Photovoltaic Power Plant
Drones can precisely identify and locate defects in solar farms by utilizing high-definition visible light and thermal imaging. This facilitates early fault detection and preventive maintenance, thereby improving the quality and efficiency of photovoltaic power stations.
Painpoints
Advantages
The scale of photovoltaic projects is expanding rapidly, making it challenging to allocate operation and maintenance personnel promptly.
Deploy resources more efficiently and minimize personnel risk by reducing time spent in the field and pinpointing faulty components with accuracy.
The process of collecting and analyzing data from solar inspections can be laborious and complex.
Integrate drone data collection with advanced detection algorithms to streamline fault identification and enhance inspection efficiency.
The efficiency of photovoltaic panels can be significantly affected and diminished by exposure to factors such as dust, dirt, or other contaminants.
Merge visual and thermal data to accurately assess the condition of components and make well-informed maintenance decisions.
Solution
Automated Solar Farm Inspection
High Performance Inspection
Portable Thermal Inspection Solution
Multipurpose Drone Inspection
Automated Solar Farm Inspection
The DJI Dock 2 enables you to automate recurring inspection tasks with ease. Schedule an inspection task, and the DJI Dock 2 will automatically collect the data and upload the findings to the DJI FlightHub 2 cloud platform for comprehensive analysis and processing.
The device is lightweight and portable, facilitating easy installation.
Suitable for full project cycle applications, ranging from construction management to inspection tasks.
Boasts an IP55 rating, making it resilient in harsh environments.
An operating radius of 10 km enables extensive coverage of large solar farm areas.
The cloud API facilitates the transfer of collected data to third-party software.
Drone Platform
DJI Dock 2
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Weight: 34 kg (without the drone).
Size: length 570 mm, width 583 mm, height 465 mm.
Environment adaptability: -25℃-45℃ working temperature, IP55 Rate, max operation height 4,000 m.
Max Operating Radius: 10 km.
Size: length 570 mm, width 583 mm, height 465 mm.
Environment adaptability: -25℃-45℃ working temperature, IP55 Rate, max operation height 4,000 m.
Max Operating Radius: 10 km.
Matrice 3D
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Weigh: 1410 g.
Size: length 335 mm, width 398 mm, height 153 mm(without propellers).
Max flight time: 50 minutes.
Max Operating Radius: 10 km.
Wide camera: 4/3 CMOS, 20MP, Mechanical Shutter: 8-1/2000 s.
Tele camera: 1/2" CMOS, 12MP.
Environment adaptability: -25℃-45℃ working temperature, IP55 Rate, max operation height 4,000m.
Size: length 335 mm, width 398 mm, height 153 mm(without propellers).
Max flight time: 50 minutes.
Max Operating Radius: 10 km.
Wide camera: 4/3 CMOS, 20MP, Mechanical Shutter: 8-1/2000 s.
Tele camera: 1/2" CMOS, 12MP.
Environment adaptability: -25℃-45℃ working temperature, IP55 Rate, max operation height 4,000m.
Matrice 3TD
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Weigh: 1410 g.
Size: length 335 mm, width 398 mm, height 153 mm(without propellers).
Max flight time: 50 minutes.
Max Operating Radius: 10 km.
Wide camera: 1/1.32'' CMOS, 48MP.
Tele camera: 1/2" CMOS, 12MP.
Thermal camera: UHR Infrared Image Mode 1280 × 1024@30fps.
Environment adaptability: -25℃-45℃ working temperature, IP55 Rate, max operation height 4,000 m.
Size: length 335 mm, width 398 mm, height 153 mm(without propellers).
Max flight time: 50 minutes.
Max Operating Radius: 10 km.
Wide camera: 1/1.32'' CMOS, 48MP.
Tele camera: 1/2" CMOS, 12MP.
Thermal camera: UHR Infrared Image Mode 1280 × 1024@30fps.
Environment adaptability: -25℃-45℃ working temperature, IP55 Rate, max operation height 4,000 m.
