HYUNDAI 390W Shingled Solar Cell Instruction Manual
- June 9, 2024
- HYUNDAI
Table of Contents
HES INSTALLATION MANUAL (IEC)
Issued on June. 13th, 2022 (Version1.1)
HYUNDAI ENERGY SOLUTIONS
Solution for your energy !
Instruction Manual
General Information
This general manual provide important electrical and mechanical installation
information. For correctly installation and obtain stable power output, please
read and understand this manual carefully before installing and maintaining
the PV modules. And keep this manual properly for future reference during PV
module maintenance or sales.
This manual does not constitute a warranty, expressed or implied. Hyundai
Energy Solution 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.
PV module should be installed in accordance with all safety precautions in
this manual and local laws and regulations, and should be installed and
maintained by qualified professionals who have professional skills and
knowledge and are familiar with the mechanical and electrical requirements of
the system. The installer must inform the customer.
Any questions, please contact with the salesman or customer service personnel
of Hyundai Energy Solution for further explanations.
Installation Manual Disclaimer
Hyundai Energy Solution reserves the right to change this user manual without
prior notice.
This user manual is not a warranty, nor does it have any meaning of warranty.
This manual will be updated from time to time, please contact the commercial
department of Hyundai Energy
Solution to obtain relevant products and documents.
Limitation of liability
Hyundai Energy Solution shall not be responsible for any kind of injury,
including but not limited to physical injury or property damage caused by
module operation, system installation error or failure to follow instructions
in this manual.
General Principles Of Security
Modules rated for use in this application class may be used in systems
operating at greater than 50V DC or 240W, where general contact access is
anticipated. Modules qualified for safety through IEC 61730-1 and this part of
IEC 61730 within this application class are considered to meet the
requirements for safety class II.
No matter whether the PV module is connected to the system or not, proper
protective measures should be used when touching the PV module, such as
insulation tools, safety caps, insulation gloves, safety belts, and safety
insulation shoes. During installing, grounding, connecting cables, and
cleaning modules, the proper electrical protection tools must be used too.
Avoid contact with modules directly, which may cause electric shocks or cuts.
The installation should comply with the laws and regulations specified by the
relevant region and country. If necessary, obtain the required certificates
such as building permit.
Module installation shall be carried out by qualified professionals with
technical knowledge and familiarity with the mechanical and electrical
requirements of the system. Be aware of the risks of injury, including
electric shock, that may occur during installation.
The modules are applied to the ground, roof, fish pond and other outdoor
environments. Proper design of support structures is the responsibility of the
system designer or installer. When applied to roof installation, the overall
fire rating of the final structure needs to be considered, as well as the
overall maintenance of the later period.
A roof system can only be installed on a roof that has been assessed by a
construction expert with the results of a formal complete structural analysis.
Comply with safety regulations for all installed components. Such as wires and
cables, connectors, charging controllers, inverters, batteries, etc., only the
equipment, connectors, wires and brackets that match the solar power system
can be used. If the photovoltaic system uses energy storage batteries, the
configuration of the modules should
follow the advice of the battery manufacturer.
Meaning of crossed –out wheeled dustbin: Do not dispose of electrical
appliances as unsorted municipal waste, use separate collection facilities.
Contact your local government for information regarding the collection systems
available.
If electrical appliances are disposed of in landfills or dumps, hazardous
substances can leak into the groundwater and get into the food chain, damaging
your health and well-being.
When replacing old appliances with new ones, the retailer is legally obligated
to take back your old appliance for disposals at least free of charge.
Electrical safety
For avoid any form of electrical accidents, please followed the following
electrical safety provisions strictly.
- Damaged modules pose a risk of electric shock and fire, should be replaced immediately.
- The DC voltage generated by module may exceed 30V, please avoid contact directly.
- Ensure that the cable is fixed to the support bracket for installing modules.
- Protect cables with catheters in areas accessible to animals and children.
- Do not manually modify or remove any module or label.
- The installation of the module array must be carried out in isolation from direct sunlight.
- The serial voltage of modules must not exceed the maximum system voltage.
- Do not connect modules with connectors of different models from different manufacturers.
- Do not replace roofing and wall materials with modules.
- Do not connect or disconnect modules when there is current or external current.
- Do not install modules without taking protective measures.
- Do not use any means other than connectors for electrical connection.
- Do not add any light concentrators to the module.
- Do not coat the surface of the module with corrosive chemicals.
- Do not install or operate modules in damp or windy conditions.
- Do not touch the module when it is wet.
