Description
🔍 Product Overview:
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 is an advanced GNSS navigation solution specifically designed for flight controllers such as APM 2.6/2.8 and Pixhawk 2.4.6/2.4.8. It combines the u-blox NEO-7M GPS receiver with an integrated HMC5883L (or QMC5883L) digital compass, offering both precise location data and accurate heading (yaw) information—critical for autonomous drone navigation, waypoint missions, and return-to-home (RTH) operations.
✅ Key Features:
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 GPS Chipset: u-blox NEO-7M
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Compass Sensor: HMC5883L or QMC5883L 3-axis magnetometer
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Supported Flight Controllers:
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 APM 2.6 / 2.8 (I2C compass cable needed)
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Pixhawk 2.4.6 / 2.4.8 (via 6-pin GPS + I2C connector)
-
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Satellite Systems: GPS (L1 band) and QZSS
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8Output Format: NMEA 0183 (default), customizable via u-center
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Fix Status Indicator: Onboard LED shows GPS lock
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Baud Rate: Default 9600 bps
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Power Supply: 3.3V–5V input compatible
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Mounting: Usually comes with a GPS stand or anti-vibration platform
⚙️ Performance Specifications:
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Horizontal Accuracy: ~2.5 meters
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Cold Start: ~27 seconds
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Hot Start: ~1 second (with backup battery)
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Update Rate: 1 Hz default (configurable up to 5 Hz)
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Tracking Channels: 56-channel GNSS engine
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Magnetometer Interface: I2C (standard 4-pin: VCC, GND, SDA, SCL)
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Cable Length: Typically 30–40 cm with JST connectors
🧠 Use Case Scenarios:
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Autonomous drones (quadcopters, fixed-wing, VTOL)
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Waypoint navigation and mission planning with compass-based orientation
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Return-to-Launch (RTL) safety functions
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 FPV aircraft needing heading and GPS telemetry
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 ArduPilot or PX4-based flight stacks
🔄 NEO-7M vs. M8N (for context):
Feature | NEO-7M | NEO-M8N |
---|---|---|
Satellite Support | GPS + QZSS | GPS + GLONASS + Galileo + BeiDou |
Accuracy | ~2.5m | ~1.5m or better |
Update Rate | Up to 5 Hz | Up to 10 Hz |
Compass Integration | HMC5883L/QMC5883L (same) | HMC5883L/QMC5883L (same) |
Price | Lower | Higher |
Ideal Use | Entry to mid-level drones | High-performance UAVs |
📦 Typical Package Includes:
-
NEO-7M GPS module with compass (pre-soldered)
-
6-pin GPS + I2C cable (for Pixhawk)
-
Compass/I2C cable (for APM)
-
Optional anti-vibration GPS mount or stand
⚠️ Important Notes:
-
APM 2.6 requires external compass (no onboard compass)
-
Make sure to calibrate both GPS and compass in Mission Planner before flight
-
Place GPS away from ESCs and power distribution boards to avoid magnetic interference
-
If you are wandering to navigate the distance with a drone then this GPS Module is needed for you. GPS drones are equipped with a GPS module that allows them to know their location relative to a network of orbiting satellites. Connecting to signals from these satellites allows the drone to perform functions such as position hold, autonomous flight, return to home, and waypoint navigation.
Neo 7M GPS module that includes an digital compass. The new NEO 7 series is a high sensitivity, low-power GPS module that has 56 channels and outputs precise position updates at 10Hz. This GPS module also comes with a molded plastic case which keeps the module protected against the elements making it ideal for use on your aircraft or quadcopter.
This Neo 7M GPS module uses an active circuitry ceramic patch antenna to provide an excellent GPS signal which outperforms the older Neo 6 series modules. This Neo 7 module also includes a rechargeable backup battery to allow for HOT starts and also includes an I²C EEPROM to store the configuration settings. Out of the box this GPS module is configured to run at 38400 Baud and is configured to run with APM/Pixhawk systems. This GPS module includes two cables, a 6pin connector for the GPS module, and a 4 pin connector for the i2c compass.
Note:
- APM 2.5 and APM 2.0 have an internal compass (unlike APM 2.6) which must be disabled by cutting a trace before you can connect the 3DR GPS + Compass module (the video here shows how).
