 kVAg 11. EQUIPMENT GROUNDING CONDUCTORS ON AC AND DC SIDE SIZED ACCORDING TO NEC 690. ~ 3.1, 1 rn 12. POLE OF PV ARRAY REFERENCED TO GROUND AT THE INVERTER IN SINGLE LINE. 16.2 kVA-' U-1 U 13. ALL CONDUCTORS SHALL BE 600V, 90C STANDARD COPPER. ALL CONDUCTORS IN CONDUIT SHALL BE Range 8 kVA '., c�a THW"-2. Dryer Load 5.5 kVA 14. MAXIMUM DC VOLTAGE DROP SHALL BE 1.5% 15. ALL CONDUCTORS SHALL BE IN CONDUIT UNLESS OTHERWISE NOTED. Garbage Dlsp. 1.5 kVA 16. ALL WORK TO COMPLY WITH 2013 CALIFORNIA ELECTRIC CODE, 2013 CALIFORNIA BUILDING CODE Dishwasher 1.5 kVA (D 17. D.C. ARRAY CONDUCTORS ARE TO REMAIN OUTSIDE OF BUILDING PRIOR TO FUSIBLE COMBINER BOX Z OR FUSIBLE DC DISCONNECT MEANS. Microwave 1.5 kV CITY ®� ' /� g p� I � � 18. EXACT CONDUIT RUN LOCATIONS SUBJECT TO CHANGE. Refrigerator 1.6 kV ii LA i� I JI LU 19. 3.0 PSF MAX (.5 PSF FROM RACKING, 2.5 PSF FROM MODULES) DEAD LOAD CONTRIBUTED FROM SOLAR BUILDING & SAFETY DEPT.LU ARRAY.. Pool purl p 3.84 kV � z 20. CONDUCTORS ON ROOF ARE TO BE 1/2" TO 3" OFF OF THE ROOF SURFACE. AC #1 8 IkVA APPROVE R OVE D 2 y O o, 21. GEC TO BE CONNECTED TO EXISTING LIFER. iF LIFER IS NOT PRESENT THEN A NEW GROUND ROD WILL FOR CONSTRUCTION LL: m z AC #2 8 kV LD o LU BE ADDED FOR GROUNDNG PURPOSES. _ w CD 22. PV WIRES UTILIZED IN SYSTEM ARE UL -4703 COMPLIANT. AC #3 5.76 kVA o Z0 23. ON RESIDENTIAL ROOF INSTALLATIONS ALL RACKING AND MODULES ARE UL2703 COMPLIANT AC #4 5.76 kV DATE BY Cn °' RACKING & MODULES ARE GROUNDED VIA A CONTINUOUS #6AWG COPPER CONDUCTOR CONNECTED W/ JACUZZI 5.76 kVA �� [WEEBS]. MODULES ARE FACTORY PROVIDED W/ 2 THREADED HOLES TO FACILITATE LANDING OF THE LUGS Motor (AC) 25% X4 8 kVA ALL EQUIPMENT SHALL BE PROPERLY GROUNDED AND BONDED IN ACCORDANCE WITH ARTICLE 250. Net Calculated Load 64.7 kVA flit E i ALL CIRCUITS CONNECTED TO MORE THAN ONE SOURCE SHALL HAVE OVERCURRENT DEVICES LOCATED a�W 0 0 SO AS TO PROVIDE OVERCURRENT PROTECTION FROM ALL SOURCES 690.9 (A) 12OI24OV, 3 -Wire Service 269.7 A cn M z co TOTAL NEW LOAD ON EXISTING 400A SERVICE w WW zW to O 2 W N O w a) MAIN HOUSE 269.7 A ii iw z `a'to ADDITIONAL AHJ REQUIRED ELECTRICAL NOTES MAIN BREAKER (DERATED) 350.0 A OK o z Q Z CD SOLAR PV SYSTEM 120 A U W^ a Lo --� co g TOTAL = 389.7 A BUSBAR RATING = 400 A 120% BUSBAR RATING = 480 > 389.7 OK 6i N a 0 N C)aa W WO a z 0 Q O 2 U_ � 0 W CJ D W Ln W PV -313 1❑ PROVIDE A PLACARD WITH THE FOLLOWING WORDING IN 4" HIGH LETTERING PER NEC 690.17. WARNING ELECTRICAL SHOCK HAZARD. DO NOT TOUCH TERMINALS. TERMINALS ON BOTH THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION. uTHE FOLLOWING SIGNAGE MUST HAVE A MINIMUM OF 3/8" HIGH LETTERING, IN ARIAL FONT (NON -BOLD), WITH CAPITAL LETTERS, WHITE ON RED BACKGROUND AND ON A REFLECTIVE, WEATHER RESISTANT MATERIAL. AT THE MAIN SERVICE