SHARP SIM02E-005A Solar Panel Instruction Manual
- June 5, 2024
- Sharp
Table of Contents
- IMPORTANT SAFETY INSTRUCTIONS
- GENERAL INSTRUCTIONS
- SITE SELECTION
- TILT ANGLE
- WIRING
- GROUNDING
- MOUNTING
- MAINTENANCE
- Maximum series configuration: please refer to Table 1
- Maximum parallel configuration: (Parallel connection of each a string shall
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SIM02E-005A
PLEASE READ THIS MANUAL CAREFULLY BEFORE INSTALLING OR USING THE PV MODULES.
PLEASE PASS ALONG THE ATTACHED USER MANUAL TO YOUR CUSTOMER.
INSTALLATION MANUAL
– Crystalline Photovoltaic Module –
MODEL
NU-JC375
IMPORTANT SAFETY INSTRUCTIONS
This manual contains important safety instructions for the PV module that must
be followed during the maintenance of PV modules.
To reduce the risk of electric shock, do not perform any servicing unless you
are qualified to do so.
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The installation must be performed by a certified installer /servicer to ensure system integrity and safety.
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The installation is only allowed after referring to and understanding this INSTALLATION MANUAL. If you don’t have your personal copy, please contact your installer or local SHARP office listed on the SHARP Solar website: URL: http://global.sharp/solar/en/
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Do not pull the PV cables.
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Do not touch any surface of the PV module.
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Do not place/drop objects onto the PV modules.
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Do not disassemble or attempt to repair the PV module by yourself.
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Do not drop the PV module.
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Do not damage, pull, bend, or place heavy material on cables.
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Upon completion of any service or repairs, ask the installer/servicer to perform routine checks to determine that the PV modules are in safe and proper operating condition.
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When replacement parts are required, be sure the installer/servicer uses parts specified by the manufacturer with the same characteristics as the original parts. Unauthorized
substitutions may result in fire, electric shock, or another hazard. -
Consult your local building and safety department for required permits and applicable regulations.
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As a result of sliding snow, the mechanical load increases when the number of PV module rows in the matrix of a PV installation increases. When mounting the PV module in the portrait orientation for more than 3 rows, the accumulated snow load may cause the lower edge of the PV module frame to deform. Take necessary measures (e.g. snow stopper) to avoid possible damage.
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Periodically remove any overhanging snow and/or ice from the PV module framework as it may cause deformation of the PV module frame.
CAUTION: HIGH VOLTAGE
To reduce the risk of electric shock, do not touch.
GENERAL INSTRUCTIONS
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INTRODUCTION
This INSTALLATION MANUAL contains essential information for the electrical and mechanical installation that you must know before installing SHARP PV modules. This also contains safety information you need to be familiar with. All the information described in this manual is the intellectual property of SHARP and is based on the technologies and experiences that have been acquired and accumulated in the long history of SHARP. This document does not constitute a guaranty, expressed or implied.SHARP does not assume responsibility and expressly disclaims liability for loss, damage, or expense arising out of or in any way connected with the installation, operation, use, or maintenance of the PV modules. No responsibility is assumed by SHARP for any infringement of patents or other rights of third parties that may result from the use of the PV module. SHARP reserves the right to make changes to the product, specifications, or INSTALLATION MANUAL without prior notice. -
COMPONENTS
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GENERAL INFORMATION (INCLUDING WARNING AND SAFETY)
The installation of PV modules requires a great degree of skill and should only be performed by a qualified licensed professional, including licensed contractors and licensed electricians. Please be aware that there is a serious risk of various types of injury occurring during the installation including the risk of electric shock. All SHARP PV modules are equipped with permanently attached junction boxes that will accept a variety of wiring applications or with a special cable assembly for ease of installation, and they do not require special assembly.
GENERAL WARNING
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PV modules are heavy. Handle with care.
