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  6. Technology for evaluating various interactions of ultrasound - Power contribution analysis of sound pressure data.

Technology for evaluating various interactions of ultrasound - Power contribution analysis of sound pressure data.

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last updated:Dec 03, 2024

超音波システム研究所
超音波システム研究所
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- Feedback Analysis Using Autoregressive Models: Analysis of Power Contribution Rates - Effects of Tanks and Ultrasound, Cleaning Materials and Ultrasound, Adjacent Tanks, ...

Development of technology to measure, analyze, and evaluate the interaction of ultrasonic vibrations -- Feedback analysis of sound pressure data: Analysis of power contribution rate -- The Ultrasonic System Research Institute has developed technology to measure, analyze, and evaluate various interactions by analyzing time-series data obtained from ultrasonic sound pressure measurements. As a result, this has evolved into technology that optimizes ultrasonic utilization conditions based on the evaluation of interactions. Specifically, there are the following examples: 1) Optimization of selection criteria for ultrasonic oscillation frequency and output level 2) Optimization of ultrasonic oscillation control conditions 3) Optimization regarding the installation of tanks and ultrasonic (transducers) 4) Optimization of liquid circulation devices and control conditions 5) Optimization of design conditions for tanks and ultrasonic systems 6) Optimization of cleaning solutions, detergents, solvents, etc. 7) Optimization with adjacent tanks, jigs, etc. It is possible to develop original ultrasonic systems tailored to specific purposes.

    Vibration and Sound Level MeterScientific Calculation and Simulation Softwareothers
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Technology for evaluating various interactions of ultrasound - Power contribution analysis of sound pressure data.

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  • Related Link - http://ultrasonic-labo.com/?p=12202

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The key point is the confirmation of ultrasonic propagation characteristics. The response characteristics to dynamic changes in ultrasound are the most important. Currently, we are capable of addressing the following range. Ultrasonic Probe: Outline Specifications - Measurement Range: 0.01 Hz to 200 MHz - Oscillation Range: 0.5 kHz to 25 MHz - Propagation Range: 0.5 kHz to over 900 MHz (confirmed through analysis) - Materials: Stainless steel, LCP resin, silicone, Teflon, glass, etc. - Oscillation Equipment: Example - Function Generator Ultrasonic Propagation Characteristics 1) Detection of vibration modes (changes in autocorrelation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response characteristics) 4) Detection of interactions (analysis of power contribution rates) Note: "R" is a free statistical processing language and environment - autocor: autocorrelation analysis function - bispec: bispectrum analysis function - mulmar: impulse response analysis function - mulnos: power contribution rate analysis function We provide consulting services for this technology. If you are interested, please contact us via email.

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Applications/Examples of results

<Patent Pending> JP2021-125866 Ultrasonic Control (Ultrasonic Oscillation Control Probe) JP2021-159990 Ultrasonic Welding JP2021-161532 Ultrasonic Plating JP2021-171909 Ultrasonic Processing JP2021-175568 Flow-Type Ultrasonic Cleaning Some of the manufacturing technology for the ultrasonic oscillation control probe is described in JP2021-125866. JP2023-195514 Ultrasonic Plating Using Megahertz Ultrasound and Fine Bubbles We offer consulting services for this technology. If you are interested, please contact us via email.

Detailed information

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

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    Technology for evaluating ultrasonic interactions

catalog(23)

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Technology for evaluating the interaction of ultrasound (analysis of power contribution rate) - Application of ultrasound sound pressure measurement analysis technology.

Technology for evaluating the interaction of ultrasound (analysis of power contribution rate) - Application of ultrasound sound pressure measurement analysis technology.

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Ultrasonic Propagation State Measurement, Analysis, and Evaluation System Ver2

Ultrasonic Propagation State Measurement, Analysis, and Evaluation System Ver2

TECHNICAL
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Surface Residual Stress Relaxation Treatment Technology 3-ver2

Surface Residual Stress Relaxation Treatment Technology 3-ver2

TECHNICAL
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Ultrasound System Specification Document (for *** Co.) - Ultrasound Sound Pressure Measurement, Analysis, Evaluation, and Oscillation Control System -

Ultrasound System Specification Document (for *** Co.) - Ultrasound Sound Pressure Measurement, Analysis, Evaluation, and Oscillation Control System -

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Surface modification technology using ultrasound and fine bubbles — Optimization technology of acoustic flow based on acoustic pressure measurement analysis —

Surface modification technology using ultrasound and fine bubbles — Optimization technology of acoustic flow based on acoustic pressure measurement analysis —

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Function generator oscillation technology for ultrasonic transducers (over 600W) with surface modification treatment.

Function generator oscillation technology for ultrasonic transducers (over 600W) with surface modification treatment.

