Hand-held size! Can operate with standard OS drivers for Windows/Linux/Mac.
Identification of noise sources and evaluation of sound insulation performance, versatile applications. Accelerating product development.
Universal software for sound vibration analysis! Flexibly combine various tools.
Vibration acoustic analysis software. Solving vibration and noise problems in the frequency band.
Data logging and analysis software for sound, vibration, and distortion.
Visualize noise! Exceptional real-time performance at 100 frames per second! We offer a wide range of options for post-processing analysis as well.
■ Sound-absorbing sheet made of lightweight plastic board ■ Standard type and composite type (urethane) ■ For adjusting noise, reverberation, and sound reflection
Handheld audio camera with integrated monitor and controller.
A prototype element was created to increase the area of the piezoelectric material and enhance the capacitance, estimating the acoustic sensitivity!
Analyzing the collected data! A vibration/noise measurement/analysis system that can also record distortion, temperature, images, and more.
A real-time sound source detection system that achieves high dynamic range with an overwhelming number of microphones!
Detecting and visualizing both static and moving noise sources.
Visualizing sound source noise to detect its origin.
Overview of the piezoelectric strain d33 measurement device and explanation of the binding force acting on piezo films using diagrams!
The main analysis includes octave analysis and transfer function measurement! This is an introduction to sound quality evaluation software.
An acoustic holography analysis system that achieves high dynamic range and wide bandwidth with a high-density microphone arrangement!
Achieving a minimum resolution of 1cm. This is a high-resolution version of a sound source visualization device for small devices, which has been difficult until now.
A camera is mounted on a small microphone array! Achieving visualization at a minimum of 1cm.
Compact microarray! Portable handheld sound source visualization device.
Sound simulation in 3D detailed models is now possible! Analyze radiated sound and noise generated from various structures! Large-scale acoustic analysis is also possible.
Just install it! Easy solution! "Improving impact noise from heavy floors in wooden houses" Box-type damper.
It is possible to collect and analyze generated sounds such as friction sounds and echo sounds to evaluate the characteristics of the work!
Efficiently and quickly collect and evaluate measurement data! Customization of the software is possible.
4-channel recording, 2-channel playback! When used alone, the battery life is approximately 6 hours.
Combining ease of use and performance, it completes measurement tasks up to report creation and saves resources!
It is equipped with many of the latest analysis features that audio engineers engaged in the research and development of sound design need!
Noise Propagation Path Simulation Software Elsyca LeakageMaster
Predicting the sound absorption rate and transmission loss of soundproof materials made by layering sound-absorbing and sound-insulating materials through prototype testing!
Proposal for a system that enables visualization and exploration of sound sources using a microphone array.
A sound source visualization device that has achieved overwhelming cost reduction through its unique system!
When conducting simulations that require acoustic analysis!
You can listen to the sounds of marine animals like whales and dolphins underwater in stereo while being towed by a boat!
For noise control measures in factory equipment, investigation of noise sources, and improving sound insulation in residential areas, etc. Compact and lightweight, with easy measurement operations.
True Ear Online is a quiz-style web application that serves as ear training, allowing you to enjoyably evaluate sounds and distinguish their differences.
Proceedings of the Acoustical Society of Japan, Technical Materials Presented! Introduction to the True Value of PVDF Piezoelectric Material d33.
Presentation of the Japan Acoustical Society conference proceedings! It explains the value of d33 and the Poisson's ratio.
Explanation using various diagrams and tables! Technical documentation on the receiving sensitivity of cylindrical hydrophones is provided.
A diverse range of products that meet various needs.
Accurate analysis of equipment through dimensional and dimensionless analysis! Introducing our diagnostic system.
Instantly identify and visualize abnormal sounds. Support system construction from the measurement and verification stage.
A sound source visualization device, for outside, inside the car, and inside the factory. It is a portable sound source visualization device.
It demonstrates its power in discovering and clarifying the information and interrelationships hidden in big data, quickly solving problems in various fields!
The DSNG method reduces CPU costs by more than one order of magnitude compared to high-cost simulations like LES.
Combine multiple analysis results by overlaying them! It is possible to create acoustic metrics.
