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Hattrup Design Plans
PROPOSED 17.28 KW DC SYSTEM (STO AT 8124 TALBOT RD. EDMONDS. WA 98026 ID# Plot Plan Photovoltaic Layout PV-1.0 Project Notes PV-1.1 Racking Layout PV-2.0 Mounting Details PV-2.1 Fire Labels & Equipment Elevation PV-3.0 Fire Placard PV-3.1 Conduit Run & Grounding Details PV-4.0 3 Line Diagram PV-4.1 Manufacture S ec Sheets Attached P OCCUPANCY GROUP: R-3 TYPE OF CONSTRUCTION: TYPE V-B AUTHORITY HAVING JURISDICTION: CITY OF EDMONDS ASSESSORS PARCEL NUMBER: #00594400008902 NUMBER OF STORIES: 2-Story ROOF PITCH: 18.5° 1 Sheet Index & Site Information Scale: NTS z AHJ Notes Scale: NTS (E) Standalone Meter (E) 200A MSP w/(E) 200A Main Breaker (Inside Garage) (N) 100A Utility Fused AC Disconnect #1 N 3 Plot Plan Scale: 1" = 30' (N) (48) Solaria PowerXT 360R-PD SnoPUD Utility (N) (48) SolarEdge P370 [HD] Optimizers (N) Junction Box (2) (N) SolarEdge_Technologies SE760OH-US (240V) (N) "PV Dedicated" 125A Sub -Panel 1 3oof Access Point Property Lines Fence Line Block Wall Conduit On Roof Conduit In Attic Conduit In Trench z 0 Q 0 ILL Ir 0 U z 0 z 0 IC' G 0 ILL W U0 V7 0 ILL z U W 1 0 0 00 U C0 J a;m 00 00 J N 00 00 0) 0 Lu ouiQm J t7>�:r, 0 m Q ai Lp HLn oN LA U N W X O N 41 Ln O N U d E _ ~ 0 QO V1 w W E01Ew I— 2 U1 n X n N O .a) U p m o oao 6 rnt 3c 6 U co O W ) N J) � 00 O OJ Cp w � m 0 N N LD o N 'O o on o0 G c Cr rnmo rr 0 0 O- ra 3 furl V 3� v N0) O 0 mN O100 000 00E N U -a z w a Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV INSTALLATION' P V -1.0 PROFESSIONAL ID# 2017 NATIONAL ELECTRICAL CODE 2015 INTERNATIONAL RESIDENTIAL CODE o`pa 2015 INTERNATIONAL FIRE CODE �a`0 2015 INTERNATIONAL BUILDING CODE •8124 Talbot Road cy �s A� 1 Applicable Codes Scale. NTS CODEBOOK: 2017NEC@) Vicinity Map BREAKER SIZES: NEC 240.6(A) 5 WIRE AMPACITY TABLE: NEC 310.15(B)(16) Scale: NTS MAX SYSTEM VOLTAGE CORRECTION: NEC 690.7(A) NUMBER OF CONDUCTORS CORRECTION: NEC 310.15(B)(3)(A) AMBIENT TEMPERATURE CORRECTION: NEC 310.15(B)(2)(A) 1. MODULES ARE LISTED UNDER UL 1703 AND CONFORM TO THE STANDARDS. AMBIENT TEMPERATURE ADJUSTMENT: NEC 310.15(B)(3)(C) 2. INVERTERS ARE LISTED UNDER UL 1741 AND CONFORM TO THE STANDARDS. DC GROUNDING ELECTRODE CONDUCTOR: UNGROUNDED DC SYSTEM 3. DRAWINGS ARE DIAGRAMMATIC, INDICATING GENERAL ARRANGEMENT OF AC GROUNDING ELECTRODE CONDUCTOR: NEC 250.50 THE PV SYSTEM AND THE ACTUAL SITE CONDITION MIGHT VARY. RACK GROUNDING ELECTRODE CONDUCTOR: NEC 690.47(B) 4. WORKING CLEARANCES AROUND THE NEW PV ELECTRICAL EQUIPMENT WILL MAXIMUM OCPD (120% RULE): NEC 705.12 BE MAINTAINED IN ACCORDANCE WITH NEC 110.26. 5. ALL GROUND WIRING CONNECTED TO THE MAIN SERVICE GROUNDING IN Electrical Code References MAIN SERVICE PANEL/ SERVICE EQUIPMENT. 2 6. ALL CONDUCTORS SHALL BE 600V, 75°C STANDARD COPPER UNLESS Scale: NTS OTHERWISE NOTED. 7. WHEN REQUIRED, A LADDER SHALL BE IN PLACE FOR INSPECTION IN COMPLIANCE WITH OSHA REGULATIONS. 1. ALL EQUIPMENT SHALL MEET MINIMUM SETBACKS AS REQUIRED BY NEC 8. THE SYSTEM WILL NOT BE INTERCONNECTED BY THE CONTRACTOR UNTIL 110.26. APPROVAL FROM THE LOCAL JURISDICTION AND/OR THE UTILITY. 2. WIRING SYSTEMS INSTALLED IN DIRECT SUNLIGHT MUST BE RATED FOR 9. ROOF ACCESS POINT SHALL BE LOCATED IN AREAS THAT DO NOT REQUIRE EXPECTED OPERATING TEMPERATURE AS SPECIFIED BY NEC 690.31(A)&(C), THE PLACEMENT OF GROUND LADDERS OVER OPENINGS SUCH AS WINDOWS NEC 310.15(B)(3)(C), AND NEC TABLE 310.15(B)(2)(A). OR DOORS, AND LOCATED AT STRONG POINTS OF BUILDING CONSTRUCTION 3. JUNCTION AND PULL BOXES PERMITTED INSTALLED UNDER PV MODULES WHERE THE ACCESS POINT DOES NOT CONFLICT WITH OVERHEAD ACCORDING TO NEC 690.34. OBSTRUCTIONS SUCH AS TREES, WIRES OR SIGNS. 4. ADDITIONAL AC DISCONNECT(S) SHALL BE PROVIDED WHERE THE INVERTER 10. PV ARRAY COMBINER/JUNCTION BOX PROVIDES TRANSITION FROM ARRAY IS NOT WITHIN SIGHT OF THE AC SERVICING DISCONNECT. WIRING TO CONDUIT WIRING 5. ALL EQUIPMENT SHALL BE INSTALLED ACCESSIBLE TO QUALIFIED PERSONNEL ACCORDING TO NEC APPLICABLE CODES. General Notes 6. ALL COMPONENTS ARE LISTED FOR THEIR PURPOSE AND RATED FOR 6 OUTDOOR USAGE WHEN APPROPRIATE Scale: NTS Equipment Location 3 Scale: NTS 1. GROUNDING SYSTEM COMPONENTS SHALL BE LISTED FOR THEIR PURPOSE, AND GROUNDING DEVISES EXPOSED TO THE ELEMENTS SHALL BE RATED FOR SUCH USE. 1. LOAD -SIDE INTERCONNECTION SHALL BE IN ACCORDANCE WITH NEC 2. PV EQUIPMENT SHALL BE GROUNDED ACCORDING TO NEC 690.43 AND 705.12(B). MINIMUM NEC TABLE 250.122 METAL PARTS OF MODULE FRAMES, MODULE 2. THE SUM OF THE UTILITY OCPD AND INVERTER CONTINUOUS INPUT MAY RACKING, AND ENCLOSURES CONSIDERED GROUNDED IN ACCORD WITH NEC NOT EXCEED 120% OF BUSBAR RATING NEC 705.12(D)(2)(3). 250.134 AND 250.136(A). 3. WHEN SUM OF THE PV SOURCES EQUALS >100% OF BUSBAR RATING, PV 3. EQUIPMENT GROUNDING CONDUCTORS SHALL BE SIZED ACCORDING TO NEC DEDICATED BACKFFED BREAKERS MUST BE LOCATED OPPOSITE END OF 690.45 AND MICRO INVERTER MANUFACTURER'S INSTRUCTIONS. THE BUS FROM THE UTILITY SOURCE OCPD NEC 705.12(D)(2)(3). 