Serenity™ Over-ear

Serenity EA is an over-ear electroacoustic platform designed to accelerate the development of high performance, hybrid noise cancellation headphones with a customer-specified audio receiving response and an exciting array of innovative options. As such, Serenity EA exemplifies how our system-level approach to audio engineering can comfortably accommodate the traditionally conflicting requirements of high performance noise cancelling, passive noise attenuation and high fidelity audio playback in a single audio device.

The Serenity EA platform comprises a qualified electroacoustic configuration, including front and rear cavity volumes, porting arrangements, custom microphones, speakers and powerful, digitally programmable noise cancelling electronics.  This can be seamlessly integrated within a customer’s headphone design so long as certain electroacoustic parameters are maintained.  Furthermore, the platform’s sound signature may be tailored to match a customer’s specific requirements through simple modification of its native acoustics, or adjustment of the platform’s integrated audio compensation filters.

Features
  • 01

    Acousto-mechanical construction conducive to active noise cancelling

  • 02

    Integrated feedback and feed-forward MEMS microphones

  • 03

    Digitally programmable hybrid noise cancelling filters

  • 04

    Digitally programmable audio compensation filters

  • 05

    Provision for 40mm dynamic drivers

  • 06

    Compatible with wired and wireless consumer and airline product formats

Benefits
  • 01

    Market-leading active noise cancelling with up to 35dB peak noise cancelling performance

  • 02

    Customisable high fidelity sound reproduction

  • 03

    Enables smart, multi-mode headphone experience

  • 04

    Easily deployable in both wired and wireless formats for both consumer and airline applications

  • 05

    Compatible with Soundstation Production for robust and reliable product testing

  • 06

    Drives rapid in-ear product innovation