Hoverfly X5 vs Navee K100 Max
Side-by-side comparison · Specs, scores & AI verdict
Too close to call — scores within 5 points
Why choose one over the other?
Reasons to choose Hoverfly X5
- •Higher top speed of 25 km/h versus 20 km/h on the K100 Max
- •Longer 40 km range compared to 18 km on the K100 Max
- •Larger 432 Wh battery capacity versus 110 Wh on the K100 Max
Reasons to choose Navee K100 Max
- •Much lighter at 9.6 kg versus 20 kg on the X5
- •IPX4 water resistance rating versus no IP rating on the X5
- •Built-in GPS support compared to no GPS on the X5
| Spec | Hoverfly X5 | Navee K100 Max |
|---|---|---|
| ⚡ Drivetrain | ||
| Peak Power | — | 260 W |
| Continuous Power | 500 W ✓ | 150 W |
| Max Torque | — | — |
| Top Speed | 25 km/h ✓ | 20 km/h |
| Max Incline | 15 ° | — |
| Drive Config | — | — |
| Dual Motors | ✗ | ✗ |
| 🔋 Battery & Range | ||
| Battery Capacity | 432 Wh ✓ | 110 Wh |
| Amp Hours | — | 5 Ah |
| Charge Time | 6 h | 5.5 h ✓ |
| Claimed Range | 40 km ✓ | 18 km |
| Cell Chemistry | — | Lithium-ion |
| Removable Battery | ✗ | ✗ |
| Regen Braking | ✓ | ✗ |
| 📐 Size & Portability | ||
| Weight | 20 kg | 9.6 kg ✓ |
| Max Payload | 120 kg ✓ | 59.9 kg |
| Deck Length | — | — |
| Deck Width | — | — |
| Ground Clearance | — | — |
| Foldable | ✓ | ✓ |
| 🛤️ Ride Comfort | ||
| Wheel Diameter | 10" ✓ | 7" |
| Pneumatic Tires | ✗ | ✓ |
| Puncture Resistant | — | ✓ |
| Suspension | — | None |
| Adjustable Susp. | — | ✗ |
| Seat | ✗ | ✗ |
| 🛡️ Safety | ||
| Front Brake | — | None |
| Rear Brake | — | Drum |
| Front Lights | — | ✓ |
| Rear Lights | — | ✓ |
| Turn Signals | — | ✗ |
| IP Rating | — | IPX4 |
| Kids' Scooter | ||
| 📱 Tech & Smart | ||
| Companion App | ✓ | ✓ |
| Riding Modes | — | — |
| Cruise Control | — | ✗ |
| OTA Updates | — | ✗ |
| NFC Anti-Theft | — | ✗ |
| GPS Tracking | — | ✓ |
| Warranty | — | — |
📝 Our Verdict
The Hoverfly X5 is ideal for riders needing higher speed, longer range, and a bigger battery for extended trips. The Navee K100 Max suits those who prioritize portability, weather resistance, and GPS navigation for urban commuting.
