OMG, shortening the battery cables... Inverter in engine room.

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markbarendt

Senior Member
Joined
Sep 14, 2020
Messages
192
Location
USA
Vessel Name
42
Vessel Make
Ocean Marine
My, new to me boat, came with some really long runs of DC cables, but what do I know?

I had a marine surveyor inspect the boat before buying. the survey basically says, "the electrical systems generally comply with ABYC standards".

Some issues were obvious, some were a bit of a puzzle.

For example the bilge pumps weren't working, bad ground got some action going but still not right, ... They were wired in improperly on the 4 battery bank and only getting 6 volts. :facepalm:

After sorting out the systems a bit to make sure 1, that I generally understood the systems and 2, that the cables were following electrically logical and safe paths and 3, had some confidence the whole thing would not burn down; I decided to run a higher load test.

My microwave was to heat some water using the Xantrex Freedom XC 2000 inverter. The batteries were fully topped up, a bank of 4 Trojan T125's.

The microwave was set to use 1000w of cooking power which means after it's overhead is added it needs just shy of 1200 watts of 120, 10 amps from the inverter.

The microwave ran!

There's always a but though, The battery monitor was showing 188 amps being sucked out of the battery bank, the cables could only get 10.5 volts delivered to the inverter.

That 188 amps is just under the 192 amp input limit of the inverter so I stopped the test fast just after reading the numbers.

I'm skilled enough to be able to guess that the wires were too long, but after down loading the owners manual for the inverter I got a good schooling on inverters and just how bad the installation was botched on this boat.

To start the recommended minimum size battery cables for a 5 foot run are 3/0 to the battery and Chassis ground at 2/0.

WTF? :eek: The installed cables, 1/0 at ~20 feet with 10 AWG running to the house bus bar for the chassis ground.

Similarly the starter cable makes about a 50 foot circuit. The bow thruster and windlass have runs way too long also.

If this is anywhere near the norm for a DIY or semi-pro-non-specialist install, it's a wonder more boats don't burn down.

Rant over.

Productive thought follows. To fix this I need to shorten the cables, a lot. That means 1, getting the inverter close to the batteries and 2, moving the batteries around the boat some.

It's a 1977 Ocean Marine 40 foot with a Lehman 120.

So first, I know it's not safe to put an inverter in an engine room with gasoline power but I'm getting the impression that it's ok around diesel power (with a caveat about heat). Is that right?

Second, I'm including a hand drawn 'plan' for your educated comment. This plan only deals with the Start and Aux batteries. It gets the aux battery out of the engine room up under the V-berth floor and uses heavy relays to be able to run the heavy cables direct and use control wires for the run to the helm.

Thanks for your help.

move batteries.jpg
 
In general, I like to have a separate battery for the thruster and windlass. Then you can run heavy (4/0) cables for a short run. Put a separate battery charger there. I don’t care if you can get away with a smaller cable for the short run I like the big cables so that voltage is at the maximum that the batteries supply. The extra cost is a one time cost but the benefit is every time you use the thruster or windlass you get better voltage. I would not put the inverter in the engine room and especially above the batteries if they are LA batteries. I am going to Lithium batteries for the house bank but they are pricey. Check every connection for corrosion. I like to put a copper paste on the ends of the cables before the connector goes on. Helps with conductivity and helps prevent corrosion. Then use adhesive lined heat shrink on all the connectors. I always go larger on wiring so that I get the absolute best voltage I can. Cheap in the long run.
 
Why are you worried about a gasoline engine. That Lehman is a diesel.
 
Why are you worried about a gasoline engine. That Lehman is a diesel.

Not worried about gasoline.

Just haven't found a definitive "yes an inverter is ok in a diesel engine room" yet.
 
Heat is a big killer for many inverters, plus battery fumes if too close, and finally soot/oil in the air even though it's not much most of the time


Engine room can be done, but not preferred.
 
