DC to DC charger NOT required for big Lithium Battery

Appreciate your research into the details of Victron video with the (underpowered) 70A Citroen alternator.

Hi Ron: I like your videos, and I partly agree with the conclusions of this particular video. I installed two 100AH Battleborn Li batteries in my Thor Delano (very similar to your RV). I noticed a draw from the alternator of 150A+, which got my attention. Like you, I saw that the Mercedes alternator is 220A rated. I did install the Victron 30A DC-DC, so when driving, I get up to 30A from the alternator and up to 30A additional from my solar panels. I have not regret this expense and time spent installing that DC-DC charger.

I made the same decisions 3 years ago, when I swapped out the failing factory installed GR24 FLA batteries, and replaced them with 200Ah of Relion lithiums. NO DC to DC chargers, or any other extra hardware, except I added the Charge Wizard Pendant to my PD9245 converter/charger so I can "kick it up a notch" when the sun isn't shining, and I'm plugged in to shore power. I use the same 3 charging sources that you use. I've got a 2018 Navion 24V, and I have had zero problems with my setup, from day one. Always plenty of overnight off grid power from the Relion RB100-LT batteries, and I've got both the propane solenoid vampire draw, as well as the Norcold DC only fridge, nibbling at my DC power reserves. Thanks for including the "Victron smoking alternator sales pitch" video. I laughed when I first saw it, for the same reasons. They definitely "have a dog in that fight". Safe travels, and keep the videos coming. They're great.

I've the same battery size and was hooked to the alternator for the first year. All was well UNTIL I did a longer drive (about 3hrs) after the 3rd replacement I now have a DC-DC Charger. And yes my alternator was a 140amp. Your system will work BUT YOU NEED A TEMPERATURE sensor on the alternator to cut it off from the house bank before it smokes. Because it will, lithium has such a low resistance to current flow it will draw every amp the alternator can produce and while they say they are 140 or 200 they are only rated at that for maybe 1/2-1 hr not continuous for hrs on hrs . It will overheat ar some point and a temp sensor on the relay wire is cheap ($15) insurance to protect a $200-1000 alternator. Edit.. also newer 2000 plus alternators DONOT charge at a High enough voltage to fully charge your lithium house bank. The benefits of a dc-dc charger, while slower it does actually increase the alternator voltage up to 14.6 volts from a usual 13.2V which with lithium is only about 70% if capacity. ;)

Thanks again Ron. I am a retired electronics engineer coming from a 35 year career in the diagnostic imaging industry. Magnetic resonance imaging, Computerized tomography, Radiographic X-Ray and ultrasound technologies were all part of what I did daily. These days, these manufacturers are making it more and more difficult to sift through their rhetoric and come up with sound numbers to make an informed decision. I think you've done a fantastic job of researching this topic and trust your science. Everyone should do their own research and draw their own conclusions, of course, but I trust the science, ohm's law and the protective circuitry in the alternator and lithium batteries to protect the circuits. Just be aware that as soon as you post a video showing how to replace the alternator, all the nay-sayers are going to say "See! I told you so!" touting the charging circuit for lithium batteries as the reason your alternator with 100K miles on it failed! 😂 Once again, Good job Ron! I really appreciate the time and effort that goes into the research and making of these videos.

I have been a Certified RV Technician for about 30 years. So JM2C.... Can you get by without using a DC/DC charger for your lithium batteries? Yes you can but is it the smart thing to do? In my opinion I would say no. I heard the arguments about what amperage modern alternators are capable of and then some. Your alternator was designed to provide charge to your chassis battery and keep up with the accessories on the "CHASSIS" side of the rv and "CAN" handle charging wet/agm batteries. Just because your alternator outputs ??? Amps don't mean you should add that unnecessary load to the chassis charging system. They have been doing that for years but now we have better batteries and more installed items in these units that require a larger demand (Inverters, House refrigerators etc.) Why not use a device such as a DC/DC Converter to help carry the load to help keep your batteries charged. Your alternator will thank you for it in the years to come. Lithium is a different story and requires A Constant 14.6v to charge efficiently. I seen one guy respond "How is your alternator holding up" LOL Just because you don't see smoke coming out of it on the few trips you've made don't mean you are good to go. You paid good money for lithium so follow through on the complete system. I understand there are devices that are marketed to drain your wallet/purse but I would not cut corners to save a buck. I have seen another guy respond about a DC/DC charger being a marketing gimmick and it is B.S. Are these guys happy they don't have to fork out a couple hundred bucks for a piece of mind? Maybe. Its your coach/trailer and your money. This post is not to bash the author of this vid but to shed light from a technician's point of view. Either way you go. Enjoy!

