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SHEET TITLE <br />SHEET NUMBER <br />PROJECT TITLE <br />JOBSITE ADDRESS <br />LUNA <br />RESIDENCE <br />1 0.000 DC KW <br />9.1 95 KW CEC-AC RATING <br />STRING INVERTER SYSTEM <br />2045 <br />S GARNSEY ST <br />SANTA ANA, CA <br />92707 <br />CONTRACTOR <br />TITAN SOLAR POWER CA INC <br />525 W BASELINE ROAD <br />MESA, AZ 85210 <br />(855) 729-7652 <br />WWW.TITANSOLARPOWER.COM <br />PROJECT ID# TSP1 43470 <br />DATE DESCRIPTION <br />REVISION <br />DATE <br />DRAWN09-28-22 <br />DESIGN BY: RD <br />CAD <br />F O R C A L I I N C . <br />SHELLEY V CALUAG <br />cadforcali@gmail.com <br />323-698-4207 <br />SP: Ascend Energy <br />PROJECT NAME <br />E1 <br />ELECTRICAL <br />LINE DIAGRAM <br />(N) SE7600H-US (240V) <br />SOLAREDGE HD INVERTER(N) 25 - Q.PEAK DUO BLK ML-G10+400 <br />HANWHA Q CELL MODULES WITH <br />P401 SOLAREDGE OPTIMIZERS <br />WITH INTEGRATED DC <br />DISCONNECT AND <br />AUTOMATIC RAPID <br />SHUTDOWN UPON AC GRID <br />DISCONNECT <br />DC <br />AC <br />G <br />AC1 <br />WIRE/CONDUIT SCHEDULE <br />NOTE: TERMINATE LUGS AT 75°. WIRING/CONDUIT RACEWAY WILL BE MIN 7/8'' ABOVE THE ROOF <br />TAG DESCRIPTION CONDUCTOR TYPE/SIZE/QUANTITY CONDUIT <br />SIZE/TYPE <br />DC1 ARRAY TO JBOX <br />4 #10 AWG 2+ & 2- PV WIRE <br />FREE AIR <br />1 #6 AWG GND- BARE COPPER <br />DC2 JBOX TO INVERTER <br />4 #10 AWG 2+ & 2- THWN-2 <br />3/4" EMT <br />1 #8 AWG GND THWN-2 <br />AC1 INVERTER TO AC <br />DISCONNECT <br />3 #8 AWG L1, L2 & N THWN-2 <br />3/4" EMT <br />1 #8 AWG GND THWN-2 <br />AC2 AC DISCONNECT TO <br />MAIN SERVICE PANEL <br />3 #8 AWG L1, L2 & N THWN-2 <br />3/4" EMT <br />1 #8 AWG GND THWN-2 <br />G <br />N <br />AC2 <br />EATON DG222URB <br />60A, 2P, 240V, TYPE DG, <br />NON-FUSIBLE, NEMA 3R <br />(N) 60A AC <br />DISCONNECT <br />(N) JB <br />NEMA 3R <br />DC2 <br />12 <br />13 <br />DC1 <br />OPTIMIZER ISC CALCULATION <br />MAX# OF MODULES X MODULE <br />WATTAGE 5200 <br />= 13.00 AMPSNOMIMAL DC INPUT VOLTAGE OF <br />INVERTER 400 <br />(OPTIMIZER MAX OUTPUT CURRENT) <br />[CEC 690.8] <br />15 > 13.00 = OK <br />AMPS AMPS <br />10.50A (MODULE ISC) </= 12.5A (OPTIMIZER ISC) = OK <br />OPTIMIZER VOC CALCULATION <br />LARGEST MODULE VOC FOR SINGLE-MODULE DC/DC CONVERTER CONFIGURATIONS (WITH <br />80V AFCI CAP) (CEC 690.7 and 690.11) <br />MODULE VOC ____ X # OF MODULES PER CONVERTER ___X CF = V <br />MODULE VOC 45.30 T L IS GREATER THAN OR <br />EQUAL TO -5°C, CF 1.12 <br />MODULES PER OPTIMIZER 1.00 <br />VOLTS 50.74 <br />THE VALUE CALCULATED MUST BE LESS THAN <br />OPTIMIZERS MAX DC INPUT VOLTAGE 60V > 