SUNOVA SOLAR 202304001 Photovoltaic Module Installation Guide

June 13, 2024
SUNOVA SOLAR

SUNOVA-SOLAR-logo

SUNOVA SOLAR 202304001 Photovoltaic Module

SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-1

Product Information

The Sunova Photovoltaic Module is a bifacial dual-glass module manufactured by Sunova Solar Ltd. This module is designed for solar power generation and is suitable for installation in photovoltaic systems. The module consists of double glass panels with half-cut 182mm monocrystalline silicon solar cells. It is available in the following configurations:

  • 144 cells: SS-BGxxx-72MDH (xxx=530-550, in steps of 5)

Product Usage Instructions

Before installing, wiring, operating, or maintaining the Sunova Photovoltaic Module, it is important to read and understand the safety precautions outlined below:

Safety Precautions

  1. WARNING: Direct current (DC) is generated when the module’s surface is exposed to direct sunlight or other light sources. Do not make direct contact with live parts of the module, such as terminals, as it may result in personal injury or death.
  2. GENERAL SAFETY: All installation work must comply with local codes and relevant international electrical standards. It is recommended that the installation of PV modules is carried out by personnel with experience in PV system installation. Operation by inexperienced personnel may be dangerous.
  3. HANDLING SAFETY: Avoid standing, walking, or leaning directly on the module. Do not loosen or unscrew the PV module bolts, as it may reduce the module’s load rating and cause potential damage.

Follow these instructions for proper usage of the Sunova Photovoltaic Module:

  1. Ensure that only professional personnel with specialized skills carry out the installation, operation, and maintenance of the modules.
  2. Read and understand the Safety and Installation Instructions provided in the user manual before using and operating the modules.
  3. Inform the end customer or consumer about the safety instructions and requirements mentioned in the manual.
  4. Keep the user manual for future reference.
  5. Do not allow unauthorized persons to access the installation area or module storage area.
  6. Do not install modules with damaged glass.
  7. Do not disassemble or move any part of the module.
  8. Avoid artificially focusing light on the module.
  9. Do not connect or disconnect the module when it is energized or connected with an external power supply.
    By following these instructions and safety precautions, you can ensure safe and efficient usage of the Sunova Photovoltaic Module.

INTRODUCTION FOR USER MANUAL

  • This Manual applies to the installation, maintenanceanduseof the bifacial solar modules manufactured by SunovaSolarLtd. (hereinafter referred to as “Sunova Solar”). Failure to follow these safety instructions could result in personal injuryor property damage.
  • Installation and operation of solar modules require specialized skills, and only professional personnel can engage in the work. Please read the “Safety and Installation Instructions” carefully before using and operating the modules. The installer must inform the end customer (or consumer) of the above matters accordingly. The term “Module” or “PV Module” in this Manual refers to one or more bifacial solar modules. Please keep this Manual
    for future reference.

DISCLAIMER

Sunova Solar reserves the rights to change this installation manual without prior notice. Failure of the customer to follow the requirements outlined in this Manual during the installation of the module will result in the invalidity of limited warranty.

LIMITATION OF LIABILITY
Sunova Solar is not responsible for any form of damage, including but not limited to module operation and system installation error, and personnel injury, hurt, and property loss resulting from failure to follow the instructions in this Manual.

APPLICABLE PRODUCTS
This document is applicable to the series of PVmodulesaslisted below:

  • Double Glass PV Modules with Half-cut 182mmMono-crystalline Silicon Solar Cells:
    • 144 cells: SS-BGxxx-72MDH (xxx=530-550, in steps of 5)
    • 132 cells: SS-BGxxx-66MDH (xxx=485-505, in steps of 5)
    • 120 cells: SS-BGxxx-60MDH (xxx=440-455, in steps of 5)
    • 108 cells: SS-BGxxx-54MDH (xxx=400-410, in steps of 5)
  • Double Glass PV Modules with Half-cut 182mmTOPconMonocrystalline Silicon Solar Cells:156 cells: SS-BGxxx-78MDH(T) (xxx=580-615, in steps of 5)
    • 144 cells: SS-BGxxx-72MDH(T) (xxx=535-590, in steps of 5)
    • 132 cells: SS-BGxxx-66MDH(T) (xxx=490-540, in steps of 5)
    • 120 cells: SS-BGxxx-60MDH(T) (xxx=445-490, in steps of 5)
    • 108 cells: SS-BGxxx-54MDH(T) (xxx=400-440, in steps of 5)