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Edge processing technology for metal parts using ultrasound and fine bubbles - Microscopic deburring technology -

Edge processing technology for metal parts using ultrasound and fine bubbles - Microscopic deburring technology -

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Surface treatment technology using ultrasonic oscillation control probes.

Surface treatment technology using ultrasonic oscillation control probes.

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Method for controlling the oscillation of an ultrasonic probe capable of controlling low-frequency resonance phenomena and high-frequency nonlinear phenomena.

Method for controlling the oscillation of an ultrasonic probe capable of controlling low-frequency resonance phenomena and high-frequency nonlinear phenomena.

TECHNICAL
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Technology for analyzing time series data through ultrasonic sound pressure measurement (R language) — Feedback analysis using autoregressive models —

Technology for analyzing time series data through ultrasonic sound pressure measurement (R language) — Feedback analysis using autoregressive models —

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Nonlinear Oscillation Control Technology of Ultrasound - Sweep Oscillation Control Technology Using Original Ultrasound Oscillation Control Probe -

Nonlinear Oscillation Control Technology of Ultrasound - Sweep Oscillation Control Technology Using Original Ultrasound Oscillation Control Probe -

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On the Propagation Phenomenon of Ultrasound - Classification and Evaluation Techniques of Ultrasound through Sound Pressure Measurement Analysis -

On the Propagation Phenomenon of Ultrasound - Classification and Evaluation Techniques of Ultrasound through Sound Pressure Measurement Analysis -

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How to Optimize Ultrasonic Cleaning Systems—Evaluation Techniques for Cleaning Conditions Based on Ultrasonic Sound Pressure Measurement Analysis—

How to Optimize Ultrasonic Cleaning Systems—Evaluation Techniques for Cleaning Conditions Based on Ultrasonic Sound Pressure Measurement Analysis—

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Classification of Ultrasonic Propagation Phenomena

Classification of Ultrasonic Propagation Phenomena

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Technology Utilizing the Interaction of Ultrasonic Probes — Interaction Model of Ultrasound —

Technology Utilizing the Interaction of Ultrasonic Probes — Interaction Model of Ultrasound —

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Main factors of ultrasound utilization (interactions) ver2

Main factors of ultrasound utilization (interactions) ver2

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Precision cleaning technology using megahertz ultrasonic waves - Case study in the plating process.

Precision cleaning technology using megahertz ultrasonic waves - Case study in the plating process.

TECHNICAL
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Technology for Controlling Low-Frequency Resonance Phenomena and High-Frequency Nonlinear Phenomena - Ver3

Technology for Controlling Low-Frequency Resonance Phenomena and High-Frequency Nonlinear Phenomena - Ver3

TECHNICAL
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Ultrasonic cleaning technology at megahertz - Utilization technology of ultrasonic humidifier (1.7 MHz, 15 W)

Ultrasonic cleaning technology at megahertz - Utilization technology of ultrasonic humidifier (1.7 MHz, 15 W)

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Ultrasound and surface elastic waves (development technology for an original ultrasonic system that propagates along the surface of objects)

Ultrasound and surface elastic waves (development technology for an original ultrasonic system that propagates along the surface of objects)

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Technology for optimizing various interactions through analysis of ultrasonic sound pressure data.

Technology for optimizing various interactions through analysis of ultrasonic sound pressure data.

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Ultrasonic control technology applied with the mathematical theory of communication.

Ultrasonic control technology applied with the mathematical theory of communication.

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Surface modification technology (stress relaxation) for ultrasonic beauty devices Ver2

Surface modification technology (stress relaxation) for ultrasonic beauty devices Ver2

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News about this product(15)

Combination technology of sound and ultrasound

Development of ultrasonic control technology utilizing a combination of sound and ultrasound — Dynamic control of nonlinear phenomena —

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The Ultrasonic System Research Institute has developed control technology for ultrasonic propagation states (nonlinear resonance phenomena) utilizing the combination of sound and ultrasound by applying the following technologies: - Design and manufacturing technology for ultrasonic systems - Control technology for cavitation and acoustic flow - Measurement, analysis, and evaluation technology for ultrasound Note: Original nonlinear resonance phenomenon The occurrence of harmonics generated by original oscillation control is realized at a high amplitude due to the resonance phenomenon, resulting in ultrasonic vibration resonance. As an application example of this technology, we provide consulting services for effective utilization of ultrasound (cleaning, modification, stirring, promoting chemical reactions, etc.) tailored to the state of various components and materials (in air, in water, in contact with elastic bodies, etc.). Ultrasonic propagation characteristics: 1) Detection of vibration modes (changes in autocorrelation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response) 4) Detection of interactions (analysis of power contribution rates) Note: "R" is a free statistical processing language and environment. autcor: autocorrelation analysis function bispec: bispectrum analysis function

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Ultrasonic water tank and liquid circulation

Development of optimization technology for ultrasonic water tanks and liquid circulation.

