Powering Jeep's House Bank
pebbledropper
Registered Users Posts: 17 ✭✭
Please advise how best to use what's under my hood to help charge my house batteries.
My overland JKUR has 2 Lifeline CT-6's in series rated new at 300 12V AmpHrs, or 150 usable Ah at 50% DOD. On the roof rack are 2-160W panels with 18.5 Vmpp, 8.7 Impp, 22.2 POC, and 9.7 Ioc. The controller is TBD but will be MPPT. All connections to the batteries, other than the shunt and cat fuse will go through a buss bar.
I want to charge this bank also with either my alternator or the charging battery. I've read a few threads on this site about this subject. A separate DC-DC charger seems to be better because it might provide a higher voltage than the alternator will. I understand my AGM's want 14.8 as a bulk voltage. That level, of course, drains the starting battery faster than the alternator can replinish (I think). I can install the usual solenoid isolator; but the alternator will never send more than 13.2 to the bank and then even only after making sure the starting battery has all it wants.
I can put the DC-DC charger inside by running heavy cables from the battery. That's not very far. I can install gauges and switches to let me turn it on/off, however, that's all still manual and more subject to error. At least, it won't have the protection of an isolator"s smart solenoid.
What would you do?
Jerry
My overland JKUR has 2 Lifeline CT-6's in series rated new at 300 12V AmpHrs, or 150 usable Ah at 50% DOD. On the roof rack are 2-160W panels with 18.5 Vmpp, 8.7 Impp, 22.2 POC, and 9.7 Ioc. The controller is TBD but will be MPPT. All connections to the batteries, other than the shunt and cat fuse will go through a buss bar.
I want to charge this bank also with either my alternator or the charging battery. I've read a few threads on this site about this subject. A separate DC-DC charger seems to be better because it might provide a higher voltage than the alternator will. I understand my AGM's want 14.8 as a bulk voltage. That level, of course, drains the starting battery faster than the alternator can replinish (I think). I can install the usual solenoid isolator; but the alternator will never send more than 13.2 to the bank and then even only after making sure the starting battery has all it wants.
I can put the DC-DC charger inside by running heavy cables from the battery. That's not very far. I can install gauges and switches to let me turn it on/off, however, that's all still manual and more subject to error. At least, it won't have the protection of an isolator"s smart solenoid.
What would you do?
Jerry
Comments
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pebbledropper wrote: »Please advise how best to use what's under my hood to help charge my house batteries.
My overland JKUR has 2 Lifeline CT-6's in series rated new at 300 12V AmpHrs, or 150 usable Ah at 50% DOD. On the roof rack are 2-160W panels with 18.5 Vmpp, 8.7 Impp, 22.2 POC, and 9.7 Ioc. The controller is TBD but will be MPPT. All connections to the batteries, other than the shunt and cat fuse will go through a buss bar.
Sounds like a nice setup. What are you loads you plan to run (i.e., peak Amps, Amp*Hours per day, etc.). Do you want to dry camp in one place and use solar panels to supply daily loads for days/weeks on end? Or do you plan on driving every few days to a new site, etc.?I want to charge this bank also with either my alternator or the charging battery. I've read a few threads on this site about this subject. A separate DC-DC charger seems to be better because it might provide a higher voltage than the alternator will. I understand my AGM's want 14.8 as a bulk voltage. That level, of course, drains the starting battery faster than the alternator can replenish (I think). I can install the usual solenoid isolator; but the alternator will never send more than 13.2 to the bank and then even only after making sure the starting battery has all it wants.
For Lifetime AGMs, they recommend closer to 14.3 volts @ 77F:
http://www.lifelinebatteries.com/manual.pdf (page 19).
14.8 volts is pretty high nominal charging voltage (although, Lifeline batteries are supposed to handle higher charging voltages than other AGMs--Do more research here).
The only reason to bulk/absorb charge at higher voltages would be for quicker charging--Do you need to quick charge the battery bank?
