Good Sam Community

BFL13 · ‎Oct-19-2020

Update 24 Oct, Update 2- 28 Oct

I have not worried before about alternator charging with House and Engine both being flooded or even when I had AGM House and flooded for the Engine.

That included while driving and also while parked where the Engine batt is connected to the House batts and both being floated. (Same with leaving both on the same solar)

However, I am getting an SiO2 battery for the House in the TC, and am nervous about having it in parallel with the very different type of battery for the engine (flooded).

I could disconnect the parallel connection and maintain the Engine battery separately while keeping the solar and House charger just for the House. That would mean no alternator charging even as an emergency method if the House battery got too low. (no gen with the TC)

What are folks with Li batteries (also very different from flooded) for the House doing in this regard? Thanks.

1. 1991 Oakland 28DB Class C
on Ford E350-460-7.5 Gas EFI
Photo in Profile
2. 1991 Bighorn 9.5ft Truck Camper on 2003 Chev 2500HD 6.0 Gas
See Profile for Electronic set-ups for 1. and 2.

Siletzspey · ‎Dec-28-2020

Someone mentioned this thread, so I'm jumping in mid-stream. Pardon if I missed some context.

Regarding "load dumps"... there may be some well known BOAT concerns creeping into some RV discussions. BOATS are famous for having multiple battery banks behind a big "A":"B":":"A+B" red selector switch, in part so one battery bank can sit disconnected in reserve. If the selection switch is used while the alternator is running, the alternator can be toasted by 100VDC+ voltage spikes when a load dump occurs between the switch breaking and making contacts. With the introduction of LiFePO4 batteries with BMS's that can suddenly disconnect, this general class of topic is starting to come up more and more in the RV world.

Without a more modern charger in the mix, spikes towards your alternator and your RV electronics can occur when a BMS disconnects. I don't know if having a lead acid battery in the mix (next to the alternator) partially or fully clamps the spike. Sterling's alternator protector is just a voltage clamp device.

Here is someone's attempt to better explain the load dump problem (~2/3rds down in the article). It is sales pitchy, but some of the points are good.

https://marinehowto.com/understanding-the-sterling-power-pro-batt-ultra-battery-to-battery-charger/

Wrt other merits of a DC-to-DC charger. I posted the following to a nearby forum.

FLA batteries start to accept a charge and pull amps at 12.6V, but LFP batteries start that process at 13.6V, a whole volt higher. Depending on your alternator's voltage output and the voltage drop in your wiring, LFP could charge SLOWER than FLA, and FLP charging could fail to reach 100% SOC where-as FLA could.

With my 45A Progressive Dynamics Inc charger running in FLA mode, my old ~200Ah of FLA would pull 18A over 10ga wiring. Still running in FLA mode, my 200Ah of BB LFP at 30% SOC only pulls 4A over shorter and bigger 8ga wiring. Putting the charger into boost/LFP mode (boost the voltage) increases the pull to 39A. Point being, same charger, the LiFePO4 charge rate is 1/4th the flooded-acid rate.

Sterling (maker of DC-to-DC alternator chargers) has some nice videos on YouTube where they wire LFP direct to an alternator with ~4ga wire, and the charging rate is pathetic. Then they insert a DC-to-DC charger in the line and the charge rate jumps substantially, because the charger can re-boost the voltage.

All in all, current is pulled based on volts being delivered. For 7-pin systems, the Achilles heel is voltage. Solve the voltage problems first, and then you can start to worry about the current problems next.

--tg

BFL13 · ‎Oct-30-2020

Looks like there is enough info now in replies here for folks to decide what to do or not do with their set-up designs. Good work, guys!

1. 1991 Oakland 28DB Class C
on Ford E350-460-7.5 Gas EFI
Photo in Profile
2. 1991 Bighorn 9.5ft Truck Camper on 2003 Chev 2500HD 6.0 Gas
See Profile for Electronic set-ups for 1. and 2.

MEXICOWANDERER · ‎Oct-30-2020

Mouse Milk BFL

"Sterling" is as British as "Chatham" or "Fartface At Sea"

I have far too much experience with true A.C. Eddy Currents circulating in alternator stator laminations, perhaps 3x10 as powerful as what a string of batteries can produce. Precision indexing of rotor halves, and uniform coating of silicon on stator laminations can reduce heat as much as 22c Delta T.

But at the scale you describe it is almost a mockery of professional electrical engineering. A 7th Grade Science Project.