SAFETY PRECAUTIONS

WARNING
Before installing, wiring, operating, or maintaining SunovaSolar modules, you should read and understand all safety precautions. Direct current (DC) is generated when the cells surface of the module is exposed to direct sunlight or other light sources, and direct contact with the live parts of the module, such as terminals, may result in death of personnel whether connected to the module or not.

GENERAL SAFETY
All installation work must comply with the local codes and the relevant international electrical standards. Sunova Solar recommends that PV module installation is conducted by personnel with experience in PV system installation. Operation by personnel who are not familiar with the relevant safety procedures will be very dangerous.

  • Do NOT allow unauthorized persons to access the installation area or module storage area.
  • Do NOT install modules with damaged glass
  • Do NOT disassemble or move any part of the module.
  • Do NOT artificially focus light on the module.
  • Do NOT connect or disconnect the module when it is energized or connected with an external power supply.

HANDLING SAFETY

  • Do NOT stand, walk on or lean on the module directly.SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-2
  • Do NOT damage or scratch the front or backside surfaces of the module.
  • Do NOT scratch the output cable or bend it with force.
  • The insulation of output cable can break and may result in electricity leakage or shock.
  • Do NOT use water to extinguish fires of an electrical origin. Do NOT install or handle modules when they are wet or during periods of high wind.
  • At the installation site, take care to keep modules and in particular their electrical contacts, clean and dry before installation. If connector cables are left in damp conditions, then the contacts may corrode. Any module with corroded contacts should not be used.
  • Please do NOT loosen or unscrew the PV module bolts.
  • This may lead to a reduction of the module’s load rating and potential damage from a fall.
  • Do NOT drop PV modules or allow objects to fall down on the PV modules. Do NOT touch the terminal box or the ends of the output cables (connectors) with bare hands under sunlight, regardless of whether the PV module is connected to or disconnected from the system.

UNLOAD / TRANSPORTATION / STORAGE

Precautions and general safety rules

  • The modules should be stored in the original Sunova Solar package before installation. Protect the package from damage.
  • Unpack the modules as per the recommended unpacking procedures.
  • The whole process of unpacking, transport and storing should be handled with care;
  • Do NOT stand, climb, walk or jump on unpacked pallets of modules;
  • Before installation, ensure that all modules and electrical contacts are clean and dry;
  • If the modules are required to be stored temporarily, they should be stored under dry and ventilated conditions;
  • Unpacking must be carried out by two or more persons the same time. It is forbidden to use the wires or junction boxes of the modules to carry the modules. Handling the modules requires two or more people with non-slip gloves; Do NOT handle the modules over-head or stack the modules;
  • Do NOT put the modules in a place that is not supported unstable;
  • Do NOT allow the modules to come in contact with sharp-pointed objectives to prevent them from scratches, avoiding adirect impact on the safety of modules.

HANDLING SAFETY

SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-3

UNLOADING WARNING

  1. Use the correct (as picture) lifting fixture to handle, no more than 2 pallets per lift. Before lifting, please confirm the tray and the carton are NOT damaged and the hoisting rope is firm and solid. Before lowering the carton back on the ground, two persons must support the two sides of the carton gently to put it on a relatively flat place.

