The best portable power stations can be hard to find, as there are literally dozens of fly by night brands that have come onto the market lately. Sorting through all the options can be daunting, but we’ve done the research to find the absolute best portable power stations and solar generators on the market today.
Whether you’re looking for emergency backup power for your home or apartment, or a way to charge devices and run small appliances while camping or RVing, these are the best options for portable off grid power.
We’ve always had a keen interest in off grid living and battery backup power, but as widespread power outages (and planned brownouts) become more common, there’s never been a better time to invest in a little energy independence. Our first year as a young couple together, the power went out in our small home for more than a week at a time…not once, but twice. First an ice storm in January knocked out power (including heat and water) for nearly 10 days, and then a hurricane took out power again for more than a week mid summer.
We learned just how often the power goes out, both in the summer thunderstorm season and winter blizzards. Out West, where my parents live, people are facing roving blackouts, especially in the summer months during peak utility usage and wildfire season.
Ten years ago, we moved to an off grid home in rural Vermont and we’ve never really looked back. We’ve spent the last decade living in a solar and wind powered home on a remote 30 acres here in Vermont. At this point, we know the ins and outs of solar power and managing a battery backup system.
We also know that this life isn’t practical (or even desirable) for most people, but the option to have a small bit of power independence tucked away in the back closet is always a good idea.
You can charge devices in a power outage, keep critical systems like CPAP machines and freezers running, and keep the kids entertained during an otherwise stressful time. For camping, it makes even more sense, and it’s amazing how a little bit of portable electricity can help take the edge off of “roughing it” and turn the experience into something that’s memorable and fun for the whole family.
We’re already familiar with the ins and outs of solar power, as well as all the specifications for batteries and panels on the market today. So we’ve written this beginner’s guide to portable power stations to help you sort through all the technical jargon and find the very best solar generators for your unique situation.
I’m going to cover all the major brands on the market today, including:
If there’s another brand that you’re looking at and I don’t mention it, please let me know in the comments and I’ll look into adding it into this review.
This guide to portable power stations is long, and in depth, and I do encourage you to read it so you understand the pros and cons of each system. That said, I know people busy, and sometimes you just need a quick answer at your fingertips.
I know, now you’re wondering what the worst options are. In general, the worst options are the mass market cheaply produced models that have flooded Amazon recently. I’ve been contacted by half a dozen of them for product reviews, but it seems like the companies go out of business within a few months due to poor reviews and performance. (They then re-brand under a new name, change the case color of the power station and start selling it again.)
When you’re buying a battery, something that you need to stand by in an emergency, it really is best to opt for a name brand even if it costs 10% more. Poorly made lithium batteries, especially the NMC type, can be a safety hazard, and it’s just not worth it to buy a cut rate model.
For the most part, buying direct from the supplier is going to get you the best deal, and ensure that your warranty is in place and valid. In many cases, buying from a 3nd party (like Amazon) voids the warranty. If you are on a budget, your best option is not to buy a cheap knock off model. That’s just a waste of money. You can, however, save a bit if you buy a power station second hand from Ebay.
If you are going to buy used, I’d suggest only buying used Lithium Iron Phosphate (LiFePO4) power stations (Bluetti or Anker). They’re rated for 2500 to 3500 charges, last for decades and they’re difficult to damage even with extreme use. I do not suggest buying used Lithium NMC power stations (Jackery, Goal Zero, and many older Ecoflow models) as those are only rated for about 500 charges, or 2 to 4 years of regular use and they degrade rapidly if they’re abused by continuously running them down to zero charge.
(More on different portable power station battery types in a minute.)
In terms of the main brands of portable power station, I don’t think there’s any reason to ever choose Goal Zero. Their offerings are very similar to Jackery, but they’re heavier, more expensive and take nearly 10 times as long to charge. Opt for comparably sized options from Jackery instead.
A portable power station is basically a miniature off grid system in a box. It includes batteries, of course, which store power…but it’s not the same as a simple battery. You can’t do the same thing with a random golf cart battery or even the off grid battery bank on my house. There are other components needed to make it work.