DISCONNECT PROVIDE A SIGN WITH THE FOLLOWING WORDING: CAUTION: SOLAR ELECTRIC SYSTEM CONNECTED THE SIGN SHOULD BE PLACED ON THE OUTSIDE COVER IF THE MAIN SERVICE DISCONNECT IS OPERABLE WITH THE SERVICE PANEL CLOSED F3]ON ALL INTERIOR AND EXTERIOR PV CONDUIT, RACEWAYS, ENCLOSURES, CABLE ASSEMBLIES AND JUNCTION BOXES PROVIDE A SIGN WITH THE FOLLOWING WORDING: WARNING: PHOTOVOLTAIC POWER SOURCE MARKING SHALL BE REFLECTIVE AND PLACED EVERY 10 FEET AT TURNS AND ABOVE AND/OR BELOW PENETRATIONS AND AT ALL PV COMBINER AND JUNCTION BOXES. PLAQUES SHALL BE METAL OR PLASTIC WITH ENGRAVED OR MACHINE PRINTED LETTERS, OR ELECTRO -PHOTO PLATING, IN A CONTRASTING COLOR TO THE PLAQUE. PLAQUE SHALL BE ATTACHED TO THE SERVICE EQUIPMENT WITH POP -RIVETS OR SCREWS. ANY PHOTOVOLTAIC DC CONDUCTORS ENTERING THE BUILDING SHALL BE INSTALLED IN A METALLIC RACEWAY AND SHALL ALSO HAVE LABEL IDENTIFIED EVERY 10 FEET - AND WITHIN 1 FOOT OF TURNS OR BENDS AND WITHIN 1 FOOT ABOVE AND BELOW PENETRATIONS OF ROOF/CEILING ASSEMBLIES, WALLS OR BARRIERS - WITH A MINIMUM OF 3/8" HIGH WHITE LETTERING ON RED BACKGROUND READING: 4❑. PER NEC 690.64 AND 705.12(D)(4) EQUIPMENT CONTAINING OVERCURRENT DEVICES IN CIRCUITS SUPPLYING POWER TO A BUSBAR FROM MULTIPLE SOURCES SHALL BE MARKED TO INDICATE THE PRESENCE OF ALL SOURCES. LOCATED AT BACKFED BREAKER WARNING INVERTER CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. 5❑. PHOTOVOLTAIC POWER SOURCE SHALL BE LABELED WITH THE FOLLOWING WARNING AT EACH JUNCTION BOX, COMBINER BOX, DISCONNECT, AND DEVICE WHERE ENERGIZED, UNGROUNDED CIRCUITS MAY BE EXPOSED DURING SERVICE PER NEC690.35(F) WARNING ELECTRIC SHOCK HAZARD. THE DC CONDUCTORS OF THIS PHOTOVOLTAIC SYSTEM ARE UNGROUNDED AND MAY BE ENERGIZED. U LABEL FOR SOLAR AC DISCONNECT: "SOLAR AC DISCONNECT" ]PROVIDE WARNING LABEL AT THE UTILITY INTERACTIVE INVERTER OR GROUND FAULT INDICATOR STATING: WARNING ELECTRICAL SHOCK HAZARD. IF A GROUND FAULT IS INDICATED, NORMALLY GROUNDED CONDUCTORS MAY BE UNDERGROUNDED AND ENERGIZED. 8CP� LAQUE TO BE INSTALLED ON FACE OF THE UTILITY AC DISCONNECT: PV SYSTEM DISCONNECT FOR UTILITY OPERATION ❑9. TO BE INSTALLED ON THE FACE OF THE SERVICE METER PANEL: CAUTION: POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECT LOCATED AS SHOWN A PERMANENTLY AFFIXED PLACARD SHALL BE RIVETED IN PLACE FOR CLEAR VISIBILITY INSIDE THE ELECTRICAL PANELS THAT STATES THE FOLLOWING: THE MAIN SERVICE BREAKER HAS BEEN DOWNSIZED TO 350 AMPS. NO UPSIZING IS PERMITTED LABEL TO BE INSTALLED ON THE INSIDE AND THE OUTSIDE OF THE LOAD CENTER: SOLAR LOAD CENTER: NO ADDITIONAL LOADS ALLOWED LABEL DC DISCONNECT, JUNCTION BOXES, COMBINER AND DEVICES IN UNGROUNDED SYSTEMS (TRANSFORMER LESS) PER CEC690.35(F): WARNING ELECTRIC SHOCK HAZARD. THE DC CONDUCTORS ON THIS PHOTOVOLTAIC