Greetings Ron from an Englishman 🇬🇧 in Arabia! I am about to buy a similar Winnebago to you and I really appreciate all of your videos! THANK YOU! ☺

My first old rig was Citrone van based had a puny 55a alternator and would have died with that load - In Europe RV tend to be much smaller and are van based - my current 3ton Peugeot boxer rig has a 120a alternator and is apparently the heavy duty option - I prefer the DC to DC charger because then I know my expensive 300ah lithium batteries are being managed with the correct 3 stage profile for lithium - Incidentally the Victron Alternator post was narrated by a guy who's focus was on UK canal narrowboats.

Hi. I would like to share my story, for now I have one Agm 85ah engine battery on board and on the residential side a 100ah Lithium iron phosphate battery. I charge it using solar and a Victron 20A charger and for the past 2 weeks I have connected the alternator using a relay that disconnects below 12.8V and two 20A automatic fuses. So far it works but as soon as I manage to save up money I will rather want to buy a victron dc/dc 50A charger. The advantage of this solution is that I can charge my engine battery after shorting the 12.8V relay, the disadvantage is that I am not able to fully charge the home battery with the alternator. You made this film very well.

Good job Ron, well founded decisions based on good logic, research, tests & checks. I like how you saw through some of the marketing BS that gets thrown at us by the manufacturers & used that to draw ur own conclusions with further analysis. I believe u can actually get Positive pole shunts, but you probly could put a second shunt between battery negative & the chassis if you just wanted an in house/dash solution to be able to check the Current data on the fly from alternator to house battery for reassurance all is well. There are generally always solutions, I guess effort, cash & compromise are the main considerations & inhibitors of any install. Good vid, TFS. Cheers

Thanks Ron.
You have covered this important topic with good examples to make an informed decision. The replacement of the factory lead acid with Lithium batteries have improved my Navion camping experience

Thank you for producing this video. It explains everything I needed to know.

That's a good video. I did put in a DC charger in the van, mostly because its also a solar charge controller as well. With the switch to the solar shut off it fools the charger so I get about 48 amps off the alternator, which is plenty.

Great video Ron. I've been running two Lion Energy UT1300 batteries in my View 19D for 28 months now. I did plenty of research and opted to NOT install a DC-DC charger or a BIM. Never an issue and I still stand behind MY decision.

I just upgraded my Pleasure Way XLTD (2016 MB Sprinter chassis) from 200ah LiFePO4 to 600ah with everyone telling me to get a DCDC charger. Which no wonder, the Victron video has them all scared witless! Which never made much sense to me, but I never was sure until watching this video. So instead of spending $500 plus installing the charger I got a clamp meter and IR temp gun and recreated your testing. In my case 80 amps initial charging dropped after 30 min to half that, and with everything warmed up the alternator was running cooler than everything else, just like in your test! If the batteries are discharged then I'm sure it will go a lot higher than 80A, but between the Mercedes smart alternator, 220A rating, and the BMS I am no longer worried- and saved a LOT of money, time, and effort! Thanks!

Great information! Very observant and I found this video after watching the victim one and had the same thoughts !
People that think for themselves and ask questions are a rare breed 😄
Great video 👍

Thanks Ron. I had the same question when I installed 200ah lithium in my 2020 Navion. I purchased a Victron 30amp DC to DC charger. When I went to install it to my surprise, Winnebago had already installed a Mastervolt 40amp gizmo. So with the MV and battery BMS there was no need for the DC to DC charger. Saved $170.00.

Another great video Ron.
You have convinced me of one thing for certain. Even though I was a NAVY Electronics instructor (I retired from that over 30 years ago), I am NOT even close to qualified to upgrade my solar (currently I have one 190W panel and 2 12vDC Wet Cell) batteries in my 2022 Jayco Melbourne.
Now the question is…when can I bring my coach and checkbook/credit card to you and you can teach me while WE install a comparable system into my unit?
Don’t laugh…I’m dead serious! I don’t know enough to know who to trust to do an installation like you have…but I know I want it.

This video is genius. Addressed DPF, DCDC charger, and the myths. Thanks!

