Off-grid solar systems: An introductory guide
Individual panel prices
Prices of DIY kits
Installed system prices
Off-grid solar means meeting all your energy needs from the power of the sun — with no help from the electrical grid. To make this possible, you need to install a solar power system paired with an energy storage system, like a solar battery, at the site of power consumption (your home).
Installing an off-grid solar system was once a fringe concept due to its large space requirements and prohibitive costs. But advances in solar tech over the last decade have made solar equipment more efficient and less expensive, helping to push them into the mainstream. It’s now a fairly common sight to see RVs and country cabins powered entirely by off-grid solar systems.
If you’re thinking of buying an off-grid solar system for yourself, you’ve come to the right place. In this blog, we'll tell you what you need to know about off-grid solar systems before buying one. We’ll help you figure out if an off-grid solar system is right for you, and tell you how to buy the right system for your needs.
While many people think only of solar panels when they hear “off-grid solar”, the reality is that you need to add many other components to get a functioning off-grid PV system.
A complete off-grid solar system has all the necessary equipment to generate, store, and supply solar energy onsite. As off-grid solar systems operate without a connection to any external power source, they are also referred to as “standalone solar power systems”.
Unlike other types of solar setups, such as the more common grid-tied solar system, off-grid solar systems rely on batteries to provide power when the sun isn’t available.
Batteries, however, are costly — much more so than the solar panels they are paired with. The need for ample battery storage in off-grid solar systems makes them much more expensive than grid-tied solar systems.
One of the biggest advantages of solar as an energy source is its scalability and modularity, which is the degree to which a system’s components may be separated and recombined for flexibility and variety in use.
It works at all levels, from small devices such as solar phone chargers, all the way up to a system that can power a factory.
Here are some of the most common applications of off-grid solar:
It’s worth noting where off-grid solar systems do NOT make sense: where there is easy access to the utility power. This covers situations where one is looking to power a home in a city, suburb, or town.
If that’s you, you can save much more by opting for a grid-tied or hybrid solar panel system — or even just sticking solely to grid power — depending on the economics of solar in your area.
Here’s a list of all the equipment required for a functioning off-grid solar system:
Electricity from the solar array flows to the charge controller - from there it is either sent to the battery for storage, or to the DC-AC converter (aka inverter) to supply power to the home.
For more information about each of these components, check out this blog on solar panel equipment.
Watch this video to hear about what it's like to live off-grid from solar expert Will White, who has first-hand experience.
Deciding on the size of the system you need is an early and absolutely crucial step when it comes to installing an off-grid solar system.
It will affect the kind of equipment you need, how much work the installation will involve, and, of course, the total cost of the project. Solar setup sizes are based on the amount of power the system needs to provide.
There are two different ways to figure out the number you need, and they are based on:
You can use this option if your aim is to maintain your current lifestyle as you switch from grid-tied to off-grid solar. To do this, you can simply refer to your monthly power bills to determine your electricity usage in kilowatt-hours.
You can then size an off-grid system of that size, although you’d want to go a bit bigger — say 10% more — to allow for solar inefficiencies.
The second option is to perform a complete load evaluation to determine how much power you’ll need.
Begin by listing out all the appliances you plan to use, and how many hours you’ll be using each of them. This allows you to calculate the power consumption of each appliance, as well as your total power consumption over a day.
Knowing how many kWh in a day you’ll use will allow you to size your solar panel array, as well the solar battery storage.
You’ll also have to calculate how many appliances you might run simultaneously. This will help you calculate instantaneous wattage requirements, which you need to know in order to size the inverter properly (the inverter runs the AC loads).
Next, you’ll need to decide how much energy storage you want. Do you want to cover usage for just one day, or do you want to have extra backup capacity?
When it comes to solar battery backup, the rule generally is you'd want enough storage to cover at least 2-3 days of usage during the highest usage time of year.
Figuring out the sizes of these three crucial components — the solar panels, inverter, and battery storage — is usually enough information for solar equipment vendors to customize a complete off-grid kit for you.
The prices of off-grid systems range from about $50 (for a phone or tablet charger) to tens of thousands of dollars. That’s because off-grid solar has such a huge variety of applications.