Regarding the Alternator output--It should be much closer to 13.8 to 14.2 volts or so... 13.2 volts sounds awfully low (unless you are using a diode isolator--Which still makes the charging voltage for your house bank still too low). A solenoid isolator should not have as much voltage drop.I can put the DC-DC charger inside by running heavy cables from the battery. That's not very far. I can install gauges and switches to let me turn it on/off, however, that's all still manual and more subject to error. At least, it won't have the protection of an isolator"s smart solenoid.
Here is a DC to DC battery charger / Isolator that may be of interest:
http://www.solar-electric.com/batter...h2/me-sbc.html
But, this simply connects the two battery banks in parallel (can use an external relay too). So--Still have to look at your alternator's output voltage. If it is closer to 14.3 volts (use a Marine Alternator with adjustable/deep cycle battery regulator). This might be an interesting choice:
http://balmar.net/
Another alternative is a true DC to DC charger -- Can take 12 VDC in and output 14.4 volts out (boost converter) vs the standard 14.2 volts in and 14.2 volts out of a "solenoid".
I would look at my house loads first... Figure out how many Amp*Hours / Watt*Hours you need per day first. That will tell us if the solar array will cover the whole load or not.
Next, how many hours per day you plan on running the motor--That would give us some idea of how much current you need to replace (i.e,. use 100 AH per day, Then 10 amps * 10 hours, or 50 amps * 2 hours, etc.).
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
If the alternator output is only 13.2 volts there is a problem. On my 2008 Dodge Ram I feed a solid state isolator directly from the alternator. Measured voltage at the house batteries 40 feet away is 14.8 volts, input to the isolator is 15.5 volts. Test conditions, truck at idle, tow/haul selected, and head lights on. Refrig on Dc. I replaced the original battery charge line from the fuse bank to the Bargemen connector with 8 AWG wire. Paralleled this with 8 AWG all the way to the house batteries. The trailer uses 10 AWG from the Bargemen to the house batteries. This is a lot cheaper then a DC to DC charger.
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15.5 volts is very high from a typical vehicle alternator unless it is very cold outside (Florida is unlikely to get "that cold") unless the alternator has a remote voltage sensor (to allow for wiring/diode isolator drop).
Even 14.8 volts is pretty high for a sustained charging voltage on a vehicle.
Although, some newer vehicles are using higher voltage/more complex charging algorithms for battery charging these days (cars have more electric/electronic devices like computers, power steering, and air-conditioning pumps for government fuel efficiency regulations and such).
Here is an interesting survey from different manufacturers written around/before 2000:
http://www.landiss.com/battery.htmThe hybrid battery is more resistant to deep cycling than the lead/calcium, but is still not as good in this respect as the original lead/antimony style. Most cars supplied with hybrid batteries have their voltage regulators set to 14.3 volts, although it is reported that the higher 14.8 volt setting of GM cars does no harm if the water level is checked regularly.
...
The National Technical Director of the Mercedes-Benz Club of America (6) was considerably more flexible: "the specified voltage for Mercedes-Benz cars of the mid-1980s is 13.0 to 14.5 volts". But clearly 13.0 volts is not enough, and Bosch says 14.5 "will overheat and damage the battery". In an early 1993 letter (6) he says local MB technicians tell him that alternators usually check out around 14.2 to 14.4 volts, and that they replace regulators that call for less than 14.0 volts - thus contradicting the Bosch Product Support Manager. Are we having fun yet?
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
It must have remote sense because when I put the alternator directly to the cranking battery; thus bypassing the isolator, alternator output drops back to 14.4 to 14.8.
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Thanks all. I've done as good a use survey as I can; but is on paper. One trip I took using similar gear to what I have now gave me a little actual usage experience. The best I can do without building and using it is estimate a daily need of 120 Ah. I have some medical gear I run at night but it's all 12VDC. I also have an Edge Star refer that runs on 12VDC.