Fire Safety
Before installing modules on the roof, refer to local laws and regulations and
comply with building fire protection requirements. The roof shall be covered
with a suitable grade of fireproof material for roof installation and to
ensure that the modules and mounting surfaces are fully ventilated. Different
roof structures and installation methods can affect the fire performance of a
building. Improper installation may cause a fire.
Use appropriate components such as fuses, circuit breakers and ground
connectors according to local regulations.
Do not install or use modules near open flames or flammable or explosive
objects.
Transportation safety
Do not open the packing case before the modules arrive at the installation
site. Place the packing case in a dry and ventilated environment.
During all handling, ensure that the module will not be shaken, dropped to the
ground, or objects will fall on the module, as this will damage the module or
the solar cells in the module. Do not allow children or unauthorized persons
to handle modules. Improper handling and placement may result in glass
breakage or loss of electrical properties,
thus rendering the modules useless.
Handle and installation modules with care. Under no circumstances should
assemblies be lifted by lifting junction boxes or cables. Two or more persons
must hold the edges of assemblies with both hands.
Do not step on, stand on or sit on modules as this can damage modules and risk
injury to people.
Do not stack modules, do not place any heavy objects on the front and back of
modules, and do not place modules on sharp surfaces.
Install Security
Comply with safety rules applicable to all installed modules. Such as wires
and cables, connectors, charging controllers, inverters, batteries, etc., only
the equipment, connectors, wires and rails that match the solar power system
can be used.
If the photovoltaic system uses energy storage batteries, the configuration of
the modules should follow the advice of the battery manufacturer.
Do not install or operate s in damp or windy conditions, and keep the junction
box cover closed.
The glass can protect the module, improper operation may cause the glass to be
broken. Damaged module pose a risk of electric shock and fire. Such modules
cannot be repaired or repaired and should be replaced immediately.
When sunlight strikes the front of the module, the module generates
electricity and the DC voltage may exceed 30V. Avoid direct contact with the
voltage of 30V or higher to avoid danger.
To reduce or avoid the array mismatch effect, it is recommended to connect
modules with similar electrical properties on the same string.
When connecting modules, ensure that the connecting cables are fixed on the
support frame of the module to limit the swing of the slack part of the cable.
Comply with the minimum bending radius of the cable (not less than 43mm is
recommended).
Electrical Properties
Electrical installation
The module product specification lists the specific electrical performance of
photovoltaic modules in detail, and the nameplate of each module is also
marked with the main electrical performance parameters under STC conditions
(1000W/㎡, AM 1.5, cell temperature 25°C). The product specification and
nameplate are also marked with the
maximum system voltage of the module.
Under certain environmental conditions, the current or voltage generated by
the module may be greater than the operating current or voltage for standard
test conditions (STC). Therefore, when determining the current/voltage ratings
and load values of electrical components, the module short-circuit current
under STC should be multiplied by 1.25, and the open-circuit voltage should be
corrected according to the calculation formula below:
Maximum System Voltage ≥ N×Voc×[1+λvoc(Tmin-25℃)
While,
N — Serial number of modules in strings
Voc — Open circuit voltage value of module under STC (see module nameplate)
λvoc — Open circuit voltage temperature coefficient of the module (see module
technical specification)
Tmin — Annual minimum temperature for module installation position (for
example, -20 ° C, Tmin = -20)
When determining the appropriate wire and fuse specifications, the maximum
fuse current rating is selected by reference to the product specifications.
The system electrical design and calculation shall be determined by a
qualified electrical engineer.
The minimum over-current protection device specification is determined by
calculating the maximum expected current of the photovoltaic system. The
maximum over-current protection device specification is mandatory in IEC
61215:2016 and IEC61730:2016 standards.
If there may be a reverse current through the module that exceeds the maximum
fuse current, the module must be protected by over-current protection. If the
number of parallel connections is greater than or equal to 2, an overcurrent
guard must be installed on each assembly.
Do not install in rainy weather, moisture will lead to insulation failure,
prone to safety accidents.
For specific electrical performance parameters, please refer to the product
specifications.
Cables and wires
The junction box of each module is equipped with two separate wires, one
positive and one negative, which can be connected in series by inserting the
positive connector of one module into the socket of the negative connector of
the adjacent module.
During installation, do not use lubricating oil or alkane cleaning agents to
clean connectors, junction boxes, and cables.
The cross-sectional area of the cable and the capacity of the connector must
meet the maximum short-circuit current of the module (for a single module, the
cross-sectional area of the cable is 4mm², and the cable temperature
ranges from -40 ° c to +90 ° c).
