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B18-0284_Approved Documents_1532359317.pdf
February 2007 CA08101001E For more information visit: www.eaton.com 8-21Switching Devices 8 Safety Switches Product Selection 120/240 Vac General-Duty, Fusible, Single Throw Table 8-41. 120/240 Vac General-Duty, Fusible, Single Throw Maximum hp ratings apply only when dual element time delay fuses are used. Use 4-wire catalog numbers below. Solid neutral bars are not included. Order separately from Table 8-1 on Page 8-5. WARNING! Switch is not approved for service entrance unless a neutral kit is installed. 120/240 Vac General-Duty, Non-Fusible, Single Throw DG322URB Table 8-42. 120/240 Vac General-Duty, Non-Fusible, Single Throw WARNING! Switch is not approved for service entrance unless a neutral kit is installed. Use 3-wire catalog numbers below. Drilled to accept ®eld installed neutral kits. Note: All general-duty safety switches are individually packaged. Note: Accessories are limited in scope on general-duty safety switches. See Page 8-5 for availability. In addition, clear line shields are available as an accessory on 200 600 ampere general-duty switches. Catalog Numbers: 200 A = 70-7759-11, 400 A = 70-8063-8, 600 A = 70-8064-8. System Ampere Rating Fuse Type Provision Maximum Horsepower Ratings NEMA 1 Enclosure Indoor NEMA 3R Enclosure RainproofSingle-Phase ac 3-Phase ac dc 120 Volt 240 Volt 240 Volt 250 Volt Catalog Number Price U.S. $ Catalog Number Price U.S. $ 3-Pole 3-Wire (Three Blades, Three Fuses) 240 Vac 30 60 100 200 400 600 H H 50 125 75 200 DG325FGK DG326FGK DG325FRK DG326FRK 4-Wire (Three Blades, Three Fuses, S/N) 120/240 Vac 30 60 100 200 400 600 H H H H H H 1-1/2 3 3 10 7-1/2 15 15 3 7-1/2 7-1/2 15 15 30 25 60 50 125 75 200 DG321NGB DG322NGB DG323NGB DG324NGK DG325NGK DG326NGK DG321NRB DG322NRB DG323NRB DG324NRK DG325NRK DG326NRKS/NSystem Ampere Rating Maximum Horsepower Ratings NEMA 1 Enclosure Indoor NEMA 3R Enclosure RainproofSingle-Phase ac 3-Phase ac dc 120 Volt 240 Volt 240 Volt 250 Volt Catalog Number Price U.S. $ Catalog Number Price U.S. $ Non-Fusible 2-Pole 2-Wire (Two Blades) 240 Vac 30 60 100 200 2 3 3 10 15 DG221UGB DG222UGB DG223UGB DG221URB DG222URB DG223URB 3-Pole 3-Wire (Three Blades) 240 Vac 30 60 100 200 400 600 2 3 3 10 15 15 7-1/2 15 30 60 125 200 DG321UGB DG322UGB DG323UGB DG324UGK DG325UGK DG326UGK DG321URB DG322URB DG323URB DG324URK DG325URK DG326URK Discount Symbol. . . . . . . . . . . . . . . . . . . . . . . . . 22CD Enhanced Warranty High Power Output Aesthetic Roof Outstanding Durability Better Performance on a Sunny Day LG365Q1C-A5 About LG Electronics 60 cell KM 564573 BS EN 61215 Photovoltaic Modules TM Near Zero LID (Light Induced Degradation) Innovation for a Better Life LG Electronics is a global player who has been committed to expanding its capacity, based on solar energy business as its future growth engine. We embarked on a solar energy source research program in 1985, supported by LG Groups rich experience in semi-conductor, LCD, chemistry, and materials industry. We successfully released first Mono X® series to the market in 2010, which were exported to 32 countries in the following 2 years, thereafter. In 2013, NeON (previously known as Mono X® NeON) & 2015 NeON2 with CELLO technology won Intersolar Award, which