Collection: Grid-tie solar kits
Our DIY grid-tie solar kits contain the core components needed to install your own home solar system start saving money on your energy bills. Hire a local contractor or install your own solar panel kit for extra savings!
Each solar kit contains solar panels, an inverter, and racking materials to mount your solar array.
Money-back guarantee: Shop with confidence. If your permit for your grid-tie solar system doesn’t get approved, we’ll refund your purchase in full. (Details)
Solar Panels for Homes Businesses
Our DIY grid-tie solar panel kits contain the core components needed to power your property with solar. Each kit contains solar panels, an inverter, and racking materials needed to mount your panels.
By sourcing a solar panel kit from GoGreenSolar, you can save money on your solar project by skipping the markup from national solar installers. Our kits give you the flexibility to hire a local contractor, or install your own solar panels for even more savings.
Each kit comes with a Custom Installation Guide to walk you through your project, and you’ll be backed by our team of solar experts throughout the design and installation process.
How do grid-tie solar systems work?
If your property has access to the public utility grid, you can connect your solar power system to the grid to maximize your savings. The energy generated by your solar panels is sent into the grid, so there’s no need to buy a battery bank to store it locally.
Grid-tie solar is made possible by entering a net metering agreement with your utility company. Under a net metering plan, the utility company will track how much electricity your panels generate and feed into the grid. You earn credits for the energy you produce, which you can spend to power the appliances in your home.
Buying a grid-tie solar system is by far the most cost-effective way to go solar. Choose our grid-tie solar kits if your primary goal is to save money on your electric bill.
Want to protect against power outages? Consider adding backup power to your home solar system.
What’s in our grid-tie solar kits?
Solar panels convert sunlight into electricity. Your solar panel system should be sized to offset 100% of your monthly energy bill.
Our grid-tie solar kits are packaged with high-efficiency solar panels backed by a 25-year performance warranty.
An inverter converts DC power from your solar panels into AC power, the format used by most household appliances.
String inverter kits are the most budget-friendly option, but they don’t perform as well if your panels will be covered by shade. You can pair PV optimizers with a string inverter to minimize the impact of shading.
Another option is microinverters, which forgo a central string inverter in favor of smaller inverter modules that attach to the back of each individual panel. Microinverters not only help with shading, they allow for more flexible panel layouts, which can be a huge help if you have limited space for your panels on your roof.
Our grid-tie solar kits come with IronRidge XR roof mount or ground mount racking materials. IronRidge racking materials are tested and proven to perform in extreme environments. Plus, their products are fully certified, code compliant and backed by a 20-year warranty.
IronRidge racking rails feature mounting holes that provide a quick and easy way to mount your solar panels. We have found their products to be intuitive for DIY solar installations, which is why they feature in all of our kits.
If you are installing rooftop solar panels, your kit will contain roof flashings to secure the racking rails to the roof.
Some parts not included: Ground mount kits will require the construction of a metal support structure to provide a strong foundation for the array. The heavy metal pipes needed to build this support structure are expensive to ship, so they are better sourced at the local pipe/tube supplier. Don’t worry, we’ll provide a shopping list with everything you need for a complete installation.
Free eBook: Beginner’s Guide to Going Solar
This free PDF covers everything you need to know about going solar. Learn how to design your system, calculate your solar payback period, and expertly navigate the permitting and installation process.
FAQs about grid-tie solar
What size solar panel kit do I need?
To make the most of solar, your solar power system should be sized to offset 100% of your property’s monthly energy usage. Kit sizing is based on a number of factors, including monthly energy consumption, local climate, shading, and the orientation of your panels. Learn more about our solar system sizing guidelines.
While our solar calculator can help you estimate how many solar panels you need, a site evaluation is necessary to accurately size a system based on factors unique to your project. When you’re ready to go solar, our team can provide a free solar panel analysis for your home and design a custom kit that suits your needs.
What are the benefits of going solar?
Most people know that solar is great for the environment. But grid-tie solar can also save you money on energy bills, add value to your home, and protect you against rising rates from the utility company. Learn more about all the ways homeowners can benefit from going solar.
How much do solar panels save?
By switching to solar, grid-tied homeowners can save a significant amount of money on their electric bills. Depending on your project, the payback period for grid-tie systems can typically range from 5 to 12 years. With solar panels warrantied for 25 years, there’s plenty of time left for homeowners to profit from their investment into solar.
