SoliTek UL 61730 Solid PV Photovoltaic Module Instruction Manual
- June 1, 2024
- SoliTek
Table of Contents
- SoliTek UL 61730 Solid PV Photovoltaic Module
- Product Usage Instructions
- FAQ
- General requirements
- Application
- Electrical installation
- Mechanical mounting
- Mounting with bolts
- Position of the junction box
- Maintenance
- Specifications
- CONTACT
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
SoliTek UL 61730 Solid PV Photovoltaic Module
Product Usage Instructions
Prior to installation, ensure that all necessary tools and equipment are available. Check that the installation area meets the structural requirements specified in the manual.
Follow the specific mounting instructions provided for each model:
- SOLID Bifacial B.60 and SOLID AGRO B.40 mounting
- BLACKSTAR B.108 and BLACKSTAR (SOLID Framed) B.60(40) mounting
Place the junction box in the designated position as outlined in the manual to ensure proper electrical connectivity.
Regular maintenance of the PV modules is essential for optimal performance. Refer to the maintenance section in the manual for detailed instructions on cleaning and inspection.
FAQ
- Q: Can I install the PV modules myself without professional assistance?
- A: It is recommended to have the PV modules installed by a professional who is trained in handling photovoltaic systems to ensure proper installation and safety compliance.
- Q: What should I do if I have questions during the installation process?
- A: If you encounter any issues or have questions while installing the PV modules, please reach out to your dealer or JSC SoliTek Cells for guidance and support.
General requirements
- Thank you for choosing SoliTek panels!
- Please read this guide entirely before the installation.
- The purpose of this document is to provide minimum requirements and recommendations for the safe and successful installation of SoliTek PV modules.
- This document also contains the requirements necessary to retain SoliTek PV module compliance with IEC 61215, IEC 61730, and UL 61730 standards.
- This guide contains basic information regarding JSC “SoliTek Cells” SOLID series photovoltaic modules, their installation and safe handling. All instructions should be read and understood before attempting installation. If there are any questions, please contact your dealer or JSC
- “SoliTek Cells” for further information.
- This documentation refers to the PV modules themselves and is not meant to be a complete installation manual for personnel not specifically trained to PV modules. It serves as a general but strictly mandatory to the Installer reference. Infringement or inaccurate observance of any clause of this documentation voids the warranty.
- The installer must understand and follow all applicable local, state, and federal regulations and standards for building construction, electrical design, fire, and safety, and must check with local authorities to determine applicable permitting requirements before attempting to install or maintain PV modules and should become familiar with the mechanical and electrical requirements for photovoltaic systems.
- Failure to follow instructions in this guide may damage system components, endanger personnel, damage property, or invalidate the panel warranty.
- Rooftop PV systems should only be installed on dwellings that have been formally analyzed for structural integrity and confirmed to be capable of handling the additional weighted load of PV system components, including PV modules, 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 (PPE).
- For your safety, do not install or handle PV modules under adverse conditions, including without limitation strong or gusty winds, and wet or frosted roof surfaces.
- The flat-plate PV module construction consists of a laminated assembly of solar cells encapsulated within an insulating material within two glass sheets.
- Keep this documentation in a safe place for future reference.
- Do not attempt to disassemble the module, and do not remove any attached nameplates or components! Doing so will void the warranty.
Handling
SoliTek PV modules must be transported in the supplied packaging only and kept
in the packaging until they are ready to be installed. Protect pallets against
movement and exposure to damage during transportation. 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 cool and dry location
until the PV modules are ready to be unpackaged.
SoliTek PV modules are heavy and should be handled with care. Never use the
junction box or cables as a grip. Do not exert mechanical stress on the
cables. Never step on PV modules or drop or place heavy objects on them. Be
careful when placing PV modules on hard surfaces and secure them from falling.
Broken glass can result in personal injury. PV modules with broken glass
cannot be repaired and must not be used. Broken or damaged PV modules must be
handled carefully and disposed of properly.