  2. If the condition permits, use a forklift to remove the module pallets from the truck
    Put the modules on level ground

  3. Storage the module in a dry and ventilated place.

  4. Do Not stack the modules at the project site.

  5. Cover all of parts of the package with waterproof material to prevent the panel package and plate from moisture.

SECONDARY TRANSPORT AND WARNING

  1. Do NOT remove the original packaging if the modules require long-distance transport or long-term storage.
  2. The finished package can be transported by land, sea or air. During transport, make sure that the package is fixed with packing straps securely to the shipping platform without movement.
  3. Transport: Do Not Stack more than two layers on truck.
  4. Only one-layer stacking is only allowed for small truck. Make sure that the package is fixed with packing straps securely to the shipping platform without movement.
  5. Only one-layer stacking is only allowed for transport at the project site.
  6. No transport or handling by pedi-cabas shown below.
  7. Do Not transport the modules with rope as shown below:
  8. Do Not carry the modules on the back of one person as shown below:

STORAGE

  • Long-term storage in a warehouse
  • Do NOT remove the original packaging if the modul requires long-distance transport or long-term storage.
  • Do NOT expose the modules to rain or moisture. Store the finished product in a well-ventilated, waterproof, dry and smooth place.
  • Storage: Do Not Stack more than 2 layers (moisture<85%, temperature range from -20°C to + 50 °C) Storage project site:
  • The module must be installed as soon as possible in the project site and must not be exposed to rain or damp. Sunova Solar shall not be responsible for any damage or collapse of the modules caused by moisture in the packaging.

UNPACKING INTRODUCTION

UNPACKING SAFETY

  • For unpacking outdoors, it is prohibited to operate in rainy conditions. Because the carton will become soft and damaged after it gets wet in the rain. The stacked PV modules (hereinafter referred to as “modules”) may tip over, which may cause damage or injury to personnel.
  • For a windy site, it is necessary to pay special attention to safety. Especially, it is NOT recommended to transport the modules in high wind conditions. The unpacked modules must be tied down to avoid any unwanted movement.
  • The work surface is required to be level to ensure that the package can be placed stably, avoiding sliding.
  • Wear protective gloves during unpacking to avoid hand injury and fingerprints on the glass surface. Module information and unpacking instructions can be found on the outside of each package. Please read the instructions before unpacking.
  • Each module shall be handled by two persons. It is forbidden to use the wires or junction boxes of the modules to carry the module. Do Not take the module out of the carton by pulling on the long side frame.

UNPACKING STEP of FRAMED DUAL-GLASSMODULESERIES

  1. Put the carton box on a level surface. Cutting the packing belts with blade or scissor.
  2. Taking away 4 plywood protectors.
  3. Taking down the upper carton box. Before unpacking, please check the product name, serial number and related suggestions on the A4 paper. Please read the unpacking instructions carefully. NO other customized unpacking method is  allowed.
  4. Cut the two packing belts at shorter sides of the tray with blade or scissors, and unpack the side surface of the carton along the vertical direction.
  5. Cut the tape at shorter edge and hold it up by 90° from the bottom; and pull out the cardboard to expose the modules.
  6. Cut the two horizontal packing belts in the carton and cut the two packing belts near the bottom of the tray, and remove the packing belts.
  7. When unpacking on a level surface, take out the module from one side of package to the other, and then carry it with two persons (Please refer to 3.1.8) When unpacking on a sloping surface, please protect the modules from tipping over or sliding. As shown below.
  8. Do NOT lean the module on the mounting posts
  9. If all the modules are NOT removed after unpacking and some of them are left in the package, the remaining modules shall be laid flat and repackaged to prevent from falling down. Must be placed by horizontal. The stacked number of modules: Stacked NOMOREthan 16 pieces.