proved LG is the leader of innovation in the industry. LG360Q1C-A5 LG355Q1C-A5 LG350Q1C-A5 LG NeON® R is new powerful product with global top level performance. Applied new cell structure without electrodes on the front, LG NeON® R maximized the utilization of light and enhanced its reliability. LG NeON® R demonstrates LGs efforts to increase customer’s values beyond efficiency. It features enhanced warranty, durability, performance under real environment, and aesthetic design suitable for roofs. LG NeON® R has been designed with aesthetics in mind: no electrode on the front that makes new product more aesthetic. LG NeON® R can increase the value of a property with its modern design. LG NeON® R now performs better on a sunny days thanks to its improved temperature coefficient. The LG NeON® R has been designed to significantly enhance its output making it efficient even in limited space. With its newly reinforced frame design, LG NeON® R can endure a front load up to 6000 Pa, and a rear load up to 5400 Pa. The n-type cells used in LG NeON® R have almost no boron, which may cause the initial performance degradation, leading to less LID. LG now offer 25 years product warranty to accommodate performance warranty as well. LG NeON® R has an enhanced performance warranty. After 25 years, LG NeON® R is guaranteed at least 87.0% of initial performance. Characteristic Curves North America Solar Business Team LG Electronics U.S.A. Inc 1000 Sylvan Ave, Englewood Cliffs, NJ 07632 Contact: lg.solar@lge.com www.lgsolarusa.com Copyright © 2017 LG Electronics. All rights reserved. 01/01/2017 Innovation for a Better Life Electrical Properties (NOCT*) Module Maximum Power (Pmax) MPP Voltage (Vmpp) MPP Current (Impp) Open Circuit Voltage (Voc) Short Circuit Current (Isc) * NOCT (Nominal Operating Cell Temperature): Irradiance 800 W/m2, ambient temperature 20 °C, wind speed 1 m/s Electrical Properties (STC *) Module Maximum Power (Pmax) MPP Voltage (Vmpp) MPP Current (Impp) Open Circuit Voltage (Voc) Module Efficiency Operating Temperature Maximum System Voltage Maximum Series Fuse Rating 21.1 1000 20 365 365 36.7 9.95 42.8 10.8 Mechanical Properties Cells Cell Type CellDimensions Dimensions (L x W x H) Front Load Rear Load Weight Connector Type Junction Box Length of Cables Glass Frame 6 x 10 Monocrystalline / N-type 161.7 x 161.7 mm / 6 inches 1700 x 1016 x 40 mm 6000Pa 5400Pa 18.5 kg MC4 IP68 with 3 Bypass Diodes 1000 mm x 2 ea High Transmission Tempered Glass Anodized Aluminium Temperature Characteristics NOCT Pmpp Voc Isc 44 ± 3 °C -0.30 %/°C -0.24 %/°C 0.04 %/°C Module Fire Performance (USA) Product Warranty Output Warranty of Pmax IEC 61215, IEC 61730-1/-2 UL 1703 IEC 61701 (Salt mist corrosion test) IEC 62716 (Ammonia corrosion test) Type 1 25 years Linear warranty** **1) First 5 years : 95%, 2) After 5th year : 0.4% annual degradation, 3) 25 years : 87.0% Dimensions (mm/in) Fire Resistance Class (CANADA) Class C (ULC / ORD C1703) Certifications and Warranty Voltage (V) 10.00 1000W 600W 200W 800W 400W 6.00 2.00 8.00 4.00 0.00 10.00 30.00 20.00 40.00 15.00 35.00 25.00 45.005.00 Current (A)Temperature (°C) Isc Voc Pmax 140 60 100 20 120 40 80 0 -40 90 0 25 -25 50 75 Isc, Voc, Pmax (%) ISO 9001 Power Tolerance (%) 20.8 -40 ~ +90 360 360 36.5 9.87 42.7 10.79 20.6 355 355 36.3 9.79 42.7 