Application
Restrictions
SoliTek PV modules must be mounted on appropriate mounting structures
positioned on suitable buildings, the ground, or other structures suitable for
PV modules (e.g. carports, building facades or PV trackers). PV modules must
not be mounted on moving vehicles of any kind. Modules must not be installed
in locations where they could be submerged in water. Do not install modules
above 2000 m (6561 ft) altitude above sea level
Artificially concentrated light must not be directed on SoliTek PV modules.
Recommendations
- SoliTek recommends that PV modules be mounted at a minimum tilt angle of 10 degrees to allow for proper self-cleaning from rain.
- Partial or complete shading of a PV module or modules can significantly reduce system performance. SoliTek recommends minimizing the amount of shade throughout the year to increase the amount of energy produced by the PV modules.
- High system voltages could be induced in the event of an indirect lightning strike, which could cause damage to PV system components. The open area of wire loops should be minimized; to reduce the risk of lightning-induced voltage surges.
- Better module ventilation and shorter connection cables increase electrical energy production.
- For bifacial modules:
- It is recommended to increase the PV panel height from the ground so that more light can travel beneath the module and then reflect
- The bifacial gain increases significantly if modules are installed above white (high albedo value), light-reflecting surfaces.
Electrical installation
Safety
- PV modules can produce current and voltage when exposed to light of any intensity. Electrical current increases with higher light intensity. DC voltage of 50 Volts or higher is potentially lethal. Contacting the live circuitry of a PV system operating under light can result in lethal electric shock.
- De-energize PV modules by removing them entirely from light or by covering their front surface with an opaque material. Regard the safety regulations for live electrical equipment when working with modules that are exposed to any light. Use insulated tools and do not wear metallic jewelry while working with PV modules.
- In order to avoid arcing and electrical shock, do not disconnect electrical connections under load. Faulty connections can also result in arcing and electrical shock. Keep connectors dry and clean and ensure that they are in proper working condition. Never insert metallic objects into the connectors or modify them in any way to secure an electrical connection.
- Do not touch or handle PV modules with broken glass unless the PV modules are first disconnected, and you are wearing proper PPE. Avoid handling PV modules when they are wet unless cleaning the PV modules as directed in this manual. Never touch electrical and wet connections without protecting yourself with insulated gloves.
- The modules are qualified for Class of Protection against electrical shock Class II, by clause 4 of IEC 61730-1:2016, which can be used in systems operating at > 50 V DC or >240 W, where general contact access is anticipated and modules qualified for safety through UL 61730 within this application class are considered to meet the requirements of Safety Class II.
- Installing solar photovoltaic systems requires specialized skills and knowledge. It should be performed only by qualified and specially instructed personnel. The installer assumes all risk of injury, including risk of electric shock.
- Use only equipment, connectors, wiring and mounting hardware specifically designed for use in a photovoltaic system.
- Before any manipulation at an installed PV plant, switch it of first on AC side after on DC-side of the inverter or the charge controller.
- When disconnecting wires connected to a photovoltaic module that is exposed to light, an electric arc may occur. Arcs can cause burns, start fires, or otherwise create safety (up to lethal electric shock) problems.
- Check for remaining voltage before starting and observe the local safety relevant regulations for such working conditions.
- Under normal conditions, a photovoltaic module can produce more current and/or voltage (here: 30V DC) than reported at standard test conditions.
- Contact with a DC voltage of 30 V or more is potentially hazardous. Exercise caution when wiring or handling modules exposed to sunlight.
- Only connect modules with the same rated output current in series. If modules are connected in series, the total voltage is equal to the sum of the individual module voltages.
- Only connect modules or series combinations of modules with the same voltage in parallel. If modules are connected in parallel, the total current is equal to the sum of individual module or series combination currents.
- Always use the same type of module within a particular photovoltaic system.