SYSTEM ARE UNGROUNDED AND MAY BE ENERGIZED. g0. PLAQUE TO BE INSTALLED ON THE FACE OF THE SERVICE METER PANEL: CAUTION POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS AS SHOWN AVENIDA FERNANDO EQUIPMENTATM — METER AND MAIN SERVICE — AC DISCONNECT EQUIPMENT ATM — DC DISCONNECT —INVERTER M. LABEL FOR SOLAR DC DISCONNECT: "SOLAR DC DISCONNECT" 12 LABEL FOR SMA AMERICA SB5000TL-US-22 (240V) INVERTER: GRID -TIED PHOTOVOLTAIC POWER SOURCE OPERATING CURRENT= 11.96 A OPERATING VOLTAGE = 438 V MAX SYSTEM VOLTAGE = 576.3 V MAX SYSTEM CURRENT = 16.2 A MAX INVERTER OUTPUT = 5 kW, 22 A, 240VAC 12. LABEL FOR SMA AMERICA SB6000TL-US-22 (240V) INVERTER: GRID -TIED PHOTOVOLTAIC POWER SOURCE OPERATING CURRENT= 17.94 A OPERATING VOLTAGE = 438 V MAX SYSTEM VOLTAGE = 576.3 V MAX SYSTEM CURRENT = 24.3 A MAX INVERTER OUTPUT = 6 kW, 25 A, 240VAC E w K U) U O 0 0 a 0 ui Q t do � Woo@ Ego, 0 0 N U0N o ili � d H m_ Q_ w 05 O 3 P8 (L) W � U Ca E" J Z Z W Li W Z_E z}08 'mzc �oW(p) �w C3 Z 0.0) o0�� O°' o00 W W o M z W z M Z � 2 w � LLm W p U c`np Z w a o Q a Z W CD r ®� a NTA w DEPT. CIV & SAFETY Q BUILDING a Al DPROVED 0 TRUCTION ° FOR CONS o U DATE- —BY PV -4 t 20% EFFICIENCY SunPower E20 panels are the highest I efficiency panels on the market today, 1. 1 providing more power in the some amount of space MAXIMUM SYSTEM OUTPUT I Comprehensive inverter compatibility I ensures that customers can pair the highest - efficiency panels with the highest -efficiency inverters, maximizing system output REDUCED INSTALLATION COST I More power per panel means fewer panels f per install. This saves both time and money. 1 I RELIABLE AND ROBUST DESIGN s SunPower's unique Maxeon'cell j technology and advanced module jj design ensure industry-leading reliability MAXEONI" CELL TECHNOLOGY Patented all -back -contact solar cell, providing the industry's highest efficiency and reliability THE WORLD'S STANDARD FOR SOLARTM SunPower' E20 Solar Panels provide today's highest efficiency and performance. Powered by SunPower Maxeon' cell technology, the E20 series provides panel conversion efficiencies of up to 20.1 %. The E20's low voltage temperature coefficient, anti -reflective glass and exceptional low -light performance attributes provide outstanding energy delivery per peak power watt. SUNPOWER'S HIGH EFFICIENCY ADVANTAGE 20% 15% 10% 5% SERIES SERIES SERIES sunpowercorp.com C UL uS MODEL: SPR-327NE-WHT-D ELECTRICAL DATA Maosured a Seard nd Tast Cordntons (STC): irradiance o1 touuw/mal, AM L5, and cell temperature 25'C Peak Power (+5/-3%) Pmox 327 W Cell Efficiency rl 22.5% Panel Efficiency r) 20.1 % Rated Voltage vmpp 54.7 V Rated Current Impp 5.98 A Open Circuit Voltage Voc 64.9 V Short Circuit Current Isc 6.46 A Maximum System Voltage UL 600 V Temperature