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Related Manuals for JinkoSolar MM365-60HLM-MBV (BFR)
Summary of Contents for JinkoSolar MM365-60HLM-MBV (BFR)
- Page 1 JinkoSolar Photovoltaic Module Installation Manual...
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Page 2: Table Of Contents
Contents General Information 1.1 Overview 1.2 Warnings 2. Installation 2.1 Installation Safety 2.2 Installation Condition 2.2.1 Climate Condition 2.2.2 Site Selection 2.2.3 Tilt Angle Selection 2.3 Mechanical Installation Introduction 2.3.1 Mounting with Bolts 2.3.2 Mounting with Clamps 3 Wiring and Connections Maintenance and Care 4.1 Visual Inspection 4.2 Cleaning... -
Page 3: General Information
1. General Information 1.1 Overview Thanks for choosing Jinko Solar PV modules. In order to ensure the PV modules are installed correctly, please read the following installation instructions carefully before modules are installed and used. Please remember that these products generate electricity and certain safety measures need to be taken to avoid danger. - Page 4 All instructions should be read and understood before attempting to install, wire, operate and maintain the module. Don’t lift up PV modules using the attached cables or the junction box. Do not touch live terminals with bare hands. Use insulated tools for electrical connections. ...
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Page 5: Installation
Do not disconnect any of the modules when under load. When looking at PV modules with anti-reflection (AR) coating technology, it will be normal to see some cells with a slight color difference at different angles. Modules with LRF(light reflective film) and without LRF should not be built in the same array or roof. -
Page 6: Installation Condition
done in a way to avoid the connector from scratching or impacting the back sheet of the module. Do not touch the junction box and the end of the interconnect cables (connectors) with bare hands during installation or under sunlight, regardless if the PV module is connected to or disconnected from the system. -
Page 7: Tilt Angle Selection
guidelines concerning installation, operation and maintenance recommendations. In general, the battery (or battery bank) should be away from the main flow of people and animal traffic. Select a battery site that is protected from sunlight, rain, snow, debris, and is well ventilated. Most batteries generate hydrogen gas when charging, which can be explosive. -
Page 8: Mounting With Bolts
refer to the mentioned module type in this manual) and negative (or upward) pressure of 1600Pa. This design load was then tested with a safety factor of 1.5 times. So Jinko modules are tested under a maximum downward pressure of 5400Pa and upward pressure of 2400Pa. When mounting modules in snow-prone or high-wind environments, special care should be taken to mount the modules in a manner that provides sufficient design strength while meeting local code requirements. - Page 9 Max. Design Pressure: 3600Pa Max. Design Pressure: 3600Pa (positive ) &1600Pa (negative) (positive ) &1600Pa (negative) Module type mechanical load mechanical load Module dimensions(mm) Height of the frame(mm) Group 1 1650*992 & 1665*1002 Group 2 1665*992 & 1684*1002 Group 3 1650*992 &...
- Page 10 2.3.1.2 Mounting with Bolts(four mounting holes) Figure 3: PV module installed with bolt fitting method(four mounting holes) Max. Design Pressure: 3600Pa (positive ) &1600Pa (negative) mechanical load Module type Module dimensions(mm) Height of the frame(mm) Group 1 1650*992 & 1665*1002 Group 2 1665*992 &...
- Page 11 Note: The installation method of bolt fitting (four mounting holes) is based on the internal results in Jinko. According to IEC 61215 for a maximum positive design loading of below 3600Pa, and negative design loading 1600Pa, with 1.5 times safety factor. 2.3.1.3 Mounting with Bolts(Nextracker four mounting holes)...
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Page 12: Mounting With Clamps
2.3.2 Mounting with clamps The module clamps should not come into contact with the front glass and must not deform the frame. Be sure to avoid shadowing effects from the module clamps. The module frame is not to be modified under any circumstances. - Page 13 Clamp type Dimension(mm) Composition material End Clamp 39 x 50 x 42 (40 mm thickness) 39 x 60 x 42(For 1.5mm thickness frame) End Clamp 41.5 x 50 x 40 (35 mm thickness) End Clamp 41.5 x 50 x 35 (30 mm thickness) 42 x 50 x 28 Aluminum-alloy...