- If the sum of short circuit currents of the parallel connected modules passes over the reverse current string diodes or fuses have to be used in each string of modules connected in parallel. These string diodes or fuses have to be qualified for the maximum expected current and voltage. The fuse rating value is also corresponding to the maximum reverse current that a module can withstand. The reverse current value can be found on the product label, in the product datasheet or in chapter 8 of the installation manual. Observe the instructions and safety precautions for all other components used in the system, including wiring and cables, connectors, DC-breakers, inverters, etc.
- Use appropriate safety equipment (insulated tools, dielectric gloves, shoes, etc.) approved for use on electrical installations.
Configuration
Under normal conditions, a photovoltaic module is likely to experience
conditions that produce more current and/or voltage than reported at Standard
Test Conditions (STC: 1000 W/m2, AM 1.5, and 25°C/77°F cell temperature) or
Bifacial Standard Test Conditions (BSTC for BLACKSTAR: 1075 W/m2, AM 1.5, and
25°C/77°F cell temperature; BSTC for SOLID Bifacial: 1097 W/m2, AM 1.5, and
25°C/77°F cell temperature). The short-circuit current (ISC) should be
multiplied by a factor of 1.25 and the open-circuit voltage (VOC) should be
multiplied by a factor of up to 1.25 based on the lowest and highest ambient
temperature recorded for the installation location when determining component
voltage ratings, conductor current ratings, fuse sizes, and size of controls
connected to the PV output.
Voltages are additive when PV modules are connected directly in series, and
module currents are additive when PV modules are connected directly in
parallel. PV modules with different electrical characteristics must not be
connected directly in series. The use of suitable third-party electronic
devices connected to PV modules may enable different electrical connections
and must be installed according to the manufacturer’s specified instructions.
The maximum voltage of the serial interconnection of the modules must be less
than the maximum certified module‘s system voltage. Also, the maximum input
voltage of the inverter and of the other electrical devices in the system must
be taken into account. The open circuit voltage of the array string needs to
be calculated at the lowest expected ambient temperature for the location. The
maximal system voltage for a module is indicated in the module’s datasheet.
Accordingly, for Bifacial or Blackstar (SOLID Framed) series modules, the
values of ISC and VOC under STC or BSTC marked on this 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 output. In the USA, refer to Section 690-8 of the National Electrical Code
(NEC) for an additional multiplying factor of 125 per cent (80 per cent de-
rating) which may be applicable.
Overcurrent protection device (OCPD)
When the potential reverse current of a PV string exceeds the rated SoliTek PV
module series fuse rating (values indicated at the module datasheet) an
overcurrent protection device (OCPD) must be used. An overcurrent protection
device is required for each series string if more than two series are
connected in parallel. In this case, it is needed to use one fuse per string
rated at 1.25 x Isc or higher (Isc is the PV module’s short circuit current at
STC). A PV fuse on each PV string will protect the PV modules and conductors
from overcurrent faults and help minimize any safety hazards. The PV fuse will
also isolate the faulted PV string so the balance of the PV system can
continue to generate electricity.
Fuse amp rating ≥ 1.25 x Isc
- Select the next higher standard rating at the catalogue of available PV Fuses.
- Isc = Short-circuit current of one module at Standard Test Conditions (STC).
- Considering the values of Isc of SoliTek modules, the right value of the PV Fuses to be used at the installation is 20 A. SoliTek recommends using PV fuses in both the positive and negative conductors.
Cable & wiring
SoliTek PV modules are provided with two standard, sunlight-resistant output
cables that are terminated with PV connectors ready for most installations.
The positive (+) terminal has a male connector while the negative (-) terminal
has a female connector. The module wiring is intended for series connections
(i.e., male (+) to female (-) interconnections) but can also be used to
connect suitable third-party electrical devices that may have alternative
wiring configurations so long as the manufacturer’s instructions are followed.
