Advanced Ultrasonic Monitoring Tech for Precision Cleaning

APM

Frequency and power monitoring is an important quality assurance tool for ultrasonic cleaning applications in the 250 to 2,000 kHz range. Ecoclean has proven in test series that laser acoustic microphones can also reliably detect sound waves in the high-frequency range up to two megahertz. Ecoclean has expanded its innovative APM (Acoustic Performance Measurement) solution. The new solution is able to monitor ultrasonic frequency and power in both fully automated ultrasonic multi-bath immersion systems and closed chamber cleaning systems without contact.

High-frequency ultrasound is used when the finest particles and minimal film contamination need to be cleaned from sensitive or finely structured surfaces. This is the case, for example, in semiconductor production, microsystems technology and electronics, precision optics, analysis, laser and vacuum technology as well as medical technology.

In order to reliably achieve the cleanliness requirements defined for perfect functioning and to avoid damaging or impairing the sensitive components, regular checks of the vibration characteristics and the calculation of cleaning-relevant key figures are essential quality parameters. For these applications, Ecoclean has extended the measuring range of the innovative Acoustic Performance Measurement (APM) technology, which was previously used to measure ultrasonic frequencies up to 132 kHz inline without contact, to two megahertz on the basis of laser acoustics.

Reliable detection of the frequency spectrum proven by test series 

The development of the new APM measuring system was preceded by a series of tests  with a laser-acoustic microphone. The tests were carried out in an ultrasonic multi bath immersion system UCMSmartLine and with ultrasonic systems with 500 kHz and  1,000 kHz plate transducers. In addition, plate transducers with oscillation frequencies  of 40, 80 and 120 kHz already present in the cleaning system were included in the tests  and the results were compared with the previous APM technology with condenser  microphones.  

On the one hand, the tests proved that the signal-to-noise ratio in the entire frequency  band is high enough to detect sound waves up to 2 MHz. On the other hand, the aim  was to determine at what distance from the bath surface the laser acoustic  microphone must be used so that an adequate frequency spectrum can still be  calculated despite the increasing attenuation of the sound waves by the air as the  frequency increases. Due to the high sensitivity of the laser acoustic microphone, the  distance is comparable to the condenser microphone used to measure low-frequency  ultrasound.  

Advantages due to contactless and motionless measurement  

In contrast to hydrophones, measurement with the APM solution takes place without  direct contact with the medium and without movement. This results in various  advantages. For example, contamination of the media by the measuring system is  ruled out and it can also be used in applications with aggressive chemicals without  contaminating the bath or damaging the measuring technology. The motionless  measurement also ensures that it can be carried out reproducibly and inline. In  addition, APM technology makes it possible to detect ultrasonic frequency and sound  pressure even through “walls”. It can therefore also be used in closed cleaning and  rinsing tanks, which are required, for example, when using pressure change processes  (vacuum flood cleaning processes such as PPC – Pulsated Pressure Cleaning), as well as  in chamber cleaning systems. Appropriate manual calibrators are available for a quick and simple function check of the laser acoustic and condenser microphones used for  the APM system on site.  

Stationary measurement or at time intervals – also as a service 

The measuring system is available both as a stationary solution and in a portable  version for occasional checks. In the stationary version, the microphone is attached to  the automatic conveyor. The ultrasonically equipped cleaning and rinsing tanks are  then approached one after the other and the measurements are carried out without  contact so that the results are comparable. The values determined for ultrasonic  frequency and power are transferred to the software of the measuring solution,  evaluated by algorithms and compared with the previously defined and stored target  values and saved. In the event of deviations, the system issues a warning or error  message.  

Users who use the classic APM system for low-frequency ultrasound but also use  ultrasound with frequencies above 132 kHz, for example in rinsing processes, can  simply swap the microphone and evaluation unit and thus monitor both low-frequency  and high-frequency ultrasound.  

For measurements with the portable version, the microphone is aligned to the  respective ultrasonic tank using a holder and records the vibration spectrum in the  tank. During analysis and evaluation by the software, the measured actual values are  compared with the target parameters defined as reference values for the respective  treatment station. All measurements are documented in PDF reports for seamless  verification.  

The company also offers mobile control measurements as a manufacturer independent service for cleaning systems in which ultrasound is installed.  

www.ecoclean-group.net


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