INSTALLATION

INSTALLATION SAFETY

  • Sunova Solar Modules can be mounted in landscape or portrait orientation however the impact of dirt shading the solar cells can be minimized by orienting the product in the landscape.
  • Always wear dry insulation protection equipment: insulated tools, headgear, insulated gloves, safety belt and safety shoes (with rubber soles).
  • Do NOT wear metallic jewelry which can cause electric shock during installation.
  • Do NOT install modules under rain, snow or windy conditions.
  • Please keep the connector dry and clean during installation to avoid the risk of electric shock. It is recommended to install it immediately after unpacking.
  • Due to the risk of electrical shock, do NOT perform any work if the terminals of PV module are wet.
  • Please install it immediately after unpacking.
  • Our module application class is class A, which may be used in systems operating at greater than 50V DC or 240W, where general contact access is anticipated.
  • PV modules qualified for safety through this part of IEC 61730 and IEC61730-2 and within this application, class are considered to meet the requirements for safety class II. Keep the PV module packed in the Sunova Solar carton until installation. Please use an opaque material to completely cover the PV module surface during PV module installation and wiring.
  • Do NOT unplug the connector if the system circuit is connected to a load.
  • Do NOT stand on the module glass while installing. There is a risk of injury or electric shock if glass is broken.
  • Do NOT work alone (always work as a team of 2or more people).
  • Do NOT damage the back glass of PV module when fastening the PV modules to a support with bolts.
  • Do NOT damage the surrounding PV modules or mounting structure when replacing a PV module. Cables shall be located and secured so that they will not be exposed to direct sunlight after installation to prevent degradation of cables. Low drooping of cables from the terminal box must be avoided.
  • Low-hanging cables could cause various problems such as animal biting, electricity leakage in water, and fire. Modules with different color codes are not recommended to be installed in one block or the same rooftop.
INSTALLATION METHOD

MECHANICAL INSTALLATION AND WARNING

  • The connection of the module to the racking system can be created with clamps, with the frame, or an embedded system on the frame. The modules must be installed according to the following examples and recommendations.

  • Panels must not be subjected to wind or snow loads exceeding the maximum permissible loads, and must not be subjected to excessive forces due to the thermal expansion of the support structures.

  • The module frame drain holes cannot be blocked in any situation during installation or use.

  • To maximize mounting longevity, Sunova Solar strongly recommends the use of corrosion-proof (stainless steel) attachment hardware.

  • *Mounting with Bolts 4-φ914mm mounting holes**

    • Modules can be attached using the mounting holes4-φ9*14mm on the back of the module frame, by fixing the module to the support rails with bolts.
    • The mounting details are shown in the following figures.
    • The frame of each module has 4-φ914mm mounting holes, ideally placed to optimize the load handling capability, to secure the modules to the supporting structure. Installation holes of 4-φ914 mm are used for installation, as shown in Figure 4.
    • To maximize mounting longevity, Sunova Solar strongly recommends the use of corrosion-proof (stainless steel) attachment fixings.
    • Secure the module in each mounting location with an M8bolt and a flat washer, spring washer and nut and tighten to a torque of 16~20 N.m (140-180lbf.in.).
    • All parts in contact with the modules should use flat stainless-steel washers of minimum 1.5mm thickness with an outer diameter of 20-24mm (0.79-0.94in).SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-27
    1. aluminum frame
    2. M8 stainless bolt
    3. flat stainless washer
    4. spring stainless washer
    5. hex stainless nutSUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-28
  • Mounting with Clamps

    • Sunova Solar has tested its modules with a number of clamps from different manufacturers, with a mounting bolt of at least M8. The length of clamp ≥60mm (2.36in), thickness≥3mm(0.12in), Material: 6005 T5 / T6 (Rm≥255 MPa, Rp0.2≥230MPa).

    • The clamp must overlap the module frame by at least 7mm(0.28in) but no more than 10mm (0.39in). Use at minimum 4 clamps to attach modules to the mounting rails.

    • Modules clamps should not come into contact with the front glass and must not deform the frame. Be sure to avoid shadowing effects on the solar cells from the module clamps.

    • The module frame is not to be modified under any circumstances.

    • When choosing this type of clamp-mounting method, use at least four clamps on each module, two clamps should be attached on each long sides of the module (for portrait orientation) Depending on local wind and snow loads, additional clamps may be required to ensure that modules can bear the load.

    • Applied torque should refer to mechanical design standard according to the bolt customer is using, ex: M8 —- 16-20N.m(140-180lbf.in).SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-29
      SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-30

    • *Note 1: The above-described distances are from the module edge to the middle of the clamp.