A pair of DC/DC boosters with precision voltage regulation and a voltage comparator (meaning an interface) would ensure priority balanced charging. This would be useful if a second bank was remote as with a trailer and a main connector line that could deliver full charging potential when called upon to do so. This simply isn't your Gizmo.

I would not use a Gizmo even as a gift. There are a hundred ways it can fail and a majority of them can damage the batteries. Risk the potential cost of Lithium batteries? I don't think so.

time2roll · ‎Oct-30-2020

BFL13 wrote:
The term "eddy currents" is used here for parallel Li strings. ISTR seeing the "eddy current" term for ordinary batts too back when, which is where I got mixed up I guess. Whatever! Scroll down to "Eddy currents"

https://www.orionbms.com/manuals/pdf/parallel_strings.pdf

Also, on selling--note that Class C guy got his Sterling gizmo from Battleborn and his understanding of it came from Battleborn. Sterling apparently sells them in the UK for "caravan" towing for the DC-DC, but I don't know anything about their claims if any about surge protection.

There are about 3000 cells in an EV where this might be a consideration. RV with two batteries? Not so much.

Don't need to investigate utility scale generation and transmission to plug into your Honda 2000. The same issues simply do not exist.

2001 F150 SuperCrew
2006 Keystone Springdale 249FWBHLS
675w Solar pictures back up

BFL13 · ‎Oct-30-2020

Mex, there seems to be at least two different meanings for "eddy current", and yours is the main one. Google "battery eddy current" and see the different topics using the term.

1. 1991 Oakland 28DB Class C
on Ford E350-460-7.5 Gas EFI
Photo in Profile
2. 1991 Bighorn 9.5ft Truck Camper on 2003 Chev 2500HD 6.0 Gas
See Profile for Electronic set-ups for 1. and 2.

MEXICOWANDERER · ‎Oct-30-2020

Eddy current = Faraday's Law of Induction. Why oh Why are we here pray tell?

Induction heating? Conflict in paralleling transformers? Leakage to earth? Open wings or sag in a Faraday cage field? Or perhaps it's a conflict between a pair of transformers. One being subtractive polarity the 2nd being additive polarity.
All purely directed at charging a battery.

BFL13 · ‎Oct-30-2020

The term "eddy currents" is used here for parallel Li strings. ISTR seeing the "eddy current" term for ordinary batts too back when, which is where I got mixed up I guess. Whatever! Scroll down to "Eddy currents"

https://www.orionbms.com/manuals/pdf/parallel_strings.pdf

Also, on selling--note that Class C guy got his Sterling gizmo from Battleborn and his understanding of it came from Battleborn. Sterling apparently sells them in the UK for "caravan" towing for the DC-DC, but I don't know anything about their claims if any about surge protection.

1. 1991 Oakland 28DB Class C
on Ford E350-460-7.5 Gas EFI
Photo in Profile
2. 1991 Bighorn 9.5ft Truck Camper on 2003 Chev 2500HD 6.0 Gas
See Profile for Electronic set-ups for 1. and 2.

time2roll · ‎Oct-30-2020

BFL13 wrote:
Barre says, "Also, if one battery has a higher voltage than the other, a small circulating current develops between the two parallel batteries...."

No there is no circulating current. There is simply a direct one-way transfer of energy until the batteries are of equal voltage. Then the transfer stops. No eddy, no power loop. Your clamp-on DC ammeter will confirm.

2001 F150 SuperCrew
2006 Keystone Springdale 249FWBHLS
675w Solar pictures back up

FWC · ‎Oct-30-2020

Like most good rumors, there is some kernel of truth. There are some limited situations where a DC-DC charger could be warranted, but in most applications they are not needed. They are certainly not needed to prevent 'surges'.

Sterling and Battleborn are in the business of selling things, if they can convince/scare you into buying more stuff from them, better for them.

Battleborn in particular has some shady marketing practices, so I am not at all surprised that they would try to convince you to buy a $350 DC-DC charger (that they conveniently happen to sell) to 'protect' the $1000 battery you just bought from them.

Kind of reminds me of this:
Fargo - TruCoat

BFL13 · ‎Oct-30-2020

"I would like to hear some more about these 'eddy currents' though"

🙂 That was me, I think not understanding my battery book on the problems with parallel batteries. Barre says, "Also, if one battery has a higher voltage than the other, a small circulating current develops between the two parallel batteries...."

I got the idea somewhere that this happened even when they are floating together, but have been told on here that does not happen as such, so not an issue between different House and Engine batts being in parallel.

