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HomeMy WebLinkAbout3325 S Baker St - PlanCITY OF SANTA ANA DEVELOPMENT FEES WORKSHEET -- ELECTRICAL PERMIT APP FOR ELECTRICAL 06-30-2020 APP-02 CEC2019 Project Address:Contractor: Tenant Name:Address: Building Owner:City: St.: Zip: Address: City: St.: Zip: Phone: Contact Person:Contact E-Mail Strongly Recommended PLEASE PRINT: Contact Phone: NEW BUILDING OCCUPANCY CHANGE ELECTRICAL ITEM Count $ EACH ELECTRICAL ITEM Count $ EACH 125 Volt Receptacle Outlets 1.57 LOW VOLTAGE SYSTEMS – EACH: phone, data outlet, speaker, thermostat, door holder, doorbell, pull station, smoke detector, alarm device, card reader, etc. (circle items)Light Switches, Occupancy Sensors 1.70 Light Fixtures 1.13 COMMERCIAL: Air Conditioners, Heat Pumps 104.40 FIRST 10 devices or outlets 36.50 Factory-Wired Units (Solid Hook-Ups) 26.71 Additional devices, each 3.45 Dedicated Circuits (15 or 20 AMP Receptacles) 26.71 Each control panel, power supply annunciator, switch or aux equip.17.39Time Clock, Photo-Cell, Time Switch 13.03 Track-Light, Cable Tray, Special Raceway, Plugmold, Under-Floor Duct, Plug-In Busway, Surface Duct, Etc. (Each 100 Feet or any fraction thereof) 26.71 RESIDENTIAL: Single Dwelling unit 39.56 Each add’l dwelling unit (2 to 20) 34.80 Each add’l unit (over 20) 21.24 SERVICE METERS & PANELS: Service Meter, Reset Meter, Subpanel, Switchboard, Motor Control Center, Transfer Switch, Busduct, or other Distribution Equipment changes or modifications. (circle items as needed) MISCELLANEOUS Light Standard (Pole) with 1 Fixture 26.72 Additional Fixtures – same pole 0.00 Power Pole (Temporary) 111.04 Use this column if a Service All others here Additional distribution poles 26.72 Under 400 amperes 57.40 Swimming Pool, Spa, Fountain 130.46 400 amperes to 1199 amperes 156.51 Above ground spa 56.37 1200 amperes and over 260.79 Demolition 52.21 POWER APPARATUS: Motor, Transformer, Welder, Industrial Equipment, Oven, Rectifier, Generator, Surge Arrestor, Water Heater, Photovoltaic Panel, or other Power Equipment changes or modifications. (circle items as needed) Per HP, kW, or kVA SIGNS & neon/LED decorative lighting ($200 refundable sign bond) 80.95 NEW or TOTAL REWIRE for SINGLE FAMILY DWELLINGS SFD Per square foot .16 0 to 1 3.84 Garage Per square foot .16 Over 1 to 10 25.09 SUBTOTAL $ Over 10 to 50 49.78 P/C 65% of SUBTOTAL $ Over 50 to 100 113.06 MIN. FEE – (Nonresidential) $ 79.06 Over 100 to 500 162.45 ISSUANCE & General Plan Surcharge $ 59.30 + 23.79 = $83.09 Over 500 202.92 TOTAL $ OFFICE USE ONLY BLDG PMT RECEIPT BY DATE OCCUPANCY TYPE P/CPAID Cori Larsen 949-529-4401 ParagonSun 7545 Irvine Center Dr. #200 Irvine CA 92618 1025115Contractor License No.: Contractor Email: Phone: info@psun.us cori@psun.us 858-386-0463415.568.1098 CA Santa Ana 1 3325 S Baker St 92707 3325 S Baker St Santa Ana CA 92707 Kevin Trieu & Therese Pham 3325 S Baker St 01/12/23 Certificate Of Completion Envelope Id: 76BCDA25D0284938BC1B2C3243135A00 Status: Completed Subject: Please DocuSign: Home Improvment Contract Paragonsun Source Envelope: Document Pages: 21 Signatures: 2 Envelope Originator: Certificate Pages: 2 Initials: 1 Cori Larsen AutoNav: Enabled EnvelopeId Stamping: Enabled Time Zone: (UTC-08:00) Pacific Time (US & Canada) 126 Newall nil Irvine, CA 92618 cori@paragonsun.com IP Address: 108.208.121.10 Record Tracking Status: Original 10/12/2022 11:18:22 PM Holder: Cori Larsen cori@paragonsun.com Location: DocuSign Signer Events Signature Timestamp Mike Schmel Mikeschmel@gmail.com Sales Manager Mike Schmel - Sole Proprietor Security Level: Email, Account Authentication (None) Completed Using IP Address: 75.83.150.1 Sent: 10/12/2022 11:18:35 PM Viewed: 10/13/2022 9:08:52 AM Signed: 10/13/2022 9:25:22 AM Electronic Record and Signature Disclosure: Not Offered via DocuSign Kevin Trieu kevintrieu13@gmail.com Security Level: Email, Account Authentication (None) Signature Adoption: Pre-selected Style Using IP Address: 76.175.167.226 Sent: 10/13/2022 9:25:24 AM Viewed: 10/13/2022 11:09:40 PM Signed: 10/14/2022 12:02:24 PM Electronic Record and Signature Disclosure: Not Offered via DocuSign Cori Larsen cori@psun.us _manager Cori Larsen Security Level: Email, Account Authentication (None) Signature Adoption: Pre-selected Style Using IP Address: 166.196.75.109 Signed using mobile Sent: 10/14/2022 12:02:26 PM Viewed: 10/14/2022 12:14:16 PM Signed: 10/14/2022 12:15:44 PM Electronic Record and Signature Disclosure: Not Offered via DocuSign In Person Signer Events Signature Timestamp Editor Delivery Events Status Timestamp Agent Delivery Events Status Timestamp Intermediary Delivery Events Status Timestamp Certified Delivery Events Status Timestamp Carbon Copy Events Status Timestamp 3325 S Baker St 01/12/23 Carbon Copy Events Status Timestamp Kevin Trieu kevintrieu13@gmail.com Security Level: Email, Account Authentication (None) Sent: 10/14/2022 12:15:46 PM Electronic Record and Signature Disclosure: Not Offered via DocuSign Cori Larsen cori@psun.us _manager Cori Larsen Security Level: Email, Account Authentication (None) Sent: 10/14/2022 12:15:48 PM Electronic Record and Signature Disclosure: Not Offered via DocuSign Witness Events Signature Timestamp Notary Events Signature Timestamp Envelope Summary Events Status Timestamps Envelope Sent Hashed/Encrypted 10/12/2022 11:18:35 PM Certified Delivered Security Checked 10/14/2022 12:14:16 PM Signing Complete Security Checked 10/14/2022 12:15:44 PM Completed Security Checked 10/14/2022 12:15:48 PM Payment Events Status Timestamps 3325 S Baker St 01/12/23 7545 Irvine Center Dr #200 Irvine CA 92618 CSLB #1025115 I am the homeowner of the address listed below and I am authorizing the contractor, ParagonSun cslb #1025115 to perform the installation of solar on my property. Homeowner(s) Name:_______________________________________ Homeowner(s) Signature :____________________________________ Date:______________ Address:___________________________________________________ DocuSign Envelope ID: AF60D519-0B95-4F68-A4B9-48638A229F2A Kevin Trieu 3325 S Baker St Santa Ana CA 92707 11/22/2022 3325 S Baker St 01/12/23 Certificate Of Completion Envelope Id: AF60D5190B954F68A4B948638A229F2A Status: Completed Subject: Complete with DocuSign: Authorization Letter Source Envelope: Document Pages: 1 Signatures: 1 Envelope Originator: Certificate Pages: 2 Initials: 0 Cori Larsen AutoNav: Enabled EnvelopeId Stamping: Enabled Time Zone: (UTC-08:00) Pacific Time (US & Canada) 126 Newall nil Irvine, CA 92618 cori@paragonsun.com IP Address: 98.191.155.75 Record Tracking Status: Original 11/22/2022 11:07:19 AM Holder: Cori Larsen cori@paragonsun.com Location: DocuSign Signer Events Signature Timestamp Kevin Trieu kevintrieu13@gmail.com Security Level: Email, Account Authentication (None) Signature Adoption: Pre-selected Style Using IP Address: 23.241.83.197 Sent: 11/22/2022 11:19:04 AM Viewed: 11/22/2022 11:28:19 AM Signed: 11/22/2022 11:28:30 AM Electronic Record and Signature Disclosure: Not Offered via DocuSign In Person Signer Events Signature Timestamp Editor Delivery Events Status Timestamp Agent Delivery Events Status Timestamp Intermediary Delivery Events Status Timestamp Certified Delivery Events Status Timestamp Carbon Copy Events Status Timestamp Cori Larsen cori@psun.us _manager Cori Larsen Security Level: Email, Account Authentication (None) Sent: 11/22/2022 11:28:31 AM Viewed: 11/22/2022 11:29:30 AM Electronic Record and Signature Disclosure: Not Offered via DocuSign Witness Events Signature Timestamp Notary Events Signature Timestamp Envelope Summary Events Status Timestamps Envelope Sent Hashed/Encrypted 11/22/2022 11:19:04 AM Certified Delivered Security Checked 11/22/2022 11:28:19 AM Signing Complete Security Checked 11/22/2022 11:28:30 AM Completed Security Checked 11/22/2022 11:28:31 AM 3325 S Baker St 01/12/23 Payment Events Status Timestamps 3325 S Baker St 01/12/23 Owner: Kevin Trieu Address:3325 S Baker Street,Santa Ana, CA 92707 Sheet Item 1-4 Wind parameters 5-6 Seismic parameters and determination of Fp 7-8 design loads, roof member check, wind uplift check, deflection 9 attachment check, rail span check 10 lateral check Project Number: PGS-1254 Date: BASIS FOR DESIGN CODE: 2019 California Building Code ASCE 7-16 LIVE LOADS ROOF 20.0 psf SNOW 0.0 psf CALCULATIONS FOR SOLAR PHOTOVOLTAIC PANELS: INDEX TO CALCULATIONS Engineering Calculations