If we talk specifically about off-grid solar kits that can power an entire home, then prices range from $12,000 to $50,000.
You can get an idea of pricing from the table below; it shows popular off-grid kits for different end-use requirements:
|Name||Peak output||Battery||Price*||Suitable for|
|Hiluckey||5 W||25,000 mAh lithium polymer||$47||Phone and tablet charging|
|WindyNation||400 W||4.8 kWh 12V lead acid||$1,849||RVs, camping|
|AltE - Base Kit 3||1.98 kW||13 kWh 12V lead acid||Starting at $9,165||Cabin, tiny home|
|AltE - Base Kit 2||5.28 kW||25.9 kW 48V lead acid||Starting at $15,433||Small home|
|Northern Arizona Wind & Sun - Sol-Ark Power Kit||13.14 kW||27 kWh lithium battery||$37,093||Mid-size home, farm/ranch|
|*Prices as of March 2022|
Please note that the costs mentioned are only for the off-grid solar panel kits, i.e. just the equipment. If you use a professional solar company for installation, there will be additional labor charges; whereas with a DIY, there may be some extra costs for permitting and tool requirements.
Learn more: DIY solar: Pros, cons, and 6-step installation guide
Your choice of battery technology will have a big impact on the cost of your off-grid solar system.
Newer lithium batteries offer advanced functionality and come in a small, sleep form factor. They are, however, very expensive and will account for a large portion of the costs if you use them.
By contrast, AGM (Absorbent Glass Mat) lead-acid batteries are bulky and have a shorter lifespan - but they are much cheaper. Their low price makes them a popular choice for off-grid solar systems.
The buying process for off-grid systems will vary based on the size of the system you want.
If you’re looking for a company to handle the complete installation process for an off-grid solar system - from system design and procurement to installation and permitting and inspection - then check out the SolarReviews solar companies database.
It’ll show you the best local solar companies in your area based on consumer reviews.
If you’re a DIY’er looking to power an entire structure - a shed, cabin, house, or even a farm or ranch - then you’ll want to buy from a reliable solar equipment distributor. Northern Arizona Wind & Sun and the altE Store both have great kits that come with plans and support
For people looking for portable solar power for when they’re camping or using RVs, there are many options, including Home Depot, Amazon, Best Buy, etc. Brands that have good reputations are Grape Solar and Renogy; both are American companies.
However, there are now many brands in the market, many with much lower prices; just make sure to check reviews and warranty details before making a purchase.
Over 300,000 homes are believed to be using off-grid power sources for their energy needs. Here are a few reasons why some Americans choose to live off the grid:
This is the primary reason why people in blackout-prone regions are interested in off-grid solar. When connected to the grid, you are dependent on an external supplier — the utility company — for all your power.
When the grid shuts off, so does your power supply. This dependence doesn’t seem to be a problem until you are hit with blackouts and power failures, as those who have suffered through the Texas power crises can attest.
Going off-grid reduces carbon emissions. Since most of the electricity supplied through the grid comes from burning fossil fuels, producing your own power through renewable resources (solar, wind, hydro) drastically reduces your carbon footprint.
When you’re connected to the grid, it’s easy to be unaware of your power consumption habits — you consume electricity, pay the bill when it comes, and that’s that. It disconnects you from where the electricity is coming from and where it’s being used.
Your attitude when it comes to power changes completely when you go off-grid. To ensure you don’t run out of electricity, you will have to closely follow your energy generation and also re-evaluate and rationalize your energy consumption.
When you’re seeking to power a building in a really remote location - say a hunting cabin out in the woods - there’s a good chance there’s no grid to connect to at all.
If you contact the utility for a connection, they will probably tell you that you are out of their coverage area. Alternatively, they could offer to lay the wire to connect you to the grid — but only at an astronomical cost.
That means that you’ll have to produce your own power. You could use a backup generator, but fuel for it is expensive, while renewable energy like hydropower and wind aren’t available in most places. This leaves solar as the only practical option for off-grid power.
A beautiful off-grid A-frame cabin in the Catskill Mountains. Image source: Chris Daniele via OffGridWorld
Most families going solar choose to remain connected to the grid, and for good reason. Here are some of the main challenges involved with going off grid.
