JA SOLAR Q-JASO-PMO-012 PV Single Glass Modules Instruction Manual

JA SOLAR Q-JASO-PMO-012 PV Single Glass Modules Instruction Manual

Introduction

Thank you for choosing JA SOLAR modules!

This Installation Manual contains essential information for electrical and mechanical installation that you must know before handling and installing JA Solar Modules. This Manual also contains safety information you need to be familiar with. All the information described in this Manual is the intellectual property of JA Solar and is based on the technologies and experience that have been acquired and accumulated by JA Solar. This Manual does not constitute a warranty, expressed or implied. JA Solar does not assume responsibility and expressly disclaims liability for loss, damage, or expense arising out of or in any way connected with installation, operation, use or maintenance of Modules. No responsibility is assumed by JA Solar for any infringement of patents or other rights of third parties that may result from use of Modules. JA Solar reserves the right to make changes to the product, specifications or installation manual without prior notice.

Failure to comply with the requirements listed in this manual will invalidate the Limited Warranty for Modules as provided by JA Solar at the same time of sale to the direct customer. Additional recommendations are provided to enhance safety practices and performance results. Please provide a copy of this manual to the PV system owner for their reference, and inform them of all relevant aspects of safety, operation, and maintenance.

Codes and Regulations

The mechanical and electrical installation of PV systems should be performed in accordance with all applicable codes, including electrical codes, building codes and electric utility interconnection requirements. Such requirements may vary for mounting location. Requirements may also vary with system voltage, and for DC or AC application. Contact local authorities for governing regulations.

General

1. Aluminum Frame
2. Glass
3. .Encapsulating EVA
4. Cell
5. Backsheet
6. Silicone adhesive
7. Junction Box
8. Label
9. Cable
10. Connector
11. Mounting hole
12. Grounding hole
13. Draining hole
14. Cell

Figure 1 Module Structure

Product Identification

Each module has three labels providing the following information:

1. Nameplate: describes the product type; Peak power, Max. power current, Max. power voltage, open circuit voltage, short circuit current, all as measured under standard test conditions; Certifications mark， the maximum system voltage etc.
2. Current Sorting: Modules are sorted out according to their Max. power current, referred as a corresponding symbol “Current class X” attached, in which x takes the value H, M or L(H marks physically the highest current). To get optimal performance out of a string of Modules it is recommended to connect only Modules of the same “Current class X” class (for example only H Modules) in one given string. We recommend the modules with and without LRF should not be installed in a inverter, even if they are the same current class. For the rest of modules with different current classes, the modules with adjacent current class can be installed in one given string.
3. Serial number: each individual module has a unique serial number. The serial number has 16 digits. The 1st and the 2nddigits are the year code, and the 3this the month code (A, B, C stands for October, November and December respectively). For example, 121XXXXXXXXXXXXX means the module was assembled and tested in the January of 2012. Each module has only one bar code. It is permanently attached to the interior of the module and is visible from the top front of the module. This bar code is inserted prior to laminating. In addition, you can find the same barcode beside the nameplate.

Conventional Safety

JA Solar Modules are designed to meet the requirements of IEC 61215 and IEC 61730, application class A. Modules rated for use in this application class may be used in system operating at greater than 50V DC or 240W, where general contact access is anticipated. Modules qualified for safety through IEC 61730-1 and IEC 61730-2 and within this application class are considered to meet the requirements for safety class II equipment.

When Modules are mounted on rooftops, the roof must have a fire resistant covering suitable for this application. Rooftop PV systems should only be installed on rooftops capable of handling the additional weighted load of PV system components, including Modules, and have a complete analysis of the structure performed by a certified building specialist or engineer.

For your safety, do not attempt to work on a rooftop until safety precautions have been identified and taken, including without limitation: fall protection measures, ladders or stairways, and personal protective equipment.

For your safety, do not install or handle Modules under adverse conditions, including without limitation strong or gusty winds, and wet or frosted roof surfaces.