When the cable is fixed on the bracket, it is necessary to avoid mechanical
damage to the cable or module. The cable is fixed on the bracket with
specially designed light resistant tie and cable card. The cable is light
resistant and waterproof, and also avoid direct sunlight and water soaking the
cable.
Connector
When connecting modules, ensure that the connectors of the same string of
modules are from the same manufacturer or fully compatible, and the connection
terminals of the modules and the system must also be in the same way. The
connectors of different manufacturers may be incompatible, which may cause
mismatching and burning.
Keep the connector dry and clean.
Do not connect the connector when it is damp or dirty.
Do not expose the connector to direct sunlight or water.
Bypass Diode
The junction box of the Hyundai Energy Solution module contains the bypass
diode and forms a parallel structure with the circuit. When the solar cells of
the module is blocked or damaged, the hot spot phenomenon occurs in the part
of the module, the diode will work, so that the current no longer flows
through the hot spot solar cell, so as to limit the heating and performance
loss of the module.
Note that the bypass diode is not an over-current protector.
Grounding
The module use anodized corrosion-resistant aluminum alloy frames as rigid
supports. To protect the module from lightning and static electricity, and to
protect personal safety. All frames and mounting brackets of the components
must be grounded. If there are no specific regulations, please follow the
International Electrotechnical Commission standard or other international
standards. Connect the ground cable with the recommended connection terminal
and fix it to the module frame. It is recommended to use 12AWG copper core
wire. Figure 1 shows the grounding holes and its identification on the
assembly, and Figure 2 shows the assembly grounding method.
The holes are used for grounding only and cannot be used to install module. Do
not drill any additional ground holes on any frame of the modules. Otherwise,
the module warranty will be invalid.
When grounding, the grounding device must fully contact the interior of
aluminum alloy, penetrate the oxide film on the surface of the frame, and
connect the frame of the module and the supporting member to achieve good
grounding effect. Use an electroplated support frame to ensure good electrical
conductivity.
The ground conductor must be connected to the ground by a suitable ground
electrode. You are advised to use a ground cable accessory (wiring nose) to
connect the ground cable. Weld the ground cable into the socket of the wiring
nose, insert the M4 screw into the ring of the wiring nose and the hole in the
middle of the module frame, and secure the cable using a nut. Spring washers
should be used to prevent screw loosening resulting in poor grounding.
If the module is used in a high temperature and humidity environment, it is
recommended to install an inverter with an isolation transformer that can be
negatively grounded (figure 3 shows the system voltage polarity
configuration).
The module may be grounded using a third party grounding device, provided that the grounding device is reliable and proven and operated in accordance with the manufacturer’s requirements.
Handling, transportation, storage and unpacking
Hyundai Energy Solution’s module have horizontal packaging and vertical
packaging according to different product. There are significant differences
between horizontal packaging and vertical packaging in loading, unloading,
transportation and unpacking. Please be sure to follow the above operations in
this manual.
The patterns of horizontal and vertical packing are as follows:
Handling, Transportation and Tran-shipment
After the module arrived, please check the overall status of the package in
time. If there is any abnormal condition such as package damage, deformation
or skew, please contact the customer service or logistics personnel of Hyundai
Energy Solution immediately.
Place the module on flat ground after transporting it to the installation
site.
Forklift to unload
If forklift tools are used, the forklift tools should be reasonably selected
according to the size and weight of the goods. If the fork of the forklift is
less than 3/4 of the size of the cargo, it should be covered with an extended
fork assembly to avoid tipping the package when moving the forklift.
Straight-line driving speed control of forklift truck transportation ≤5km/h,
turning speed ≤3km/h; during transportation, the spacing between goods and
inserts should be adjusted to the maximum position of the spacing between
pallets.
During loading and unloading, except forklift operators, other personnel
should keep within a safe distance to ensure personnel safety.
Lifting the unloading
If a crane is used to unload the package, use a dedicated hoisting tool.
Select a proper hoisting tool based on the weight and size of modules. Use a
fixing tool of the same size on the top of the package to prevent the lifting
rope from squeezing the package or modules.
Horizontal packaging can lift up to 4 sets of modules at a time, vertical
packaging can lift up to 2 sets of modules at a time.
Tran-shipment
If vertical packaging modules need to be transported to the construction
project site through secondary transportation after being transported to the
centralized storage site by container or flatbed vehicle, the following points
should be noted:
If forklift truck is used for transport, the forklift truck shall comply with
the above requirements for unloading, and the forklift truck size shall be at
least ≥ 3T;
If you use a box truck or other type of vehicle, please use a carriage with
guardrail, the height of the guardrail is not less than 2/3 of the height of
the module, and use fastening straps to secure the module to the carriage;
modules should be placed closely with each other, and gaps should not be left.