All power stations include three different components to allow the power to not only be stored, but also recharged and discharged regularly.
The power station also has a charge controller, that regulates the amount of power coming into the batteries and allows you to charge the power station with AC electricity from a wall outlet, or DC power from a carport or solar panel. All of it is converted to DC power for battery storage.
Lastly, the power bank includes a built in inverter which takes the DC power stored in the batteries and converts it to the same AC power that comes out of a standard wall outlet.
Those three components give you the three main measures of a portable power bank (Watts, Watt Hours and Charging Speed/Input Watts).
The size of the batteries will determine the total watt hours of the system. The max rated output of the inverter determines the total watts you can output at any given time (to run large appliances or multiple devices at once). The capacity of the charge controller determines how fast you can charge the batteries, and recharge times vary from 1 hour to 16 hours, for the same size power bank depending on the quality/efficiency of the charge controllers used.
Depending on the size of the power bank, you can charge just about any small device (phone, laptop, etc) and run almost any household appliance. Power stations are rated in watts, and range from about 240 to 3,000 watts total output.
The total watt output will tell you what devices a power bank can run. Here are some of the most common small appliances:
To determine how many total Watts you need in a power station, add up all the devices you hope to run simultaneously. Think about what you actually need to run at the same time, versus what you can run back to back.
For example, if you’re cooking a camping breakfast and you want to use an electric kettle for coffee (800W to 1500W) and an induction cook top for eggs and bacon (600W to 1800W), that’s a lot of watts at the same time (1400W to 3300W total). But if you make coffee first (it only takes a few minutes), and then run the cook top, you don’t need anything nearly so large.
If your needs are simple and all you want to do is charge your phone, run a CPAP machine and a fan, then the smallest low wattage power stations will do. Something in the 200 to 600 watts range will work just fine and keep all of those running simultaneously.
Anything that requires a heating element, including cook tops, electric ovens and pressure cookers, will require a much larger power station. The same goes for anything with a compressor, namely a refrigerator or portable air conditioner. Those will require a 1500 to 2000 watt power station.
If you’re doing construction work in a remote location, and you’re trying to run a table saw or mitre saw, you’ll need a very large power station, in the 3000 Watt range.
The second question is how long can you run a device on a portable power station, and that’s determined by the Watt Hours. Most portable power stations are somewhere in the 250 to 3000 watt hour range, in terms of total capacity.
In simple terms, if you have a 1000 Watt Hour power station, then you can run a single 100 watt appliance for 10 hours. In reality, it’s a bit less than that, and most power stations can only be drawn down to 85 to 90% of their rated Watt Hours, especially if you’re using high watt appliances.
You would need a 240 to 480 watt power station to run a CPAP machine for 8 hours, but you’d be better off with something 20% larger just to be sure. (And considerably larger if you want it to run more than 8 hours.)
Some devices are constantly pulling a straightforward amount of power, while others, like a refrigerator, electric oven or induction cook top, turn on and off to maintain a temperature. The actual electricity used there will vary. (On average though, a standard household refrigerator uses about 4,000 watt hours every 24 hours.)
If your planning for a short term outage, or just using appliances sporadically during a camping trip, you wont need nearly as many watt hours as if you’re trying to power your whole house for several days.
There are many considerations when choosing a portable power station. Size, in terms of actual weight, but also maximum Watt output and Watt Hours will help you determine the actual model you need. Beyond that, the battery type is the most important factor when choosing the best portable power station manufacturer. Different battery chemistries have different characteristics, and it really does matter.
In some cases, you’ll want to consider the power output types (AC, USB-A, USB-C, etc.) as well as the different ways in which the power stations can be charged. If you just need AC plugs for common appliances, and you’re just going to be charging the panels with an AC wall input or portable solar panels, then all of these manufacturers will work equally well. If you need a specialized plug, such as a TT-30 for RVing or a DC5521 Output for specialized equipment, then the output options might matter as well.
Lastly, charging speed is a huge differentiator between manufacturers. Some portable power stations have fast charging and can go from 0 to 100% in less than an hour, even for relatively large capacity batteries. Others would take 16+ hours for the same charge, and everywhere in between. (The average is usually around 2-3 hours, depending on the power station size.)
