for 200 bucks i'd sink some 2" conduit in and then never worry about it again. pull in more if you want more in the future. don't forget a run of 3/4" for data too.
Great advice! Although I could go to 1" for data for only $25 more. And 2" is only about $25 more than 1-1/2 so worth it although with the bends and end fittings its a bit more difference.
I am a little confused by the size of the power conductors though. The code table states #2 AL is good for 90A but the calculators seem to assume 60C numbers or something that makes it at least 1/0. And 1/0 easily meets 3% voltage drop and I can't enter smaller to see the drop.
http://www.paigewire.com/pumpWireCalc.aspx?AspxAutoDetectCookieSupport=1
Southwire has one that looks a bit more flexible:
https://www.southwire.com/calculator-vdrop
For 240V and 200 ft and 90A it shows 2/0 and 2.44% voltage drop.
If I switch to circuit distance instead of conductor size and enter #2 AL it complains that it might not be good at that current but shows 136 ft max for 3% drop and 227 ft for 5% drop.
#1 increases length to 165 for 3% and 220 ft for 4% which I am thinking would be fine since I seriously doubt I would ever get to 90A. I suppose I could put a slightly smaller breaker on it.
How do I size the neutral and ground? I have seen a few places that the neutral is not to be reduced but not sure that is required or applies. Some of the loads are 230V - notably the AC but that's not a big load.
For the ground conductor if I assume #2 for 90A as the starting point and use 250.122B for the increase to #1 then I need to increase the EGC from panel to panel from #6 AL to #5 AL. Since 5 is not a standard size go to #4.
So I end up with 1/1/1/4. Does that look right?
I did notice on wiresandcablesyourway.com that #4 is available only in black while larger sizes are available in black and green. Is it acceptable to mark the black as green for the EGC?
And for the wire from the subpanel to the ground rods #8 Cu.