4. EACH MODULE WILL BE GROUNDED USING WEEB GROUNDING CLIPS AS 4. AT MULTIPLE PV OUTPUT COMBINER PANEL, TOTAL RATING OF ALL OVER SHOWN IN MANUFACTURER DOCUMENTATION AND APPROVED BY THE AHJ. CURRENT DEVICES SHALL NOT EXCEED AMPACITY OF BUSBAR. HOWEVER, IF WEEBS ARE NOT USED, MODULE GROUNDING LUGS MUST BE INSTALLED THE COMBINED OVER CURRENT DEVICE MAY BE EXCLUDED ACCORDING TO AT THE SPECIFIED GROUNDING LUG HOLES PER THE MANUFACTURERS' NEC 705.12(D)(2)(3)(C) . INSTALLATION REQUIREMENTS. S. FEEDER TAP INTER CONNECTION (LOAD SIDE) ACCORDING TO NEC 5. THE GROUNDING CONNECTION TO A MODULE SHALL BE ARRANGED SUCH 705.12(D)(2)(1) . THAT THE REMOVAL OF A MODULE DOES NOT INTERRUPT A GROUNDING 6. SUPPLY SIDE TAP INTERCONNECTION ACCORDING TO NEC 705.12(A) WITH CONDUCTOR TO ANOTHER MODULE. SERVICE ENTRANCE CONDUCTORS IN ACCORDANCE WITH NEC 230.42 6. GROUNDING AND BONDING CONDUCTORS, IF INSULATED, SHALL BE BACK FEEDING BREAKER FOR UTILITY -INTERACTIVE INVERTER OUTPUT IS COLORED GREEN OR MARKED GREEN IF #4 AWG OR LARGER NEC 250.119 EXEMPT FROM ADDITIONAL FASTENING NEC 705.12(D)(5). 7• THE GROUNDING ELECTRODE SYSTEM COMPLIES WITH NEC 690.47 AND 250.50 THROUGH 250.106. IF EXISTING SYSTEM IS INACCESSIBLE, OR INADEQUATE, A GROUNDING ELECTRODE SYSTEM PROVIDED ACCORDING TO NEC 250, NEC 690.47 AND AHJ. 8. GROUND -FAULT DETECTION SHALL COMPLY WITH NEC 690.41(B) AND NEC 690.41(B)(1) SPECIFICALLY. Interconnection Notes Grounding Notes 4 7 Scale: NTS Scale: NTS 1. 2. 3. 4. S. 9 1. 2. 3. 4. Aerial Map Scale: NTS RACKING SYSTEM & PV ARRAY WILL BE INSTALLED ACCORDING TO CODE -COMPLIANT INSTALLATION TOP CLAMPS REQUIRE A DESIGNATED SPACE BETWEEN MODULES, AND RAILS MUST ALSO EXTEND A MINIMUM DISTANCE BEYOND EITHER EDGE OF THE ARRAY/SUBARRAY, ACCORDING TO RAIL MANUFACTURER'S INSTRUCTIONS. JUNCTION BOX WILL BE INSTALLED PER MANUFACTURER'S SPECIFICATIONS. IF ROOF -PENETRATING TYPE, IT SHALL BE FLASHED & SEALED PER LOCAL REQUIREMENTS. ROOFTOP PENETRATIONS FOR PV RACEWAY WILL BE COMPLETED AND SEALED WITH APPROVED CHEMICAL SEALANT PER CODE BY A LICENSED CONTRACTOR. ALL PV RELATED ROOF ATTACHMENTS TO BE SPACED NO GREATER THAN THE SPAN DISTANCE SPECIFIED BY THE RACKING MANUFACTURER. z 0 5Q G 0 LL fr 0 U Q z 0 WHEN POSSIBLE, ALL PV RELATED RACKING ATTACHMENTS WILL BE z STAGGERED AMONGST THE ROOF FRAMING MEMBERS. 0 Structural Notes a Scale: NTS 2 fY LL ALL CONDUIT AND WIRE WILL BE LISTED AND APPROVED FOR THEIR PURPOSE. CONDUIT AND WIRE SPECIFICATIONS ARE BASED ON MINIMUM CODE z REQUIREMENTS AND ARE NOT MEANT TO LIMIT UP -SIZING. CONDUCTORS SIZED ACCORDING TO NEC 690.8, NEC 690.7. DC WIRING LIMITED TO MODULE FOOTPRINT. MICRO INVERTER WIRING LU SYSTEMS SHALL BE LOCATED AND SECURED UNDER THE ARRAY WITH SUITABLE � WIRING CLIPS. i- AC CONDUCTORS COLORED OR MARKED AS FOLLOWS: PHASE A OR L1- BLACK >_ PHASE B OR L2- RED, OR OTHER CONVENTION IF THREE PHASE PHASE C OR L3 BLUE, YELLOW, ORANGE*, OR OTHER CONVENTION NEUTRAL- WHITE OR GREY IN 4-WIRE DELTA CONNECTED SYSTEMS THE PHASE WITH HIGHER VOLTAGE TO BE MARKED ORANGE NEC 110.15. 10 Wiring & Conduit Notes Scale: NTS 1. DISCONNECTING SWITCHES SHALL BE WIRED SUCH THAT WHEN THE SWITCH IS OPENED THE CONDUCTORS REMAINING ENERGIZED ARE CONNECTED TO THE TERMINALS MARKED "LINE SIDE" (TYPICALLY THE UPPER TERMINALS). 2. DISCONNECTS TO BE ACCESSIBLE TO QUALIFIED UTILITY PERSONNEL, BE LOCKABLE, AND BE A VISIBLE -BREAK SWITCH 3. RAPID SHUTDOWN OF ENERGIZED CONDUCTORS BEYOND 10 FT OF PV ARRAY OR 5 FT INSIDE A BUILDING WITHIN 10 SECONDS. CONTROLLED CONDUCTORS <_30V AND <240VA [NEC 690.12]. LOCATION OF LABEL ACCORDING TO AHJ. 4. ALL OCPD RATINGS AND TYPES SPECIFIED ACCORDING TO NEC 690.8, NEC 690.9 AND 240. 5. MICRO INVERTER BRANCHES CONNECTED TO A SINGLE BREAKER OR GROUPED FUSES IN ACCORDANCE WITH NEC 110.3(B). 6. IF REQUIRED BY AHJ, SYSTEM WILL INCLUDE ARC -FAULT CIRCUIT PROTECTION ACCORDING TO NEC 690.11 AND UL1699B. 11 Disconnection & OCPD Notes Scale: NTS 0 LL z U W 0 m r, m CO J (D w J O V) u v W 0 v � N v Ln O N ua E_ °C 0- 0 �0Ow EMEw ��°L^ �x1: U 0 m o Do- a. o rnt Y 6 U co O W ) N to 0o w � m " o U) N N LD O N Ol -a0moO G rnm00 OC�QN0 Lv 2 v N Ol m N C l0 0 _, 000 W E N * w a Q x REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV INSTALLATION PV_ 1.1 PROFESSIONAL Array Quantity Mounting Type Array Tilt Azimuth Att. Spacing Roof Type AR-01 48 Flush Mounted 18.5° 133 72" 1 Comp. Shin le** **(See PV-2.1 for Additional Information & Details) Modules Fire Clearance Obstructions Attachments Rafters Rails ❑ ❑ O----------- ID# Z O Q rr O li Z Ir O U KQ LL Z O O IL Z U W 1 O O U N J M 00 - M Q 0)0 OInQr� U > r, Q ai Ln N (13 LA to rn N O N 41 Ln O N U d E _ ~ 0 t n w Q QO W Er^Ew Y��=ln n X n N O .a) U p M o oaa o rnt Y 6 U c0 O W ) N to � 00 O OJ v`na Op w � m 0 U) N N 1D O N OO Mo0 c Cr G rnmo rr 0 0 O ra 3 Ln V 2 v N Ol O 0 mN O100 000 W E N U -O Z w a Q m M M CO J LU W J 0 In (6 u v W X REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. 1 PV Racking & Roof Framing Plan N SHEET Scale: 3/32" = 1 -0" PV INSTALLATION P PROFESSIONAL Roof Information ID# Att#hmentSpacilr)g:6' Attachment Point I � I 18.5°II O (4:112) Slop � I YID I IPV Module lo— Max Cantilever 33% Rail Span: 72" x �3% = 24" 2 Roof 1 Attachment Spacing Detail Scale: NTS Pm W I � PV Rail T—BOLT END CLAMP IRON RIDGE SUPPORT RAIL — FLASHFOOT PV MODULE MIN. 3.511 ABOVE ROOF FLASHING W/SEALANT COMP. SHINGLE ROOF 1 Roof 1 Attachment Detail Scale: NTS Roof Material: Comp. Shingle. Roof Framing: Rafter. Framing Size & Spacing: 2" x 4", 24" O.C. Framing Span & Roof Pitch: 8'-6", 18.5° or (4:12) Pitch Framing Species & Grade: Douglas Fir Larch #2. Racking Information Racking / Rail Manufacture: IronRidge 14 Ft. Rails Attachment Manufacture: IronRidge FlashFoot. Number of Attachments: 71 Attachments Racking Weight: 3.56 Lbs. / Module Module Information Modules: (48) Solaria PowerXT 360R-PD Module Dimensions: 63.82" x 43.94" x 1.57" Module Weight & Sq.Ft.: 46 Lbs. , 19.47 Sq.Ft. Array Sq.Ft.: 934.56 Sq.Ft. Weight Calculations Weight w/Racking & Add Ons: 2474.88 Lbs. Weight (Lbs.) / Attachment: 34.86 Lbs. / Attachment. Distributed Weight on Roof: 2.65 Lbs. / Square Foot. 3 Roof 1 Calculations Scale: NTS (1) 5/16'Ix411 LAG BOLT (MIN. 2.511 EMBEDDED) i 0 CH G O LL IZ O 1— U Z O Z O I-- Q O LL w U0 O LL U w 1 a r In 0 COO J a m ro J N W 00 L Q dl lfl W ovi<rn J 0;�r, 0 m Q ai L,/') �Ln 11 mN 0o v� LA 0 In N v W X 0 v N v Ln O N U d E am:I— 0� a 0 `^�o1 Er^Ew 0) IE Ln ,)X— N rn a, 0 1 U 0 m 0) oaa 0 C Y -O U co N to � 00 O U1 v`na ap w � m 0 N N 10 O N � -Cr 0moO T-rnm00 rr 0 0 �(3Lnv 3 H v N 0) -emu Ln 10ry c100 _, 000 CO E N U w a Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV INSTALLATIONP Y • V _ 2 . 1 PROFESSIONAL 0 CH G O LL IZ O 1— U Z O Z O I-- Q O LL w U0 O LL U w 1 a r In 0 COO J a m ro J N W 00 L Q dl lfl W ovi<rn J 0;�r, 0 m Q ai L,/') �Ln 11 mN 0o v� LA 0 In N v W X 0 v N v Ln O N U d E am:I— 0� a 0 `^�o1 Er^Ew 0) IE Ln ,)X— N rn a, 0 1 U 0 m 0) oaa 0 C Y -O U co N to � 00 O U1 v`na ap w � m 0 N N 10 O N � -Cr 0moO T-rnm00 rr 0 0 �(3Lnv 3 H v N 0) -emu Ln 10ry c100 _, 000 CO E N U w a Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV INSTALLATIONP Y • V _ 2 . 1 PROFESSIONAL LABEL PLACEMENT LABELS JUNCTION BOX 1, 2 DC CONDUIT 9,11 INVERTER 3, 4, 6,7, 8, 10, 19 AC DISCONNECT 1, 5, 7 SUB PANEL 1, 2, 12, 14, 15, 16, 18 MAIN SERVICE PANEL 1, 2, 7, 12, 14, 15, 16, 17, 18 1 1. 2. 3. To Street WARNING THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES, EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE, SHALL NOT EXCEED AMPACITY OF BUSBAR. FOR LINE -SIDE TAP: THIS LOAD CENTER IS IN COMPLIANCE WITH NEC 2017 ARTICLE 705.12(A)"THE SUM RATINGS OF ALL OVERCURRENT DEVICES CONNECTED TO POWER PRODUCTION SOURCES SHALL NOT EXCEED THE RATINGS OF THE SERVICE" PV Equipment Location & Fire Label Placement Table Scale: NTS I A WARNING I ELECTRICAL SHOCK HAZARD TERMINALS ON THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION PER NEC 690.13(B) I A WARNING I TURN OFF PHOTOVOLTAIC AC DISCONNECT PRIOR TO WORKING INSIDE PANEL PER NEC 110.27(C) A WARNING ELECTRICAL SHOCK HAZARD TERMINALS ON THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION DC VOLTAGE IS ALWAYS PRESENT WHEN SOLAR MODULES ARE EXPOSED TO SUNLIGHT PER NEC 690.13(B) 4. PHOTOVOLTAIC DC DISCONNECT Fire Labels PER NEC 690.13(B) Z Scale: NTS 5. PHOTOVOLTAIC AC DISCONNECT 11 PER NEC 690.13(B) MAXIMUM VOLTAGE: MAXIMUM CIRCUIT CURRENT: MAX RATED OUTPUT CURRENT OF THE CHARGE CONTROLLER OR DC -TO -DC CONVERTER (IF INSTALLED): 0 Backyard Inside Garage I �B I Main Panel Board Inverter Inverter w/Integrated w/Integrated DC MI DC Disconnect DC Disconnect Conduit DC _ DC AC AC F AC F O.FF Q Sub -Panel L— — — — — — J l O WARNING O PHOTOVOLTAIC POWER SOURCE DO NOT REMOVE UNLESS REPLACED IN EXACT LOCATION - PV POWER CIRCUIT DIRECTLY BELOW PER NEC 690.31(13)(1) 16. A CAUTION PHOTOVOLTAIC SYSTEM CIRCUIT IS BACKFED PER NEC 690.13(F) & NEC 705.12(B)(3-4) & NEC 690.59 17 12. AWARNING DUAL POWER SOURCE SECOND SOURCE IS PHOTOVOLTAIC SYSTEM 18 PER NEC 690.59 & NEC 705.12(D)(3) PER NEC 690.53 13. 7. PHOTOVOLTAIC AC DISCONNECT RATED AC OPERATING CURRENT: 64A NOMINAL OPERATING AC VOLTAGE: 240V PER NEC 690.54 A WARNING THE DISCONNECTION OF THE GROUNDED CONDUCTORS(S) MAY RESULT IN OVERVOLTAGE OF THE EQUIPMENT PER NEC 690.31(1) 9. WARNING: PHOTOVOLTAIC POWER SOURCE PER NEC 690.31(G)(3)(4) 10. RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM PER NEC 690.56(C)(3) NOMINAL OPERATING AC VOLTAGE � NOMINAL OPERATING AC FREQUENCY 0 MAXIMUM AC POWER 0 MAXIMUM AC CURRENT 0 MAX OVERCURRENT DEVICE RATING FOR AC MODULE PROTECTION FOR AC MODULES ONLY 14. PER NEC 690.52 I AWARNING I SINGLE 120-VOLT SUPPLY DO NOT CONNECT MULTIWIRE BRANCH CIRCUITS PER NEC 710.15(C) & NEC 692.9(C) 15. DO NOT DISCONNECT UNDER LOAD PER NEC 690.15(C) & NEC 690.33(E)(2) 19. MAIN PHOTOVOLTAIC SYSTEM DISCONNECT PER NEC 690.13(B) Di WARNING POWER SOURCE OUTPUT CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. PER NEC 705.12(B)(2)(c) SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SOLAR ELECTRIC PV FANELs SHUT DOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN THE ARRAY MEIN IFU Wb.11.3.1(1) 2k NEC; 69U.bb(U)(1)(a) FORMAT: (1) WHITE LETTERING ON A RED BACKGROUND (2) MINIMUM 3/8 INCH LETTER HEIGHT (3) ALL LETTERS SHALL BE CAPITALIZED (4) ARIAL OR SIMILAR FONT, NON -BOLD MATERIAL: (1) REFLECTIVE, WEATHER RESISTANT MATERIAL SUITABLE FOR THE ENVIRONMENT (USE UL-969) AS STANDARD FOR WEATHER RATING. DURABLE ADHESIVE MATERIALS MEET THIS REQUIREMENT. ID# O H 2 O ILL fr O l_ V) U < o 03 U N c0 LL J m J N 0 00 00 (D 0)0 w Q otnQrn � �;�r- O U `�>a; Ul H N N N 00 (1)ul),--I to t; 0) U N 2 W x Z Ln O a Ex ��[ ;o Q L^ ) O U3 Em^ow vIxtn � ma? v, O U) v LL U am o z DO- Q. p .