Discover how GRAS Sound & Vibration's KEMAR 45BC is helping Japanese audio manufacturers reduce certification time and costs. See how CEAR's local Snapdragon Sound pre-testing services are giving manufacturers a competitive edge through industry-standard acoustic testing technology.
Compact and durable surface-mounted pressure microphone designed for high-precision measurements in extreme automotive and industrial environments.
Aircraft testing ensures safety, efficiency, and structural integrity under real and simulated conditions using tools like DAQ systems, UTP microphones, and piezoelectric sensors. From aerodynamic analysis to propulsion and vibration monitoring, a diverse range of technologies delivers accurate data throughout design, production, and operational phases.
Discover the New m+p Analyzer 5.6 Release – Optimize your noise and vibration analysis
Discover how EQset™ technology transforms production line testing by eliminating the need for individual correction curves and frequent calibration. Compare the traditional setup process with the streamlined efficiency of GRAS 40PM microphones, and see how EQset™ ensures consistency, accuracy, and reduced downtime.
You could be the lucky winner of a brand-new APx555 Audio Analyzer! Don't miss your chance-enter now before the contest ends on April 30 2025!
Join our webinar to learn essential measurement techniques for audio power amplifier testing with APx Analyzers. Discover how to evaluate key performance metrics like output levels, distortion, and frequency response. Gain valuable insights to optimize your amplifier design and production. Register now to improve your testing process.
GRAS measurement microphones are revolutionizing rocket noise research by providing precise, high-fidelity acoustic measurements in extreme environments. Dr. Kent Gee and his team at Brigham Young University use GRAS technology to capture critical data across various rocket launches, enabling deeper insights into noise propagation and mitigation. Their research supports advancements in aerospace acoustics, contributing to safer and more efficient space exploration.
Transform your production line with EQset microphone technology. Our cutting-edge solutions eliminate measurement uncertainties, reduce operational risks, and deliver unparalleled consistency across your manufacturing processes. Experience the future of audio quality assurance — where innovation meets reliability.
GRAS Ultra-thin Precision (UTP) Microphones are the thinnest, most accurate sensors for turbulence and aerodynamic testing. Designed to validate CFD models, these microphones offer superior performance, fast setup, and cost-effective precision, making them perfect for automotive, aerospace, and wind tunnel applications. Optimize your designs with unmatched data quality.
The Industrial Internet of Things (IIoT) is revolutionizing industries, but creates new security vulnerabilities. This expanded attack surface threatens operations, safety, intellectual property, and stakeholder trust. Effective security strategies—including network segmentation, robust authentication, encryption, and incident response planning—are not merely technical requirements but strategic imperatives. By embracing security as a business enabler rather than a cost, organizations can confidently leverage IIoT's benefits while protecting critical industrial assets in an increasingly connected world.
Defense projects are facing growing complexity, tighter compliance demands, and increased risk of failure. Join us for an exclusive two-part webinar series on essential environmental and acoustic testing methods for military applications.
Explore solutions for maintaining consistent audio quality in global manufacturing. Address challenges like sensitivity drift and calibration inconsistencies to ensure reliable production line testing.
Accurate noise measurement is crucial in pass-by noise testing. Discover essential insights on EV pass-by noise and AVAS compliance, and learn how to achieve precise results using high-quality microphones for optimal performance.