Quasar

Half Cut Mono PERC Glass to Backsheet Monofacial – 12BB

700 W

Efficiency up to >22.55 %

0~+4.99W

Power Tolerance

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Quasar solar panels help harness the sun’s power with Mono PERC technology, delivering strong efficiency and reliable performance.

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🌞 Introducing Quasar

Mono PERC Solar Modules
Built for Higher Output

Credence’s Quasar MonoFacial panels use 210mm-12BB half-cut Mono PERC cells, delivering 700Wp with 22.55% efficiency. Built with half-cut cells, positive tolerance and premium BOM for maximum solar harvest.”

Half Cut Cell Design

Half Cut Cell Design
with Multi Bus Bar Technology

High Power Generation

High Power Generation

Excellent Weak Light Performance

Excellent Weak Light Performance

Lower LCOE & BOS

Lower LCOE & BOS

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Quasar solar panel bifaciality diagram

🌱 Better Bifaciality

Solar PV Modules Built for
Extraordinary Performance

Quasar panels deliver reliable performance even in low light. With reinforced ribs for durability, they ensure long life and prevent glass sagging, making them a robust choice for any environment.

Low LID

Low LID

Bifaciality Factor

Bifaciality Factor of
80 ± 5%

Mechanical Load

Enhanced Mechanical
Load Capaciity

Better Temperature Co-efficient

Better Temperature
Co-efficient

🌞 Unmatched Endurance

PV Module Reliability
for Every Season

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⚡️ Common questions

Quasar Solar Panel FAQs

Quasar is built on Mono PERC half-cut cells with 12BB (12 busbar) technology, delivering a maximum power output of 700W at more than 22.55% module efficiency.

Quasar is a glass-to-backsheet monofacial module — the half-cut cell design and multi busbar technology are focused on maximizing front-side output and durability rather than rear-side gain.

The module is engineered for excellent weak-light performance, with reinforced ribs that support durability and long life through challenging environments.

Quasar ships with a positive-only power tolerance of 0~+4.99W, so modules perform at or above their rated output rather than below it.

Quasar's half-cut, multi-busbar design is aimed at a lower LCOE (levelized cost of energy) and lower balance-of-system cost, which suits installations where a straightforward monofacial module makes more economic sense than paying for bifacial gain.