Use field wiring with suitable cross-sectional areas that are approved for use at the maximum short-circuit current of the PV module. All wiring must be double insulated, cross-linked cables with a minimum rating of 1,8 kV (over 1500 V voltage) and a minimum rated temperature of 90 ˚C (190 °F). Wire size not less than 4 mm² (12 AWG). The insulation type should be appropriate for the type of installation method used and must meet IEC 61730 and Safety Class II requirements.
- Insulation level: 1,8 kV (conductor-conductor).
- Temperature: -40°C up to +90°C (-40 °F up to 190 °F) at least.
- Construction of conductor: tinned stranded copper wire with copper purity greater than 99,9%.
- Primary insulation: cross-linked polyethylene (XLPE), sunlight and moisture resistant, flame retardant. Suitable for conduit and raceways installed underground.
- Insulation (jacket): thermoplastic, sunlight resistant, flame retardant, water resistant.
- Minimum cable outer diameter with insulation – 5,2 mm (2,05 inch).
- Minimum conductor cross-section – 4 mm² (12 AWG).
SoliTek recommends installers use only sunlight-resistant cables qualified for
direct current (DC) wiring in PV systems. Cables should be fixed to the
mounting structure in such a way that mechanical damage of the cable and/or
the module is avoided. Do not apply stress to the cables. For fixing, use
appropriate means, such as sunlight-resistant cable ties and/or wire
management clips. While the cables are sunlight resistant and waterproof,
where possible, avoid direct sunlight exposure and water immersion of the
cables.
The standard length of cables from the junction boxes is 1,2 m (47,24 inches).
It is intended that two panels would interconnect in the system.
Grounding
Functional grounding is not foreseen for SOLID modules. If it is performed,
local electric codes and regulations must be observed and grounding means have
to be isolated from live parts by reinforced insulation. Safety grounding must
be performed accordingly.
Blackstar (SOLID Framed) series modules grounding
For Blackstar (SOLID Framed) series modules the anodized corrosion-resistant
aluminium alloy frame is used for rigidity support. For safety utilization and
to protect modules from lightning and static electricity damage, the module
frame has to be grounded.
Holes marked with a grounding mark on the frame can only be used for
grounding. Do not drill additional grounding holes on the module frame.
The grounding conductor or strap may be copper, copper alloy, or any other
material acceptable for use as an electrical conductor under local electric
codes and regulations. The grounding conductor must then make a connection to
the earth using a suitable earth-ground electrode.
A bolted connection is required, it incorporates:
- A bolt size of M4.
- A toothwasher under the bolt head or a serrated bolt must penetrate nonconductive coatings like the anodized frame.
- A fastening nut suitable for M4 bolt.
- All hardware shall be of nonferrous metal, 300-series stainless steel, or suitably corrosion-protected.
- The recommended torque of locking the nut is 2 Nm÷2.2 Nm (1,48÷1,62 ft-lb).
- Grounding bolt has to go through all the connecting elements.
- Devices listed and identified for grounding metallic frames of PV modules are permitted to ground the exposed metallic frames of the module to grounded mounting structures.
- In any case, the grounding screws or other parts have to be used separately from the mounting parts of the module.
- Alternate grounding options built through a mounting system are acceptable as long as they have been IEC and UL-approved.
- Grounding resistance of grounding structure shall be reached according to local regulations, Eurocodes, or other legal normative references.
SOLID Bifacial and AGRO series grounding
Due to that SoliTek SOLID Bifacial and AGRO modules are frameless, no module
grounding is required. Other PV plant equipment should be grounded according
to the local and national electrical codes.
Connectors
Connectors for SoliTek PV panels are MC4 compatible. Keep MC4 compatible
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. Do not disconnect under load. 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.
Bypass diodes
The PV module’s junction box contains 3 bypass diodes (one in each part of the
split junction box; Schottky type) connected in parallel with the PV cell
strings. In the case of partial shading (hot-spot effect), the diodes bypass
the current generated by the non-shaded cells, thereby limiting module heating
and performance losses.
Bypass diodes are not overcurrent protection devices. Bypass diodes divert
current from the cell strings in the event of partial shading. The
characteristics of these diodes:
- Voltage rating – 50 V.