Payload And Software
Workflow
- Mission Planning:
- Use DJI FlightHub 2 to plan inspection flight routes based on high-definition 3D model of the solar farm. - Data Collection:
- Using DJI FlightHub 2, select the preferred dock and scheduled inspection mission.
- The Matrice 3TD will execute the inspection tasks according to the plan, and uploads the captured data to DJI FlightHub 2. - Data Analysis:
- Analyze the images to detect faulty elements or required maintenance work by using the DJI Thermal Analysis Tool. Transfer the collected data to a third-party software to use automated detection algorithms.
High Performance Inspection
The DJI Matrice 30 Series delivers a potent combination of portability and performance, boasting an extended flight range of up to 15 km and ingress protection to endure severe weather conditions. It enables precise detection of solar panel defects, sediment buildup, or damage through its high-resolution visual and thermal (M30T) sensors. The series also supports dual-control operations and incorporates intelligent inspection capabilities.
The drone's foldable and compact design ensures easy transportation.
Achieves rapid deployment, operational within just 2 minutes.
Offers an extended transmission range of up to 15 km.
Provides cost-effective solutions with an integrated infrared camera.
Equipped with a laser rangefinder to accurately locate and provide coordinates for defective components within solar farms.
Drone Platform
Matrice 30 Series
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Weight (incl. two batteries): 3770 ± 10 g.
Max Flight Time: 41 min.
Sensing system: Six-directional sensing and positioning.
Environment Adaptability: Max Service Ceiling Above Sea Level (without other payload) 7,000 m (with 1676 propellers); Max Wind Resistance 12 m/s.
Zoom camera: 1/2-inch CMOS, Effective pixels: 48MP.
Max Flight Time: 41 min.
Sensing system: Six-directional sensing and positioning.
Environment Adaptability: Max Service Ceiling Above Sea Level (without other payload) 7,000 m (with 1676 propellers); Max Wind Resistance 12 m/s.
Zoom camera: 1/2-inch CMOS, Effective pixels: 48MP.
Payload And Software
DJI Pilot 2
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Ground control
DJI Thermal Analysis Tool 3
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By identifying the temperature information of critical areas of the target, the software can be used to analyze objects across many industrial applications.
Third-Party Software
Workflow
- Mission Planning:
- Plan the drone flight routes throughout the solar farm or the area to be inspected using the DJI Pilot 2 app. - Data Collection:
- Upon arrival at the takeoff point, deploy the drone and initiate the previously saved inspection mission. The drone will automatically follow the flight route. - Data Analysis:
- Analyze the images to identify faulty elements or required maintenance work by using the DJI Thermal Analysis Tool. Transfer the data to a third-party software to identify faults using automated dectection algorithms.
Portable Thermal Inspection Solution
The DJI Mavic 3T, a compact and portable drone, comes equipped with high-performance visible and thermal imaging cameras, making it ideal for comprehensive solar panel inspections in both industrial and residential settings.
Compact and lightweight, facilitating easy transportation and handling.
Features both visual and infrared imaging cameras for enhanced inspections.
Supports fully automated and sophisticated inspection routes, allowing the drone to systematically capture data along a predefined path.
Drone Platform
DJI Mavic 3T
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Weight: 920 g
Max Flight Time (no wind): 45 mins
Sensing type: Omnidirectional binocular vision system, supplemented with an infrared sensor at the bottom of the aircraft
Environment Adaptability: Max Take-off Altitude Above Sea Level 6000m; Max Wind Speed Resistance 12 m/s
Wide Camera: 1/2-inch CMOS, Effective pixels: 48 MP
Tele Camera: 1/2-inch CMOS, Effective pixels: 12 MP
Thermal Camera: Video Resolution 640×512@30Hz
Compatible with RTK module and DJI Cellular module
Max Flight Time (no wind): 45 mins
Sensing type: Omnidirectional binocular vision system, supplemented with an infrared sensor at the bottom of the aircraft
Environment Adaptability: Max Take-off Altitude Above Sea Level 6000m; Max Wind Speed Resistance 12 m/s
Wide Camera: 1/2-inch CMOS, Effective pixels: 48 MP
Tele Camera: 1/2-inch CMOS, Effective pixels: 12 MP
Thermal Camera: Video Resolution 640×512@30Hz
Compatible with RTK module and DJI Cellular module
Payload And Software
DJI Pilot 2
... Open
Ground control
DJI Thermal Analysis Tool 3
... Open
By identifying the temperature information of critical areas of the target, the software can be used to analyze objects across many industrial applications.