Thanks Ron for this video and doing the research. Like the others, I appreciate your videos and look forward to them. Hope to see you at Quartzsite in January. Maybe by then I'll have switched over to lithium too. At least that is the plan so far. :)

Great video - you do a great job with all your edits! I just recently went through the same upgrade with the EG4 on my coach. I did find the Wakespeed WS500 alternator regulator to control my alternator and also a Sterling alternator protection device to protect the alternator should the EG4 BMS shut itself off. Appears the Mercedes alternator is pretty smart - doing what the WS500 does for my dinosaur alternator - good find! I was going to mention I run my EG4’s up to 27.5 (13.75) and then float at 26.7. Watching Andy’s off grid garage - and watching the charging myself - appears the lifepo4 charges to about 98-100 at that voltage. The thought not pushing all the way up to 28.8 (14.4) is really not necessary and may extend its life. Just thought I’d mention that and say thanks for the great videos. (I also have a small channel Camp Prevost if you wanted to see my mess! Lol). Aaron.

So changing your alternator is less work than putting adc charger inline ?

just finished up up grading my truck camper to 304 ah lithium iron phosphate batteries specily. similar to your set up, 650 watts of solar run through victron solar mppt controller, victron shore power ip22, and a victron dc-dc charger. reason for the victron controllers as they connect through their own bluetooth network to coordinate the charging from all three controllers. The reason i used the victron controllers is that the charging algorithm can be customized for the lithium batteries specify between 80 to 20% to maximize the battery life, since they are not cheap.
One issue i have with your set up is you are relying on the battery BMS to control volts amps etc but a BMS is a last resort to protect your battery if a controller fails, it isn’t the control. In my opinion the money spent on a programable dc-dc charger is not only worth it but essential for the longevity of your system batteries and possibly your alternator if you ever run it above idle when charging your lithium battery, just my thoughts.

Hi Ron great information I have a question I have set up where I will get variable rpm from my alternater that can be 100 to 2000 can I charge lead acid battery is and from lead acid battery to lethium batteries or can I charge directly lethium batteries please help me I m serious concern for this

Thanks for sharing this video. I have a semi truck and I have researched for weeks now trying to figure out if I need a DC to DC charger or isolator. I’m having 4 additional lead acid batteries installed in my semi truck to power my AC when I’m parked. Everywhere I research says that I need a DC to DC charger or isolator but the only explanation for this is when I’m using LIPO4 in combination with AGM/STD batteries. I don’t want to fry my alternator. But I keep reading that if I add more batteries of the same type, I could fry my alternator. Wouldn’t the alternator charge the additional batteries the same as the original 4 already installed just that it will take longer to charge? My semi truck has Idle Smart installed to keep my batteries charged while I’m parked. This monitors my batteries, coolant, and engine to keep my truck at optimal operating efficiency. I set the parameters for when and how long my semi truck idles. When my batteries go too low, my truck starts to charge the batteries. Once the batteries are charged, the truck shuts off. I really don’t understand why I need a DC to DC charger or isolator when I’m not using another battery type.

The guide for Lithium and Alternators:
Smart Alternators (and vehicle ECU controlling it) can be use direct in many cases as they will limit themselves when there is insufficient airflow or RPM.
Older self-regulating alternators rarely have thermal protection and will produce max output for the given RPM and usually buildup heat till magic smoke leaks out because they can't spin fast enough to pull cooling airflow.
Most batteries DON'T allow you to set the current flow settings on their BMS so many will rely on DC-DC current limitings of an external charger.

One marketing scheme busted! Great job! Thank you for sharing.

Depends mainly on the chemistry of the battery. LifePo4 no problem to use the alternator I have been doing that for 5 years on my RV.

I have been wondering if a PWM alternator would control output amperage all on it's own. That is what you have

A FLA alternator does easily 15V, even higher. Done car stereo competition for over 20years and been european champion, so i know a bit of

BMS cannot and will not limit charging. BMS is basically a fancy self resetting fuse not a charger at all. Victron does run a BMS they just run an external BMS not internal. There BMS if setup in the Victron eco system can control all parts of the system from turning loads of if battery is getting low can turn chargers on and change there output to suit the needs of the battery and system.
Alternator no matter if it's size have a regulator this will prevent it from over heating and burning out, as well as limit its max output so no battery could ever over heat a alternator that's younger then 40 off years. I would say rpm was too low or some how increase discharge by using a dcdc charger of some sort to keep the alternator charging when it decreases it's voltage to decrease it's output.
Alternator charging will work it's not the alternator that's the issue it's the battery. Using alternator will shorten the life of your batteries as it will hold the batteries at charging voltage. So if you don't ever fully charged the battery with alternator this should not be much of an issue. Next issue is charging speed and is why people use dcdc charger. As the lithium battery voltage increases the voltage difference decreases so this will decrease charging speed so under 80% it should charge fast over 80% it will start slowing down fast. Where a dcdc charger will charge lithium at max amp rating though the full charging cycle.