If the vertical package is turned to horizontal by a turning machine, please
note that the flat tray structure is used as the bearing unit of the module
after turning over, and only the frame surface of the module can be used as
the bearing surface of the module after turning over.
Retail packaging
If the modules are not filled when they are shipped, Hyundai Energy Solution
uses wooden frames of the same size as the modules as packing fillers. The
wooden frames are located in the middle of the packaging body, and the
scattered packaging method is exactly the same as the integral packaging
method.
Storage
Please store the modules in a dry and ventilated environment and place the
modules on a relatively flat ground.
Ensure that the outer package of the modules is intact. Ensure that the
pallets and packages are protected from moisture and direct sunlight in the
storage area, and take waterproof (rain) measures.
If the modules are stored in an uncontrolled environment, they must not be
stored for more than 3 months.
Additional measures should be taken to protect the connector from moisture or
sun exposure, such as using the connector end cover;
Long-term storage of modules is recommended to be stored in a standard
warehouse. Check for module tilt anomalies periodically.
Do not soak the tray in water. Take drainage measures on the ground to prevent
the wooden pallet from rotting or the ground from sinking after a rain.
Unpacking
Please confirm the product model, power, quantity and serial number according
to the shipping mark posted on the container before unpacking. For vertical
packaging, please carefully read the unpacking operation instructions and
unpacking support assembly operation instructions, do not use other unpacking
methods other than the unpacking operation instructions.
- Do not lift the wiring and junction box of the module, hold the frame while carrying.
- During handling, do not distort or bend modules due to operation or other weight.
- The number of modules stacked horizontally does not exceed 18.
- Do not rely on the backplane to support modules when moving or installing them.
- Do not contact the module with sharp objects to avoid damaging the module.
- Vertical packing and unpacking shall not be carried out on non-horizontal or soft ground;
- When vertical packing and unpacking, the operator shall not stand behind the reclining surface;
- After unpacking, do not place module electrical connectors near any unauthorized chemical substance.
Horizontal packaging
Applicable product series:
HiE-SxxxUF Series, HiE-SxxxUH Series, HiE-SxxxVG Series, HiE-SxxxVI Series,
HiE-SxxxHG Series, HiE-SxxxDG Series HiE-SxxxKN Series horizontal packing and
unpacking is the conventional packing method, which will not be specified
here. If you have any questions in the process of unpacking, please contact
Hyundai Energy Solution commercial department to provide specific information.
Vertical packaging
Applicable product series:
HiE-SxxxDJ, HiE-SxxxDI
Unpacking method 1: unpacking with brackets
The unpacking modules are placed on a level floor| Remove the plastic wrap,
wrapping film, cover and surface of the packing case
---|---
|
Place a support bracket on either of the recline surfaces of the assembly and
remove the three transverse steel strips from the upper part of the assembly
with a cutter| Two people stand on the frame surface ofthe module to hold the
component, whilethe other person cuts the lower two transverse plastic steel
packing belts
|
Gently push the assembly so that it leans against the support frame and remove
thevertical steel strip| Remove all modules in sequence to complete module
unpacking
|
Unpacking method 2: Rely on
Unpacking the reclining surface needs to be close to a solid wall or another
pallet of intact components of the same size| Remove the plastic wrap and
wrapping film for the modules to be removed, and
remove the cover and packing case
---|---
|
Use scissors to remove the three transverse steel strips from the upper part
of the assembly| Two people stand on the frame surface of the module to hold
the module, while the other person cuts the lower two transverseplastic steel
packing belts
|
Gently push the module so that it leans against the support, removing the
vertical strip of plastic steel| Remove all modules in sequence to complete
module unpacking
|
Module Installation
Installation environment
-
The module is recommended to be installed in an environment where the operating temperature ranges from -20°C to 50°C.
The maximum operating temperature ranges from -40°C to 85°C, and the humidity is lower than 85%RH. -
When installing solar modules on a roof, it is also necessary to leave a safe working area between the edge of the roof and the outer edge of the photovoltaic module array.
-
When modules are piled on the roof, the load of the roof should be rechecked, and the construction organization plan in accordance with the requirements of the code should be formulated.
-
If in the northern hemisphere, usually choose the light facing south installation of the module. If you are in the southern hemisphere, you usually choose the light-facing north mounting of the module.
