Monocrystalline Modules

monocrystalline modules

KL075/KL080/KL085/KL090

YN Solar provides cost-effective photovoltaic power for general use, operating DC directly or, in an inverter-equipped system, AC loads. The 36 cells in series provides 75W to 90Watts of maximum power, it is used primarily in utility grid-supplemental system, telecommunications, remote villages and clinics, pumping and load based aids to navigation.

Proven Materials and Construction
Anodized aluminum frame offers required strength and allows for quick and easy installation on standard array structures.
36 / 72 crystalline silicon solar cells in series.
Modules are laminated in toughened low iron content PV grade glass – Ethyl Vinyl Acetate films – PV module back sheet.
Optimized lamination process parameters ensure a stable laminate. Junction Box with PG Cable glands are standard in all modules.
Each module is flash tested in a Sun simulator to ensure conformity to specification.

Electrical and Mechanical Data

Model KL075 KL080 KL085 KL090
Maximum power (Pmax) 75 Wp 80 Wp 85 Wp 90 Wp
Open Circuit Voltage (Voc) 21.5 V 21.5 V 21.5 V 21.5 V
Maximum power point voltage (Vmpp) 17.1 V 17.1 V 17.1 V 17.1 V
Short circuit current (Isc) 4.90 A 5.24 A 5.57 A 5.90 A
Maximum power point current (Impp) 4.38 A 4.68 A 4.98 A 5.27 A
Tolerance of Pmax ±10% ±10% ±10% ±10%
Cell Size (mm) 92 X 156/
46 X 156
92 X 156/
46 X 156
92 X 156/
46 X 156
92 X 156/
46 X 156
No. of cells 36 / 72 36 / 72 36 / 72 36 / 72
Dimensions (mm) ± 1 900 x 665 x 35 900 x 665 x 35 900 x 665 x 35 900 x 665 x 35
Maximum system voltage 1000 1000 1000 1000
Module Efficiency 12.53% 13.37% 14.20% 15.04%
Weight (kgs) 6.0 6.0 6.0 6.0

Standard Test Condition: Irradiance 1,000 W/sq.m, Temperature 25deg C Air mass 1.5 spectrum)

 

Performance of Thermal Characteristics

Temperature co‐efficient NOCT (OC)45 NOCT (OC)45 NOCT (OC)45 NOCT (OC)45
Power [Pmax] ‐0.43 %/K ‐0.43 %/K ‐0.43 %/K ‐0.43 %/K
Open‐circuit voltage [ Voc ] ‐0.36 %/K ‐0.36 %/K ‐0.36 %/K ‐0.36 %/K
Short circuit current (Isc) +0.06 %/K +0.06 %/K +0.06 %/K +0.06 %/K