Description
🔧 F450 Quadcopter Frame – 450mm Wheelbase Drone Frame Kit
The F450 Quadcopter Frame is a popular 450mm wheelbase drone chassis designed for DIY quadcopter builds, aerial photography, and FPV applications. Featuring a robust yet lightweight construction with integrated PCB arms, this frame provides excellent strength-to-weight ratio and built-in power distribution. The 450mm diagonal wheelbase offers ideal balance between stability and agility, supporting 10-11 inch propellers and payloads up to 1kg. Perfect for beginners building their first drone, intermediate pilots upgrading platforms, and aerial photography enthusiasts seeking a reliable, proven frame design.
✨ Key Highlights
- 📏 450mm Wheelbase – Diagonal motor-to-motor distance
- 💪 Integrated PCB Arms – Built-in power distribution board
- ⚖️ Lightweight Design – ~280g frame weight only
- 🛡️ Durable Construction – Glass fiber reinforced nylon
- 🚁 10-11″ Prop Compatible – Supports large propellers
- 📦 Spacious Interior – Room for flight controller, battery, electronics
- 🔌 Power Distribution – Integrated PDB on arms (optional)
- 🔧 Easy Assembly – Simple screw-together construction
- 📹 Camera Mount Ready – Compatible with gimbals and mounts
- 💰 Cost-Effective – Affordable platform for builds
📊 Technical Specifications
| 📏 Wheelbase |
450mm (diagonal motor-to-motor) |
| ⚖️ Frame Weight |
~280g (frame only) |
| 🔧 Motor Mount |
16×19mm or 19×19mm (M3 holes) |
| 🚁 Propeller Size |
10-11 inch (max recommended) |
| 📦 Center Plate Size |
~200×200mm (top/bottom plates) |
| 🔩 Mounting Holes |
M3 (45mm spacing flight controller) |
| 📏 Arm Length |
~220mm per arm |
| 📐 Arm Thickness |
1.6mm PCB or 3mm plastic |
| 💪 Max Payload |
~1000g (including battery) |
| 🔋 Battery Space |
Fits 3S-4S 3300-5000mAh LiPo |
| 🛡️ Material |
Glass fiber nylon + PCB arms |
| 🎨 Colors |
White/Red or Black/Red (typical) |
🔧 Frame Components
| Top Center Plate |
Upper mounting plate for flight controller |
| Bottom Center Plate |
Lower plate with battery mounting area |
| 4× PCB Arms |
With integrated power distribution (red/black) |
| 4× Motor Mounts |
Mounting plates for brushless motors |
| Landing Gear |
2× skid-style landing legs (optional) |
| Hardware Kit |
Screws, nuts, standoffs for assembly |
🎯 Perfect For
- 🎓 First DIY Drone Build – Beginner-friendly platform
- 📹 Aerial Photography – Stable platform for GoPro, action cameras
- 🎮 FPV Flying – Long-range cruising and exploration
- 🔬 Learning Platform – Educational builds, STEM projects
- 🚁 Multi-Rotor Projects – Standard quadcopter configuration
- 📊 Testing Platform – Flight controller testing, development
- 🏫 School Projects – University, workshop builds
- ⚙️ Custom Builds – Flexible platform for modifications
🔌 Required Components for Complete Build
- 🔄 4× Brushless Motors – 2212/2216 (900-1000KV recommended)
- ⚡ 4× ESCs – 30A (SimonK or BLHeli firmware)
- 🚁 4× Propellers – 10×4.5 or 11×4.7 inch (2 CW, 2 CCW)
- 📡 Flight Controller – KK2, CC3D, F4, Pixhawk, etc.
