One size loudspeaker model does not fit all acoustic test requirements!
Tailored, Scalable DFAT Systems
While we own our own in-house manufacturing and production processes - and therefore we could easily choose to design and manufacture a single loudspeaker for DFAT - our Matthew Polk ("MP") lineup of speakers are instead purposefully designed to be separated out by frequency ranges. This results in tailored, scalable, and modular test setups that can precisely meet a target test spectrum.
Wait... Why Separate Transducers by Frequency Ranges? 🤔
A single cabinet design attempting to cover the full acoustic test spectrum can lead to inefficiencies and sub-optimal performance. Simply adding identical speaker cabinets into a bigger stack assumes consistent, uniform test conditions. However, this overlooks the varying frequency responses of different components, which may need specialized frequency emphasis.
MSI DFAT provides frequency-specific, scalable loudspeakers for DFAT.
Optimized Performance: Our cabinets are optimized for low, mid, high, and ultra-high frequencies, enhancing acoustic performance and test accuracy.
Proven Results: Specialized configurations with frequency-specific loudspeaker cabinets can result in better test outcomes, particularly in high-precision tests involving complex satellite systems and large-scale tests.
Efficient Inventory Management: Maintaining separated speaker design models is simple and straightforward.
Cost-Effectiveness: Specialized configurations can reduce costs by optimizing power usage and minimizing over-provisioning, avoiding unnecessary expenses for unneeded frequency ranges.
Space-Savings: A large, clunky single-cabinet design requires more space and is harder to maneuver, setup, and fit inside a room.
Acoustic experts understand the importance of separating out transducers according to their frequency ranges.
That's all for now folks!
Launching things into space?
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