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450W Canadian Solar Solar Panel. 450 solar panels

450W Canadian Solar Solar Panel. 450 solar panels

    0W Canadian Solar Solar Panel

    Mono 450W HiKu branded Canadian Solar is a single crystal battery is manufactured using Ku Modules cooling technology, based on Low Internal Current (LIC) Modules technology. Panels are equipped with the most advanced technologies today such as: Half-cut cells, PERC, Multi Busbars, Split panels. Canadian Solar panel capacity is 26% larger than conventional panels, reducing LCOE electricity production costs by 4.5%, system costs by up to 2.7%.


    Type: Monocrystalline Number of Cells: 144 cells
    Trademark: Canada Weight: 24.9 kg
    Photovoltaic efficiency: 20.37% Size: 2108 ˣ 1048 ˣ 40 mm
    CS3W 450MS
    Maximum Power (Pmax) 450 W
    Maximum power voltage (Vmp) 40.5 V
    Maximum power current (Imp) 11.12 A
    Open-circuit voltage (Voc) 48.7 V
    Short circuit current (Isc) 11.65 A
    Module photovoltaic efficiency 20.37%
    Operating temperature -40oC~85°C
    Maximum voltage 1000 V (IEC/UL) or 1500 V (IEC/UL)
    Module fire performance Type 1 (UL 1703) or Class C (IEC 61730)
    Max. series fuse rating 20 A
    Application classification Class A
    Power tolerance 0 ~ 5 W
    CS3W 450MS
    Maximum Power (Pmax) 335 W
    Maximum power voltage (Vmp) 37.7 V
    Maximum power current (Imp) 8.89 A
    Open circuit voltage (Voc) 45.6 V
    Short circuit current (Isc) 9.40 A
    Under Nominal Module Operating Temperature (NMOT), irradiation of 800 W/m2, spectrum AM 1.5, ambient temperature 20°C, wind speed 1 m/s.
    Cell type Mono-crystalline
    Cell arrangement 144 [2 X (12 X 6) ]
    Dimensions 2108 X 1048 X 40 mm (83.0 X 41.3 X 1.57 in)
    Weight 24.9 kg (54.9 lbs)
    Front cover 3.2 mm tempered glass
    Frame material Anodized aluminum, reinforced with crossbars
    J-Box IP68, 3 bypass diodes
    Cable 4 mm2 (IEC), 12 AWG (UL)
    Cable length (including connector) Portrait : 500 mm (19.7 in) / 350mm (13.8 in) (-); Horizontal: 1400mm (55.1 in);
    Connector Jack T4 series / H4 UTX / MC4-EVO2
    Packaging specification 27 pieces / pallet
    Per container 594 pieces
    Coefficient of power attenuation -0.36 % / °C
    Coefficient of voltage attenuation -0.29 % / °C
    Coefficient of current attenuation 0.05 % / °C
    Operating temperature of cell 41 /- 3 °C
    Certificate IEC 61215 / IEC 61730: VDE / CE / MCS / CEC AU UL 1703 / IEC 61215 performance: CEC listed (US) / FSEC (US Florida) UL 1703: CSA / IEC61701 ED2: VDE / IEC62716: VDE / IEC60068-2-68: SGS Take-e-way


    DAT is the official partner of Canadian Solar in Vietnam with more than 400 experienced staffs who are always ready to support 24/7 before and after sales. We are a Vietnamese enterprise committed to ensuring the quality of all products distributed nationwide and providing Smart solutions to help customers save time and costs.

    Another reason for you to rest assured to put your trust in us:




    Convergence of cutting-edge technologies

    This panel is equipped with the most modern technology in the field of solar power. Here are four technologies that have made this product’s reputation:

    – Half-cut cells: With this technology, the battery cells are cut in half, so the number of independently operated battery cells will double, from 72 to 156 cells on the same sheet size. Thereby reducing the current helps cooler panels when operating, thereby increasing the efficiency of solar power conversion. Besides, these factors also help the battery has a longer life than usual.

    – PERC: PERC technology stands for Passivated Emitter and Rear Cell. PERC helps improve the efficiency of the panel by allowing electrons to move more easily while increasing the light reflection on the back of the solar cell, helping to convert greater amounts of solar energy than usual.

    – Multi Busbars: The Busbar acts as the main path that conducts electrons from the battery cell to the outside circuit to form an electrical current. With a battery cell with many busbars, electrons are easier to concentrate to form more current. So the panels use many thin metal wires to guide the current, which is stable and less likely to be consumed.