- 🔋 LiPo Battery – 3S-4S 3300-5000mAh (XT60 connector)
- 📻 RC Transmitter & Receiver – 6+ channel recommended
- 🔌 Power Distribution – Arms have built-in PDB or use separate
- 🔩 Additional Hardware – Battery straps, cable ties
- 📹 Camera (Optional) – GoPro, FPV camera, gimbal
✅ Key Advantages
- 📏 Proven Design – Industry-standard 450mm platform
- 💪 Integrated PDB – Arms have built-in power distribution
- ⚖️ Lightweight – Only ~280g leaves room for payload
- 🛡️ Durable Materials – Glass fiber reinforced, crash-resistant
- 🔧 Easy Assembly – Simple screw-together design
- 📦 Spacious Layout – Plenty of room for components
- 💰 Affordable – Budget-friendly frame for beginners
- 🔌 Clean Wiring – PCB arms reduce wire clutter
- 🚁 Stable Flight – 450mm size offers good stability
- 📚 Huge Community – Extensive tutorials and support
⚠️ Important Notes
- 🔩 Hardware Quality – Some kits have low-quality screws, consider upgrading
- ⚖️ Weight Limit – Stay under 1kg total payload for best performance
- 🚁 Propeller Size – Don’t exceed 11 inch props (clearance issues)
- 🔌 Verify PDB – Check if PCB arms are functional or just structural
- 🛡️ Landing Gear – May be fragile, consider reinforcement
- 📦 Center Plate Flex – Center plates can flex, add carbon fiber if needed
- 🔧 Motor Mounting – Use Loctite on motor screws to prevent loosening
- 🎨 Color Coding – Red arms typically front, white/black rear
🔧 Assembly Guide
| 1. Attach Arms |
Connect 4 arms to bottom center plate with screws |
| 2. Mount Motors |
Attach motors to arm motor mounts (2 CW, 2 CCW) |
| 3. Install ESCs |
Mount ESCs on arms, connect to motors |
| 4. Wire Power |
Connect ESCs to PDB on arms or separate PDB |
| 5. Flight Controller |
Mount FC on top plate with standoffs |
| 6. Top Plate |
Attach top center plate with spacers/screws |
| 7. Landing Gear |
Install landing skids to bottom plate |
| 8. Battery Mount |
Attach velcro or battery strap to bottom |
📊 Recommended Build Specifications
| Component |
Specification |
Notes |
| Motors |
2212 1000KV |
Balanced performance |
| ESCs |
30A SimonK/BLHeli |
One per motor |
| Propellers |
10×4.5″ (2CW+2CCW) |
Carbon fiber or plastic |
| Battery |
3S 3300mAh 30C |
~10-15 min flight time |
| Flight Controller |
F4/F7 or CC3D |
Modern FC recommended |
| All-Up Weight |
~1100-1300g |
Including battery |
🔋 Battery Options
| 3S 2200mAh |
8-10 min flight, lightweight, agile |
| 3S 3300mAh |
10-12 min flight, balanced (recommended) |
| 3S 5000mAh |
15-18 min flight, heavier, stable |
| 4S 3300mAh |
More power, shorter flight, advanced |
🔍 Troubleshooting
| Frame Flexing |
Add carbon fiber stiffeners between plates |
| Arms Breaking |
Land gently, consider carbon fiber arms upgrade |
| Motor Screws Loose |
Use blue Loctite on all motor mount screws |
| Vibrations |
Balance propellers, check motor mounting |
| Landing Gear Weak |
Reinforce or replace with stronger gear |
| Wire Management |
Use zip ties, plan routing before final assembly |
💡 Pro Tips
- 🔩 Upgrade Screws – Replace kit screws with quality stainless steel
- 🔧 Use Loctite – Apply threadlocker to all screws (except FC)
- 🎨 Color Arms – Mark front arms clearly for orientation
- ⚖️ Weight Distribution – Center battery for balanced CG
- 🔌 Test PDB First – Verify PCB arms conduct power before assembly
