- Aircraft
- Takeoff Weight 1391 g
- Diagonal Distance 350 mm
- Max Service Ceiling Above Sea Level 19685 ft (6000 m)
- Max Ascent Speed 6 m/s (automatic flight); 5 m/s (manual control)
- Max Descent Speed 3 m/s
- Max Speed 31 mph (50 kph)(P-mode) 36 mph (58 kph)(A-mode)
- Max Flight Time Approx. 30 minutes
- Operating Temperature Range 32° to 104° F (0° to 40℃)
- Operating Frequency 2.400 GHz to 2.483 GHz (Europe, Japan, Korea) 5.725 GHz to 5.850 GHz (United States, China)
- Transmission Power (EIRP) 2.4 GHz
- CE (Europe) / MIC (Japan) / KCC (Korea) :< 20 dBm 5.8 GHz
- SRRC(China) / FCC(United States)/NCC(Taiwan,China):< 26 dBm
- Hover Accuracy Range RTK enabled and functioning properly: Vertical:±0.1 m;Horizontal:±0.1
- RTK disabled
- Vertical:±0.1 m(with vision positioning ); ±0.5 m(with GNSS positioning)
- Horizontal:±0.3 m(with vision positioning); ±1.5 m(with GNSS positioning)
- Image Position Offset The position of the camera center is relative to the phase center of the onboard D-RTK antenna under the aircraft body’s axis:(36, 0, and 192 mm) already applied to the image coordinates in Exif data. The positive x, y, and z axes of the aircraft body point to the forward, rightward, and downward of the aircraft, respectively.
- GNSS Single-Frequency, High-Sensitivity GNSS Module
- GPS+BeiDou+Galileo(Asia);
- GPS+GLONASS+Galileo(other regions)
- Multi-Frequency Multi-System High-Precision RTK GNSS
- Frequency Used: GPS:L1/L2;
- GLONASS:L1/L2; BeiDou:B1/B2; Galileo:E1/E5a
- First-Fixed Time:< 50 s
- Positioning Accuracy: Vertical 1.5 cm + 1 ppm(RMS);Horizontal 1 cm + 1 ppm(RMS)
- 1 ppm means the error has a 1mm increase for every 1 km of movement from the aircraft.
- Mapping Functions Mapping Accuracy **
- Mapping accuracy meets the requirements of the ASPRS Accuracy Standards for Digital Orthophotos Class Ⅲ
- ** The actual accuracy depends on surrounding lighting and patterns, aircraft altitude, mapping software used, and other factors when shooting.
- Ground Sample Distance(GSD)
- (H/36.5) cm/pixel,
- H means the aircraft altitude relative to the shooting scene (unit: m)
- Data Acquisition Efficiency
- Max operating area of approx. 1 km² for a single flight(at an altitude of 182 m, i.e., GSD is approx. 5 cm/pixel, meeting the requirements of the ASPRS Accuracy Standards for Digital Orthophotos Class Ⅲ
- Gimbal
- Stabilization 3-axis (tilt, roll, yaw)
- Pitch -90° to +30°
- Max Controllable Angular Speed 90°/s
- Angular Vibration Range ±0.02°
- Vision System Velocity Range ≤31 mph(50 kph) at 6.6 ft(2 m) above ground with adequate lighting
- Altitude Range 0-33 ft(0 – 10 m)
- Operating Range 0-33 ft(0 – 10 m)
- Obstacle Sensing Range 2-98 ft(0.7-30 m)
- FOV Forward/Rear: 60° (horizontal), ±27° (vertical)
- Downward: 70° (front and rear), 50° (left and right)
- Measuring Frequency
- Forward/Rear:10 Hz;
- Downward: 20 Hz
- Operating Environment
- Surfaces with clear patterns and adequate lighting(> 15 lux)
- Infrared Obstacle Sensing Range 0.6-23 ft(0.2 – 7 m)
- FOV 70°(Horizontal) ±10°(Vertical)
- Measuring Frequency 10 Hz
Operating Environment - Surface with diffuse reflection material, and reflectivity> 8%(such as wall,trees, humans, etc.)