- Page 14 3600Pa (positive ) 3600Pa (positive ) Max. Design Pressure: &1600Pa (negative) &1600Pa (negative) mechanical load mechanical load Module type Module dimensions(mm) Height of the frame(mm) Group 1 1650*992 & 1665*1002 Group 2 1665*992 & 1684*1002 Group 3 1650*992 & 1665*1002 L/4±...
- Page 15 2.3.2.2 Clamp Mounting on Short Sides of the Frames Figure 7: Installation of clamps on short side of frames 1067Pa (positive ) 1067Pa (positive ) Max. Design Pressure: &1067Pa (negative) &1067Pa (negative) Module type mechanical load mechanical load Module dimensions(mm) Height of the frame(mm)...
- Page 16 2.3.2.3 Clamp Mounting on Long & Short Sides Figure 8: Installation methods of clamps on long and short sides Max. Design 1600Pa (positive ) &1600Pa 1600Pa (positive ) &1600Pa (negative) Pressure: (negative) mechanical load mechanical load Module type Module dimensions(mm) Height of the frame(mm)...
- Page 17 1987*992 & Group 10 2008*1002 & 2031*1008 Height of the frame(mm) 1840*998 & Group 12 1841*1002 L/4± 50mm( L is 1868*1008 & the length of the Group 14 1865*1005 long side of the 1840*998 & module) Group 16 1841*1002 Height of the frame(mm) 2163*995 &...
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Page 18: Wiring And Connections
3600Pa (positive ) Max. Design Pressure: &1600Pa (negative) Module type mechanical load Module dimensions(mm) Height of the frame(mm) 2194*1008 & 2190*1005 Group 13 Table 8: Mechanical dimensions when modules installed at long side with Clamp fitting method According to IEC 61215 for a maximum positive design loading of below 3600Pa, and negative design loading 1600Pa, with 1.5 times safety factor. - Page 19 Figure 10:Ground installation of PV modules f) Follow the requirements of applicable local and national electrical codes. g) These modules contain factory installed by pass diode .If these modules are incorrectly connected to each other, the bypass diodes, cable or junction box may be damaged. h) The cable of the junction box is defined as L, as showed below in Figure 11.
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Page 20: Maintenance And Care
Figure 11 (2): The half–cut module/SWAN bifacial module junction box i) It is recommend to use negatively grounded inverters to avoid the PID effect for non-PID free modules. j) If modules are connected in series, the total voltage is equal to the sum of individual voltages. The recommended as below, System voltage≥N*Voc[1+TCVoc* (Tmin-25)] Where... -
Page 21: Inspection Of Connector And Cable
c) In order to reduce the potential for electrical and thermal shock, Jinko recommends cleaning PV modules during early morning or late afternoon hours when solar radiation is low and the modules are cooler, especially in regions with hotter temperatures. d) Never attempt to clean a PV module with broken glass or other signs of exposed wiring, as this presents a shock hazard. -
Page 22: Appendix1: Applicable Products
Appendix 1: Applicable Products This document is applicable to the series of solar modules as listed below: With 6” poly and mono c-Si: Group 1 MMxxx-60LA-MB MMxxx-60LA-AB SMMxxx-60LA-MB-TI SMMxxx-60LA-AB-TI MMxxx-60LA-ABV MMxxx-60LA-MBV SMMxxx-60LA-MBV-TI SMMxxx-60LA-ABV-TI (xxx =270~340,in increment of 5) Group 2 MMxxx-60HLA-MB MMxxx-60HLA-AB SMMxxx-60HLA-MB-TI... - Page 23 MMxxx-72HLA-BBV MMxxx-72HLA-BB (xxx =375~425,in increment of 5) Group 11 MMxxx-78HLA-MB MMxxx-78HLA-MBV SMMxxx-78HLA-MB-TI SMMxxx-78HLA-MBV-TI (xxx =405-445,in increment of 5) Group 12 MMxxx-66HLA-MB MMxxx-66HLA-MBV SMMxxx-66HLA-MB-TI SMMxxx-66HLA-MBV-TI (xxx =340-375,in increment of 5) Group 13 MMxxx-78HLA-BBV (xxx =405-455,in increment of 5) Group 14 MMxxx-66HLA-BBV (xxx =340-385,in increment of 5) Group 15 MMxxx-78HLA-AB...