Electrical Performance Safety

Photovoltaic Modules can produce DC electricity when exposed to light and therefore can produce an electrical shock or burn. DC voltage of 30 Volts or higher is potentially lethal.

Modules produce voltage even when not connected to an electrical circuit or load. Please use insulated tools and electrically insulated gloves when working with Modules in sunlight.

Modules have no on/off switch. Modules can be rendered inoperative only by removing them from sunlight, or by fully covering their front surface with cloth, cardboard, or other completely opaque material, or by working with Modules face down on a smooth, flat surface.

In order to avoid arcs and electrical shock, please do not disconnect electrical connections under load.

Faulty connections can also result in arcs and electrical shock. So please keep connectors dry and clean, and ensure that they are in proper working condition. Never insert metal objects into the connector, or modify them in any way in order to secure an electrical connection.

In order to avoid external matter such as sand or water vapour from entering and causing connection safety problems, once the modules are taken out of the packing box and installed, the connectors between the modules need to be connected in time, and the connectors need to be kept dry and clean during the installation process. Before connecting the modules at both ends of the string to the combiner box or inverter, plug the connectors with dust plugs to avoid contamination of the connectors.

Please note that contamin ation from sand, dust and water can cause arcing, electric shock or difficulty in plugging the connectors, etc. We recommend adding connector dust plugs as a temporary protective measure in dusty, saline and polluted areas, and do not recommend long-term use (within 1 month).

Reflection from snow or water can increase sunlight and therefore boost current and power. In addition, colder temperatures can substantially increase voltage and power.

If the glass or other material is damaged, please wear personal protection equipment and separate the module from the circuit.

Work only under dry conditions, and use only dry tools. Do not handle Modules when they are wet unless wearing appropriate protective equipment. If you need to clean the Modules, please follow the cleaning requirements mentioned in the manual.

Installation must be carried out under the guidance of a qualified electrician.

No matter how weather condition is, personnel entering the power station shall wear safety helmet, insulating gloves and insulating shoes correctly, taking self-safety protection measures.

Operating Safety

Do not open the package of JA Solar Modules during transportation and storing until they are ready to be installed.

• At the same time please protect the package against exposure to damage. Secure pallets from falling over.
• Do not exceed the maximum height of pallets to be stacked, as indicated on the pallet packaging.
• Store pallets in a ventilated, rain-proof and dry location until the Modules are ready to be unpacked.
• Please unpack the package of JA Solar Modules according to “JA Solar Modules Un-Pack Instruction”.
• Do not lift the Modules by grasping the Module’s junction box or electrical leads in any condition.
• Do not stand or step on the Modules.
• Do not drop the Modules on another Module.
• Do not place any heavy objects on the Modules to avoid glass breakage.
• Be cautious when setting the Modules down on to a surface, especially on the corner of the Modules.
• Inappropriate transport and installation may break the Modules.
• Do not attempt to disassemble the Modules, and do not remove any attached nameplates or components from the Modules.
• Do not apply paint or adhesive to the Modules top surface.
• To avoid damage to the backsheet, do not scratch or hit the backsheet.
• Do not drill holes in the frame. This may compromise the frame strength and cause corrosion of the frame.
• Do not scratch the anodized coating of the frame (except for grounding connection). It may cause corrosion of the frame or compromise the frame strength.
• Do not attempt to repair the Modules with damaged glass.

The scrapped modules shall be recovered and disposed by the qualified institution.

In dry areas, modules are easily affected by static electricity during installation. So the installation personnel should wear anti-static assembly to ensure that the equipment and installation personnel are not affected or hurt by static electricity.

Fire Safety

Consult your local authority for guidelines and requirements for building or structural fire safety. JA modules have been tested in according with IEC 61730-2 standard. The fire safety of JA modules is Class C.

For roof installations, modules should be mounted over a fire resistant covering suitable for this application, with adequate ventilation between the module backsheet and the mounting surface.

Roof construction and installation may affect the fire safety of the building. Improper installation may create hazards in the event of a fire.