Third-Party Software
Workflow
- Mission Planning:
- Plan the drone flight routes throughout the solar farm or the area to be inspected using the DJI Pilot 2 app. - Data Collection:
- Upon arrival at the takeoff point, deploy the drone and initiate the previously saved inspection mission. The drone will automatically follow the flight route. - Data Analysis:
- Analyze the images to identify faulty elements or required maintenance work by using the DJI Thermal Analysis Tool. Transfer the data to a third-party software to identify faults using automated dectection algorithms.
Multipurpose Drone Inspection
The DJI Matrice 350 RTK is a versatile platform with interchangeable payloads tailored to meet the specific needs of each task. Whether it's mapping or inspection, the Matrice 350 RTK provides comprehensive operational capabilities for large-scale solar farms at various project stages.
With its array of payloads, the drone delivers operational efficiency and superior inspection capabilities.
The H30T's advanced thermal sensor (1280 × 1024) elevates inspection efficiency and quality.
A faster shutter speed leads to reduced inspection durations and expanded coverage.
Dual-Control feature to enhance reliability and ensure operational safety.
Drone Platform
Matrice 350 RTK
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Weight: Approx. 6.47 kg(with single downward gimbal and two TB65 batteries).
Max Flight Time: 55 minutes.
Sensing system: Six-directional sensing and positioning.
Environment Adaptability: IP55, Max Service Ceiling Above Sea Level 7,000 m (with 1676 propellers,without other payload); Max Wind Resistance 12 m/s.
Max Flight Time: 55 minutes.
Sensing system: Six-directional sensing and positioning.
Environment Adaptability: IP55, Max Service Ceiling Above Sea Level 7,000 m (with 1676 propellers,without other payload); Max Wind Resistance 12 m/s.
Payload And Software
Zenmuse H30T
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Weight: 920±5 g.
Ingress Protection Rating: IP54.
Zoom Camera: 1/1.8-inch CMOS, Effective Pixels: 40 MP.
Wide-Angle Camera: 1/1.3-inch CMOS, Effective Pixels: 48 MP.
Infrared Thermal Camera: 1280×1024@30fps.
Laser Range Finder: max range 3000 m.
Ingress Protection Rating: IP54.
Zoom Camera: 1/1.8-inch CMOS, Effective Pixels: 40 MP.
Wide-Angle Camera: 1/1.3-inch CMOS, Effective Pixels: 48 MP.
Infrared Thermal Camera: 1280×1024@30fps.
Laser Range Finder: max range 3000 m.
Zenmuse L2
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Integrates frame LiDAR, a self-developed high-accuracy IMU system, and a 4/3 CMOS RGB mapping camera.
2.5 km2 covered in a single flight.
Detection Range 250m @10% reflectivity, 100klx.
Effective Point Cloud Rate: 240,000 pts/s.
Supports 5 Returns.
Turnkey Solution.
2.5 km2 covered in a single flight.
Detection Range 250m @10% reflectivity, 100klx.
Effective Point Cloud Rate: 240,000 pts/s.
Supports 5 Returns.
Turnkey Solution.
Workflow
- Thermal Inspection Mission:
- Using the Matrice 350 RTK equipped with the Zenmuse H30T payload, manually fly to capture thermal readings of the key components of the solar farm. Use the Live Mission Recording feature to easily repeat the same missions in the future. - Data Analysis:
- Analyze the inspection photos manually or use AI recognition to identify defects in the transmission corridor.