Project of a wireless communication channel for a drone
- 2.4 GHz radio
- Modulation: LoRa®, FLRC, (G)FSK
- Range more than 6 km with a data rate of 20,3 Kb/s
- ARM® Cortex® -M3, 128 kbyte FLASH and 32 kbyte SRAM
- High receiver sensitivity for increased robustness and long-range communication
- Raspberry Pi HAT compatible
- No duty cycle restrictions
- USB interface
- Host controller interface for easy configuration and control
- Support for AES encrypted message exchange
- Bootloader
Xinji has developed a reliable technology for wireless communication between drones based on a communication module that supports a 2.4GHz LoRa wireless network, which is ideal for long-distance data transmission in harsh wireless communication conditions.
A team of 4 drones will communicate with each other and exchange data in a reliable way, since the communication module is equipped with a separate microcontroller with advanced software that supports the exchange of encrypted messages and thus meets the important requirements of cybersecurity in our digital world.
Drones receive weather data to fly only in good weather to check power cables.
The camera on the drones can magnify the image and take high-quality pictures of leaks and breaks of power line cables, and thanks to intelligent image processing, drones can detect malfunctions at an early stage to avoid more serious failures or failure of the power grid.
Drones connect to high-voltage cables and charge their batteries to be able to continuously check power cables and detect malfunctions in the distribution system.
Thanks to the LoRa wireless communication system between drones developed by Xinji, drones can connect to the Internet and provide power line operators with the ability to receive power grid inspection data accurately, frequently and autonomously.
