Array wiring, conduit, and grounding questions

Thanks. So I'll plan on doing the 2 runs of conduit 1/2" EMT, butt splices from USE-2 to THWN-2 in NEMA 4 junction boxes, EMT grounding lugs.

Do my wire size calculations look right? 12AWG DC conductors and 8AWG EGC? What type of connectors are recommended for combining/transitioning ground wires in the junction boxes?

Any suggestions on conduit supports on tile roofs? These: http://www.ecofastensolar.com/store/...p?idproduct=27 ?

Thanks

So the way the inverter is set up it looks like you can put 2 strings in parallel to one MPPT and 2 strings to the second MPPT. So technically you are not exceeding the max of 2 panels/strings to the inverter and may not need OCPDs.

Each MPPT input is totally separate and you will not have a problem with backfeeding between the strings.

Each MPPT input is totally separate and you will not have a problem with backfeeding between the strings.

Because 2 strings are paralleled to each separate MPPT input then I am unsure whether it is necessary to consider them as possible backfeed sources for one another.

If they are then a fault could result in up to 3 strings backfeeding current through a DC conductor meaning OCPD devices are necessary because the current exceeds the fuse rating of the module and to avoid conductor upsizing.

If they are not then a fault could result in only 1 string backfeeding current through a DC conductor meaning OCPD devices are not necessary because conductor size can accommodate for this and it does not exceed the fuse rating of the module.

So am I on the right track or do I have it wrong and need OCPDs?

Sorry for the omission of details.

Panels:
Pmax = 295W
Imp = 8.13A
Isc = 8.62A
Voc = 44.7V

Inverter
Fronius Primo 8.2 Transformerless Dual MPPT
2 sets of DC input terminals per MPPT (4 total)
Max DC input 18A per MPPT
Ground Fault Protection : Yes

String B1 & B2 are in series, resulting in 2 strings of 8 and 2 strings of 9.

Wondering about EGC sizing, combining array EGC in junction boxes, ability to use standard NEMA 4 junction boxes since there is no string combining, and other relevant 2011 NEC requirements.

Adjustment factors (NEC 310.15):

Conduit 0.5-3.5in above roof temperature adder: 22C
Number of conductors ampacity derating (4-6): 0.8
Number of conductors ampacity derating (7-9): 0.7
Temperature derating factor of 90C conductor @ 65C (43C+22C): 0.65

Non-Adjusted Ampacities @ 30C:
12AWG 90C copper: 30A
10AWG 90C copper: 40A
8AWG 90C copper: 55A
6AWG 90C copper: 75A
4AWG 90C copper: 95A

Adjusted Ampacities @ 65C:
12AWG 90C copper (1-3 conductors): 19.5A
12AWG 90C copper (4-6 conductors): 15.6A
12AWG 90C copper (7-9 conductors): 13.6A

10AWG 90C copper (1-3 conductors): 26.0A
10AWG 90C copper (4-6 conductors): 20.8A
10AWG 90C copper (7-9 conductors): 18.2A

8AWG 90C copper (1-3 conductors): 35.7A
8AWG 90C copper (4-6 conductors): 28.6A
8AWG 90C copper (7-9 conductors): 25.0A

6AWG 90C copper (4-6 conductors): 39.0A
6AWG 90C copper (7-9 conductors): 34.1A

4AWG 90C copper (4-6 conductors): 49.4A
4AWG 90C copper (7-9 conductors): 43.2A



Max EGC Current = Isc * 4 * 1.25 = 43.1A ?
Max String Current = Isc * 1.25 = 10.8A ?

So how does this apply to the conductors and different segments of conduit?

For example, the only conduit carrying 4 pairs of DC wires would be from array 4 to the inverter and would require a 4AWG EGC. However, the inverter only accepts up to 6AWG, so it seems 2 conduits are required.

So I guess I can go with 2 conduits, one for strings A&B and one for strings C&D.

1/2" EMT 37% fill
DC Conductors - 4 x 12AWG (upsized for <1% voltage drop)
EGC - 1 x 8AWG

However in the conduit segments that carry wiring from only 1 string can I use a 12AWG EGC?

Since I am not combining strings I can use standard NEMA 4 JBs and not expensive "listed for purpose" solar boxes, right?

What inverter are you using?
Most inverters work with strings of between 8 and 13 panels.
You'll probably be dividing up your arrays to meet the inverter's string requirements instead of trying to connect a bunch of odd sized strings to the inverter.

Unless your inverter already has a built in "combiner box" I don't believe you can run 4 different "strings" to it without installing some type of over-current device for each string.

As the others have asked, what are your panel and inverter specs?

looks like you can run all 4 string with no 10 and also ground no 10 or 8 depends of your inverter specs in a 3/4" conduit from the roof , but we need more details for more accurate information.

You are going to need to share more info for help. What are the electrical specs of your panels? What inverter (or charge controller) are you using?