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Before you attempt to install, wire, operate, and maintain the PV module, please make sure that you completely understand the information described in this INSTALLATION MANUAL.
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Contact with electrically active parts of a PV module such as terminals can result in burns, sparks, and lethal shock whether the PV modules are connected or not.
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PV modules produce electricity when sufficient sunlight or other sources illuminate the PV module surface. When the PV modules are connected in series, voltage is cumulative. When the PV modules are connected in parallel, the current is cumulative. As a result, a large-scale PV system can produce high voltage and current which could present an increased hazard and may cause serious injury or death.
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Do not connect the PV modules directly to the loads such as the motor since the variation of the output power depending on the solar irradiation causes damage to the connected motor.
1: In the case of a brushless motor, the lock function becomes active and the Hall IC is most likely to be damaged.
2: In the case of a brush-type motor, the coil is most likely to be damaged. -
In case of snow build-up, snow would slide easier on the smooth surface of the PV module than in other parts of the roof. Snow may suddenly slide, fall off the roof and hit nearby objects/areas. Take preventive measures (e.g. snow stopper) when there is a possible risk such case would cause an injury or damage.
GENERAL SAFETY
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Consult local codes and other applicable laws concerning required permits on regulations for installation and inspection requirements.
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Before installing a PV module, contact appropriate authorities to determine permit, installation, and inspection requirements that should be followed.
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Install PV modules and ground frames in accordance with applicable rules and regulations.
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PV modules should be installed and maintained by qualified personnel. Only installer/servicer personnel should have access to the PV module installation site.
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No matter where the PV modules are installed, either roof-mounted construction or any other type of structure above the ground, appropriate safety practices should be followed and required safety equipment should be used in order to avoid possible safety hazards. Note that the installation of some PV modules on roofs may require the addition of fireproofing, depending on local building/fire codes.
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In the case that the PV modules are non-integral type, the PV module is to be mounted over a fire-resistant roof.
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Use PV modules with the same cell size within series.
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Follow all safety precautions of other components that are used in the system.
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In order to avoid a risk of injury or electrical shock, do not allow anyone to approach the PV module if the person has little knowledge of the PV module or the measures that should be taken when PV modules are damaged.
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Do not shade portions of the PV module surface from the sunlight for a long time. The shaded cell may become hot (hot spot phenomenon) which results in solder joints
peeling off. Shading causes a drop in generated power and/or operation failure of the PV modules. -
Do not clean the glass surface with chemicals. Do not let water collect on the glass surface for a long time. This creates a risk of white efflorescence (glass disease) which may result in the deterioration of energy generation.
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Do not install the PV module horizontally. It may cause dirt or white efflorescence (glass disease) due to water.
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Do not cover the water drain gap of the frame. There is a risk of frost damage when the frame is filled with water cumulation.
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If there is a risk of sliding snow, an appropriate measure has to be taken so that PV module frames on the lower edge of PV modules will not be damaged.
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Do not expose the PV module to sunlight concentrated with mirrors, lenses, or similar means.
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Turn off inverters and circuit breakers immediately, should a problem occur.
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In case the glass surface of a PV module is broken, wear goggles and tape the glass to keep the broken pieces in place.
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A defective PV module may generate power even if it is removed from the system. It may be dangerous to handle the PV module while exposed to sunlight. Place a defective PV module in a carton so PV cells are completely shaded.
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In the case of a series connection, the maximum open-circuit voltage must not be greater than the specified maximum system voltage. The voltage is proportional to the number of modules in series. In case of parallel connection, please be sure to take the proper measures (e.g. fuse for protection of PV module and cable from over current, and/or blocking diode for prevention of unbalanced strings voltage) to block the reverse current flow. The current may easily flow in a reverse direction.
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Keep PV modules away from children.
HANDLING SAFETY
- Do not cause an excessive load on the surface of the PV module or twist the frame. The glass surface or cells in the PV module can easily break.
