I agree with what you're saying and that was my understanding. But I wasn't really concerned about ampacity since I will use 105C wiring throughout. Are you saying that the Blue Sea table is listing max ampacity and not voltage drop? I want to understand this correctly.
Let's consider two example scenarios for this panel with the same <10' max feeders:
A. Ideal Max Capability
Battery>80A MBRF>10 AWG>80A main breaker>10 AWG>20A panel breaker>16 AWG>device(5A @ 15' or less)>16 AWG>neg bus>10 AWG>Battery
You should not protect 10GA wire with an 80A fuse. 60A is the max safe recommendation for over current protection for 10GA 105C wire and this is not bundled and outside an engine space... There are
exceptions where you could exceed the max ampacity but this would not really qualify for going above the 60A max ampacity standard....
10' 10GA feeders at 80A results in approx a 14% voltage drop. The most allowed is 10%.. I recognize you will never exceed 10A but you said you wanted to wire it for the max capability of the panel, and if you want to do that, you'd need larger wire.
What role does the main breaker play? Feeder protection in case of a short of the feeder at the panel connection (upstream of the circuit breakers)? Doesn't the MBRF fuse do that? Or is it more for convenience to de-energize the panel for maintenance without disconnecting the battery?
It serves as a main switch and a place to wire the larger gauge wire to because they normally have a 1/4 X 20 stud like the Blue Sea C-Series 80A. The problem is your panel is simply not well designed for the breaker loads mounted into it. I won't even install friction fit breaker panels, I have been asked. I refuse because I can't stand behind the product. I simply ask the customer to sell it on eBay and get a quality DC panel.. It is a simple "get what you pay for" type of panel. A quality panel would have sufficient busbars to wire ring terminals to for the proper size wiring.
A main breaker is not 100% necessary but is certainly nice to have.
B. My Real World (<10A total loads)
Battery>60A MBRF (existing)>10 AWG>5A panel breaker>16 AWG>LED nav light>16 AWG>neg bus>10 AWG>Battery
Where is the deficient link? If the light shorts, the breaker will trip. If the breaker shorts, the fuse will blow. Right? Or will the 10 AWG overheat first and I should reduce the battery fuse to 30A?
That is the proper sized fuse for 10GA wire. You will never have 80A on that panel sol I would advise keeping the OCP at 60A that way cou can't overload the 10GA wire. Never hurts to reduce fuse size UNLESS you have motor starting loads that need to be accounted for...
Approx six of the friction fit connectors on this panel were failing to pass current. Two of them had physically fallen off. The breakers that had been replaced used screw terminals and they worked fine. I see this over, and over, and over..... Last week I was working on a center console that had three of the six friction fits fall off the breakers.. Not uncommon...
This one cost the owner over $600.00 in towing plus my time to diagnose and fix it...
Friction fit connectors can not always be avoided on boats, but one should really try to avoid them......