( I am familiar with the joke where the salesman sells a gizmo that prevents elephant attacks in your home. He says after looking around, "See? It works! No elephants here! )

So are you guys just making fun of me 🙂 or are you saying Sterling and/or Battleborn are selling elephant attack prevention?

1. 1991 Oakland 28DB Class C
on Ford E350-460-7.5 Gas EFI
Photo in Profile
2. 1991 Bighorn 9.5ft Truck Camper on 2003 Chev 2500HD 6.0 Gas
See Profile for Electronic set-ups for 1. and 2.

time2roll · ‎Oct-30-2020

eddy and boogie are the name of a couple imaginary ghosts 😉

2001 F150 SuperCrew
2006 Keystone Springdale 249FWBHLS
675w Solar pictures back up

FWC · ‎Oct-30-2020

Wow, is it in the spirit of Halloween that there is so much discussion of imaginary boogie men?

There are tens (maybe hundreds?) of thousands of folks out there running various forms of lithium house batteries and 99.9% of them are not using any sort of 'alternator protector'. Yet we are not hearing about all the blown up/melted/possessed alternators. Reason being is that there is not an issue here.

Even if 'load dump' were an issue, there is still a large lead acid starting battery in the circuit, which is functionally the same as a massive capacitor and will absorb any supposed voltage spikes from a poorly designed alternator.

The same applies to regenerative braking - even if there were a short duration increase in voltage, there are far more sensitive electronics in a modern car than the batteries, lithium or otherwise. Even Sterling's own literature disproves this as an issue:

The voltage from this smart alternator/regen system is well regulated to below 14.6V, and is only briefly above 14, well within battery charging specs.

I would like to hear some more about these 'eddy currents' though?

BFL13 · ‎Oct-30-2020

"Well, I can’t speak to any other brand of battery to battery charger than the Redarc I’m using, but I know for a fact that mine doesn’t back feed DC from the camper battery to the truck. So, as far as I can tell it shouldn’t matter what goes on on either the input or output side of the Redarc."

I thought it said the problem was when the alternator is supplying high amps to the House batt and suddenly the House batt is cut off by the BMS (or a cable breaks?) which is a severe "load dump" that will damage the alternator.

The "high amps" perhaps from the high acceptance rate with Li.

My "alternator charging" (no regen braking with my older vehicles) is fairly low in amps (36ish amps highest seen in the C at first after starting--older style alternator-Ford got a bigger one for the 1992's on), and that current to the House stops when I turn off the engine in the Ford. Doesn't hurt the Ford's alternator. No idea if that is the same thing.

If House is cut off while driving, the alternator still is running the vehicle and the engine battery so it still has some load on it.

1. 1991 Oakland 28DB Class C
on Ford E350-460-7.5 Gas EFI
Photo in Profile
2. 1991 Bighorn 9.5ft Truck Camper on 2003 Chev 2500HD 6.0 Gas
See Profile for Electronic set-ups for 1. and 2.

NRALIFR · ‎Oct-30-2020

BFL13 wrote:
Been a while, so reminder what that guy said:

"They sent a 60amp Lithium battery charger for generator/shore power and a Sterling power battery to battery DC charger for chassis battery/alternator charging while driving. It’s also a surge protector for overload surge back feed to alternator. Both designed for use with their battery. Put my trust in their knowledge and expertise and hoping for the best. So far so good ??"

It seems to be not just for ensuring the Li gets a good charge, but for if the regen high voltage spike triggers the BMS into shutting down the Li, making for a load dump on the alternator. Question is whether this would happen in a Class C with the House in parallel with the Engine Battery, or only with the House directly on the alternator, or not at all.

The DC-DC would be for all types of House battery including Li to get a good charge regardless of the alternator's voltage 12.x-15.x during regen or if the alternator voltage is always too high for the House battery.

(Si can stay undercharged too, but has no BMS. I chose to not have it in parallel with the Engine for other reasons, not to do with this regen voltage variation or whatever, so I do not have a stake in this aspect- If I had a new vehicle with regen and Li, I would be more than curious. )

Well, I can’t speak to any other brand of battery to battery charger than the Redarc I’m using, but I know for a fact that mine doesn’t back feed DC from the camper battery to the truck. So, as far as I can tell it shouldn’t matter what goes on on either the input or output side of the Redarc.

:):)

2001 Lance 1121 on a 2016 F450 ‘Scuse me while I whinge.
And for all you Scooby-Doo and Yosemite Sam types………..Let’s Go Brandon!!!

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House and Engine Battery -Update 2-Surge? REGEN threat!