the issue with chargin lithium is the often poor onboard battery controller which kick back into alternator if the controller
i would always advise find tear downs on the batteries to make sure they have proper internals

Thank you very much! Should have seen your video earlier. Did pay for the victron thing. One thing i didnt get (I am a german), the voltage should be up to 14V, newer cars do that only if DPF regeneration kicks in. Did you put the diode to get a higher voltage constantly?

Hi, thanks for the video. I'm about to change my AGM batteries with lithium in my Sprinter van. This video is about a year old and I'm asking, after a year, still no dc to dc and no problem with the alternator?
Thanks.

Great information Ron. I have a slightly different situation having a boat with 2 diesels, 2 x 140 amp alternators and a 130 amp battery/alternator isolator. Along with this, I have a port battery bank with 3 group 24 Marine starting batteries in series and the starboard side has 4x138 amp Lithium batteries. I have a 60 amp solar charge controller that is typically charging at 30-40 amps to the starboard bank (House) only. There are a couple of things that I have tried. One is to run the watermaker while under way. This uses about 150 amps of 12 volt power while running. This has not been a problem so far. I also have run one of the 16,000 btu air conditioners that takes about 200 amps and have not had a problem either. Unfortunately, I have only had the boat for a short time and do not have amp meters or even proper volt meters installed yet and can only spot check things occasionally. One problem that I do see is that the port side alternator does not contribute as much power as the Starboard alternator. This being due to the isolated voltage sense wires going to each alternator. The port side is the side with a static bank of batteries that really only run the instruments for the engine and stays at 14 volts. The starboard side runs everything else and has the solar and lithium batteries. There is quite a difference when going through the battery isolator. I am also unsure if the isolators rating of 130 amps, but I don't know if that is total or per alternator or battery bank. So far I have taxed them pretty hard and everything is still working fine. I do have the luxury of having 2 alternators, battery isolator switches, solar charging, a 12 kw generator with 50 amp battery chargers and missive amounts of power. Any single failure is only an inconvenience while out cruising. If anybody has any advice for my particular situations, I would love to hear it.

I would be worried on my installation as mine is in a boat and the engines have 60Amp alternator and the BMS on the batteries allows 100amp - I need a DC to DC.

Hi Ron, thanks for doing this test (have not read the 472 comments, sorry).
When you took out the golf cart batteries, which battery was used to start the engine, the lithium?
Or was there another lead acid doing that somewhere.
Just trying to find a longer life solution for car batteries in Phoenix, where heat kills the lead acids after about 3 years ± 1 year
I have 3 motorbikes running on LiFePO4 batteries and they have nothing except the stock charging circuit. One bike has an alternator, the others are just generators with load shedding regulators. Seem to work, have not been stranded yet.

Thanks for the video. I have an 2006 Winnebago view. Not sure what you have. But the wiring looks identical I even have the EG4 server rack. I had a lot of people telling me I can’t. I think you did a great job covering all the points they made of why it will fail.

Hi Ron,
As many I guess, the video worried me a bit thinking I'll blow my 2 x 115A 18 year old alternators mounted on 2 Volvo Penta D4 engines. But then I kept on looking because I didn't like the more complex DC/DC chargers known to be heat producers with quite small amp output. And I found your interresting comments about this video such as the fact the test was made with a Citroen alternator and maybe oriented to its commercial intentions... So I ended up thinking, what the heck, if my alternators blow, it'll just be time to change them anyway. I did the test with the following setup: 2 alternators feeding 2 Victron Argofet battery isolators with 3 outputs feeding my 3 battery banks: 1 bowthruster/winch Optima 5.5 battery - 2 port engine 5.5 Optima battery - 3 starboard engine & house battery (this one is a mix of 75Ah Optima 5.5 + 400 Ah LiFePO4). I've monitored carefully the current draw (meter + Victron App) and I've never seen more than a 120 Ah draw, even with the lithium fully discharged. I also checked the heat on the alternators and everything was normal. Actually, most of the time the charging curent is around 80Ah which should be ok for 2 x 115A alternators. This is my first year with this setup and so far it works like a charm. No anomaly seen and the Daly BMS as well as the Victron App have never reported any error. I will follow up this comment if a noticeable problem arises of course.
Geraud in the Med area of France