- Current rating – 20 A.
Fire class rating
- SoliTek SOLID Bifacial and Blackstar modules have been approved by the IEC fire test and achieved Flammability Class A. Fire test was performed at the inclination of 127 mm (5 inches) per 300 mm (11,81 inch), as prescribed in point A.2.5 of IEC 61730-2.
- SoliTek SOLID Bifacial has a fire type of 28 rating according to the UL1703-2 standard. SoliTek Blackstar has a fire type of 29 rating according to the UL1703-2 standard.
Mechanical mounting
The mechanical loads described in this manual are the test loads. For
calculating the equivalent maximum design loads, a safety factor of 1.5
(Design load×1.5 safety factor=Mechanical test load) needs to be considered in
compliance with the requirements of the local laws and regulations.
General requirements
- Modules can be mounted in landscape or portrait orientation. For the bifacial modules, to get notable bifacial gain, the distance between the bottom of the modules and the roof or ground surface shall be at least 0,8 m (31,50 inches). Also, the bifacial gain increases significantly if modules are installed above white, light-reflecting surfaces (under surfaces with high albedo value). If the mounting rails are installed across the module, the bifaciality effect will be lower due to back-side cell shading.
- Please observe the safety regulations and installation instructions included with the mounting system. If necessary, please contact the supplier directly for further information.
- The modules must be safely set onto the mounting rail. The whole rail supporting the photovoltaic system must be strong enough to resist potential mechanical pressures caused either by wind or snow, under local, regional and state safety (and other associated) standards. The mounting system shall be tested and inspected by the third-party testing institution with static mechanical analysis capacity under local national standards or international standards. 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.
- Make sure that the mounting rail will not deform or affect the modules when it expands as a result of thermal expansion. The module can appear thermal expansion and cold contraction, thus, the interval between two adjoining modules shall be no lesser than 10 mm (0,39 inch). Do not attempt to drill holes in the glass surface and the frames of the modules as this will void the warranty. The mounting method must not result in the direct contact of dissimilar metals with the aluminium frame of the modules which will result in galvanic corrosion.
- The mounting components must be made of durable, anti-corrosive and UV-resistant materials (stainless steel and anodized aluminium components are recommended).
Mounting with clamps
- Use at minimum 4 laminate clamps to fix modules on the mounting rails. Modules clamp metal parts should not come into contact with the front or back glass. When choosing this type of clamp-mounting method, use at least four clamps on each module; two clamps should be attached on each long side. Depending on local wind and snow loads, additional clamps may be required to ensure that modules can bear the load.
- Clamps tightening torque should be at least 15 Nm (11,06 ft-lb), but not greater than 20 Nm (14,75 ft-lb). Usually, 15 Nm (11,06 ft-lb), is reached when two aluminium profiles touch each other. When a module is installed in portrait orientation on the pitched roof which has >45° slope, an additional hook in the bottom of the module is required.
Table 1. Laminated, CLICK 6.8 type, clamp details
SOLID Bifacial B.60 and SOLID AGRO B.40 mounting
Transversal rails
SOLID Bifacial B.60 and SOLID AGRO B.40 mounting with four fixing points and
transversal rails.
Using four fixing points with clamps on 60 cell regular size modules allows to
achieve 3600 Pa of wind loadings and 5400 Pa of snow loads if 150 mm (5,91
inch) clamps are used. If 100 mm (3,94 inch) clamps are used 2400 Pa of wind
and snow loads can be achieved. It is normal that at loadings higher than 1600
Pa panels will touch the transversal rails. Please make sure that the rail
surface is smooth because even the smallest sharp edge can cause fast
mechanical failure. If the rail surface is not smooth, sharp edges occur, it
is recommended to use rail gaskets to even the touching surface.
5400 Pa wind load / 10500 Pa snow load
- Using eight 150 mm (5,91 inch) clamps allows for the panel to achieve 10500 Pa of snow loads and 5400 Pa of wind loads.