° a,t to N U U to awe UJIN Ln r`o LA —FT >- i m U0 N O N Lp O zN _ .,� rn m 00 c�Q�� U (- ra � Ln V 2 viN0) W �N�L oo O 1:00 000 N Yk � -a0- l2 a REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV-3.0 PV INSTALLATION PROFESSIONAL ID# Film 1 If -- 211 -- 311-- m 511-- C� 1 Fire Placard Scale: NTS o„ ill 211 3" 41' 51 1 61' 1 1 1 1 1 1 1 CAUTION POWER TO THE BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AT SHOWN MAIN SERVICE PANEL - (INSIDE GARAGE) STANDALONE METER UTILITY FUSED DISCONNECT SOLAR PV ARRAY WITH OPTIMIZERS ROOF MOUNTED SUB PANEL (2) PV INVERTER WITH INTEGRATED DC DISCONNECT NOTE: THE PLAQUE SHALL BE METAL OR PLASTIC, WITH ENGRAVED OR MACHINE PRINTED LETTERS IN A CONTRASTING COLOR TO THE PLAQUE, INCLUDE THE LOCATION OF METER, DISCONNECTS, INVERTER, THE ARRAY AND A FOOTPRINT OF THE ENTIRE BUILDING AND SITE. THE PLAQUE WILL BE ATTACHED BY POP -RIVETS, SCREWS OR OTHER APPROVED FASTENERS. z O a rr O U- z fr O I— U o m U N CO J vm ao J NSW 00 U 61 lfl W QQ 2 Vn < t U > �: O U a v V) HLf) n N N 0 p v U u N (3) W x z L, O a Ex I— Cra 0 Q �!1�00 2i EDm^W v � � �x,n ? O a, 0 L.L U 0 m 0 z Dad0 rnt CO0 ° U Q W a) N to LU LA 0o W V " 0 N O N 10 O N z v o m ao TCr m p OC0 �Q� V 0 ra 3 111 V N°1 W btu �n m N c l0 0 O x-4 000 E N U w Z a a a REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV INSTALLATION PV-3.1 PROFESSIONAL ID# CONDUIT RUN ABOVE ROOF Raceway Above Roof: Maximum Height: 3-1/2" Minimum Height: 1" Strut Strap 2" x 6" Block Rain Tight, Steel EMT Connector Junction Box Strain Relief Module DC (PV) or AC (Microlnverter) Cable 1 z Roof Framing N Conduit Run Details Scale: NITS MODULE TO MODULE & MODULE TO RAIL CONDUIT RUN THROUGH ATTIC Raceway Above Roof: Maximum Height: 3-1/2" Minimum Height: 1" Strut Strap 2" x 6" Block Rain Tight, Steel EMT Connector Junction Box Strain Relief Module DC (PV) or AC (Microlnverter) Cable EPMD - Flashing Roof Framing — EMT Conduit — FLEX Conduit Through Attic (18" Below Roof Material) ;IDGE UFO PV MODULE FRAME INRIDGE RAIL UNIVERSAL FASTENING OBJECT (UFO) THE UFO SECURELY BONDS SOLAR MODULES TO XR RAILS. IT COMES ASSEMBLED AND LUBRICATED, AND CAN FIT A WIDE RANGE OF MODULE HEIGHTS. Grounding Details Scale: NITS C CONDUIT RUN THROUGH ATTIC WITH SOLADECK SolaDeck with Flashing & Sealant Module --\ Manufactures (AC Module) Cable Strain Relief - Roof Framing 3/4" FLEX Conduit Penetrating Through Roof #12 Romex — RAIL TO RAIL (IN THE SAME ROW) IN I J KtI"IUVAL Jr- UINt riLl,L ur EQUIPMENT SHALL NOT DISCONNECT THE BONDING CONNECTION BETWEEN ANY OTHER PIECES. r' r T"PING SCREW PV MODULE JRIDGE RAIL V!211111rAIly Al CONDUIT RUN THROUGH TRENCH Trench RAIL TO RAIL (IN THE DIFFERENT ROWS) NTS REMOVAL OF ONE PIECE OF EQUIPMENT SHALL NOT DISCONNECT THE BONDING CONNECTION BETWEEN ANY OTHER PIECES. COPPER ID WIRE EQUIPMENT ACH ILSCO GBL-41DBT GROUND LUGS W/STAINLESS STEEL MACHINE SCREW (FOR EXTERIOR, WET LOCATIONS) z O Q O LL Z fr O 1-- U Q Z 0 O LL Z U W 1 O 0 00 v Cno J vey00 i M J N 00 00 oL'i< J > � r, O Q a; "g) � Ln 13 O O ar LA ut U N v W x 0 v N Ol In O N -U E _ H 0 O �WQOw Er^EW Y��=ln n X n U p m 0) o a a O rnt 3c 6 U co O W ) N to � 00 O OJ v`na cp w � m 0 N N 1D O N OO r)o0 T� rn M 00 rr 0 0 O ra 3 Ln V 7 v N Ol In Lf1 mN O100 _ 000 W E N U -a z W a Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET PV INSTALLATION' P V - 4.0 PROFESSIONAL Wire Conductor Neutral Ground Raceway Raceway Raceway Height Above Output 125% of Output Min. Wire De -Rate Calculation Dist. Voltage Voltage Conduit Wire jAmbient # of Final Tag Qty. Size & Type Qty. Size & Type Qty., Size & Type Size & Type Location Roof Current Current OCPD Rating Temp Cond. Ampacity (Ft) Drop % Fill % DCA (4) #10 AWG PV Wire (1) #6 AWG Bare Copper Not Applicable Under Array 1" To 3-1/2" 15A 18.8A 20A 40A X 0.82 X 1 = 32.8A 10 Ft. 400V 0.09% DC.2 (4) #10 AWG THWN-2 (1) #10 AWG THWN-2 3/4" EMT Conduit Above Roof 1" To 3-1/2" 15A 18.8A 20A 40A X 0.82 X 0.8 = 26.2A 20 Ft. 400V 0.19% 19.8% AC.1 (2) #8 AWG THWN-2 (1) #8 AWG THWN-2 (1) #10 AWG THWN-2 3/4" EMT Conduit Exterior Wall "N/A" 32A 40A 40A 55A X 1 X 1 = 55A 5 Ft. 240V 0.1% 24.6% AC.2 (2) #4 AWG THWN-2 (1) #4 AWG THWN-2 (1) #8 AWG THWN-2 1" EMT Conduit Exterior Wall "N/A" 64A 80A 80A 95A X 1 X 1 = 95A 30 Ft. 240V 0.49% 32.9% AC.3 (2) #4 AWG THWN-2 (1) #4 AWG THWN-2 1" Sch. 40 Pipe PVC Exterior Wall "N/A" 64A 80A 80A 95A X 1 X 1 = 95A 5 Ft. 240V 0.08% 29.8% PV Module 1 (48) Solaria PowerXT 360R-PD Power at STC: 360W Power at PTC: 327.6W V-oc:47.7V V-mp:39.5V I-sc:9.56A I-mp:9.13A V-oc Temp Coefficient:-0.29%/°C Output (I-sc x 1.25 x 1.25): 14.9A SnoPUD Utility PV Optimizer 1 (48)SolarEdge P370 [HD] Max I-sc Input: 11A Max V-oc Input: 60V Max Power Per String: 6000W Inverter 1 (4320W/40OV) = 10.8A Inverter 2 (4320W/40OV) = 10.8A Inverter 1 & 2 SolarEdge_Technologies SE760OH-US (240V) Max Output Current: 32A Safety Rating: (32A x 1.25) = 40A Minimum OCPD: 40A Max Number of Strings: 2 Number of MPPT's: 1 Maximum Input Voltage: 480V Transformerless (Y/N): Yes Operating Current: 10.8A Operating Voltage: 400V Maximum System Voltage: 480V Short Circuit Current: 30A Vim O oe� DC Disco. DC Disco. Sub -Panel 1 I AC Disconnect #1 Main Service Panel 1 Existing or New: (N) "PV Dedicated" 100A Utility Fused AC Disconnect #1, Existing 200A MSP, Top -Fed Rating: 125A Sub -Panel, Main -Lug Only 2 Pole, W/80A Fuses, 10, 3W, 120/240V PV Breaker 1 (N) 40A, 2 Pole 240V, Lockable, Visible, Rated NEMA Utility: SnoPUD PV Breaker 2 (N) 40A, 2 Pole 3R Interconnection: Line -Side Tap Total 80A Main Breaker De-Rated:No Sub -Panel 1 PV OCPD (N) 40A, 2 Pole L1 L1 L2 L2 N — N G G PV OCPD (N) 40A, 2 Pole L1 L2 N G 1 Phase / 60 Hz. ELECTRODE CONDUCTOR ATTACHING TO (E) GROUNDING ELECTRODE EXISTING GROUNDING ELECTRODE MSP NOTE: "AN ELECTRIC POWER PRODUCTION SOURCE SHALL BE PERMITTED TO BE CONNECTED TO THE SUPPLY SIDE OF THE SERVICE DISCONNECTING MEANS AS PERMITTED IN 