10.78 20.3 350 350 36.1 9.70 42.7 10.77 0 ~ +3 * STC (Standard Test Condition): Irradiance 1,000 W/m², Ambient Temperature 25 °C, AM 1.5 * The nameplate power output is measured and determined by LG Electronics at its sole and absolute discretion. * The typical change in module efficiency at 200 W/m² in relation to 1000 W/m² is -2.0%. Short Circuit Current (Isc) DS-T1-72-W-G-P-EN-60630 LG365Q1C-A5 LG360Q1C-A5 LG355Q1C-A5 LG350Q1C-A5 Cell Vendor LG 8.70 365 275 36.6 7.51 40.2 8.69 360 271 36.4 7.45 40.2 8.68 355 267 36.2 7.39 40.2 8.67 350 263 36.0 7.32 40.1 * The distance between the center of the mounting/grounding holes. Junction Box 1000.0/39.4Cable Length 8-Ø8.2/0.3Mounting Holes[X view] 4-Ø4.3/0.2Grounding Holes [Y view] 4-4.0*7.5/0.2*0.3Drain Holes[Z view] 4-4.0*5.5/0.2*0.2 Drain Holes[D view] (-) (+)1300.0/51.21016.0/40.0 40.0/1.6976.0/38.4 1700.0/66.91100.0/43.3105.0/4.1200.0/7.9Detail X Detail Y Detail Z Detail D 29.0/1.1 4.0/0.2 40.0/1.67.5/0.34.0/0.229.0/1.140.0/1.65.5/0.28.2/0.3 Ø 4.3/0.2 Ø 1.5R (Size of Short Side) (Distance between Grounding & Mounting Holes) (Distance between Mounting Holes)(Distance between Mounting Holes)(Size of Long Side)66.93 x 40.0 x 1.57 inch POWER OPTIMIZERSolarEdge Power Optimizer Module Add-On For North America P320 / P370 / P400 / P405 / P505 Specifically designed to work with SolarEdge inverters Up to 25% more energy Superior efficiency (99.5%) Mitgates all types of module mismatch losses, from manufacturing tolerance to partal shading Flexible system design for maximum space utlizaton Fast installaton with a single bolt Next generaton maintenance with module-level monitoring Compliant with arc fault protecton and rapid shutdown NEC requirements (when installed as part of the SolarEdge system) Module-level voltage shutdown for installer and firefighter safety PV power optimization at the module-level www.solaredge.usUSA-CANADA-GERMANY-UK-ITALY-THE NETHERLANDS-JAPAN-CHINA-AUSTRALIA-ISRAEL-FRANCE-BELGIUM-TURKEY-INDIA-BULGARIA-ROMANIA-HUNGARY- SWEDEN-SOUTH AFRICA-POLAND-CZECH REPUBLIC OPTIMIZER MODEL (typical module compatbility) P320 (for high-power 60-cell modules) P370 (for higher-power 60 and 72-cell modules) P400 (for 72 & 96-cell modules) P405 (for thin film modules) P505 (for higher current modules) INPUT Rated Input DC Power(1) 320 370 400 405 505 W Absolute Maximum Input Voltage (Voc at lowest temperature)48 60 80 125 83 Vdc MPPT Operatng 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 Adc 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 Adc Maximum Output Voltage 60 85 Vdc OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) Safety Output Voltage per Power Optmizer 1 ± 0.1 Vdc STANDARD COMPLIANCE EMC FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3 Safety IEC62109-1 (class II safety), UL1741 RoHS Yes INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage 1000 Vdc Compatble inverters All SolarEdge Single Phase and Three Phase inverters Dimensions (W x L x H) 128 x 152 x 28 / 5 x 5.97 x 1.1 128 x 152 x 36 / 5 x 5.97 x 1.42 128 x 152 x 50 / 5 x 5.97 x 1.96 128 x 152 x 59 / 5 x 5.97 x 2.32 mm / in Weight (including cables) 630 / 1.4 750 / 1.7 845 / 1.9 1064 / 2.3 gr / lb Input Connector MC4(2) Output Wire Type / Connector Double Insulated; MC4 Output Wire Length 0.95 / 3.0 1.2 / 3.9 m / ſt Operatng