- 📹 Camera Position – Plan camera mount before final assembly
- 🛡️ Protect Electronics – Use foam tape to dampen vibrations
- 📏 Motor Direction – Verify correct prop rotation pattern
🚁 Motor & Propeller Configuration
| Front Right Motor |
Clockwise (CW) rotation |
| Front Left Motor |
Counter-Clockwise (CCW) rotation |
| Rear Right Motor |
Counter-Clockwise (CCW) rotation |
| Rear Left Motor |
Clockwise (CW) rotation |
📦 Package Contents
- ✅ 1x Top center plate (glass fiber nylon)
- ✅ 1x Bottom center plate with battery area
- ✅ 4x PCB arms (with integrated power distribution)
- ✅ 4x Motor mounting plates
- ✅ 2x Landing gear skids
- ✅ Hardware kit (screws, nuts, standoffs)
- ⚠️ Note: Motors, ESCs, props sold separately
- ⚠️ Note: Flight controller sold separately
- ⚠️ Note: Battery and electronics sold separately
- ⚠️ Note: Assembly required – screwdriver needed
🎓 Estimated Build Cost
- 💰 F450 Frame Kit – $15-25
- 🔄 4× Motors (2212 1000KV) – $40-60
- ⚡ 4× 30A ESCs – $40-60
- 🚁 Propellers (multiple sets) – $10-20
- 📡 Flight Controller – $30-80
- 🔋 3S Battery (3300mAh) – $20-30
- 📻 Transmitter & Receiver – $50-150
- 🔌 Accessories & Wiring – $20-30
- 💵 Total Estimated Cost – $225-455 (varies)
🎯 Flight Performance Expectations
- ⏱️ Flight Time – 10-15 minutes (3S 3300mAh)
- ⚖️ All-Up Weight – 1100-1300g with battery
- 🚀 Max Speed – 40-60 km/h (depends on setup)
- 📏 Max Range – 500m-1km (transmitter dependent)
- 🌬️ Wind Resistance – Moderate (light to moderate wind)
- 📹 Payload Capacity – GoPro + small gimbal comfortable
🔧 Upgrade Options
- 💪 Carbon Fiber Arms – Stronger, lighter than PCB arms
- 🛡️ Carbon Fiber Plates – Stiffer center plates, less flex
- 🦵 Upgraded Landing Gear – Taller, stronger legs
- 📹 Gimbal Mount – Add 2-axis or 3-axis gimbal
- 🔋 Larger Battery – 4S or 5000mAh for longer flights
- 📡 GPS Module – Position hold, return to home
- 📹 FPV System – Camera, VTX, goggles for FPV flying
- 💡 LED Lights – Navigation lights for visibility
🛡️ Product Information
✅ F450 Quadcopter Frame Kit – 450mm Wheelbase Drone Chassis
✅ Wheelbase: 450mm diagonal (motor-to-motor distance)
✅ Frame weight: ~280g (lightweight construction)
✅ Material: Glass fiber reinforced nylon + PCB arms
✅ Integrated PCB arms with power distribution capability
✅ Motor mounting: 16×19mm or 19×19mm pattern (M3 holes)
✅ Propeller compatibility: 10-11 inch maximum
✅ Battery space: 3S-4S 3300-5000mAh LiPo batteries
✅ Max payload: ~1000g including battery
✅ Flight controller mounting: 45mm hole spacing (standard)
✅ Includes: Top/bottom plates, 4 arms, motor mounts, landing gear, hardware
✅ Applications: DIY builds, aerial photography, FPV, learning
✅ Beginner-friendly: Easy assembly, proven design
⚠️ Important: Frame ONLY – motors, ESCs, flight controller, battery, and electronics sold separately. Assembly required (screwdriver needed). Recommended setup: 4× 2212 1000KV motors, 4× 30A ESCs, 10″ props, 3S 3300mAh battery, F4/CC3D flight controller. Use Loctite on motor screws. PCB arms may vary – verify power distribution functionality. Landing gear may be fragile – handle carefully. Maximum propeller size: 11 inch. Stay under 1kg payload for optimal performance. Color coding: Red arms typically front orientation. Hardware quality varies – consider upgrading screws.