My plan is to have a bank large enough for 2 days. Weight limitations prohibit that unless I went LiFePos (too expensive). So I settled on 2 CT6's which should produce 150 Ah at 50% DOD w no recharge. Second, I believe my 2-160W solar panels and MPPT controller (TBD) will recharge my bank mostly every day. This will depend on how much sun they get. The purpose of using the Jeep's electrical system is to deal with cloudy, rainy days prarking in the trees. I doubt I will spend more than 2 days wo driving the Jeep somewhere. That drive might not be far enough to put much voltage to the house bank; but I want the capability to supplement the solar, anyway.
I don't know the output of my alternator. It's on a JKUR mfgd in May of 2014. It has 4,500 miles on it; so, the alt should be close to factory new. I can't check it for a week or so. It's in a rebuilders shop being upfitted for heavier trail and overlander duty. It is a towed vehicle behing a diesel pusher MH. When the Mother Ship gets as far as it can go, I want to take the Jeep and spend days exploring the wilderness, maybe 7-10. Thus, I need electricity.
Jerry -
Jerry, I've done something similar with a solar system on my vehicle. With what you describe here, I would say you have more than enough solar. I'm able to run a fridge and the ham radio with less solar than you have.
My personal recommendation you need to track down the voltage problem with the alternator. I would recommend a pair of Deka Intimidator AGM's the largest ones you can fit, but it sounds like you have the batteries sorted out.
A consideration is some vehicles have computer controlled voltage regulation, as mine does. Also, the alternator itself could be flakey.
It would be worthwhile to analyze your power requirements. The Edgestar does not strike me as a particularly efficient model. Just to be sure, so far, it sounds like overkill. You mention that the solar controller is TBD. For the vehicle specifically, I don't know that the MPPT will be something you want. I use the Morningstar MPPT at home, it's nice, but big. The Morningtar Prostar line PS-30M might be a better bet. It won't interfere with your electronics either.
It is also important what you are using to connect the dual battery system. Equally if not more important is that the batteries should be of the same type, such as all AGM for example.
The Prostar- in action, if you'd like to have a look.
The Voltage Issues / Observations.
I've collected some tidbits of a year or so of daily voltages, both driving, and also on solar when parked, with and without loads. Here is a small example. If you'd like more info, drop me a message w/e-mail it's easier.
Good luck with your setup!! -
Just to look at a "typical" setup... Using PV Watts for Fort Worth TX, panels mounted flat to roof, 320 Watts:
Month
Solar Radiation
(kWh/m2/day)
1
2.88
2
3.59
3
4.74
4
5.79
5
6.40
6
6.99
7
6.99
8
6.34
9
5.18
10
4.25
11
3.07
12
2.63
Year
4.91
Toss out the bottom three months... 3.59 Hours of sun for "break even" February:- 320 Watts * 0.61 end to end system efficiency * 3.59 hours per day of sun * 1/12 volt battery bank = 58 Amp*Hours per average February day (12 VDC loads)
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Hello! Sounds like a great set up!
I just wanted to chime in with my unscientific, but time tested experience. For the past nine years, I've been running a 1999 Jeep XJ, our daily driver, with a roof top tent set up for overland style camping. I've got a Edgestar 43qt. fridge, a 12v bunk heater, LED lighting, a small fan and power a laptop to watch movies as well as keeping a few rechargeable batteries and phones running. The XJ has two Die Hard platinum 880 CCA batteries with 100 amp Blue Seas circuit breaker serving as a manual separator. When camping I deploy a global solar 62w soft folding panel with a little 7 or 8 amp charge controller. Depending on usage and of course the sun, I'm good for 2-3 days before I need to start the Jeep to charge the batteries. before bed, I isolate the house battery so that in case of a unforseen voltage draw, we don't get stranded. Normally I leave both batteries connected. I'll add that I'm also running OBA, a winch and some additional off road lights. When building the XJ, I only did the most rudimentary calculations, but nonetheless, it has worked out well.
