![]() ![]() Let’s start with the obvious and with what people tend to consider as the most important contribution to the sound characteristic of a loudspeaker. The Optimizer’s greatest impact will be on the speaker’s characteristics that are fully coupled with the room. Going in more details, let’s describe what makes the sound characteristics of a loudspeaker and the impact of Loudspeaker/Room Optimization on each of these characteristics.įor a better understanding, we will classify the characteristics of a loudspeaker on which technology like the Optimizer can have a high, moderate, or low impact. What Is The Impact Of Loudspeaker/room Correction On The Sound Signature Of A Loudspeaker? It then processes the signals fed to the loudspeakers to compensate for the negative interactions between the loudspeakers and the room at the listening position Loudspeaker/Room Optimization effectively measures this whole system. To fully understand the sound you get from your speakers and Loudspeaker/Room Optimization, one first needs to acknowledge the importance and interactions between every element within the following chain: Loudspeakers → Room → Listening position. In fact, the Optimizer’s purpose is to make sure the loudspeaker will work to the best of its ability in any given acoustic environment. This is why in-room measurement provides better results when fine-tuning a system than any pre-calculated or simulation-based models.Īll rooms will change the sound characteristic of a loudspeaker quite drastically before even considering the impact of a technology like the Optimizer. So many that it is nearly impossible to perfectly predict the behaviour of any given loudspeaker in a room. This would give him maximum control of the Loudspeaker/Room interactions.Įven then, too many parameters come into play. In an ideal world, an acoustician would design a room based on the characteristics of a loudspeaker. It is arguably the single biggest factor in the system’s performance. How Critical Is The Loudspeaker/Room Interaction? It is not a replacement for buying good equipment. On the contrary, the Optimizer builds on the strengths of the speaker (and the room). One should certainly not assume a technology like the Optimizer is intended to fix a poorly designed loudspeaker. The result is a wide range of loudspeakers available for you to choose from.Īs explained below in more detail, selecting a good loudspeaker is fundamental for the end-result. Loudspeaker manufacturers need to meet the requirements of their target application, with different pricing and quality levels to meet all budgets. What Is The Importance Of A Good Loudspeaker?Ī loudspeaker consists of many different parts and design choices. Let’s start with a reminder of a few fundamental concepts. We will do our best to answer this question as clearly as possible in this article. You might be wondering why the foam is used and why it sets our Home Theater audio solutions apart from the competition.We often hear this question from customers across all markets. The most noticeable feature is the unusual use of foam on the front of each unit. The Vertex series takes a ground-breaking approach to design. The design brief was to produce a range of high performance, high SPL, high sensitivity loudspeakers, whilst maintaining a shallow cabinet depth capable of in-wall installation. How Does The Vertex Series Solve Edge Diffraction? However, a minimal cabinet depth, as exhibited by the Vertex Series of loudspeakers, prohibits this traditional way of combating edge diffraction. To avoid this, the front edges of the speaker can be rounded – This is quite common in speaker design. The result is a colouration or “blurring” of the sound. ![]() These interfere with the loudspeaker’s initial wave. Cabinet edge diffraction is a phenomenon where secondary sound sources are created by acoustic diffraction on the edges of the cabinet at certain frequencies.
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