Use appropriate components such as fuses, circuit breakers and grounding connectors as requires by local authority

Do not use Modules where flammable gasses may be generated.

JA modules have not been tested for explosion protection. Please consult local regulations whether the modules can be used or not.

Installation Condition

Installation position and working environment

JA Solar Modules are intended for use in terrestrial applications only-no outer space use.

Do not use mirrors or other magnifiers to concentrate sunlight onto the modules.

Modules must be mounted on appropriate mounting structures positioned on suitable buildings, the ground, or other structures suitable for modules (e.g. carports, building facades or PV trackers).

Modules must not be installed in locations where they could be submerged in water.

The recommended ambient temperature should be within –40°C (-40℉) to 40°C( 104℉). The temperature limits are defined as the monthly average high and low of the installation site. The limit operating temperature should be–40°C ( -40°F) and 85°C (185°F).

Ensure Modules are not subject to wind or snow loads exceeding the maximum permissible loads.

The Modules should be installed in a location where there’s no shading throughout the year. Ensure there’s no obstacle to block light near the installation site.

Lightning protection is recommended for PV systems that are to be installed in locations with high probability of lightning strikes.

Do not use Modules near equipment or in locations where flammable gasses may be generated or collected.

Modules cannot be installed or used in extreme areas or weather conditions, and highly corrosive areas should be considered carefully.

Please adopt appropriate measures to ensure the performance and safety of the Modules when they are installed or operated in areas with heavy snow, extremely cold, strong wind, or near an island or desert that is prone to produce salt fog, or near water.

JA Solar Modules can be installed at seaside locations 50m to 500m from the sea, but the relevant parts should be protected against corrosion.

The modules with LRF can have some light reflections at certain angles and light pollution if there are provisions in place, an assessment by the planner might be needed.

Modules cannot be applied for some special requirements, e.g. for marine and vehicle applications. Please refer to local law and regulations for details.

If the module is installed in the dusty environment, the ash layer on the module surface shall be cleaned regularly and immediately to prevent the ash layer from accumulating and forming hot spots on the surface and causing damage to module.

Tilt Angle Selection

The tilt angle of the Modules is measured between the surface of the Modules and a horizontal ground surface. The Modules generates maximum power output when it faces the sun directly.

In the northern hemisphere, Modules should typically face south, and in the southern hemisphere, Modules should typically face north.

For detailed information on the best installation angle, please refer to standard solar photovoltaic installation guides or consult a reputable solar installer or systems integrator.

Dust building up on the surface of the Modules can impair Module performance. JA solar recommends installing the Modules with a tilt angle of at least 10 degrees, making it easier for dust to be washed off by rain.

Mechanical Installation

Conventional requirements

Ensure the installation method and supporting system of Modules is strong enough to withstand all the load conditions. The Installer must provide this guarantee. The installation supporting system must be tested by the third- party organization with the analysis ability of Static Mechanical, according to the local national or international standards.

The Modules mounting structure must be made of durable, corrosion-resistant and UV-resistant material. Modules must be securely attached to the mounting structure.

In regions with heavy snowfall in winter, select the height of the mounting system so that the lowest edge of the Modules is not covered by snow for any length of time. In addition, ensure that the lowest portion of the

Modules is placed high enough so that it is not shaded by plants or trees or damaged by flying sand.

When the Modules are supported parallel to the surface of a building wall or roof, it is recommended that the minimum clearance of 10 cm between the modules frame and the surface of the wall or the roof , to allow air to circulate behind the modules and to prevent wiring damage.

Do not attempt to drill holes in the glass surface and the modules frames of the Modules as this will void the warranty.

Before installing Modules on a roof, ensure that the roof construction is suitable. In addition, any roof penetration required to mount the Modules must be properly sealed to prevent leaks.

Observe the linear thermal expansion of the Modules frames, must ensure that the minimum distance between neighboring frames is 10mm.

The module frames will warp at low temperature.

Avoid the frame receiving the lateral tension and pressure, causing the frame off or crushing the glass.