- Do not stand or step on the PV module. The surface glass of the PV module is slippery. Besides, the weight may cause PV module damage.
- Do not hit or put excessive load on the glass or back sheet. The PV cell is very thin and can be easily broken.
- Do not scratch or hit the back sheet. The back sheet is vulnerable.
- Do not damage the junction boxes or do not pull the cables. The junction boxes can crack and break.
- Never touch the junction box or the end of output cables with bare hands when the PV module is irradiated. Cover the surface of the PV module with a cloth or other suitable sufficiently opaque material to isolate the PV module from incident light and wear rubber gloves when handling the wires to avoid electric shock.
- Do not scratch the output cable or bend it with force. The insulation of the output cable can break and may result in electricity leakage or shock.
- Do not pull the output cable excessively. The output cable may unplug and cause electricity leakage or shock.
- Do not drill holes in the frame. It may compromise the frame strength and cause corrosion.
- Do not scratch the insulation coating of the frame (except for the grounding connection). It may cause corrosion of the frame or compromise the framework strength.
- Do not touch the PV module with bare hands. The frame of the PV module has sharp edges and may cause injury.
- Do not drop the PV module or allow objects to fall down on the PV module.
- Do not concentrate sunlight artificially on the PV module.
- Do not hold the PV module on one side. The frame may bend or twist. Hold the PV module on opposite sides.
INSTALLATION SAFETY
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Always wear protective headgear, insulating gloves, and safety shoes (with rubber soles). Do not wear metallic jewelry to prevent electric shock during installation.
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Keep the PV module packed in the carton until installation.
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Do not touch the PV module unnecessarily during installation. The glass surface and the frames get hot. There is a risk of burn or electric shock.
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Do not work in the rain, snow, or windy conditions.
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Use dry insulated tools.
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Do not drop tools or hard objects on PV modules
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When working at heights, wear a safety belt and take care not to drop any items (e.g., PV module or tools).
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Make sure flammable gases are not generated near the installation site.
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Completely cover the PV module surface with an opaque material during PV module installation and wiring.
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Plugin the connector tight and ensure the wiring work. Make sure that the connectors have been locked by a snap-in latch. Any treatments over the connectors which
may allow unlocking the snap-in latch shall not be done. -
Due to the risk of electrical shock, do not perform any work if the terminals of the PV module are wet.
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Do not touch the junction box and the end of output cables, the cable ends (connectors), with bare hands during installation or under sunlight, regardless of whether the PV module is connected to or disconnected from the system.
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Do not unplug the connector if the system circuit is connected to a load.
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Do not stomp on the glass at work. There is a risk of injury or electric shock if the glass is broken.
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Do not work alone (always work as a team of 2 or more people).
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Do not damage the back sheet of PV modules when setting the mounting and/or equipotential bonding by bolts.
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Do not damage the surrounding PV modules or mounting structure when replacing a PV module.
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Bind cables by the insulation locks. Drooping down cables from the junction box could possibly cause various problems such as animal biting, and electricity leakage in
the puddle. -
Take proper measures for preventing the laminate (consisting of resin, cells, glass, back sheet, etc.) from dropping out of the frame in case the glass is broken.
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Plastic components such as cables or connectors shall be located so that they will not be exposed to direct sunlight after installation to prevent degradation of them.
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If batteries are used with PV modules, follow the safety precautions of the battery manufacturer.
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In case of extreme snow build-up, the weight of the snow may cause the PV module’s frame to deform. Take appropriate preventive measures to minimize any possible
resulting damage.
SITE SELECTION
In most applications, the PV modules should be installed in a location where
there is no shading throughout the year. In the Northern Hemisphere, the PV
modules should typically face south, and in the Southern Hemisphere, the PV
modules should typically face north.