Temperature Range -40 - +85 / -40 - +185 ˚C / ˚F Protecton Ratng IP68 / NEMA6P Relatve Humidity 0 - 100 % (1) Rated STC power of the module. Module of up to +5% power tolerance allowed. (2) For other connector types please contact SolarEdge SolarEdge Power Optimizer Module Add-On for North America P320 / P370 / P400 / P405 / P505 PV SYSTEM DESIGN USING A SOLAREDGE INVERTER(3)(4) SINGLE PHASE HD-WAVE SINGLE PHASE THREE PHASE 208V THREE PHASE 480V Minimum String Length (Power Optmizers) P320, P370, P400 8 10 18 P405 / P505 6 8 14 Maximum String Length (Power Optmizers)25 25 50(5) Maximum Power per String 5700 (6000 with SE7600H-US, SE10000H-US) 5250 6000 12750 W Parallel Strings of Different Lengths or Orientatons Yes © 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: 03/2018/V01/ENG NAM. Subject to change without notice. (3) For detailed string sizing informaton refer to: htp://www.solaredge.com/sites/default/files/string_sizing_na.pdf. (4) It is not allowed to mix P405/P505 with P320/P370/P400/P600/P700/P800 in one string. (5) A string with more than 30 optmizers does not meet NEC rapid shutdown requirements; safety voltage will be above the 30V requirement VSE Project Number: U2634-0021-181 July 2, 2018 Buglet Solar Electric Installation ATTENTION: Whitney Painter 722 Iowa Street Golden, CO 80403 REFERENCE: Phillips Residence: 2696 Davos Trail, Vail, CO 81657 Solar Array Installation To Whom It May Concern: Per your request, we have reviewed the existing structure at the above referenced site. The purpose of our review was to determine the adequacy of the existing structure to support the proposed installation of solar panels on the roof as shown on the panel layout plan. Based upon our review, we conclude that the existing structure is adequate to support the proposed solar panel installation. Design Parameters Code: International Building Code, 2015 Edition Risk Category: II Design wind speed: 115 mph (3-sec gust) per ASCE 7-10 Wind exposure category: C Snow load: 73 psf Conclusions Based upon our review, we conclude that the existing structure is adequate to support the proposed solar panel installation. In the area of the solar array, other live loads will not be present or will be greatly reduced (2015 IBC, Section 1607.12.5). The member forces in the area of the solar panels are not increased by more than 5%; thus, the stresses of the structural elements are not increased by more than 5%. Therefore, the requirements of Section 807.4 of the 2015 IEBC are met and the structure is permitted to remain unaltered. The solar array will be flush-mounted (no more than 6" above the roof surface) and parallel to the roof surface. Thus, we conclude that any additional wind loading on the structure related to the addition of the proposed solar array is negligible. The attached calculations verify the capacity of the connections of the solar array to the existing roof against wind (uplift), the governing load case. The connections to the existing roof shall be spaced at 48" maximum. Because the increase in lateral forces is less than 10%, this addition meets the requirements of the exception in Section 807.5 of the 2015 IEBC. Thus the existing structure is permitted to remain unaltered. 