- Other than disabling the internal compass, connecting them is the same for APM2.0/APM2.5 as for APM2.6.
Features :
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Locate performance
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 These are Pre-configured, Flashed with the correct settings, and tested. To make them Plug and Play.
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Super Bright LED
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Backplane with Standard Mk style mounting holes 45mm X 45mm
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 38400 bps (Default) Changed to 115200bps!
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Output GGA, GSA, and RMC frames
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 1Hz (Default) Changed to 5Hz!
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Permanent Configuration Retention
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 compass on board
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 6 pin connector for EZ connect to MEGA BLACK
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 4 pin connector for only GPS use
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 4 pin connector for compass only use
- NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Can use both 4 pins at once.
Package Includes :
1 x Neo 7M GPS module.
🔍 Product Overview:
The NEO-7M GPS with Compass module is an advanced GNSS navigation solution specifically designed for flight controllers such as APM 2.6/2.8 and Pixhawk 2.4.6/2.4.8. It combines the u-blox NEO-7M GPS receiver with an integrated HMC5883L (or QMC5883L) digital compass, offering both precise location data and accurate heading (yaw) information—critical for autonomous drone navigation, waypoint missions, and return-to-home (RTH) operations.
✅ Key Features:
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 GPS Chipset: u-blox NEO-7M
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Compass Sensor: HMC5883L or QMC5883L 3-axis magnetometer
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Supported Flight Controllers:
-
APM 2.6 / 2.8 (I2C compass cable needed)
-
Pixhawk 2.4.6 / 2.4.8 (via 6-pin GPS + I2C connector)
-
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Satellite Systems: GPS (L1 band) and QZSS
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Output Format: NMEA 0183 (default), customizable via u-center
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Fix Status Indicator: Onboard LED shows GPS lock
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Baud Rate: Default 9600 bps
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Power Supply: 3.3V–5V input compatible
-
NEO-7M GPS for Pixhawk 2.4.6 / 2.4.8 Mounting: Usually comes with a GPS stand or anti-vibration platform
⚙️ Performance Specifications:
-
Horizontal Accuracy: ~2.5 meters
-
Cold Start: ~27 seconds
-
Hot Start: ~1 second (with backup battery)
-
Update Rate: 1 Hz default (configurable up to 5 Hz)
-
Tracking Channels: 56-channel GNSS engine
-
Magnetometer Interface: I2C (standard 4-pin: VCC, GND, SDA, SCL)
-
Cable Length: Typically 30–40 cm with JST connectors
🧠 Use Case Scenarios:
-
Autonomous drones (quadcopters, fixed-wing, VTOL)
-
Waypoint navigation and mission planning with compass-based orientation
-
Return-to-Launch (RTL) safety functions
-
FPV aircraft needing heading and GPS telemetry
-
ArduPilot or PX4-based flight stacks
🔄 NEO-7M vs. M8N (for context):
Feature | NEO-7M | NEO-M8N |
---|---|---|
Satellite Support | GPS + QZSS | GPS + GLONASS + Galileo + BeiDou |
Accuracy | ~2.5m | ~1.5m or better |
Update Rate | Up to 5 Hz | Up to 10 Hz |
Compass Integration | HMC5883L/QMC5883L (same) | HMC5883L/QMC5883L (same) |
Price | Lower | Higher |
Ideal Use | Entry to mid-level drones | High-performance UAVs |
📦 Typical Package Includes:
-
NEO-7M GPS module with compass (pre-soldered)
-
6-pin GPS + I2C cable (for Pixhawk)
-
Compass/I2C cable (for APM)
-
Optional anti-vibration GPS mount or stand
⚠️ Important Notes:
-
APM 2.6 requires external compass (no onboard compass
-
Make sure to calibrate both GPS and compass in Mission Planner before flight
-
Place GPS away from ESCs and power distribution boards to avoid magnetic interference
🛰️ How It Works – Dual-Function Navigation Module
The NEO-7M GPS with Compass is a dual-sensor module that combines two critical components in modern UAV flight:
-
u-blox NEO-7M GNSS Receiver:
-
Receives satellite signals from the GPS and QZSS constellations.
-
Calculates 3D position, speed, altitude, and UTC time.