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The Ultrasonic System Research Institute has developed a technology that applies the measurement and analysis of ultrasonic states propagating in liquids within an ultrasonic tank to set and control the propagation state of ultrasound (acoustic flow, cavitation) according to specific purposes, taking into account the influences of the tank's structure, strength, manufacturing conditions, and the state of liquid circulation. This technology analyzes and evaluates the dynamic characteristics of complex ultrasonic vibrations (Note 1) in relation to various factors, allowing for the setting of physical stimulation and chemical reactions through ultrasound according to specific objectives, based on the configuration method of the circulation pump (Note 2). Note 1: This utilizes the original technology of the Ultrasonic System Research Institute, which incorporates "ultrasonic oscillation control" technology that considers "timbre." "Ultrasonic oscillation control" technology that considers "timbre." Note 2: The settings regarding the relationship between the tank, circulating liquid, and air are proprietary know-how. This technology can also be applied to tanks that do not have an overflow structure. This technology is provided as a consulting service for improving the liquid circulation methods of ultrasonic systems. Ultrasonic propagation characteristics: vibration modes, nonlinear phenomena, response characteristics, interactions.

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Propagation state of ultrasound

Technology for measuring, analyzing, and evaluating the propagation state of ultrasound (Original product: Ultrasound sound pressure measurement and analysis device: Ultrasound tester)

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The Ultrasonic System Research Institute has developed a technology for measuring, analyzing, and evaluating the propagation state of ultrasound, applying feedback analysis techniques based on multivariate autoregressive models. By organizing the previous measurements, analyses, and results (note) obtained using ultrasonic testers in chronological order, we have confirmed that this can serve as a new evaluation criterion (parameter) indicating the appropriate state of ultrasound for specific purposes. Note: - Nonlinear characteristics - Response characteristics - Fluctuation characteristics - Effects due to interactions By developing original measurement and analysis methods that consider the acoustic properties of the target object and surface elastic waves, referencing the principles of statistical mathematics, we are deepening our new understanding of the relationships of various detailed effects related to vibrational phenomena. As a result, we have confirmed cases where new nonlinear parameters are very effective regarding the propagation state of ultrasound and the surface of the target object. In particular, evaluation cases concerning cleaning, processing, and surface treatment effects have achieved control and improvement based on good confirmations. Ultrasonic propagation characteristics: 1) Detection of vibration modes 2) Detection of nonlinear phenomena 3) Detection of response characteristics 4) Detection of interactions

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Mathematical theory

Ultrasonic control technology applied with the mathematical theory of communication.

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Development of Ultrasonic Control Technology Applied with Mathematical Theory of Communication The Ultrasonic System Research Institute has developed ultrasonic control technology that applies the "mathematical theory of communication" (Claude E. Shannon) to ultrasound. The technology developed this time utilizes ultrasonic measurement and analysis techniques to adapt the propagation characteristics of ultrasound (dynamic characteristics) to the ensemble (entropy) of communication theory. Unlike previous "technical problems" related to communication, this was developed as a technical application research addressing "semantic problems" and "effect problems" related to ultrasonic phenomena. Furthermore, specific results from this method have been confirmed through the "evaluation technology for ultrasonic devices" at the Ultrasonic System Research Institute. For more details, we are responding and expanding as a consulting business. Propagation characteristics of ultrasound: 1) Detection of vibration modes (changes in autocorrelation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response) 4) Detection of interactions (analysis of power contribution rates)

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Company information

超音波システム研究所

超音波システム研究所

Service Industry

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The Ultrasonic System Research Institute conducts the following activities with its original product: ultrasonic systems (sound pressure measurement analysis, oscillation control): 1) Manufacturing and sales of ultrasonic systems (sound pressure measurement analysis, oscillation control) 2) Consulting services for various equipment (Note): cleaning machines, stirring devices, processing equipment, machine tools, plating devices, welding devices, etc. Ultrasonic System (Sound Pressure Measurement Analysis, Oscillation Control) We manufacture and sell a system that combines the "Ultrasonic Tester NA (recommended type)" for easy measurement and analysis of ultrasonic waves and the "Ultrasonic Oscillation System (1 MHz, 20 MHz)" for easy oscillation control. <Patent Applications Filed> Patent Application No. 2021-125866: Ultrasonic Control (Ultrasonic Oscillation Control Probe) Patent Application No. 2021-159990: Ultrasonic Welding Patent Application No. 2021-161532: Ultrasonic Plating Patent Application No. 2021-171909: Ultrasonic Processing Patent Application No. 2021-175568: Flow-type Ultrasonic Cleaning Some of the manufacturing technology for the ultrasonic oscillation control probe is described in Patent Application No. 2021-125866. Patent Application No. 2023-195514: Ultrasonic Plating Using Megahertz Ultrasonic Waves and Fine Bubbles.

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