- It is normal that at loadings higher than 1600 Pa panels will touch the transversal rails. Please make sure that the rail surface is smooth because even the smallest sharp edge can cause fast mechanical failure.
- If the rail surface is not smooth, sharp edges occur, it is recommended to use rail gaskets to even the touching surface.
BLACKSTAR B.108 and BLACKSTAR (SOLID Framed)
B.60(40) mounting
When choosing this type of clamp-mounting method, use at least four clamps on
each module, two clamps should be attached on each side of the module. Module
clamps should not come into contact with the front glass and must not deform
the frame. Be sure to avoid shadowing effects on the solar cells from the
module clamps. The module frame is not to be modified under any circumstances.
Do not to block the drain hole of the frame. The length of the clamp should be
at least 30 mm (1,18 inch). The clamp must overlap the module frame by at
least 5 mm (0,2 inch), but no more than 10mm (0,4 inch).
BLACKSTAR B.108 mounting with clamps
- Clamping on the long side of the module frame with four fixing points allows for the panel to withstand 5400 Pa of snow and 2400 Pa of wind loads.
- Clamping on the long side of the module frame with six fixing points allows for the panel to withstand 8100 Pa of snow and 3600 Pa of wind loads.
- lamping on the corners of the module frame (either on the short or long side) with four fixing points allows for the panel to withstand 2100 Pa of snow and 1600 Pa of wind loads.
BLACKSTAR (SOLID Framed) B.60(40) mounting with clamps
- Clamping on the long side of the module frame with four fixing points allows for the panel to withstand 5400 Pa of snow and 2400 Pa of wind loads.
- Clamping on the long side of the module frame with six fixing points allows for the panel to withstand 8100 Pa of snow and 3600 Pa of wind loads.
- Clamping on the short side of the module frame with four fixing points allows for the panel to withstand 2400 Pa of snow and 1600 Pa of wind loads.
Mounting with bolts
- The module must be attached and supported by four M8 stainless steel bolts through the indicated mounting holes (Figure 12 and Figure 13) on the transversal bars. The torque on the clamp bolt has to be in the range of 8÷10 Nm (5,9÷7,38 ft-lb). Transversal bar positioning is shown in Figure 11.
- If additional mounting points are required depending on the local wind and snow loads, then a mounting solution with clamping hardware has to be chosen.
- Mounting with bolts can be done only through dedicated predrilled holes in the frame. Drilling new holes is forbidden and will void the warranty.
Position of the junction box
- For the distance between the junction box and the edge of the module or other dimensions of junction box position and areas please refer to Figures 14 (for SOLID series module), 15 and 16 (for Blackstar series module), respectively.
Maintenance
- In order to ensure optimum module performance, SoliTek recommends the following:
- If necessary, the glass front of the module can be cleaned with water and a soft sponge or cloth.
- A mild, non-abrasive detergent can be used to remove more stubborn stains.
- Check the electrical and mechanical connections periodically and make sure they are clean, safe, complete and secure.
- In the event of a problem, consult with a licensed/qualified person.
Specifications
Table 2. SOLID Bifacial B.60, BLACKSTAR (SOLID Framed) B.60 parameters table.