-
Provides continuous real-time positioning via UART serial (9600 bps default).
-
Stores ephemeris and almanac data in the onboard battery-backed RAM for faster restarts (hot starts).
-
Compatible with u-center software for advanced configuration (update rate, message format, filtering).
-
-
Digital Compass (HMC5883L or QMC5883L):
-
Measures Earth’s magnetic field in 3 axes.
-
Provides accurate heading (yaw) orientation, which is essential for autonomous drone navigation.
-
Communicates using I2C protocol, easily recognized by APM and Pixhawk flight controllers.
-
Together, these sensors allow the drone to know where it is and which direction it’s facing, which is essential for:
-
Waypoint navigation
-
Return to Launch (RTL)
-
Position Hold (Loiter)
-
Automatic takeoff/landing
-
Yaw stabilization
🔌 Hardware Installation Guide
-
-
For Pixhawk 2.4.6 / 2.4.8:
-
Use the included 6-pin cable to connect the GPS module to the GPS port on the Pixhawk.
-
The compass connects automatically via I2C lines in the same cable.
-
Power is supplied via the Pixhawk port (5V).
For APM 2.6 / 2.8:
-
GPS: Connect TX/RX pins to the GPS UART port.
-
Compass: Use a separate 4-pin I2C cable (SDA, SCL, VCC, GND) to connect to the I2C port.
-
APM 2.6 has no onboard compass, so external compass is required.
✅ Important: Always orient the GPS so the arrow points forward, in the same direction as the drone.
⚙️ Software Setup (Mission Planner)
-
Connect flight controller to Mission Planner via USB.
-
Under Initial Setup → Mandatory Hardware → Compass, check:
-
Use Compass
-
External Compass (for APM 2.6)
-
-
Run Compass Calibration and Accelerometer Calibration.
-
Under GPS Configuration, ensure baud rate is set to 9600 and protocol is NMEA.
-
Optional: Disable unwanted NMEA sentences via u-center for faster communication.
🧪 Best Practices & Usage Tips
-
Mount the GPS on a mast or stand, away from ESCs, PDBs, and high-current wires.
-
Run the I2C cable separately to reduce magnetic interference.
-
Use non-conductive anti-vibration mounts to minimize vibrations affecting compass readings.
-
Always recalibrate compass after relocation or new frame assembly.
🚀 Ideal Use Cases
Project Type Benefits from This Module DIY Quadcopter Accurate position hold, reliable RTL Survey Drone Precise GPS path and orientation data logging Fixed-Wing UAV Stable heading during autonomous missions FPV Freestyle GPS failsafe, pilot assist, and lost drone recovery Educational Kits Learning GPS + compass integration and calibration
🔄 Why Choose NEO-7M Over M8N?
While NEO-M8N supports more constellations (GLONASS, Galileo, BeiDou), the NEO-7M is:
-
More affordable
-
Good enough for most hobby drones
-
Easier to configure
-
Works great with ArduPilot and PX4 out-of-the-box
🏁 Final Thoughts
The NEO-7M GPS with Compass is a trusted and widely used module for APM a nd Pixhawk users. It’s an essential component for reliable autonomous navigation, providing the positional awareness and directional intelligence needed to execute safe and accurate flights. If you’re flying a DIY drone or building a UAV system, this module gives you the navigation backbone for features like waypoints, GPS hold, and failsafe return.
🛰️📍 Why GPS and Compass Together Matter in Drones
In drone flight systems, GNSS (Global Navigation Satellite System) provides position (latitude, longitude, altitude), but it cannot determine the drone’s heading unless the drone is moving. That’s where a compass (magnetometer) becomes critical—it tells the drone its orientation even when stationary.
Without a compass:
-
The drone cannot determine its yaw (facing direction)
-
Features like waypoint missions, Return to Launch, Loiter, or Auto Takeoff/Land can become unreliable or unsafe
-
Position Hold may cause erratic behavior if wind drifts the drone
By combining NEO-7M GPS and a 3-axis compass sensor, this module ensures true north-aligned navigation, allowing smooth and autonomous operations with confidence.