Certain counties across the country have made it illegal to unplug from the grid. Such restrictions are typically found in more urban counties.
A solar panel setup that supplies all the energy needs of a home tends to be very expensive.
Compared to a grid-connected solar system, an off-grid solar system requires more panels, an inverter with a higher voltage capacity, and a large amount of solar battery storage.
And since there’s no grid to fall back on, you will want to purchase a gas or diesel-powered backup generator, and these are very expensive to run. This also adds greater urgency when repairing faults in your off-grid system because generators cannot be relied upon for too long.
Making the commitment to produce enough power to meet all of your household’s needs is an extremely challenging task.
A fairly advanced understanding of how electricity works is required. Because generating power is an exact science, you will have to spend time calculating the precise amount of power that needs to be generated, based on your energy usage patterns.
Time will need to be spent ensuring you are keeping power waste at a minimum. And because power generation can be unpredictable, you will have to constantly monitor your power supply.
You also must learn about the equipment used to generate power and be capable of fixing any and all faults.
California California’s Self Generation Incentive Program (SGIP) is one of the largest battery storage incentives in the country. Eighty percent of the incentive's budget is allocated for battery storage.
People can save thousands of dollars on batteries with the SGIP rebate, especially if they live in fire hazard districts. But the catch is that SGIP is only available for grid-tied solar systems with battery backup — and not for pure off-grid solar systems.
The biggest reason why going off-grid may not be for you is because there simply is a better alternative.
The easiest and most efficient way to protect yourself from blackouts, while saving money on your power bills and helping the environment, is by installing a grid-tied solar system with battery backup. Another name for this type of setup is a hybrid solar system.
These ‘hybrid’ systems, which use battery solutions such as the Tesla Powerwall, are cheaper than off-grid systems and also qualify for incentives such as the SGIP rebate.
Talk to anyone with an off-grid solar system, and they will tell you the same thing: relying on off-grid power requires you to completely reevaluate your relationship with energy.
The high cost of off-grid solar means homeowners are forced to install relatively small systems. The amount of power available is often further limited by inclement weather: a cloudy day may result in power output reductions of 50% or more.
Running out of power leaves you in a bind. You will either have to wait for the sun to come out again or generate power using a backup diesel generator (if you have one). The first option is very inconvenient, while the second is very costly.
These constraints can affect every aspect of your life. Many off-grid folks, for instance, say the need to conserve power means they have to economize on water as water pumps consume a lot of power; this means short showers and less frequent flushing. Air conditioning, an even bigger power guzzler, can only be used for limited periods, if at all.
Without careful management of your off-grid energy usage, you could find yourself running out of power when you need it. Image source: AP
Off-grid solar is the most convenient energy source when it is hard (or impossible) to access the grid. It’s hard to imagine, say, a camping enthusiast forgoing solar in favor of a generator that is heavy, noisy, and requires costly fuel.
It is also usually the best option for those committed to a low carbon footprint, sustainability-minded lifestyle. Other renewable energy sources, such as wind and hydropower, aren’t just more expensive, but they also require access to a reliable wind and water supply.
On the other hand, if you are a typical homeowner living in or near a city or town, then off-grid is almost certainly not for you.
This is because off-grid solar systems for homes are expensive and thus rarely yield any savings over utility power. Furthermore, the high cost of off-grid solar means homeowners are forced to install relatively small systems; the limited power they provide imposes major lifestyle sacrifices on the home’s residents.
If it’s financial savings you’re interested in, then look at grid-tied solar systems instead. They are the cheapest way to go solar, and in many states, they can result in savings of $100,000 or higher. And having a connection to the grid means that you’ll have consistent access to all the power you need.
You can learn more about how grid-tied solar systems work here.
If, however, getting a battery backup like the Tesla Powerwall is a priority for you, then consider hybrid solar systems. Hybrid solar systems are grid-tied systems that also have batteries. While hybrid systems are more expensive than simple grid-tied systems — and thus offer lower savings — they are still far cheaper than an off-grid setup.
You can check the costs and savings of a grid-tied solar panel system by entering your address into the calculator below.