Please make sure that there are no obstructions in the surroundings of the
site of installation. TAKE PROPER STEPS in order to maintain reliability and
safety, in case the PV modules are used in areas such as: Heavy snow
areas/Extremely cold areas/Strong wind areas/Installations over, or near,
water/Areas where installations are prone to saltwater damage/corrosive gas
environment/ Small islands or desert areas.
The results of the ammonia test and the salt-mist-corrosion test on the PV
modules, carried out under such strict test conditions, should be disclosed
for reference purposes only. The decision on whether the PV modules are
suitable and compatible for each installation field will depend on the user’s
judgment and responsibility.
TILT ANGLE
The tilt angle is the measurement between the PV module and a horizontal
ground surface. The PV module generates the maximum output power when it faces
the sun directly.
5 degrees or more is recommended for the tilt angle of the PV module for
maintenance (See 9. Maintenance).
For the standalone systems with a battery where the PV modules are attached to
a permanent structure, the tilt angle of the PV modules should be determined
to optimize the performance when the sunlight is the scarcest. In general, if
the electric power generation is adequate when the sunlight is the scarcest,
then the angle chosen should be adequate during the rest of the year. For
grid-connected installations where the PV modules are attached to a permanent
structure, it is recommended to tilt the PV module at an angle equal to the
latitude of the installation site so that the power generation from the PV
module will be optimum throughout the year.
WIRING
To ensure proper system operation and to maintain your guarantee, observe the
correct cable connection polarity (Figures 1 & 2) when connecting the PV
modules to a battery or to other PV modules. If not connected correctly, the
bypass diodes could be destroyed.
PV modules can be wired in series to increase voltage. Connect wires from the
positive terminal of one PV module to the negative terminal of the next PV
module. Figure 1 shows PV modules connected in series.
Connect PV modules in parallel to increase current. Connect wires from the
positive terminal of one PV module to the positive terminal on the next PV
module. Figure 2 shows PV modules connected in parallel.
GROUNDING
The frame grounding must consider the local requirement and regulations at the
installation site. When grounding is required, please refer to the below
example connection (Figure 3). Please be careful in arranging the system
ground so that the removal of one PV module from the circuit will not
interrupt the grounding of any other PV modules.
The PV modules should be grounded to the same electrical point as described
below.
You can use a hole with the appropriate symbol for equipotential bonding on the side frame for either a bolt, nut, and washer grounding the PV module to the frame, a ground lug fastened by bolt or screw, or an appropriate screw (hardware not provided). An example of an acceptable ground connection using a bolt, nut, and washer retaining a ground lug is shown in Figure 3. In a connection of this type, the hardware (such as a toothed locked washer/star washer) must score the frame surface to make electrical contact with the frame. The ground wire must be considered within the local requirement of local regulations at the site of installation.
MOUNTING
Please make sure that all the information described in the INSTALLATION MANUAL
is still valid and proper for your installation. The mounting method has been
verified by SHARP and NOT CERTIFIED by a third-party organization.
The approved way to mount SHARP PV modules to a support structure is described
in this INSTALLATION MANUAL.
Although SHARP does not specify or warrant frame clamps or clips, using frame
clamps (not provided) or clips (not provided) is possible when they are
designed for PV modules and with minimum dimensions on the sides of the PV
module in accordance with the instructions and drawings provided. If using
frame clamps or clips, the PV modules should be fixed rigidly and there shall
be no damage to the PV modules by deforming the mounting structure against the
design load.
The SHARP PV module guarantee may be void if customer-selected frame clamps
are improper or inadequate for PV module properties (including strength or
material) or installation. Note that if metal clamps are used, there must be a
path to the ground from the clamps, (for instance, using star washers in the
clamp hardware set). Please review the descriptions and drawings carefully;
not mounting the PV modules according to one of these methods may void your
guarantee. The PV module has passed the test sequence which contains 3 cycles
each performed at 5,400 Pa positive and 2,400 Pa negative loading in
accordance with IEC61215-2. The system designer shall be responsible to ensure
protective structures so that the module can bear the loads that are different
from the test condition defined in the IEC standard.