Coefficients Power (P) - 0.38%/K — 381Hcs B o ENDS Voltage (Voc) -176.6mV/K Current (IX) 3.5mA/K NOCT 45° C +/- 2° C Series Fuse Rating 46(1.81] --) 20 A Grounding Positive grounding not required IN CURVE 7 _1000 wL� ar so° c —_ I 6 T000w/m' i } 5 : 4 Elm w/m,, C 1 3-- V 2 Soo w/m' 200 w/1112 l I o � 0 10 20 30 40 50 60 70 Voltage M Current/voltage characteristics with dependence on irradiance and module temperature. I TESTED OPERATING CONDITIONS Temperature -40° F to +1 BY F (-40° C to + BY C) Max load 113 psf 550 kg/m2 (5400 Pa), front (e.g. snow) w/specified mounting configurations 50 psf 245 kg/m2 (2400 Pa) front and back (e.g. wind) Impact Resistance Hail: (25 mm) at 51 mph (23 m/s) WARRANTIES AND CERTIFICATIONS Warranties 25 -year limited power warranty 10 -year limited product warranty Certifications Tested to UL 1703. Class C Fire Rating DIMENSIONS MECHANICAL DATA Solar Cells 96 SunPower Maxeon'' cells Front Glass High -transmission tempered glass with anti -reflective (AR) coating Junction Box IP -65 rated with 3 bypass diodes Dimensions: 32 x 155 x 128 mm Output Cables 1000 mm cables / Multi-Contoct (MCA) connectors Frame Anodized aluminum alloy type 6063 (black) Weight 41.0 lbs (18.6 kg) IN CURVE 7 _1000 wL� ar so° c —_ I 6 T000w/m' i } 5 : 4 Elm w/m,, C 1 3-- V 2 Soo w/m' 200 w/1112 l I o � 0 10 20 30 40 50 60 70 Voltage M Current/voltage characteristics with dependence on irradiance and module temperature. I TESTED OPERATING CONDITIONS Temperature -40° F to +1 BY F (-40° C to + BY C) Max load 113 psf 550 kg/m2 (5400 Pa), front (e.g. snow) w/specified mounting configurations 50 psf 245 kg/m2 (2400 Pa) front and back (e.g. wind) Impact Resistance Hail: (25 mm) at 51 mph (23 m/s) WARRANTIES AND CERTIFICATIONS Warranties 25 -year limited power warranty 10 -year limited product warranty Certifications Tested to UL 1703. Class C Fire Rating DIMENSIONS 2X I1.0(.431 MM (A) -MOUNTING HOLES (B) - GROUNDING HOLES (IN) 12X 06.6 (.261 I OX 04.2 1.171 30(1181 —322 2X577(22.70] 180[7.071 — (12.69] — 4% 230.8 [9.09] --[ — — 381Hcs B o ENDS $ 1559[61.39] —I 46(1.81] --) k— (A) I' I� L 915[36.02] 1 -- 1200[47.241 12[.471 - 1535(60.45) I Please read safety and installation instructions before using this product, visit sunpowercorp.com for more details. ® 2011 SunPower corporation. SUNPOWER, the SunPower Logo, and THE WORLD'S STANDARD FOR SOLAR, and MA%EON are trademarks or registered trademarks sunpowercorp.com of SunPower Corpomtmn in the US and other countries as well. All Rights Rowrmd. Specifications included in this dom,hoot aro subject to change without notice. Document #001-65484 Rev'B / LTR_EN C511316 Technical data Input (DC) Max. usable DC power (@ cos ip = 1) Max. DC voltage Rated MPPT voltage range MPPT operating voltage range