651 W. Galena Park Blvd., Ste. 101 / Draper, UT 84020 / T (801) 990-1775 / F (801) 990-1776 / www.vectorse.com VSE Project Number: U2634-0021-181 Phillips Residence 7/2/2018 Limitations Installation of the solar panels must be performed in accordance with manufacturer recommendations. All work performed must be in accordance with accepted industry-wide methods and applicable safety standards. The contractor shall notify Vector Structural Engineering, LLC should any damage, deterioration or discrepancies between the as-built condition of the structure and the condition described in this letter be found. Connections to existing roof framing must be staggered, except at array ends, so as not to overload any existing structural member. The use of solar panel support span tables provided by others is allowed only where the building type, site conditions, site-specific design parameters, and solar panel configuration match the description of the span tables. The design of the solar panel racking (mounts, rails, etc.), and electrical engineering is the responsibility of others. Waterproofing around the roof penetrations is the responsibility of others. Vector Structural Engineering assumes no responsibility for improper installation of the solar array. VECTOR STRUCTURAL ENGINEERING, LLC 07/02/2018 _______________________________________________________ Clifton Palmer, P.E. CO License: 0051669 - Expires: 10/31/2019 Project Engineer Enclosures CMP/afa 651 W. Galena Park Blvd., Ste. 101 / Draper, UT 84020 / T (801) 990-1775 / F (801) 990-1776 / www.vectorse.com 07/02/2018 JOB NO.: U2634-0021-181 SUBJECT: WIND PRESSURE PROJECT: Phillips Residence Label: Note: Calculations per ASCE 7-10 SITE-SPECIFIC WIND PARAMETERS: Basic Wind Speed [mph]: 115 Notes: Exposure Category: C Risk Category: II Importance Factor, I: ADDITIONAL INPUT & CALCULATIONS: Height of Roof, h [ft]: 25 (Approximate) Comp/Cladding Location: Hip? No Enclosure Classification: Zone 1 GCp: 1.0 Figure 30.4-2C (enter largest abs. value) Zone 2 GCp: 1.2 (enter largest abs. value) Zone 3 GCp: 1.2 (enter largest abs. value) α: 9.5 Table 26.9-1 zg [ft]: 900 Table 26.9-1 Kh: 0.95 Table 30.3-1 Kzt: 1 Equation 26.8-1 Kd: 0.85 Table 26.6-1 Velocity Pressure, qh [psf]: 27.2 Equation 30.3-1 GCpi: 0 Table 26.11-1 (largest abs. value) OUTPUT: Equation 30.9-1 Zone 1 Pressure, p [psf]: 27.2 psf (1.0 W, Interior Zones*) Zone 2 Pressure, p [psf]: 32.6 psf (1.0 W, End Zones*) Zone 3 Pressure, p [psf]: 32.6 psf (1.0 W, Corner Zones* within a) (a= 3 ft) Solar Panel Array Gable Roofs 27° < θ ≤ 45° Enclosed Buildings Components and Cladding Wind Calculations ()() pi ph GCGCqp −= VECTOR STRUCTURAL ENGINEERS JOB NO.: U2634-0021-181 SUBJECT: CONNECTION PROJECT: Phillips Residence Lag Screw Connection Capacity: Demand: Lag Screw Size [in]: 5/16 Cd: 1.6 NDS Table 2.3.2 Embedment1 [in]: 2.5 Grade: Capacity [lbs/in]: 205 NDS Table 12.2A 1 16.3 4.0 11.0 180 Number of Screws: 1 2 19.6 4.0 11.0 215 Prying Coefficient: 1.4 3 19.6 4.0 11.0 215 Total Capacity [lbs]: 586 Demand< Capacity: CONNECTION OKAY SPF (G = 0.42) Pressure (0.6 Wind) (psf) Max Tributary Width (ft) Max. Trib. Area2 (ft 2) Max. Uplift Force (lbs) Zone 1. Embedment is measured from the top of the framing member to the beginning of the tapered tip of the lag screw. Embedment in sheathing or other material is not effective. The length of the tapered tip is not part of the embedment length. 