    – Split panel: This technology divides panels into 2 independent parts. Instead of the traditional type, if a portion of the panel is shaded, the entire panel will be affected. Now, the impact level will be reduced by half, since the battery has been cut into 2 parts to operate independently.

    Rigorous inspection procedure to bring homogeneous products

    Before finishing and packing products, Canadian Solar panels must pass 359 different quality control points. Besides, due to being 100% manufactured by robots, millions of panels are uniformly quality. This helps investors not to worry about problems caused by the fault of the manufacturer, which takes time and mind to replace the faulty panels. Canadian Solar gives customers the peace of mind of using it for more than 35 years without any problems.

    Performance in the highest PTC condition in the world

    This is the leading important indicator for a solar panel. Unlike performance tested under ideal conditions, performance tested under PTC conditions (tests and assessments based on actual weather conditions) will most accurately reflect the productivity that the panels bring. The results show that the number reaches 93.13% on this panel, the highest in the world and far ahead of the remaining competitors. With this lofty index, the solar power conversion efficiency of the panels will almost not be significantly reduced in the erratic weather conditions in Vietnam, both in the hot and weak sunshine.


    Canadian Solar is the world’s leading designer and manufacturer of solar panels, with 18 years of experience and 13,000 employees globally. Canadian Solar has implemented many large-scale projects with a capacity of up to 46 GW all over the world.


    Products are recognized to ensure high quality according to European standards. Canadian Solar panels have met the standards of safety, health, life and environmental protection. Products are allowed to be sold in countries of the European Economic Area (EEA, etc.)

    CSA is the world’s leading organization in the field of safety testing. Products are certified by CSA to ensure high quality according to Canadian and US standards.

    Set of 3 certificates ISO 9001, ISO 14001 and BS OHSAS 18001 certified by TÜV Rheinland (the leading technical inspection association in the 3 major TÜVs in Germany)

    WEEE is an organization specializing in electrical and electronic waste standards. The optoelectronic devices and other equipment of Canadian Solar panels are manufactured and recycled to ensure compliance with the guidelines of WEEE.

    The VDE Testing and Certification Institute based in Offenbach (Germany) is one of the world’s most renowned independent testing organizations for electrical and electronic products. Testing and certification based on IEC61215 / 61730 standard.


    12 year product warranty

    We are committed to the quality of materials and craftsmanship in the manufacture of panels to maintain outstanding quality for 12 years.

    25 year linear performance warranty

    We guarantee your Canadian solar panels will reach their expected performance for 25 years. Specifically as follows: ensure that the product capacity is not less than 98% of the capacity stated on the panel in the first year. ensure that the capacity reduction per year is not more than 0.55% from year 2 to year 25 and the output power should not be less than 84.8% of the capacity stated on the panel label in year 25.

    PICC insurance

    The insurance program covers the official terms of Canada Solar, Inc.’s warranty, covering technical failures of PV modules that affect output and panel performance.

    During the warranty period, if the panel has a technical defect from the manufacturer, immediately PICC Insurance will cover the entire cost. PICC insurance is committed that the coverage shall not be irrevocable for 25 years (even if Canadian Solar defaults or goes bankrupt).

    0W Jinko Mono Solar Panel

    450W Jinko Mono Solar PanelDescriptionOverviewPerformance:High output and efficiency even under low light conditionsVersatility:Salt mist corrosion te.

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    Reviews and information on the best Solar panels, inverters and batteries from SMA, Fronius, SunPower, SolaX, Q Cells, Trina, Jinko, Selectronic, Tesla Powerwall, ABB. Plus hybrid inverters, battery sizing, Lithium-ion and lead-acid batteries, off-grid and on-grid power systems.

    June 18, 2023 Jason Svarc

    In the solar world, panel efficiency has traditionally been the factor most manufacturers strived to lead. However, a new battle emerged to develop the world’s most powerful solar panel, with many of the industry’s biggest players announcing larger format next-generation panels with power ratings well above 600W.

    The race for the most powerful panel began in 2020 when Trina Solar revealed the first panel rated at 600W. Not long after, at the SNEC PV Power Expo in China, JinkoSolar unveiled a 610W version of the Tiger Pro panel. Around the same time, Trina Solar announced that a more powerful 660W panel was in development. Amazingly, close to 20 manufacturers at SNEC 2020 showcased panels rated over 600W, with the most powerful being the Jumbo 800W module from JA solar. However, this panel was enormous at 2.2m high and 1.75m wide and will most likely not become commercially available.

