Speaker system design
Optimize the acoustic performance
Ole Wolff has been using Comsol Multiphysics™ since 2016 and can do acoustic simulations on both raw drivers and speaker systems. Using simulation for speaker system design, a lot of prototyping can be done “in the box” in close cooperation with the customers CAD team. Often customers want to know the effect of different hole dimensions, placement of drivers, different driver types etc. So instead of building an endless set of physical prototypes (which can be tedious and very time consuming!) the customer can have Ole Wolff simulate the various configurations based on the customers CAD files only. This way development time can be drastically reduced and performance targets can be met much faster.
Next stage is to make the prototypes, either as SLA or machined parts, to be used in the following verification stage, where the performance is measured and matched to the simulation results.
Simulation of a small Ole Wolff speakerbox with 1x Ø52mm speaker + 1x Ø55mm PR.
The Ole Wolff mechanical engineers work closely together with the acoustics team. Using a speaker box can be an advantage in applications with “problematic” rear volumes, in products where sufficient acoustic sealing is difficult to achieve etc.
The Ole Wolff speaker boxes can come in a variety of form factors but are always optimized for maximum performance within the physical limits of the product they are to be installed in. Special features such as front (Helmholtz) resonators and passive radiators can be integrated in the speaker box and special measures can be included to reach certain IPxx ratings, waterproof ratings and more.
A selection of speaker box prototypes by Ole Wolff designed to optimize perfomance in the limited space available.
Sometimes adding passive radiators or bass reflex can improve perfomance.
The inclusion of a passive radiator (also known as “slave unit”) in a speaker system can sometimes improve the low frequency response (bass). This technique uses the tuning of a resonator to have its resonance just below the resonance frequency of the active driver itself and thereby adding more acoustic sound pressure level in this region. The tuning is controlled by the moving mass, the mechanical compliance, the piston area of the passive radiator and the compliance of the air in the speaker box. The passive radiator interacts with the active speaker and care must be taken to cut off frequencies where the passive radiator and speaker play in opposite phase and to make sure that the active speaker doesn’t exceed excursion limits. Obviously designing a well-performing passive radiator system is not straight forward and often enclosures of certain sizes will actually perform worse if a passive radiator is included compared to just having a single driver in a sealed enclosure.
Ole Wolff uses a custom designed test rig to test and develop passive radiators.
Ole Wolff knows the do’s and don’ts of passive radiator/bass reflex integration and can help find the best solution for your application.
Tayloring the frequency response, maximizing bass while protecting the speakers from being overloaded.
Measured response as well as subjective impressions matter.
Some of the functionalities include.