2. 'Max. Trib Area' is the product of the 'Max. Tributary Width' (along the rails) and 1/2 the panel width/height (perpendicular to the rails). VECTOR STRUCTURAL ENGINE JOB NO.: U2634-0021-181 SUBJECT: GRAVITY LOADS PROJECT: Phillips Residence CALCULATE ESTIMATED GRAVITY LOADS ROOF DEAD LOAD (D) Increase due to pitch Original loading Roof Pitch/12 7.8 Composite Shingles 2.4 1.19 2.0 psf 1/2" Plywood 1.2 1.19 1.0 psf Framing 3.0 psf Insulation 0.0 psf 1/2" Gypsum Clg. 0.0 psf M, E & Misc 0.0 psf DL 7 psf PV Array DL 3 psf ROOF LIVE LOAD (Lr) Existing Design Roof Live Load [psf] 20 ASCE 7-10, Table 4-1 Roof Live Load With PV Array [psf] 0 2015 IBC, Section 1607.12.5 SNOW LOAD (S): Existing w/ Solar Panel Array Roof Slope [x:12]:7.8 Roof Slope [°]:33 Snow Ground Load, pg [psf]:73 ASCE 7-10, Section 7.2 Terrain Category:C ASCE 7-10, Table 7-2 Exposure of Roof:Fully Exposed ASCE 7-10, Table 7-2 Exposure Factor, Ce:0.9 ASCE 7-10, Table 7-2 Thermal Factor, Ct:1.1 ASCE 7-10, Table 7-3 Risk Category:II ASCE 7-10, Table 1.5-1 Importance Factor, Is:1.0 ASCE 7-10, Table 1.5-2 Flat Roof Snow Load, p f [psf]:51 ASCE 7-10, Equation 7.3-1 Minimum Roof Snow Load, pm [psf]:30 ASCE 7-10, Section 7.3.4 Unobstructed Slippery Surface?No ASCE 7-10, Section 7.4 Slope Factor Figure:Figure 7-2b ASCE 7-10, Section 7.4 Roof Slope Factor, Cs:1.00 ASCE 7-10, Figure 7-2 Sloped Roof Snow Load, ps [psf]:51 ASCE 7-10, Equation 7.4-1 Design Snow Load, S [psf]:5151 7.8 33 73 C Fully Exposed 0.9 1.1 II 1.0 51 30 No Figure 7-2b 1.00 51 JOB NO.: U2634-0021-181 SUBJECT: LOAD COMPARISON PROJECT: Phillips Residence HOUSE Summary of Loads Existing With PV Array D [psf] 7 10 Lr [psf] 20 0 S [psf] 51 51 Maximum Gravity Loads: Existing With PV Array D + Lr [psf] 27 10 ASCE 7-10, Section 2.4.1 D + S [psf] 57 60 ASCE 7-10, Section 2.4.1 Maximum Gravity Load [psf]: 57 60 Maximum Member Forces: LOCATION GEOMETRY Span(ft)18.5 (Approximate) Solar Panel Array Start, a (ft)0.0 (Approximate) Solar Panel Array Length, b (ft)14.3 (Approximate) Truss/Rafter Spacing (ft)2.0 MEMBER FORCES Existing With PV Array Vertical Reaction, V1 (lbs) 1058 1110 OK Vertical Reaction, V2 (lbs) 1058 1091 OK Moment @ Center, M (lbs-ft) 4891 5121 OK The member forces in the area of the solar array are not increased by more than 5%; thus, the stresses of the structural elements are not increased by more than 5%. Therefore, the requirements of Section 807.4 of the 2015 IEBC are met and the structure is permitted to remain unaltered. Ratio House 105% 105% 103% JOB NO.: U2634-0021-181 SUBJECT: LOAD COMPARISON PROJECT: Phillips Residence GARAGE Summary of Loads Existing With PV Array D [psf] 7 10 Lr [psf] 20 0 S [psf] 51 51 Maximum Gravity Loads: Existing With PV Array D + Lr [psf] 27 10 ASCE 7-10, Section 2.4.1 D + S [psf] 57 60 ASCE 7-10, Section 2.4.1 Maximum Gravity Load [psf]: 57 60 Maximum Member Forces: LOCATION GEOMETRY Span(ft) 14.3 (Approximate) Solar Panel Array Start, a (ft) 3.0 (Approximate) Solar Panel Array Length, b (ft) 11.0 (Approximate) Truss/Rafter Spacing (ft) 2.0 MEMBER FORCES Existing With PV Array Vertical Reaction, V1 (lbs) 815 841 OK Vertical Reaction, V2 (lbs) 815 854 OK Moment @ Center, M (lbs-ft) 2902 3041 OK The member forces in the area of the solar array are not increased by more than 5%; thus, the