0 Members and 5 Guests are viewing this topic.
This is all very fascinating. I recently posted a DC question which I put into the "Crew Lounge".It ran there for a few days and was then moved to the "DCC/Electronics" category, which I get.Shouldn't this topic be moved there as well? Just wondering... Mark in Oregon
Assuming a loop yard always operates in the same direction (and there's no reason it shouldn't), then you'll need one detector on the inbound end, right after the first turnout, but before the turnouts for the storage tracks, and then one detector on each storage track at the other end, just before the fouling point.As an example of the sequence of actions, assuming that the last train to depart the yard left from track 1: The inbound train trips the inbound sensor, which enables the outbound sensor on track 1. When the train reaches the outbound sensor on track 1, it a) shuts down track power; b) realigns turnouts to track 2; c) realigns the first turnout on BOTH yards; d) disables outbound sensor on track 2; e) restores track power.All of this can be accomplshed with a microprocessor controlled circuit, or a bunch of relays. I've done it both ways, and found the latter to be more robust as it's immune to the electrical noise generated by locos, switch machines, etc. But, YMMV.
I understand why the path continually leads to DCC for these issues.
Just aesthetics. Seems harsh to just cut the power. Maybe I should just set it up and see what it looks like in practice.
... I believe it can be solved much more effectively by controlling a PWM throttle with a microprocessor. ...
You're suggesting the complexity of custom engineering for an issue already addressed with off-the-shelf solutions available with DCC. I thought the objective here was disposing of DCC as too complex and too quirky for a simple situation, so let's go back to DC. Yet what I'm reading so far is the kind of Rube Goldberg stuff that made me tear my hair (and then the wiring) out on multiple club layouts where somebody "had a better idea".
I understand why many people would belive the path continually leads to DCC. But I never have.I've considered capacitors as an answer to this for some time as well. But I believe it can be solved much more effectively by controlling a PWM throttle with a microprocessor. (Before microprocessors were prevalent, I built a throttle that was controlled with a geared motor.)