- Camera
- Sensor 1″ CMOS; Effective pixels: 20 M
- Lens FOV 84°;8.8 mm / 24 mm(35 mm format equivalent:24 mm); f/2.8 – f/11, auto focus at 1 m – ∞
ISO Range Video:100-3200(Auto) 100-6400(Manual); - Photo:100-3200(Auto) 100-12800(Manual)
- Mechanical Shutter Speed 8 – 1/2000 s
- Electronic Shutter Speed 8 – 1/8000 s
- Max Image Size 4864×3648(4:3); 5472×3648(3:2)
- Video Recording Modes H.264,4K:3840×2160 30p
- Photo Format JPEG
- Video Format MOV
- Supported File Systems FAT32(≤ 32 GB); exFAT(> 32 GB)
- Supported SD Cards
- MicroSD, Max Capacity: 128 GB. Class 10 or UHS-1 rating required Write speed≥15 MB/s
- Operating Temperature Range 32° to 104° F (0° to 40℃)
- Remote Controller
- Operating Frequency 2.400 GHz-2.483 GHz(Europe,Japan,Korea) 5.725 GHz-5.850 GHz(United States, China)
- Transmission Power (EIRP) 2.4 GHz CE / MIC / KCC:< 20 dBm 5.8 GHz SRRC / FCC:< 26 dBm
- Max Transmission Distance FCC:4.3 mi(7 km);
- SRRC / CE / MIC / KCC:3.1 mi(5 km) (Unobstructed, free of interference)
- Power Consumption 16 W(typical value)
- Display
- 5.5 inch screen, 1920×1080, 1000 cd/m², Android System
- Memory 4G RAM+16G ROM
- Operating Temperature Range 32° to 104° F (0° to 40℃)
- Intelligent Flight Battery(PH4-5870mAh-15.2V)
- Capacity 5870 mAh
- Voltage 15.2 V
- Battery Type LiPo 4S
- Energy 89.2 Wh
- Net Weight 468 g
- Charging Temperature Range 14° to 104℉(-10° to 40℃)
- Max charging Power 160 W
- Intelligent Flight Battery Charging Hub(PHANTOM 4 CHARING HUB)
- Voltage 17.5 V
- Operating Temperature Range 41° to 104℉(5° to 40℃)
- Capacity 4920 mAh
- Voltage 7.6 V
- Battery Type LiPo 2S
- Energy 37.39 Wh
- Operating Temperature -4° to 104℉(-20° to 40℃)
- Intelligent Battery Charing Hub(WCH2)
- Input Voltage 17.3 – 26.2 V
- Output Voltage and Current 8.7 V,6 A;5 V,2 A
- Operating Temperature 41° to 104℉(5° to 40℃)
- AC Power Adapter(PH4C160)
- Voltage 17.4 V
- Rated Power 160 W
- SDK Remote Controller
- Operating Frequency 2.400 GHz to 2.483 GHz (Europe, Japan, Korea)
- 5.725 GHz to 5.850 GHz (Other countries/regions)
- EIRP 2.4 GHz CE / MIC / KCC: < 20 dBm 5.8 GHz FCC / SRRC / NCC: < 26 dBm
- Max Transmission Distance FCC / NCC: 4.3 mi (7 km); CE / MIC / KCC / SRRC: 3.1 mi (5 km)
(Unobstructed, free of interference) - Built-in Battery 6000 mAh LiPo 2S
- Operating Current / Voltage 1.2 A @ 7.4 V
- Mobile Device Holder Tablets and smartphones
- Operating Temperature 32° to 104° F (0° to 40° C)
DJI Phantom 4 RTK Quadcopter with RTK Controller | Mission Planner
₨952,000
Note: Due to shortage and currency fluctuation in Pakistan, kindly confirm price and availability before ordering!
Description
DJI Phantom 4 RTK Quadcopter with RTK Controller | Mission Planner DJI Phantom 4 RTK Quadcopter with RTK Controller
Buy DJI Drone Phantom 4 RTK agricultural Quadcopter with RTK Controller for Enterprise from us at the best prices DJI Phantom 4 RTK Quadcopter with RTK Controller in Pakistan and enjoy our nationwide free delivery, customers from Karachi, Lahore, Islamabad, Quetta, Peshawar, Multan, Faisalabad, Sialkot, Hyderabad can get deliveries within 24 hours.
Features
In the realm of modern agriculture, precision and efficiency are key to maximizing crop yields while minimizing resource usage. DJI, a global leader in drone technology, continues to revolutionize the agricultural industry with its innovative solutions. Among these, the DJI Phantom 4 RTK Quadcopter with RTK Controller and Mission Planner stands out as a game-changer, offering farmers and agricultural professionals the tools they need to optimize crop management practices and increase productivity. Let’s explore the features and capabilities of this powerful drone system.
High-Precision Mapping with RTK Technology
At the heart of the DJI Phantom 4 RTK Quadcopter lies its Real-Time Kinematic (RTK) technology, which delivers centimeter-level accuracy in mapping and surveying applications. By combining GPS positioning with ground station data, the Phantom 4 RTK provides precise positioning information that is essential for creating high-resolution maps, orthomosaics, and 3D models of agricultural fields. This level of accuracy enables farmers to identify crop health issues, monitor field conditions, and make data-driven decisions with confidence.
Intuitive RTK Controller and Mission Planner
The DJI Phantom 4 RTK comes equipped with an RTK-enabled controller and Mission Planner software, providing users with intuitive tools for planning, executing, and analyzing drone missions. The RTK controller features a high-resolution display and customizable buttons, allowing users to access mission-critical information and adjust flight parameters with ease. Additionally, the Mission Planner software enables users to plan flight paths, define survey areas, and customize imaging parameters to suit their specific needs.
Efficient Data Capture and Processing
With its advanced imaging capabilities, the DJI Phantom 4 RTK captures high-resolution aerial imagery that can be used for a variety of agricultural applications, including crop monitoring, field mapping, and yield estimation. The drone’s high-performance camera and gimbal system ensure stable and accurate image capture, even in challenging flight conditions. Once the data is collected, it can be processed using DJI’s suite of software tools, allowing users to generate detailed maps, analyze vegetation indices, and extract valuable insights from the data.
Seamless Integration with DJI Ecosystem
The DJI Phantom 4 RTK seamlessly integrates with DJI’s ecosystem of hardware and software solutions, providing users with a comprehensive suite of tools for precision agriculture. The drone is compatible with DJI Terra, a mapping and analytics platform that enables users to create 2D and 3D models, perform volume calculations, and generate orthomosaics with ease. Additionally, the Phantom 4 RTK can be integrated with DJI’s Agras T20 and T30 drones for comprehensive crop management solutions.
Enhanced Safety and Reliability
Safety is a top priority in agricultural drone operations, and the DJI Phantom 4 RTK is equipped with a range of features to ensure safe and reliable performance in the field. Built-in obstacle avoidance sensors help prevent collisions with obstacles during flight, while advanced flight planning algorithms ensure smooth and efficient mission execution. Additionally, the drone’s robust construction and intelligent battery management system ensure long-term reliability and resilience in challenging agricultural environments.
Reviews
There are no reviews yet.