Great video Ron. I bought a 20-amp DC-DC converter for my Lance travel trailer, but have not installed it yet. Ford's 10-ga wire is notorious for giving a dismal charge through the 7-pin trailer plug at the rear of the truck. Lance usually installs a special plug for their truck campers with an upgraded 8-ga wire, but that only gives a bit extra in my past testing. With our travel trailer, I was only charging at about 2-amps during normal highway speeds on level ground and it would climb to 20-amps on steep grade climbs with the truck downshifted so the tachometer is registering 4,000 RPMs which gives the 220-amp alternator some extra spinning power. The truck wants to be at 13.7 volts and it cannot tell that my LIFEPO4 batteries are at 50%, etc. I temporarily attached a 6-ga wire with an Anderson connecter and I get 20-amps continuously on level grade from my DC-DC controller. I have not installed it permanently yet because I do not like having the extra heavy wires between the truck and travel trailer, not as convenient as a motorhome or even a 5W trailer. Perhaps this is my cue to finally upgrade to a motorhome if I can find one that isn't overpriced 50% more than it is worth these days. Thanks again Ron, keep up the inspiration sir!

Nicely done. If you shut that switch off while the alternator is pushing a lot of amps out (to the lithium bank) will it harm the alternator? The external regulators seem to be designed to prevent this. As someone who burned up an alternator when I flipped a battery switch on my boat I'm sensitive to that situation.

I used a DCDC Renogy and with one lithium battery it kept popping the breaker in the engine compartment of my dodge Cummings. When i wired it straight to charging system and no more popped breaker and watching my amp meter on truck and it was charging normally. Only issue is the insolation solenoid is energized on startup so i have to go trip the breaker in engine compartment for startup. The dcdc charger is needed for lead acid batteries but not lithium

Nice video Ron, Thanks!
I have a question for you or your followers: I have a small converted utility trailer, like a tear drop camper but more like a shoebox camper. I want to switch over to Lithium batteries and as your video suggests I may not need a B2B charger, but...
I have an unused Renogy Wanderer PWM charge controller. What would happen if I add this charge controller, as a second controller, to my system and run my truck's alternator power through the separate controller, the Wanderer, with no solar panels? Wouldn't the Wanderer charge controller act as a B2B charger?

Question...Can i connect my 10amp pmw solar charger to my car battery so i can charge my sla secondary battery while driving like a Isolator.?

theres a point.. trying to run your alternator cool when the engine heats it up.. so im thinking if the alternators temperature is above the engine temperature should you consider a dc converter.. and also consider the rating of the batteries charge intake.. if you have a later model 14.4v alternator. ..does passing a large current ,and its causing heat in the electric components going to shorten the life of them any different to a smaller current running through the same components that have been heated externally.. a test id like to see

I saw an installation of a device that measured the temperature of the alternator and cut it out when it got too high. Happens most at long idling. The device also cut out when the LFP was full. It could be an issue if you are standing still in high outside temperatures like a 100F.

I wonder if it’s the same with ford e450 shuttle bus alternator?

I’m lost now so I don’t need a dc to dc if I changed my wet Leed to lion battery 🔋
???

have had my sprinter 3 years and just last week I learned that through my Victron app, I can reverse the flow on my DC to DC charger. In other words, I when the Mercedes Me app sends me a message that my battery needs charging, I don't have to drive the van for 30 minutes or more. I can use my house batteries to trickle charge my chassis batteries and do that preemptively to avoid the whole problem.

Thanks for the video, just sharing my observations with a smaller lithium setup. Recently picked up 2019V with 2 dead coach batteries. Decided to drop in 150ah for ~$500 prime day specials with 2 Litime batteries (100 heated and 50 non heated- couldn’t fit 2-100 heated length wise, and the 200 heated they sell wouldn’t fit in due to width). I wanted heated option for some colder needs on occasion. Anyway using victron shunt for monitoring with same 220amp alternator, with low state of charge ~25%, I notice about 70-80 amps draw for a few minutes, then more modest 50-60 amps 20-30 minutes into

I just did the exact set up on my 2000 class a RV. No DC to DC charger. Amps are being limited by my BMS apparently also. It usually is charging at a maximum of 30 amps per battery. I have 2 100 ah batteries with Bluetooth. And these are cheapo $170 batteries. One month now and no issues. Low temp high temp low voltage high voltage protection also. Why is anyone spending money on Battleborn. Anyway is your alternator still holding up without a DC to DC charger?

