Dear subscribers of the colloquium newsletter,
we are pleased to announce the next date of our Communication Technology Colloquium:
Monday, June 21, 2021
Speaker: Henning Niendieck
Time: 2:00 p.m.
Location: https://rwth.zoom.us/j/97904157921?pwd=SWpsbDl0MWhrWjY1ZkZaeFRoYmErZz09
Meeting-ID: 979 0415 7921
Passwort: 481650
Master-Lecture: Optimized Design of an Acoustic Front-End for Active Noise Cancelling Headphones
Headphones with active noise cancelling (ANC)
capability become more and more common in everyday life.
The acoustic front-end, consisting of the headphone
enclosure, a speaker and at least two microphones, is a
crucial part of the ANC system. It significantly
influences the achievable degree of noise cancelling. The
optimization of the acoustic front-end is therefore a key
factor for a high ANC performance. Being able to
completely predict the influence of every element of the
acoustic front-end is a desirable goal.
This work comprises an investigation of the different
components of the acoustic front-end. It includes the
characterization of a set of microphones to evaluate the
influence on the ANC performance. A development of a model
of the electro-acoustic system of a headphone enclosure
with an integrated dynamic speaker allows the simulation
of relevant transfer paths. Every individual element of
the enclosure is modeled, so that the effect of every
parameter on the transfer paths can be investigated. This
provides a great advantage over investigations on the
basis of measurements. A comparison of the boundary
element method and lumped element method shows their
suitability for acoustic modeling.
The inability of the used implementation of the boundary
element method to directly model viscothermal losses
exhibits limitations, as these losses play an important
role in the acoustic front-end. A 3D print of the
prototype allowed the verification of the acoustic model
with measurements. The different enclosure design
parameters with regard to ANC performance were studied on
the bases of both, simulations and measurement. An
improvement of the prototype could be achieved by damping
resonances. This reduces group delay in the path between
the speaker and the inner microphone, which is an
important limiting factor for ANC. The group delay of the
inner microphone was found to be significant for low
frequencies. The investigations deliver valuable knowledge
about the influence of the different parameters of the
acoustic front-end on the important factors for ANC. An
acoustic model was obtained that allows the prediction of
various transfer paths and an easy fine tuning of the
elements of the acoustic front-end.
All interested parties are cordially invited, registration is not required.
General information about the colloquium, as
well as a current time scale of the Communication
Technology Colloquium can be found at:
https://www.iks.rwth-aachen.de/aktuelles/kolloquium
-- Irina Ronkartz Institute of Communication Systems (IKS) RWTH Aachen University Muffeter Weg 3a, 52074 Aachen, Germany +49 241 80 26958 (phone) ronkartz@iks.rwth-aachen.de http://www.iks.rwth-aachen.de/