In general, I like to have a separate battery for the thruster and windlass. Then you can run heavy (4/0) cables for a short run. Put a separate battery charger there. I don’t care if you can get away with a smaller cable for the short run I like the big cables so that voltage is at the maximum that the batteries supply. The extra cost is a one time cost but the benefit is every time you use the thruster or windlass you get better voltage. I would not put the inverter in the engine room and especially above the batteries if they are LA batteries. I am going to Lithium batteries for the house bank but they are pricey. Check every connection for corrosion. I like to put a copper paste on the ends of the cables before the connector goes on. Helps with conductivity and helps prevent corrosion. Then use adhesive lined heat shrink on all the connectors. I always go larger on wiring so that I get the absolute best voltage I can. Cheap in the long run.

The concern that I have heard about putting an inverter above the L.A. batteries is two fold, hydrogen and caustic fumes. The consensus I'm seeing is that both dissipate very quickly with even a little venting. The recommendation is simply to mount the inverter lower.

Mounting low brings up a (code?) concern about having the inverter below waterline.
 
I agree that the ER isn't a desirable location for the inverter.


Another approach to solving the problem would be to up-size the cables. There are lots of calculators for figuring the voltage drop through wires, and you could run that on your setup. 4/0 cable might do the trick, or perhaps even two in parallel. I think it's worth an hour to at least check it out.
 
Not worried about gasoline.

Just haven't found a definitive "yes an inverter is ok in a diesel engine room" yet.

That where our inverter has been for the last 30 years and just had another survey done last week and no problems with it there. We just have to change the chassis ground to 1/0 cable per the ABYC requirements for our inverter.
 
Heat is a big killer for many inverters, plus battery fumes if too close, and finally soot/oil in the air even though it's not much most of the time


Engine room can be done, but not preferred.

Yep, all things on a boat are a compromise.

I'm thinking that if I ensure good ventilation, then the engine room (and under V-berth battery is probably a lot less risky, and easier on the equipment.
 
That where our inverter has been for the last 30 years and just had another survey done last week and no problems with it there. We just have to change the chassis ground to 1/0 cable per the ABYC requirements for our inverter.

I like that.
 
I will assume that you do have house batteries separate from the starter and aux batteries.
Moving the Aux battery forward is a good idea (closer to the windlass & Thruster), as log as you can provide Eng. charging capability.
Why a timer switch while you can use a standard switches to activate the Aux battery to run the windlass or Thruster separately when needed (of course still driven by the ignition switch). you timer switch will put the Aux and the Start battery in parallels after 10min and you will loose both batteries if the alternator goes bad.
good luck.

The inverter in the Eng Room should just fine and you can also add ventilation if you heat any concerns.
 
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I agree that the ER isn't a desirable location for the inverter.


Another approach to solving the problem would be to up-size the cables. There are lots of calculators for figuring the voltage drop through wires, and you could run that on your setup. 4/0 cable might do the trick, or perhaps even two in parallel. I think it's worth an hour to at least check it out.

I did try 2 calculators and according to both there simply isn't a normal cable size that is big enough.
 
In general, I like to have a separate battery for the thruster and windlass. Then you can run heavy (4/0) cables for a short run. Put a separate battery charger there. I don’t care if you can get away with a smaller cable for the short run I like the big cables so that voltage is at the maximum that the batteries supply. The extra cost is a one time cost but the benefit is every time you use the thruster or windlass you get better voltage. I would not put the inverter in the engine room and especially above the batteries if they are LA batteries. I am going to Lithium batteries for the house bank but they are pricey. Check every connection for corrosion. I like to put a copper paste on the ends of the cables before the connector goes on. Helps with conductivity and helps prevent corrosion. Then use adhesive lined heat shrink on all the connectors. I always go larger on wiring so that I get the absolute best voltage I can. Cheap in the long run.

^^^This.

We have 2 group 31 AGM on a standalone charger under the forward berth for the thruster. Short cable runs so max power is drivers to the thruster.

For the house bank, I went with doubled 4/0 cable from the bank to the inverter, and 3/0 to feed the main DC distribution panel.
 
I will assume that you do have house batteries separate from the starter and aux batteries.
Moving the Aux battery forward is a good idea (closer to the windlass & Thruster), as log as you can provide Eng. charging capability.
Why a timer switch while you can use a standard switches to activate the Aux battery to run the windlass or Thruster separately when needed (of course still driven by the ignition switch). you timer switch will put the Aux and the Start battery in parallels after 10min and you will loose both batteries if the alternator goes bad.
good luck.