7:47
Ron, I’ve got a 2023 Winnebago Navion and want to drop in two renogy 100 ah. Do I really need to change the charger controller or anything else?

Ron, once again, you are the greatest!
I really appreciated the close look at the Victron video, which many take as gospel. And Mercedes’s BEG have certainly caused some confusion among owners who are doing their own work.
But I’m wondering why you were only able to pull 65 amps in your test. Most lithium batteries will draw at least 1C (e.g. at a low state of charge a 100Ah battery will charge at 100 amps, that number declining as the battery gets charged) and I’m thinking that I’d like to see what happens when lithium batteries are capable of pulling several hundred amps.

Can you wire a second alternator straight through a dc-dc charger to your leisure’s? Not starter battery in the mix

If you have smart alternator you would need some dc to dc for constant charging? My smart alternator voltage go up and down and summer time stays around 13.3v

We never boondock, so am I correct in thinking that our converter will keep the lithium batteries near 100% while we are on 30 amp shore power? I use 2 trucks pulling the Trailer so I do not want to use a DC-DC charger unless required.

Computer controlled alternators nowdays have the capacity to limit current and in fact do. They have incorporated hall effect sensors on the battery cables so it's just a matter modifying the control algorithm.

Re the Victron video. It was an off shoot of videos made for narrowboaters in the UK. We do tend to use two pretty low powered alternators (70amp) on big diesel tractor/forklift engines. We run them about 1000rpm when charging, and we use no airflow as the engine is buried beneath the floor. Most of us are still using AGM, just because it is so hard to get lithium to charge off our alternators. But slowly we are switching over to DC-DC lithium. Even so it is still a pain as we have two alternators and it took me a while to figure out the solution of fitting a second lead acid battery just to limit the 2nd alternator.

Hi. I'd like to ask if the feasibility of your approach is based on your alternator's "smartness" (inbuilt ability to limit current)? According to all I have read (a lot!) my 280Ah LiFePO4 battery could draw a hell of a lot of current from my "dumb" alternator (160A rating).
Over current protection on the BMS is set at 230A. So would setting this to say, 40 amps (or whatever I choose) give the same control your setup applies?
Additionally the 40A DC-DC unit I installed last year (working well so far) supposedly provides the "right (selectable) profile" for charging the lithium battery, optimising charging voltage. Is you LiFePO4 battery happy to take whatever voltage the alternator puts out?
Thanks for sharing your findings. I am keen to learn more.

Just watched this. I knew already about this just drop the voltage to get it to lithium range. But. What happens to alternator when bms shuts down either too cold or full ? The force is being put back into alternator when battery stops taking charge ?

Hey Ron, I've read every single comment, and now that prices have come down for large DC-DC chargers that output similarly to your direct charge setup, I'm wondering if you would install one today? What factors would you consider? I'm looking to build out a Promaster with 180-220A alternator and 800W solar connected to a ~600AH 12V system (air conditioning!!!) Please correct anything I got wrong, or let me know if there is more to consider. Thanks!
- Costs.
60A DC-DC charger costs

I want to buy a 100 ah lithium iron phosphate batter to put in my trunk of my crown vic to run a 500 watt sine wave invertor to charge my laptop, i recently upgraded my alternator to unknown rock auto brand 190 amp this setup has destroyed a 30 ah agm battery from mighty max. Idle charging is cold is 14.1 to 14.4 and idle hot i mean couple hours of running later 13.5v and these numbers are consistent with or without the agm battery connected. Question is for you and i will not hold you responsible for anything going wrong lol but will it be safe running in the trunk off 18 foot 4 gauge power wire and a 1 foot ground, the 18 foot power wire going to the lead acid starting battery in the engine bay? Is there anything i should change like go direct to the alternator or put a amp limiter aka dc to dc charger in line? Thanks for your video and your time!

This is an interesting topic. I have a dc/dc 20amp on a 100 amp B (for a fridge) i want to add a second 100amp battery and an inverter for an espresso machine. But the dc/dc charger isn’t enough. I have a 140amp alternator i wonder about the 3 stage charging profile and the fire risk associated with a direct connect charger. Anyone have any ideas?

