Adopted latest radio control technology, the drone can automatically identify its location when it is played in headless mode. It is just a piece of cake to get back your drone even though it is flying far away from you.
Adopt the advanced barometer to automatically maintain flying altitude. Operation is very simple. Once signal connections are finished, push up the throttle control stick and then hands off. The copter will maintain a desired flying altitude.
With built-in positioning system, the drone can auto locate the remote control. Just press the one-key return button, the drone will fly back to the remote control’s location.
The latest 6-axis flight control system, permits super stable flight.
The 2.4GHz radio technology has become the mainstream in radio control domain. Its transmission distance is up to 10 meters, this is a significant advantage over the 27MHz radio technology. Nowadays, low energy consumption and microminiaturization have become the active demand of the radio communication product; 2.4GHz radio technology satisfied this requirement very well.
2.4GHz is a special frequency range, if changed to the familiar frequency as we know,it equals to 2400MHz.Hence, it is also named as high frequency. Generally speaking, high frequency does not cause signal interference. The frequency range of 2.4GHz comes to fruition firstly in signal anti-interference. This year, signal interference occurs from time to time in the remote control playing gathering. Someone even doubt that high-voltage induction coil that caused by the spark of the car engine may bring signal interference.But, do not worry. The 2.4GHz does very well in this aspect. Signal interference will not occur even though multiple helicopters are played at the same time.
Take 72MHz for example, if using the Twentieth channel (72.190MHz), then, the transmitter use the exact 72.190MHz for transmitting signal only, and the receiver is also received the signal which is sending from 72.190MHz, in case that this channel is encounter obstacle, the radio communication will be presented. But the 2.4GHz system uses the high frequency range for sending signal, signal interference problem will not occur. Let’s take the FHSS frequency hopping pattern that Futaba 2.4GHz system adopts as an example, it takes the advantage of spread hopping way when sending signal. Imagined that there is a 16 lane highway and the 2.4GHz signal keeps moving from lane to lane, thus, the chance of signal interference is very small.
Installed with LED light, it is much more attractive and interesting when flying at night.