High-Precision Ultrasonic Cleaning
Ultrasonic cleaning demands consistent cavitation and energy delivery, but failures and drift often go unnoticed until quality suffers. BROADSONIC delivers real-time, non-contact acoustic data, detecting issues before they impact part performance—enabling reliable, repeatable cleaning cycles
Ultracoustics’ BROADSONIC brings unprecedented visibility into ultrasonic cleaning systems, with real-time acoustic data that enables immediate detection of anomalies, inefficiencies, and failures — before they impact workpiece quality.
How It Compares to Traditional Monitoring
Conventional tools like passive sensors, pressure gauges, or indirect feedback methods offer limited visibility into cavitation. BROADSONIC listens from above the tank — capturing the full acoustic signature without contact. It delivers real-time, high-resolution insights that legacy systems can’t match, with seamless system integration and direct USB readout.
Higher-frequency ultrasonic cleaning enables the removal of smaller debris — critical for applications requiring extreme cleanliness, such as semiconductor components, silicon wafers, and delicate medical instruments. BROADSONIC makes it possible to monitor these MHz-range cleaning processes with the precision they demand.
Performance Highlights
We’re currently partnering with select facilities to validate BROADSONIC in operational environments. If your facility is evaluating new approaches to ultrasonic cleaning, we’d be glad to explore how this technology could support your goals.
Non-Invasive, High-Precision Performance Auditing
Designed for plug-and-play deployment with USB-based streaming, making it easy to integrate into QA workflows or continuous process control.
Ultra-Wide Frequency Sensitivity (0–5 MHz)
Allows detection of subtle changes that standard sensors miss — including harmonics, spurious frequencies, or resonance anomalies.
Real-Time Acoustic Monitoring
Continuously captures high-frequency signatures across your bath or chamber to detect shifts in cavitation behavior, bubble collapse intensity, or energy dispersion.
Pinpoint Detection of Process Deviations
Identifies cavitation degradation, transducer misalignment, or system drift with high temporal resolution.
Our Trusted Partners