Support structures that PV modules are mounted on should be rigid. SHARP PV
modules are designed to ensure optimal electrical performance under the
condition that they are mounted on rigid support structures. Deformation of
the support structure may damage the PV module with its electric performance.
When mounting the PV module on the structure, ensure that no corner has a
displacement of more than 2mm per every 1000mm of the diagonal. The mounting
structure shall enable the PV module to deflect freely under wind and/or snow
load so as not to make a direct impact on the center of the PV module. (i.e.
min. 10 cm from the roof surface to the bottom face of the PV module frame).
The installer shall be responsible for the selection and construction of the
support structure.
MAINTENANCE
The PV modules are designed for long life and require very little maintenance.
If the angle of the PV module is 5 degrees or more, normal rainfall is
sufficient to keep the PV module glass surface clean under most weather
conditions. If dirt build-up becomes excessive, use only a soft, damp cloth
and water to clean the glass. If cleaning the back of the PV module is
required, take utmost care not to damage the backside materials. In order to
ensure the operation of the system, check the connection of wiring and the
state of the jacket of wires occasionally.
The PV modules are equipped with anti-reflective coating glass, do not touch
the glass since fingerprints or stains will easily mark. If dirt build-up
becomes excessive, clean the glass surface with water only.
INSTALLATION INSTRUCTIONS -PHOTOVOLTAIC MODULES-
1. INSTALLATION
Mounting Using Clamps:
The PV modules can be mounted with clamps (clips) as defined in the following.
Note that the mounting clamps should meet the required dimensions as defined
in Figure1. Note that the CLAMP CENTER POSITION from the module corner should
be located in the range as specified in the Annex. All clamps shall hold the
module frame completely within their width. Please be aware that the module
under heavy load would get serious deflection which could cause cell cracks
that affects power degradation. The PV module must be supported on the array
system and must overlap the array rail by at least 10mm.
Mounting Using Frame Bolt Holes:
The modules may be fastened to support using the bolt holes in the bottom of
the frames at any of locations shown in the Annex. The module should be
fastened with four (4) M8 bolts. Recommended torque is 12.5 Nm.
2. ELECTRICAL INSTALLATION INSTRUCTION
Cable characteristics
Conductor size: 4.0mm2, Cable type: XLPE cable (H1Z2Z2-K)
Maximum DC voltage: 1.5kV
Ambient temperature: -40°C to +90°C
Maximum conductor temperature: 120 °C
Figure1. Clamps (Clips) requirement
- Clamp: Al alloy, 3 mm Min. thickness
- Catch length (50 mm Min.)
- Covering depth (7 mm Min. on the frame)
- Supporting depth (10 mm Min.)
- The frame (applicable to all frame sections)
- Array rail
(applicable to parallel or crossed mounting)
PV module configuration (Recommend)
Maximum series configuration: please refer to Table 1
Maximum parallel configuration: (Parallel connection of each a string shall
be conducted with the following two options. Any other parallel connections
are prohibited.)
a) Case of using the diodes; 1 diode per maximum 2 parallel strings (Connect a
diode or more in series for every string or every 2 parallel strings for
protection of PV module from reverse current overload.)
b) Case of using the fuses; 1 fuse per every string (Connect a fuse for every
single string for protection of PV module from the reverse current overload.)
Connection cables requirement
The PV module shall be mated to the same connectors;
Type: MC4 (System voltage 1,000V)
Brand: Staubli Electrical Connectors
In case connectors will be replaced by qualified personnel according to the
mounting instructions of the manufacturer of the new connectors, the
guarantees on the module itself, will remain valid according to the applicable
terms.
3. WARNING
Keep all PV MODULES and electrical CONNECTORS clean & dry before
installation.
4. Disposal
Dispose of PV modules properly. For Information about the proper disposal,
contact your local recycling site.