Miii. DC vullage / start voltage Max. operating input current / per MPP tracker Nunibei of MPP trackers / strings per MPP tracker Ovtpvt (ACI AC nominal power Max. AC apparent power Nominal AC voltage / adjustable Cr' -4 0. rnn09 AC grid frequency; range Max. output current Puwel fatunt (rns 1P) Uulput phases / line connections Harmunips Fffiriunry Max. efficiency CEC efficiency Protection devices DC JIbL,uunticliu0 dRVICA DC reverse -polarity protection Ground fault monitoring / Grid monitoring Al; ahoft oirevit protection All-linlr srntifva r..irh�rd r�nr�nt mnnitndn0 ,tqg Arc fault circuit intorrupter (AFCq compliant to UL 1699D Protection rinss / overvoltage category Cnneretl rintn Dimensions (W / H / D) in mm (in) DC Di3gonnccl dimc,.ivna (W / I I / D) is mm (hi) N-619 sliweusivns (W / I I / D) In non (61) DC Disconnect packing dimensions (W / H / D) in mm (in) Weight / DC Disconnect weight PULklny welyht /DC Disconnect packing weight Oppmtin0 tamfrnM.- -no. Noise emission (IYP;Lul) Internal consumption at night Topology Cooling Electronics protection rating Features Secure Power Supply Display: graphic Interfaces: RS485 / Speedwire/Webconnecl Warranty: 10 / 15 / 20 years Certificates and permits (more uvuiluble un request) NOTE: U& in'rcrte.ra A'.p wilt. U-, p 161. Type designation Sunny Boy 3000TL-US Sunny Boy 3800TL-US Sunny Boy 4000TLrUS 208 V AC 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC 3200 W 4200 W 4200 W 600 V 600 V 600 V 175 - 480V 175 - 480 V 175 - 480 V 125 - 500 V 125 - 500 V 125 - 500 V 125 V / 150 V 125 V / 150 V 125V/ 150V 18 A/ 15A 24 A/ 15A 24A/ 15A 2/2 3000 W 3330 W 3840W 4000 W 3000 VA 3330 VA 3840 VA 4000 VA 208 V / • 240 V / • 208 V / • 240V/ • 208V/ • 240 V / • 100 - 229 b' 211 - 204'J 163 - 221+'v L I I -264V 18;i - 119 Y 21 1 - 264 V 60 Hz / 59.3 - 60.5 Hz 60 Hz / 59.3 - 60.5 Hz 60 Hz / 59.3 - 60.5 Hz 15A 16A 20A 1 1/2 I - 1/2 1 1/2 � 4X < 4% < 4% 97.2% 97.6% 97.2% 97.5% 97.2% 97.5% 96.5% 96.5% 96.5% 97.0% 96.5% 97.0% Sunny Boy 770OTL-US 208 V AC 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC • 6300 W 7300 W 8000 W 600 V 600 V 600 V 600 V • 210 - 480 V 245 - 480 V 270 - 480V • 125 - 500V 1125 - 500V 125 - 500V 1 I 125 V/ 150V 125 V/ 150V 125 V/ 150V 490/519/185 (19.3/20.5/7.3) 30A/ 15A 30A/ 18A 30A/ 18A 18/ / 29/ / 190 (7.4 / 11.7 / 7.5) 7/7 617 / 597 / 266 (24.3 / 23.5 / 10.5) 5200 W 6000 W 6000 W 7060 W 6650 W 7680 W 370 / 240 / 280 (14.6 / 9.4 / 11.0) 5200 VA 6000 VA 6000 VA 7000 VA 6650 VA 7680 VA 24 kg (53 Ib) / 3.5 kg (8 Ib) 208V/• - 240V/• 208V/• 9d0V/• InR�r/. 34Q V,' • 27 kg (60 16) / 3.5 kg (8 Ib) 183 - 229 V 211 - 264 V 183 - 229Y 211 - 264 V 183 - 229 V 211 - 264 V -40"C... 1150 'C (-40 T140 'M _. 