230.82(6). THE SUM OF THE RATINGS OF ALL OVERCURRENT DEVICES CONNECTED TO POWER PRODUCTION SOURCES SHALL NOT EXCEED THE RATING OF THE SERVICE. PER NEC 705.12 Main Panel Interconnection Information Bus Bar 1 Rating: 200A Main Breaker 1 Rating: 200A PV Back Feed (Actual Load): N/A PV OCPD: N/A Interconnection Calculation: 120% Rule Not Applicable Ambient Temperature Information Extreme Min Temp: Ambient Temp: -5°C 26°C Ambient Temp. Adjustments 0" to 7/8" Above Roof: 59°C Voltage Drop Information DC Voltage Drop: AC Voltage Drop: Total System Voltage Drop: 0.28% 0.67% 0.95% ID# Z O Q Ir 0 LL Z IZ 0 U 0 00 U N 00 /y LL J v fn 00 00 ��00ro rn W O 2i< 5 > r, O U Ia v H N � N N op v� LA Y U N v W X Z Ln a E x I—' LO 0 0-0 Q �pio Em^W V)X= in 0 U v0 LL U p M O Z o o-11o aft CO0 ° U Q W a) ("! V) (a l/1 0o w V7 " o N O N 1O O N 0) 00 Z p O rn �rn0 _ >m0 W-a L6cT ° M 3 Ln V U N°1 W b u Mm N l4 0 Q ,� o 00 CO E N U W z Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. SHEET Three Line Diagram 1 Scale: NTS PV INSTALLATION PV-4.1 PROFESSIONAL I D# SOLARIA Solaria PowerXT® I Residential Achieving up to 20% efficiency, Solaria PowerXT solar modules are one of the highest power modules in the residential solar market. Compared to conventional modules, Solaria PowerXT modules have fewer gaps between the solar cells; this leads to higher power and superior aesthetics. Solaria PowerXT residential modules are manufactured with black backsheet and frames, giving them a striking appearance. Developed in California, Solaria's patented cell cutting and module assembly takes processed solar wafers and turns them into PowerXT solar modules. The process starts by creating a highly reliable PowerXT cell where busbars and ribbon interconnections are eliminated. Solaria then packages the cells into the PowerXT solar module, reducing inactive space between the cells. All of the above leads to an exceptionally efficient solar module produced in a cost effective manner. Higher Efficiency, Higher Power Solaria PowerXT modules achieve up to 20% efficiency; conventional modules achieve 15% -17%efficiency. Solaria PowerXT modules are one of the highest power modules available. Lower System Costs Solaria PowerXT modules produce more power per square meter area. This reduces installation costs due to fewer balance of system components. Improved Shading Tolerance Sub -strings are interconnected in parallel, within each of the four module quadrants, which dramatically lowers the shading losses and boosts energy yield. Improved Aesthetics Compared to conventional modules, Solaria PowerXT modules have a more uniform appearance and superior aesthetics. Durability and Reliability Solder -less cell interconnections are highly reliable and designed to far exceed the industry leading 25 year warranty. About Solaria Established in 2000,The Solaria Corporation has created one of the industry's most respected ppERFORM `G IP portfolios, with over 100 patents encompassing materials, processes, applications, soya products, manufacturing automation and equipment. Headquartered in Fremont, California, Solaria has developed a technology platform that unlocks the potential of solar energy DNV•GL TUVRheinlana allowing it to be ubiquitous and universally accessed. RELIAB ITMyOCORECLRG Precisely Right. The Solaria Corporation 6200 Paseo Padre Parkway, Fremont, CA 94555 P: (510) 270-2500 www.solaria.com Copyright © 2018 The Solaria Corporation Product specifications are subject to change without notice. Rev 1 H 08-22-2018 1 Data Sheets Scale: NTS SOLARIAVV Solaria PowerXT°-360R-PD Performance at STC (I rrr Solaria PowerXT 34511-PD 35OR-PD 35511-PD 360R-PD Cell Type Monocrystalline Silicon Max Power (Pmax) [W] 345 350 355 360 Dimensions (L x W x H) 1621 mm x 1116mm x 40mm Efficiency N 19.1 19.4 19.6 19.9 Weight 21 kg / 46 Ibs Open Circuit Voltage (Voc) [V] 46.9 47.1 47.4 47.7 Glass Type / Thickness AR Coated, Tempered / 3.2mm Short Circuit Current (Ise) [A] 9.46 9.49 9.53 91.56 Frame Type Anodized Aluminum Max Power Voltage (Vmp) [V] 38.5 38.8 39.1 39.5 Cable Type / Length 12 AWG PV Wire (UL) / 1000mm Max Power Current (Imp) [A] 8.93 9.02 9.09 91.13 Connector Type Amphenol H4 (MC4 compatible) Power Tolerance N -0/+3 -0/+3 -0/+3 -0/+3 Junction Box IP67 / 4 diodes Performance 6 CT i t �, Front Load (UL 1703) 5400 Pa / 113 psf* at r Rear Load (UL 1703) 2400 Pa / 50 psf* Max Power (Pmax) [W] 255 259 261 265 'Refer to Solaria Instal lation Manual for details Open Circuit Voltage (Voc) [V] 44.1 44.3 44.6 214.8 Short Circuit Current (Ise) [A] 7.66 7.69 7.68 7.71 Max Power Voltage (Vmp) [VI 35.4 35.7 36.0 36.3 Certifications UL 1703/IEC 61215/IEC 61730/CEC Max Power Current (Imp) [A] 7.15 7.22 7.27 7.30 CAN/CSA-C22.2 Fire Type (UL 1703) 1 Temperature Characteristics Power & Product Warranty 25 years* NOCT [eC] 45+/-2 *warranty details at www.solaria.com Temp. Coeff. of Pmax [%/ OC] -0.39 Temp. Coeff. of Voc [%/ OC] -0.29 Stacking Method Horizontal / Palletized Temp. Coeff. of Isc [k / C] 0.04 Pcs / Pallet 25 Design Parameters Pallet Dims 1668 x 1150 x 1230 mm Operating temperature [oC] -40 to +85 Pallet Weight 590 kg / 1300 Ibs Max System Voltage [V] 1000 Pallets / 40-ft Container 28 Max Fuse Rating [A] 15 Pcs / 40-ft Container 700 Bypass Diodes [#] 4 10 1000 W/m, 9 B 800 W/mz 7 600 W/mz 4� [" w s X 4 U 400 W/m2 : 3 200 W/m2 . \1U 0 0 5 10 15 20 25 30 35 40 45 50 VOLTAGE (V) Authorized Dealer [1„1 x mrn_«5 25mm [sso] iszimmrs [s.an] Ieem I48mm A B B A NEGATIVE (-) POSITIVE (+) 1000 (3.3 R) 1000 (3.3 R) A B A 4-i .. r x 10mm[0.394In] O 4.5mm[0.1Wn] 1HRU ALL mm[0.214m] 4X MOUNTING SLOTS'e' 4X GROUND'A' 10.0mm 7mm [0.3in] 10.39i l 40.Umm . ;1.57in] MOUNTING HOLE lOmm 1.7mm [0.4in] [0.07in] ! 