-
when selecting module installation position, should choose can make full sunlight position, to avoid the module surface forms part or all of the shade (trees, buildings, clothing, tools, packing materials and other obstacles), because these objects on the module form the shadow, the shadow will cause loss of output power.
-
The module should be installed in a well-ventilated place to ensure adequate air circulation on the back and side of the module to facilitate the timely release of heat generated when the module is working.
-
When used in areas with high wind pressure and snow pressure, support fixed structures should be designed in strict accordance with local design specifications to ensure that the external load does not exceed the mechanical strength limit that the modules can bear.
-
Hyundai Energy Solution’s modules have passed the salt spray corrosion test of IEC61701, indicating that Hyundai Energy Solution modules can be installed in offshore or corrosive environments.
-
At a place 50m to 500m away from the sea, corrosion may occur at the part where the frame of the module is connected to the support, or the part where the grounding is connected. Stainless steel or aluminum materials must be used to contact the photovoltaic module, and the installation part must be treated with anti-corrosion.
-
Please consult the Hyundai Energy Solution technical support department for more information on the use of modules in special climates, such as an altitude greater than 2000m, heavy snow, severe hail storm, hurricane, etc.
Inclination Choice
The inclination Angle of the photovoltaic module refers to the included Angle
between the photovoltaic module and the horizontal ground. Different projects
choose different installation inclination Angle according to local conditions.
Modules connected in series of the same array must be in the same direction
and Angle. Different installation directions and angles cause differences in
the total amount of solar radiation absorbed by modules, resulting in a loss
of output power, which reduces the operating efficiency of the system.
The maximum power is generated when the sunlight directly exposure to the
modules. Consider the power output of the module in winter when selecting the
best installation Angle.
In order to facilitate module cleaning and wash away dust on module surface
when it rains, for detailed installation Angle, please follow the advice given
by experienced PV module installers.
Machinery Installation
Ensure that the module installation strong enough, supporting system composed
of the phalanx system components must be able to withstand the mechanical load
pressure, appointed by it’ s bracket installer must provide the guarantee,
mounting bracket needed and static mechanics analysis ability of the third
party testing institutions to test, need to adopt international standards or
national standards.
The mounting bracket of the component must be made of materials that are
resistant to corrosion, rust and UV.
Modules must be securely mounted on system supports.
Do not drill additional mounting holes in the frame and glass. Otherwise, the
module warranty will be invalid.
The support structure of modules has thermal expansion and cold contraction
effect. To avoid affecting the performance and use of modules, it is
recommended that the minimum distance between the two modules is 10mm. To
ensure good ventilation of modules and reduce load, it is recommended that the
installation distance between two modules is 30mm.
In areas with heavy snow in the winter, choose a high mounting bracket so that
the lowest point of the module is not covered by snow for a long time, and the
lowest point of the module is high enough to prevent the module from being
obscured by plants or trees.
The support surface of the installation bracket must be flat, without
distortion or deformation, and there is no up and down dislocation between the
connected brackets.
The assembly installation method should not result in electro-chemical
corrosion between the aluminum frame and different metals.
Location Choice
Roof
When installing on a roof or building, ensure that they are securely secured
and will not be damaged or dropped by strong winds or snow. Provide a special
mounting bracket for roof installation if necessary. The building code used
for roof installation should be checked to ensure that the building and
structure to which the modules are installed have sufficient load-bearing and
airtight properties. The roof through which the fixed modules are installed
should be sealed to prevent rainwater leakage.
To facilitate operation, reduce water vapor condensation, and promote
ventilation and heat dissipation for modules, ensure that the modules are
parallel to the surface of the wall or roof of the building. The distance
between the modules and the surface of the wall or roof is at least 115mm. In
this way, the air circulation at the rear of the modules facilitates heat
dissipation and prevents cable damage. When stacking modules, ensure that the
modules are installed on a fireproof roof. The module has a fire rating of C
and is suitable for installation on a roof with fire rating of A or higher.
For the roof system with heavy snow or snow record in the installation area,
the customer shall support and reinforce the bottom module frame of the entire
system to ensure that the bottom module is protected from top-down snow push
and pressure damage and damage to the module caused by daytime snow melt and
icing.
Struts
When installing modules on struts, select struts and module mounting brackets
that can withstand the expected local wind. The struts must have a solid
foundation.
Ground
Select an appropriate installation height for ground installation to prevent
the lower part of the module from being covered by snow for a long time in
winter. Install the modules on a support of an appropriate height. Do not lay
the modules directly on the ground. In addition, ensure that the minimum part
of the module is not less than 900mm to avoid being obscured by plants or
trees, to avoid being damaged by blown sand or being obscured by soil splashed
by rain.
