Technology Pain Points
Traditional USB strips suffer from “power sharing” — charging speed plummets with multiple devices (e.g., 65W solo → 15W×4). Gallium Nitride (GaN) chips break this limit via high-frequency switching topology.
Core Technology
| Feature | Technical Advantage |
| Dedicated PD Channels | 6× USB-C ports with PD3.1, each delivering up to 140W |
| GaN+SiC Hybrid | Silicon Carbide reduces switching loss, achieving 98.2% efficiency |
| 3D Stacked Cooling | Vertically arranged GaN modules cut thermal resistance by 40% |
Performance Testing
Full-Speed Multi-Charging:
MacBook Pro 140W + iPhone 27W + iPad 30W simultaneously at max speed
Total 197W output (vs ≤100W in conventional strips)
Thermal Control:
After 1hr full load: Surface ≤48℃ (competitors ≥62℃)
Certifications:
DOE Level VI | Standby power 0.05W
Safety Innovations
AI Over-Current Protection: Authenticates devices via ID (e.g., Apple MFI cables), blocks uncertified loads
Lightning Surge Shield: 6kV protection (international standard: 2kV)
Thermal Throttling: Auto power reduction at >85℃
Real-World Use Cases
Travel: Replaces 4 chargers for laptop/phone/camera/drone
Gaming Station: Fast-charges PC/console/VR gear with 70% fewer cables
Smart Home: 24/7 power for HomePod/robot vacuums
Environmental Impact
Annual Reduction Per User:
- 2.1kg e-waste (equivalent to 3 chargers)
- 83kg CO₂ (manufacturing + shipping energy)
Case Verification
Lenovo Lab Test (2024)
vs Anker 737 Power Strip:
| Metric | GaN Strip | Conventional GaN |
| 3-device Total Power | 197W | 120W |
| Surface Temp (1hr) | 46℃ | 64℃ |
| Charging Efficiency | 94.7% | 89.1% |