48v Mppt controller
lipets
Solar Expert Posts: 61 ✭✭
I building an tri-cycle to play around with it has a 6X8V batteries, 48V
Any suggestions on what controller model will do this effectively,
secondly what models can I look at without breaking the bank?
I've been looking around but $400 + is more than this experiment justifies.
It will fit one 200-225 watt panel on the roof, I see most I'm looking at put out 30V or so.
Any suggestions on what controller model will do this effectively,
secondly what models can I look at without breaking the bank?
I've been looking around but $400 + is more than this experiment justifies.
It will fit one 200-225 watt panel on the roof, I see most I'm looking at put out 30V or so.
Comments
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Re: 48v Mppt controller
I don't believe you will find anything out there that will play with "off the shelf" parts.
The 48 volt battery bank needs a solar array with Vmp>~70 VDC minimum.
In my limited experience, I do not know of any >200 Watt Vmp~70 VDC panels out there.
I don't think there is any solar charge controller (off the shelf) that can "boost" a low Vmp-array voltage to the >60 volts needed to generate a 48 volt battery bank.
Most high voltage panels are either 60 or 72 cell panels (~30 volt or 36 volt Vmp). It would take two to three of these panels in series to get Vmp-array>70 volts. Or 4x 36 cell (Vmp 17.5 volt) panels in series (typically ~140 Watt or smaller, and these panels are more expensive on a $$$/Watt basis).
What may be the cheapest is 4x ~140 watt panels in series with a Xantrex/Schneider C40 PWM charge controller (more expensive panels, cheaper charge controller).
But 2-3 of the Vmp 30-36 volt panels in series with a Midnite Kid MPPT controller may also be cost effective too.
I do not think you can meet your cost goals either way--Unless you can find some used panels cheap locally.
Also, check the price delivered to your front door--Especially solar panels. Panels are expensive to pack and ship in less than full pallet loads at a time. Panels over ~140 Watts usually need to be shipped by truck.
Of course, you can try EBay and Amazon for panels and controllers--Some of their prices are hard to resist (may include shipping in some cases).
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: 48v Mppt controller
the roof only has room for one panel -
Re: 48v Mppt controller
Then you are looking at 4x 50 watt 17.5 Vmp panels in series... about $3 per watt from our host (larger panels are $2 per watt, or even close to $1 a watt for ~200+ watt panels).
Amazon appears to have a bunch of 50 Watt panels for less than $90 shipped... Don't know anything more about them.
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: 48v Mppt controller
That's worth looking into.
Then with 4 of those at 70 Vpm what charger might work? -
Re: 48v Mppt controller
If you go around 70-80 volts Vmp-array--Then any PWM or MPPT controller will work fine (assuming they support 48 volt battery banks).
Before you start picking/buying hardware, you really need to figure the basics of what you want power wise.
For lead acid batteries, around 5% to 13% rate of charge works well with solar. If you discharge daily, you may want 10%+ rate of charge minimum.
Also, how many Watt*Hour per day you want to drive, and how many Watt*Hours per day from the panels.
Will you also have an AC/backup battery charger too?
For the most part, it is difficult to have a workable electric vehicle that will get sufficient energy just from solar on its roof.
200 Watts of solar may push a reasonably efficient vehicle (like a golf cart/car):- 200 watts * 0.52 charging eff * 4 hours of sun * 1/300 WH per mile = 1.4 miles per day in reasonable sun
- 200 watts * 0.52 charging eff * 4 hours of sun * 1/32 WH per mile = 13 miles per day in reasonable sun
Near San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: 48v Mppt controller
Not any PWM, Bill; most of them will not do 48 Volt systems.
The Xantrex C40 will but other versions of this same controller will not.