stresses of the structural elements are not increased by more than 5%. Therefore, the requirements of Section 807.4 of the 2015 IEBC are met and the structure is permitted to remain unaltered. House Ratio 103% 105% 105% VECTOR STRUCTURAL ENGINEERS JOB NO.: U2634-0021-181 SUBJECT: SOLAR LAYOUT PROJECT: Phillips Residence Garage roof House roof Single Phase Inverters for North America SE3000H-US / SE3800H-US / SE5000H-US / SE6000H-US / SE7600H-US / SE10000H-US INVERTERSwww.solaredge.usUSA-CANADA-GERMANY-UK-ITALY-THE NETHERLANDS-JAPAN-CHINA-AUSTRALIA-ISRAEL-FRANCE-BELGIUM-TURKEY-INDIA-BULGARIA-ROMANIA-HUNGARY-SWEDEN- SOUTH AFRICA-POLAND-CZECH REPUBLIC 12-25 Optimized installation with HD-Wave technology Specifically designed to work with power optmizers Record-breaking efficiency Fixed voltage inverter for longer strings Integrated arc fault protecton and rapid shutdown for NEC 2014 and 2017, per artcle 690.11 and 690.12 UL1741 SA certfied, for CPUC Rule 21 grid compliance Extremely small High reliability without any electrolytc capacitors Built-in module-level monitoring Outdoor and indoor installaton Optonal: Revenue grade data, ANSI C12.20 Class 0.5 (0.5% accuracy) Single Phase Inverters for North America SE3000H-US / SE3800H-US / SE5000H-US / SE6000H-US/ SE7600H-US / SE10000H-US SE3000H-US SE3800H-US SE5000H-US SE6000H-US SE7600H-US SE10000H-US OUTPUT Rated AC Power Output 3000 3800 5000 6000 7600 10000 VA Max. AC Power Output 3000 3800 5000 6000 7600 10000 VA AC Output Voltage Min.-Nom.- Max. (211 - 240 - 264)3 3 3 3 3 3 Vac AC Frequency (Nominal) 59.3 - 60 - 60.5(1) Hz Maximum Contnuous Output Current@240V 12.5 16 21 25 32 42 A GFDI Threshold 1 A Utlity Monitoring, Islanding Protecton, Country Configurable Thresholds Yes INPUT Maximum DC Power 4650 5900 7750 9300 11800 15500 W Transformer-less, Ungrounded Yes Maximum Input Voltage 480 Vdc Nominal DC Input Voltage 380 400 Vdc Maximum Input Current@240V 8.5 10.5 13.5 16.5 20 27 Adc Max. Input Short Circuit Current 45 Adc Reverse-Polarity Protecton Yes Ground-Fault Isolaton Detecton 600k Sensitvity Maximum Inverter Efficiency 99 99.2 % CEC Weighted Efficiency 99 % Nightme Power Consumpton < 2.5 W ADDITIONAL FEATURES Supported Communicaton Interfaces RS485, Ethernet, ZigBee (optonal), Cellular (optonal) Revenue Grade Data, ANSI C12.20 Optonal(2) Rapid Shutdown - NEC 2014 and 2017 690.12 Automatc Rapid Shutdown upon AC Grid Disconnect STANDARD COMPLIANCE Safety UL1741, UL1741 SA, UL1699B, CSA C22.2, Canadian AFCI according to T.I.L. M-07 Grid Connecton Standards IEEE1547, Rule 21, Rule 14 (HI) Emissions FCC Part 15 Class B INSTALLATION SPECIFICATIONS AC Output Conduit Size / AWG Range 3/4” minimum / 20-4 AWG 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 22 / 10 25.1 / 11.4 26.2 / 11.9 38.8 / 17.6 lb / kg Noise < 25 <50 dBA Cooling Natural Convecton Natural convecton Operatng Temperature Range -13 to +140 / -25 to +60(3) (-40˚F / -40˚C opton)(4) ˚F / ˚C Protecton Ratng NEMA 3R (Inverter with Safety Switch) (1) For other regional setngs please contact SolarEdge support(2) Revenue grade inverter P/N: SExxxxH-US000NNC2(3) For power de-ratng informaton refer to: htps://www.solaredge.com/sites/default/files/se-temperature-deratng-note-na.pdf(4) -40 version P/N: SExxxxH-US000NNU4 © 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: 