Tethered Drone Station: Isolation Design to Prevent Electric Shock, Low-Current Alarm for Safe Flight
| size | 60.5x45x60cm |
| weight | 62kg |
| input | 380V AC ±10% 50Hz/60Hz |
| output | 1000V DC / 18KW |
| height | 150m |
| features | ※ Automatic voltage compensation, automatic overcurrent protection ※ Anti -inverted electric momentum for safe landing ※ Isolation design to prevent electric shock ※ Low -current alarm for safe flight ※ Base station with 485 communication to display datas in real time |
A tethered drone system offers several advantages over traditional, untethered drones. Here are some of the key advantages:
1. Increased endurance: Tethered drones are connected to a ground station or a host vehicle by a cable, which provides power and data transmission. This allows the drone to operate for longer periods without the need to return to the ground for battery replacement.
2. Higher payload capacity: Since tethered drones don't have to carry their own power source, they can dedicate more space and weight to payload equipment, such as sensors, cameras, or communication devices.
3. Reliability: Tethered drones are less susceptible to signal interference and loss of communication compared to untethered drones, as they are physically connected to the ground station or host vehicle. This ensures better control and monitoring of the drone's operations.
4. Safer operations: Tethered drones operate within a defined area, making them less likely to stray into unauthorized airspace or collide with other aircraft.
Additionally, they are less susceptible to losing altitude or getting lost due to battery failure, which can be a safety concern with untethered drones.