The length of time idea is good, I may consider a shorter duration.

The idea of the timer is to avoid a problem like what you describe. With the old school, manual switch on 'both' position, there is no automatic protection of the starter battery from overuse.

The time for the 'both' relay, is only there to allow the aux battery some time to 'jump charge' the starter battery.

While 'both' could be used the other way to help the bow thruster that is not the intent.

Your thought there got me thinking and I do think that I will change what I call that relay/switch to 'start assist' or 'jump start' so that other people better understand the intent.
 
Peter, so nothing is charging the thruster batteries when you're underway?
 
^^^This.

We have 2 group 31 AGM on a standalone charger under the forward berth for the thruster. Short cable runs so max power is drivers to the thruster.

For the house bank, I went with doubled 4/0 cable from the bank to the inverter, and 3/0 to feed the main DC distribution panel.

I like big cables too.

The charging system is a whole 'nuther monster.

I guess I don't understand the advantage of a stand alone charger up front.

What I'm getting at is that when using the thruster I'll either be coming or going from a dock or mooring ball; the only practical charging device that I'll have available in that moment will be the alternator.

What am I missing?
 
Peter, so nothing is charging the thruster batteries when you're underway?

We’ve generally run the genset while underway, so the thruster batteries are being charged. With the revised setup, I’ll be charging the forward bank via the DC-DC charger.
 
We’ve generally run the genset while underway, so the thruster batteries are being charged. With the revised setup, I’ll be charging the forward bank via the DC-DC charger.

That explains it.
 
We’ve generally run the genset while underway, so the thruster batteries are being charged. With the revised setup, I’ll be charging the forward bank via the DC-DC charger.

I don’t charge the thruster battery while underway. Only on shore power since we usually don’t run the genset underway. Never had any issues that way.
 
I like big cables too.

The charging system is a whole 'nuther monster.

I guess I don't understand the advantage of a stand alone charger up front.

What I'm getting at is that when using the thruster I'll either be coming or going from a dock or mooring ball; the only practical charging device that I'll have available in that moment will be the alternator.

What am I missing?

The standalone charger eliminates a long, heavy DC cable run from the engine room to the thruster. 12v DC is best served by short runs, while 24v or 48v can get away with longer runs without much loss.
 
I like big cables too.

The charging system is a whole 'nuther monster.

I guess I don't understand the advantage of a stand alone charger up front.

What I'm getting at is that when using the thruster I'll either be coming or going from a dock or mooring ball; the only practical charging device that I'll have available in that moment will be the alternator.

What am I missing?

My thruster will run way longer than I ever need it without recharging the thruster battery. I ran 4/0 cables about 2 feet to the thruster so it keeps the voltage up and the current draw to a minimum. The battery only gets charged at the dock mostly since we rarely run the genset underway.
 
The standalone charger eliminates a long, heavy DC cable run from the engine room to the thruster. 12v DC is best served by short runs, while 24v or 48v can get away with longer runs without much loss.

One thought that I had there was that I won’t actually need a long dedicated charging wire, all I have to do is get to the ‘aux’ side of that ‘both’ relay, via a fuse, the heavy cable goes the rest of the way.
 
While nothing beats BIG cables , purchasing one of the lazer thermometers , and shooting every piece of the system while it is under heavy load may find you can use smaller cables.

Remember if bolted connections are hot , discard any SS or iron washers and nuts and reinstall with copper washers and nuts.Including hookups at charger or inverter.


A larger electric supply (not a std. hardware or big box store) will have what you need.
 
Heat is a big killer for many inverters, plus battery fumes if too close, and finally soot/oil in the air even though it's not much most of the time


Engine room can be done, but not preferred.

My last 2 boats had the inverter in the engine room. Was never a problem.
 
My last 2 boats had the inverter in the engine room. Was never a problem.




Yeah, just spouting the manufacturers song.