Performed By: Doug Engineering 5 Via Belmonte, Rancho Santa Margarita, CA 92688 949-285-5104 Engineering Calculations For: ParagonSun 7545 Irvine Center Dr #200, Irvine, CA 92618 (858)3860463 11/2/2022 3325 S Baker St 01/12/23 FLUSH MOUNTED SOLAR PANELS Type of Roof Hip Roof Slope -  = Angle of plane of roof from horizontal, in degrees  = 27 deg Mean Roof Height - Eave height will be used for  <= 10deg h = 15ft Building dimensions s1 = 30 ft s2 = 30 ft a = 10% of least horizontal dimension or 0.4h, whichever is smaller, but not less than 4% of the least horizontal direction or 3 ft a = 3 ft B = Horizontal dimension of building normal to wind direction, in ft. B = 20 ft Horizontal dimension of building Attachment Spacing Effective Area A = 12 ft2 p = qh(GCp)(E)(a) 29.4-7 Velocity pressure Exposure Coefficients ROOF OVERHANG Wind Exposure C (GCp)down =0.67 0.67 Kzt = 1 (GCp)upz1 =-1.35 -1.88 Kd = 0.85 (GCp)upz2r =-1.94 -2.42 Kz = 0.85 (GCp)upz2e =-1.94 -2.42 Ke = 1 (GCp)upz3 =-1.94 -2.84  E = 1 a = 0.77 V = 110 mph qh = 0.00256KzKztKdKeV2 qh = 22.4 psf p = 17.248 *(GCp) FIGURE 30.3-2G Components & Cladding h<= 60 ft: External Pressure Coefficients, (GCp), for Enclosed and Partially Enclosed Buildings - Hip roofs 20<=27deg (Roof & Overhang) ASCE 7-16 1 3325 S Baker St 01/12/23 Wind Pressures Wind Down - All Zones 11.6 psf 10 psf, MIN ROOF OVERHANG Zone 1 -23.28 psf -32.43 psf Zone 2r -33.46 psf -41.74 psf Zone 2c -33.46 psf -41.74 psf Zone 3 -33.46 psf -48.98 psf All panels are in Zones 1 and 2e ROOF OVERHANG Use -33.46 psf -41.74 psf 0.6*W -20.1 psf -25 psf ASCE 7-16 2 3325 S Baker St 01/12/23 29.4.3 Rooftop Solar Panels for Buildings of All Heights with Flat Roofs or Gable or Hip Roofs with Slopes Less Than 7° h = 15ft mean roof height above ground, in ft h1 = 1 ft Solar Panel Height above roof at low edge, in ft h2 = 1.5ft Solar Panel Height above roof at raised edge, in ft hpt = 0 ft Mean parapet height above adjacent roof surface, in ft A = 5.22 sf Effective Wind area for structural element being designed, in ft2 a = 30 ft Distance to measure roof zones d1 = d2 =  E = 1.5 d1 to the adjacent array > max(4h2, 4 ft), or d2 to the next adjacent panel > max(4h2, 4ft) WL = 60 ft Width of overall longest side, in ft WS = 50 ft Width of overall shortest side, in ft GCrn= Net pressure coefficient, equal to pE((GCrn)nom(c)) (GCrn)nom= Nominal Net pressure coefficient lp = 3.25ft Chord length of solar panel, in ft perpendicular to edge lmodule = 4 Module chord length (trib W) Wmodule 2.705 Module length (1/2 panel) c 0.8 Panel chord length factor, max(0.6+0.06lp,0.8) For 5o <  < 15 o , apply c only to 15o - 35 o (GCrn)nom figure values and prior to interpoating p 0.9 Parapet height factor, equal to min(1.2,0.9+hpt/h)  0 Angle of plane of roof from horizontal, in degrees  10 Angle of plane of panel to roof, in degrees Determine Lb Lb= 0.5*sqrt(hWL), but need not exceed h or Ws, in ft Lb= 15.0 ft, not to exceed 15 or 50 ft Lb= 15.0 ft Determine Roof Zones 2h 30 ft: Roof zone 2 and 3 setback (indicated by the dotted lines on Figure 3) Panels located beyond 30 ft setback are located in Roof Zone 1 . Effective Wind Area (A) of attachment or ballast: A = lmodule*Wmodule = 4 ft x 2.705 ft A = 8.79 sf Calculate the Normalized Wind Area (An) An = (1000/(max(Lb, 15ft))2)*A =(1000/(15ft)^2)*8.79 sf An = 39.07 sf ASCE 7-16 For rooftop solar array, horizontal distance orthogonal to the panel edge to an adjacent panel or the building edge, ignoring any rooftop equipment in Fig. 29.4-7, in ft For rooftop solar arrays, horizontal distance from the edge of one panel to the nearest edge in the next row in Fig. 29.4-7, in ft 1.5 for uplift loads on panels that are exposed and within a distance 1.5Lp from the end of a row at an exposed edge of the array;  E =1.0 elsewhere for uplift loads and for all downward loads, as illustrated in Fig. 29.4-7. A panel is defined as exposed if d1 to the roof edge > 0.5h and one of the following applies: 3325 S Baker St 01/12/23 (GCrn)nom Roof Zone 1 0.99 Roof Zone 2 1.33 Roof Zone 3 1.57 GCrn= (c)(p)(E)(GCrn)nom GCrn GCrn Exposed 1.44 Zone 2 Non Exposed 0.71 Zone 1 1.7 Zone 3 0.96 Zone 2 Velocity pressure Exposure Coefficients qh =0.00256KzKztKdKeV2 Kzt = 1 V =110 mph Kd = 0.85 qh =22.4 psf Kz = 0.85 Ke = 1 Non Exposed Exposed p (psf) = 15.904 Zone 1 21.504 32.256 Zone 2 38.08 Zone 3 Non Exposed Exposed 0.6W 10 Zone 1 12.9024 19.3536 Zone 2 22.848 Zone 3 3325 S Baker St 01/12/23 Soil Site Class = D Risk Category = II SS = 1.462 Mapped Spectral Response acceleration in short periods S1 = 0.537 Mapped Spectral Response acceleration at one second periods SS< 0.25 SS= 1.0 SS>1.25 SS>1.5 0.8 0.8 0.8 0.8 0.9 0.9 1.0 1.0 1.3 1.2 1.2 1.2 1.6 1.1 1.0 1.0 2.4 - - - - - - - Fa =1.200 (interpolated)SMS = Fa*SS = 1.754 Min. 1.2 per 11.4.3 S1< 0.1 S1= 0.4 S1>0.5 S1>0.6 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 1.5 1.5 1.5 1.4 2.4 1.6 1.5 1.7 4.2 - - - - - - - Fv =1.574 (interpolated) SM1 = Fv*S1 = 0.845 SDS = 2/3 *SMS =1.17 SD1 = 2/3 *SM1 = 0.563 SDS RISK CATEGORY SD1 RISK CATEGORY > I, II III IV > I, II III IV 0 A A A 0 A A A 0.167 B B C 0.067 B B C 0.33 C C D 0.133 C C D 0.5 D D D 0.2 D D D Seismic Design Category = D ASCE 7-16 Table 1613.2.3(1) Values of Site Coefficient Fa F - 1.2 SITE CLASS SS= 0.5 SS= 0.75 A 0.8 0.8 B 1.2 0.9 D 1.4 0.9 0.8 0.8 1.3 Table 1613.2.3(2) 0.8 Values of Site Coefficient Fv S1= 0.2 S1= 0.3 SITE CLASS 1.7 A 0.8 1.3 C E - 1.5 1.5 B E - - F - - 2.2 2.0 D C 3325 S Baker St 01/12/23 Seismic Use Group = I Seismic Design Category = D I = 1 SS = 1.462 S1 = 0.537 SMS = 1.754 SM1 = 0.845 R = 6.5 Height = 11.375 T = 0.035*hn^.75 = 0.21679 r (Reliability/Redundancy Factor)= 1 SDS = 1.17 SD1 = 0.563 (ASCE 7-16 12.8-2)Cs = SDS/(R/I)= 0.1800 W (ASCE 7-16 12.8-3)Cs <= SD1/[(R/I)T]= 0.400 W (ASCE 7-16 12.8-5)Cs >= .01 = 0.01 W If S1>0.6g (ASCE 7-16 12.8-5)Cs >= 0.5*S1/[R/I]=0.000 W V(controls)=0.1800 W Determine Fp for seismic loading on attachments Seismic Load on Nonstructural Components Spacing of attachments 4 ft Tributary width of attachments = 1/2 Panel length = 37 in Ap = 12.3 ft2 PV unit weight including racking = 3 psf Wp = 37 lb Other mechanical/electrical components ap =1 Fp = 0.4apSDS*Wp/(Rp/Ip)(1+2z/h) 34.63 lb 13.3-1 Rp = 1.5 Ip = 1 Fp <= 1.6SDS*IpWp 69.26 lb 13.3-2 SDS = 1.170 Wp = 37 lb Fp >= 0.3SDS*IpWp 12.99 lb 13.3-3 z= 15 ft h= 15 ft ASCE 7-16 3325 S Baker St 01/12/23 SHEET: 7 OF 10 DATE: DE JOB NO.: DESIGN LOADS Dead Loads Uplift Roof 0.6WL COMP SHINGLE 4.0 psf 0.6WL Zone 1 and 2e -20.1 psf, MIN 10 PSF 5/8" Ply shtg 1.9 Overhang -25 psf Rf Frm'g 2.8 pWLdown = 11.6 psf 10 psf, MIN 10 PSF Misc. 1.5 Uplift 0.6DL+0.6WL (N) PV System 3.0 Zone 1 0.6*3 -20.1 -18.3 psf Zone 2 0.6*3 -25 -23.2 psf Total DL 13.2 psf Downward DL+0.6WL LL 20.0 psf PDL+WL = 13.0 psf SNOW 0.0 psf Rafter Check Existing 2x4 TRUSSES @ 24" o.c Spacing 2.00 ft Trib panel width = 4 ft E 1500000 psi Fb = 900*1.5*1.15 1552.5 psi I 5.4 in^4 MallowWind = 1110 ft-lb Span1 7.83 ft MallowLL = 867 ft-lb Span2 7.83 ft See below for Wind Uplift loads Span3 0.00 ft due to concentated loads at attachments Span4 0.00 ft (Distance to Att. Pts) a b R1 (lb) R2 (lb Load (psf) Trib W (ft) Wind Uplift (lb) Mmax wind(ft- lb) Wind Down (lb) P = PVDL (lb) -1.50 1 -0.45 -0.45 8.28 326.1 -17.7 25 4.0 308.3 -139 123.33 37.0 160.3 2 3.27 3.27 4.56 144.4 103.5 20.1 4.0 247.9 472 123.33 37.0 160.3 3 5.05 5.05 2.78 88.0 159.9 20.1 4.0 247.9 444 123.33 37.0 160.3 4 8.76 0.93 6.90 218.5 29.4 20.1 4.0 247.9 203 123.33 37.0 160.3 9.65 Span 1 Uniform DL 7.83 47.9 47.9 6.1 psf 2.0 12.2 plf 93.8 Span 2 Uniform DL 7.83 47.9 47.9 6.1 psf 2.0 12.2 93.8 Reactions at Span1 606.4 293.6 Negative values are uplift reactions Reactions at Span2 266.4 77.4 Mmaxwindup =493 ft-lb < 1110 ft-lb OK Mmaxwinddown =605 ft-lb < 1110 ft-lb OK For DL+LL including the PV system weight point loads w = 60.4 plf P = 37.0 lb Mmax =566 ft-lb < 867 ft-lb OK Deflection Check DDL = 5wL4/(384EI) (5*13.2*7.83^4)*1728 = 0.278 in = L/ 338.3 OK 384*1.5E6*5.4 PROJECT: CLIENT: BY: PV Panels for Kevin Trieu ParagonSun Doug Engineering 11/2/2022 PGS-1254 P = DL+WL (lb) 3325 S Baker St 01/12/23 SHEET: 8 OF 10 DATE: DE JOB NO.: DESIGN LOADS Dead Loads Uplift Roof 0.6WL TPO 5.0 psf 0.6WL Zone1 and 2c -20.1 psf, MIN 10 PSF 5/8" Ply shtg 1.9 Overhang -25 psf Rf Frm'g 2.8 pWLdown = 11.6 psf 10 psf, MIN 10 PSF Misc.1.5 Uplift 0.6DL+0.6WL (N) PV System 3.0 Zone 