    450w, canadian, solar, panel

    Despite the publicity around the many high-powered panels, many PV cell technologies enabling these higher power ratings are universal. Traditional commercial and residential panels have also increased in size and power, with 400W to 500W panels now standard. The considerable increase in power is primarily due to increases in efficiency thanks to many innovations, which we describe later in the article.

    Designed for utility-scale systems

    The main driver for developing larger, more powerful solar panels stems from the desire to decrease the cost of utility-scale solar farms and ultimately reduce electricity prices. Since larger panels require an equivalent amount of connections and labour compared to smaller panels, the installation cost per kW is reduced, resulting in lower overall cost and decreased LCOE. As explained below, the new high-powered panels are much larger than the ones used on residential rooftops. Those wishing to use ten 700W panels on their home rooftop to get an easy 7kW will be a little disappointed. At this stage, most high-powered panels will only be available for commercial and utility-scale systems, plus the extra-large size is not well suited and challenging to handle on most residential rooftops.

    The solar industry has been slowly shifting towards larger, higher-wattage panels. The front runners in the race were traditionally Trina Solar, Jinko Solar, Canadian Solar, Risen Energy and JA Solar as these well-known companies were the first to launch ultra-power panels with ratings above 600W over the last two years. However, more recently, Jolywood, Huasun and the lesser-known company Akcome have moved forward with panels rated above 700W utilising more efficient N-type TOPCon or heterojunction (HJT) cell technology.

    Interestingly, premium module manufacturers SunPower (now Maxeon) and REC are not racing to develop larger format high-power panels. Instead, they are focusing on supplying their traditional residential and commercial customer base with high-efficiency panels. That being said, Sunpower has revealed a larger 540W panel in the next-generation ‘Performance 5’ series.

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    Most Powerful Solar Panels

    List of the most powerful panels currently in production or soon to be released with a maximum panel size of 2.4m high x 1.35m wide. Availability and release dates may vary for different regions.

    Make Model POWER Cell size Cell type Efficiency % Avail
    Akcome iPower 7 730 W 210mm N-Type HJT Bifacial 23.5 % Q3 2023
    Huasun Himalaya G12 715 W 210mm N-Type HJT Bifacial 23.0 % Q1 2023
    Risen Energy Titan 710 W 210mm N-Type Bifacial 22.5% Q1 2023
    Jolywood JW-HD132N 700 W 210mm N-Type TOPCon 22.5 % Q2 2022
    Trina Solar Vertex N 690 W 210mm N-Type TOPCon 22.2 % Q2 2023
    TW Solar 210TNC 690 W 210mm N-Type TOPCon Bifacial 22.2 % Q2 2023
    EGING PV Aurora Pro 685 W 210mm N-Type TOPCon 22.0 % Q2 2023
    Canadian Solar HiKu7 675 W 210mm P-Type PERC 21.7 % Q2 2022
    Astronergy Astro 6 670 W 210mm P-Type PERC 21.6 % Q1 2022
    Yingli Solar Mono GG 670 W 210mm P-Type PERC 21.6 % Q1 2022
    Suntech Ultra X Plus 670 W 210mm P-Type PERC 21.6 % Q1 2022
    Seraphim S5 Bifacial 670 W 210mm P-Type PERC 21.6 % Q1 2022
    Talesun BiPRO 670 W 210mm P-Type PERC 21.6 % Q1 2022
    AE Solar Aurora 665 W 210mm P-Type PERC 21.4 % Q2 2022
    Jinko Solar Tiger Pro NEO 620 W 182mm N-Type TOPCon 22.3 % Q3 2021
    AIKO Hole Series 625 W 182mm N-Type Back Contact 23.7 % Q3 2023
    JA Solar Deep Blue 4.0X 625 W 182mm N-Type TOPCon Bifacial 22.4 % Q2 2023

    HC = Half-cut cells, MBB = Multi busbars. Maximum panel size = 2.4m high x 1.35m wide.

    Larger panel sizes

    In the past, most increases in power came from efficiency gains due to advances in solar PV cell technology. While that is partly a driver behind the massive jump in panel wattage, the main factor is the new larger cell and panel sizes being developed together with a higher number of cells per panel. These new cell formats and configurations mean the panels have become physically larger in size. Generally, these large-format panels are best suited for utility-scale solar farms or large commercial installations.

