I. Supports Manual/Automatic Screen Brightness Adjustment
In modern electronic devices, screen brightness adjustment has a
crucial impact on the user experience. To meet the needs of
different users, our product supports two brightness adjustment
methods: manual and automatic. Users can flexibly adjust the screen
brightness according to changes in ambient light to achieve the
best display effect. Manual adjustment allows users to set the
brightness value according to their preferences, while the
automatic adjustment function automatically senses the intensity of
ambient light through a built-in light sensor and adjusts the
screen brightness accordingly. This intelligent adjustment method
not only improves user comfort but also helps users save battery
power and extend device usage time.
II. Product Parameter Table
| Parameters | Description |
|---|
| Operating Mode | Passive detection, does not actively emit electromagnetic signals; |
| Operating Frequency Band | 2.4G/5.8G/Bluetooth; |
| Detection Radius | 1-2km (depending on local electromagnetic environment and drone
model); |
| Positioning Error | ≤10 meters |
| Detection Quantity | ≥10 drones |
| Flight Duration | ≥8 hours |
| Device Weight | Approximately 480 grams (including battery) |
| Screen Size | 5.5-inch IPS HD screen |
| Device Dimensions | 214x82x37mm |
III. Partitioned Display Design
To provide a clearer and more intuitive user interface, our product
adopts a partitioned display design. The left side of the screen is
the drone list area, displaying all connected drone models, signal
strength, and distance to the device. Users can select a drone by
clicking, and the right side will display detailed information
about that drone, including flight mode, remaining battery,
voltage, and other key information. In addition, the right side
also displays the drone's flight path in real time, allowing users
to intuitively view the drone's current location and flight route.
This partitioned design allows users to access information more
conveniently and quickly while avoiding an overly cluttered
interface, thus improving the overall user experience.
IV. Stable Handling of Concurrent Signals from At Least 10 Drones
Our device boasts powerful processing capabilities, capable of
handling concurrent signals from at least 10 drones simultaneously.
This means that stable signal reception and accurate processing are
ensured in complex environments with multiple drones flying at the
same time, as well as in scenarios requiring real-time monitoring
and management of multiple drones. The signal from each drone is
clearly displayed, ensuring users maintain complete control over
all drones during real-time flight. This design significantly
enhances the device's multitasking capabilities and practical
application flexibility, meeting the demands of high-intensity
tasks.
V. Touchscreen Response Speed ≤100ms, Smooth and Lag-Free
Operation, Multi-Touch Support
Our device utilizes advanced touchscreen technology, ensuring a
response speed of ≤100ms and a smooth and seamless operating
experience. Whether it's rapid swiping, clicking, or multi-finger
touch, the device reacts quickly, ensuring smooth and lag-free user
operation. This rapid response capability is crucial for demanding
operations such as flight control, drone adjustments, and real-time
data monitoring. More importantly, the device supports multi-touch,
allowing users to perform multiple operations simultaneously, such
as controlling the drone and viewing different data at the same
time, improving work efficiency and user experience.