You’d think that slower charging models would be a lot less expensive, but in most cases, they cost about the same and just hide the fact that they charge slowly somewhere in the fine print. All things being equal, it makes sense to choose the faster charging models when they’re at a similar price point.
Each of these portable power station is in fact portable, but some are easily carried, while others must be wheeled around if they need to be moved. The smallest models are only 5 or 6 lbs, but their power output is limited to 200 to 300 Watts (or around 200 to 300 Watt Hours). That means they can charge phones half a dozen times, or power a few lights for an evening, but not much else.
Larger models can weigh as much as 100 lbs and power a whole house for several days if you’re conservative with usage. They come as big as 3000 Watts, and around 6000 Watt hours of battery life. These are overkill for most people, unless you really need to power larger appliances (induction cook tops, etc.) or are a devoted full time RVer.
For the most part, the mid-range models have a good mix of portability and utility. They’re generally around 20 to 40 lbs, and can power most common appliances as well as charge just about any device.
The total watts determine what type of appliances you can run or charge from any given battery. If you’re charging a phone or laptop battery, their requirements are minimal. If you hope to run larger appliances, or multiple things at once, you’ll need a power station that provides substantial output at once. That’s what the “Total Watts” is measuring – how much power can go out at any given moment.
Some power hungry devices like microwaves, hair dryers, or induction cook tops can pull 1400 to 1600 Watts…and you couldn’t run those on smaller power stations. A 1000 Watt unit can run 93% of household appliances, and a 1500 Watt unit takes you up to 95% of common devices (adding in power hungry pressure cookers, waffle irons, etc). A 2000 Watt unit will cover almost anything (short of really high output electric stoves and full size clothes dryers), but generally something that big is used not to power one large thing, but multiple smaller appliances at once.
While total watts measures the maximum output at any given moment, Watt Hours measures the actual battery capacity. In theory, a portable power station with 1000 Watt Hours can power a 100 Watt light bulb for 10 hours, or a single 1000 Watt appliance for 1 hour. (It’s not quite that straightforward, and when you use the power at a lower rate, you actually end up with more watt hours than if you pull it all at once with a big appliance, but for the most part the total Watt Hours converts pretty well into a certain number of watts for a certain number of hours.)
When looking at total watt hours, think about what you might need to run off the battery and for how long. A small battery may charge your phone dozens of times, but it might only run a cooking appliance for a few minutes (even if it can handle a high Watt output).
There are two main types of battery technology used in portable power stations today, and they both have costs and benefits. While your capacity needs (size, Watt Hours, etc) will help you determine the exact model you need, the battery chemistry is what helps you determine which manufacturer actually meets your needs. This, in my mind, is the most important differentiator between different portable power station providers.
Lithium Ion (Lion-NMC) are an older battery technology that is relatively lightweight, but it only lasts about 500 charges. The batteries are also a bit less stable, and therefore less safe. They’re used by Jackery and Goal Zero, which are more portable and less expensive…but riskier and less long lived.
This type of battery degrades rapidly if you’re fully discharging it down to zero charge regularly, and they’re really meant to be used down to 60-80% of total capacity and then recharged. NMC batteries die very quickly if you use them below half capacity, and they’re meant to be constantly recharged as they run. That’s fine on a sunny day while camping, where you’re just using the power station to convert sunlight into power in real time, but it’s brutal as a backup battery in a storm.
NMC batteries have a very low self discharge rate, and they’ll hold charge in a back closet for a very long time. After 6 months in storage, our Jackery was still at 97% capacity.
All in all, the main benefit of NMC batteries is that they’re lighter weight and less expensive. They’re perfect for camping or occasionally charging devices, but they’re not the best option for an in home power backup that you’re not physically moving regularly, or you may need to discharge down to 0%.
(If you’re curious, the full name of this battery type is Lithium Nickel Manganese Cobalt Oxide (LiNiMnCoO2)…but it’s usually just shortened to NMC.)