On another note, as an experiment, this winter we are living in a RV out in the boonies in S.W. Florida. Totally off grid powered by 3 160w panels with a Bogart engineering SC-2030 charge controller and Tri-Metric system monitor feeding 4 Trojan T-105's. We pump water from the nearby pond and then 7 stage filter with a UV sterilization unit before entering the holding tank. Again, although I've certainty done much more calculations before I started putting the system together I didn't know for sure what our power requirements would be until after we got off the grid. We're about four months into it and getting ready to pack up until we return in the Fall. This season, sort of a proof of concept trial run has been a great success. We typically draw the bank down to around 80% and are back up to 112% replaced by 3pm. We use a 1000w tea kettle and a 1200w vitamix blender every day as well as all of the normally used stuff.
Do you know about Expedition Portal? Great forum with a great knowledge base.
Best,
Rich
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Usage-
My daily is higher -
pebbledropper wrote: »Usage-
My daily is higher than normal due to medical. I use a 12V snore machine and , if overnighting at altitude, a 12V O2 concentrator. The two of them require >6 Ah for ~8 hrs, or the equivalent of another refer.
I agree the Edge Star uses more elec than, say a Nat'l Luna. It also requires a larger footprint. However, I already own it. It's relatively new; and saves me start-up $ if I can power it.
So, until I build something and am able to audit actual numbers, I'm staying with an expected need of 120Ah.
Bill-
Thanks for the calcs. Even if I add the bookend sunlight hours at some lesser %, and figure in a 25% boost from a MPPT, using my 2-160W glass panels may never replace the 150A I need if I use 50% of the rated 300.
Rick-
Do you know the 20hr Ah rating of that Platinum 880 CCA? My 2014 JK will only fit a Grp 48 (aka 91) starting btty. However, as a Rubicon they sent a 600 CCA. The Odessey that fits is only a 625 CCA. Not enough step up. I'll wait until my OE wears out. Oddly, the Sears equivalent DH Platinum is UA in this size. To get the most and best lead for the space I have and locating the BB amidships in front of the rear axle, I still believe deep discharge, 6V golf cart cells gives me the most storage. That's why I want the Lifeline 6CT's. I could get 4CT's and save 52 lbs and ~$100; but that takes me down to 225Ah at 12V and 112Ah at 50% DOD. It's worth it to me to get the 6's.
Panels-
Let me try a different approach: I'm not sure glass panels will stand the rigors of Jeeping. So, I want to switch to flex panels. Renogy sells a 100W. While it doesn't roll up, it will bend and flex. At 42" x 22", I can lay 4 of them side-by-side on my Frontrunner rack. Would someone (Bill) please run the numbers and see what these 4-100W's can do toward re-filling my bank: Pm-100W x 4; Vmpp 17.7V,; Imp 5.7A; Voc 21.7V; Isc 6.1A.
A major advantage to me to go with these bendable panels is they only weigh 4.4 lbs. I will make some frames than can be easily put up and down on my rack allowing me to store the panels inside my Jeep. That isn't perfect security; but it's acceptable.
Controller-
My own calcs, probably wrong, for 4 Renogy panels say I could end up seeing as many as 133V come down in good conditions, especially with a MPPT. Also, Amps could be up to 38. That doesn't give me enough margin to use a 40A controller. Looking at 50A MPPT's, there aren't many and they're all expensive. Now, my figuring was hooking all 4 in parallel. This is so one partially shaded panel won't draw down the rest. If I went series, instead and used 2 smaller controllers, I don't know if that would save anything.
Jerry -
pebbledropper wrote: »Usage-
My daily is higher than normal due to medical. I use a 12V snore machine and , if overnighting at altitude, a 12V O2 concentrator. The two of them require >6 Ah for ~8 hrs, or the equivalent of another refer.
I agree the Edge Star uses more elec than, say a Nat'l Luna. It also requires a larger footprint. However, I already own it. It's relatively new; and saves me start-up $ if I can power it.
So, until I build something and am able to audit actual numbers, I'm staying with an expected need of 120Ah.
