GoodWe GW10K-ET vs GoodWe GW3600-EH

Our Verdict Winner: GoodWe GW10K-ET

The GoodWe GW10K-ET edges ahead in this hybrid-vs-hybrid matchup. It delivers higher efficiency (97.5% vs 96.8% CEC). For most installations in this power range, the GoodWe GW10K-ET is the stronger choice.

Power / Capacity
10.0 kW
vs
3.6 kW
Efficiency
98%
vs
97.6%
Warranty
10 yrs
vs
10 yrs

Key Differences

  • GoodWe GW10K-ET delivers 10.0 kW AC output while GoodWe GW3600-EH delivers 3.6 kW, a 6400W difference.
  • GoodWe GW10K-ET achieves 97.5% CEC efficiency vs 96.8%.
  • Both carry 10-year warranties.

Specifications Breakdown

Power Output & Efficiency

The GoodWe GW10K-ET delivers 10.0 kW AC output at 97.5% CEC efficiency (98% peak), while the GoodWe GW3600-EH delivers 3.6 kW at 96.8% CEC (97.6% peak). The 6400W power difference is substantial and determines the maximum solar array each inverter can handle. The GoodWe GW10K-ET's higher CEC efficiency means it converts 0.7 percentage points more DC solar energy into usable AC electricity. On an average 8 kW system producing 12,000 kWh annually, this efficiency gap translates to approximately 84 kWh more usable energy per year, worth roughly $13 at $0.15/kWh.

MPPT Trackers & Panel Configuration

The GoodWe GW10K-ET features 2 MPPT inputs while the GoodWe GW3600-EH has 2. Matched MPPT counts provide equal flexibility for panel string configuration. Both can independently optimize 2 separate panel groups. The GoodWe GW10K-ET accepts up to 1000V DC input with a 150-850V operating range, versus 600V DC and 80-550V for the GoodWe GW3600-EH.

Monitoring & Communication

The GoodWe GW10K-ET includes GoodWe SEMS Portal (WiFi/Ethernet) monitoring with WiFi / Ethernet / RS-485 communication, while the GoodWe GW3600-EH offers GoodWe SEMS Portal (WiFi/Ethernet) via WiFi / Ethernet / RS-485. Both use comparable monitoring platforms. Reliable monitoring is essential for detecting production drops, identifying panel-level issues, and maximizing system uptime over the inverter's lifetime. Both carry IP65 protection ratings for equivalent environmental durability.

Warranty & Reliability

The GoodWe GW10K-ET comes with a 10-year warranty while the GoodWe GW3600-EH offers 10 years. Matched warranty durations mean equal long-term manufacturer protection. Consider budgeting for a potential inverter replacement during the 25-30 year lifespan of your solar panels.

Specification Comparison

Specification GoodWe GW10K-ET GoodWe GW3600-EH
Type hybrid hybrid
AC Power 10000W 3600W
Peak Efficiency 98% 97.6%
CEC Efficiency 97.5% 96.8%
MPPT Trackers 2 2
Monitoring GoodWe SEMS Portal (WiFi/Ethernet) GoodWe SEMS Portal (WiFi/Ethernet)
Weight 26 kg 19 kg
Warranty 10 years 10 years

5-Dimension Head-to-Head Analysis

1. Power Capacity

Winner: GoodWe GW10K-ET

The GoodWe GW10K-ET delivers 10.0 kW versus 3.6 kW. This is a significant capacity difference that determines the maximum solar array size each can support.

2. Conversion Efficiency

Winner: GoodWe GW10K-ET

The GoodWe GW10K-ET achieves 97.5% CEC efficiency versus 96.8%. Every percentage point of efficiency translates to approximately $100-200 in additional energy production over a 25-year system life on an average 8 kW system. The difference is noticeable but not dramatic in total lifetime energy value.

3. Features & Architecture

Winner: Tie

Both are hybrids with 2 MPPT trackers. Matched MPPT counts mean equal roof configuration flexibility.

4. Warranty & Reliability

Winner: Tie

Both carry 10-year warranties — equal long-term protection.