- Page 24 MX3: Module with Z8S Junction Box AB/ABV: Black backsheet series module TI: module with RSD Junction Box LD: 182 large cell series module LM: 166 large cell series module -22-...
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Page 25: Appendix2:Electrical Specifications
Appendix 2:Electrical Specifications Maximu Rated Max. Rated Max. Maximum Maximum Open- Short- m Power output output Module Power Power circuit circuit at STC voltage current Type Voltage(V Current(Im Voltage( Current(I (Pmax, (Optimized) (Optimized mp,V) p, A) Voc,V) sc,A) [V]: ) [A]: 31.4 8.60 38.4... - Page 26 31.4 8.60 38.4 9.29 33.6 12.0 31.6 8.71 38.5 9.40 33.6 12.0 31.8 8.81 38.6 9.51 33.6 12.0 32.0 8.91 38.7 9.63 33.6 12.0 32.2 9.02 39.5 9.76 33.6 12.0 32.4 9.11 39.7 9.88 33.6 12.0 32.6 9.21 40.1 9.98 33.6 12.0 Group 3...
- Page 27 42.9 9.80 50.9 10.88 43.2 9.85 51.2 10.94 34.36 8.44 44.50 8.87 34.63 8.52 44.60 8.93 34.89 8.60 44.80 9.01 35.14 8.68 45.00 9.08 35.43 8.75 45.20 9.15 35.68 8.83 45.40 9.21 35.96 8.90 45.60 9.28 36.20 8.98 45.80 9.37 36.47 9.05 46.00...
- Page 28 39.83 9.92 48.26 10.23 40.01 10.00 48.35 10.32 40.19 10.08 48.45 10.42 40.38 10.16 48.56 10.51 40.50 10.25 48.64 10.61 40.65 10.33 48.74 10.70 40.80 10.42 48.84 10.80 42.91 9.44 51.07 10.20 43.03 9.53 51.16 10.27 43.10 9.63 51.25 10.34 43.17 9.73 51.34...
- Page 29 44.14 10.31 52.20 10.96 36.72 9.26 43.56 10.12 36.82 9.37 43.64 10.20 36.92 9.48 43.67 10.28 37.02 9.59 43.71 10.36 37.12 9.70 43.75 10.44 Group 14 37.21 9.81 43.83 10.52 37.30 9.92 43.92 10.60 37.39 10.03 44.00 10.68 37.48 10.14 44.11 10.76 37.57...
- Page 30 40.18 12.57 48.86 13.36 40.26 12.67 48.94 13.43 40.33 12.77 49.02 13.50 40.41 12.87 49.10 13.57 40.48 12.97 49.18 13.64 40.56 13.07 49.26 13.71 40.63 13.17 49.34 13.79 40.70 13.27 49.42 13.85 40.17 10.46 48.07 11.11 40.37 10.53 48.27 11.18 40.57 10.60 48.47...
- Page 31 Note ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ ___________________________________________________________________________ -29-...
- Page 32 Zhejiang Province, China 314416 Tel: +86 21 5183 8777 Tel:+86 793 858 8188 Tel: +86 573 8798 5678 Fax: +86 21 5180 8600 Fax:+86 793 846 1152 Fax: +86 573 8787 1070 www.jinkosolar.com | Technic Support: technic@jinkosolar.com | After-sales: cs@jinkosolar.com...