    • *Note 2: Need two or more support rails below the PV module to ensure the mechanical load.

    • If the customer needs a different size of Clamps, it should be fully evaluated and approved by Sunova.

GROUNDING

  • All module frames and mounting racks must be properly grounded in accordance with the appropriate respective National Electrical Code.
  • Proper grounding is achieved by bonding the module frame (s) and all metallic structural members together continuously using a suitable grounding conductor. The grounding conductor or strap may be copper, copper alloy, or any other material acceptable for use as an electrical conductor perspective National Electrical Codes. The grounding conductor must then make a connection to earth using a suitable earth-ground electrode.
  • Sunova Solar modules can be installed with the use of third-party listed grounding devices for grounding the metallic frames of PV modules. The devices have to be installed in accordance with the grounding device specified instructions.
  • Please refer to the “Product Catalogue” link for detailed grounding hole locations and size at http://www.sunova-solar.com
    • Grounding hardware comes in a package that includes the grounding screw, flat washer /star washer and wire
    • Electrical contact is made by penetrating the anodized coating of the aluminum frame, and tightening the mounting screw (come with the star washer) to the proper torque of 25lbf.in.
    • Grounding wire size (6 to 12 AWG solid bare copper) should be selected and installed underneath the wire binding bolt.SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-31
  • Sunova Solar recommends using the following methods to ground modules properly under UL investigation.
  • Method 1: Tyco grounding bolt****  

SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-34

1. Wire bolt and slot
2. Mounting wash hex nut
3. Aluminum frame
4. 0.006 to 0.025 in2 cable
5. Hex Nut
  • Tyco grounding hardware comes in a package that includes the grounding bolt, mounting and grounding hex nut.

  • Electrical contact is made by penetrating the anodized coating of the aluminum frame, and tightening the mounting hex nut (come with the star washer) to the proper torque of 25lbf.in.

  • Grounding wire size (6 to 12 AWG solid bare copper) should be selected and installed underneath the wire binding bolt.

  • The wire binding bolt should be tightened to the proper torque of 45lbf.in.

  • Method 2: Tyco grounding bolt****  

    1. Wire slot (available for 0.006 to 0.025in2 cable)
    2. Slider
    3. Bolt
    4. Base
    5. Nut
  • Tyco grounding hardware comes in a package that includes the grounding bolt, mounting and grounding hex nut.

  • Electrical contact is made by penetrating the anodized coating of the aluminum frame, and tightening the mounting hex nut (come with the star washer) to the proper torque of 25lbf.in.

  • Grounding wire size (6 to 12 AWG solid bare copper) should be selected and installed underneath the wire binding bolt.

  • The wire binding bolt should be tightened to the proper torque of 45lbf.in. The Tyco grounding bolt is only listed for use with 6 to 12 AWG bare solid copper wire.

  • Method 3: ERICO grounding bolt****  

SUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-35

1. Machine Bolt A
2. Machine Bolt B
3. Belleville washer
4. Flat Washer
5. Clearance hole for # 1 0 [ M5 ] machine bolt
6. Aluminum frame
7. Machine box hex nut with lock washer
8. Grounding bolt
  • The lug should be installed on a surface that is larger than the bottom surface of the lug. The lug should be installed in the grounding holes provided on the PV module.
  • Machine bolt A should be torqued to 35lbf.in, to secure the grounding bolt to module frame. The grounding bolt is only listed for use with 6-12 AWG bare solid copper wire. For proper wire binding, machine bolt B should be torqued to 35 lb in.