__
Parameter \ Model
| SOLID Bifacial B.60| BLACKSTAR
(SOLID Framed) B.60
| SOLID AGRO B.40| BLACKSTAR
(SOLID Framed) B.108
---|---|---|---|---
Test conditions| STC| STC| STC| STC
Nominal power| 370 W| 370 W| 245 W| 420 W
Electrical Data @STC| | | |
Maximum Power (Pmax), W| 370| 370| 245| 420
Voltage at Maximum Power (Vmpp), V| 34,86| 34,86| 23,07| 32,15
Current at Maximum Power (Impp), A| 10,62| 10,62| 10,62| 13,06
Open Circuit Voltage (Voc), V| 40,50| 40,50| 27,03| 37,68
Short Circuit Current (Isc), A| 11,18| 11,18| 11,18| 13,50
Thermal Data| | | |
Operating Temperature Range| -40oC ÷ 85oC (-40°F ÷ 185°F)| -40oC ÷ 85oC (-40°F
÷ 185°F)| -40o C ÷ 85oC (-40°F ÷ 185°F)| -40oC ÷ 85oC (-40°F ÷ 185°F)
Temperature Coefficient of Pmax| -0,362%/°C (°F)| -0,362%/°C (°F)| -0,362%/°C
(°F)| -0,30%/°C (°F)
Temperature Coefficient of Voc| -0,265%/°C (°F)| -0,265%/°C (°F)| -0,265%/°C
(°F)| -0,25%/°C (°F)
Temperature Coefficient of Isc| +0,036% /° C (°F)| +0,036% /° C (°F)| +0,036%
/° C (°F)| +0,045% /° C (°F)
Size & weight data| | | |
Length| 1778±5 mm
(70±0,2 inch)
| 1782 mm
(70,16 inch)
| 1778±5 mm
(70±0,2 inch)
| 1722 mm
(67,79 inch)
Width| 1057±5
(41,61±0,2 inch)
| 1061
(41,77 inch)
| 1057±5
(41,61±0,2 inch)
| 1134
(44,64 inch)
Thickness| 7,1 mm
(0,28 inch)
| 35 mm
(1,38 inch)
| 7,1 mm
(0,28 inch)
| 30 mm
(1,18 inch)
Weight| 30 kg
(66,14 lb.)
| 24 kg
(52,91 lb.)
| 30 kg
(66,14 lb.)
| 25 kg
(55,11 lb.)
Mounting method| | | |
Reference to chapter| 6.3| 6.4| 6.3| 6.4
Other| | | |
Maximum reverse current, A| 20
Fire class,
IEC 61730/UL 61730
| A/Type II
Maximum system voltage, V| 1000
The electrical characteristics are within the indicated values of ISC (ϕISC)
±3%, VOC (ϕVOC) ±3,5% and PMPP (ϕPmax) ±5%, under Standard Test Conditions
(STC) (irradiance of 1000 W/m², AM 1.5 spectrum, and a cell temperature of
25°C / 77°F) and Bifacial Standard Test Conditions (BSTC for BLACKSTAR: 1075
W/m2, AM 1.5, and 25°C/77°F cell temperature; BSTC for SOLID Bifacial: 1097
W/m2, AM 1.5, and 25°C/77°F cell temperature)).
All SoliTek SOLID PV panels correspond to electrical safety class II.
Disclaimer of liability
Since SoliTek can’t control the installation, operation, application and
maintenance of the photovoltaic system according to this instruction. SoliTek
does not accept responsibility and expressly disclaims liability for any loss,
damage or expense arising out of or in any way connected with such
installation, operation, use or maintenance.
SoliTek will not take any responsibility for any possible violation of patent
rights and third-party rights that are related to the application of the solar
energy system. No permission for patents is given through implication.
The information of this instruction is from the knowledge and experiences of
SoliTek. However, the instructions and suggestions of this instruction do not
make an external or internal guarantee. SoliTek reserves the right to revise
this instruction, products and all the information about products without
prior notification to customers.
CONTACT
UAB „Soli Tek cells”
- Mokslininku str. 6A, Vilnius LT 08412
- Im. k. / Reg. No: 302427915
- PVM mok. k. / VAT code: LTI00005059414
A.s. / IBAN: LT86 4010 0510 0372 9468
- Bankas / Bank: Luminor Bank AB
- Banko kodas / Bank code 40100
- SWIFT code: HABALT22
A.s. / IBAN: LT85 7300 0101 3111 5366
- Bankas / Bank: Swedbank Bank AB
- Banko kodas / Bank code 73000
- SWIFT code: HABALT22
- +370 (5) 263 8774
- info@solitek.eu.
- www.solitek.eu.
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