Wiring
Hyundai Energy Solution provides recommended connection modes for customers.
If the connection modes required by the installation personnel are different
from the recommended connection modes, please contact Hyundai Energy Solution
commercial personnel to evaluate the feasibility of connection modes.
Photovoltaic modules can be connected in series to increase the series
voltage, and connected in parallel to increase the series current. Please
select a reasonable connection mode according to the electrical parameters of
the inverter selected by the photovoltaic system and the maximum system
voltage of the modules.
When connecting cables, pay attention to the polarity of the positive and
negative terminals of modules.
For different types of components, Hyundai Energy Solution provides optional
wire lengths to match different system wiring methods. The following table
describes the recommended system cabling methods.
HiE-SxxxUF Series
HiE-SxxxUH Series
HiE-SxxxVG Series
HiE-SxxxVI Series| Horizontal installation (double row, junction box inside)
72/78 version of the total wire length is not less than 2400mm, 60/66 version
of the total wire ength is not less than 2000mm.
---|---
|
HiE-SxxxUF Series
HiE-SxxxUH Series
HiE-SxxxVG Series
HiE-SxxxVI Series| Horizontal installation (double row, junction box on the
outside)
72/78 version of the total wire length is not less than 2400mm, 60/66 version
of the total wire length is not less than 2000mm.
|
HiE-SxxxUF Series
HiE-SxxxUH Series
HiE-SxxxVG Series
HiE-SxxxVI Series| Horizontal installation (single row)
72/78 version of the total wire length is not less than 2400mm, 60/66 version
of the total wire length is not less than 2000mm.
|
HiE-SxxxUF Series
HiE-SxxxUH Series
HiE-SxxxVG Series
HiE-SxxxVI Series| Vertical installation (double row)
72/78 version of the total wire length is not less than 1400mm, each group
shall add a not less than 900mm jumper wiring, 60/66 version of the total wire
length is not less than 1400mm, each group shall add a not less than 500mm
jumper wiring.
|
HiE-SxxxUF Series
HiE-SxxxUH Series
HiE-SxxxVG Series
HiE-SxxxVI Series| Vertical installation (single row)
72/78 version of the total wire length is not less than 1400mm, 60/66 version
of the total wire length is not less than 1400mm.
|
HiE-SxxxHG Series
HiE-SxxxDG Series
HiE-SxxxKN Series
HiE-SxxxKI Series
HiE-SxxxDI Series
HiE-SxxxKJ Series
HiE-SxxxDJ Series| Vertical mounting (head to tail connection)
In this connection mode, HiE-SxxxDI Series / HiE-SxxxKI Series / HiE-SxxxDJ
Series /HiE-SxxxKJ Series the total wire length must be at
least 1500mm.
HiE-SxxxKN Series / HiE-SxxxHG Series the total wire length must be at least
1300mm,Pay attention to the positive and negative terminals and ensure that
the modules are turned at intervals.
|
HiE-SxxxHG Series
HiE-SxxxDG Series
HiE-SxxxKN Series
HiE-SxxxKI Series
HiE-SxxxDI Series
HiE-SxxxKJ Series
HiE-SxxxDJ Series| Vertical installation (straight connection)
The total wire length of this connection mode must be at least 2800mm. For
HiE-SxxxHG Series the total wire length must be at least 2300 mm.
|
HiE-SxxxHG Series
HiE-SxxxDG Series
HiE-SxxxKN Series
HiE-SxxxKI Series
HiE-SxxxDI Series
HiE-SxxxKJ Series
HiE-SxxxDJ Series| Horizontal mounting (head to tail connection)
This connection mode has the total wire length must be at least 400mm. Each
group string needs to add a 1000mm jumper cable.
|
Note: 1. Total wire length means positive plus negative cables length.
2. On the premise of not affecting the overall design scheme of the system,
it is recommended that the modules of the horizontal plate series (integrated
wire box and located near the long side) be installed vertically, and the
modules of the vertical plate series (split wire box and located near the
short side) be installed horizontally, to avoid unnecessary power generation
loss caused by ash accumulation at the bottom of the inclined installation.
Installation Guide
Modules must be installed according to the installation instructions to comply
with IEC requirements.
Connections between modules and support systems can be installed using
mounting holes in the frame, clamps If the installation method used is
different from the recommended installation method, please get approval from
Hyundai Energy Solution.
Otherwise, modules may be damaged and the warranty may be invalid.