ELECTRICAL OUTPUT AND THERMAL CHARACTERISTICS
Rated electrical characteristics are within ±10 percent of the indicated
values of Voc, Isc, and +5/-0 percent of Pmax, under STC (standard test
conditions) (irradiance of 1000W/m2, AM 1.5 spectrum, and a cell temperature
of 25°C (77°F)).
Table-1. Electrical characteristics (at STC )
Model name| Maximum Power (Pmax )| Tolerance| Open-Circuit Voltage (Voc)|
Short-Circuit Current (Isc)| The voltage at the point of max. Power (Vmpp)|
Current at point of max. Power (Impp)| Maximum system voltage| Over-Current
Protection| Class for protection against electrical shock| Maximum series
configuration(*)
---|---|---|---|---|---|---|---|---|---|---
NU-JC375| 375W| +5%/-0%| 41.08V| 11.62| 34.63| 10.83| 1,000V| 20A| Ⅱ| 20
- The maximum series number of modules depends on the local conditions. These values are calculated under the condition of Voc at -40 °C.
Under normal conditions, a PV module is likely to experience conditions that produce more current and/or voltage than reported at Standard Test Conditions. Accordingly, the values of Isc and Voc marked on this PV module should be multiplied by a factor of 1.25 when determining component voltage ratings, conductor current ratings, fuse sizes, and size of controls connected to the PV module output.
The PV module has been qualified in an environmental temperature range of -40 °C to +40 °C and up to 100% relative humidity as well as rain, and the altitude up to 2,000m in accordance with IEC61730.
Class for protection against electric shock
This PV module is classified as “Class Ⅱ ” according to IEC61730. These PV
modules are intended for installation where general user access and contact to
insulated live parts are anticipated.
FIRE RATING
This PV module is rated as “Fire safety class C” according to IEC61730-2:2004
or UL790.
Annex
(normative)
【Test load】
Table.A1-1 Test load using clamps on long frames (see Fig. A1)
clamp center position (e: mm) | test load according to IEC61215 |
---|---|
downward force | upward force |
240 < e <335 | 5,400Pa |
0 < e <441 | 2,400Pa |
Table.A2-1 Test load using clamps on short frames (see Fig. A2)
clamp center position (e: mm) | test load according to IEC61215 |
---|---|
downward force | upward force |
0< e <262 | 1,800Pa* |
Table.A3-1 Test load using Bolt Holes (see Fig. A3, A3-1)
bolts & nuts (position of using holes) | test load according to IEC61215 |
---|---|
downward force | upward force |
4points at “a” holes | 5,400Pa |
Table.B-1 Test load using clamps on long & short frames (see Fig. B)
clamp center position (L, S: mm) | design load according to IEC61215 |
---|---|
downward force | upward force |
0< L <441, 0< S <262 | 1,800Pa* |
【Design load】
Table.A1 Design load using clamps on long frames (see Fig. A1)
clamp center position (e: mm) | design load according to IEC61215 |
---|---|
downward force | upward force |
240 < e <335 | 3,600Pa |
0 < e <441 | 1,600Pa |
Table.A2 Design load using clamps on short frames (see Fig. A2)
clamp center position (e: mm) | design load according |
---|---|
downward force | upward force |
0< e <262 | 1,200Pa |
Table.A3 Design load using Bolt Holes (see Fig. A3, A3-1)
bolts & nuts (position of using holes) | design load according to IEC61215 |
---|---|
downward force | upward force |
4points at “a” holes | 3,600Pa |
Table.B Design load using clamps on long & short frames (see Fig. B)
clamp center position (L, S: mm) | design load according |
---|---|
downward force | upward force |
0< L <441, 0< S <262 | 1,200Pa |
The Test load has been calculated with a safety factor of 1.5 from the design load.
- Test procedure according to IEC 61215-2:2016. The test results are based on the internal evaluation.
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