dxhend2
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Still learning all the many electrical/electronic nuances of our M1083A1 - biggest problem we had was unreliable starting (master power switch on, all the clicks and whirs, push big red button - nothin'...). This has been with us since our recovery trip last summer, making that more "adventurous" than we would have liked. After a lot of good threads and advice here on batteries and battery conditioners, I went with the NOCO Genius4 on new 6TL batteries (vice the Walmart 24H's that got us home).
After three months of operating with this setup, I'm calling it good to go now - reliable starts every time after sitting for weeks. I thought I'd share a post as more of a "how to" guide that hopefully may be helpful to someone else. One of the main problems addressed is how to mount a 15 lb battery conditioner to an FMTV in a way that it will stay on through the whole rodeo...
The NOCO Genius has great reviews as a battery conditioner, and is typically used in boats and RVs. For mounting in that kind of application, they include a little bag of #3 sheet metal screws that go through deep recess holes on each corner and through the sheet metal backplate of the Genius. That might work for a typical RV, but I don't think anyone here would ever use "#3 sheet metal screw" and "FMTV" in the same sentence...[sgenius1.jpg]
The over-engineered solution was to use 3/8" bolts as pegs going into the recess holes on each corner, with steel angle iron and a steel backplate making a sandwich around the Genius, all bolted under the frame near the battery box. [sgenius2.jpg]
Third picture shows the Genius "sandwich" assembled on the welding bench to make sure it all fits together. The Genius was removed, and the bolt heads welded into the angle iron braces. [sgenius3.jpg]
The back plate was bolted onto the frame just aft of the battery box/cutout switch with four bolts. [sgenius4.jpg]
After a little green paint, the "Genius sandwich" is bolted in place, ready to take a few G's in any direction. [sgenius5.jpg]
Trickle charge wires from the Genius needed to be extended about 12 inches (spliced, soldered and heat shrinked) and connected to each of the four 6LT batteries. [sgenius5a.jpg]
Half-inch split-wire loom tubing made for a neat wiring management finish. Installation complete, all batteries charging (red lights on each channel, go green when respective battery is fully charged. [sgenius6.jpg]
I put a Kill-a-watt meter on the line and keep it plugged in all the time. [sgenius7.jpg] It seems to stay right around 11.2 watts in a "maintenance" mode (all lights green). We've been operating this way for three months so far, getting reliable starts every time after sitting for three-week stretches. Hope this helps someone with similar issues...
After three months of operating with this setup, I'm calling it good to go now - reliable starts every time after sitting for weeks. I thought I'd share a post as more of a "how to" guide that hopefully may be helpful to someone else. One of the main problems addressed is how to mount a 15 lb battery conditioner to an FMTV in a way that it will stay on through the whole rodeo...
The NOCO Genius has great reviews as a battery conditioner, and is typically used in boats and RVs. For mounting in that kind of application, they include a little bag of #3 sheet metal screws that go through deep recess holes on each corner and through the sheet metal backplate of the Genius. That might work for a typical RV, but I don't think anyone here would ever use "#3 sheet metal screw" and "FMTV" in the same sentence...[sgenius1.jpg]
The over-engineered solution was to use 3/8" bolts as pegs going into the recess holes on each corner, with steel angle iron and a steel backplate making a sandwich around the Genius, all bolted under the frame near the battery box. [sgenius2.jpg]
Third picture shows the Genius "sandwich" assembled on the welding bench to make sure it all fits together. The Genius was removed, and the bolt heads welded into the angle iron braces. [sgenius3.jpg]
The back plate was bolted onto the frame just aft of the battery box/cutout switch with four bolts. [sgenius4.jpg]
After a little green paint, the "Genius sandwich" is bolted in place, ready to take a few G's in any direction. [sgenius5.jpg]
Trickle charge wires from the Genius needed to be extended about 12 inches (spliced, soldered and heat shrinked) and connected to each of the four 6LT batteries. [sgenius5a.jpg]
Half-inch split-wire loom tubing made for a neat wiring management finish. Installation complete, all batteries charging (red lights on each channel, go green when respective battery is fully charged. [sgenius6.jpg]
I put a Kill-a-watt meter on the line and keep it plugged in all the time. [sgenius7.jpg] It seems to stay right around 11.2 watts in a "maintenance" mode (all lights green). We've been operating this way for three months so far, getting reliable starts every time after sitting for three-week stretches. Hope this helps someone with similar issues...
