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For the record, Atlas C55 turnouts have electrically isolated frogs that need to be wired to a switching machine to power them correctly for each leg. So that means adding more wires than you would with an ME turnout. Or you leave the Atlas frog unwired and unpowered.
The Atlas code 55 turnouts have a hidden jumper from each closure rail, jumping around the frog, and connecting to the corresponding "frog rail" on the other side of the frog. Thus if the "frog rail" is connected to a piece of flex track, the flex track will be powered through the turnout. To get the equivalent operation with ME, you could either add your own jumpers, or run feeders to the track beyond the switch, as advised by previous posters.
New ME turnouts have an isolated frog, that can be either powered or left dead. However, the two "frog rails" coming off the other side of the frog gaps (opposite the closure rail/point/switch side) have to be powered by the rails they're connected to...or by feeders...depending on your wiring and block placement, they they are entirely isolated from each other.
For the record, this is incorrect. Because the rails beyond the frog on an ME turnout are not electrically connected to anything, they must be wired (or otherwise powered), whereas the Atlas turnouts have internal jumpers to power these rails. This has already been established. So using Atlas does not increase the wiring demands, and indeed it's simpler, especially if the frog is left dead.
I'd like to point out that while Atlas turnouts do have those internal jumpers built in, if you depend on them, you are asking for trouble.
I also believe that in N scale, the time, effort and extra cost it takes to properly power a frog is worth every moment/penny.
Amen.I also believe that in N scale, the time, effort and extra cost it takes to properly power a frog is worth every moment/penny. I've operated on absolutely marvelous HO-scale layouts that ran dead frogs, and even with the weight of HO scale, switchers (notably the Atlas RS3 and Kato RSD) stall at the frogs at least 50% of the time. In N scale, if you are doing slow-speed switching across a dead frog, you are asking for operational disaster. For mainline track where an engine will be traveling at track speed (and will likely be a larger engine with more weight and a longer wheelbase to boot), you might get away with dead frogs. In switching areas, it's just asking for trouble.John C.