LONGi Hi-MO X10 LR8-66HVD-645M 645W Bifacial Solar Panel
The LONGi Hi-MO X10 LR8-66HVD-645M is a 645W bifacial dual-glass solar panel built on LONGi's breakthrough HPBC 2.0 cell technology, reaching a peak module efficiency of 24.8%. Designed for residential and commercial installations across South Africa, it delivers maximum energy yield per square metre against rising Eskom tariffs and persistent loadshedding — making it a standout choice for homeowners and solar installers looking for a long-term, high-performance solution.
Key Features & Specifications:
- N-TaiRay + HPBC 2.0 Cell Technology — LONGi's most advanced cell architecture combines the proprietary N-TaiRay rectangular wafer with the second-generation Hybrid Passivated Back Contact (HPBC 2.0) process, achieving a peak module efficiency of 24.8%. This translates to more usable energy from the same roof area compared to conventional N-type or TOPCon panels.
- 0BB Anti-Shading Design (A+) — The zero-busbar layout eliminates front-side electrical contacts, reducing resistive losses and delivering over 30W in additional yield versus conventional panels. This A+ anti-shading capability ensures strong generation even where partial shading from roof structures or vegetation is unavoidable.
- Bifacial Dual-Glass Construction — Captures both direct and reflected sunlight across front and rear surfaces for boosted real-world yield. The 2.0+2.0mm dual semi-tempered glass build resists UV ageing, moisture ingress, and mechanical stress better than standard backsheet panels — essential durability in South Africa's coastal and highveld climates.
- Localised Overheating Protection — The HPBC 2.0 cell's internal design prevents dangerous hotspot formation that can damage panels and create fire risks on residential rooftops. LONGi describes this as built-in "fire insurance" for the roof — a meaningful safety advantage for close-coupled installations.
- Ultra-Low Degradation Performance — First-year output loss is capped at just 1%, with only 0.35% annual degradation from year 2 through 30. A low temperature coefficient of -0.26%/°C ensures strong output through South Africa's peak summer heat — better real-world performance that compounds over the panel's full lifespan.
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Heavy-Duty Mechanical Resilience — Engineered for South Africa's demanding climate:
- 5,400 Pa front-side maximum static loading
- 2,400 Pa rear-side maximum static loading
- 25 mm hailstone impact resistance at 23 m/s
- IP68-rated junction box with three bypass diodes
Warranty Protection:
- 30-year extra linear power output warranty
- 15-year warranty for materials and processing
- T&C may apply.
The LONGi Hi-MO X10 LR8-66HVD-645M suits both residential rooftop systems and commercial ground-mounted or flat-roof applications where premium yield, proven safety, and long-term durability are non-negotiable. Whether you are building a grid-tied system to offset Eskom costs or a hybrid installation with battery backup, this panel delivers industry-leading performance over its full 30-year guaranteed life. Contact the Solar & Inverter Warehouse team for compatibility advice or to request a quote.
E&OE. Product specifications are subject to change without notice. Please refer to the official manufacturer datasheet to confirm all specifications before purchase or installation.
| Identification | |
|---|---|
| Manufacturer | LONGi |
| Model | LR8-66HVD-645M |
| Performance | |
| Maximum power | 645 Wp |
| Module efficiency | 23.69 % |
| Cell technology | N-Type HPBC 2.0 (TaiRay) Bifacial |
| Number of cells | 132 (6×22) |
| Electrical performance (STC) | |
| Open circuit voltage (Voc) | 49.52 V |
| Short circuit current (Isc) | 16.38 A |
| Voltage at max power (Vmp) | 40.78 V |
| Current at max power (Imp) | 15.69 A |
| Power tolerance | 0/+3% |
| Mechanical | |
| Dimensions (L × W × D) | 2382 × 1134 × 30 mm |
| Module weight | 32.5 kg |
| Connector type | MC4 compatible |
| Output cable | 4.0 mm², +400 / -200 mm / ±1400 mm |
| Warranty | |
| Product warranty | 15 years |
| Power output warranty | 30 years |
| Linear power degradation | 0.35 %/year |
