You'll definitely need a "PoE" MoCA filter (a MoCA filter installed at your cable signal's point-of-entry to your residence optimally installed on the input of the first split) the "PoE" MoCA filter both secures and strengthens the MoCA network. You'd optionally add a GigE network switch in any room where you have multiple devices you'd want wired through the MoCA adapter. If not, please post back w/ any questions, or with additional details of your setup (including modem model, splitter specifics). It's been several days, so perhaps you already have it all worked out. (Recommnded are Holland's GHS-PRO-M series.) You'll want to locate your splitter(s) and review their MoCA compatibility, as MoCA 2.5 uses the entire Extended Band D range (1125-1675 MHz), and so is more demanding of the spiltters. You'll want to identify whether you have a "PoE" MoCA filter in place, and get one installed, if not.Īnd you're obviously going to have at least one splitter in your setup, possibly two, since you have a single incoming coax line from your provider, and 6 coax lines routed to different rooms. See the link above for a number of splitter series designed for MoCA 2.x, rather than using a splitter marketed as “MoCA” just because it is spec’d to 2500 MHz, even though its marketing also claims optimization for satellite.Click to expand.You'd be thinking wrong. Please for the love of God, use high quality splittersĬoncur. Such amps are simply designed to ensure that, like in a “designed for MoCA” passive splitter, MoCA signals can pass with less loss between all output ports, including the non-amp’d/passive output port.īut … one aspect of a “designed for MoCA” amp would actually be problematic for the OP: these amps typically include a built-in “PoE” MoCA filter, blocking MoCA communication between the input port and all outputs. They are pricey, but they work really well, and your signal loss on the coax is significantly reduced.Ī “designed for MoCA” powered splitter (amp) wouldn’t offer any benefit for the OP over “designed for MoCA 2.x” passive splitters, since the only signal boosted by such an amp is the sub-MoCA cable range, typically up through 1002 MHz. If you can stomach the price, use a powered MoCA capable splitter. They are pricey, but they work really well, and your signal loss on the coax is significantly reduced. Make sure you check what frequencies are being used by your MoCA adapters, and what frequencies are supported by your splitters. Please for the love of God, use high quality splitters, especially if you are splitting more than once.since it treats the uplink source as the previous node in the chain, it can show another single port AP as the “wired uplink” for a different single port AP. As mentioned elsewhere, the topology gets quite wonky. Their gear is absolutely garbage, doesn’t follow MoCA spec, and will whine and disconnect constantly until they come out and create two separate MoCA networks because their gear sucks…(I’m fine…I don’t loathe cable companies or anything…)
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