Inverter efficiencies and loads
stephendv
Solar Expert Posts: 1,571 ✭✭
Are there any published efficiency curves showing how low efficiency can drop with very small loads?
Not sure whether to buy an oversized inverter to provide some future-proofing, or whether I should get one that exactly meets my current needs. Would help to know how much power is being wasted through poor efficiency of small loads.
Not sure whether to buy an oversized inverter to provide some future-proofing, or whether I should get one that exactly meets my current needs. Would help to know how much power is being wasted through poor efficiency of small loads.
Comments
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Re: Inverter efficiencies and loads
I am too lazy to look, but I can say from my own experience, having 40 - 60% eff. at low longterm loads made me replace 2000W inverter with 600W. Now I average 85% eff.
Do best of both worlds. Power your small longterm loads with small inverter, and large shorterm loads with big inverter set to sleep mode when no loads present. -
Re: Inverter efficiencies and loads
It a matter of point of view, but I prefer to know what the no load current drain is on the inverter.
Depending on size and type of inverter it can be anything from 5 watts to 50 watts.
True sinewave inverters have more idle drain then modified sinewave because they are chopping their output MOSFET much faster and losses due to output filter.
You can calculate low end efficiency pretty well by knowing % of no load to actual load power. At below 10-15% rated loading there is not much loss due to IR heating of MOSFET's. -
Re: Inverter efficiencies and loads
Morning Star SureSine 300 watt TSW has a nice little power efficiency chart:
http://www.morningstarcorp.com/en/support/library/SureSineENG_R2_1_08.pdf
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: Inverter efficiencies and loads
Thanks guys. Unfortunately running 2 inverters isn't an option because of the long cable runs I'll have from inverter to house, and I wouldn't like to have to switch between 2 different inverters.
If I had to guess at the peak load distribution I'd say 80% of the time I'll need less than 1kW, 15% of the time I'll need about 2kW and 5% more than 3kW. In a few years time I might have some agricultural machinery that might require about 8kW, but will only be run very infrequency, i.e. a few hours/year so am happy to run this purely off the generator.
If the suresine's chart is representative of other inverters, then it looks like they hit peak efficiency when running at a 1/3 of their rated output. I was always under the impression that peak efficiency was at a higher load, closer to the rated output(?)
If this is the case then the best choice seems to be a 3-4kW rated inverter? -
Re: Inverter efficiencies and loads
Here a good list
http://www.gosolarcalifornia.org/equipment/inverter_tests/summaries/ -
Re: Inverter efficiencies and loads
Great link! Most are GTI's but the XW's and outbacks are there. The XW seems to correlate with the suresine curves, max efficiency at 30% load. The worst it will ever get is 88%, so not too bad really. -
Re: Inverter efficiencies and loadsSolar Guppy wrote: »
Thank you for the list...very interesting!
I have Enphase M190's, which I see are about 95%
across the input spectrum, even at low input (that's
good!). I would expect this because a micro-inverter
only has to deal with low loads, sub-200w, anyways.
I did a spot check on central/string inverters, too.
My observations were that they were also about 95%
in their prime operating ranges, that they dipped to
as low as 85% in the low input regimes, and that they
fully recovered to 95% efficiency when input reached
30% of the inverters' rated power. On the latter,
there was about a 3% median efficiency loss in the
median low input power range.
I only have about a month of "prime summer month"
usage on my PV array, so the following is a barebones
data point. In my case, my array sits below 30% for
four hours per day (early morning/early evening). To
this, I must add any time arrays are in shadow and
when it gets cloudy. Perhaps a good raw estimate is
that this is all equivalent to 1-1.5 solar hours. Using
these figures, the micro-inverter architecture yields
additional harvest of 3% times 1-1.5 solar hours times
my total PV capacity. While not a huge amount, this
does add to the other yield advantages that I had
known micro-inverter architecture offers. As they
say, every little bit helps! -
Re: Inverter efficiencies and loadsSolar Guppy wrote: »
Here is a great list! Amazing that some industrial grid-tie inverters are getting 98.3% peak efficiency. I wonder where is the limit due to physics? Has it been reached yet? -
Re: Inverter efficiencies and loads
These guys got 99.03% http://www.pv-tech.org/news/_a/pv_inverter_efficiency_record_set_by_fraunhofer_ise/
Doesn't seem to be a commercial product yet. -
Re: Inverter efficiencies and loads
Ofcourse, Silicon-Carbide JFETs. Anyone knows when inverters using these become available? -
Re: Inverter efficiencies and loadsI wonder where is the limit due to physics? Has it been reached yet?
Practically, anything in the 98%+ range is probably going to be as good as you can get. If you can get 95%+ from 10%-100% rated output, you're doing pretty well. -
Re: Inverter efficiencies and loadsPractically, anything in the 98%+ range is probably going to be as good as you can get.
Not being an electrical engineer, it's hard for me to
say what the practical limit is.
However, as a paying customer, I would have to say
that the current industry standard of 95% is indeed
3% lower than I think it should be.
98% sounds good to me. C'mon inverter guys, get
cracking! -
Re: Inverter efficiencies and loads
Believe it or not, many engineers agree that increasing efficiency is a good thing:- 5% loss / 2% loss = 2.5x the thermal losses
But, takes more engineering and more expensive components... Always trade-offs.
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: Inverter efficiencies and loadsBelieve it or not, many engineers agree that increasing efficiency is a good thing:
- 5% loss / 2% loss = 2.5x the thermal losses
But, takes more engineering and more expensive components... Always trade-offs.
-Bill
Money is an issue. I think "inertia" is the more pressing
issue here. Most everyone seems satisfied with 95%.
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