ELECTRICAL INSTALLATION

  • All wiring should be performed, by qualified installers, in accordance with the local codes and regulations.
  • Modules can be connected in series to increase the operating voltage by plugging the positive plug of one module into the negative socket of the next. Before connecting modules always ensure that the contacts are corrosion-free, clean and dry.
  • Product can be irreparably damaged if an array string is connected in reverse polarity to another. Always verify the voltage and polarity of each individual string before making a parallel connection. If you measure a reversed polarity or a difference of more than 10V between strings then check the string configuration before making the connection.
  • Sunova Solar modules are provided with stranded copper cables with a cross-sectional area of 4mm²(0.006in²) which are UV resistant. All other cables used to connect the DC system should have a similar (or better) specification.  Sunova Solar recommends that all cables are run in appropriate units and sited away from areas prone to water collection.
  • The maximum voltage of the system must be less than the maximum certified voltage and the maximum input voltage of the inverter and of the other electrical devices installed in the system. To ensure that this is the case, the open circuit voltage of the array string needs to be calculated at the lowest expected ambient temperature for the location. This can be done using the following formula. Max System voltage≥NVoc [1 + TCvoc x (Tmin-25)]
  • Where
    • N Number of modules in series
    • Voc Open circuit voltage of each module (refer to product label or datasheet)
    • TCvoc Thermal coefficient of open circuit voltage for the module (refer to data sheet)
    • Tmin The lowest expected operating temperatur of module
  • Each module has two industry-standard 90°C sunlight-resistant output cables, each terminated with plug-and-play connectors. The PV Wire cable and are 12 AWG in size. This cable is suitable for applications where wiring is exposed to direct sunlight. Sunova Solar requires that all wiring and electrical connections comply with the appropriate National Electrical Code.
  • The minimum and maximum outer diameters of the cable are 5 to 7mm (0. 038 to 0.076in2).
  • For field connections, use at least 4mm2 copper wires insulated for a minimum of 90°C and sunlight resistance with insulation designated as PV Wire.
  • The minimum bending radius of the cables must be 43mm(1.69in).

WIRING

  • To ensure proper system operation the correct cable connection polarity (Figures 1 & 2) should be observed when connecting the modules to each other or to a load, such as inverter, a battery etc. If modules were not connected correctly, the bypass diodes could be destroyed. PV modules can be wired in series to increase voltage. A series connection is made when the wire from the positive terminal of one module is connected to the negative terminal of the next module. Figure 1 shows modules connected in series. PV modules can be connected in parallel to increase current (Figure 2). A parallel connection is made when the wire from the positive terminal of one module is connected to the positive terminal on the next module.
  • The number of modules in series and in parallel shall be designed reasonably according to the system configuration.
  • All instructions above have to be obeyed to maintain Sunova Solar limited warrantySUNOVA-SOLAR-202304001-Photovoltaic-Module-fig-36

FUSING

  • When fuses are fitted, they should be rated for the maximum DC voltage and connected in each, non-grounded pole of the array (i.e., if the system is not grounded then fuses should be connected in both the positive and negative poles).
  • The maximum rating of a fuse connected in series with an array string is typically 30A but the actual modules specific rating can be found on the product label and in the product datasheet.
  • This fuse rating value also corresponds to the maximum reverse current that a module can withstand (when one string is shaded then the other parallel strings of modules will be loaded by the shaded string and current will flow) and therefore impacts the number of strings in parallel. Do NOT share a fuse in a Combiner Box with two or more strings in parallel connection.

MODULE MAINTENANCE FOR PV MODULEPV

PANEL VISUAL INSPECTION AND REPLACEMENT

  • The modules in a PV array should be regularly checked for damage. Factors such as glass breakage, cable breakage, and junction box damage may lead to function and safety problems. In the case of a damaged module, replaceit with the same type of module. Refer to the appropriate Installation

  • Manual for installation and disassembly of module.

  • It is recommended to perform a preventive inspection every six months without changing the components of the module. If electrical or mechanical appliances are used for inspection or maintenance, qualified professionals to avoid any electrical shock or loss of life.

  • Trim any vegetation that may shade the solar array, thus impacting performance.

  • Check that mounting hardware is properly tightened.

  • Check that all string fuses in each non/earthed pole are operating.

  • Replacement modules must be of same type. Do NOT touch live parts of cables and connectors. Use appropriate safety equipment (insulated tools, insulating gloves, etc.) when handling modules.