35.0mm [1.38in] The Solaria Corporation 6200 Paseo Padre Parkway, Fremont, CA 94555 P: (510) 270-2500 www.solaria.com Product specifications are subject to change without notice. Copyright © 2018 The Solaria Corporation Rev 1 H 08-22-2018 Z O O LL Z Cr O ll-_ 0 U Q o 0o N � i N (�') 00 00 _J " rn _J F0 � m w (7 -0 0)Lo w Z 0 Ui J O 0 (1) o U ° a (D In N N ra V Q 0 v U) U) 0) V N a) LU x M Z Ln 0 a Ex LU) o .Q o cQ 0Lo U G E m ^ w a)[-U) Cr X = n 0 v o .� LL U p m o z Q a Clp ��rns 00 N U v NLf) ra ~I V O) In 00 L LI V) o N O N N z -00 M°O DO Lin j. - 6) (y) 00 °C0aLnv U o f6�In`t �� nN0) LL) - 't U N N N C l4 0 O = r O o 0 00 E N 4t W 0- a 0- REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. DATA PVINSTALLArAL PROFESSHEET SIONAL ID# Single Phase Inverter with HD -Wave Technology for North America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US j/ SE760OH-US / SE10000H-US / SE11140OH-US • solar= -'[ -VD,.,, O e Optimized installation with HD -Wave technology / Specifically designed to work with / Extremely small power optimizers / Record -breaking efficiency / Built-in module -level monitoring / Fixed voltage inverter for longer strings / Outdoor and indoor installation / Integrated arc fault protection and rapid shutdown for / Optional: Revenue grade data, ANSI C12.20 NEC 2014 and 2017, per article 690.11 and 690.12 Class 0.5 (0.5% accuracy) / UL1741 SA certified, for CPUC Rule 21 grid compliance solaredge.com 1 Inverter Data Sheets Scale: NTS Z G m m N Single Phase Inverter with HD -Wave Technology for North America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US/ SE760OH-US / SE1000OH-US / SE11400H-US OUTPUT Rated AC Power Output 3000 3800 @ 240V 5000 6000 @ 240V 7600 11400 @ 240V 10000 VA 3300 @ 208V 5000 @ 208V 10000 @ 208V Maximum AC Power Output 3000 3800 @ 240V 5000 6000 @ 240V 7600 10000 11400 @ 240V VA 3300 @ 208V 5000 @ 208V 10000 @ 208V AC Output Voltage Min.-Nom.-Max. ✓ ✓ ✓ ✓ ✓ ✓ ✓ Vac (211 - 240 - 264) AC Output Voltage Min.-Nom.-Max. ✓ ✓ Vac (183 - 208 - 229) AC Frequency (Nominal) 59.3 - 60 - 60.5111 Hz Maximum Continuous Output 12.5 16 21 25 32 42 47.5 A Current @240V Maximum Continuous Output _ 16 - 24 - - 48.5 A Current @208V GFDI Threshold 1 A Utility Monitoring, Islanding Protection, Country Configurable Yes Thresholds INPUT Maximum DC Power @240V 4650 5900 1 775t1 1 9300 1 11800 1 15500 1 17650 W Maximum DC Power @208V - 5100 1 7750 15500 W Transformer -less, Ungrounded Yes Maximum Input Voltage 480 Vdc Nominal DC Input Voltage 380 400 Vdc Maximum Input Current @240V(2) 8.5 10.5 13.5 16.5 20 1 27 30.5 Adc Maximum Input Current @208VI�1 - 9 13.S - 27 Adc Max. Input Short Circuit Current 45 Adc Reverse -Polarity Protection Yes Ground -Fault Isolation Detection 600ko Sensitivity Maximum Inverter Efficiency 99 99.2 % CEC Weighted Efficiency 99 99 @ 240V 98.5 @ 208V % Nighttime Power Consumption < 2.5 W ADDITIONAL FEATURES Supported Communication Interfaces Revenue Grade Data, ANSI C12.20 Rapid Shutdown - NEC 2014 and 2017 690.12 STANDARD COMPLIANCE Safety Grid Connection Standards Emissions INSTALLATION SPECIFICATIONS RS485, Ethernet, ZigBee (optional), Cellular (optional) Optional'"' Automatic Rapid Shutdown upon AC Grid Disconnect UL1741, UL1741 SA, UL16996, CSA C22.2, Canadian AFCI according to T.I.L. M-07 IEEE1547, Rule 21, Rule 14 (HI) FCC Part 15 Class B AC Output Conduit Size / AWG 3/4" minimum / 14-6 AWG 3/4" minimum /14-4 AWG Range DC Input Conduit Size / # of Strings / AWG Range 3/4" minimum / 1-2 strings / 14-6 AWG 3/4" minimum / 1-3 strings / 14-6 AWG Dimensions with Safety Switch (HxWxD) 17.7 x 14.6 x 6.8 / 450 x 370 x 174 21.3 x 14.6 x 7.3 / 540 x 370 x 185 in / mm Weight with Safety Switch 22110 25.1 / 11.4 26.2 / 11.9 38.8 / 17.6 lb / kg Noise < 25 <50 dBA Cooling Natural Convection Operating Temperature Range -40 to +140 / -25 to +60141(-40°F / -40'C option)"' T /'C Protection Rating NEMA 4X (Inverter with Safety Switch) n For other regional settings please contact Solisupport solar =@@A higher currentsource may be used; the inverter will limit its input current to the values s ated I" Revenue grade inverter P/N: SExxxxH-USOOONNC2 rdj For power de -rating information refer to: https.//w ..solaredge.com/sites/default/files/w-temperature-derating-note-na.pdf at -40 version P/N: SExxxxH-USOOONNU4 ® SolarEdge Technologies, Inc. All rights reserved. SOLAREDGE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. All other trademarks mentioned herein are trademarks of their respective owners. Date: 12/2018/V01/ENG NAM. Subject to change without notice. 