1 0.6*3 -20.1 -18.3 psf Zone 2 0.6*3 -25 -23.2 psf Total DL 14.2 psf Downward DL+0.6WL LL 20.0 psf PDL+WL = 13.0 psf SNOW 0.0 psf Rafter Check Existing 2x12 RAFTERS @ 48" o.c Spacing 4.00 ft Trib panel width = 4 ft E 1500000 psi Fb = 900*1*1 900 psi I 178.0 in^4 MallowWind = 3797 ft-lb Span1 22.66 ft MallowLL = 2966 ft-lb Span2 0.00 ft See below for Wind Uplift loads Span3 0.00 ft due to concentated loads at attachments Span4 0.00 ft (Distance to Att. Pts) a b R1 (lb) R2 (lb Load (psf) Trib W (ft) Wind Uplift (lb) Mmax wind(ft- lb) Wind Down (lb) P = PVDL (lb) 6.00 1 6.24 6.24 16.42 179.6 68.3 20.1 4.0 247.9 1121 123.33 37.0 160.3 2 9.95 9.95 12.71 139.0 108.9 20.1 4.0 247.9 1384 123.33 37.0 160.3 3 11.73 11.73 10.93 119.6 128.3 20.1 4.0 247.9 1403 123.33 37.0 160.3 4 15.44 15.44 7.22 79.0 168.9 20.1 4.0 247.9 1220 123.33 37.0 160.3 16.34 Span 1 Uniform DL 22.66 304.6 304.6 6.7 psf 4.0 26.9 plf 1725 Reactions at Span1 821.8 778.9 Negative values are uplift reactions Mmaxwindup =1902 ft-lb < 3797 ft-lb OK Mmaxwinddown =3722 ft-lb < 3797 ft-lb OK For DL+LL including the PV system weight point loads w = 124.8 plf P = 37.0 lb Mmax =2936 ft-lb < 2966 ft-lb OK Deflection Check DDL = 5wL4/(384EI) (5*14.2*22.66^4)*1728 = 1.262 in = L/ 215.4 OK 384*1.5E6*178 P = DL+WL (lb) PROJECT: PV Panels for Kevin Trieu CLIENT: ParagonSun 11/2/2022 BY: Doug Engineering PGS-1254 3325 S Baker St 01/12/23 SHEET: 9 OF 10 DATE: DE JOB NO.: CHECK SCREW ATTACHMENTS FOR WIND UPLIFT Pwuplift = 308.3 lb 5/16" Lag with min 2.5" penetration for each attachment Table 12.2A - NDS - Lag Screw Withdrawal Values For 5/16" Lag into .5G wood 266 lb Allowable wind load = 1.6*2.5*266 1064lb > 308.3 lb OK CHECK SCREW ATTACHMENTS FOR SHEAR DUE TO SEISMIC Fp Fp = 34.63 lb Roof slope/module tilt 27deg Shear = Fp*cos(27 ) = 30.9 lb Fp sin(ang) Tension = Fp*sin(27 ) = 15.7lb Fp cos(ang) Table 11K - NDS Z =190 lb C D =1.6 ` Z' = Z*CD =304lb >30.86 lb OK Withdrawal capacity W' = 1064lb Interaction Equation ft/Ft+fv/Fv 0.305 +0.102 = 0.407< 1 OK RAIL SPAN CHECK Ironridge Railing Check Load for half a panel = 2.7' WXR10 = 62.1 plf Per the Ironridge Structural Analysis of the Ironridge XR10 Rail for 110 mph and 0 psf snow, the max span for XR10 Ironridge Rails is 79" for Exposure C Use XR10 Rails with a spacing of 48" o.c. max for attachment points. 11/2/2022 PGS-1254 PROJECT: CLIENT: BY: PV Panels for Kevin Trieu ParagonSun Doug Engineering 3325 S Baker St 01/12/23 SHEET: 10 OF 10 DATE: DE JOB NO.: LATERAL ANALYSIS DETERMINE ADDITIONAL LOAD COMPARED TO EXISTING FOR LATERAL LOADING Aroofexisting= = 2759 sf Wpanel =48.1 lb Wroofexisting = 10.2*2759 = 28142 lb 16 *Wpanel =768.8 lb Wwallexisting = 15*80*4 = 4800 lb Wrestofarray =244 lb Wexisting = 32942 lb Warray =1012.8 lb V = 0.18 W Vroofexisting = 5930 lb Existing Total Lateral Force Vroofwpanels = 6112 lb New Total Later Force % increase = 6112 increase which results in less than a 10% increase in the 5930 stress of existing lateral resisting elements OK*100%-100% = 3% BY: Doug Engineering PGS-1254 PROJECT: PV Panels for Kevin Trieu CLIENT: ParagonSun 11/2/2022 3325 S Baker St 01/12/23 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - PV-1 VICINITY MAP SHEET INDEX APPLICABLE CODES PLAN SET LEGEND ABBREVIATIONSAHJ NOTES OCCUPANCY: R-3 CONSTRUCTION TYPE: VB UNSPRINKLERED PR O J E C T I N F O R M A T I O N ALL WORK TO COMPLY WITH THE FOLLOWING CODES: 2019 CA BUILDING CODE 2019 CA RESIDENTIAL CODE 2019 CA MECHANICAL CODE 2019 CA ELECTRICAL CODE 2019 CA GREEN CODE 2019 CA PLUMBING CODE 2019 CA ENERGY CODE 2019 CA FIRE CODE LOCAL JURISDICTION AMENDMENTS PV-1 PROJECT INFORMATION PV-1A SITE PLAN, HOUSE PHOTO PV-1B FIRE ACCESS PATHWAYS AND RIDGE SETBACK PLAN PV-2 ROOF PLAN PV-2A ATTACHMENT DETAILS PV-3 ELECTRICAL LINE DIAGRAM & ELECTRICAL CALCULATIONS PV-3A ELECTRICAL NOTES PV-4 & 4A REQUIRED SIGNAGE PER SECTION R314 AND R315 OF CRC 2019, IT'S REQUIRED THAT SMOKE ALARM AND CARBON MONOXIDE DETECTORS ARE RETROFITTED INTO THE EXISTING DWELLING FOR A PERMIT WITH REPAIRS OR ADDITIONS EXCEEDING $1,000. ALL NEW UTILITY CONNECTIONS ARE REQUIRED TO BE INSTALLED BELOW GRADE BY SANTA ANA MUNICOPAL CODE 41-626(B). THERE IS A STANDING EXCEPTION FOR EXISTING ONE AND TWO FAMILY DWELLINGS. THIS EXCEPTION APPLIES ONLY WHEN THE NEW ELECTRICAL SERVICE IS DESIGNATED TO BE FED FROM BELOW GRADE AS WELL AS OVERHEAD. ONLY LISTED COMBINATION OVERHEAD AND UNDERGROUND FEED SERVICE BOXES MAY BE USED TO CONNECT TO AN OVERHEAD UTILITY DROP. THIS EXCEPTION TO AN UNDERGROUND FED SERVICE APPLIES ONLY TO EXISTING SINGLE FAMILY AND TWO FAMILY RESIDENCES. SUB SERVICE PANEL AC DISCONNECT DC DISCONNECT SOLAR COMBINER BOX INVERTER SUB AC DC SLC INV JUNCTION BOXJB PV MONITORINGM MAIN SERVICE PANELMSP ENPHASE AC SOLAR PVENCOMBINER BOX RAPID SHUTDOWN BOXRS NEMA 14-50 OUTLETEV PERFORMANCE METER STORAGE BATTERYBAT PLP PROTECTED LOAD PANEL TRA STORAGE SYSTEM TRANSFORMER GAT TESLA BACKUP GATEWAY GENERATION LOADGENPANEL EXTERIOR INTERIOR EXT INT NEW(N) EXISTING(E) ELECTRICAL METALLIC TUBINGEMT RIGID METALLIC CONDUITRMC VOLTAGE OPEN CIRCUITVOC VOLTAGE AT MAX. POWERVMP SHORT CIRCUIT CURRENTISC CURRENT AT MAX. POWER IMP NOT TO SCALENTS FLEXIBLE METALLIC CONDUITFMC AUTHORITY HAVINGAHJ JURISDICTION RIGID GALVANIZED STEELRGS ENERGY STORAGEESS SYSTEM PROJECT INFORMATION/SCOPE OF WORK 16 X 400 W Hanwha Q CELLS Q.PEAK DUO BLK ML-G10+ 400 ROOF MOUNTED SOLAR PHOTOVOLTAIC MODULES 16 X 290 W Enphase Energy IQ8PLUS-72-2-US (SI1-JUN20) (240V) 1 X NEMA 14-50 OUTLET SYSTEM SIZE: 6.400 kW DC STC, 5.766 kW CEC-AC ARRAY AREA: 338 SF PANEL UPGRADE:225 A AHJ:CITY OF SANTA ANA APN:410-221-07 KEVIN TRIEU & THERESE PHAM 3325 SOUTH BAKER STREET SANTA ANA, CA 92707 INSTALLATION OF NEW SOLAR PV SYSTEM: PROJECT SITE BLDG# 101112859 ISS. 12/07/2022 ELEC# 20178022 ISS. 11/23/2022 The scope of the plans is for the installation of the solar photovoltaic system only and the approval is subject to compliance with all applicable city and state codes and regulations regarding construction. The approval of the plans does not constitute any certification of the accuracy, completeness, or building permit status of the existing buildings and structures as shown. 3325 S Baker St 01/12/23 B1 B1 B1 B1 B1 B1 B1 B1 B2 B2 B2 B2 B2 B2 B2 B2 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 11 / 1 1 / 2 0 2 2 - SCALE: 1":15'-0" N SCALE: N.T.S.HOUSE PHOTOSITE PLAN PV-1A SI T E P L A N , H O U S E P H O T O ARRAY LOCATIONMICROINVERTER WITH BUILT IN RAPID SHUTDOWN LOCATED AT EACH PANEL BRANCH CIRCUIT # OF PANELS TILT, AZIMUTH 1 8 27°, 180° 2 8 27°, 270° TOTAL # OF PANELS 16 (E) ONE-STORY HOUSE (E) DRIVEWAY (N) SOLAR PV ARRAY PER TABLE BELOW SEE PV1B FOR FIRE ACCESS PATHWAYS PV-2 FOR ROOFTOP EQUIPMENT CALLOUTS AND ROOF AND ARRAY DIMENSIONS. FIRE ACCESS POINT 1 2 3 4 SITE PLAN LEGEND 12 3 4 TOTAL ROOF AREA: 2,759 SF TOTAL MODULE AREA: 338 SF TOTAL ROOF COVERAGE: 12.2 % 5 S O U T H B A K E R S T R E E T PL PL PL PL 120'-5" 120'-5" 52 ' - 2 " 52 ' - 2 " 18'-6" 8' - 0 " 25'-6" MS P AC EN EV 5 (N) NEMA 14-50 OUTLET INSIDE GARAGE A A A 3325 S Baker St 01/12/23 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - SCALE: 1":10'-0" N FIRE ACCESS PATHWAYS & RIDGE SETBACK PLAN PV-1B PA T H W A Y P L A N 12 TOTAL ROOF AREA: 2,759 SF TOTAL MODULE AREA: 338 SF TOTAL ROOF COVERAGE: 12.2 % FI R E A C C E S S R324.6.1 PATHWAYS: NOT LESS THAN TWO MINIMUM 36-INCHWIDE PATHWAYS ON SEPARATE ROOF PLANES, FROM LOWEST ROOF EDGE TO RIDGE, SHALL BE PROVIDED ON ALL BUILDINGS. AT LEAST ONE PATHWAY SHALL BE PROVIDED ON THE STREET OR DRIVEWAY SIDE OF THE ROOF. FOR EACH ROOF PLANE WITH A PHOTOVOLTAIC ARRAY, A MINIMUM 36-INCH-WIDE PATHWAY FROM THE LOWEST ROOF EDGE TO RIDGE SHALL BE PROVIDED ON THE SAME ROOF PLANE AS THE PHOTOVOLTAIC ARRAY, ON AN ADJACENT ROOF PLANE, OR STRADDLING THE SAME AND ADJACENT ROOF PLANES. PATHWAYS SHALL BE OVER AREAS CAPABLE OF SUPPORTING FIRE FIGHTERS ACCESSING THE ROOF. PATHWAYS SHALL BE LOCATED IN AREAS WITH MINIMAL OBSTRUCTIONS SUCH AS VENT PIPES, CONDUIT, OR MECHANICAL EQUIPMENT. R324.6.2 SETBACK AT RIDGE: FOR PHOTOVOLTAIC ARRAYS OCCUPYING NOT MORE THAN 33 PERCENT OF THE PLAN VIEW TOTAL ROOF AREA, NOT LESS THAN AN 18-INCH CLEAR SET BACK IS REQUIRED ON BOTH SIDES OF A HORIZONTAL RIDGE. FOR PHOTOVOLTAIC ARRAYS OCCUPYING MORE THAN 33 PERCENT OF THE PLAN VIEW TOTAL ROOF AREA, NOT LESS THAN A 36-INCH CLEAR SET BACK IS REQUIRED ON BOTH SIDES OF A HORIZONTAL RIDGE. R324.6.4 EMERGENCY ESCAPE AND RESCUE OPENING: PANELS AND MODULES INSTALLED ON DWELLINGS SHALL NOT BE PLACED ON THE PORTION OF A ROOF THAT IS BELOW AN EMERGENCY ESCAPE AND RESCUE OPENING. A 36-INCH-WIDE PATHWAY SHALL BE PROVIDED TO THE EMERGENCY ESCAPE AND RESCUE OPENING. LEGEND 36" ACCESS PATHWAYS 18" SETBACK ON BOTH SIDES OF RIDGE PER R324.6.2 PATHWAY ON STREET OR DRIVEWAY1 SIDE OF THE ROOF FIRE ACCESS POINT2 18" SETBACK TO HIP/VALLEY A 3325 S Baker St 01/12/23 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - SCALE: 1":10'-0" ROOF PLAN N ARRAY & ROOF INFO MODULE TYPE, DIMENSIONS & WEIGHT PV-2 RO O F P L A N MICROINVERTER WITH BUILT IN RAPID SHUTDOWN LOCATED AT EACH PANEL ACCESSES IDENTIFIED ARE AT STRONG POINTS OF ROOF WHICH DO NOT HAVE OPENINGS BELOW LADDER ACCESSES. PER CRC R331.4.1. 