This ProStar will: http://www.solar-electric.com/pros15solcha1.html
As will the big TriStars: http://www.solar-electric.com/pros15solcha1.html
There are a few others but usually when you are at 48 Volts you are also at large arrays and MPPT makes sense. In this case the array size is limited by space and the current will probably only be around 40 Amps max so the C40 does look like the best choice. -
Re: 48v Mppt controller
If you just want to experiment, you can go on ebay and buy a DC-DC boost converter to convert the ~35V to ~70V. I have no idea how this will interact with the MPPT algorithm - but it should get the batteries charged.I am available for custom hardware/firmware development
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Re: 48v Mppt controller
Presumably you need 48V for your motor? I got the impression that there was at least one charge controller that could do boost, from a lower pv voltage to a higher battery voltage... Someone else might remember.1.8kWp CSUN, 10kWh AGM, Midnite Classic 150, Outback VFX3024E,
http://zoneblue.org/cms/page.php?view=off-grid-solar -
Re: 48v Mppt controller
Yes but boosting Voltage costs power. With limited PV space to begin with he would end up with even less effective charging than utilizing four smaller panels in series. -
Re: 48v Mppt controller
Genasun may work for your needs (I did not know or forgot that they had a 48 volt capable boost inverter):
http://genasun.com/all-products/solar-charge-controllers/for-lead/gvb-8a-pb-solar-boost-controller/Want to see a 27V grid-tie panel charge a 48V battery pack? Get a GVB.
Most solar charge controllers move power from a higher voltage panel to a lower voltage battery bank. The GVB-series controllers, in contrast, pump electricity up hill. These controllers will take a standard 12V panel and boost the voltage to charge a 24V, 36V or 48V battery pack. In fact, the GVB's will work with almost any panel that's below your battery voltage. This makes finding a good panel easy: just make sure to stay below 8A panel current and 63 Volts (open circuit). Larger panels are cheaper per Watt than smaller panels, so using one large panel and a boost controller results in a significantly lower system cost than smaller panels in series with a conventional charge controller.
Just stay with the lower voltage arrays (do not try for a Vmp-array~70+ volts--It will probably damage the charge controller).
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: 48v Mppt controller
Looks like this one is in range: http://genasun.com/all-products/solar-charge-controllers/for-lead/gvb-8a-pb-solar-boost-controller/
"Price from $125" is odd.
Not sure anyone here has used one of these or not. Looks like $325-ish dollars for panel and boost controller to get about 3 Amps to the batteries.
That's about $100 less than four small panels and one standard PWM controller for 48 Volts for about the same current. Could be good.
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Re: 48v Mppt controller
You can also use 2 smaller panels feeding two 24V charge controllers to charge a 2x 24V (aka 48V) battery bank. See here.I am available for custom hardware/firmware development
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Re: 48v Mppt controllerYou can also use 2 smaller panels feeding two 24V charge controllers to charge a 2x 24V (aka 48V) battery bank. See here.
Yes, but it's not a great idea because it is too easy for people to make a mistake and not have the two controllers completely isolated from one another. Also there can be discrepancies between the controllers which may result in uneven charging of the bank as a whole.
And if you have two panels capable of 35 Vmp each you may as well connect them in series and use one controller capable of charging a 48 Volt battery bank. -
Re: 48v Mppt controller
Also, how many Watt*Hour per day you want to drive, and how many Watt*Hours per day from the panels.
Will you also have an AC/backup battery charger too?
For the most part, it is difficult to have a workable electric vehicle that will get sufficient energy just from solar on its roof.
200 Watts of solar may push a reasonably efficient vehicle (like a golf cart/car):- 200 watts * 0.52 charging eff * 4 hours of sun * 1/300 WH per mile = 1.4 miles per day in reasonable sun
Bill I tested a fully charged pack yesterday, I went 43miles till getting to 30% SOC, (no solar) my goal if possible would be to get to 70 driven miles.
I don't know how to figure watt*hours per day, need help on that one.
Also the goal would not necessarily be to go over the 43 miles non stop it can be stop & go giving the time for some charging to occur while there is no draw. I'm in south Florida, so plenty of sun.
I have seen a discontinued Kerocyer panel that had a 65Vpm output but it is out of production.
So given the limited roof top space of about 40x70 the 4 50 watt x 17.5 Vpm in series may work and are available. -
Re: 48v Mppt controllerCariboocoot wrote: »Looks like this one is in range: http://genasun.com/all-products/solar-charge-controllers/for-lead/gvb-8a-pb-solar-boost-controller/
"Price from $125" is odd.
It's $255 for the 48v model -
Re: 48v Mppt controllerBill I tested a fully charged pack yesterday, I went 43miles till getting to 30% SOC, (no solar) my goal if possible would be to get to 70 driven miles.