5 25 dI3 A) < 25 dB(A) < 25 dB(A) < 1 W < I W < 1 W Transformerless Transformerless Transformerless Convection Convection Convection NEMA 3R NEMA 3R NEMA 3R 96.5% 96.5% • 0/0 0/0 0/0 •/O/O 9/0/0 •/O/O UL 1741, UL 1998, UL 16998, Ittt 1547, FCC Part 15 (Class A & B), CAN/CSA C22.2 107.1-1 SB 3000TL-US-22 SB 380OTL-US-22 SB 4000TL-US-22 curve SUNNY BOY 5000TL-US-22 '------".................. - -Y 6 ................................I ................: ...... . E` Accessories - - -- - Spmdwire/Weboonnea RS485 intedace intedace DM-485C&USI0 SWDM1U&10 _ • c 92 - - -- - - - - -- _ • c f, f l °o Fan k8 for SB 3000/3800/ 90 f - - ! - - - -- - ae �' - 4000/5000TI.US22 FANKR02.10 88 - ...... Eta N"'1750h d0V) vs aeo 86 I _- _. ___ _ _ -.. Eta(V--480 V) J__- 0.0 0.2 0.4 0.6 0.8 1.0 • Standard feature 0 Optional feature - Not available • -Output power/ Rated power --------------------------- - ----------------------•----------------------------------. Data at nominal conditions Sunny Boy 50007L -US Sunny Boy 6000TL-US Sunny Boy 7000TL-US Sunny Boy 770OTL-US 208 V AC 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC 5300 W 6300 W 7300 W 8000 W 600 V 600 V 600 V 600 V 175 - 480 V 210 - 480 V 245 - 480 V 270 - 480V 125 - 500 V 125 - 500V 1125 - 500V 125 - 500V 125V/ 150V 125 V/ 150V 125 V/ 150V 125 V/ 150V 30_A/ 15A 30A/ 15A 30A/ 18A 30A/ 18A 7/7 4550 W 5000 W 5200 W 6000 W 6000 W 7060 W 6650 W 7680 W 4550 VA 5000 VA 5200 VA 6000 VA 6000 VA 7000 VA 6650 VA 7680 VA 208V/• 240V/• 208V/• - 240V/• 208V/• 9d0V/• InR�r/. 34Q V,' • 183 - 229V 211 - 264 V 183 - 229 V 211 - 264 V 183 - 229Y 211 - 264 V 183 - 229 V 211 - 264 V 60 Hz / 59.3 - 60.5 Hz 60 Hz / 59.3 - 60.5 Hz 60 Hz / 59.3 - 60.5 Hz 60 Hz / 59.3 - 60.5 Hz 97G - - 3,5A 29.2A .SLA 1 1/2 1 1 1/7 1 < 4% < 4% t d / a 4e/ 97.2% 97.6% 97.0% 97.4% 96.8% 96.8% 96.8% 97.3% 96.5% 97.0% 96.5% 97.0% 96.5% 96.5% 96.5% 96.5% • • I/!Y d90/519/1R5 (19.3/20.5/7.3) 187 / 297 / 190 (7.4 / 11.7 / 7.5) 617 / 597 / 266 (24.3 / 23.5 / 10.5) 370/240/280 (14.6/9.4/11.0) 24 kg (53 Ib) / 3.5 kg (0 lb) 27 kit (60 Ib) / 3.5 kg 18 Ib) .40 "C... *60 "C (-40 ' F ... +140 'F) < 29 dB(A) < 29 dB(A) < 29 dB(A) < 29 dB(A) < 1 W < 1 W < I W < I W Transformerless Transformerless Transformerless Transformerless Convection Fan Fan Fan NEMA 3R NEMA 3R NEMA 3R NEMA 3R 0/0 0/0 0/0 O/O 0/0/0 •/U/O 0/0/0 0/0/0 UL 1741, UL 1998, UL 16998, IEEE 1547, FCC Part 15 (Class A & B), CAN/CSA C22.2 107. 1-1 SB 5000TL-US-22 SB 6000TL-US-22 SB 7000TL-US-22 SB 770OTL-US-22 I 0 Third party Lab Test - , al load Tle / TIrd C lbs Sid ad Patent #5,746,029 _ • • 4,500 00 fb roof e t d Vf/aterP Tile Roo Structural Attachment ,� NEWS STAINLESS STEEL TILE FLASHING The patented TileTrac® attachment allows for a structural roof rafter connection with optimal attachment stud location adjustability. Design results in the best