new inverters provide power when grid is down / power failure / blackout occurs.
rollandelliott
Solar Expert Posts: 834 ✭✭
http://files.sma.de/dl/18726/SB345TLUSEXDS-DUS123412W.pdf
new inverters offer power even when grid blackout power failure occurs.
http://forums.sma-america.com/ubbthreads.php?ubb=showflat&Number=16325
discussed briefly at SMA forums as well.
new inverters offer power even when grid blackout power failure occurs.
http://forums.sma-america.com/ubbthreads.php?ubb=showflat&Number=16325
discussed briefly at SMA forums as well.
Comments
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Re: new inverters provide power when grid is down / power failure / blackout occurs.
This is a nice feature, that will make it a bit easier to sell solar. People will be able to charge their cell phones, plug in a radio, etc. during power outages.
I'm not clear if the dedicated EPS outlet is on the inverter itself or if it requires buying an outlet and wiring it to the inverter. I asked on the SMA forum. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
This is really cool.:cool:
According to the discussion in the links it will have an optional "dedicated power socket" able to supply "up to 12 amps so long as the PV is generating". No definite word on what the US versions AC output voltage will be. (12 amps x 120 or 240 or 120/240vac?)
It may be possible (while the sun is shining) to cool a refrigerator/freezer, pump water and charge a small but useful portable battery system. You can do a lot in an emergency with a 100 amp/hour 12volt battery. You could spend less than $500 and have lights, communication and some medical equipment 24 hrs/day. (Sleep apnia machine, nebulizer...?)
-Alex -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
although this is a nice feature it is not a feature that can be reliable as it has no means of storage. a few days of clouds after losing the mains would prove the feature to be nearly useless. not to be labeled a pessimist here, it would certainly be better than nothing at times as it could afford opportunity power whereas otherwise there wouldn't be any in a straight gt system without battery backup. this could mean power for cell phones, enabling emergency communications for an individual, or the running of your refrig or freezer for a few hours saving the cost of all that food from going bad. something like a cpap machine i wouldn't deem it viable for. intermittent sun would stop operations and most would be sleeping when this would occur. also the sunny period, even if consistent, would probably fall short of the 8hrs many would shoot for. reliable power in the form of a battery and battery charger would already need to be in place in order to facilitate that extra power to be used in charging a battery during those times. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.a few days of clouds after losing the mains would prove the feature to be nearly useless.
I think you're overstating. A 3000watt inverter (the smallest model) should be able to run a 200W fridge for a few hours a day even on a cloudy day. 10% sunlight is unusually bad weather. As long as people still understand that they have to prioritize what they use it for, they should be able to take advantage of it even if there's clouds. The most valuable energy is used for communications and that does not take a lot of power at all. I think that's pretty far from 'nearly useless.'
I agree with you about medical equipment. Someone in need of that should probably own a generator. Although perhaps with this feature they might be able to avoid using up their fuel as quickly.
Most importantly, it will stop everybody from asking "Is there a way to use the power from my solar system when the grid is down?" I'm really looking forward to not hearing that question anymore. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
I see the same problem with this as there is with any other "no storage" solar power system; when the power is produced (available) is not necessarily when it is needed.
10 Amps for 4 hours a day * 120 VAC would be 4800 Watt hours. I can't help but think it would need to be used to charge a battery to run an inverter so that the power is available when needed.
I also can't help but think that the average person will misinterpret this feature as meaning they will have power available 'whenever' and be sorely disappointed when it isn't. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.Cariboocoot wrote: »I also can't help but think that the average person will misinterpret this feature as meaning they will have power available 'whenever' and be sorely disappointed when it isn't.
I think the average person will understand that a solar system doesn't deliver power without the sun.
Mind you, I get your point. Half the people out there are below average. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.I think the average person will understand that a solar system doesn't deliver power without the sun.
Mind you, I get your point. Half the people out there are below average.
Except for the children in Lake Woebegone, of course.
Also, I expect that a lot of people will expect power from dawn to dusk rather than just a couple of hours either side of solar noon.SMA SB 3000, old BP panels. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.Except for the children in Lake Woebegone, of course.