My vehicle alternator has never put out 14.6 Volts.
.

So it’s been 2 years. Curious if it still is working with no issues?

Also were the tests and figures you refer to under bonnet temps or done in the air con lab ??

Interesting video, thanks for sharing. I don't think the issue has anything to do with amperage; I think the issue is voltage. 12v lithium batteries often call for about a 14.5v, and most alternators cannot guarantee to offer quite that high of a voltage. I personally wouldn't mind paying a couple hundred bucks for the DC-DC charger to get the full lifespan of the battery due to proper charging. Maybe I'm missing something.

i have the vic dc2dc charger (40A). when alternator engages, victron ramps amps up slowly to the lithium batteries. when alternator stops [like turn off engine], victron ramps amps down slowly to zero. it must do that for a reason. does your setup do that? i wud love to ditch that vic to get full rated amps into my 12v system. but worried that the vic is doing something important - even tho i don't really know what it is.
do you have any updates with your experience after 1 year?

Check battery warranty details.
You WILL void warranty on the lithium battery if you do not charge with lithium profile charger.

Why not get a high amperage alternator?

How do u charge a 48v battery with 14volts ? Is there a 12v hook up on the battery ?

Thanks for the Video! I have a 2022 Integra 24R with the Sprinter Chassis and installed 2x 100ah LIFEP04 Batteries last month before a 10k trip and just returned without any issue's. I just started researching DC to DC chargers and Isolator's because my house batteries never go above 13.6v while driving which is fine but I also have 200w of solar trying to push 14.6v to the house batteries while I'm driving. I guess I need to do a switch like you did......I'm still researching but would like something automatic.

Interesting. I will have two 460Ah LFP banks in parallel, so each can suck up a lot of current. My alternator will be an aftermarket 200A, not sure it has temperature limiter, perhaps not. I will try without the DC-DC first, then decide from there. The 40A Renogy DC-DC is not too expensive. It could be a good protection for the alternator because I want to minimize any engine repair once I hit 70.

I found the same on my Tiffen Phaeton. The reason that it works is because there is 90' of wire round trip from the alternator to the battery and back. I have 920Ah installed and per my BMK monitor, I never get more than 70Ah at the batteries even when they are very low at 13.0v. The Start batteries are always at 14.4v which means that the alternator's internal regulator is reducing current output so that it is not running wide open. The coach has the stock 170A internal regulated alternator.

The issue is lithium need the consistent voltage and amperage when charging and does not do good with a high float voltage thats constantly being pumped into it while your driving do to its low resistance literally it likes the exact opposite of what lead acid batteries like and so although you might not overheat and damage your alternator you will wear out your lithium Bank by charging it wrong

Very simple answer: if the alternator has a build in temp control, which the 150-240AH in the Mercedes have you can hook the alternator directly to the alternator. BUT the lead regulator while throw up to 15V at the end of the charge and overcharge the lithium. The BMS will protect the battery but only when that 15V voltage is there for some time and will damage over time. You need to install a relay that cuts of the alternator when voltage is at 14.2-14.6V depending on the specs of your lithium.

Ron...where did you gind that soec adjustment note?

I use a 24 24 victron DC to DC charger but it's because I have a 21 kw lifepo4 battery and a 14 kw Nissan leaf battery. My lifepo4 is the main battery but if it ever drops low enough then the leaf battery connects and dumps it's energy into the lifepo4. I have a huge amount of battery but we need the large capacity because we cool and heat with a 9000 BTU mini split

HEY RON, I HAVE A SIMILAR RIG ,IT'S AN ENTEGRA QWEST . I JUST INSTALLED A LITIME 230AH BATTERY , MY ALTENATOR IS 220 AMP . SINCE THIS VIDEO IS A FEWY EARS OLD I WONDER HOW YOU MADE OUT WITH NO DC TO DC CHARGER ?

@ontheroadwithron…
Hey Ron….you got any updated on this?

Thanks for doing the testing. I always wondered why Sprinters had such a high output alternator when the chassis doesn't require much. Some of the older/new diesel pushers only had 160 amp alternators. I know that my xplorer class b only has a 70amp alternator. On the 2020+ Winnebago Views/Navions with lithium option from the factory, Winnebago put in a 40amp charge mate pro paired with a xantrex charging limiter. It only allows 28 amps from the alternator to the battery unfortunately.