Available for testing various transducers! Improved audio quality in the transmission direction.
Supports a real and objective evaluation of the device's voice recognition quality!
The effect of structural propagation signals on audio quality will become clear!
Our quality standard specifications, end-to-end acoustic measurements! Call quality measurements can be executed quickly.
SQala's base! Enables the creation of suitable listening test scenarios.
Providing total solutions through advanced technology and engineering services.
The built-in thermal imaging camera can evaluate acoustic images and thermal images simultaneously, allowing for a more comprehensive analysis!
We will support the measurement of sound pressure method and acoustic intensity method under various environmental conditions in accordance with current international standards.
Ideal for identifying leak points in compressed air systems, gas systems, and vacuum systems!
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Improve energy efficiency and environmental compatibility! Easy to install and can be used for various applications!
User-friendly software for pre- and post-processing of acoustic simulations.
Accurately identify small leaks and partial discharges from a distance! Let's improve the efficiency of maintenance inspections.
Visualizing gas leaks, negative pressure leaks, and partial discharges makes inspection work easier, as it allows for the visualization of gas leaks from high piping and other sources.
It explains the conceptual structure of push-pull type accelerometers using diagrams!
A Must-See for Engineers! The Piezo Film Suitable for Hydrophones... Revealing Its Secrets!
A must-see for engineers! Introducing the receiving sensitivity of cylindrical hydrophones.
From the Proceedings of the Acoustical Society of Japan: Introducing the experimental study and discussion on frequency characteristics and sound radiation mechanisms!
We have published the element configuration of the hydrophone using PVDF and the impedance conversion circuit!
A must-see for engineers! This document is packed with valuable information, including diagrams of piezoelectric elements and an overview of hydrophone structures.
A must-see for engineers! We have published details and measurement results of the acoustic characteristics of cylindrical hydrophones!
A must-see for engineers! This document explains the receiving sensitivity of cylindrical hydrophones using PVDF piezoelectric materials.
This explains the frequency characteristics of speakers with a cylindrical vibrating surface.
A must-see for engineers! We are publishing the results of our analysis on the acoustic characteristics of hydrophones.
High precision at Class 1 level of IEC 942! Sound pressure levels of 94dB and 114dB are selectable.
Collection of case studies on architecture and structural analysis!! There are various examples, so please take a look!!!
Using unique audio signal processing technology! It can emphasize only the sound you want to capture from the front direction.
Advanced features and applications are abundant! Analysis of the acoustic characteristics of the intake and exhaust systems.
For efficient design with minimal rework.
A Comparative Study of Numerical Acoustic Analysis and Acoustic Measurement
Analysis of acoustic transmission loss and radiated sound.
You can convert sound pressure into color!
High-speed computation of very large-scale NVH problems.
Acoustic analysis is one of the very important analyses in product development to demonstrate its original performance and maintain quality image.
A sound analysis tool with rich customization options.
A wide range of our products based on underwater acoustic technology is featured!
A receiving device capable of simultaneously capturing up to 32 pingers in real time!
A receiving device that simultaneously captures and records multiple GoldCode pingers over a long period!
You can easily monitor immersive underwater sounds in stereo just by connecting your headphones!
A simple device that automatically records underwater sounds by integrating a recording device, power supply, and underwater microphone!
Pursuing high-speed and high-precision computational performance! Easy and convenient acoustic analysis for everyone!
Professional audio technology in the studio! Optimized powered speaker with built-in amplifier.
Presentation of Technical Data: Introduction to Experiments and Considerations on Frequency Characteristics and Sound Radiation Mechanisms!
It explains the conceptual structure of push-pull type accelerometers using diagrams!
We are publishing the element configuration of the hydrophone and the impedance conversion circuit!
We have published the configuration of elements and the structure of the hydrophone using diagrams and charts!
We are publishing samples and measurement results of the acoustic characteristics of cylindrical hydrophones!
Proceedings of the Acoustical Society of Japan! I will introduce the receiving sensitivity of cylindrical hydrophones.
Technical data presentation! This explains the frequency characteristics of speakers with cylindrical vibration surfaces.
An explanation of the acoustic characteristics of hydrophones, including comparisons with measured values and summaries!