LiFePO4 (Lithium Iron Phosphate or LFP) are a newer battery technology that lasts much longer and is incredibly safe. They will make it 2500 to 3500 charges without degrading, and it can be fully discharged down to 0% without degrading the batteries. This gives LFP batteries a useful lifespan of 20 years or more. They’re a bit more expensive, and about 20 to 30% heavier, but well worth it in terms of quality and safety.
LFP batteries are well worth it for in home backup use, and for anyone hoping to invest in something that will provide power for the better part of a lifetime.
This technology is used by Bluetti and Anker.
Ecoflow has a mixture of both battery chemistries, and in many cases it’s tricky to determine what you’re actually getting. The difference between the two battery chemistries is arguably the most important thing when choosing a portable power station. If you don’t need to move it frequently, then you should always choose the Lithium Iron Phosphate (LFP), they last longer, are safer and can discharge regularly without degrading battery quality. If lightweight is the main consideration, and you’re going to be carrying it to remote locations for camping, then shorter lived (but lighter) NMC batteries may be a better option.
As I’ll discuss shortly, Bluetti is the best option for LFP style batteries, while lightweight portable Jackery batteries are by far the best option if you’re in the market for an NMC battery.
All of the portable power stations discussed here allow you to charge them from a standard AC wall outlet, DC solar input or a DC car charger (3 methods). That covers the needs of most people, and shouldn’t really be a consideration except in extreme cases.
A few of the models, such as Bluetti’s larger portable power stations, allow you to charge the batteries from more obscure sources, like lead acid batteries (car batteries, deep cycle marine batteries, etc) that you may have lying around in an extreme emergency. That can be nice in some cases, but for the most part, it won’t really come up in day to day use short of a true zombie apocalypse.
Some also allow you to charge from DC solar panels and an AC wall outlet at the same time, which allows the batteries to charge faster. That’s a nice to have, but it’s not often that you’ll have good sunlight in range of an AC outlet for hours at a time unless your house is in the perfect spot.
For the most part, the basic charging methods cover just about every need, and this isn’t really something that should impact most people’s decisions.
While charging methods are mostly the same from all the manufacturers, actual charging speed for each battery can vary dramatically. Some models are limited to 100 to 200 Watts total input at a time, meaning they can take 16+ hours to fully charge (regardless of the power source). This is the case with most of the Goal Zero power stations, and they’re the slowest charging on the market (but at pretty much the same price as faster charging models from Jackery).
The fastest charging power stations can go from 0% to 100% in under an hour for small models, and under 2 hours for larger models. Those ultra fast charge models are made by Ecoflow, and based on their marketing, they’ve focused on fast charging above all else.
Most power stations charge fully in 2 to 4 hours, depending on size, and that’s fast enough for most uses. That includes power stations made by Jackery, Bluetti and Anker.
The main thing to note here is that I specifically do not recommend the Goal Zero stations because of their incredibly slow charging speed. If you do, for whatever reason, really want very fast recharge and that’s your main consideration, opt for Ecoflow. In most cases, a 2 to 4 hour charge time is just fine, so it’s not that big of a differentiator.
All portable power stations by definition are also solar generators – they all can connect into solar panels. That’s consistent across manufacturers, though some make solar panels that are lighter and more efficient than others.
My favorite solar portable solar panels at this point are the Jackery 100W panels, because they have a sleek, easy to use design. They unfold nicely, pack up even better and stay in position better than other on the market. They’re also some of the lightest panels available. (Jackery 200W panels are great too, but at twice as big and almost twice as heavy, they’re a bit unwieldy to handle…still better than just about every other portable solar panel on the market though.)
At this point, I’ve covered all of the main decision points when it comes to choosing a portable power station. Now I’m going to take you through all the major brands on the market, including:
In my opinion, the best option for long lasting LFP batteries is Bluetti, and the best option for highly portable, relatively inexpensive NCM batteries in Jackery. I’ll explain why in detail shortly.
A Las Vegas startup that launched in 2019, Bluetti has quickly become one of the biggest manufacturers in the market, largely because they’re offering newer (and much better) Lithium Iron Phosphate battery technology. Older NMC Lithium Batteries are only good for about 500 charges, and they’re prone to fires. The newer Lithium Iron Phosphate batteries last for at least 2500 charges, and they’re incredibly safe.