50.74 OK <br />OPTIMIZER SPECIFICATION <br />MAKE SOLAREDGE 401 <br />MAXIMUM INPUT DC POWER 430 <br />MAX INPUT VOLTAGE (VOC)60 V <br />SHORT CIRCUIT CURRENT (ISC)12.5 A <br />MAX OUTPUT CURRENT 15 A <br />MAX OUTPUT VOLTAGE 60 V <br />MODULE SPECIFICATION <br />MANUFACTURER HANHWA Q CELL <br />MODEL NO.Q.PEAK DUO BLK ML-G10+ 400 <br />PEAK POWER 400 W <br />RATED VOLTAGE (Vmp)37.13 V <br />RATED CURRENT (Imp)10.77 A <br />OPEN CIRCUIT VOLTAGE (Voc)45.30 V <br />SHORT CIRCUIT CURRENT (Isc)11.14 A <br />INVERTER SPECIFICATION <br />INVERTER MAKE SOLAREDGE <br />INVERTER MODEL NO.SE7600H-US (240V) <br />MAX INPUT VOLTAGE 480 V <br />MAX INPUT CURRENT 20 A <br />NOMIMAL AC VOLTAGE 240 V <br />MAX AC CURRENT 32 A <br />NOTE: <br />1) PV BREAKER MUST BE INSTALLED <br />AT THE FARTHEST, OPPOSITE END <br />OF MAIN BREAKER <br />2) SOLAR GROUND TYING INTO THE <br />UFER GROUND POINT <br />INTERCONNECTION COMPLIANCE PER 705 CODE <br />MAX AC OUTPUT OF INVERTER WITH 125% <br />MAX AC OUTPUT <br />(AMPS) <br />TOTAL # <br />INVERTER <br />TOTAL MAX AC <br />OUTPUT 125%RESULT <br />(AMPS) <br />OCPD <br />SIZE <br />32.00 1 32.00 1.25 40.00 40A <br />SERVICE PANEL CALCULATIONS WITH 120% <br />BUS RATING SIZE MUTIPLIER <br />(120%)RESULT MAIN <br />BREAKER <br />INVERTER AC <br />OUTPUT+125 <br />% <br />RESULT <br />125 1.20 150 100 40.00 140.00 <br />150.00 >/= 140.00 = OK <br />NOTE: <br />705.12(B)(2)(3) BUSBARS <br />(B) WHERE TWO SOURCES, ONE A PRIMARY POWER SOURCE AND THE OTHER <br />ANOTHER POWER SOURCE, ARE LOCATED AT OPPOSITE ENDS OF A BUSBAR THAT <br />CONTAINS LOADS, THE SUM OF 125 PERCENT OF THE POWER SOURCE(S) OUTPUT <br />CIRCUIT CURRENT AND THE RATING OF THE OVERCURRENT DEVICE PROTECTING <br />THE BUSBAR SHALL NOT EXCEED 120 PERCENT OF THE AMPACITY OF THE <br />BUSBAR. THE BUSBAR SHALL BE SIZED FOR THE LOADS CONNECTED IN <br />ACCORDANCE WITH ARTICLE 220. A PERMANENT WARNING LABEL SHALL BE <br />APPLIED TO THE DISTRIBUTION EQUIPMENT ADJACENT TO THE BACK-FED <br />BREAKER FROM THE POWER SOURCE THAT DISPLAYS THE FOLLOWING OR <br />EQUIVALENT WORDING: <br />WARNING: POWER SOURCE OUTPUT CONNECTION — DO NOT RELOCATE THIS <br />OVERCURRENT DEVICE. <br />THE WARNING SIGN(S) OR LABEL(S) SHALL COMPLY WITH 110.21(B). <br />THIS DISCONNECT WILL BE <br />THE RAPID SHUTDOWN <br />INITIATION DEVICE TO COMPLY <br />WITH CEC 690.12 (C) <br />EXISTING <br />125A MAIN SERVICE PANEL <br /> 240V, 1PHASE, 3W <br />CENTER FED <br />(N)40A <br />N <br />G <br />M(E) 100A <br />MCB <br />EARTH <br />GROUND <br />PV OCPD <br />SCE <br />METER# <br />222013- <br />165308 <br />2045 S Garnsey St <br />01/30/23