looking systems in the industry. Tile Trac ° for s -curve concrete tile (6" Tall Threaded Stud) Part # TT -18-T6 Benefits of TileTrac® TileTrac ° for flat concrete tile (4" Tall Threaded Stud) Part # TT -18-T4 • Easiest and lowest cost waterproof tile roof • Includes Stainless Steel tile flashing and attachment Stainless Steel lag bolt • Over 15 years of industry preferred single lag • Aluminum and Stainless Steel components for bolt design maximum corrosion resistance and strength • 3rd party lab waterproof and load tested • Large roof surface contact area evenly • Compression sealed at underlayment and top distributes load of tile The TileTrac® Design Structurally attaches to roof rafter and allows the rail attachment stud to be located at the strongest point of the tile (the crown) where water does not flow. Without TileTrac° Katter attached to the rafter With TileTrac° Sealed at top of the Supp4Rail Sealed at —J Er nderlayment Rafter Water Flows High Point/ Crown in the Valley of the Tile of the Tiler (optimum) G TileTrac® assemblyT7 structurally attached to the rafter Installation steps for both s -curve and, flat concrete tile* STEP l: Select a tile in the area of the roof rafter Step 4: Seal the initial tile nail hole. Using a 3/16" drill bit and drill guide (FJ -Drill), drill pilot hole along the rafter center STEP 2: Remove the file by pushing and pulling. It is usually held in place by a small nail. Step 5: Insert the lag bolt and washer through the TileTrac° and apply fresh compatible sealant to the base. Step 7: After bolting the base to the roof, slide the upper carriage into the correct position under the crown of the tile. For Flat tile, slide the upper carriage near the middle of the tile. Step 8: Replace the file by lining up the snap lines and mark the drill location accordingly. Step 10: Insert threaded stud through file and hand -tighten to engage with base. Bind two 3/8" nuts (included) using 9/16" wrenches and tighten. *Not recommended for clay or slate tiles. Step 11: Unbind nuts and remove from stud. Apply sealant around stud at tile opening and compress with Stainless Steel flashing (included) until seated. STEP 3: Using an electronic stud finder (recommended), or other means, locate the rafter center. Mark a reference point on the tile above. Step 6: Using a 1/2" socket, install the lag bolt until seated. Do not overfighten. The sealant should flow outward sealing any holes. Step 9: Using a 1/2" carbide drill bit and ROTARY HAMMER DRILL in hammer mode, drill through the tile. See online video at www.prosolar.com for details. Step 12: Fasten rail with lower and upper 3/8" nuts/washers as shown. ©Professional Solar Products, Inc. Mar. 2011. TileTrac is a registered trademark and covered under Pat. #5,746,029