📡 Hardware Reliability and Practical Performance
-
NEO-7M GNSS Engine:
-
Highly sensitive receiver with cold-start fix times of ~27s, hot start ~1s
-
Performs well in open areas and moderately obstructed environments
-
Capable of tracking 22 satellites simultaneously
-
Less prone to multipath errors compared to lower-tier GPS-only modules
-
-
Integrated Compass:
-
Typically uses HMC5883L (or replacement QMC5883L) 3-axis magnetometer
-
Accurately detects yaw, tilt-compensated heading, and field strength
-
Communicates via I2C, with standard 3.3V/5V compatibility
-
🔄 Flexibility and Ecosystem Support
This module is designed specifically to plug-and-play with:
-
Pixhawk 2.4.6 / 2.4.8: Using the combined 6-pin GPS+I2C port
-
APM 2.6 / 2.8: Requires a separate I2C compass cable (included in most kits)
Thanks to ArduPilot and PX4 firmware support, the module is fully configurable via:
-
Mission Planner (ArduPilot)
-
QGroundControl (PX4)
-
u-blox u-center (advanced GNSS parameter tuning)
You can adjust:
-
Update rate (1 Hz to 5 Hz)
-
Enabled NMEA sentences
-
Baud rate
-
Dynamic platform model (e.g., airborne, pedestrian, stationary)
🧱 Physical Design & Mounting
-
Compact PCB module (often encased in plastic housing)
-
LED indicators for power and GPS lock status
-
Mounts easily with double-sided tape, GPS mast stands, or anti-vibration sponge pads
-
Arrow-marked enclosure ensures correct orientation
With a 30–50 cm cable, you can place the unit on top of your drone frame, isolated from electrical noise.
🔍 Field Behavior During Flight
Once airborne, this module enables:
-
Stable loitering by maintaining both position and direction
-
Accurate yaw correction during wind drift or autonomous yaw turns
-
Waypoint tracking without overshooting or spiraling
-
RTL (Return to Launch) with correct nose orientation
-
Auto missions to follow a planned flight path with precision
Even if your drone is momentarily stationary, the compass keeps the flight controller aware of its facing direction, preventing GPS drift errors.
🧰 Ideal Use Cases
-
DIY quadcopter, hexacopter, or fixed-wing builds
-
Agricultural drones performing automated grid mapping
-
FPV builds needing failsafe return-to-home
-
Educational UAV projects needing both heading and position data
-
Robotics platforms using ArduPilot-based navigation
🏆 Why It’s a Trusted Choice
-
Time-tested by the global drone and ArduPilot community
-
Low cost, high compatibility
-
Easy to set up and calibrate
-
Sufficient performance for all but the most demanding GNSS environments
-
Available with various mount and connector options
Why Choose Lofty AgroTech?
When building or servicing agricultural drones in India, Lofty AgroTech stands out as a reliable and innovative partner. Here’s a comprehensive breakdown of why we choose Lofty AgroTech:
1️⃣ DPIIT-Recognized Innovation
-
Lofty AgroTech is officially recognized by the Department for Promotion of Industry and Internal Trade (DPIIT), Govt. of India.
🏅 This certification ensures quality, credibility, and government endorsement as a genuine Indian AgriTech innovator.
2️⃣ Tailored for Indian Farming Conditions
-
Their drone components—including GPS modules, landing gear, frames, and spraying systems—are designed and tested for Indian climates:
-
Heat, dust, and humidity-resistant
-
Compatible with crops like paddy, cotton, and sugarcane
-
-
Engineered specifically for Indian fields, not generic imports.
3️⃣ Complete Hardware Ecosystem
-
Lofty AgroTech provides GPS modules, drone frames, landing gear, sprayer accessories, flight controllers, and telemetry—all under one roof.
-
Ideal for building integrated systems that work seamlessly together from day one.
4️⃣ Plug-and-Play Convenience
-
Products like the NZ Mini GPS Module are pre-configured for Betaflight/Cleanflight, and hardware parts fit standard UAV systems perfectly.
-
No firmware flashing or awkward adapters—just plug, play, and fly.
5️⃣ Strong Local Support & Spare Parts
-
Fast shipping across India without customs delays.
-
Dedicated after-sales support via phone or chat—real help when you’re in the field or repairing.
-
Access to common spares, making downtime less likely.
6️⃣ Academic & Startup Partnerships
-
Lofty AgroTech collaborates with colleges, R&D centers, and agri-tech startups, providing drone kits, hardware training, and workshops.
