Panasonic EverVolt 410 vs LONGi Hi-MO X6 Max 470W

Our Verdict Winner: Panasonic EverVolt 410

The Panasonic EverVolt 410 wins this comparison by a decisive margin. It offers better long-term durability with 25-year warranty. For most residential installations, the Panasonic EverVolt 410 is the stronger choice.

Power / Capacity

410W

470W

Efficiency

21.5%

22.3%

Warranty

25 yrs

15 yrs

Key Differences

• Panasonic EverVolt 410 is rated at 410W while LONGi Hi-MO X6 Max 470W is rated at 470W, a 60W difference.
• LONGi Hi-MO X6 Max 470W achieves 22.3% efficiency vs 21.5% for the other, a 0.8 percentage point gap.
• Panasonic EverVolt 410 comes with a 25-year product warranty vs 15 years for the other.
• Panasonic EverVolt 410 has a superior temperature coefficient of -0.26%/°C vs -0.29%/°C, retaining more power in hot climates.
• Panasonic EverVolt 410 uses HJT (Heterojunction) cells while LONGi Hi-MO X6 Max 470W uses TOPCon N-type cells, representing different technology generations.

Specifications Breakdown

Module Efficiency

The LONGi Hi-MO X6 Max 470W achieves 22.3% module efficiency compared to Panasonic EverVolt 410's 21.5%, meaning LONGi Hi-MO X6 Max 470W converts 0.8 percentage points more sunlight into electricity per square meter. In practical terms, the Panasonic EverVolt 410 produces 210.0 watts per square meter of panel area while the LONGi Hi-MO X6 Max 470W produces 235.2 W/m². For rooftop installations where space is limited, this efficiency gap determines how many kilowatts you can fit on your available roof area. Over a 25-year system life, even a small efficiency advantage compounds into meaningful additional energy production.

Power Output

The LONGi Hi-MO X6 Max 470W delivers 470W per panel versus 410W for the Panasonic EverVolt 410, a 60W difference per module. To build an 8 kW residential system, you would need 20 Panasonic EverVolt 410 panels or 18 LONGi Hi-MO X6 Max 470W panels. Choosing the higher-wattage option saves 2 panels, reducing total racking hardware, wiring, and installation labor costs. Higher wattage per panel is particularly valuable for commercial-scale installations where panel count directly impacts balance-of-system costs.

Temperature Coefficient

The Panasonic EverVolt 410 has a temperature coefficient of -0.26%/°C versus -0.29%/°C for the LONGi Hi-MO X6 Max 470W. On a hot summer day when cell temperature reaches 65°C (40°C above the 25°C STC baseline), the Panasonic EverVolt 410 retains 94.8% of its rated power while the other retains 94.2%. While the numerical gap is modest, it still accumulates over decades of summer production, especially in southern latitudes with prolonged peak heat hours.

Warranty Coverage

The Panasonic EverVolt 410 is backed by a 25-year product warranty and 25-year performance guarantee, while the LONGi Hi-MO X6 Max 470W offers 15-year product and 30-year performance coverage. The Panasonic EverVolt 410 provides 10 additional years of defect protection, covering manufacturing issues, material failures, and premature performance loss. Based on their published degradation rates (0.5% first year then 0.35%/year for Panasonic EverVolt 410; 1% first year then 0.4%/year for LONGi Hi-MO X6 Max 470W), after 25 years the Panasonic EverVolt 410 should retain approximately 91.1% of original output versus 89.4% for the LONGi Hi-MO X6 Max 470W. This 1.7 percentage point gap in end-of-life output meaningfully impacts lifetime energy economics.

Physical Dimensions & Weight

The Panasonic EverVolt 410 measures 1722×1134×30mm and weighs 21.5 kg, while the LONGi Hi-MO X6 Max 470W measures 1762×1134×30mm at 23.5 kg. 1.95 m² of panel area for the Panasonic EverVolt 410 versus 2.00 m² for the LONGi Hi-MO X6 Max 470W. The Panasonic EverVolt 410 is 2.0 kg lighter per panel, which reduces structural load requirements on the roof and makes handling easier during installation. For a 20-panel system, that is a total weight difference of 40 kg. Similar footprints mean both panels fit comparably on standard residential rooftop configurations.

Specification Comparison

Specification	Panasonic EverVolt 410	LONGi Hi-MO X6 Max 470W
Power	410W	470W
Efficiency	21.5%	22.3%
Power Density	19.5 W/sq ft	21.9 W/sq ft
Cell Type	HJT (Heterojunction)	TOPCon N-type
Bifacial	Yes	Yes
Weight	21.5 kg	23.5 kg
Temp Coefficient	-0.26%/°C	-0.29%/°C
Snow Load	5400 Pa	5400 Pa
Wind Load	2400 Pa	2400 Pa
Product Warranty	25 years	15 years
Performance Warranty	25 years	30 years
Degradation (Year 1)	0.5%	1%
Annual Degradation	0.35%	0.4%
Country	Japan	China

5-Dimension Head-to-Head Analysis

1. Efficiency & Power Density

Winner: LONGi Hi-MO X6 Max 470W

The LONGi Hi-MO X6 Max 470W achieves 22.3% efficiency versus 21.5% — a 0.8 percentage point advantage. On a typical 30-panel residential roof, this translates to approximately 1.8 kW more total system capacity, or 9 kWh more annual production in an average US location.