Hi let me ask you if you have issue about your alternator when Lifepo4 battery bms triggers HvCutoff when it is fully charged with the alternator?

how is this set up working for you a year later?

Perhaps I missed something, but lithium is suppose to change around 14.4 or so. Does your alternator put out that kind of voltage?

How many amp at 2000rpms? How hot does it get then?

I don't know I would put a diode so you don't get any backflow from the lithium battery. I've been running my Ford Transit for 2 years like this

This may be true for just charging your battery. But if you have an idling motor, inverter on (2KW) and use a heavy load - I can attest that you can (almost) smoke your alternator. I could smell it getting hot and shut everything down pronto. I will be installing my Renogy DC-DC soon.

Great video. Greetings from Spain

220 amp alternator charging a 100ah lithium at 1c no sweat. 200 ah battery and the alternator will start limiting. BMS usually limit to 1c charging.

The current limiting is actually more the cable resistance, 12.3 vs 14v gives you a voltage drop off 1.7v and when the current is 70A your resistance is 0.024 ohm. In case you have thiger wires or shorter run to the battery, the resistance goes down and the amps goes up.
The alternator don't like to run that hot, and you might damage it in the long run. The diodes inside might take damage. I personally killed one alternator diode bridge. How to overcome this is to just rew up the engine, so basically I would tell you to start charging just when you start driving to keep more airflow over the alternator, there is also a fan inside the alternator for cooling, this means the faster you spinn that thing, the more cooling it gets.
Other thing is, can we trust that 70A is the max your getting from the alternator? Did you rew engine up or did you just measure while idling? The alternator might need some more rews to give out more, so you might still drow more correct from it.

Just curious, would this depend more on the allowed current from the continuous duty solenoid and/or how many batteries you have charging? I’d imagine that solenoid is well over 150d. But if you add another lithium to the bank you’d then have the potential of charging at 300ah’s. I know in the Trevato’s the solenoids have to be replaced over time because of heat.

The concern isn't with these type of RV batteries but with the car audio style batteries made from cells taken from hybrid vehicles these custom battery packs have an extremely low resistance much lower than you would find in these RV batteries

You could also fit Mercedes own liquid cooled alternator their fairly cheap second hand.

Victron tested a 70amp alternator with no airflow to illustrate the POTENTIAL dangers to marine customers. Lifepo4 is really becoming a trend in the UK on Narrowboat, where traditionally the alternators fitted are in the 70amp range.

Could I ask how big is your coach battery bank in AH ? I am having a 400AH bank, I wonder what the current draw would be.

Set up maximum charging amps on the BMS of the batteries.

They say you can't run a DC to DC converter to a Lto 16 volt yinlong battery bank. I agree with you run your alternator right to the house batteries. You want the lease ohms so huge wire works well. 2/0 to 4/0 welding wire to the house batteries. I wonder if the big three is done to them RVs that's all big wire from the alternator to the front battery and your grounds. Well in my case im a ham operator and my 2004 highlander I need a lot of watts to my amplifier 200 plus amps continuous. My 12 cell yinlong is set at 15.6 volts on the DC converter. I can run over 3000 watts for over an hour with a lithium and oxygen battery all by itself. So I'm not going to run 15.6 or 16 volts through my Toyota Highlander. I found a place in Vermont that builds the biggest DC converters sentec America the 279 ce 15.6 at 80 amps and will go past 16 volts. My battery is only 5 inches wide by 17 inches long. The Lto oxide cells you got to build yourself. So at 73 amps I can run 2000 plus watts forever. The huge cap banks they sell the Maxwell is a joke they make batteries with them too. You can build a generator with enough yinlong cells. The super cap bank is good to put up front close to the alternator so if you get a huge amp spike you won't fry the alternator. So as far as using it in line with a battery is a joke. They can hold a huge current and spit it out in 5 seconds. But they say it will save an alternator. Well happy new year and a nice video. Vectron is a joke to a battery charger. I always say if it's not heavy and big for high amps the charger is a joke.

Thank you for your time and effort - subbed.

A resistor would make abrupt charging smoother. A projector lamp in series.

Great video Ron. Been thinking about going from my 6V golf cart batteries to lithium at some point on my 16 G. One question, what was the reason for adding the swtich to allow you to control when the alternator will charge the batteries ? Wny not constant charging as is the case now with my 6V batteries ?