    Traditionally, solar panels were available in two main sizes. the standard format 60 cell panels (roughly 1.65m high x 1m wide) used for residential rooftops, and the larger format 72 cell commercial size panels (roughly 2m high x 1m wide). Then half-cut cell panels emerged in roughly the same size but with double the amount of half-size cells at 120 cells and 144 cells. Besides the standard sizes, a few premium manufacturers, such as SunPower and Panasonic, produce unique 96 and 104-cell panels.

    The industry-standard panel size for much of the last decade was built around the 156mm x 156mm or 6-inch square cell format. However, the new panel sizes emerging are up to 2.4m long and 1.3m wide and built around the larger 180 and 210mm wafer cell sizes. This is a size increase of 20% to 30% compared to the traditional 2.0m x 1.0m 72-cell panels, which naturally corresponds to a considerable boost in power.

    Larger cell sizes

    To decrease manufacturing costs and gain efficiency, most manufacturers moved away from the standard 156mm (6”) square cell wafer size in 2020 in favour of larger wafer sizes. While there are a variety of cell sizes under development, a few sizes have emerged as the new industry standard; these include 166mm, 182mm and 210mm. Many of the leading manufacturers, including Jinko, Longi and Canadian, aligned with the 182mm format. Trina Solar is pushing the larger 210mm wafer size, while Longi, the world’s largest mono silicon wafer manufacturer, uses 166mm and 182mm sizes, depending on the application.

    To remain competitive, many smaller volume manufacturers may need to align with one of the new wafer sizes to utilise common wafer and equipment suppliers. For a complete history and insight into wafer and PV cell sizing standards, this detailed article from PV Tech examines the various wafer and ingot sizes, technology changes, and manufacturing trends around current and future PV cells.

    Along with the different cell sizes, there is a myriad of new panel configurations built around the many cell combinations. The three most popular which have emerged are 66-cell (half-cut 132), 78-cell (half-cut 156), and 84-cell (half-cut 168) panels. The extra-large 210mm cells are also well suited to unique cell dividing formats such as 1/3 cut cells; where the square wafer is divided into three segments rather than the common half-cut or half-size cell.

    High-efficiency cells

    To achieve these impressive power ratings, panels and cells have not just increased in size, but cell efficiency has improved substantially using numerous new technologies (listed below) along with more advanced rear-side passivation techniques like TOPCon.

    • MBB. Multi-busbars
    • PERC/PERC. Passivated emitter rear cell
    • Heterojunction (HJT)
    • TOPCon. Tunnel-Oxide Passivating Contact
    • N-type silicon cells
    • High-density cells. Reducing inter-cell gaps

    Manufacturers are exploring ways to increase power and cell efficiency by spending big on research and development. N-type silicon wafers are one of the best ways to boost efficiency but have traditionally been more costly. However, the price gap between P-type and N-type silicon is reducing as the economies of scale lower the cost of manufacturing the high-performance N-type silicon wafers used as the basis for more efficient HJT and TOPcon cells. In the future, Perovskite cell technology is expected to become stable and viable, allowing manufacturers to create next-generation tandem cells with power levels up to 800W.

    MBB. Multi-busbars

    Of the many cell improvements, the most common technology used to increase efficiency has been multi-busbars (MBB). Traditional ribbon busbars (5BB or 6BB) are being rapidly phased out in favour of nine or more thin wire busbars (9BB). Some manufacturers, such as REC have even moved to 16 micro-wire busbars in the new Alpha panel series. Wider cells also mean more busbars can fit across the cell surface with 10 or 12 busbars cells also becoming more common.

    Bifacial panels featuring MBB are also growing in popularity due to the increased power output by utilising the rear side of the panel to achieve up to 20% or more power (roughly 80W extra). However, bifacial panels are generally only beneficial over light coloured surfaces such as light sandy or rocky ground used in large MW scale solar farms located in more arid areas.

    High-density Cells

    To further boost panel efficiency and increase power, manufacturers such as Trina Solar have introduced techniques to eliminate the vertical inter-cell gap between cells. Removing the typical 2-3mm vertical gaps and squeezing the cells together results in more panel surface area being available to absorb sunlight and generate power. Manufacturers have developed a number of techniques to minimise or eliminate the gap with the most common being to simply reduce the cell spacing from around 2.0mm to 0.5mm. The reason for this gap was due to traditional larger ribbon busbars requiring 2.0mm to bend and interconnect the front and rear of each cell. However, the transition to using much smaller wire busbars enabled the gap to be reduced significantly.