In extreme weather conditions or user-defined installation methods, strengthen
key connections to prevent damage to modules or system connections.
The loads described in this manual are test loads. According to IEC
installation requirements, a factor of 1.5 should be considered when
calculating the corresponding maximum design load. The design load of the
project depends on the project location, local climate, support structure and
related specifications. Support suppliers and professional engineers are
responsible for determining the design load. For more detailed information,
follow local laws and regulations as well as instructions from structural
engineers.
Installation Method: Bolting
The modules are bolted to the support structure using mounting holes of the
frame. Each module must be securely fastened at a minimum of 4 points on two
opposite sides.
Bolts and nuts M8 X 1.25-Grade 8.8 hot dip galvanized or A2-70 stainless steel
should be used.
The yield strength of bolts and nuts must not be less than 450MPa.
According to bolt class, tightening torque of M8 coarse tooth bolt is 16~20Nm.
Installation in heavy snow or high wind load areas, use additional mounting
holes.
Use stainless steel flat washers with thickness ≥1.5mm and diameter size
≥18mm. (Please refer to the frame section drawing provided by Hyundai Energy
Solution to select the upper limit flat washer that can be operated)
Modules shall be bolted to the position of the following mounting holes
according to the structure and load requirements:
Eight mounting hole installation(mounting hole size:9*14mm)
Installation rail vertical to the long side of the module, applicable type:
HiE-SxxxUH
HiE-SxxxVI
HiE-SxxxVI(FB)
Mechanical load:Front side ≤5400Pa,Rear side ≤2400Pa
Remark:The width of bolting installation surface of frame which called “C”side
is 30mm.
*Inner four mounting hole installation(mounting hole size:914mm)**
Installation rail vertical to the long side of the module, applicable type:
HiE-SxxxDL
HiE-SxxxDI
HiE-SxxxDN
HiE-SxxxDM
HiE-SxxxDJ
HiE-SxxxDJ
Mechanical load:Front side ≤5400Pa,Rear side ≤2400Pa
Remark:The height of the frame which called “B”side is 35mm.
Installation method: Clamps
Use a certain number of clamps to secure the modules to the mounting rail.
Hyundai Energy Solution recommends that fixtures be clamped to the frame of
module.
The clamps shall be made of anodized aluminum alloy or stainless steel.
The length and thickness of the clamp recommended by Hyundai Energy Solution
are ≥50mm and 3mm
respectively. The contact width between the clamps and the side of the frame
is in the range of 7 ~ 11 mm.
Install and tighten on the mounting rails with the torque specified by the
mounting components manufacturer. The clamps is installed with m 8 × 1.25
bolts and nuts. For M8 heavy thread bolts, the tightening torque should be
between 16 Nm and 20 Nm depending on the bolt grade.
When installing the clamps, do not touch the front glass, and do not scratch
or deform the aluminum frame during the installation process. At the same
time, the clamps cannot affect the operation of the module, and make sure that
the drainage hole and the grounding holes are not blocked.
Each module requires at least four clamps to be secured, and at least two
clamps for each long or short frame, depending on local application conditions
(wind and snow conditions) , an additional number of clamps may be required to
ensure that the modules and systems bear the corresponding loads, as shown in
Figures 7.
Clamps position is critical to the reliability of installation,center line must be installed as described in the following table according to structural and load requirements.
