(Note to all the normal people in the forum-- this kind of stuff gets me unreasonably excited; I know it's odd, but at least it's not immoral!!) 
Just to be argumentative, what kind of power loss would a 0.4 Ohm snubber resistor cause in a normal charging circuit? Seems like cheap insurance to me.
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Doesn't it seem odd to anyone else that we have the NEC for house wiring, but (evidently) nothing like that for vehicles? Not to directly knock anyone, but the egregious wiring I have witnessed, e.g. failed tapcons in the ceiling of my 2001 Hawk, make me think a little bureaucracy in RV wiring might be a good thing...
I think the RV Industry Association (RVIA) sets standards of some kind, but dunno how much force they have. One problem that I see is the conflict in color codes between commercial/residential and automotive/marine wiring.
Hmm, E=IR? (Been a looong time and I wasn't real good then...)
http://www.the12volt.com/ohm/ohmslaw.asp
Lessee, 12V / .4 Ohm = 30Amps possible through the resistor, but looking at it another way, there's a very large voltage drop across the resistor at high current, so nothing would be happening? At a 10Amp flow, the drop would be 4V; at a 2Amp flow, the drop would be 0.8V and that would be enough to terminate the charging process way too early.
I recall that a small (Ohm-wise) ballast resistor in an ignition system drops the voltage to the coil from 12VDC to 6VDC during starting and that ceramic resistor gets very hot in the process.
Just to be argumentative, what kind of power loss would a 0.4 Ohm snubber resistor cause in a normal charging circuit? Seems like cheap insurance to me.~~~~~~~~~~~
Doesn't it seem odd to anyone else that we have the NEC for house wiring, but (evidently) nothing like that for vehicles? Not to directly knock anyone, but the egregious wiring I have witnessed, e.g. failed tapcons in the ceiling of my 2001 Hawk, make me think a little bureaucracy in RV wiring might be a good thing...
I think the RV Industry Association (RVIA) sets standards of some kind, but dunno how much force they have. One problem that I see is the conflict in color codes between commercial/residential and automotive/marine wiring.
Hmm, E=IR? (Been a looong time and I wasn't real good then...)
http://www.the12volt.com/ohm/ohmslaw.asp
Lessee, 12V / .4 Ohm = 30Amps possible through the resistor, but looking at it another way, there's a very large voltage drop across the resistor at high current, so nothing would be happening? At a 10Amp flow, the drop would be 4V; at a 2Amp flow, the drop would be 0.8V and that would be enough to terminate the charging process way too early.
I recall that a small (Ohm-wise) ballast resistor in an ignition system drops the voltage to the coil from 12VDC to 6VDC during starting and that ceramic resistor gets very hot in the process.
