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Full Black 182mm 108Cells 430W 445W 455W Solar Panel Price

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  • 182mm 108 cell full black monocrystalline solar panel
  • ‌Full black 182mm 108cells 430W-455W TOPCon monocrystalline solar panel
  • 182mm 430-455W TOPCon high efficiency monocrystalline solar panels
  • 430-455W Full Black Premium Solar Panel with 182mm 108 Cells Advanced Technology
  • 182mm 108 cell full black monocrystalline solar panel
  • ‌Full black 182mm 108cells 430W-455W TOPCon monocrystalline solar panel
  • 182mm 430-455W TOPCon high efficiency monocrystalline solar panels
  • 430-455W Full Black Premium Solar Panel with 182mm 108 Cells Advanced Technology
  • 1. Higher Efficiency & Extended Lifespan
    N-type modules generate 10-30% more power than P-type cells, enabled by passivating contact technology (e.g., TOPCon). Designed for a 30-year lifespan, they align with perovskite coatings that now achieve 20-30-year durability, ensuring long-term stability.

    2. Zero Light-Induced Degradation (LID)
    N-type cells eliminate LID—common in P-type cells due to boron-oxygen defects—ensuring stable efficiency under sunlight. This is validated by perovskite coating advancements that resist environmental degradation.

    3. Advanced Passivation Technology
    Passivating layers in N-type cells reduce energy loss, boosting efficiency and longevity. Similar strategies in perovskite cells address defects, enhancing performance retention.

    4. Cross-Technology Synergy
    N-type silicon’s LID-free stability and perovskite’s durable coatings enable tandem solar designs, combining high efficiency (>30%) and multi-decade reliability for next-gen renewable energy systems.
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FAQS

Q :

Why are N-type modules more efficient and longer-lasting?

A :

N-type cells use passivating contacts (e.g., TOPCon) to reduce energy loss, achieving 10–30% higher output than P-type. Combined with perovskite coatings, they ensure 30-year stability and minimal degradation.

Q :

How do N-type cells avoid light-induced degradation (LID)?

A :

N-type cells eliminate boron-oxygen defects found in P-type cells, preventing LID. Perovskite coatings further resist environmental wear, ensuring stable efficiency under sunlight.

Q :

What makes passivation critical for solar efficiency?

A :

Passivating layers in N-type cells minimize electron loss at surfaces, boosting efficiency. Similar defect-reduction strategies in perovskite cells enhance performance retention over decades.

Q :

How do N-type and perovskites work together?

A :

N-type’s LID-free stability pairs with perovskite’s durable coatings in tandem designs, achieving >30% efficiency and multi-decade reliability for next-gen solar systems.

Mechanical Parameters

Layout108Cells (6×18)
Dimensions1722 × 1134 × 30mm
Weight21.0kg
Junction boxIp68 rated (3 by pass diodes)
Packaging36pcs/box, 216pcs/20'GP, 936pcs/40'HQ

Electrical Characteristics (STC*)

Module Type: MS455M-54H430435440445450455
Maximum power (Pmax/W)430435440445450455
Open Circuit Voltage (Voc/V)38.9539.1639.3839.5939.7839.98
Short Circuit Current (Isc/A)13.7313.8013.8613.9314.0014.07
Voltage at Maximum power (Vmpp/V)32.3832.5932.8133.0233.2133.41
Current Maximum Power (Impp/A)13.2813.3513.4113.4813.5513.62
Module Efficiency(%)22.0222.2822.5322.7923.0423.30

Electrical Characteristics (NMOT*)

Maximum Power: Pmax [W]323327331335338342
Open Circuit Voltage: Voc [V]37.0037.2037.4137.6137.7937.98
Short Circuit Current: Isc [A]11.0911.1411.1911.2511.3011.35
Voltage at Maximum Power: Vmp [V]30.1030.3330.5630.7630.9031.12
Current at Maximum Power: Imp [A]10.7310.7810.8310.8910.9410.99

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Mate Solar designs high-efficiency solar panels and energy storage systems for homes, businesses, and industries. Our integrated solutions—featuring lithium-ion batteries, smart inverters, and real-time monitoring—cut costs and boost energy independence.

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