    LONGi Solar is another manufacturer that managed to reduce the inter-cell gap down to 0.6mm by using what the company describes as a “Smart soldering” method using integrated segmented ribbons. This new technology uses a unique triangular busbar design across the front surface of the cell, with a very thin flattened section that bends and runs behind the cell to form the interconnection.

    TR. Tiling Ribbon technology

    Jinko Solar, currently the world’s largest panel manufacturer, developed what the company refers to as Tiling Ribbon or TR cells. Tiling Ribbon cell technology is the elimination of the inter-cell gap by slightly overlapping the cells creating more cell surface area. This in turn boosts panel efficiency and power output. The tiling ribbon technology also dramatically reduces the amount of solder required through using inter-cell compression joining methods rather than soldering. Shingled cell panels, such as those used in the Sunpower Performance series, uses a similar technology where overlapping thin cell strips can be configured into larger format high-power panels.

    Several other leading manufacturers such as Q Cells have taken a similar approach to boost efficiency by completely eliminating the inter-cell gap. However, most manufacturers have taken the more common approach and reduced the inter-cell clearance as much as possible leaving a very small 0.5mm gap; this effectively removes the gap without having to develop new cell interconnection techniques.

    N-Type TOPCon silicon cells

    Cells built on an N-type silicon substrate offer improved performance over the more common P-type silicon due to a greater tolerance to impurities which increases overall efficiency. In addition, N-type cells have a lower temperature coefficient compared to both mono and multi P-type cells. N-type cells also have a much lower rate of LID or light-induced degradation and do not generally suffer from LeTID (light and elevated temperature induced degradation) which is a common problem with P-type cells.

    TOPCon or Tunnel Oxide Passivated Contact refers to a specialised rear side cell passivation technique that helps reduce the internal recombination losses in the cell and boosts cell efficiency. The process has been available for several years but is now becoming the new industry standard as manufacturers strive to increase efficiency and performance.

    Perc 450W Solar Power Panel Mono Half Cut 144 Cell 380W 440W 450 W 450W Solar Panels 450 Watt Panel Solar for Sale

    Half Cell Module comprises two separated and identical solalr cell arrays, which means the ordinary strings of cells are cut into halves, and these shorter strings compose which has separated current paths. When a module is shaded, only one side shaded array’s current will be impacted, while the other array will still be functionally producing power. Under this circumstance, when a module is shaded, the affected working areas of Blade will be 50% less.By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced.

    2.Less Mismatch Loss

    Instead of 6 internal strings of cells, half cell module has 26 shorter ones. This design effectively deals with the mismatchhappened between cells caused by shadow, out of sync performance degradation, etc.

    Model SWM435-144M SWM440-144M SWM445-144M SWM450-144M SWM455-144M
    Rated Maximum Power at STC 435W 440W 445W 450W 455W
    Open Circuit Voltage(Voc/V) 48.6 48.8 49.0 49.2 49.4
    Maximum Power Voltage(Vmp/V) 40.8 41.0 41.2 41.4 41.6
    Short Circuit Current(Isc/A) 11.4 11.47 11.54 11.61 11.68
    Maximum Power Current(Imp/A) 10.67 10.74 10.81 10.88 10.95
    Module Efficiency 19.6% 19.8% 20.0% 20.2% 20.4%
    Standard Test Condition(STC) Irradiance 1000w/m2, Cell Temperature 25 Centigrade, Air Mass 1.5
    Maximum Power-PMAX (Wp) 327.5 331.2 335 338.7 342.4
    Maximum Power Voltage(VMPP/V) 38.1 38.3 38.5 38.7 38.9
    Maximum Power Current-IMPP (A) 8.59 8.65 8.71 8.76 8.81
    Open Circuit Voltage-VOC (V) 46.4 46.6 46.8 47.0 47.2
    Short Circuit Current-ISC (A) 9.08 9.14 9.19 9.25 9.30


    High-transmittance and low reflectionInspection:GB15763.2-2005.ISO9050 High solar transmittance High mechanical strength

    Solar Cell

    High efficiency is 22% High shunt-resistance: adapt the several environmental conditions. By pass diode minimizes the power drop by shade. Excellent low light effectLow breakage rate


    Aluminium extrusion profile with prompt delivery. Available in customized surface finish. Excellent material for smooth and subtle edges. Extrusion for construction and other industrial purposes.

    Junction Box

    Unique split junction box design to minimize the loss caused by occlusion Combination of series circuit and parallel circuit, reduced internal power loss. IP68 Waterproofness, Full-Glue-Filled

    Packing Delivery


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