Good Sam Community

First of all both breakers are junk IMO. Get Bussmann Highamp or equivalent.

Left breaker is redundant as the other end of the wire should have a master fuse/breaker to protect the wire. Or is this next to the power distribution panel? You only need one breaker there if the branch circuit wire cannot handle the amps of the fuse back at the battery. All wire looks same so no branch circuit breaker needed.

Clean? I would clean it up with heat shrink sealed terminals if taking anything apart.

Gyro gearloose aptitude. The principal thing that is wrong with that arrangement is that is has been configured to make it non-intuitive in nature. An incoming wire that manifolds at the stud makes it comprehensible. This does not. Like a lunchroom bet "Hey man I wonder how many people aren't going to figure this out?"

A D- for ergonomic layout.

I don't see a post of yours that I quoted that has been changed?:?

trailrider wrote:

ScottG wrote:

trailrider wrote:

ScottG wrote:
I didn't think the breakers were in series. Looks like 1 feed wire supplying both from the middle. Then a wire comes out of each end & goes to slide (Breakers are not polarity conscious). I would never try to deploy more than one slide at a time so the circuit looks fine to me.

No, as I said in the original post the left side wire is incoming from batteries. So power to the small slide goes in series through both breakers.

That would actually be a parallel circuit.
Series would be if one slide were powered by both breakers connected end to end.

Cheers,
Scott

Power comes in on the left wire and goes out the farthest wire to the right to the small slide. So power goes through both breakers to the small slide. Series in my mind.

You managed to quote a post i changed 😄

I agree though.
I've seen this series and sometimes parallel method used to stop slides from pausing. Different for sure but electrically viable.

ScottG wrote:

trailrider wrote:

ScottG wrote:
I didn't think the breakers were in series. Looks like 1 feed wire supplying both from the middle. Then a wire comes out of each end & goes to slide (Breakers are not polarity conscious). I would never try to deploy more than one slide at a time so the circuit looks fine to me.

No, as I said in the original post the left side wire is incoming from batteries. So power to the small slide goes in series through both breakers.

That would actually be a parallel circuit.
Series would be if one slide were powered by both breakers connected end to end.

Cheers,
Scott

Power comes in on the left wire and goes out the farthest wire to the right to the small slide. So power goes through both breakers to the small slide. Series in my mind.

DrewE wrote:
I'm guessing the breakers are different sizes, the little slide needing a smaller breaker (either due to smaller gauge wiring heading towards it--though that's not obvious--or per the slide mechanism maker's specifications). Having them both fed through the large breaker prevents overcorrect if both are operated simultaneously, though I assume there's also a fuse or breaker at the battery end of the incoming power feed wire.

And, I agree with ScottG, that this is a neat and clean installation.

This sounds correct- it makes sense, at least.

ScottG wrote:

trailrider wrote:

ScottG wrote:
I didn't think the breakers were in series. Looks like 1 feed wire supplying both from the middle. Then a wire comes out of each end & goes to slide (Breakers are not polarity conscious). I would never try to deploy more than one slide at a time so the circuit looks fine to me.

No, as I said in the original post the left side wire is incoming from batteries. So power to the small slide goes in series through both breakers.

I think I misunderstood what you wrote.
I am getting over the effects of anesthesia write now :B (hand surgery..)

Cheers,
Scott

trailrider wrote:

ScottG wrote:
I didn't think the breakers were in series. Looks like 1 feed wire supplying both from the middle. Then a wire comes out of each end & goes to slide (Breakers are not polarity conscious). I would never try to deploy more than one slide at a time so the circuit looks fine to me.

No, as I said in the original post the left side wire is incoming from batteries. So power to the small slide goes in series through both breakers.

That would actually be a parallel circuit.
Series would be if one slide were powered by both breakers connected end to end.

Cheers,
Scott

As DrewE said, the breaker on the left is bigger then the one one the right so the breaker on the left is for the big slide and the one one the right is for the little slide. Maybe if the wire to the big slide was on the other side of the jumper it would look better but it's fine that way.

ScottG wrote:
I didn't think the breakers were in series. Looks like 1 feed wire supplying both from the middle. Then a wire comes out of each end & goes to slide (Breakers are not polarity conscious). I would never try to deploy more than one slide at a time so the circuit looks fine to me.

No, as I said in the original post the left side wire is incoming from batteries. So power to the small slide goes in series through both breakers.

X2 ScottG
Not in series

I didn't think the breakers were in series. Looks like 1 feed wire supplying both from the middle. Then a wire comes out of each end & goes to slide (Breakers are not polarity conscious). I would never try to deploy more than one slide at a time so the circuit looks fine to me.

deleted (duplicate)