Always keep the module backsheet free from foreign objects or structural elements, which could come into contact with the panel, especially when the panel is under mechanical load.

Modules have been certified for a maximum static load on the back side of 2400 Pa (i.e. wind load) and a maximum static load on the front side of 2400 Pa or 5400 Pa (i.e. wind and snow load), depending on the modules type (please refer to Figure 4 for detailed installation method).

The mounting method must not result in the direct contact of dissimilar metals with the aluminum frame of the Module as it will result in galvanic corrosion. IEC 60950-1 standard recommends metal combinations not exceed an electrochemical potential difference of 0.6 Volts.

Modules can be mounted in landscape or portrait orientation.

Installation methods

Modules can be installed to the racks by clamps or hooks. Modules must be installed according to the following examples and recommendation. If not mounting the Modules according to these instructions, please in advance consult JA Solar and must be approved by JA solar, otherwise may damage Modules and void the warranty.

Modules installed with mounting hole

Modules should be bolted to support structures through mounting holes located in the frame’s back flanges. Refer to what is shown in Figure 2 (Mounting Details).

Figure 2 Mounting Details

For your reference, please use the components specified below:

1. Bolt
   Material: Q235B/SUS304
   Size and Length: M8/M6*16mm

2. Washer
   Material: Q235B/SUS304
   Size: M8/M6, thickness≥1.5mm and outside diameters ≤16mm

3. Spring Washer
   Material: Q235B/SUS304
   Size: M8/M6

4. Nut
   Material: Q235B/SUS304
   Size: M8/M6

Suggestion

1. M8 bolt tightening torque range: 12-16 N.m ;
   M6 bolt tightening torque range: 8-12 N.m ;

2. When using 30mm height frame module, it is recommended to select L≤20mm length fasteners.

Modules installed with clamp

Modules should be mounted using specialized clamps as shown in Figure 3.

A ) Modules should be attached on a supporting structure rail by metal clamps. It is recommended to use the clamps under the following condition or approved by system installation:

• Width: Clamp A no less than 50mm, Clamp B no less than 50mm;
• Thickness: No less than 3mm;
• Material: Aluminum Alloy;
• Bolt: M8;

B) tighten the screws

C) The Modules clamps must not contact the front glass or deform the frame in any way, the contact area of the clamp with the front of the frame must be smooth, otherwise may damage the frame or break the modules. Avoid shading effects from the Modules clamps. Drainage holes on the Module frame must not be closed or obscured by the clamps.

Clamp A The clamp used on the sided module (X=The height of module frame)

Clamp B The clamp used on the middle module

Figure 3 Clamp Details (Units: mm)

Installation position and corresponding static loads

The low/normal level of load condition is applicable to the installation in most of environmental conditions: the maximum static load on the back of the modules is (1600 Pa, 1.5) (i.e. wind load), and the maximum static load on the front of modules is (1600 Pa, 1.5) (i.e. wind and snow load).

The high level of load condition is applicable to the installation in harsher environmental conditions such as storm, heavy snow, etc: the maximum static load on the back of the modules is (1600 Pa, 1.5) (i.e. wind load), and the maximum static load on the front of modules is (3600 Pa, 1.5) (i.e. wind and snow load), depending on the pressure level that it would endure according to IEC standard.

Figure 4 Installation Position and Corresponding Load Relation

Installation methods

Module types

| Inner four holes| Outer four holes| Clamps, mounting rails cross the long frame 66：400mm≤S≤500mm；

72：450mm≤S≤550mm；

78：500mm≤S≤600mm

---|---|---|---
JAM72S30 MR Series

（30mm frame）

| 3600/1600| N/A| 3600/1600
JAM66S30 MR Series

(30mm frame)

| N/A| N/A| 3600/1600
JAM72S30 GR Series

(30mm frame)

| 3600/1600| N/A| 3600/1600
JAM72S40 GR Series

(30mm frame)

| 3600/1600| N/A| 3600/1600
JAM78S30 MR Series

(30mm frame)

| 3600/1600| N/A| 3600/1600
JAM78S30 GR Series

(30mm frame)

| 3600/1600| N/A| 3600/1600
JAM72S30 LR Series

(30mm frame)

| 3600/1600| N/A| 3600/1600
Installation methods

Module types

| Inner four holes| Outer four holes| Clamps, mounting rails cross the long frame

