FPV-dat
Bee35
| version | price | description |
|---|---|---|
| Bee35 Pro O3 Air Unit TBS | 480 | O3 Air Unit, TBS radio |
| Bee35 Pro O3 Air Unit ELRS | 470 | O3 Air Unit, ELRS radio |
| Bee35 Pro O3 Air Unit PNP | 460 | O3 Air Unit, no receiver |
| Bee35 Pro | 270 | Standard analog version |
| Bee35 Pro LINK WASP TBS | 430 | LINK WASP digital system, TBS radio |
| Bee35 Pro LINK WASP ELRS | 420 | LINK WASP digital system, ELRS radio |
| Bee35 Pro LINK WASP PNP | 400 | LINK WASP digital system, no receiver |
| Bee35 Analog TBS | 306 | Analog FPV system, TBS radio |
| Bee35 Analog ELRS | 296 | Analog FPV system, ELRS radio |
commerialized FPV
1. SpeedyBee Flight Controllers & Stacks
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Brand: SpeedyBee
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Description: Budget-friendly, Betaflight-supported flight controllers with easy app-based tuning.
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Example Products:
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SpeedyBee F405 V4 Stack (F4-based, affordable)
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SpeedyBee F7 V3 Stack (F7-based, powerful & feature-rich)
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SpeedyBee F405 V4 Stack (F4-based, affordable)
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Commercial Features:
- Wireless Bluetooth & Wi-Fi tuning via SpeedyBee app.
- Fully compatible with Betaflight Configurator.
- Wireless Bluetooth & Wi-Fi tuning via SpeedyBee app.
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Website: speedybee.com
2. TBS Tango 2 (Crossfire-Integrated Radio Controller)
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Brand: Team BlackSheep (TBS)
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Description: A high-performance FPV radio transmitter designed for Betaflight-based drones with built-in Crossfire.
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Commercial Features:
- Fully optimized for Betaflight & Crossfire.
- Compact, ergonomic design for FPV pilots.
- Fully optimized for Betaflight & Crossfire.
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Website: team-blacksheep.com
opensource control projects
Most Famous Open-Source FPV GitHub Projects
If you're looking for open-source FPV (First-Person View) projects on GitHub, here are some of the most famous ones:
1. Betaflight
- Description: One of the most widely used open-source flight control firmware for FPV drones.
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Features:
- Highly optimized for acrobatic and racing drones.
- Supports a wide range of flight controllers.
- Advanced tuning options for PID, filters, and motor control.
- GitHub: github.com/betaflight/betaflight
2. iNavFlight
- Description: A fork of Betaflight, but optimized for GPS and long-range FPV.
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Features:
- Supports GPS waypoint navigation, return-to-home (RTH), and mission planning.
- Designed for freestyle and long-range cruising rather than racing.
- GitHub: github.com/iNavFlight/inav
3. ArduPilot
- Description: A professional-grade open-source autopilot for drones, including FPV quadcopters, planes, and rovers.
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Features:
- Highly autonomous with advanced mission planning.
- Works with multiple types of vehicles (planes, multirotors, helicopters).
- Compatible with Mission Planner and QGroundControl.
- GitHub: github.com/ArduPilot/ardupilot
4. PX4
- Description: A powerful open-source flight control software used in drones and FPV systems.
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Features:
- Supports both FPV racing drones and autonomous UAVs.
- Works with Pixhawk flight controllers and supports ROS (Robot Operating System).
- GitHub: github.com/PX4/PX4-Autopilot
5. FalcoX
- Description: An alternative FPV flight control firmware focusing on ease of use and smooth flight performance.
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Features:
- Intuitive configuration interface.
- Aimed at both freestyle pilots and racers.
- GitHub: github.com/FlightOne/FalcoX
6. ExpressLRS
- Description: Open-source long-range radio control link for FPV drones, competing with Crossfire and ELRS.
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Features:
- Low latency and high refresh rates (great for FPV racing).
- Compatible with many radio transmitters (TBS, Jumper, Radiomaster).
- GitHub: github.com/ExpressLRS/ExpressLRS
7. OpenHD
- Description: Open-source HD video transmission for FPV drones (alternative to DJI HD systems).
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Features:
- Uses Raspberry Pi + WiFi for HD FPV video streaming.
- Supports OSD (On-Screen Display) and telemetry data.
- GitHub: github.com/OpenHD/OpenHD
🔥 Which One Should You Choose?
| Purpose | Best Open-Source Project |
|---|---|
| Racing/Freestyle FPV | Betaflight |
| GPS & Long-Range FPV | iNav |
| Full Autopilot (Drones, Planes, Rovers) | ArduPilot |
| Professional UAVs & Research | PX4 |
| HD FPV Video Streaming | OpenHD |
| Long-Range Radio Links | ExpressLRS |
standards
PNP stands for "Plug and Play."
In the context of FPV drones, a PNP version means that the drone comes mostly assembled but does not include a radio receiver.
Here's why it doesn't include a receiver:
Flexibility: PNP versions cater to experienced FPV pilots who already have their preferred radio transmitter and receiver. This allows them to use their existing equipment and avoid paying for redundant components. Customization: Pilots might have specific receiver requirements based on their radio system (e.g., TBS Crossfire, ELRS, FrSky). Offering a PNP version lets them choose the exact receiver that's compatible with their setup. Cost Savings: By excluding the receiver, the manufacturer can offer the PNP version at a lower price point, making it attractive to those who don't need the included receiver. In short, PNP versions are designed for users who want to use their own radio gear and prefer to avoid unnecessary costs or compatibility issues.