1 2 1 LAYER OF COMP SHINGLE 1 LAYER OF COMP SHINGLE 2x4 TRUSSES @ 24" o.c 2x4 TRUSSES @ 24" o.c 180 270 27 27 311 371 180 270 27 27 168.8 168.8 6.1% 6.1% 8 8 72 72 Roof Plane Roof Type: Roof Framing: Roof Azimuth (deg): Roof Slope (deg): Roof Area (sf): Array Azimuth (deg): Array Tilt (deg): Array Area (sf): % Coverage of Roof # of Panels Attachment spacing (in): PANEL TYPE: Q.PEAK DUO BLK ML-G10+ 400 PANEL WEIGHT:48.5 LB PANEL DIMENSIONS:74 IN. X 41.1 IN. PANEL AREA: 21.10 SF UNIT WEIGHT OF PANELS: 48.5LB/21.1SF =2.30 PSF RACKING 0.19 PSF AREA PER ATTACHMENT: 4'X3.08' =12.3 SF WEIGHT PER ATTACHMENT: 12.3SFX2.49PSF =33.2 LB SL O P E R1 R2 FIRE ACCESS POINT1 2 3 ROOF PLAN LEGEND (E) TRUSS DIAGONAL (E) EXTERIOR WALL 1 2 3 4 4 (N) CONDUIT ROUTE 5 6 (E) CHIMNEY (E) ROOF VENT ALL ARRAY AND ROOF INFORMATION IS SHOWN TO THE RIGHT INCLUDING FRAMING AND ATTACHMENT SPACING. CONDUIT SHALL BE EMT CONDUIT (EXTERIOR) OR EMT OR FMC AS AHJ ALLOWS (INTERIOR), CONTRACTOR TO RUN CONDUIT ON ROOF AND UNDER EAVES OR WITHIN ATTIC. CONDUIT RUN TO BE DETERMINED AT THE TIME OF INSTALL. ANY EXPOSED CONDUIT SHALL BE PAINTED TO MATCH THE ADJACENT SURFACE. 5 6 7 8 MS P AC EN JB 7' - 1 0 " 7' - 1 0 " 1'-5 " 1'-4 " SLOPE 7'-10" 7'-10" 1'-6" 1'-1 1 " (E) PLUMBING VENT7 (E) PLUMBING VENT TO BE REROUTED8 A A 3325 S Baker St 01/12/23 LOAD BEARING WALL 2"x4" TRUSSES @ 24" o.c. PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - IRONRIDGE FLASHFOOT 2 IRONRIDGE XR10 RAIL (BLACK) 5/16" STAINLESS STEEL LAG BOLT MIN. 2.5"PENETRATION SEALED W/ M1 SEALANT (E) ROOF FRAMING, SEE ROOF INFO MATCH (E) ROOF SLOPE PV MODULES WITH ALUMINUM FLASHING (BLACK) 0'- 5 " PV-2A AT T A C H M E N T D E T A I L S SCALE: 1/2" = 1'-0" ATTACHMENT DETAIL ROOF 1 SCALE: 1/2" = 1'-0"TRUSS SECTION DETAIL 7'-10" 281'-2"2'-0" SCALE: 1/2" = 1'-0"VENT RE-ROUTE DETAIL A 3325 S Baker St 01/12/23 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - SI N G L E L I N E D I A G R A M SCALE: N.T.S.ELECTRICAL SINGLE LINE DIAGRAM 600 V, NEMA 3R W/ EUROSTRIP OR POLARIS IT CONNECTORS JUNCTION BOXA E C ELECTRICAL EQUIPMENT CALLOUTS STRINGS CONNECTED IN PARALLEL SEE PV-3A FOR ELECTRICAL NOTES PV BREAKER IS TO BE LOCATED AT THE OPPOSITE END OF THE BUS BAR FROM THE MAIN BREAKER. MODULES ARE CONNECTED IN PARALLEL, NOT IN SERIES. EACH MICROINVERTER IS EQUIPPED WITH RAPID SHUTDOWN CAPABILITIES. PV-3 TO UTILITY GRID BI-DIRECTIONAL UTILITY METER 1PH, 120/240V, 3W BOND TO EXISTING UFER C B LOW MEAN TEMP PER ASHRAE HANDBOOK MFR VOLTAGE TEMP COEFFICIENT (oC) VOLTAGE LOW TEMP. CORR. (oC) HIGH AMBIENT TEMP (oC) CONDUIT HEIGHT (in) ROOF TOP ADDED TEMP PER Table 310.15(B)(3)© (oC) ADJUSTED TEMP TEMP CORRECTION ROOF 2 -0.27 1.06 31 ABOVE 7/8" MIN.0 31 .96 WALL 2 31 N/A 0 31 .96 6.400kW DC STC, 5.766 kW CEC-AC SOLAR ARRAY 16 Hanwha Q CELLS 400W MODULES TOTAL PANEL DECAL Hanwha Q CELLS Q.PEAK DUO BLK ML-G10+ 400 400W Vmp= 37.13V Voc= 45.3V Isc= 11.14A Imp= 10.77A CEC PTC POWER=371.5W Enphase Energy IQ8PLUS-72-2-US (SI1-JUN20) (240V) INVERTER MAX DC VOLTAGE: 60V DC VOLTAGE INPUT RANGE: 25-58V @240V PEAK POWER TRACKING VOLTAGE: 29-45V @240V AC NOMINAL VOLTAGE/RANGE: 211-264V @240V MAX AC OUTPUT CURRENT: 1.21A CEC WEIGHTED EFFICIENCY: 97% @240V 0.29kW INVERTER UNGROUNDED ENPHASE ENERGY IQ8PLUS-72-2-US (SI1-JUN20) (240V) (240V) INVERTER 240 VAC, 1.21 A NEMA 3R, UL LISTED, (WITH INTEGRATED DC DISCONNECT) (N) 225A MAIN SERVICE PANEL (N) MAIN SERVICE DISCONNECT 240V, 200A NOT CENTER FED 2-POLE 25A PV BREAKER, BACKFED AC DISCONNECT 240 VAC, 30A NEMA 3R, UL LISTED MAX PV VOLTAGE & CURRENT CALCS: RECORD LOW TEMP (˚C): (PER ASHRAE HANDBOOK)2 TEMP COEFFICIENT (Voc) PER MANUFACTURER:-0.27%/C VOLTAGE CORRECTION:1.06 MAX PV SYSTEM VOLTAGE (PER CEC 2019 690.7): (Vcorrection * Voc) (1.06*45.3) = 48V MAX PV CONTINUOUS CURRENT PER CEC 2019 690.8(A)(1): 1.25 X Isc X # STRINGS 1.25*11.14 = 13.93A 120% RULE BUS BAR MAIN BREAKER ALLOWED MAX PV OCPD 225A 200A 70A WIRE TAG #CONDUIT WIRE QTY (CARRY CURRENT) WIRE GAUGE (AWG) WIRE TYPE WIRE LENGTH (FEET) TEMP 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 INVERTER QTY: AC OUTPUT CURRENT CEC 690.8(A) STRING AMPS GROUND SIZE GROUND TYPE OCPD CHECK 1 NONE 2 12 ENPHASE Q CABLE 15 90°C ROOF 31 30 X 0.96 X 1 = 28.8 25 8 X 1.21 X 1.25 = 12.1 #6 SBC NONE 2 3/4" EMT 4 10 THWN-2 80 90°C ROOF 31 40 X 0.96 X 0.8 = 30.72 35 8 X 1.21 X 1.25 = 12.1 #8 THWN-2 20A 2P 8 X 1.21 X 1.25 = 12.1 #8 THWN-2 20A 2P 3 3/4" EMT 3 10 THWN-2 5 90°C WALL 31 40 X 0.96 X 1 = 38.4 35 16 X 1.21 X 1.25 = 24.2 #8 THWN-2 25A 2P BRANCH CIRCUIT # OF PANELS TILT, AZIMUTH 1 8 27°, 180° 2 8 27°, 270° TOTAL # OF PANELS 16 E PV BREAKER 240 V, A, 2P20 PV BREAKER 240 V, A, 2P20 MONITOR BREAKER 240 V, 15A, 2P JB A BRANCH CIRCUIT BB 1 MICROINVERTER PER PANEL 2 BRANCH CIRCUIT BB 1 MICROINVERTER PER PANEL 1 ENPHASE COMBINER BOX, 125A ENPHASE IQ COMBINER 4 X-IQ-AM1-240-4 240V, NEMA 3R, UL 1741 NEMA 14-50 OUTLET (3) #6 THWN-2 (1) #8 GROUND IN 3/4" EMT 60A OUTLET BREAKER BOND #4 AWG TO UNDERGROUND WATER SERVICE LESS THAN 5' FROM WHERE IT ENTERS THE BUILDING A 3325 S Baker St 01/12/23 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - PV-3A EL E C T R I C A L N O T E S ELECTRICAL NOTES ADDITIONAL AHJ REQUIRED ELECTRICAL NOTES 1. PV ARRAYS ARE PER SINGLE LINE.. 2. PV ARRAY COMBINER/JUNCTION BOX PROVIDES TRANSITION FROM ARRAY WIRING TO CONDUIT WIRING. 3. USE UFER GROUND ELECTRODE SYSTEM FROM INVERTER TO EXISTING MAIN SERVICE GROUND ELECTRODE PER CEC 250.58. 4. ALL GROUND CONNECTED TO MAIN SERVICE GROUND IN MAIN SERVICE PANEL. 5. CONNECTORS SHALL BE POLARIS OR EUROSTRIP IT CONNECTORS. 6. INVERTER SHALL BE PER SINGLE LINE, SEE ATTACHED CUT SHEET. 7. AC DISCONNECT SHALL BE PER SINGLE LINE. 8. EQUIPMENT GROUNDING CONDUCTORS ON AC AND DC SIDE SIZED ACCORDING TO CEC 690. 9. ALL CONDUCTORS SHALL BE 600V, 90C STANDARD COPPER. ALL CONDUCTORS IN CONDUIT SHALL BE THWN-2. 10. MAXIMUM DC VOLTAGE DROP SHALL BE 1.5% 11. ALL CONDUCTORS SHALL BE IN CONDUIT UNLESS OTHERWISE NOTED. 12. ALL WORK TO COMPLY WITH 2019 CALIFORNIA ELECTRIC CODE, 2019 CALIFORNIA BUILDING CODE 13. EXACT CONDUIT RUN LOCATIONS SUBJECT TO CHANGE. 14. 3.0 PSF MAX (.5 PSF FROM RACKING, 2.5 PSF FROM MODULES) DEAD LOAD CONTRIBUTED FROM SOLAR ARRAY. 15. CONDUCTORS ON ROOF ARE TO BE A MINIMUM OF 7/8" OFF OF THE ROOF SURFACE. 16.GEC TO BE CONNECTED TO EXISTING UFER. IF UFER IS NOT PRESENT THEN A NEW GROUND ROD WILL BE ADDED FOR GROUNDNG PURPOSES. 17. AN INSULATED GROUNDED CONDUCTOR OF 6 AWG OR SMALLER SHALL BE IDENTIFIED AS WHITE. 18. AN EQUIPMENT GROUNDING CONDUCTOR SHALL NOT BE SMALLER THAN 14 AWG. 19. GROUNDING ELECTRODE CONDUCTOR(S) SHALL BE INSTALLED IN ONE CONTINUOUS LENGTH WITHOUT A SPLICE OR JOINT. IF NECESSARY, SPLICES OR CONNECTIONS SHALL BE MADE AS PERMITTED. RACKING & MODULES ARE GROUNDED VIA A CONTINUOUS #6AWG COPPER CONDUCTOR CONNECTED W/ IRONRIDGE UFO GROUND. MODULES ARE FACTORY PROVIDED W/ 2 THREADED HOLES TO FACILITATE LANDING OF THE LUGS DC SIDE OF ARRAY IS UNGROUNDED AND THEREFORE GEC IS NOT REQUIRED. ALL EQUIPMENT SHALL BE PROPERLY GROUNDED AND BONDED IN ACCORDANCE WITH ARTICLE 250. ALL CIRCUITS CONNECTED TO MORE THAN ONE SOURCE SHALL HAVE OVERCURRENT DEVICES LOCATED SO AS TO PROVIDE OVERCURRENT PROTECTION FROM ALL SOURCES PER CEC 690.9 (A) GROUNDING: IRONRIDGE UFO UL LISTED #2703 PER 2019 CEC, 690.64 (B)(7): LOCATE INVERTER OUTPUT AS FAR AS POSSIBLE FROM NORMAL POWER SUPPLY AT SERVICE PANEL. RELOCATION OF EXISTING CIRCUITS MAY BE NEEDED. DO NOT CHANGE PHASING OF MULTI-WIRE CIRCUITS. PERMANENT SIGNAGE AT PV SUPPLY CIRCUIT BREAKERS MUST SAY: WARNING! INVERTER OUTPUT CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. SIGNAGE TO BE LOCATED ADJACENT TO BACKFED BREAKER. 