Sharp ND-130UJF 130 Watt Solar Module
ND-130UJF 130 Watt Solar Module, 17.4 Vmp
Sharp 130 Watt Solar Module
Single Crystal Silicon Photovoltaic Module with 130W Maximum Power
Sharp's ND-130UJF photovoltaic modules offer industry-leading performance, durability, and reliability for a variety of electrical power requirements. Using breakthrough technology perfected by Sharp's 50 years of research and development, these modules incorporate an advanced surface texturing process to increase light absorption and improve efficiency. Common applications include cabins, solar power stations, pumps, beacons, and lighting equipment. Designed to withstand rigorous weather conditions, a junction box is also provided for easy electrical connections in the field, making Sharp's ND-130UJF modules the perfect combination of advanced technology and reliability.
FEATURES
•High-power module (130W) using 156mm square polycrystalline silicon solar cells with 13.1% module conversion efficiency
•Sharp's advanced surface texturing process increases light absorption and efficiency while providing a more subdued, "natural" look
•Bypass diodes minimize thepower drop caused by shade
• Water white,tempered glass,EVA laminate, plus aluminum frame
for extended outdoor use
• Nominal 12VDC output for battery charging applications
• UL Listings: UL 1703, cUL
• Sharp modules are manufactured in ISO 9001 certified facilities
• 25-year limited warranty
Also Known As:
ND.130UJF
ND 130UJF
ND_130UJF
ND130UJF
Electrical Characteristics for the Sharp 130 Watt Solar Module
Cell | Multi-crystal silicon |
No. of Cells and Connections | 36 in series |
Open Circuit Voltage (Voc) | 21.9V |
Maximum Power Voltage (Vpm) | 17.4V |
Short Circuit Current (Isc) | 8.2A |
Maximum Power Current (Ipm) | 7.16A |
Maximum Power (Pm)* | 130W |
Minimum Power (Pm)* | 123.5W |
Module Efficiency (cm) | 13.1% |
PTC Rating (W)** | 107.75 |
Maximum System Voltage | 600VDC |
Series Fuse Rating | 15A |
Type of Output Terminal | Lead Wire with MC Connector |
* (STC) Standard Test Conditions: 25°C, 1 kW/m2, AM 1.5
** (PTC) Pacific Test Conditions: 20°C, 1 kW/m2, AM 1.5, 1 m/s wind speed