UAV Solution for Partial Discharge Inspection
Hands on control and monitoring
The acoustic imaging camera installed on the drone can achieve remote detection of partial discharge defects, with an effective operating radius covering 7 kilometers. This innovative non-contact detection technology ensures accurate judgment of the operating status of power equipment and can enter difficult-to-reach work areas to improve the safety and efficiency of operators.
The acoustic imaging camera installed on the drone can recognize and identify the type of partial discharge, providing accurate equipment defect diagnosis. By using AI based classification algorithms and PRPD maps, three types of discharges can be distinguished: surface discharge, suspended discharge, and corona discharge.
The stable operation of the power system is crucial for national energy security, as power lines may be located in hazardous terrain such as mountains, rivers, and lakes, making manual inspections difficult and challenging. With the help of acoustic equipment installed by drones, users can efficiently detect power facilities in hazardous areas.
Compared to UV imaging cameras, drone acoustic imaging cameras provide an economical and efficient solution. It is high-resolution imaging technology and provides accurate defect diagnosis at an extremely low cost, offering users a more cost-effective option.
The drone acoustic imaging camera optimizes data collection and reporting, enabling users to quickly generate detailed reports and efficiently convey key information. This simplified process can accelerate the decision-making process, promote better collaborative work, and significantly improve work efficiency and safety.
The acoustic imaging camera installed on the drone can achieve remote detection of partial discharge defects, with an effective operating radius covering 7 kilometers. This innovative non-contact detection technology ensures accurate judgment of the operating status of power equipment and can enter difficult-to-reach work areas to improve the safety and efficiency of operators.
The acoustic imaging camera installed on the drone can achieve remote detection of partial discharge defects, with an effective operating radius covering 7 kilometers. This innovative non-contact detection technology ensures accurate judgment of the operating status of power equipment and can enter difficult-to-reach work areas to improve the safety and efficiency of operators.
The acoustic imaging camera installed on the drone can achieve remote detection of partial discharge defects, with an effective operating radius covering 7 kilometers. This innovative non-contact detection technology ensures accurate judgment of the operating status of power equipment and can enter difficult-to-reach work areas to improve the safety and efficiency of operators.
The acoustic imaging camera installed on the drone can recognize and identify the type of partial discharge, providing accurate equipment defect diagnosis. By using AI based classification algorithms and PRPD maps, three types of discharges can be distinguished: surface discharge, suspended discharge, and corona discharge.
The acoustic imaging camera installed on the drone can recognize and identify the type of partial discharge, providing accurate equipment defect diagnosis. By using AI based classification algorithms and PRPD maps, three types of discharges can be distinguished: surface discharge, suspended discharge, and corona discharge.
The acoustic imaging camera installed on the drone can recognize and identify the type of partial discharge, providing accurate equipment defect diagnosis. By using AI based classification algorithms and PRPD maps, three types of discharges can be distinguished: surface discharge, suspended discharge, and corona discharge.
The stable operation of the power system is crucial for national energy security, as power lines may be located in hazardous terrain such as mountains, rivers, and lakes, making manual inspections difficult and challenging. With the help of acoustic equipment installed by drones, users can efficiently detect power facilities in hazardous areas.
The stable operation of the power system is crucial for national energy security, as power lines may be located in hazardous terrain such as mountains, rivers, and lakes, making manual inspections difficult and challenging. With the help of acoustic equipment installed by drones, users can efficiently detect power facilities in hazardous areas.
The stable operation of the power system is crucial for national energy security, as power lines may be located in hazardous terrain such as mountains, rivers, and lakes, making manual inspections difficult and challenging. With the help of acoustic equipment installed by drones, users can efficiently detect power facilities in hazardous areas.
Compared to UV imaging cameras, drone acoustic imaging cameras provide an economical and efficient solution. It is high-resolution imaging technology and provides accurate defect diagnosis at an extremely low cost, offering users a more cost-effective option.
Compared to UV imaging cameras, drone acoustic imaging cameras provide an economical and efficient solution. It is high-resolution imaging technology and provides accurate defect diagnosis at an extremely low cost, offering users a more cost-effective option.
Compared to UV imaging cameras, drone acoustic imaging cameras provide an economical and efficient solution. It is high-resolution imaging technology and provides accurate defect diagnosis at an extremely low cost, offering users a more cost-effective option.
The drone acoustic imaging camera optimizes data collection and reporting, enabling users to quickly generate detailed reports and efficiently convey key information. This simplified process can accelerate the decision-making process, promote better collaborative work, and significantly improve work efficiency and safety.
The drone acoustic imaging camera optimizes data collection and reporting, enabling users to quickly generate detailed reports and efficiently convey key information. This simplified process can accelerate the decision-making process, promote better collaborative work, and significantly improve work efficiency and safety.
The drone acoustic imaging camera optimizes data collection and reporting, enabling users to quickly generate detailed reports and efficiently convey key information. This simplified process can accelerate the decision-making process, promote better collaborative work, and significantly improve work efficiency and safety.
The acoustic imaging camera installed on the drone can achieve remote detection of partial discharge defects, with an effective operating radius covering 7 kilometers. This innovative non-contact detection technology ensures accurate judgment of the operating status of power equipment and can enter difficult-to-reach work areas to improve the safety and efficiency of operators.
The acoustic imaging camera installed on the drone can recognize and identify the type of partial discharge, providing accurate equipment defect diagnosis. By using AI based classification algorithms and PRPD maps, three types of discharges can be distinguished: surface discharge, suspended discharge, and corona discharge.
The stable operation of the power system is crucial for national energy security, as power lines may be located in hazardous terrain such as mountains, rivers, and lakes, making manual inspections difficult and challenging. With the help of acoustic equipment installed by drones, users can efficiently detect power facilities in hazardous areas.
Compared to UV imaging cameras, drone acoustic imaging cameras provide an economical and efficient solution. It is high-resolution imaging technology and provides accurate defect diagnosis at an extremely low cost, offering users a more cost-effective option.
The drone acoustic imaging camera optimizes data collection and reporting, enabling users to quickly generate detailed reports and efficiently convey key information. This simplified process can accelerate the decision-making process, promote better collaborative work, and significantly improve work efficiency and safety.
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System Devices
The CRY2626G is the world's first drone-mounted acoustic imaging camera for detection of pressurized system leaks and electrical partial discharge. The camera utilizes a microphone array with beamforming technology to pinpoint and acquire sound source distribution data and overlay it on a high-resolution video image.
The system features a 2-axis electric gimbal that allows pan and tilt control of the camera from the drone remote controller. This is beneficial for swiftly identifying potential gas leaks and partial discharge faults.
Featuring a robust and lightweight aluminum alloy body, the CRY2626G is designed to be durable under the most demanding environmental conditions. The included DJI SKYPORT allows for easy assembly and disassembly. Both photo and video modes are supported and data is stored on a large-capacity TF card for easy export of test results.