The downside is that they’re a little bit heavier, so they’re not used in cars (yet). In terms of portable power stations, we’re only taking a few pounds different to get 5x the lifespan and obvious safety benefits. For whole house systems that aren’t moving, these are the obvious choice.
They are slightly more expensive and slightly heavier, but they’re well worth it for most use cases.
Besides using the better LiFePO4 battery technology, Bluetti also added in 7 different methods for charging these batteries, which covers just about everything you can imagine in an emergency. Most portable power stations can be charged by an AC wall outlet plugin or with a DC car plugin, but Bluetti offers 5 other options in many of their larger power stations to ensure that you always have a way to charge your battery no matter what’s going on in the world.
That fact, along with their dependable, long lasting, safe battery technology makes them my top choice for emergency backup power at home.
In terms of output types, they offer all of the main plugs, including AC outlets, DC carports and USB-A and USB-C. They’re the only manufacturer that has a wireless charging pad built into the top of the unit, so that’s handy if you have a phone that can take wireless charging.
Bluetti in particular offers a lot of different size options, from a small 10 pound 600 watt portable battery system all the way up to a whole house backup system that’d power a modern home for a week without a blip.
At this point, I’m only talking about portable power stations that are designed to be carried or moved by 1 or 2 people. The type you’d keep in a closet in your apartment for charging devices or running appliances in an emergency, or carry with you when car camping.
Bleutti also offers whole whole battery backup options with outputs up to 9000 W and 19,840 WH. (For reference, our home inverter is rated for 3000 W output and we can run all our appliances, well pump, AC, washer, dishwasher, oven, tools, etc. at the same time without any issues. You could run 3 of our house on that system!)
Bluetti Portable Power Station Options Include:
Most of their offerings are stand alone power stations, but the AC200Max is an expandable power station that’s 2200 W with a capacity that ranges between 2,048Wh to 8,192Wh with the addition of B230 or B300 Batteries. This is one of their smaller whole house options, and it is still technically “portable,” especially if you’re traveling by car or RV. It comes with a TT-30 RV plug, and it’s the best portable power station for RVs and whole home backup.
The B300 adds 3072 WH per battery and the B230 adds 2048 WH per battery, and you can add between 2 and 4 batteries depending on compatibility.
This review is limited to portable power stations, so I won’t go through all their larger whole house options, but here’s where you can find information about their whole house backup power options. In general, Bluetti is my pick for whole home power backup, and you just need to choose the system size based on your needs.
A California based company founded in 2012, Jackery was one of the first portable powers stations designed for camping. Each of their portable power stations has a built in handle for easy carrying, and they introduced lightweight solar panels that pair perfectly for easy charging on the road.
They’re one of the best selling portable power stations on the market, with more than 2 million units currently in use worldwide. People really seem to love the portability and ease of use that comes with a Jackery.
Jackery boasts that their portable power stations weigh 30% less than the competition, and really markets themselves toward campers and RV enthusiasts. A batter can fully charge in under 2 hours, and will operate in both cold and heat (from 14 F to 104F, or -10 to 40C).
They’re lightweight and relatively inexpensive because they use the older NMC battery technology, which has it’s downsides. It’s a bit less safe than the newer Lithium Iron Phosphate batteries, and the batteries wear out much faster. This the best portable power station for camping, where you really need the portability, but not the best choice for home use.
They’re rated to provide standby power continuously for 2 to 4 years (daily usage & recharge), or weekly usage for camping and other trips for up to 8 to 10 years.
They offer a 3 year warranty, with an additional 2 year extended warranty if you register your product. That is one of the best warranties on the market, and it shows they really stand behind their products.
Lion-NMC)
Jackery Power Station Options Include:
Jackery also offers high whole house battery banks and expansion batteries, which is outside the scope of this review. In any case, the real benefit of the lightweight NMC battery chemistry is portability. If you’re looking for a whole house solution, you really should consider LiFePO4 (Lithium Iron Phosphate) batteries, such as those made by Bluetti.
