Acoustic Camera for Sound Source Localization
Combining beamforming and thermal imaging in an acoustic camera (soundcam) to locate and visualize acoustic signals in the audible and ultrasonic ranges for preventive maintenance applications.
Using acoustic cameras for regular inspection of compressed air systems or electrical plants helps reduce costs and save energy.
✓ Applications, demo and pricing
- Detect leaks in compressed air systems or partial discharges in electrical systems
- Real time acoustic images and videos
- Quick and intuitive identification of defective areas
- Increase your energy efficiency, operational safety and system reliability
Discover our SONASCREEN® series and learn all about our acoustic camera!
Advantages of Ultrasound Cameras at a Glance
Upgrade your preventive maintenance program with our acoustic camera
Areas of Application
Ultrasonic Leak Detection
- Broadband ultrasound
- Visualization of leakages in a spectrogram
- Adjustable bandpass filter and dynamic range
- Filters out interfering sound or ultrasound in industrial environments
- Display of multiple leakages in one image
- Reporting: Software for leak detection audits
- Allows gross loss estimation
- Free software for leakage loss assessment and PDF reports
SONASCREEN® industrial imagers help you to save energy costs, are your optimal companion to reduce your CO2 emissions and support you in energy audits.
Partial Discharge Detection with Ultrasound
- Detect partial discharges in the ultrasonic range at the earliest stage
- Helps you to ensure the reliability and safety of equipment
- Recognize typical characteristics of partial discharges in the spectrogram
- Display multiple partial discharges in one image
- Free software for evaluation of electrical partial discharges and exporting reports as PDF
SONASCREEN® ultrasound cameras can help you detect and distinguish corona, tracking and arcing stages. They can be used for high, medium and low voltage applications, to test open or closed electrical systems, and to test control cabinets, switch boxes, relays, transformers, insulators, and more.
Use of Acoustic Imaging Cameras in Preventive Maintenance
In industry, preventive maintenance is key for trouble-free and efficient operations. Our SONASCREEN® acoustic imaging cameras are cutting-edge tools that can revolutionize this process. By visualizing sound emissions, these industrial acoustic imagers help to detect potential problems at an early stage and thus avoid costly downtime and equipment failures.
One of the main advantages of using acoustic cameras in preventive maintenance is the early detection of problems. The SONASCREEN acoustic imagers enable the early detection of anomalies such as leaks in compressed air, gas or vacuum systems and electrical discharges. This early detection is crucial for eliminating problems before they develop into major failures or safety hazards. Detecting issues like gas leaks or electrical faults early reduces the risk of incidents, protecting both the workforce and the facility.
In addition, ultrasound cameras offer a non-invasive way to monitor equipment and provide real-time images that allow maintenance teams to diagnose issues immediately without interrupting operations. Designed for ease of use and portability, our SONASCREEN acoustic cameras allow for quick and efficient inspections with real-time sound intensity mapping and come with intuitive software that enhances data analysis and reporting.
Implementing acoustic imaging cameras into preventive maintenance strategies improves reliability and operation efficiency. The SONASCREEN industrial imagers provide a clear and immediate picture of system condition, helping maintenance professionals make informed decisions, reduce downtime and ultimately save costs.
FAQ
Acoustic imaging is a technique that transforms sound signals into visual images. Put simply, it lets you see sound.
Defects such as gas leaks or partial discharges often generate ultrasonic sounds that are inaudible to humans. Acoustic imagers are equipped with a large number of microphones to detect and precisely localize these signals. The acoustic image of the sound source generated by the microphones is combined with a camera image of the visible surroundings, for example within an industrial plant. By visualizing the recorded sound signals, ultrasound cameras make defects in compressed air systems or electrical systems visible, turning them into valuable tools for preventive maintenance.
An acoustic image or video provides a visual representation of sound. Typically, the acoustic image is layered on a visual image for context, allowing you to see the location and intensity or loudness of sound sources within the field of view in real-time. Besides, the acoustic camera provides information about the frequency components of the sound, helping to distinguish between different types of noise or sound emissions.
An ultrasound camera uses a microphone array consisting of many individually arranged microphones. This allows the camera to capture sound waves from different directions. Using beamforming, the acoustic camera can control the directional characteristic of the microphone array. This means that the camera is able to focus sound from a certain direction and suppress sound from other directions. The beamforming technology therefore enables the camera to display the exact position of sound sources on a visual map - the acoustic image. This is done by analyzing the differences in the time of flight of the sound waves between the microphones. The acoustic image then shows where the sound is coming from and how intense it is.
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