I don't know how to figure watt*hours per day, need help on that one.
Also the goal would not necessarily be to go over the 43 miles non stop it can be stop & go giving the time for some charging to occur while there is no draw. I'm in south Florida, so plenty of sun.
I have seen a discontinued Kerocyer panel that had a 65Vpm output but it is out of production.
So given the limited roof top space of about 40x70 the 4 50 watt x 17.5 Vpm in series may work and are available.
If you keep dragging those batteries down to 30% SOC you will suddenly not get very far one day. Unless you meant 30% DOD (70% SOC).
You don't really have a Watt hours per day usage, you have a Watt hours per mile usage. If you calculate the percentage of the battery depleted against the miles achieved you will have an approximate figure for that once Voltage is figured in.
For example 30% of a 200 Amp hour 48 Volt battery bank is approximately 2,880 Watt hours.
Obviously no single 200 Watt panel is going to supply that kind of power. The best you can expect is to extend the range slightly: 200 Watts * 0.77 * 5 hours (at best) good sun = and additional 770 Watt hours, or 26% more of the example.
Even so it will be an approximation due to the many mitigating factors. -
Re: 48v Mppt controller
By the way, I had a typo in an earlier post... I typed "4 Days of Sun" per day, I have corrected it to "4 Hours of Sun".
What is the Amp*Hour rating of the battery bank? Are they Lead Acid (flooded cell, AGM, or GEL) or some sort of Lithium chemistry?
Using PV Watts for Miami, flat mounted array (zero tilt), the daily sun looks like:
Month
Solar Radiation
(kWh/m2/day)
1
3.48
2
4.41
3
5.16
4
6.15
5
6.02
6
5.77
7
5.97
8
5.67
9
4.88
10
4.34
11
3.53
12
3.34
Year
4.89
That is "not a lot of sun" during during the wetter (?) months of the year (not New Mexico kind of sun anyway).
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: 48v Mppt controller
t-875 20hr = 170 AH
I think for the point of discussion 5.5hrs is good average. -
Re: 48v Mppt controller
Basic energy calculations (ignoring losses, discharge rate, etc.):- 170 AH * 48 volts * 70% discharge = 5,712 Watt*Hours of energy used
- 2,856 WH / 43 miles driven = 133 Watt*Hours per mile driven (like gallons per mile)
- 5,712 WH * 1/0.77 panel+controller derating * 1/0.80 lead acid batt eff * 1/5.5 hours of sun per day = 1,686 Watt array minimum
Did I get all the numbers right? 48 volt battery bank?
What kind of batteries. And what is the vehicle (heavier like a golf cart/light weight car or light like a bike/trike)?
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: 48v Mppt controller
There are 6 8V Trojans #875's, at 170AH ea or 1020AH
It is very lightweight car. -
Re: 48v Mppt controllerThere are 6 8V Trojans #875's, at 170AH ea or 1020AH
It is very lightweight car.
No, if there are six 8 Volt 170 Amp hour batteries in series that is 170 Amp hours @ 48 Volts: series connections add up the Voltage but the Amp hours remain the same. -
Re: 48v Mppt controller
Right, too much Fl sun............... -
Re: 48v Mppt controllerBasic energy calculations (ignoring losses, discharge rate, etc.):
- 170 AH * 48 volts * 70% discharge = 5,712 Watt*Hours of energy used
- 2,856 WH / 43 miles driven = 133 Watt*Hours per mile driven (like gallons per mile)
- 5,712 WH * 1/0.77 panel+controller derating * 1/0.80 lead acid batt eff * 1/5.5 hours of sun per day = 1,686 Watt array minimum
Did I get all the numbers right? 48 volt battery bank?
What kind of batteries. And what is the vehicle (heavier like a golf cart/light weight car or light like a bike/trike)?
-Bill
Bill hit the nail on the head with what it takes to drive on solar power. That is an impressive watt hours per mile. If I baby a Volt I can get about 200-250 watt hours per mile. With 10 kWh available the general range is 40-50 miles. To "refill" the battery takes about 13 kWh plus or minus. Grid tie is the only way to provide enough kWh to recharge in a reasonable time using solar.
Are you looking at using a J1772 charger and charge port so you can use the charging infrastructure out there?
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