0 i= a 0 LL cc 0 J0 U ~O IT1 � <J N /Y 'zi 00 L10 J " m �V) W 000 C7 Q M j 0 O U °a v� N N D V u ) 0)u N w X 0 o ND a � i Q � ", 20 0 O "o NM F- � lw/1 0 N O .v 11 U p m o Z o a a o � � c 0U 00 6 LU LLI to a,I � rn In w V) O N O N � O N 0) z -00 M� OCo0Ln0 H9 Ln et Q U aM u)"T i F V N Ol w N O O 0 = 0 0 0 00 E N 3k w Z a Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Rii Design By: CNG SOLAR ENGINEERING, INC. DATA PV INSTALLATION SHEET PROFESSIONAL ID# Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 25 YEAR WARRANTY PV power optimization at the module -level / Specifically designed to work with SolarEdge inverters Up to 25% more energy / Superior efficiency (99.5%) / Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading / Flexible system design for maximum space utilization solaredge.com 1 Optimizer Data Sheets Scale: NTS �•J N m / Fast installation with a single bolt / Next generation maintenance with module - level monitoring / Meets NEC requirements for arc fault protection (AFCI) and Photovoltaic Rapid Shutdown System (PVRSS) / Module -level voltage shutdown for installer and firefighter safety solar -.• / Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 INPUT Rated Input DC Poweri1l 320 340 370 400 405 505 W Absolute Maximum Input Voltage (Voc at lowest temperature) 48 60 80 1250 83i21 Vdc MPPT Operating Range 8 - 48 8-60 8 - 80 12.5 -105 12.5 - 83 Vdc Maximum Short Circuit Current (Isc) 11 10.1 14 Adc Maximum DC Input Current 13.75 12.63 17.5 Act Maximum Efficiency 99.5 % Weighted Efficiency 98.8 98.6 % Overvoltage Category II OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) Maximum Output Current 15 �Vd Maximum Output Voltage 60 85 OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) Safety Output Voltage per Power Optimizer 1 ± 0.1 Vdc STANDARD COMPLIANCE EMC FCC Part15 Class 3, IEC61000-6-2, IEC61000-6-3 Safety IEC62109-1 (class II safety), UL1741 RoHS Yes INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage 1000 Vdc Compatible inverters All SolarEdge Single Phase and Three Phase inverters Dimensions (W x L x H) 129 x 153 x 27.5 / 5.1 x 6 x 1.1 129x153x33.5/ 5.1x6x1.3 129x159x49.5/ 5.1x6.3x1.9 129x162x59/ 5.1x6.4x2.3 mm/in Weight (including cables) 630 / 1.4 1 750 / 1.7 845 / 1.9 1064 / 2.3 gr/lb Input Connector MC40) Output Wire Type / Connector Double Insulated; MC4 Output Wire Length 0.95 / 3.0 1.2 / 3.9 m / ft Input Wire Length 0.16 / 0.52 m / ft Operating Temperature Range -40 - +85 / -40 - +185 °C / °F Protection Rating IP68 / NEMA6P Relative Humidity 0 -100 % m Rated STC power of the module. Module of up to +5%power tolerance allowed ai NEC 2017 requires max input voltage be not more than 80V '3 For other connector types please contact SolarEdge Minimum String Length P320, P340, P3/0, 8 10 18 (Power Optimizers) g P400 P405 / P505 6 8 1 14 Maximum String Length 25 25 SOifii Maximum Power per String I SE7600-US ) SE11400- 5250 60000) 127508 W US) Parallel Strings of Different Lengths Yes or Orientations 14) For detailed string sizing information refer to: http://w ..solaredge.com/sites/defaulVfiles/string-sizing-na.pdf I" It is not allowed to mix P405/P505 with P320/1'340/1'370/1'400 in one string 161 A string with more than 30 optimizers does not meet NEC rapid shutdown requirements; safety voltage will be above the 30V requirement rn For SE14.4KUS/SE43.2KUS: It is allowed to install up to 6,500W per string when 3 strings are connected to the inverter (3 strings per unit for SE43.2KUS) and when the maximum power difference between the strings is up to 1,000W * For SE30KUS/SE33.3KUS/SE66OKUS/SE100KUS: It is allowed to install up to 15,000W per string when 3 strings are connected to the inverter (3 strings per unit for SE66.6KUS/SE100KUS) and when the maximum power difference between the strings is up to 2,000W ® SolarEdge Technologies Ltd. All rights reserved. SOLAREDGIE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. E Ro H S All other trademarks mentioned herein are trademarks of their respective owners. Date: 12/2018N01/ENG NAM. Subject to change without notice. 0 Q O LL cc O U Q O Ib N 00 J N m M m � �tnWw Lou 4 O l0 Z o to Q m J O 0>3^ o U °Q 6 # Ln N +"+ N F0 O N V O U) _i U) w O V N a) w x Z to O c) N2 a E _ a Q o c ��o pt�o G E m ^ W a) In O UJ 0 .� 3 r, rn ILL U O m o Z oaao �s 00 r6 U a) 00 Lf) ro ~I F_ N -) 0) NU-) � V) " oo W V v O In N O N N 0)z -00 MDO ra 01 M 00 -0 Ln V U o M to v �H ui Na) LU �'t-0ao O = rN O 00 oo E N qt o 0- a 0- REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 Design By: CNG SOLAR ENGINEERING, INC. DATA PV INSTALLATION SHEET PROFESSIONAL I D# /lr IRON RIDGE Solar Is Not Always Sunny XR Rail Family Over their lifetime, solar panels experience countless extreme weather events. Not just the worst storms in years, but the worst storms in 40 years. High winds capable of ripping panels from a roof, and snowfalls weighing enough to buckle a panel frame. /1910 XR Rails are the structural backbone preventing these results. They resist uplift, protect against buckling and safely and efficiently transfer loads into the building structure. Their superior spanning capability requires fewer roof attachments, reducing the number of roof penetrations and the amount of installation time. Force -Stabilizing Curve Sloped roofs generate both vertical and lateral forces on mounting rails which can cause them to bend and twist. The curved shape of XR Rails is specially designed to increase strength in both directions while resisting the twisting. This unique feature ensures greater security during extreme weather and a longer system lifetime. Compatible with Flat & Pitched Roofs Corrosion -Resistant Materials XR Rails are IronRidge offers All XR Rails are made of marine -grade compatible with a range of tilt leg aluminum alloy, then protected with an , A FlashFoot and options for flat anodized finish. Anodizing prevents surface other pitched roof roof mounting and structural corrosion, while also providing . attachments. applications. a more attractive appearance. XR Rail Family The XR Rail Family offers the strength of a curved rail in three targeted sizes. Each size supports specific design loads, while minimizing material costs. Depending on your location, there is an XR Rail to match. XR10 XR10 is a sleek, low -profile mounting rail, designed for regions with light or no snow. It achieves 6 foot spans, while remaining light and economical. 