If you need solar charging, Jackery has portable solar panels in 80W, 100W and 200W. Their main solar panel page has a “how many solar panels do I need” calculator that will help you choose the right number of panels to most efficiently charge the portable power station you’ve chosen.
Pro models have more inputs, so they can accommodate more panels and charge faster. Anything under a Jackery 500 only needs a single panel of any size to get the job done.
We have a Jackery 1500, along with four 100 Watt Solar Panels. When we bought ours, the faster charging Jackery 1500 pro was not available yet, let alone the 2000 and 3000 models. If I had to choose again I’d get the Explorer 2000 Pro, as it’s about the same price as the 1500 but has much more capacity and faster charging, and it’s only a few pounds heavier.
A Utah based company founded in 2009, Goal Zero offers portable power stations in a wide variety of sizes. They’re made with the older, NMC style batteries (similar to Jackery) that are less stable and have a shorter life span than the new Lithium Iron Phosphate Power stations made by Bluetti and Anker.
All in all, the NMC batteries offered by Goal Zero are similar to Jackery, but they take much longer to charge from a standard AC wall outlet.
The Yeti 1000X takes a full 10 hours to charge and the Yeti 1500X takes 14 hours, while the comparable Jackery 1500 takes just 2.5 hours. All for a similar price and weight.
Goal Zero power stations do have the option of a USB-C outlet (in addition to the USB-A), but that’s the only real advantage that I can see. If you have a USB-C device, a converter cable is about $10 to go from USB-A, so a Jackery is a much better option if you’re looking for a portable NMC power station.
The final consideration is size. They offer some of the largest NMC batteries on the market, going all the way up to a 6071 WH battery capacity with their Yeti 6000x. Keep in mind that at that size, it’s no longer considered “light weight” as it’s 106 lbs. Once you get to larger capacity batteries, it makes sense to use longer lasting, more dependable LFP batteries.
Solar panels made by Goal Zero are all extremely heavy, especially compared to the lightweight options offered by competitors with the same ratings. A 100W Goal Zero panel weighs 26 lbs, while a comparable 100W panel from Jackery weighs just 10 lbs (and costs exactly the same).
In my opinion, Goal Zero is one of the worst options on the market, at least in terms of major brand names.
Lion-NMC)
Options Include:
A tech company founded in 2011, Anker has produced small battery packs for years, along with a wide variety of excellent USB hubs (we use Anker hubs nearly exclusively), but they only recently started manufacturing portable power stations.
The larger, more advanced models (757 and 767) have faster recharging technology, and can recharge in as little as 1.5 hours, while the smaller models are a bit slower and take around 6 hours from a standard wall outlet.
Their models use advanced Lithium Iron Phosphate batteries, and in many ways they’re very similar to Bluetti’s power stations. The main difference is that Anker’s are much more expensive, and much heavier.
One of their models, the Powerhouse 767 has a built in TT-30 plug that allows it to connect directly as the power source for an RV, similar to Bluetti’s large models.
If you’re looking for something with the same technical specs, but a bit lighter and less expensive, go with Bluetti.
Options include:
Perhaps best known for their whole house backup options, Ecoflow also offers portable power stations and solar panels. They boast the fastest charging in the industry, and most of their portable power stations charge in 1 to 2 hours, depending on the model. (That’s a bit faster than Jackery and Bluetti, and it makes the 10 to 16 hour charge times of Goal Zero just plain embarrassing.)
My main complaint with Ecoflow is that it’s incredibly difficult to sort through all their options. The naming conventions from the other companies are very simple, but Ecoflow didn’t get that memo.
They offer at least 17 different portable power station models…but all of them have very similar (and confusing) names. Some have older and less stable NMC battery technology (similar to Jackery and Goal Zero) and others have the modern long lasting Iron Phosphate battery chemistry (like Bluetti and Anker), but they make it very difficult to actually see what you’re buying.
The battery chemistry info is arguably the most important factor, but it’s buried deep within the specs page and I imagine many of their customers think they’re getting one thing but end up with another.