S=1/4L±50

---|---|---|---
JAP60S01 SC Series| N/A| N/A| 3600/1600
JAM60S09 PR Series| N/A| N/A| 3600/1600
JAM60S10 PR Series| N/A| N/A| 3600/1600
JAM60S10 MR Series| N/A| N/A| 3600/1600
JAM60S17 MR Series| N/A| N/A| 3600/1600
JAM68S11 PR(B) Series| 1600/1600| N/A| 1600/1600
JAM76S11 PR(B) Series| 1600/1600| N/A| 1600/1600
JAM66S10 MR Series| 3600/1600| N/A| 3600/1600
JAM60S20 MR Series| 3600/1600| N/A| 3600/1600
JAM60S21 MR Series| 3600/1600| N/A| 3600/1600
JAM72S10 MR Series

（40mm frame)

| 1600/1600| N/A| 3600/1600
JAM72S10 MR Series (35mm frame)| 1600/1600| N/A| 3600/1600
JAM78S10 MR Series| N/A| N/A| 3600/1600
JAM72S17 MR Series| 1600/1600| N/A| 3600/1600
JAM72S20 MR Series| 3600/1600| N/A| 3600/1600
JAM54S30 MR Series| 3600/1600| N/A| 3600/1600
JAM54S31 MR Series| 3600/1600| N/A| 3600/1600
JAM66S30 MR Series (35mm frame)|

3600/1600

|

3600/1600

|

3600/1600

JAM72S30 MR Series

（35mm frame）

|

3600/1600

|

3600/1600

|

3600/1600

JAM78S30 MR Series (35mm frame)|

3600/1600

|

3600/1600

|

3600/1600

JAM54S30 GR Series| 3600/1600| N/A| 3600/1600
JAM54S31 GR Series| 3600/1600| N/A| 3600/1600
JAM78S30 GR Series (35mm frame)|

3600/1600

|

3600/1600

|

3600/1600

JAM54S40 GR Series| 3600/1600| N/A| 3600/1600
JAM54S41 GR Series| 3600/1600| N/A| 3600/1600
JAM54S30 LR Series| 3600/1600| N/A| 3600/1600
JAM54S31 LR Series| 3600/1600| N/A| 3600/1600
JAM72S40 LR Series| 3600/1600| N/A| 3600/1600
JAM60S40 LR Series| 3600/1600| N/A| 3600/1600
JAM54S40 LR Series| 3600/1600| N/A| 3600/1600

Note:

1. “N/A” means not applicable;
2. The mechanical load listed in the table is the designed load(front side/back side), the safety factor is 1.5.
3. For the maximum loads that do not appear in the table for certain installation methods, and for the other installation methods that doesn’t appear in the table, please contact JA Solar for more details.

Figure 4 Installation Position and Corresponding Load Relation

Electrical Installation

Electrical Property

Under normal conditions, the photovoltaic Modules may experience conditions that produce more current and/or voltage than reported at Standard Test Conditions. Accordingly, the values of short circuit current, Isc, and open circuit voltage, Voc, marked on Modules should be multiplied by a factor of 1.25 when determining component voltage ratings, conductor capacities, fusing sizes, and size of controls connected to the Module output.

Voltages are additive when Modules are connected directly in series, and Modules currents are additive when Modules are connected directly in parallel, as illustrated in Figure 5.

Modules with different electrical characteristics must not be connected directly in series.