Where all the women are strong, all the men are good looking, all the children are above average and the solar panels put out by the light of the moon.:-) -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
I think there is already inverters that provide power when the grid goes down......they have been around for a while, they use batteries and solar panels........hello -
Re: new inverters provide power when grid is down / power failure / blackout occurs.I think there is already inverters that provide power when the grid goes down......they have been around for a while, they use batteries and solar panels........hello
Are there any disadvantages of the grid-tie system? About the only one that concerns me is having solar panels that are useless when the grid goes down, and the possibility of freezing pipes in the winter. In the 2.5 years that I have lived here, the grid has never been down more than an hour or so. However, I have lived in a place where the grid was down for 7 days. Is it worth it to me to go off-grid and pay $1.00/kWh to avoid the occasional (once every 10 or 20 years) extended grid failure. No. Is it worth it to pay an extra $500 (I don't know the actual cost) when I replace an inverter to get a grid-tie inverter that could provide a small amount of emergency power to avoid freezing pipes and the loss of food. That sounds fairly attractive. I also have a 4 kW, propane-fueled, Onan generator that was used at an off-grid property that I recently sold. I need to trade off the cost to buy and bury a propane tank (in my city location) or convert the generator to natural gas (if possible) and extend a natural gas line versus the solar PV inverter with emergency power.
I live in an area that has relatively high solar insolation (5.78 kW/m^2/day annual average), and rarely two completely overcast days in a row. My refrigerator draws 37 W (avg.), and with a natural-gas fired, hot-air furnace, I just have to run an effcient ECM motor and the controls to have space heat. Heck, with the solar hot water I could even shower! The house could probably go several days or more before it ever dropped below freezing, so occasionally running the gas heat would be the cat's meow. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
Try to keep in mind that SMA's new inverter supplies power without batteries for a short time. That is the "trick" here; no batteries to maintain or replace. The limitation is that the power is only available while the sun shines. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.Cariboocoot wrote: »Try to keep in mind that SMA's new inverter supplies power without batteries for a short time. That is the "trick" here; no batteries to maintain or replace. The limitation is that the power is only available while the sun shines.
However, the things that I would like to run may not take kindly to being switched off and on, so it may yet take some batteries. Alternatively, I could at least run a small electrical resistance heater that would be sufficient to keep the house above freezing. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
When the utility grid is down the output of a standard grid-tie inverter is zero, no matter the size or location.
This new one provides power without grid or batteries so long as the array can meet the power demand.
I expect they have included a super capacitor to stabilize the DC input against the draw as well as an oscillator to provide a sync signal, but I haven't seen a schematic and it's unlikely they plan to make it public. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
I would be nice if the GT Inverter either had a battery charger or could output XXX volts (more or less like a solar array) so we could attach an MPPT Charge Controller to our high voltage array and properly recharge a battery bank.
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Re: new inverters provide power when grid is down / power failure / blackout occurs.Half the people out there are below average.
Oops, the average is not the median, on average.However, the things that I would like to run may not take kindly to being switched off and on
This is a problem I see too; imagine a partly cloudy day, typical after a big storm system, where users size their loads in the full sun only to find things flipping on and off constantly.
That said, I agree it's better than nothing, and I think SMA was smart to keep the output smallish (I would bet it's 12 amps at 120v). In a best case, users would know enough to regard this number as something like the peak surge capacity on an inverter, and treated the "continuous" daylight output as much less, perhaps just 1-2 amps, which is a number that that a 4KW array, for example, might be able to sustain even in most overcast daytime sky conditions. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
"So for my 3.15 kW DC-rated system, that is 26 Amps for that length of time. Since the emergency power is 10 A, the period of operation should be significantly longer."
i'm not too sure what it is you are saying here, but if you are saying that if you are providing more power than the inverter needs to produce the 10a or so that your time will be extended. you may also be thinking if you draw only 5a while it is providing 10a available that you can extend the time.
both cases are false. if it is giving 10a then use it or lose it as it does not get stored. -
Re: new inverters provide power when grid is down / power failure / blackout occurs."So for my 3.15 kW DC-rated system, that is 26 Amps for that length of time. Since the emergency power is 10 A, the period of operation should be significantly longer."
i'm not too sure what it is you are saying here, but if you are saying that if you are providing more power than the inverter needs to produce the 10a or so that your time will be extended. you may also be thinking if you draw only 5a while it is providing 10a available that you can extend the time.