(I’ve actually even found references that claim that some of their batteries are made with the obsolete – and highly toxic – Nickel Cadmium (Ni-Cad) chemistry, but at least as far as I can tell those have been discontinued.)
With so many different models, and multiple battery chemistries, it’s incredibly hard to find the right charging cables and accessories (or combine multiple batteries in one system).
Generally, you can’t combine two types of battery chemistries into a single system, so if you’re looking for a whole house solution with multiple units it can be extremely complicated to figure out exactly what you need. They also have many different discontinued units, and overall it seems like they can’t seem to make up their minds about what they’re doing.
It also looks like they come out with different models every year, and getting accessories and support for retired models may be difficult after just a few years. Add in the fact that they only offer a 12 to 24 month warranty, the shortest in the industry, and it really seems like they’re not planning on supporting any particular model in the long term.
Beyond power stations, they offer 7 different types of solar panels, multiple different whole house and portable wiring options.
While they have by far the most choices…but it’s paralyzing trying to sort through them all. As someone who knows quite a bit about batteries and off grid technology, it’s still disturbingly complicated to sort through.
They break their offerings down into different groups, and portable power stations under 1000W are in the “River 2 Series.” Some (but not all) of these are the safer, longer lasting Lithium Iron Phosphate batteries:
Of course, to confuse things, they also have a “River series” power stations with NMC batteries:
The larger Ecoflow power stations are in the Delta Series, and some (but not all) of these are run on Lithium Iron Phosphate battery chemistry. These are Lithium Iron Phosphate options in the Delta series:
To make things confusing, they also have less stable, shorter lifespan (but lighter) NMC batteries in the Delta series, namely the several Ecoflow Delta and Delta Max options. I know, the names are very similar, but with the NMC battery chemistry you’re getting something completely different here.
Beyond all the confusing names in their portable power stations, they also offer more solar panel options than any other portable power station manufacturer, including both portable panels in 60W, 110W, 160W, 220W Bi-facial, 400W. They also have mountable 100W & 400W panels.
At this point, I hope I’ve given you enough information to decide on a portable power bank for your needs. In a nutshell, I’d suggest choosing something from Jackery if you need extra portability for camping, but in all other cases, Bluetti is a better option since the battery technology lasts much longer (3000 recharges, instead of 500) and is significantly safer.
These are some of the most common questions asked about portable power banks and solar generators. If you don’t find the answers you need, leave me a note in the comments and I’ll add your question (and my answer) to the list.
Old style portable generators generally run on gas or diesel, and they don’t have batteries attached. They can power things directly so long as they’re running, but they won’t work unless the engine is on. They can only be stored and run outside, and they’re noisy and produce a lot of emissions. They have to be professionally installed for whole house use, and there’s a risk of carbon monoxide poisoning if improperly setup.
Portable power stations, on the other hand, are batteries that can run indoors 24/7 without emissions or notable noise. They’re recharged via solar panels, but they work just fine from battery power on cloudy days too.
You can, of course, recharge your power station using a gas powered generator. This can be helpful in an extended outage, where you run heavy appliances for an hour or two directly off the generator while also charging the power station, then using the power station for smaller power needs throughout the day (or overnight).
It really depends on your situation. Having battery backup power will allow you to run things 24/7, and you don’t have to have a noisy generator going to keep small things going overnight (like a CPAP machine). Power banks are more portable, and work better for camping, and they’re perfect for short term outages (or outages in areas with a lot of sun to recharge the batteries each day).
The main benefit of gas generators is they can produce power for very high watt tools, like welders, so they’re used in back country construction applications where power banks won’t quite put out enough juice. The also have the benefit of working well in cloudy areas for extended outages, where you don’t get much charge from solar panels.
This is where terminology gets tricky. Some people use the terms interchangeably, but generally, power stations are larger batteries capable of powering appliances. Power banks, on the other hand, are very small batteries that are used to charge phones a few times.
Power stations have regular AC house plug outlets, while power banks generally have just a USB plug for your phone or laptop charger. They’re really just an extra battery for your devices, while a power station can be used for just about anything.
