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This board has a curve of amperage support, starting at 4-8 amps for the first second, down to 2 amps for 15 seconds, and down to 1.2 amps after 1 minute continuous, before the built-in protection (ptc fuse) shuts the board off to protect itself.
I saw that. I'm not sure a slow freight with six engines going up our continuous 2.5 percent grade at the club with a full train isn't going to pull 1.2amps for over a full minute. It may or may not, but it strikes me as cutting it a little close. One would like to run trains without worrying about it.
So basically you use a type of a decoder as a DC throttle. Same thing can be done with a DCC decoder but you need additional hardware (and JMRI) to get it to work with WiFi and handheld devices.
That is pretty clever, but the train still runs under DC: no constant lighting (in the locos or passenger cars) or light effects, and no sound. I guess it is a very basic setup. But going from my experience, once you move to DCC, it is hard to turn back.
The ease of ... setting up consists,
Still, this might be a good choice for someone who just needs a really basic WiFi-controlled layout.
... You could always wait for the higher amperage board to come out. Towards the end of this year there are bluetooth modules scheduled to release with dimensions that could possibly fit an N loco. I'm not sure how long it will be till those are integrated into train control boards....
One concern about using a DCC decoder as a DC power pack is overcurrent protection. Another is if a DC loco runs into a DCC block accidentally (yes, planning for this is required, not negotiable*), then you essentially have a motor lead shorting to the rail which is what they tell you will fry your decoder.*To explain, we have a common-rail layout with several DC cabs and a DCC system. (It was required to use Digitrax boosters with Loconet optically isolated, a not well known but available option). So one can dispatch multiple DC trains along with DCC. What's attractive about the Bluerail is that each 'cab' could be powered by a separate isolated power source, so no worry about ground fault or short circuit. And the overcurrent documentation is reassuring. I'm imagine we could cobble together overcurrent and isolation for a DCC decoder, but I for one don't have the time, and in a club environment it's nice to provide a known product for whoever else might be coming along to maintain it later.True, but the whole club does not convert at once, and we want to be open to everyone. The fact that our DC cabs tend not to all be reliably working at one time has become a lot less of a problem over the last decade as a bunch of members have converted to DCC. But we'd still like to support DC for the foreseeable future.Of all the things that you mentioned, setting up consists is the one thing that is not easier with DCC. Bluetooth not Wifi.
Yeah, Bluetooth - that was a a slip-up on my part. The bottom line is that it is a type of wireless radio (not IR) control. Don't some DCC decoders offer motor output overload protection?As far as worrying about polarity and shorts I cannot envision this being used for anything but small roundy-round layout. So, no multiple blocks or throttles.I don't know about you, but I have operated on many DC-block control and DCC ones and I can comfortably state (at least for me) that the convenience of DCC (no worries about block polarity or throttle/block assignment, easily settign up to run multiple locos - even with helper locos, plus the excellent lighting effects) beats the DC-block control by a huge margin. Even if there is some pain to go through and a learning curve involved. DCC sure has its gremlins but overall, it is so much more operating-session-friendly. There are plenty of things (like adjacent opposite-polarity blocks or losing control of your train by crossing over to someone else's block) which can and will go wrong on DC-controlled layouts. So is the constant need to worry about the settings which need to be done in the next block. That's how I see this DC vs. DCC debate. Or in this example N scale BlueRail vs. DCC debate.
Dude, you're missing my point. You don't need to sell me on the benefits of DCC. But we have a club layout and we want to continue to support DC for the foreseeable future because not all our members are going to convert, or not at once. I personally am about half way through converting my fleet and want to run my DC locos in the meantime. The whole layout has been built to support both DC and DCC for a long time, we're not forced to make a choice or expend any real effort there. The only thing is that our old garage-door technology DC throttles could stand to be replaced, and this could potentially be the replacement.I can envision Bluerail being used for more than a roundy-roundy layout. That's my point.