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So the article in the Nov.-Dec. N Scale Railroading about computers, cell phones, etc. shows in Fig. 1 how to wire a mobile decoder as stationary so DC locomotives can be run by a DCC system. After studying the article, I think I understand the concept, and want to try it on my HCD layout. I have 30+ locomotives, and so far only four are DCC.My question is since size doesn't matter, is there some advantage to using an HO scale decoder? Would it put out too much amperage for N scale locomotives?
Thanks, Peteski. I do like seeing three or four geeps on the head end of a coal drag. The magazine article does have a fuse or circuit breaker in the circuit.
As to Ben's concern about running DCC-equipped locomotives on the converted DC line, I have not yet put a 'scope on the decoder output to see if that will be an issue, that the waveform is square enough at the right (i.e., wrong) frequency to make the loco-based decoders expect DCC. If it is, then that's easily enough solved with a filter network, either frequency-specific or even brute-force with big bipolar caps.
The only benefit I see is the ability to run wireless throttles.
But the overall cost will be quite high (for what you end up with).
I also don't think this is a good utilization of the DCC technology (the lighting effect and being able to run multiple engines on the same track without any blocks to deal with)
I also read Jagged Ben's reply and I wonder if his problem might be related to using multiple DCC decoder throttles to power multiple blocks on the layout (and what happens when a loco accidentally crosses the block boundary, shorting both decoder motor outputs together).
QuoteBut the overall cost will be quite high (for what you end up with). Not necessarily. The cost of a G scale decoder is not that significant, and as as club we already have the DCC system and throttles to run it. We may need a new booster, etc. Also more throttles may not even need to be purchased because guys just use their phones.The Aristocraft product was, I believe, around $150 several years ago, so that seems possible to beat.And besides, as alluded to above, anything that we try is going to be a DIY build. Anything will be costly, at least in terms of time.
Things may act strange and there may be a runaway, but I doubt that any magic smoke will be released.
I think the common-rail design is going to be your major "oops" point. Personally, I abandoned common-rail 40 years ago as false economy, but to each their own.
Wellllllllll... on my project list is to do exactly this idea on our club's N-Trak layout. The game plan at this point is to use a large-scale decoder for the capacity, pending confirmation that the max voltage output is limited by the command station.Solves two problems. First is the wireless throttle capability, as mentioned. Second is the important one - we frequently operate dual-mode, where two tracks are on our DCC system and one remains DC. Problem is we then have to schlep both systems to shows, which are each built assuming they're running the whole layout. No conflicts, just more crap to have to pack/unpack/pack/unpack (you know the drill). Integrating a DCC-to-DC conversion system controlling a whole track would make our setup easier. The wireless benefits are even better, as our DC system only allows two control points, and that's only if we break the DC line into two blocks.