3325 S Baker St 01/12/23 PA R A G O N S U N 75 4 5 I R V I N E C E N T E R D R I V E # 2 0 0 I R V I N E C A 9 2 6 1 8 Ph o n e : ( 8 5 8 ) 3 8 6 - 0 4 6 3 CS L B # 1 0 2 5 1 1 5 ( C - 4 6 ) X_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ IS S U E D F O R : P E R M I T DA T E : So l a r P h o t o v o l t a i c S y s t e m 11 / 2 / 2 0 2 2 KE V I N T R I E U & T H E R E S E P H A M 33 2 5 S O U T H B A K E R S T R E E T SA N T A A N A , C A 9 2 7 0 7 A B 1 1 / 1 1 / 2 0 2 2 - PV-4 RE Q U I R E D S I G N A G E FR O N T O F H O M E CAUTION POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AS SHOWN: PV DISCONNECT SOLAR ARRAY YOU ARE HERE MAP PLACARD ON FACE OF THE MAIN SERVICE PANEL:MSP7 3325 SOUTH BAKER STREET SANTA ANA, CA 92707 S O U T H B A K E R S T R E E T ON THE FACE OF THE MAIN SERVICE DISCONNECT PER CEC 690.13(B): PV SYSTEM DISCONNECT THE 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. ON FACE OF THE SERVICE METER PANEL: SIGNAGE AT MAIN SERVICE PANEL: MSP1 MSP2 MSP5 MSP3 MAXIMUM AC OPERATING CURRENT = 19.36A MAXIMUM AC OPERATING VOLTAGE = 240V RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM ON FACE OF THE SERVICE METER PANEL PER CEC 690.56 (C)(1)(a): SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SHUTDOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN ARRAY ON RAPID SHUTDOWN SWITCH LOCATED ON OR WITHIN 3' FROM SWITCH, IN 3 8" LETTERS IN WHITE ON RED BACKGROUND ON A REFLECTIVE LABEL PER CEC 690.56 (C)(3): MSP4 WARNING POWER SOURCE OUTPUT CONNECTION DO NOT RELOCATE THIS OVERCURRENT DEVICE LOCATED AT BACKFED BREAKER PER CEC 705.12(B)(2)(3)(b): MSP6 ON FACE OF THE SERVICE METER PANEL: WARNING DUAL POWER SUPPLY SOURCES: UTILITY GRID AND PV SOLAR ELECTRIC SYSTEM SOLAR PV SYSTEM IS EQUIPPED WITH RAPID SHUTDOWN" SHALL UTILIZE CAPITALIZED CHARACTERS WITH A MINIMUM HEIGHT OF 3/8" IN BLACK ON YELLOW BACKGROUND, AND THE REMAINING CHARACTERS SHALL BE CAPITALIZED WITH A MINIMUM HEIGHT OF 3/16" IN BLACK ON WHITE BACKGROUND. SERVICE POINT & UTILITY METERING ENPHASE AC COMBINER BOX A 3325 S Baker St 01/12/23 Expedited Permit Process for PV Systems - Micro-Inverter1 Expedited Permit Process for PV Systems Micro-Inverter The Solar America Board for Codes and Standards (Solar ABCs) Expedited Permit Pro- cess provides a means to differentiate systems that can be permitted quickly and easily due to their similarity with the majority of small-scale PV systems. Those systems with unique characteristics may be handled with small additions to this Expedited Permit Process or may require much more information, depending on the uniqueness of the installation. The following pages contain forms for the Micro-Inverter to use with the Expedited Per- mit Process. The Standard String, AC Module, and Supply-Side Connection forms are also available as interactive PDF files at www.solarabcs.org/permitting. In jurisdic- tions that have adopted the Expedited Permit Process for PV Systems, these forms can be filled out electronically and submitted in either printed form and via email. An elec- tronic format is used so that the supplied information is standardized and legible for the local jurisdiction. 3325 S Baker St 01/12/23 Expedited Permit Process for PV Systems — Micro-Inverter2 Expedited Permit Process for Small-Scale PV Systems Micro-Inverter The information in this guideline is intended to help local jurisdictions and contractors identify when PV system installations are simple, needing only a basic review, and when an installation is more complex. It is likely that 50%-75% of all residential systems will comply with these simple criteria. For projects that fail to meet the simple criteria, resolution steps have been suggested to provide as a path to permit approval. Required Information for Permit: 1. Site plan showing location of major components on the property. This drawing need not be exactly to scale, but it should represent relative location of components at site (see supplied example site plan). PV arrays on dwellings with a 3’ perimeter space at ridge and sides may not need separate fire service review. 2. Electrical diagram showing PV array configuration, wiring system, overcurrent protection, inverter, disconnects, required signs, and ac connection to building (see supplied standard electrical diagram). 3. Specification sheets and installation manuals (if available) for all manufactured components including, but not limited to, PV modules, inverter(s), combiner box, disconnects, and mounting system. Step 1: Structural Review of PV Array Mounting System Is the array to be mounted on a defined, permitted roof structure? l Yes l No If No due to non-compliant roof or a ground mount, submit completed worksheet for the structure WKS1. Roof Information: 1. Is the roofing type lightweight (Yes = composition, lightweight masonry, metal, etc…)__________________________ ____________________________________________________________________________________________________ If No, submit completed worksheet for roof structure WKS1 (No = heavy masonry, slate, etc…). 2. Does the roof have a single roof covering? l Yes l No If No, submit completed worksheet for roof structure WKS1. 3. Provide method and type of weatherproofing roof penetrations (e.g. flashing, caulk).____________________________ Mounting System Information: 1. Is the mounting structure an engineered product designed to mount PV modules with no more than an 18” gap beneath the module frames? l Yes l No If No, provide details of structural attachment certified by a design professional. 2. For manufactured mounting systems, fill out information on the mounting system below: a. Mounting System Manufacturer ___________Product Name and Model#________________________________ b. Total Weight of PV Modules and Rails ___________lbs c. Total Number of Attachment Points____________ d. Weight per Attachment Point (b÷c)_________________lbs (if greater than 45 lbs, see WKS1) e. Maximum Spacing Between Attachment Points on a Rail ______________inches (see product manual for maximum spacing allowed based on maximum design wind speed) f. Total Surface Area of PV Modules (square feet)_________________ ft 2 g. Distributed Weight of PV Module on Roof (b÷f)_______________ lbs/ft2 If distributed weight of the PV system is greater than 5 lbs/ft2, see WKS1. Step 2: Electrical Review of PV System (Calculations for Electrical Diagram) In order for a PV system to be considered for an expedited permit process, the following must apply: 1. PV modules, utility-interactive inverters, and combiner boxes are identified for use in PV systems. 2. The PV array is composed of 4 series strings or less per inverter. 3. The total inverter capacity has a continuous ac power output 13,440 Watts or less 4. The ac interconnection point is on the load side of service disconnecting means (690.64(B)). 5. One of the standard electrical diagrams (E1.1, E1.1a, E1.1b, or E1.1c) can be used to accurately represent the PV system. Interactive PDF diagrams are available at www.solarabcs.org/permitting. Fill out the standard electrical diagram completely. A guide to the electrical diagram is provided to help the applicant understand each blank to fill in. If the electrical system is more complex than the standard electrical diagram can effectively communicate, provide an alternative diagram with appropriate detail. 