2. Hot Climate Performance

Winner: Panasonic EverVolt 410

The Panasonic EverVolt 410 has a better temperature coefficient of -0.26%/°C versus -0.29%/°C. On a 45°C summer day (20°C above STC), the winner retains 94.8% of rated power versus 94.2%. The difference is modest but accumulates over 25 years of summer production.

3. Durability & Warranty

Winner: Panasonic EverVolt 410

Panasonic EverVolt 410 leads with a 25-year product warranty versus 15 years. Panasonic EverVolt 410 degrades more slowly at 0.35% per year versus 0.4%. After 25 years, expect 91.1% vs 89.4% of original output for Panasonic EverVolt 410 and LONGi Hi-MO X6 Max 470W respectively.

4. Power Output

Winner: LONGi Hi-MO X6 Max 470W

The LONGi Hi-MO X6 Max 470W delivers 470W versus 410W per panel — 60W more. For an 8 kW system, you need 18 panels with the higher-wattage option versus 20 panels, saving 2 panels and the associated racking and labor costs.

5. Cell Technology

Winner: Panasonic EverVolt 410

The Panasonic EverVolt 410 uses HJT (Heterojunction): HJT (Heterojunction) combines crystalline silicon with amorphous silicon layers, delivering the best temperature coefficient and bifacial gains, but at higher manufacturing cost. The LONGi Hi-MO X6 Max 470W uses TOPCon N-type: TOPCon (Tunnel Oxide Passivated Contact) adds a thin tunnel oxide layer to reduce recombination losses, achieving higher efficiency than PERC while being manufacturable on existing production lines. HJT (Heterojunction) represents a newer generation technology with a longer performance runway as manufacturing matures.

Panasonic EverVolt 410

DISCONTINUED: Panasonic exited solar manufacturing in 2023. The EverVolt 410 offered Panasonic's HJT technology at a slightly more accessible price point while maintaining premium quality.

Pros

+ Panasonic brand quality
+ HJT cell technology
+ Good temperature performance
+ 25-year warranty

Cons

- DISCONTINUED - no longer manufactured
- No new units available
- No ongoing product support

View full Panasonic EverVolt 410 specs →

LONGi Hi-MO X6 Max 470W

The Hi-MO X6 Max delivers 470W in a mid-size format with N-type TOPCon technology, bridging the gap between compact and large panels.

Pros

+ Mid-size versatility
+ N-type TOPCon efficiency
+ Good power-to-size ratio
+ LONGi reliability

Cons

- Mid-range pricing
- Not the highest output
- Standard warranty

View full LONGi Hi-MO X6 Max 470W specs →

Choose Panasonic EverVolt 410 If...

✓ Long-term warranty protection is a top priority and you plan to stay in your home for 25+ years
✓ You live in a hot climate (Arizona, Texas, Florida) where heat performance matters
✓ You want maximum output retention over the system's 25-30 year lifespan
✓ You prefer newer cell technology with a longer performance improvement runway
✓ No longer available for new installations.

Choose LONGi Hi-MO X6 Max 470W If...

✓ Your roof space is limited and you need maximum power per panel
✓ You want fewer panels to reach your target system size, reducing racking and labor costs
✓ You prefer newer cell technology with a longer performance improvement runway
✓ Medium-sized residential roofs wanting a balance of size and N-type performance.

Our Recommendation

Recommended Panasonic EverVolt 410

The Panasonic EverVolt 410 is the decisive winner in this solar panel comparison, outperforming the LONGi Hi-MO X6 Max 470W in 3 of 5 dimensions. Unless you have a specific requirement that the LONGi Hi-MO X6 Max 470W uniquely addresses, the Panasonic EverVolt 410 is the stronger choice for virtually every installation scenario.

View Panasonic EverVolt 410 specs → View LONGi Hi-MO X6 Max 470W specs →

Frequently Asked Questions

Which is better, Panasonic EverVolt 410 or LONGi Hi-MO X6 Max 470W?

Which panel is more efficient, Panasonic EverVolt 410 or LONGi Hi-MO X6 Max 470W?

The LONGi Hi-MO X6 Max 470W at 22.3% module efficiency. Higher efficiency means more watts per square foot of roof space, which is critical for space-constrained installations. The difference of 0.8 percentage points translates to approximately 60W per panel under standard test conditions.

Which has a better warranty, Panasonic EverVolt 410 or LONGi Hi-MO X6 Max 470W?

The Panasonic EverVolt 410 comes with a 25-year product warranty and 25-year performance guarantee. The LONGi Hi-MO X6 Max 470W offers 15-year product and 30-year performance warranties. Panasonic EverVolt 410 provides 10 additional years of product coverage.

Which panel performs better in hot weather?

The Panasonic EverVolt 410 has a temperature coefficient of -0.26%/°C and the LONGi Hi-MO X6 Max 470W is -0.29%/°C. Panasonic EverVolt 410 retains more power in heat — important in states like Arizona, Texas, and Florida. A lower (less negative) temperature coefficient is better.

How many Panasonic EverVolt 410 vs LONGi Hi-MO X6 Max 470W panels do I need for an 8 kW system?

For an 8 kW system: you need 20 Panasonic EverVolt 410 panels (410W each) or 18 LONGi Hi-MO X6 Max 470W panels (470W each). The LONGi Hi-MO X6 Max 470W requires fewer panels, saving on racking hardware and installation labor.

Related Resources

View full Panasonic EverVolt 410 specifications → View full LONGi Hi-MO X6 Max 470W specifications → All Panasonic products → All LONGi products →

Last updated: February 2026