I think the solution to my problem is a capacitor on the main power line for the radio, it being DC and all. Don't mind the slight delay this will cause when first powering up, as it will buffer the "no current" periods when all available power including life support and shields is being directed to starter-motor thrusters.
The question I guess I'm driving at is......... my electro-physics knowledge is highly rusty, and I have no textbooks. I know I'll have to hunt out a particular farad value of capacitor for this task, but what, and/or how do I work it out?
For a 12-volt (DC) supply,
carrying current to a consumer that can probably hit 200w (4x45w output plus display, tuner, wastage) at peak (though, during the periods it's likely to be needed, no more than 50w - but the capacitor must be able to handle the peaks to not melt?),
and providing the simulated power-spike smoothing for a duration of (what i stopwatch-measured to be) 1.4 seconds.... call it 2.0 seconds for safety.
So, 12V, upto 200w, for upto 2 seconds. There's something involving Coloumbs in this, i'm sure of it...
....and the result could likely be quite large. Something that i'll have to specially insulate and have trouble fitting/mounting behind the dash, will cost a full fiver from maplins and cause them to note my details in the big book of potential terrorists
As a miseducated guess, 33.3F? and I know a 1F capacitor is chunky - normally they start in the pF range?? (picofarad, like, one-billionth or something)just the first of what might be many electrical adventures, i think. this, then getting the fogs hooked to the sidelight feed, then onward to simulated hybrid drive