-
Their products are trusted in STEM labs, contests, innovator incubators, and proof-of-concept tests.
7️⃣ Proven Quality & Real-World Performance
-
Uses industrial-grade components like u‑blox GPS chips, carbon fiber, and rugged nylon.
-
Field-tested in Indian conditions to ensure reliability for crop spraying, mapping, and monitoring.
8️⃣ Educator & Builder-Friendly
-
Their hardware encourages hands-on learning and experimentation without requiring advanced drone expertise.
-
Ideal for drone clubs, agricultural training, hobbyist builders—even first-time users.
Feature Why It Matters ✅ DPIIT-recognition Official credibility and national support ✅ India-ready design Handles dust, heat, and rugged farm terrain ✅ Full ecosystem of parts One-stop for drone assembly & upgrading ✅ Pre-tuned hardware Speeds up deployment without tech hassles ✅ Quick support & spares Minimized downtime in remote locations ✅ Academic collaborations Builds future tech, research, and innovation ✅ High-grade materials Long-lasting and dependable in tough use ✅ User-friendly for all levels Great for experts, educators, and first-timers .
💥 Ready to Get the Best Value for Your Drone Builds?
Whether you’re assembling your first quad or leading a drone R&D lab, Lofty Agrotech ensures your investment goes into quality, not confusion.
💬 Still unsure what fits your budget and performance needs? Talk to our experts—we’ll help you decide without upselling.
🎁 Institutional Support & Educational Offers
At Lofty Agrotech, we believe in empowering innovation through education. As drone technology becomes a cornerstone of engineering, agriculture, and automation studies, we’re committed to supporting students, educators, and institutions with resources that go far beyond commercial transactions.
🎓 Designed for Academia & R&D
We actively collaborate with:
-
Engineering colleges for final year drone and mechatronics projects
-
Technical universities integrating UAVs into curriculum
-
Research institutions and innovation labs exploring drone-based solutions
-
Polytechnic and diploma-level institutions for hands-on drone skill-building
🏫 We’ve supported 70+ institutions across India with high-quality parts, build assistance, and curriculum alignment.
🧑🏫 Exclusive Educational Discounts
We offer special pricing structures tailored for learning environments:
-
Flat % discounts for verified student and faculty orders
-
Price waivers or bundle deals on bulk quantities and lab kits
-
Custom billing for college purchase departments and project grants
-
GST-compliant invoicing for smooth procurement workflows
💡 Every rupee saved can be invested back into your learning journey.
🧰 Build Kits for Projects, Labs & Hackathons
We supply custom FPV and drone kits designed for:
-
Final year projects on AI, computer vision, agriculture drones, etc.
-
Hackathons and technical fests where fast assembly and reliable parts matter
-
Drone training labs needing repeatable, standard setups for multiple students
-
Demo-ready prototypes for academic exhibitions and competitions
Each kit can include:
-
Frame + motors + ESCs + flight controller + camera
-
GPS + battery straps + antennas + GoPro mounts
-
Wiring, build guide PDFs, and phone-based setup assistance
🧩 Tell us your use-case — we’ll build the right kit for your classroom or competition.
🧑🔬 Documentation & Tech Support for Reports
We assist students and mentors with:
-
Detailed datasheets and specs for every part purchased
-
Pre-filled or editable bill of materials (BOM) for submission
-
Reference photos, connection diagrams, and PID tuning guides
-
Help with design justification, component selection, and technical write-ups
📘 Save time, avoid confusion, and meet academic documentation standards with our help.
🤝 Long-Term Collaboration Opportunities
For colleges looking to scale their UAV programs, we provide:
-
Campus-wide drone lab setup consultations
-
Mentorship tie-ups with our engineering team
-
Joint research support in AI-agriculture, delivery drones, and aerial surveillance
-
Feature coverage of college builds and success stories on our platforms
📢 Let’s build visibility for your institution while equipping students for tomorrow’s UAV jobs.
🧠 Ready to Partner With Us?
Whether you’re representing a college, lab, startup incubator, or student club, Lofty Agrotech is ready to support your vision with:
✅ Verified brand components
✅ Discounted educational pricing
✅ Technical mentorship
✅ Hassle-free procurement
📩 Contact us today via WhatsApp or email with your institution name, project scope, and component list. We’ll take it from there—professionally and promptly.