Figure 5: Electrical diagrams of series and parallel wiring

The maximum number of Modules that can be connected in a series string must be calculated in accordance with applicable regulations in such a way that the specified maximum system voltage (The maximum system voltage of JA Solar Modules is DC 1000V/1500V according to the safety appraisal of the IEC61730) of the Modules and all other electrical DC components will not be exceeded in open-circuit operation at the lowest temperature expected at the PV system location.

Correction factor for the open-circuit voltage can be calculated based on the following formula: CVoc=1- βVoc×(25 -T). T is the lowest expected ambient temperature at the system location. β(%/℃) is the temperature coefficient of the selected module Voc (refer to corresponding datasheet).

An appropriately rated over-current protection device must be used when the reverse current could exceed the value of the maximum fuse rating of the Modules (20/25A). Please refer to module label for maximum series fuse rating. If connecting in parallel, the maximum number of modules is 1. An over-current protection device is required for each series string if more than two series strings are connected in parallel, as illustrated in Figure 5.

Cables and Wiring

These junction boxes have been designed to be easily interconnected in series for their well-connected cable and the connector with IP67 (IP68) protection grade. Each Module has two single-conductor wires, one positive and one negative, which are pre-wired inside the junction box. The connectors at the opposite end of these wires allow easy series connection of adjacent Modules by firmly inserting the positive connector of a Module into the negative connector of an adjacent Module until the connector is fully seated.

Use field wiring with suitable cross-sectional areas that are approved for use at the maximum short-circuit current of the Modules. JA Solar recommends installers use only sunlight resistant cables qualified for direct current (DC) wiring in PV systems. The minimum wire size should be 4mm2 (12AWG).

Rating Required Minimum Field Wiring

Cables should be fixed to the mounting rack or modules in such a way that mechanical damage of the cable and/or the Modules is avoided. Do not apply stress to the cables. The minimum cables bending radius should be 38.4mm. Any cable damage caused by bending too much or cable management system is not covered under JA Solar’s warranty. For fixing, use appropriate means, such as sunlight resistant cable ties and/or wire management clips specifically designed to attach to the mounting rack or modules. While the cables are sunlight resistant and waterproof, where possible, avoid direct sunlight exposure and water immersion of the cables.

Cable arrangement must comply with local laws and regulations.

Connectors

Keep connectors dry and clean, and ensure that connector caps are hand tight before connecting the Modules. Do not attempt making an electrical connection with wet, soiled, or otherwise faulty connectors. Avoid sunlight exposure and water immersion of the connectors. Avoid connectors resting on the ground or roof surface.

Faulty connections can result in arcs and electrical shock. Check that all electrical connections are securely fastened. Make sure that all locking connectors are fully engaged and locked. Connector interconnect must reach the corresponding IP protection level, so as to achieve the electrical security. It is not recommended to interconnect different types of connectors.

Do not contact organic solvents and other corrosive materials in connector connection and the using environment, such as alcohol, gasoline, pesticides, herbicides, etc. Please consult JA for details. Otherwise, JA will not be responsible for connector cracking caused by this aspect. Two examples of incorrect usage are listed below:

Please pay attention that the unlock method of connectors is different according to local laws and regulations.

During the construction of the power plant, the connector shall not be exposed to the outdoor environment under unconnected state for a long time, so as to prevent the dust in the environment from the connector, resulting in the reliability decline of connector connection.

Bypass Diodes

The junction boxes used with JA Solar Modules contain bypass diodes wired in parallel with the PV cell strings. In the case of partial shading, the diodes bypass the current generated by the non-shaded cells, thereby limiting Modules heating and performance losses. Bypass diodes are not over-current protection devices.

In the event of a known or suspected diode failure, installers or maintenance providers should contact JA  Solar. Never attempt to open the junction box by yourself.

Please pay attention to guard against inductive lightning, backflow and wrong connection.

Grounding

A Solar Modules use an anodic oxidized aluminum frame to resist corrosion. So the frame of Modules should be connected to the equipment grounding conductor to prevent thunder and electrical shock.

The grounding device should fully contact with the inside of the aluminum alloy, and – penetrate the surface of the frame oxidation film.