My first inverter was in there but totally solid state, no cooling fan or openings. But with a single Lehman, huge engine room ..... not particularly hot or contaminated.


Nt so with the current inverter but cocated within 2 feet of the batteries on the other side of a bulkhead in the bottom of the electrical closet.... good location....PIA to install. :D
 
Nothing wrong with S/S washers or nuts, as long as they are not between the wires or connection post. They should not be in the circuit, but on top of all the wires is fine.
 
My inverter runs on 48v, so much smaller cables and batteries can easily be further away.
 
If it helps, I was eventually able to figure out that we could install our inverter/charger above the batteries, not in the engine room, and with a short enough cable run to meet the maker's recommendations.

It happens there was a huge empty space (think: parking for a 1957 Chevy) between the hull and an interior saloon bulkhead. Installing the inverter/charger in the saloon, essentially, got it out of the ER and out of the heat. It was also almost directly above its battery bank, so the cable run was something like 5-6' or so.

A consequence was that the AC wiring to the distribution panel on the other side of the boat was much longer and a bit more difficult, but that didn't seem all that important at the time.

It only took me about 4 years of "thinkin' on it" to eventually arrive at that location...

-Chris
 
Don't want to rush into these things. I know what you mean, sometimes we need the time to noodle through ALL the options.
My BIL did the same thing by mounting the inverter in the Pilot house seat which was over top the batteries and out of the engine compartment. Kept the DC cable short, the inverter out of the E.C. and he could check it far more easily than dropping into the E.C.
Lot of years ago now but still applies.
 
My, new to me boat, came with some really long runs of DC cables, but what do I know?

I had a marine surveyor inspect the boat before buying. the survey basically says, "the electrical systems generally comply with ABYC standards".

Some issues were obvious, some were a bit of a puzzle.

For example the bilge pumps weren't working, bad ground got some action going but still not right, ... They were wired in improperly on the 4 battery bank and only getting 6 volts. :facepalm:

After sorting out the systems a bit to make sure 1, that I generally understood the systems and 2, that the cables were following electrically logical and safe paths and 3, had some confidence the whole thing would not burn down; I decided to run a higher load test.

My microwave was to heat some water using the Xantrex Freedom XC 2000 inverter. The batteries were fully topped up, a bank of 4 Trojan T125's.

The microwave was set to use 1000w of cooking power which means after it's overhead is added it needs just shy of 1200 watts of 120, 10 amps from the inverter.

The microwave ran!

There's always a but though, The battery monitor was showing 188 amps being sucked out of the battery bank, the cables could only get 10.5 volts delivered to the inverter.

That 188 amps is just under the 192 amp input limit of the inverter so I stopped the test fast just after reading the numbers.

I'm skilled enough to be able to guess that the wires were too long, but after down loading the owners manual for the inverter I got a good schooling on inverters and just how bad the installation was botched on this boat.

To start the recommended minimum size battery cables for a 5 foot run are 3/0 to the battery and Chassis ground at 2/0.

WTF? :eek: The installed cables, 1/0 at ~20 feet with 10 AWG running to the house bus bar for the chassis ground.

Similarly the starter cable makes about a 50 foot circuit. The bow thruster and windlass have runs way too long also.

If this is anywhere near the norm for a DIY or semi-pro-non-specialist install, it's a wonder more boats don't burn down.

Rant over.

Productive thought follows. To fix this I need to shorten the cables, a lot. That means 1, getting the inverter close to the batteries and 2, moving the batteries around the boat some.

It's a 1977 Ocean Marine 40 foot with a Lehman 120.

So first, I know it's not safe to put an inverter in an engine room with gasoline power but I'm getting the impression that it's ok around diesel power (with a caveat about heat). Is that right?

Second, I'm including a hand drawn 'plan' for your educated comment. This plan only deals with the Start and Aux batteries. It gets the aux battery out of the engine room up under the V-berth floor and uses heavy relays to be able to run the heavy cables direct and use control wires for the run to the helm.

Thanks for your help.

View attachment 110983

I have always had diesels and always had inverters in the engine room. On my old boat I did replace my inverter and put it under the dinette along with a couple more house bank batts.
 
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