✅ Your Trusted FPV Partner in India
At Lofty Agrotech, we’re not just another online drone store—we’re your go-to partner for everything FPV and drone-related. From high-performance gear to educational guidance, we’re here to help you build, fly, learn, and evolve with confidence.
Made for the Indian FPV Scene
We understand the unique challenges Indian drone pilots and builders face:
-
Import restrictions and part availability
-
Delivery delays from international suppliers
-
Lack of after-sale guidance from foreign retailers
That’s why we built Lofty Agrotech—to provide a local, reliable, and technically strong alternative that delivers both speed and trust.
📦 From Tamil Nadu to Tripura, we’ve shipped high-quality drone parts to over 1200+ Indian locations and counting.
🧠 One-Stop Drone Knowledge Hub
We are more than sellers—we are curators, educators, and enthusiasts who live the drone lifestyle.
-
Frequent product launches & detailed guides
-
Real-world compatibility checks before shipping
-
WhatsApp & email support with actual drone engineers
-
No clones, no confusion—just clean, build-ready components
🛠️ Whether it’s your first drone or your fiftieth, we have something valuable for your journey.
💬 Community Over Commerce
We’ve grown not by pushing sales—but by earning trust:
-
5-star reviews from students, builders, and professionals
-
Trusted supplier for drone competitions, hackathons, and R&D grants
-
Regularly featured by YouTubers, FPV pilots, and institutions across India
🧑🤝🧑 At Lofty, you’re not just a customer—you’re part of a mission.
-
🛡️ We Fly What We Sell
Every product listed has been tested, reviewed, or recommended by our team. We build our own drones, fly with the same gear, and know what works best for:
-
Freestyle FPV
-
Long-range drones
-
Survey drones for agriculture
-
Academic R&D projects
🎯 Our credibility comes from hands-on experience, not marketing fluff.
🔚 Ready to Elevate Your FPV Experience?
Join the growing tribe of Indian drone builders who trust Lofty Agrotech for quality, clarity, and consistent support. Whether you’re ordering the HGLRC Sector D5, DJI O3 units, or assembling a custom FPV rig—we’ve got your back.
✅ Lofty Agrotech – Built by flyers, trusted by builders, and loved by learners.
💬 Order today, message us anytime, and experience India’s most reliable drone parts platform.With thousands of satisfied customers and a growing footprint in India’s drone ecosystem, Lofty Agrotech has become the go-to source for authentic, high-performance, and expertly supported FPV gear.
From your first flight to your next freestyle banger—we’ve got your back.
🚀 Ready to Build Like a Pro?
Take your drone-building journey to the next level with the HGLRC Sector D5 FR 5-Inch Freestyle FPV Frame, now available at Lofty Agrotech—India’s most trusted FPV and drone component partner.
🛠️ Built for Freestyle. Backed by Professionals.
Whether you’re a beginner FPV enthusiast or a seasoned pilot looking to upgrade, the Sector D5 offers:
-
Crash-resilient 5mm arms
-
DJI O3 VTX compatibility
-
CNC aluminum side panels
-
Full TPU accessory kit
-
Vibration-isolated camera mount
-
Clean, modular design for easy field maintenance
All from a verified brand. Delivered by experts. Supported by flyers like you.
🛒 Order Today from Lofty Agrotech
When you buy from Lofty Agrotech, you’re choosing:
-
💯 Original components
-
🔧 Expert support at every step
-
📦 Fast, secure delivery across India
-
💬 Free consultation for part compatibility & build advice
-
🎓 Special support for students and academic builds
✅ In stock now. Limited quantities available. Ships within 24 hours.
-
Explore more in our camera drone collection and find the right aerial companion.
Before flying, ensure you’re compliant with India’s drone regulations (DGCA DigitalSky Portal).
🎥 Lofty Agrotech YouTube Channel
Explore Lofty Agrotech’s official YouTube channel for videos showcasing their drone technologies and applications:(Southern Drone OPS)
Certainly! Here’s a comprehensive overview of Lofty Agrotech’s drone offerings and available drone parts:
-
-
Reviews
There are no reviews yet.