Please don’t drill any additional grounding hole on the frame of the Modules, otherwise JA Solar expressly disclaim liability for voiding the warranty.

To acquire the best power output, JA recommends clients to install modules with anti-PID inverter.

The grounding method should not result in the direct contact of dissimilar metals with the aluminum frame of the Modules that will result in galvanic corrosion. IEC 60950-1 standard recommends metal combinations not exceed an electrochemical potential difference of 0.6 Volts.

The frame rails have pre-drilled holes marked with a grounding sign. These holes should be used for grounding purposes and should not be used for mounting the Modules.

The following grounding methods are available.

Grounding by using grounding bolt

There is a grounding hole with 4.2 mm diameter on the edge side closer to the middle of the back frame of
the Modules. The middle line of the grounding mark is overlapped with the grounding hole, and the direction is same as the longer frame.

The grounding between Modules must be approved by a qualified electrician. The grounding device should be produced by a qualified electrical manufacturer. The recommended torque value is 2.3 N.m. A 12 AWG copper wire can be used as the equipment grounding conductor in conjunction with the grounding bolt. The copper wire should not be compressed during the installation.

Figure 6: Installation Methods

Grounding by using unused mounting hole

The existing mounting holes which have not been used can be used for grounding.

• Direct the grounding clamp to the mounting holes in the frame. Thread the grounding clamp and the frame with grounding bolt.
• Put the toothed gasket into the other side, then tighten and lock the nut. The recommended torque of locking the nut is 2.0 N·M -2.2 N·M.
• Thread the grounding clamp with grounding wire. The materiel and size of grounding wire should meet the relevant requirements of the national, regional and local code, law and standard.
• Finish the mounting with tightening the binding bolt of grounding wire

Figure 7: Installation Methods

Additional Third-party Grounding Devices

JA Solar Modules can be grounded using third party grounding devices so long as they are certified for grounding modules and the devices are installed according to the manufacturer’s specified instructions.

Operation and Maintenance

It is required to perform regular inspection and maintenance of the Modules, especially within warranty scope. It is the user’s responsibility to report to the supplier regarding the damages found within 2 weeks.

Cleaning

The dust accumulated on the front transparent substrate may reduce the power output, and may even cause regional hot-spot effect. Industrial effluents or bird drops may be a serious case, and the extent of the severity depends on the transparency of the foreign objects. It’s usually not dangerous for the accumulated dust to reduce the sunshine, because the light intensity is still homogeneous and the power reduction usually is not obvious.

The dust accumulated on the front transparent substrate may reduce the power output, and may even cause regional hot-spot effect. Industrial effluents or bird drops may be a serious case, and the extent of the severity depends on the transparency of the foreign objects. It’s usually not dangerous for the accumulated dust to reduce the sunshine, because the light intensity is still homogeneous and the power reduction usually is not obvious.

The cleaning frequency depends on the accumulating velocity of the fouling. In many instances the front substrate is cleaned with the rain, and we can decrease the cleaning frequency. It is recommended to wipe the glass surface with wet sponge or soft cloth. Please do not clean the glass with cleaning agent which contains acid or alkali. Please refer to “cleaning manual” for specific contents.

The visual inspection of the Modules

Inspect the Modules visually to find if there are appearance defect, the following three types need more attention especially:

• Whether the glass is broken;

• Corrosion along the cells’ bus-bar
  The corrosion is caused by the dampness infiltrated into the Modules when the surface encapsulation material is damaged during the installation or transportation.

• If there is burning vestige on the backsheet

Inspection of the connector and the cable

It’s recommended to implement the following preventive maintenance every 6 months:

• Check the encapsulation of the connector with the cable.
• Check the sealing gel of the junction box to ensure it is not cracked or creviced.

Product Supplement

The installation manual applicable module types are as follows. The module types are subject to changes without prior notice due to continuous product innovation, research and development. “XXX” shows the PEAK power of the Module Label in increments of 5.

Note: 1. The mounting installation of black modules refer to the white modules of the same dimension.

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