  • Cover the front surface of modules by an opaque material
    when repairing. Modules when exposed to sunlight generate high voltage and are dangerous.

  • Sunova Solar PV modules are equipped with bypass diodes in the junction box. This minimizes module heating and current losses.

    • Do NOT open the junction box to change the diodes if they malfunction.
    • In a system using a battery, blocking diodes are typically placed between the battery and the PV module output to prevent battery discharge at night. In the event that a module is damaged (broken glass or a scratch on back sheet) and needs to be replaced.
    • Observe the safety precautions listed earlier in this Manual • Wear cut-resistant gloves and other personal protective equipment required for the particular installation.
    • Isolate the impacted array string to prevent current flow before attempting to remove the module.
    • Disconnect the connectors of the affected module using the related disconnect tool provided by suppliers.
    • Replace the damaged module with a new functional module of the same type.
    • Check the open circuit voltage of the array string and verify that this is within 10V of the other connected in parallel.
    • Turn the breaker back on.

CONNECTOR AND CABLE INSPECTION

  • Inspect all cables to verify that connections are tight, the cables are protected from direct sunlight and sited away from areas of water collection.
  • It is recommended to check the torque of terminal bolts and the general condition of wiring at least once a year. Also, check that mounting hardware is properly torqued. Loose connections will result in damage to the array
CLEANING
  • The amount of electricity generated by a solar module is proportional to the amount of light falling on it. Amodulewithshaded cells will produce less energy and therefore it is important to keep all PV modules clean.
  • Clean PV modules when the irradiance is below200W/m²; liquid with a large temperature difference from the modules must not be used for cleaning the modules;
  • It is forbidden to clean PV modules under the weather conditions of wind more than 4 grades, heavy rain or heavy snow;
  • When cleaning with pressurized water, the water pressure on the glass surface of the module must not exceed700KPa(14619.80psf); the module must NOT bear the extra force;
  • When cleaning PV modules, do NOT step on the modules; do NOT spray water on the backside of the module or the cables; keep the connectors clean and dry; prevent fire and electrical shock from occurring; do NOT use as steam cleaner;
  • When cleaning the modules, use a soft cloth together with a mild detergent and clean water. Take care to avoid severe thermal shocks which might damage the module by cleaning modules with water that has a similar temperature to the modules being cleaned. Use dry or wet soft clean cloth to clean the PV modules; use of non-corrosive solvents or hard objects are strictly prohibited;
  • If there is greasy dirt and other substances on the surface of the PV module that are difficult to clean, conventional household glass cleaning agents can be used; Do NOT use the alkaline and strong acid solvents.
  • The back surface of the module normally does not need to be cleaned but, in the event, this is deemed necessary, avoid the use of any sharp projects that might damage the penetrating the substrate material.
  • When cleaning the back surface of the module, take care to avoid penetrating the substrate material. Modules that are mounted flat (0° tilt angle) should be cleaned more often, as they will NOT ”self-clean” as effectively as modules mounted at a 10° tilt or greater.
  • If you are unsure whether the array or section thereof needs to be cleaned, first select an array string that is particularly soiled, then
  • Measure & record the inverter feed in current from that string
    • Clean all modules in the string
    • Measure the inverter feed in current again and calculate the % improvement from cleaning
  1. MODULE INSPECTION AFTER CLEANING
    • Ensure that the module under visual inspection is clean, bright and free of stains;
    • Spot check to verify whether there is soot deposit on the module surface;
    • Check to see there are no visible scratches on the surface of the module;
    • Check to see there are no man-made cracks on the module surface;
    • Check to see whether the module support structure is leaning or bent after cleaning;
    • Check to see whether the wiring terminals of the attached;
    • After cleaning PV modules, fill out the PV modulecleaningrecord
  2. TROUBLESHOOTING
    If your installation does not work properly, please inform your installer immediately. It is recommended to perform a preventive inspection every six months without changing the components of the modules. If electrical or mechanical
    properties are required for inspection or maintenance, qualified professionals should be advised to avoid any electric shock or loss of life