3325 S Baker St 01/12/23 Ex p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 3 Micro-Inverter Site Plan                                                       KEVIN TRIEU & THERESE PHAM s 3325 SOUTH BAKER STREET SANTA ANA, CA 92707 5.766 kW CEC-AC 3325 S Baker St 01/12/23 Ex p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 4 Micro-Inverter Electrical Diagram Contractor Name, Address and Phone: One-Line Standard Electrical Diagram for Micro-Inverter PV Systems Site Name: Site Address: System AC Size: SIZE FSCM NO DWG NO REV E1.1a SCALE NTS Date: SHEET Drawn By: Checked By: DESCRIPTION OR CONDUCTOR TYPE USE-2 or PV WIRE GEC EGC X ALL THAT APPLY EXTERIOR CABLE LISTED W/ INV. THWN-2 or XHHW-2 or RHW-2 GEC EGC X ALL THAT APPLY NO DC GEC IF 690.35 SYSTEM THWN-2 or XHHW-2 or RHW-2 GEC EGC X ALL THAT APPLY TAG 1 2 3 4 5 CONDUIT AND CONDUCTOR SCHEDULE COND. GAUGE MFG MFG NUMBER OF CONDUCTORS MFG Cable MFG Cable CONDUIT TYPE N/A N/A N/A SAME SAME CONDUIT SIZE N/A N/A N/A SAME SAME DESCRIPTION PV DC or AC MODULE DC/AC INVERTER (MICRO) J-BOX (IF USED) PV ARRAY AC COMB. PANEL (IF USED) GEN METER (IF USED) AC DISCONNECT (IF USED) SERVICE PANEL TAG 1 2 3 4 5 6 7 8 PART NUMBER NOTES FOR UNUSED MODULES PUT "N/A” in BLANK ABOVE 1 1 3 2 3 EQUIPMENT SCHEDULE 2 _____ MICRO-INVERTERS IN BRANCH- CIRCUIT MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC J-BOX 4 AC DISCO M BUILDING GROUNDING ELECTRODE G M UTILITY SERVICE MAIN SERVICE PANEL MAIN OCPD INVERTER OCPD 6 7 8 5 4 5 G SEE GUIDE APPENDIX D FOR INFORMATION ON MODULE AND ARRAY GROUNDING AC COMBINER PANEL G ____ MICRO-INVERTERS IN BRANCH- CIRCUIT s KEVIN TRIEU & THERESE PHAM 5.766 kW CEC-AC 3325 SOUTH BAKER STREET SANTA ANA, CA 92707 3325 S Baker St 01/12/23 Ex p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 5 Contractor Name, Address and Phone: Notes for One-Line Standard Electrical Diagram for Single-Phase PV Systems Site Name: Site Address: System AC Size: SIZE FSCM NO DWG NO REV E1.2a SCALE NTS Date: SHEET Drawn By: Checked By: MAX POWER-POINT CURRENT (IMP) MAX POWER-POINT VOLTAGE (VMP) OPEN-CIRCUIT VOLTAGE (VOC) SHORT-CIRCUIT CURRENT (ISC) MAX SERIES FUSE (OCPD) MAXIMUM POWER (PMAX) MAX VOLTAGE (TYP 600VDC) VOC TEMP COEFF (mV/oC or %/oC ) IF COEFF SUPPLIED, CIRCLE UNITS MODULE MAKE MODULE MODEL PV MODULE RATINGS @ STC (Guide Section 5) MAX DC VOLT RATING MAX POWER @ 40oC NOMINAL AC VOLTAGE MAX AC CURRENT MAX OCPD RATING INVERTER MAKE INVERTER MODEL INVERTER RATINGS (Guide Section 4) 1) IF UTILITY REQUIRES A VISIBLE-BREAK SWITCH, DOES THIS SWITCH MEET THE REQUIREMENT? YES NO N/A 2) IF GENERATION METER REQUIRED, DOES THIS METER SOCKET MEET THE REQUIREMENT? YES NO N/A 3) SIZE PHOTOVOLTAIC POWER SOURCE (DC) CONDUCTORS BASED ON MAX CURRENT ON NEC 690.53 SIGN OR OCPD RATING AT DISCONNECT 4) SIZE INVERTER OUTPUT CIRCUIT (AC) CONDUCTORS ACCORDING TO INVERTER OCPD AMPERE RATING. (See Guide Section 9) 5) TOTAL OF ______ INVERTER OUTPUT CIRCUIT OCPD(s), ONE FOR EACH MICRO- INVERTER CIRCUIT. DOES TOTAL SUPPLY BREAKERS COMPLY WITH 120% BUSBAR EXCEPTION IN 690.64(B)(2)(a)? YES NO NOTES FOR INVERTER CIRCUITS (Guide Section 8 and 9): 1.) LOWEST EXPECT AMBIENT TEMPERATURE BASED ON ASHRAE MINIMUM MEAN EXTREME DRY BULB TEMPERATURE FOR ASHRAE LOCATION MOST SIMILAR TO INSTALLATION LOCATION. LOWEST EXPECTED AMBIENT TEMP ____oC 2.) HIGHEST CONTINUOUS AMBIENT TEMPERATURE BASED ON ASHRAE HIGHEST MONTH 2% DRY BULB TEMPERATURE FOR ASHRAE LOCATION MOST SIMILAR TO INSTALLATION LOCATION. HIGHEST CONTINUOUS TEMPERATURE ____oC 2.) 2009 ASHRAE FUNDAMENTALS 2% DESIGN TEMPERATURES DO NOT EXCEED 47oC IN THE UNITED STATES (PALM SPRINGS, CA IS 44.1 oC). FOR LESS THAN 9 CURRENT-CARRYING CONDUCTORS IN ROOF-MOUNTED SUNLIT CONDUIT AT LEAST 0.5" ABOVE ROOF AND USING THE OUTDOOR DESIGN TEMPERATURE OF 47oC OR LESS (ALL OF UNITED STATES), a) 12 AWG, 90 oC CONDUCTORS ARE GENERALLY ACCEPTABLE FOR MODULES WITH Isc OF 7.68 AMPS OR LESS WHEN PROTECTED BY A 12-AMP OR SMALLER FUSE. b) 10 AWG, 90oC CONDUCTORS ARE GENERALLY ACCEPTABLE FOR MODULES WITH Isc OF 9.6 AMPS OR LESS WHEN PROTECTED BY A 15-AMP OR SMALLER FUSE. NOTES FOR ARRAY CIRCUIT WIRING (Guide Section 6 and 8 and Appendix E): OCPD = OVERCURRENT PROTECTION DEVICE NATIONAL ELECTRICAL CODE®REFERENCES SHOWN AS (NEC XXX.XX) NOTES FOR ALL DRAWINGS: SIGNS–SEE GUIDE SECTION 7 SIGN FOR DC DISCONNECT SIGN FOR INVERTER OCPD AND AC DISCONNECT (IF USED) No sign necessary since 690.51 marking on PV module covers needed information AC OUTPUT CURRENT NOMINAL AC VOLTAGE SOLAR PV SYSTEM AC POINT OF CONNECTION THIS PANEL FED BY MULTIPLE SOURCES (UTILITY AND SOLAR) Notes for Micro-Inverter Electrical Diagram s KEVIN TRIEU & THERESE PHAM 3325 SOUTH BAKER STREET SANTA ANA, CA 92707 5.766 kW CEC-AC 3325 S Baker St 01/12/23 Rev: 2/17/2015 RESIDENTIAL PHOTOVOLTAIC CHECKLIST SOL-01 CBC 2013 Solar Photovoltaic (PV) Checklist for Detached SINGLE FAMILY RESIDENCES Only Instructions: The licensed contractor of record shall fill in the address of the project, contractor’s licensing information and answer questions 1 -10 below. Complete and sign the certification section. **If answering NO to any of the questions, plan check shall be required.** Project Address: ________________________________________________________________ Contractor Company Name: _______________________________________________________ Contractor License Number: _______________________________________________________ YES NO Are the following applicable to the proposed project? 1.   Will the PV array be flush mounted to the existing roof so that the plane of the modules (panels) are parallel to the plane of the roof? 2. Will the PV system weigh maximum 3 pounds per square feet or less? 3. Will the PV system be installed where the modules do not overhang any roof edges (such as eaves, gabled ends, ridges and hips)? 4.   Will the PV system be installed with a space of 2” minimum to 10” maximum between the underside of modules and the surface of the roof? 5.  Will the PV system be installed without using any ballast system or counter-weight system? 6.   Will the PV system be installed on a roof having only one roofing layer with no overlays? 7.   Will the PV system layout provide a three-foot wide clear access pathway per the latest edition of “Guideline for Fire Safety Elements of Solar Photovoltaic Systems” by OCFA? (Guideline available on the OCFA website: http://www.ocfa.org) 8. Do the plans show a maximum horizontal anchor spacing of 6 feet? 9. Do the plans show a minimum of 2-1/2 inch lag screw embedment into roof rafters? 10. Are ALL the structural pages of the plans WET stamped and signed by a California licensed professional engineer? (including project specific site plan, PV layout, anchorage spacing, anchorage details and manufacturer’s PV support information.) I certify under penalty of perjury under the laws of the State of California that the above is true: Planning & Building Agency Building Safety Division 20 Civic Center Plaza P.O. Box 1988 (M-19) Santa Ana, CA 92702 (714) 647-5800 www.santa-ana.org 3325 SOUTH BAKER STREET SANTA ANA, CA 92707 PARAGONSUN #1025115 (C-46) x x x x x x x x x x $  ori Lars enPrint name: ________________________________ Signature: _________________________ Phone Number: _____9495294401______________ Date: _____________________________ Email Address: ____________cori@psun.us_____________________________________________________ 3325 S Baker St 01/12/23 3325 S Baker St 01/12/23 3325 S Baker St 01/12/23 Base Plate BOLT, HEX 5/16-18 X 1" SST WASHER, LOCK 5/16 SST. WASHER, 5/16 ID X 1.5 OD EPDM BACKED WASHER 1.5" OD Aluminum Post SCREW, COUNTERSINK, 1/4-20 X 1" SST 4.03.0 .33 (4" and 7") Varies .16 EX-0003 Page 1 of 1 L Foot (not included) SCALE:1:4 SIZE DWG. NO. A REV. MATERIAL FINISH DO NOT SCALE DRAWING DIMENSIONS ARE IN INCHES. TOLERANCES: .XX: +/- .030, XXX: +/- .015 ANGLES: +/- 1.5° DRAWN CHECKED ENG APPR. MFG APPR. Q.A. SHEET 1 OF 1WEIGHT: COMMENTS: REVISIONS DESCRIPTION REV. DATE APPROVED THE INFORMATION CONTAINED IN THIS DRAWING IS THE SOLE PROPERTY OF IRONRIDGE INC. ANY REPRODUCTION IN PART OR AS A WHOLE WITHOUT THE WRITTEN PERMISSION OF IRONRIDGE INC. IS PROHIBITED. PROPRIETARY AND CONFIDENTIAL ZONE Flush Standoff EX-0003 A Initial Release 5-11-12 SM SM B 5-11-12 Updated L-foot and Post Heights B 12-16-15 JMJ 3325 S Baker St 01/12/23 Tech Brief 9OSVROKJ-XU[TJOTMLUX+\KX_'VVROIGZOUT The UFO family of components eliminates the need for separate grounding hardware by bonding solar modules directly to IronRidge XR Rails. All system types that feature the UFO family—Flush Mount, Tilt Mount and Ground Mount—are fully listed to the UL 2703 standard. UFO hardware forms secure electrical bonds with both the module and the rail, resulting in many parallel grounding paths throughout the system. This leads to safer and more reliable installations. UFO Family of Components ;TO\KXYGR,GYZKTOTM5HPKIZ;,5 The UFO securely bonds solar modules to XR Rails. It comes assembled and lubricated, and FDQWDZLGHUDQJHRIPRGXOHKHLJKWV he g ore ;TO\KXYGR,GYZK The UFO securely b Rails. It comes asse FDQWDZLGHUDQJH 9ZUVVKX9RKK\K The Stopper Sleeve snaps onto the UFO, converting it into a bonded end clamp. (UTJKJ9VROIK Each Bonded Splice uses self-drilling screws to form a secure connection. No bonding strap needed. (UTJKJ'ZZGINSKTZY The bonding bolt attaches and bonds the L-foot to the rail. It is installed with the same socket as the rest of the system. -XU[TJOTM2[M A single Grounding Lug connects an entire row of PV modules to the