03/2018/V01/ENG NAM. Subject to change without notice. Introducing SOLKLAMP Ground Bolt These bolts are designed for solar module grounding applications using solid copper uninsulated 6 AWG to 12 AWG wire. The grounding assembly consists of a wire bolt (wire slot on one end and threaded post on the other), wire binding hex nut, and mounting hex washer nut. The grounding assembly is used with metal–framed photovoltaic (solar) panels and related products that require grounding for safety reasons. Tyco Electronics Technical Support Center USA: +1 (800) 522-6752 Canada: +1 (905) 470-4425 Central America & Mexico +52 (0) 55-1106-0814 South America: +55 (0) 11-2103-6000 Germany: +49 (0) 6251-133-1999 UK: +44 (0) 800-267666 France: +33 (0) 1-3420-8686 Netherlands: +31 (0) 73-6246-999 China: +86 (0) 400-820-6015 Tyco Electronics Corporation Harrisburg, PA www.tycoelectronics.com © 2010 Tyco Electronics Corporation. All Rights Reserved. 8-1773454-6 CIS 3M FP 04/2010 SOLKLAMP, TE (logo) and Tyco Electronics are trademarks of the Tyco Electronics group of companies and its licensors. Other products, logos, and Company names mentioned herein may be trademarks of their respective owners. APPLICATIONS Solar panels and related photovoltaic products require grounding per the National Electric Code (NEC Article 690.34). These applications include, but are not limited to electrical grounding of solar modules and solar roof tiles. ELECTRICAL Short Term Current Test (UL 467) : 6 AWG = 1530A (6 seconds), 8 AWG = 1180A (4 seconds) 10 AWG = 750A (4 seconds), 12 AWG = 470A (4 seconds) MECHANICAL Secureness Test (UL 486A-B) : 6 AWG = 18 lbs (30 minutes), 8 AWG = 8 lbs (30 minutes) 10 AWG = 5lbs (30 minutes), 12 AWG = 5 lbs (30 minutes) Pull out Test (UL 486A-B) : 6 AWG = 100 lbs (1 minute), 8 AWG = 90 lbs (1 minute) 10AWG = 80 lbs (1 minute), 12 AWG = 70 lbs (1 minute) MATERIALS Connector and Hardware : Stainless Steel (Passivated) PRODUCT OFFERING APPLICATION TOOLING Hex socket wrench or wrenches SOLKLAMP Ground Bolt Bottom ViewTop View Side View Edge feature PART NUMBER THREAD DIM “A” 2058729-1 #8-32 UNC .380 2106831-1 #10-32 UNF .700 While Tyco Electronics has made every reasonable effort to ensure the accuracy of the information in this catalog, Tyco Electronics does not guarantee that it is error-free, nor does Tyco Electronics make any other representation, warranty or guarantee that the information is accurate, correct, reliable or current. Tyco Electronics reserves the right to make any adjustments to the information contained herein at any time without notice. Tyco Electronics expressly disclaims all implied warranties regarding the information contained herein, including, but not limited to, any implied warranties of merchantability or fitness for a particular purpose. The dimensions in this catalog are for reference purposes only and are subject to change without notice. Specifications are subject to change without notice. Consult Tyco Electronics for the latest dimensions and design specifications. KEY FEATURES Rugged and compact• hex bolt design made from stainless steel. Quick and easy mounting• procedures. Bottom edge feature cuts• through the annodized aluminum surface when securing the hex bolt to the module frame. Standard tooling can be• used with the hex nuts.