Attachment 1: SITE SELECTION AND TILT ANGLE

  • Solar modules are recommended to be installed at an optimized tilt angle to maximize the energy output. It is roughly equal to the latitude of the project site as a rule of thumb, facing toward the equator. Optimized system design must incorporate other local requirements.
  • When installing solar modules on a roof, the roof must be covered with a layer of fireproof material applicable to this class, and adequate ventilation must be ensured between the back sheet and the installation surface. A safe working are also must be left between the edge of the roof and the external edge of the solar array.
  • In the case of residential installations on the ground, modules must be installed following local regulations, e.g., using fence. Position the modules to minimize the chances of shading at all times of the day.
  • Sunova Solar recommends that the module should be installed at a working ambient temperature of -20C~46C. The module’s operating ambient temperature range is from 40C to 85C. Try to install modules in a location where there is throughout the year.
  • If you are planning to use the PV modules where the water damage (Humidity: > 85RH %) may be possible, please consult with Sunova local technical support first to determine an appropriate installation method, or to determine whether installation is possible.
  • If the module is installed in an area with frequent lightning and thunder, the module must be protected against lightning strikes. Please contact with local technical support or contact us from http://www.sunova-solar.com.
  • Make sure flammable gases are NOT generated near the installation site.
  • In locations that are 50m ~ 500mm from the ocean, stainless or aluminum materials must be used to contact thePVmodules, and the installation position must be processed with anti-corrosion treatment; Please contact with local technical support or contact us from http://www.sunova-solar.com.
  • According to the surrounding environment of the project, use the appropriate protective measures to ensure the safety of the module installation and reliable. For example, it needs to have around windproof measures like design of windbreaks in strong wind area.
  • The system design needs to have a lightning protection function, it must pay more attention especially on installation ground where are more lightning strike.
  • The tilt angle measurement of the PV module refers to measuring the angle between the module and the horizontal ground surface. For different projects there are different mounting angles. Sunova Solar recommends that the mounting tilt angle should be NOT less than 10° , or in accordance with local regulations or follow the recommendations of experienced PV module installers. The tilt angle of the PV module is measured between the PV module and a horizontal ground surface. In the Northern Hemisphere, the PV modules should typically face south, and in the Southern Hemisphere, the PV modules should typically face north.
  • A clearance of at least 115mm (4.5in) (recommended) is provided between modules and the surface of the wall or roof. If other mounting means are employed this may affect theULListing or the fire class ratings.

Attachment 2: INVERTER SELECTIONANDCOMPATIBILITY
When installed in systems governed by IEC regulations, Sunova Solar modules normally do not need to be electronically connected to earth and therefore can be operated together with either galvanically isolated(with transformer) and transformerless inverters.

  • Potential Induced Degradation (PID) is sometimes observed in PV modules due to a combination of high humidity, high temperature and high voltage. PIDismost
    likely to cause degradation under the following conditions:

    • Installations in the warm and humid climates
    • Installation close to a source of continual moisture, such as bodies of water
  • To reduce the risk of PID, we strongly suggest that modules feature Sunova Solar Anti-PID technology, which can be applied to any Sunova product. Alternatively, we recommend the use of an inverter that includes a transformer as well as proper grounding of the negative leg of the PV array.

ElECTRICAL PARAMETERS

The electrical properties of the components were measured under standard test condition. In some cases, the component may produce a voltage or current value higher or lower than the rated value.
(Note: the tolerance for Voc is ±3%, for Isc is ±4%andfor Pmp is ±3%)

ABOUT COMPANY

  • Sunova Solar Technology Co., Ltd
  • Add: H building, Standard Plant Phase II, Runzhou Road, Huishan District, Wuxi City, Jiangsu Province, P.R.China,214000
  • E-mail: info@sunova-solar.com
  • Tel: +86 510 8595 9369
  • Web: www.sunova-solar.com

References

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