Yes. Portable power stations are the same as a solar generator. Generally, when you say portable power station, you’re referring to the batteries and inverter that are housed in a portable box. When you add on the solar panels as well, the whole thing is called a solar generator. A solar generator is just a portable power station with solar panels attached.
Depending on the size of the portable power station, they can run 99% of common household appliances. The main exceptions are some extra large induction cook tops, really deep wells with overpowered pumps, large heat pumps, and large electric dryers. (Most average sized versions of these can be powered on a good sized portable power station, we’re just talking about the really jumbo versions.)
Portable power stations range between 200 Watts and 3000 Watts output, so you’ll just need to check the particular appliance you have on hand and make sure that you choose a power station rated to handle the maximum wattage. A list of the watt requirements for common household appliances can be found at the beginning of this article.
Yes. Most portable power stations are rated to run refrigerators, but you’ll need to check the wattage of your particular refrigerator. A typical household refrigerator is around 350 to 800 watts, so you’d just need to choose a power station that can handle that kind of output. Small dorm sized refrigerators need less power, and some of those run on as little as 100 watts.
How long you can run a refrigerator depends on the total watt hours of the battery, and if it’s recharging while it’s running. An average household refrigerator requires 4,000 watt hours of electricity to run for 24 hours, and mini fridges or dorm fridges can often run on as little as 600 watt hours per 24 hour period.
The lifespan of a portable power station depends on the battery chemistry and how often you use and recharge the battery.
Longer lasting LFP batteries used by Bluetti and Anker, as well as some of the newer Ecoflow power stations are rated for 3000 recharges. That’s 8 to 10 years of life if they’re used every day, or 30+ years if they’re used a couple of times a week. If you’re using them very infrequently for camping or emergencies, they’ll last even longer. They’re basically a lifetime investment, if cared for properly.
Shorter lasting NCM batteries used by Jackery and Goal Zero, as well as some of the older Ecoflow power stations are only rated for 500 recharges, and they degrade rapidly if they’re frequently discharged down to 0%. They’re rated for 2 to 4 years of frequent use, or up to 8 to 10 years of occasional emergency use if kept well charged. The main benefit of this type of battery chemistry is that it’s 30% lighter than LFP batteries, so it’s a bit more portable.
Generally, longer lasting LFP batteries are a much better long term investment if you’re not carrying the battery around with you constantly, but portable NCM batteries often work out better for car camping.
It depends on the type of power station, and how the manufacturer designed it. Most power stations will charge fastest through a standard AC wall outlet, and some manufacturers allow you to charge the power station from 2 AC outlets simultaneously.
In many cases, the fastest charge actually comes from simultaneous AC charging and DC solar charging, if your power station is setup for that sort of thing. Many don’t allow for two simultaneous inputs, or cap the total inbound watts due to hardware limitations.
Ecoflow power stations are the fastest charging, and they charge best with a standard AC outlet.
Jackery Power stations charge from an AC outlet in about 2 to 3 hours, but take 35+ hours through a cars DC port. Solar charging them takes 6 to 12 hours, depending on the model. You cannot dual charge Jackery power stations, and you need to choose a single input type.
Some of the larger Bluetti power stations like the AC200Max allow for dual solar and AC outlet charging, and that is the fastest way to charge those. (Smaller models only have one input.)
For Goal Zero power stations, AC is your best bet, but all methods are extremely slow because they used cheap charging technology. It’s going to take 16+ hours to charge many of their power stations, and longer if you use solar. I don’t really recommend them at all, for this charging issue, as well as other flaws.
Arguably, the battery chemistry of your portable power station is the single most important factor. Once you choose the battery chemistry, the only other thing you need to decide on is size based on your power needs.
I talk extensively about the pros and cons of each type of battery chemistry, but in general, longer lasting LFP batteries used by Bluetti and Anker, as well as some of the newer Ecoflow power stations are the best option for most applications. You should only choose the NCM battery type (used by Jackery and Goal Zero) if you need very light weight batteries for camping or other uses where you’ll be physically carrying them with you frequently. Even then, many of the smaller LFP batteries are only slightly heavier and they are very portable too.
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