grounding conductor. (UTJKJ9VROIK Each Bonded Splice uses lf d illi f 9_YZKS*OGMXGS ;2)KXZOIGZOUT The IronRidge Flush Mount, Tilt Mount, and Ground Mount Systems have been listed to UL 2703 by Intertek Group plc. UL 2703 is the standard for evaluating solar mounting systems. It ensures these devices will maintain strong electrical and mechanical connections over an extended period of time in extreme outdoor environments. n/XUT8OJMK/TI'RRXOMNZYXKYKX\KJ<OYOZ]]]OXUTXOJMKIUSUXIGRRLUXSUXKOTLUXSGZOUT<KXYOUT Tech Brief )XUYY9_YZKS)USVGZOHOROZ_ ,KGZ[XK ,R[YN3U[TZ :ORZ3U[TZ -XU[TJ3U[TZ XR Rails ( (XR1000 Only UFO/Stopper ( ( ( Bonded Splice ( (N/A Grounding Lugs 1 per Row 1 per Row 1 per Array Microinverters & Power Optimizers Enphase - M250-72, M250-60, M215-60, C250-72 Darfon - MIG240, MIG300, G320, G640 SolarEdge - P300, P320, P400, P405, P600, P700, P730 Fire Rating Class A Class A N/A Modules Tested or Evaluated with over 400 Framed Modules Refer to installation manuals for a detailed list. í Approved Enphase microinverters can provide equipment grounding of IronRidge systems, eliminating the need for JURXQGLQJOXJVDQGHOGLQVWDOOHGHTXLSPHQWJURXQGFRQGXFWRUV (*& $PLQLPXPRIWZRPLFURLQYHUWHUVPRXQWHGWRWKH same rail and connected to the same Engage cable is required. Refer to installation manuals for additional details. -UZU/XUT8OJMKIUS;,5 3325 S Baker St 01/12/23 Please consult serving utility for their requirements prior to ordering or installing, as specifications and approvals vary by utility, and may require local electrical inspector approval. All installations must be installed by a licensed electrician and must comply with all national and local codes, laws and regulations. Milbank reserves the right to make changes in specifications and features shown without notice or obligation. Milbank Manufacturing | 4801 Deramus Ave., Kansas City, MO 64120 | 877.483.5314 | milbankworks.com 1 8 Metering & Receptacle Accessories For RV Products Field-installable Meter Kits E-Z Read Watt-Hour Meters Single Receptacle Only Power Outlet Application Field-installable meter kit for U5000 and U5200 power outlets. Features • 100 Amps cast meter socket, CL200 E-Z Read Meter, sealing ring, security seal, 1" Milbank hub, nipple and mounting screws. • See CL200 for watt-hour meter specification. Ordering Order catalog number K4800-D for digital meters. Application 200 Amps E-Z read watt-hour meter designed to be field installed on the U5100 and U5300 metered power outlets. Features • 200 Amps form 2S 120/240 VAC. • Numeric readout in full kilowatt increments. No “tenths” dial. • Remanufactured to 1% accuracy. Ordering Order catalog number CL200-D for digital meters. Application Overhead/underground power outlet receptacle, suitable for RV, temporary service, and campground equipment. Features • NEMA 3R, 120/240 VAC single phase. • Lockable cover. • Breaker not included (in receptacle box). Ordering Order catalog number from chart below. Receptacle Options P-10GWR 20A 5-20GR 120V GFI P-13 30A TT-30R 120V P-54 50A 14-50R 120/240V WARNING! Always disconnect power prior to installing these devices. Please consult serving utility for their requirements prior to ordering or installing, as specifications and approvals vary by utility, and may require local electrical inspector approval. All installations must be installed by a licensed electrician and must comply with all national and local codes, laws and regulations. Milbank reserves the right to make changes in specifications and features shown without notice or obligation. Milbank Manufacturing | 4801 Deramus Ave., Kansas City, MO 64120 | 877.483.5314 | milbankworks.com 1 9Replacement Parts & Accessories For Millennium Series RV Products Q120 20 Amps, 1-pole circuit breaker 708784-MO 20 Amps, 1-pole GFI circuit breaker Q130 30 Amps, 1-pole circuit breaker Q250 50 Amps, 2-pole circuit breaker Z918466-AC Lug landing base Z917602-AC Circuit breaker base (6-circuit) Z915141-AC Left or right meter block assembly Z708080-MO 20 Amps GFI receptacle NEMA 5-20GR Z701776-MO 30 Amps receptacle NEMA TT-30 Z708767-MO 50 Amps receptacle NEMA 14-50R Z918449-AC (19" unmetered) Z918447-AC (15" metered) Hinge cover Z818052-SC (19" unmetered) Z818480-SC (15" metered) Deadfront MR-2 Snap action sealing ring Neutral assembly shown with 2 insulator supports (706230-MO), a ground connector (Z705790-AC) and bonding screw (Z707365-SC) 3325 S Baker St 01/12/23 IQ8 and IQ8+ Microinverters Our newest IQ8 Microinverters are the industry’s first grid-forming microinverters with split-phase power conversion capability to convert DC power to AC power efficiently. The brain of the semiconductor-based microinverter is our proprietary application-specific integrated circuit (ASIC) which enables the microinverter to operate in grid-tied or off-grid modes. This chip is built in advanced 55nm technology with high speed digital logic and has super-fast response times to changing loads and grid events, alleviating constraints on battery sizing for home energy systems. Part of the Enphase Energy System, IQ8 Series Microinverters integrate with the Enphase IQ Battery, Enphase IQ Gateway, and the Enphase App monitoring and analysis software. IQ8 Series Microinverters redefine reliability standards with more than one million cumulative hours of power-on testing, enabling an industry-leading limited warranty of up to 25 years. Connect PV modules quickly and easily to IQ8 Series Microinverters using the included Q-DCC-2 adapter cable with plug-n-play MC4 connectors. IQ8 Series Microinverters are UL Listed as PV Rapid Shut Down Equipment and conform with various regulations, when installed according to manufacturer’s instructions. Easy to install • Lightweight and compact with plug-n-play connectors • Power Line Communication (PLC) between components • Faster installation with simple two-wire cabling High productivity and reliability • Produce power even when the grid is down • More than one million cumulative hours of testing • Class II double-insulated enclosure • Optimized for the latest high- powered PV modules Grid-forming • Complies with the latest advanced grid support • Remote automatic updates for the latest grid requirements • Configurable to support a wide range of grid profiles • Meets CA Rule 21 (UL 1741-SA) requirements © 2021 Enphase Energy. All rights reserved. Enphase, the Enphase logo, IQ8 microinverters, and other names are trademarks of Enphase Energy, Inc. Data subject to change. IQ8SP-DS-0002-01-EN-US-2021-10-19 DATA SHEET (1) No enforced DC/AC ratio. See the compatibility calculator at https://link.enphase.com/ module-compatibility (2) Maximum continuous input DC current is 10.6A (3) Nominal voltage range can be extended beyond nominal if required by the utility. (4) Limits may vary. Refer to local requirements to define the number of microinverters per branch in your area. IQ8 and IQ8+ Microinverters INPUT DATA (DC)IQ8-60-2-US IQ8PLUS-72-2-US Commonly used module pairings1 W 235 – 350 235 – 440 Module compatibility 60-cell/120 half-cell 60-cell/120 half-cell and 72-cell/144 half-cell MPPT voltage range V 27 – 37 29 – 45 Operating range V 25 – 48 25 – 58 Min/max start voltage V 30 / 48 30 / 58 Max input DC voltage V 50 60 Max DC current2 [module Isc]A 15 Overvoltage class DC port II DC port backfeed current mA 0 PV array configuration 1x1 Ungrounded array; No additional DC side protection required; AC side protection requires max 20A per branch circuit OUTPUT DATA (AC)IQ8-60-2-US IQ8PLUS-72-2-US Peak output power VA 245 300 Max continuous output power VA 240 290 Nominal (L-L) voltage/range3 V 240 / 211 – 264 Max continuous output current A 1.0 1.21 Nominal frequency Hz 60 Extended frequency range Hz 50 – 68 Max units per 20 A (L-L) branch circuit4 16 13 Total harmonic distortion <5% Overvoltage class AC port III AC port backfeed current mA 30 Power factor setting 1.0 Grid-tied power factor (adjustable)0.85 leading – 0.85 lagging Peak efficiency %97.5 97.6 CEC weighted efficiency %97 97 Night-time power consumption mW 60 MECHANICAL DATA Ambient temperature range -40ºC to +60ºC (-40ºF to +140ºF) Relative humidity range 4% to 100% (condensing) DC Connector type MC4 Dimensions (HxWxD)212 mm (8.3”) x 175 mm (6.9”) x 30.2 mm (1.2”) Weight 1.08 kg (2.38 lbs) Cooling Natural convection – no fans Approved for wet locations Yes Acoustic noise at 1 m <60 dBA Pollution degree PD3 Enclosure Class II