Wow, the 12 volt O2 Concentrators--Just looked them up--Roughly 5 amps @ 12 volts... That is not too bad.Bill-
Thanks for the calls. Even if I add the bookend sunlight hours at some lesser %, and figure in a 25% boost from a MPPT, USING MY 2-160W glass panels may never replace the 150A I need if I use 50% of the rated 300.
Personally, I do not really use the MPPT is 1.2x more charging current. In general, you will only see a 10-15% improvement in sub freezing temperatures. At normal non-winter temperatures, I am not sure there is much of a measurable performance improvement (MPPT uses something like 5% of the power to run its electronics--PWM probably use 1% or so).
MPPT is great to connect "non 12 volt panels" to a 12 volt battery bank and/or use a "high voltage" solar array that is some 10's to 100's of feet from array to charge controller/battery bank. MPPT controllers cost more, but "GT Panels" (typically ~30 to 36 volt Vmp) are much cheaper than "12 volt panels)... So for larger system, MPPT can save some money.Panels- Let me try a different approach: I'm not sure glass panels will stand the rigors of Jeeping. So, I want to switch to flex panels. Renogy sells a 100W? While it doesn't roll up, it will bend and flex. At 42" x 22", I can lay 4 of them side-by-side on my Frontrumner rack. Would someone (Bill) please run the numbers and see what they can do toward re-filling my bank: Pm-100W x 4; Vmpp 17.7V,; Imp 5.7A; Voc 21.7V; Isc 6.1A. A major advantage to me to go with these bendable panels is they only weigh 4.4 lbs. I will make some frames than can be easily put up and down on my rack allowing me to store the panels inside my Jeep. That isn't perfect security; but it's acceptable.
I am not a fan of flexible panels. My personal opinion (I am not in the business) is that flexible panels will last you ~5-10 years at best. Plastics just don't like UV/Hot Sun. In some environments, flexible panels may last 2 years or less (marine). I don't know Recology panels (or other specific brands)--If somebody has good luck with Recology flex panels--Let us know.
Recology panels seem to be pretty efficient, many flexible panels use thin film cells which are about 1/2 as efficient as crystalline panels--So check the size of the panels and see which will give you the most watts per square foot of space.
Glass panels, as long as they are not hit by rocks or subject to twisting/etc... They should work fine (i.e., these are just tempered window glass ~1/8" thick). The will hold up pretty well, but one good wack and they will shatter the whole face.Controller-
My own calls, probably wrong, for 4 Renogy panels say I could end up seeing as many as 133V come down in good conditions, especially with a MPPT. Also, Amps could be up to 38. That doesn't give me enough margin to use a 40A controller. Looking at 50A MPPT's, there aren't many and they're all expensive. Now, my figuring was hooking all 4 in parallel. This is so one partially shaded panel won't draw down the rest. If I went series, instead and used 2 smaller controllers, I don't know if that would save anything.
In general, for MPPT type charge controllers, they seem to be most efficient around 2x battery charging voltage (i.e., charging at ~14.5 volts, run the array at ~29-30 volts). For a small system (short wire run from array to charge controller+battery bank) there is generally no reason to go to Vmp-array around 100 VDC (roughly the typical maximum Vmp-array for a high end MPPT solar charge controller will accept over a wide range of temperatures and operating conditions).
Shaded and partially shaded solar panels are bad news. You lose a lot of the output and, in some cases, can overheat the bypass diodes on the shaded panels (personally, I think bypass diodes in solar panels are a weak point in their design--Very difficult to get rid of waste heat from diode in plastic box/behind hot glass+cells).
If you are using Vmp~18 volt panels--You can put two in series for Vmp~36 volts on a 12 volt battery bank--And put them in parallel (2, 4, 6, etc. panell array).
If you are using Vmp~30 volt panels--Just put them in parallel for a 12 volt battery bank (for a 24 volt battery bank, 30 Volt Vmp panels in parallel is not "high enough" operating/charging voltage for a 24 volt battery bank).
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset
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