![]() The problem with your conjecture that 3xSonance =2.67Ω is that nobody here (yet, so far as I know) knows *exactly how* “the Amp will automatically detect them” and what limitations the Amp puts on itself as a result. IOW, you would sum the two graphs, which might give you reason for hope.īut nobody here will advise you to (potentially) try to pull too much power out of your Sonos Amp - you have to take that upon yourself. In theory, you could overlay them to see if they just happen to *not* coincide. If you’re in the mood for research, you could see if the manufacturer, or an audio reviewer, published measurement graphs of ohms vs. The quality of the speakers is not the issue. The Sonos Amp has been designed to power up to three pairs of Sonos Architectural speakers on a single Sonos Amp. How many pairs of speakers can be installed together on a single Sonos Amp? This also means the indoor models (In-Wall and In-Ceiling) are the only passive speakers to support Sonos’ Trueplay tuning, which tunes the system to the room environment. This is only possible because we designed the speakers from the ground up with Sonance. When these speakers are connected to Sonos Amp, the Amp will automatically detect them, and automatically adjust the sound to be best for that speaker. What does it mean that these speakers are optimized for Sonos Amp? For Sonance speakers they worked with the manufacturer to create speakers designed for Sonos use. Sonos picked a safe number to publish for general use. So a speaker rated at 4 Ohms might actually vary between 3 and 6 depending on what is being played. ![]() The main reason is that the Ohm rating of speakers is a marketing tool, not a true specification.Ī speaker is not a restive device but a reactive device and the actual rating varies with frequency and possibly power levels.
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