HYUNDAI SOLAR MODULE KN SERIES
G12 PERC Shingled
Models: HiE-S535KN, HiE-S540KN, HiE-S545KN, HiE-S550KN, HiE-S555KN
Key Features
- [Shingled Technology Icon] Shingled Technology: Advanced shingling technique for enhanced performance.
- [Utility Scale Icon] For Utility-Scale Applications: Designed for large-scale solar projects.
- [Low Light Icon] More Power Generation In Low Light: Optimized for better energy yield under low light conditions.
The G12 PERC Shingled solar module technology provides ultra-high efficiency with improved performance in low irradiation conditions. It maximizes installation capacity in limited space.
Mechanical Strength
Features tempered glass and a reinforced frame design that withstands rigorous weather conditions, including heavy snow and strong winds.
Warranty and Support
Reliable Warranty
As a Global Brand with powerful financial strength, Hyundai offers a reliable 25-year warranty.
Hyundai's Warranty Provisions
- 25-Year Product Warranty: Covers material and workmanship.
- 25-Year Performance Warranty:
- Initial year: 98.0% of nominal power output.
- Linear warranty after the second year: with 0.55% annual degradation, 84.8% of nominal power output is guaranteed up to 25 years.
Testing and Certification
Hyundai's R&D center is an accredited test laboratory of both UL and VDE.
Certifications include: CE, PVCYCLE, TUV NORD, TIER 1.
About Hyundai Energy Solutions Co., Ltd.
Established in 1972, Hyundai Heavy Industries Group is a trusted name in the heavy industries sector and a Fortune 500 company. As a global leader and innovator, Hyundai Heavy Industries is committed to building a future growth engine by developing and investing heavily in the field of renewable energy. As a core energy business entity of HHI, Hyundai Energy Solutions has strong pride in providing high-quality PV products to more than 3,000 customers worldwide.
Technical Specifications
Electrical Characteristics
| Parameter | Unit | HiE-S535KN | HiE-S540KN | HiE-S545KN | HiE-S550KN | HiE-S555KN |
|---|---|---|---|---|---|---|
| Nominal Output (Pmpp) | W | 535 | 540 | 545 | 550 | 555 |
| Open Circuit Voltage (Voc) | V | 46.8 | 46.9 | 47.0 | 47.1 | 47.2 |
| Short Circuit Voltage (Isc) | A | 14.65 | 14.76 | 14.86 | 14.97 | 15.07 |
| Voltage at Pmax (Vmpp) | V | 38.8 | 38.9 | 39.0 | 39.1 | 39.2 |
| Current at Pmax (Impp) | A | 13.77 | 13.87 | 13.97 | 14.07 | 14.17 |
| Module Efficiency | % | 20.5 | 20.7 | 20.9 | 21.0 | 21.2 |
| Cell Type | PERC Mono-Crystalline Silicon Shingled | |||||
| Maximum System Voltage | V | 1,500 | ||||
| Temperature Coefficiency of Pmax | %/°C | -0.34 | ||||
| Temperature Coefficiency of Voc | %/°C | -0.27 | ||||
| Temperature Coefficiency of Isc | %/°C | 0.04 | ||||
Note: All data at STC (Standard Test Conditions). Above data may be changed without prior notice. Tolerance of Pmax: 0~+5W. Measuring uncertainty of power: ±3%. Performance deviation of Voc [V], Isc [A], Vm [V] and Im [A]: ±3%.
Mechanical Characteristics
| Dimensions | 2,384 × 1,096 × 35mm (L × W × H) |
| Weight | 28.3kg |
| Solar Cells | 345 cells, PERC Mono-crystalline Shingled |
| Output Cables | Length 1,200mm, 1×4mm² |
| Connector | Maker: Staublie PV-KST4-EVO2/xy_UR PV-KBT4-EVO |
| Junction Box | IP68, TUV&UL, Three Diodes |
| Construction | Front Glass: Tempered glass, 3.2mm; Encapsulation: EVA (Ethylene-Vinyl-Acetate) |
| Frame | Anodized Aluminum |
Installation Safety Guide
- Only qualified personnel should install or perform maintenance.
- Be aware of dangerous high DC voltage.
- Do not damage or scratch the rear surface of the module.
- Do not handle or install modules when they are wet.
Operating Conditions
| Nominal Operating Cell Temperature | 42.3°C (±2°C) |
| Operating Temperature | -40 ~ 85°C |
| Maximum System Voltage | DC 1,500V |
| Fire Rating | Class C |
| Series Fuse Rating | 25A |
| Maximum Surface Load Capacity | Front: 5,400 Pa; Rear: 2,400 Pa |
Module Diagram
Diagram showing the module dimensions: Length 2,384mm (±2mm), Width 1,096mm (±2mm), Height 35mm (±1mm). Pitch-row: ±2mm.
I-V Curves
The document includes two sets of I-V (Current-Voltage) curves: 1. The first graph displays current versus voltage under varying operating cell temperatures (0°C, 20°C, 40°C, 60°C, 80°C) at a constant irradiance of 1000 W/m². 2. The second graph shows current versus voltage under different irradiance levels (200 W/m², 400 W/m², 600 W/m², 800 W/m², 1000 W/m²) at a constant cell temperature of 25°C.
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