6'spanning capability Moderate load capability Clear & black anodized finish Internal splices available Rail Selection i 1 XR100 XR100 is the ultimate residential mounting rail. It supports a range of wind and snow conditions, while also maximizing spans up to 8 feet. 8'spanning capability Heavy load capability Clear & black anodized finish Internal splices available _i XR1000 XR1000 is a heavyweight among solar mounting rails. It's built to handle extreme climates and spans 12 feet or more for commercial applications. 12' spanning capability Extreme load capability Clear anodized finish Internal splices available The following table was prepared in compliance with applicable engineering codes and standards. Values are based on the following criteria: ASCE 7-10, Roof Zone 1, Exposure B, Roof Slope of 7 to 27 degrees and Mean Building Height of 30 ft. Visit IronRidge.com for detailed span tables and certifications. 100 7 fr� 120 None 140 XR10 XR100 XR1000 160 100 120 10-20 140 160 100 30 160 100 40 160 50-70 160 80-90 160 L. © 2014 IronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-80-227-9523 for more information. Version 1.12 Z O Q O IL Z Ir O U o 00 N tb tQY I.. L J N (�') 00 00 J !__ , m J s? 0i ( w Z 0 L/i J O (D o U °a v # � In w O V N v w X Z vl 0- E x o 0-0 Q 0 �p ^ Emw a) I.- NXT_ O 'n v o LL U 0 m 0 z oaa0 00 N U 00 ur)LU ro ~I V "01 ut � In " eo w In o to N O N (D o N 0)z -a 0 n'1 co PC 0) M 00 °C -arnv U 0-M u1v � H v N O1 w .".,�C l4Ln O =� 000 ao E N xt W 0- a Q REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 1 Rail Data Sheets DATA Scale: NTS PV INSTALLATION SHEET PROFESSIONAL I D# /lr IRON RIDGE Rapid & Secure Solar Attachments IronRidge FlashFootTM is an all -in -one solar mounting product for composition shingle roofs that eliminates the need for separate standoffs, flashings, and L-feet. FlashFoot incorporates a number of structural and waterproofing features to securely attach IronRidge Rails to roof structures, while also protecting against water intrusion and weather damage. A solid metal plate below the L-foot ' increases the FlashFoot's structural strength and prevents any deformation of the flashing during installation. FlashFoot TM 0401000&— Aa At the core of the FlashFoot, a pre -installed rubber bushing forms a dual mechanical seal, with its exterior compressed against the cavity of the L-foot and its interior tightly wrapping around the shaft of the lag bolt. Water- Shedding Design A wide flashing layer combined with an Certlied compliant elevated sealing platform maximizes the IAPMO with I. and IRC. FlashFoot's water shedding ability. ES Installation Overview Tools Required: tape measure, chalk line, stud finder, roofing bar, caulking gun with an approved sealant, drill with 1 /4" bit and 1 /2" socket. Locate rafters and snap vertical and horizontal lines to mark locations of flashings. Drill 1/4" pilot holes, then backfill with an approved sealant. Line up pilot hole with flashing hole and insert lag bolt through bonded washer, L-Foot, and flashing. Tighten lag bolt until fully seated. Testing & Certification Slide flashing, between 1 st and 2nd course, so the top is at least 3/4" above the edge of the 3rd course and the bottom is above the edge of the 1st course. The FlashFoot is now installed and ready for IronRidge Rails. With provided L-foot fasteners pre - loaded into rails, drop rails into open L-foot slots. FlashFoot is certified for compliance with the International Building Codes (IBC) & International Residential Codes (IRC) by IAPMO-ES. Mechanical testing conformed to the standard for Testing and Analysis of Joist Hangers and Miscellaneous Connectors (EC002-2011), and rain testing conformed to the Underwriters Laboratory Standard for Gas Vents (UL 441-96 Section 25). Lag pull-out (withdrawal) capacities Qbs) in typical roof lumber (ASD) Douglas Fir, Larch Specific Gravity .50 798 Douglas Fir, South .46 705 Engelmann Spruce, Lodgepole Pine (MSR 1650 f & higher) .46 705 Hem, Fir .43 636 Hem, Fir (North) .46 705 Southern Pine .55 921 Spruce, Pine, Fir .42 615 Spruce, Pine, Fir (E of 2 million psi and higher grades of MSR and MEL) .50 798 Soumea: Mnmicen W Caumil, NDS —5, — 11-, 11.3-; Nolea: i) Th,eatl must b emOaEaetl in a —or omen eeuat —member. li) See IBC.,,equi,eU edge tlime . Z O Q O ILL cr O U o m N 00 tY a00 m0 _j I— F0O,co00 0) (.0w Z otnQm J O �;3^ o U ° a a; V Oo a1� Ul) �U) t5 0) V N w x Z to a E x < � 0 QO w p r- ^ Emw of l-�U) Un u, O to v o LL U O m o z oaao 00 N U N J) ~I V o1 v00 LJ In o to N O N (D o N z "a 0 m CC) ra 0) M O °C -atnv U o M u1 v � I— t/ N Ol w +''-' C l0 0 O = N- O 00 ao E N xt W 0- a 0- REVISION BLOCK DESCRIPTION DATE Initial Draft of Plans 2/13/20 © 2014 IronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-80-227-9523 for more information. Version 1.02 Design SOLAR 1 Attachment Data Sheets Scale: NTS DATA PVINS ...NAL ICN PRSHEET OFESSION