4G/LTE/5G Connectivity for Drones
Sky Drone Link 3 is an end-to-end encrypted low latency transmission system for drones utilizing 4G/LTE or 5G networks. It provides an unlimited-range command & control as well as UHD/4k resolution video-link via HDMI interface. Using the 5G mobile network you can benefit from higher bandwidth, lower latency and better Quality of Service (QoS) options of that new network technology.
DIGITAL ULTRA HIGH DEFINITION VIDEO
Sky Drone Link 3 supports HDMI camera input with UHD 4k / 2160p.
GIMBAL CONTROL / FLIGHT CONTROLLER LINK
Besides the video link, Sky Drone Link 3 provides a bidirectional data link between your drone and your Ground Control Station. This can be used to visualized telemetry data and/or control the drone. The MAVLink protocol according to Dronecode standard via JST-GH connector is supported out of the box. Proprietary protocols are transmitted as well. Many gimbals can be controlled using the MAVLink protocol and Sky Drone Link 3 can act as a virtual connection to the gimbal. This functionality is entirely optional.
By using existing cellular networks, the Sky Drone Link system provides you with virtually unlimited range. The only requirement is cell tower coverage. The system is optimized for 4G / LTE and 5G networks to provide best video quality and lowest latency but can also fall back to 3G networks. It adapts to varying signal and bandwidth conditions by automatically adjusting video parameters without interrupting the stream.
By using our own highly optimized video processing pipeline, the system is designed for lowest latency video from scratch. The typical end-to-end latency is less than 350ms depending on the camera used.
The groundstation client to receive video from the Sky Drone Link 3 unit runs on Windows and Linux with version for MacOS, Android and iOS in the pipeline.
The video stream, command&control channel and meta data are fully end-to-end encrypted making it impossible for third parties to eavesdrop on the transmission or interfere with it. Rather than reinventing the wheel, we rely on open and proven standards including Datagram Transport Layer Security (DTLS) and Secure Real-Time Protocol (SRTP) using AES256.
HOW IT WORKS
Video & Gimbal- or Flightcontroller Link:
Note: Gimbal Control Software not included, as it depends on the specific gimbal system.
|Weight:||228g incl. encoder and cables|
|Power Input:||5V@2A (max. power voltage 28V 6S) + 5V@2A (encoder)|
|Supported HDMI Inputs Formats:||3840×2160@30p, 1920×1080@60p, 1920×1080/50p,1920x108060i, 1920×1080/50i, 1920×1080/30p, 1920×1080/30i, 1280×720@60p, 1280×720@/50p, 1280×720@/30p, 720x576i, 720x480i|
|Antenna:||dual external antenna included|
|Typical End-to-End Latency:||<350ms|
|Typical Data Consumption on 4G/LTE:||10 minutes of streaming consumes:
UHD / 4K at 20mbit/s: 1500MB
Full HD at 6mbit/s: 450MB
HD at 2mbit/s: 150MB
|Cellular Network Technology:||4G Version: LTE Advanced Pro
5G Version: Multi-Band 5G NR/LTE-FDD/LTE-TDD/HSPA+
|Supported Frequency Bands of 4G/LTE Version:||B1, B2, B3, B4, B5, B7, B8, B9, B12, B13, B18, B19, B20, B26, B28, B29, B30, B32, B41, B42, B43, B46, B48, B66
3G fallback supported
|Supported Frequency Bands of 5G Version:||
Sub-6G: n1, n2, n3, n5, n7, n8, n12, n20, n28, n38, n40, n41, n48, n66, n71, n77, n78, n79
LTE-FDD: B1, B2, B3, B4, B5, B7, B8, B12, B13, B14, B17, B18, B19, B20, B25, B26, B28, B29, B30, B32, B66, B71
LTE-TDD: B34, B38, B39, B40, B41, B42, B43, B48
WCDMA: B1, B2, B3, B4, B5, B8
3G, 4G fallback supported
|Public Safety Networks (4G Version):||public safety LTE networks in Europe (B20, B28)
(contact us if you need FirstNet™ support)
|Private LTE Networks (4G Version):||3.5GHz local private networks (CBRS band)
|Carrier Certifications (4G Version):||AT&T, Verizon
Certification in progress: Bell, docomo, KDDI, Rogers, Softbank, Telstra, Telus
COMPATIBILITY AND REQUIREMENTS
|UAV / Drone|
|Modes:||Video transmission only:
Any UAV / drone that can carry the module weight
Gimbal Control / Flight Controller Link (optional):
A gimbal controller or flight controller that uses a serial UART based interface.Command & Control Autopilot:
- MAVLink based flight stacks like PX4 and Ardupilot on any flight controller (e.g. Pixhawk 4, The Cube, Pixracer, ...)
- Dronecode standard JST-GH connector cable provided; easily connects to Pixhawk 4, Cube, etc.
- Any flight controller with serial/UART interface and a groundstation that can interface via TCP
Command & Control Protocols:MAVLink or any
custom protocol in raw-modeGroundstation Software
Sky Drone FPV Client Software
Computer:Minimum: Intel i5, 8 GB RAM
Recommended: Intel i7, 8 GB RAM, dedicated graphics card.
- Windows 7/8/10
- Linux: Ubuntu 14.04 or newer
- MacOS (soon)
- Android (soon)
- iOS (soon)