5. Overall Value

Winner: GoodWe GW10K-ET

Weighing efficiency, warranty, and power capacity together, the GoodWe GW10K-ET delivers the better overall package. Hybrid inverters cost more upfront but save $1,500-3,000 versus adding a separate battery inverter later. Get installer quotes for both to compare actual installed costs in your area.

GoodWe GW10K-ET

The GoodWe GW10K-ET is a three-phase hybrid inverter delivering 10 kW with high-voltage battery support, targeting commercial and large residential properties with three-phase service that want integrated storage.

Pros

  • + Three-phase hybrid operation at 10 kW handles commercial self-consumption and backup scenarios
  • + 1000V DC input supports long string configurations that reduce wiring labor costs
  • + Multi-battery protocol support covers high-voltage lithium-ion and lead-acid options

Cons

  • - Three-phase requirement limits applicability in standard US single-phase residential installations
  • - US after-sales service infrastructure is less mature than European and Asian markets
  • - Dual MPPT may be insufficient for complex commercial roof layouts
View full GoodWe GW10K-ET specs →

GoodWe GW3600-EH

The GoodWe GW3600-EH is a compact 3.6 kW single-phase hybrid inverter, bringing battery-ready solar capability to smaller residential systems at one of the lowest hybrid price points available.

Pros

  • + Most affordable entry point into a hybrid solar-plus-storage system with genuine battery management
  • + Compatible with multiple battery brands for maximum storage flexibility
  • + Dual MPPT handles two string orientations despite the compact rating
  • + Built-in EPS for automatic backup during grid outages

Cons

  • - 3.6 kW output is limited for larger households with high electricity consumption
  • - SEMS monitoring app is functional but lacks the polish of premium platforms
  • - US installer base for GoodWe is smaller than for SolarEdge or Enphase
View full GoodWe GW3600-EH specs →

Choose GoodWe GW10K-ET If...

  • You want maximum energy conversion efficiency to minimize power losses
  • Your system size requires 10 kW+ of inverter capacity
  • Three-phase commercial or large residential properties in markets with time-of-use billing that benefit from integrated solar-plus-storage

Choose GoodWe GW3600-EH If...

  • Small homes or apartments seeking the most affordable hybrid inverter with genuine battery integration and backup capability

Our Recommendation

Recommended GoodWe GW10K-ET

The GoodWe GW10K-ET is the decisive winner in this inverter comparison, outperforming the GoodWe GW3600-EH in 3 of 5 dimensions. Unless you have a specific requirement that the GoodWe GW3600-EH uniquely addresses, the GoodWe GW10K-ET is the stronger choice for virtually every installation scenario.

View GoodWe GW10K-ET specs → View GoodWe GW3600-EH specs →

Frequently Asked Questions

Which is better, GoodWe GW10K-ET or GoodWe GW3600-EH?

The GoodWe GW10K-ET edges ahead in this hybrid-vs-hybrid matchup. It delivers higher efficiency (97.5% vs 96.8% CEC). For most installations in this power range, the GoodWe GW10K-ET is the stronger choice.

Which inverter is more efficient?

The GoodWe GW10K-ET achieves 97.5% CEC efficiency (98% peak) versus the GoodWe GW3600-EH at 96.8% CEC (97.6% peak). GoodWe GW10K-ET converts more DC solar power to usable AC electricity. CEC efficiency is the more realistic measure, accounting for varying power levels throughout the day.

Can GoodWe GW10K-ET or GoodWe GW3600-EH work with battery storage?

The GoodWe GW10K-ET is a hybrid inverter with built-in battery management — it can connect directly to compatible batteries. The GoodWe GW3600-EH is a hybrid inverter with built-in battery management.

Which has a better warranty?

The GoodWe GW10K-ET offers 10 years versus 10 years for the GoodWe GW3600-EH. Both offer identical warranty terms. Paid warranty extensions are typically available from both manufacturers.

Which inverter type is better: hybrid or hybrid?

Both are hybrids, so the comparison comes down to specifications, brand ecosystem, and pricing rather than architecture. Compare efficiency, warranty, monitoring quality, and installer support when choosing between these two hybrids.

Related Resources

View full GoodWe GW10K-ET specifications → View full GoodWe GW3600-EH specifications → All GoodWe products → All GoodWe products →

Last updated: February 2026