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sounds like a story that needs to be shared
IIRC, the B'mann reverser kills the power at the end of each cyle to "park" the train for a moment, so this could be problematic.
I have a handy DIY photocell detector circuit that I like to use for things like this. It's very nice for switching small relays in reaction to a photocell being covered by a train. I particularly like it because it is very tolerant of low light situations and triggers the load from full off to full on at a very sharp transition point in the light level ( the photocell at 22k ohms has the load fully off and at 33k ohms, the load is fully on. )6 components on a little scrap of solder perf board and you're good to go. Cheap, effective, and it can drive a small relay directly. (Yes... since this is an all-DC approach, why not go whole-hog and make your own detectors out of discrete transistor circuits!)
This sounds useful!
I love the idea of choosing solutions that are appropriate for the requirements as opposed to using a hammer on a screw.
That so many really good modelers here have had reason to eschew DCC is proof enough to me that it is not the panacea some make it out to be.
The latest fad of making trains controllable though smartphones is a real turn-off to me. Just consider how often smartphones are upgraded or rendered obsolete over the years and what that might do to one's established operating protocols.
I'm a analog person in a digital world ....... (Attachment Link) Tom L Wellington CO
In thinking through implementation of typical DC practice (flipping polarity of the entire mainline between loops) and the DCC approach of flipping the end loops themselves, I started to wonder if I needed continuous unimpeded running. If I have a couple staging sidings in each loop, with the eventual goal of cycling trains to match the scheduled parade of trains on the Columbia River Sub, then pausing a train, or actually parking it in the loop, as polarity is adjusted, isn't really an issue. I like the idea of flipping stuff only on the loops and leaving the rest of what could be a long layout untouched. If speed ramping up and down could be accomplished within the staging tracks via circuits, then cascading tortoises could handle most of the "logic". Maybe it's the rolling ball track of exhibition layout operation. And with that, am I happy animating the layout versus operating it. Probably, given that it's Z scale and I'm modeling an area with little operational interest in terms of switching puzzles or other nonsense.