I think that all he is saying is that if his panels can produce their full PTC output for 4 to 6 hours on a clear day, then the region on the insolation curve where the available output current stays above 10 amps would start earlier and end later than the full power period, giving him more than 6 hours of "up to 10 amp" output. (Again, on a clear day.)
Definitely not a factor of 2.6 longer, but that is not what he is saying.SMA SB 3000, old BP panels. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.I think that all he is saying is that if his panels can produce their full PTC output for 4 to 6 hours on a clear day, then the region on the insolation curve where the available output current stays above 10 amps would start earlier and end later than the full power period, giving him more than 6 hours of "up to 10 amp" output. (Again, on a clear day.)
Definitely not a factor of 2.6 longer, but that is not what he is saying.
The interpretation given by inetdog is exactly what I was trying to communicate. I gave no estimate of how much longer the system would be capable of producing the emergency power at 10 A, but that it would logically be longer than 4 to 6 hours (depending on the time of year), since it averages 26 A over that time period, and the output of my panels as a function of time is roughly a bell-shaped curve (on a reasonably clear day). -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
I can see that. A 5kW array need only operate at about 25% capacity to make the 1.2 kW output maximum. This could be either longer hours of operation in good conditions or some hours of operation under less than ideal conditions.
We shall know more about its functionality and reliability once some start getting installed. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.Cariboocoot wrote: »When the utility grid is down the output of a standard grid-tie inverter is zero, no matter the size or location.
This new one provides power without grid or batteries so long as the array can meet the power demand.I expect they have included a super capacitor to stabilize the DC input against the draw as well as an oscillator to provide a sync signal, but I haven't seen a schematic and it's unlikely they plan to make it public.
That is really a key specification, isn't it, that I have not seen in the spec. sheet. It seems like it would have to have at least a minimal amount of storage (super capacitor or battery) to make usable power. Otherwise an airplane flying over could shadow the array, putting the loads into disarray, like the compressor on a refrigerator. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.That is really a key specification, isn't it, that I have not seen in the spec. sheet. It seems like it would have to have at least a minimal amount of storage (super capacitor or battery) to make usable power. Otherwise an airplane flying over could shadow the array, putting the loads into disarray, like the compressor on a refrigerator.
Exactly. There has to be some method of stabilizing the current output from the panels through the MPPT "front end" to provide a stable power reference for the inverter section. Throw in varying load demands and the challenge becomes even greater. -
Re: new inverters provide power when grid is down / power failure / blackout occurs.
To have (some) emergency lights and small electronics 24 hrs with this new SMA GT inverter:
From Wind and Sun:
SunXtender 12 Volt 104 Amp-Hour AGM Deep Cycle Solar Battery $ 307
http://www.solar-electric.com/pvx-1295.html
PowerMax 12 Volt 35 Amp Battery Charger $ 103.50
http://www.solar-electric.com/pomax12vo35a.html
Samlex 300 Watt Sine Wave Inverter 12 Volt $ 130.95
http://www.solar-electric.com/sa300wa12vos.html
A good storage container, misc basic wiring and a small battery tender to keep everything safe and ready +/- $ 100
This system could easily keep a couple of CFLs or LEDs going full time and run a laptop and phone charger for + 8hrs. Other possibilities include the igniter and thermocouple for a gas range or short cycles of a gas furnace fan and controls. Make no mistake, 1200 W/h battery has a useful amount of energy storage for emergency use.
The Concorde AGM battery and the charger listed above can handle a high enough rate to charge ( to +/- 90%) in as little as 3 hrs while drawing something around 600 watts from the battery-less GT inverter. If it is in the budget a small Honda 1 or 2kw generator would make a long term power outage even in poor weather much more comfortable.
I know many GT PV system owners who would be interested in this. The high cost of emergency backup power is always a big disappointment in the initial consultation for a new PV customer. The modest investment above is much easier to swallow than a full battery backup system with need for a new +$3k battery every 5-6 years.
-Alex Aragon
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