double-insulated, corrosion resistant polymeric enclosure Environ. category / UV exposure rating NEMA Type 6 / outdoor COMPLIANCE Certifications CA Rule 21 (UL 1741-SA), UL 62109-1, UL1741/IEEE1547, FCC Part 15 Class B, ICES-0003 Class B, CAN/CSA-C22.2 NO. 107.1-01 This product is UL Listed as PV Rapid Shut Down Equipment and conforms with NEC 2014, NEC 2017, and NEC 2020 section 690.12 and C22.1-2018 Rule 64-218 Rapid Shutdown of PV Systems, for AC and DC conductors, when installed according to manufacturer’s instructions. IQ8SP-DS-0002-01-EN-US-2021-10-19 3325 S Baker St 01/12/23 3325 S Baker St 01/12/23 X-IQ-AM1-240-4 The Enphase IQ Combiner 4/4C with Enphase IQ Gateway and integrated LTE-M1 cell modem (included only with IQ Combiner 4C) consolidates interconnection equipment into a single enclosure and streamlines IQ microinverters and storage installations by providing a consistent, pre-wired solution for residential applications. It offers up to four 2-pole input circuits and Eaton BR series busbar assembly. Enphase IQ Combiner 4/4C X-IQ-AM1-240-4 X-IQ-AM1-240-4C To learn more about Enphase offerings, visit enphase.com Data Sheet Enphase Networking Smart • Includes IQ Gateway for communication and control • Includes Enphase Mobile Connect cellular modem (CELLMODEM-M1-06-SP-05), included only with IQ Combiner 4C • Includes solar shield to match Enphase IQ Battery EIWXLIXMGWERHHIƥIGXLIEX • Flexible networking supports Wi-Fi, Ethernet, or cellular • Optional AC receptacle available for PLC bridge • Provides production metering and consumption monitoring Simple • Centered mounting brackets support single stud mounting • Supports bottom, back and side conduit entry • Up to four 2-pole branch circuits for 240 VAC plug-in breakers (not included) • 80A total PV or storage branch circuits Reliable ŵ (YVEFPI2680GIVXMƤIH2)1%X]TI6IRGPSWYVI • Five-year limited warranty • Two years labor reimbursement program coverage included for both the IQ Combiner SKU's • UL listed X-IQ-AM1-240-4CX IQ AM1 240 X-IQ-AM1-240-4 0-4C0 4C To learn more about Enphase offerings, visit enphase.com © 2021 Enphase Energy. All rights reserved. Enphase, the Enphase logo, IQ Combiner 4/4C, and other names are trademarks of Enphase Energy, Inc. Data subject to change. 10-21-2021 MODEL NUMBER IQ Combiner 4 (X-IQ-AM1-240-4)IQ Combiner 4 with Enphase IQ Gateway printed circuit board for integrated revenue grade PV production metering (ANSI C12.20 +/- 0.5%) and consumption monitoring (+/- 2.5%). Includes a silver solar shield to match the IQ Battery system and -57]WXIQ'SRXVSPPIVERHXSHIƥIGXLIEX IQ Combiner 4C (X-IQ-AM1-240-4C)IQ Combiner 4C with Enphase IQ Gateway printed circuit board for integrated revenue grade PV production metering (ANSI C12.20 +/- 0.5%) and consumption monitoring (+/- 2.5%). Includes Enphase Mobile Connect cellular modem (CELLMODEM-M1-06-SP-05), a plug-and-play industrial-grade cell modem for systems up to 60 microinverters. (Available in the US, Canada, Mexico, Puerto Rico, and the US Virgin Islands, where there is adequate cellular service in XLIMRWXEPPEXMSREVIE -RGPYHIWEWMPZIVWSPEVWLMIPHXSQEXGLXLI-5&EXXIV]ERH-57]WXIQ'SRXVSPPIVERHXSHIƥIGXLIEX ACCESSORIES AND REPLACEMENT PARTS (not included, order separately) Ensemble Communications Kit COMMS-CELLMODEM-M1-06 CELLMODEM-M1-06-SP-05 CELLMODEM-M1-06-AT-05 - Includes COMMS-KIT-01 and CELLMODEM-M1-06-SP-05 with 5-year Sprint data plan for Ensemble sites - 4G based LTE-M1 cellular modem with 5-year Sprint data plan - 4G based LTE-M1 cellular modem with 5-year AT&T data plan Circuit Breakers BRK-10A-2-240V BRK-15A-2-240V BRK-20A-2P-240V BRK-15A-2P-240V-B BRK-20A-2P-240V-B 7YTTSVXW)EXSR&6&6&6&6&6&6ERH&6GMVGYMXFVIEOIVW Circuit breaker, 2 pole, 10A, Eaton BR210 Circuit breaker, 2 pole, 15A, Eaton BR215 Circuit breaker, 2 pole, 20A, Eaton BR220 Circuit breaker, 2 pole, 15A, Eaton BR215B with hold down kit support Circuit breaker, 2 pole, 20A, Eaton BR220B with hold down kit support EPLC-01 Power line carrier (communication bridge pair), quantity - one pair XA-SOLARSHIELD-ES Replacement solar shield for IQ Combiner 4/4C <%409+Accessory receptacle for Power Line Carrier in IQ Combiner 4/4C (required for EPLC-01) <%)2:4'&%Replacement IQ Gateway printed circuit board (PCB) for Combiner 4/4C X-IQ-NA-HD-125A Hold down kit for Eaton circuit breaker with screws. ELECTRICAL SPECIFICATIONS Rating Continuous duty System voltage 120/240 VAC, 60 Hz Eaton BR series busbar rating 125 A Max. continuous current rating 65 A Max. continuous current rating (input from PV/storage)64 A Max. fuse/circuit rating (output)90 A Branch circuits (solar and/or storage)Up to four 2-pole Eaton BR series Distributed Generation (DG) breakers only (not included) Max. total branch circuit breaker rating (input)80A of distributed generation / 95A with IQ Gateway breaker included Production metering CT 200 A solid core pre-installed and wired to IQ Gateway Consumption monitoring CT (CT-200-SPLIT)A pair of 200 A split core current transformers MECHANICAL DATA Dimensions (WxHxD)\\GQ ű\ű\ű ,IMKLXMW GQ [MXLQSYRXMRKFVEGOIXW Weight OK PFW Ambient temperature range -40º C to +46º C (-40º to 115º F) Cooling Natural convection, plus heat shield Enclosure environmental rating 3YXHSSV2680GIVXMƤIH2)1%X]TI6TSP]GEVFSREXIGSRWXVYGXMSR Wire sizes • 20 A to 50 A breaker inputs: 14 to 4 AWG copper conductors • 60 A breaker branch input: 4 to 1/0 AWG copper conductors • Main lug combined output: 10 to 2/0 AWG copper conductors • Neutral and ground: 14 to 1/0 copper conductors Always follow local code requirements for conductor sizing. Altitude To 2000 meters (6,560 feet) INTERNET CONNECTION OPTIONS Integrated Wi-Fi 802.11b/g/n Cellular CELLMODEM-M1-06-SP-05, CELLMODEM-M1-06-AT-05 (4G based LTE-M1 cellular modem). Note that an Enphase Mobile Connect cellular modem is required for all Ensemble installations. Ethernet 3TXMSREP'EX) SV'EX 984)XLIVRIXGEFPI RSXMRGPYHIH COMPLIANCE Compliance, IQ Combiner 90'%2'7%'2S'*64EVX'PEWW&-')7 Production metering: ANSI C12.20 accuracy class 0.5 (PV production) Consumption metering: accuracy class 2.5 Compliance, IQ Gateway UL 60601-1/CANCSA 22.2 No. 61010-1 Enphase IQ Combiner 4/4C 3325 S Baker St 01/12/23 Tech Brief Solar Is Not Always Sunny 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. XR Rails are the structural backbone preventing these results. They resist uplift, protect DJDLQVWEXFNOLQJDQGVDIHO\DQGHIFLHQWO\ 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. XR Rail Family 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 Roof Mount utilizes XR Rails, along with optional all-in-one attachments, WRVHFXUHV\VWHPVXVK against residential roofs. Roof Mount utilizes XR Rails, along with optional all-in-one attachments, WRVHFXUHV\VWHPVXVK against residential roofs. Corrosion-Resistant Materials XR Rails are compatible with FlashFoot and other pitched roof attachments. IronRidge offers a range of tilt leg RSWLRQVIRUDW roof mounting applications. All XR Rails are made of marine-grade aluminum alloy, then protected with an DQRGL]HGQLVK$QRGL]LQJSUHYHQWVVXUIDFH and structural corrosion, while also providing a more attractive appearance. XR Rail Family 7KH;55DLO)DPLO\RIIHUVWKHVWUHQJWKRIDFXUYHGUDLOLQWKUHHWDUJHWHGVL]HV(DFKVL]HVXSSRUWVVSHFLF design loads, while minimizing material costs. Depending on your location, there is an XR Rail to match. © 2014 IronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-800-227-9523 for more information. Version 1.10 Tech Brief Rail Selection 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 %XLOGLQJ+HLJKWRIIW9LVLW,URQ5LGJHFRPIRUGHWDLOHGVSDQWDEOHVDQGFHUWLFDWLRQV Load Rail Span Snow (PSF) Wind (MPH) 4’5’ 4” 6’ 8’ 10’ 12’ None 100 120 140 XR10 XR100 XR1000 160 10-20 100 120 140 160 30 100 160 40 100 160 50-70 160 80-90 160 XR100 XR100 is the ultimate residential mounting rail. It supports a range of wind and snow conditions, while also maximizing spans. • 8’ spanning capability • Heavy load capability • &OHDU EODFNDQRGL]HGQLVK • Internal splices available XR10 ;5LVDVOHHNORZSUROHPRXQWLQJ rail, perfectly matched to regions without snow. It achieves 6 foot spans, while also staying light and economical. • 6’ spanning capability • Moderate load capability • &OHDUDQRGL]HGQLVK • Internal splices available 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 • &OHDUDQRGL]HGQLVK • Internal splices available 3325 S Baker St 01/12/23 3325 S Baker St 01/12/23