Four clamps mounting on long side of frame and rails perpendicularly to the long side frame
Module types | A Range(mm) | Max. Mechanical load(Pa) |
---|---|---|
HiE-SxxxUG | 280-380 | Front side≤5400,Rear side≤2400 |
HiE-SxxxUF, HiE-SxxxUF(FB) | 280-380 | Front side≤5400,Rear side≤2400 |
HiE-SxxxVG, HiE-SxxxVG(FB) | 295-395 | Front side≤5400,Rear side≤2400 |
HiE-SxxxHG, HiE-SxxxHG(FB) | 330-430 | Front side≤5400,Rear side≤2400 |
Four clamps mounting on short side of frame and rails perpendicularly to
the long side frame
Module types | A Range(mm) | Max. Mechanical load(Pa) |
---|---|---|
HiE-SxxxVG, HiE-SxxxVG(FB) | 0-150 | Front side≤2400,Rear side≤1600 |
HiE-SxxxKN | 0-200 | Front side≤800,Rear side≤800 |
Four clamps mounting on short side of frame and rails perpendicularly to the short side frame
Module types | A Range(mm) | Max. Mechanical load(Pa) |
---|---|---|
HiE-SxxxDI | 650-750 | Front side≤5400,Rear side≤1400 |
HiE-SxxxDJ | 650-750 | Front side≤5400,Rear side≤1400 |
Six Clamps mounting on long side of frame and rails perpendicularly to the long side frame,the middle rail is located in the center of the module
Module type | A Range(mm) | Max. Mechanical load(Pa) |
---|---|---|
HiE-SxxxSI | 340-440 | Front side≤5400,Rear side≤2400 |
HiE-SxxxUI | 345-445 | Front side≤5400,Rear side≤2400 |
HiE-SxxxUH | 345-445 | Front side≤5400,Rear side≤2400 |
HiE-SxxxVI, HiE-SxxxVI(FB) | 360-460 | Front side≤5400,Rear side≤2400 |
HiE-SxxxUF, HiE-SxxxUF(FB) | 280-380 | Front side≤5400,Rear side≤2400 |
Eight clamps mounting on long side of frame and rails perpendicularly to the long side frame
Module types| A Range(mm)| A+B Range(mm)| Max. Mechanical
load(Pa)
---|---|---|---
HiE-SxxxKL| 355-455| 495-595| Front side≤5400,Rear side≤2400
HiE-SxxxKG| 375-475| 520-620| Front side≤5400,Rear side≤2400
HiE-SxxxKN| 380-480| 525-625| Front side≤5400,Rear side≤2400
HiE-SxxxKM| 355-455| 495-595| Front side≤5400,Rear side≤2400
HiE-SxxxKI| 375-475| 520-620| Front side≤5400,Rear side≤2400
HiE-SxxxKJ| 380-480| 525-625| Front side≤5400,Rear side≤2400
Maintenance
Modules need to be inspected and maintained regularly, especially during the warranty period. To ensure optimum performance of the modules, the following maintenance measures are recommended.
Cleaning
When modules are working, there should not be environmental influence factors to cover shadows in the modules, such as other modules, supporting rail, plants, large number of dust etc., which may directly reduce the power output and may even cause regional hot–spot effect. Therefore clean the glass surface on a regular basis, clean modules take measures so as:
- The frequency of module cleaning depends on the speed of accumulation of dirt, the rain will be carried out on the module surface is clean under normal circumstances, but still need to use a soft sponge or cloth (either dry or touch water) clean the module, surface rough materials shall not be used for any case clean, and acid and alkali cleaner to remove dirt is blocked too.
- Avoid local heavy weight to the module during cleaning, which will lead to module glass deformation, damage the solar cells, lead to reduce the service life of modules.
- Clear snow on modules in a timely manner to avoid damage to modules caused by long-term snow accumulation and snow melting and freezing.
- Do not pierce the back-sheet when cleaning the back of the module.
- It is recommended to clean the modules in the early morning or evening when the light is not strong and the module temperature is low, especially in areas with high temperatures.
- Do not attempt to clean modules with features such as broken glass or the presence of exposed wires, which may be subject to electrical shock.
Visual inspection
Please carefully check the modules of the existence of visual defects,
focusing on the following items:
- Check whether the module glass is broken.
- Check if the front of the module is obstructed by obstacles or foreign objects.
- Check the module negative-sheet whether there is hot, negative film raised, burn through the traces and so on.
- Check whether the cell bus–bar is corroded, whether encapsulation materials of the module has delamination, bubbles, etc.
- Check the tightness of the bolts and the electrical connections at the connection points between the modules and the supporting rail.
Inspection of connector and cable
It is advisable to carry out a preventive check every 6 months and check the
following:
- Check Junction box adhesive for cracks or cracks.
- Check the connector interface sealing and whether there is loose, melt deformation, aging or corrode.
- Check that the cable connections are secure and that the modules are properly grounded.
- When module is found to be defective, consult a qualified service technician. If servicing is required, it should be serviced by qualified service technician.
Module exposure generates high voltages in the sun, so cover the modules with opaque material when servicing modules to prevent electrical shock.
Note:
- If found in the maintenance of any problems, feedback to the professional service personnel for confirmation;
- If using maintenance and repair measures not included in this manual, consult your local dealer for professional support.
AMENDED EDITIONS AND DATES
Version 1.1 was released in January 2022.
Internal file number
Shingled module installation manual V1.1
Headquarter
4th Fl., First Tower,
55, Bundang-ro, Bundang-gu,Seongnam-si, Gyeonggi-do,
Factory
Tongwei Solar(Hefei) Co., Ltd.
No.888 Changning Road, Hightech
Destrict, Hefei, P.R. China
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