Learn how to calculate your solar payback period and return on investment to see how much you can save on your energy bills.
What is the solar tax credit?
The solar tax credit is a government incentive program for people who invest in renewable energy. When you go solar, 30% of your project costs can be claimed as a credit toward your tax return. The program can help you save thousands on your solar project, but it won’t be around forever: the tax credit is set to expire at the end of 2032.
Can I install my own solar panels?
Yes! DIY solar is possible with our solar panel kits. A typical installation requires at least two people, and usually takes 2-3 weekends to complete. If you are comfortable climbing on your roof and wiring an AC outlet (or willing to learn how), you most likely have what it takes to install your own solar panels.
If you’d like to install your own system, we provide a Custom Installation Guide to walk you through it every step of the way. We also offer permitting and interconnection services so that your system receives permission to operate as soon as possible.
Building a Grid-Tie Solar System: Resources
New to solar? Learn the basics about going solar, including cost ROI calculations, system design guidelines, and installation tips.
Our solar calculator can give you a quick easy estimate of your needs based on your ZIP code and monthly energy usage.
Systems installed before the end of 2032 are eligible for a 30% tax credit, which can rapidly accelerate your solar payback period. If you owe taxes, you’re probably eligible to claim the credit.
GoGreenSolar is run by experienced solar veterans, packaging solar kits since 2006. We’re a local American-grown solar company based in Orange County, California, and our work has been featured on CBS, NBC, and USA Today.
We do more than ship you a box of parts. Our team provides expert support with installation, permitting, rebates, and interconnection. Everything we do is designed to make the process of going solar as quick, painless, and affordable as possible.
Our clients have saved thousands by ditching overpriced national installers and taking charge of their solar installation. Whether you hire a local installer or install your own solar panel kit, we’re here to help you maximize your savings and make the process of going solar as painless as possible.
How much do solar panels cost? Use our easy solar panel calculator to get a quick estimate of how many solar panels you’ll need for your home.
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Grid Tie Solar
A grid tie solar PV system is the easiest and least expensive way to use clean solar power at your home or business in most cases. This is generally true for two reasons:
- Equipment and installation costs are lower because battery backup (and its associated chargers, monitors, breakers, etc.) is not required, and
- Many electric utilities offer net metering. a legal agreement in which unused power from your solar panels is automatically sold to the grid, creating credit on your utility bill at the same per-kWh price you pay for the power you draw from the grid.
With a grid tie solar system, your electrical demand will be satisfied first and foremost by your solar panels. When your panels can’t meet your demand (at night or during heavy overcast weather), electricity from the grid will be used instead. seamlessly and without the need for you to do anything. This means that in most grid-tied solar systems, the electrical grid replaces the battery backup portion of a system that would be required for off grid solar setups.
Free Grid Tie Solar System Quote
Fill out our online form and our expert solar technicians will work up a free grid tied solar power system design and quote for you.
Complete Grid Tie Solar System Kits
Our pre-designed kits take the guesswork out of shopping for components individually and are perfect for DIY installations.
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How to Connect Solar Panels to the Grid
Solar power is a clean and reliable source of energy for your house. Solar panels can be expensive but you can connect your solar panel to your home’s grid-power electricity. By doing this, you save money and make yourself less dependent on the whims of your municipal supplier.
In this article, we go over all the steps to connect your solar panels to the grid. We also go through connection and equipment requirements, as well as grid safety components and batteries for grid-connected homes.
Connecting Solar Panels to Your Grid
You can use a DIY solar kit for your home to install solar panels on your roof. You should try to supply about 5,000 watts of power per day to the house. You have to install a minimum of 20 250-watt panels for your home to become completely energy independent.
If you’re using more than one solar panel, you need to find out how to connect multiple solar panels.
By using solar panels, you can reduce the amount of power that your power grid uses. This is because the solar panels will be able to run things like your water pump, refrigerator, and some lights in the house.
Before you install batteries for the solar panels, you need to make a decision whether you want to replace your grid electricity or not. You can either replace it or install solar power that still uses grid electricity.
You can choose to use solar panels as backup energy only. In this case, you do not need batteries. If you are switching entirely to solar power, you will have to use batteries that store the solar power for use at night.
You can’t connect a solar panel directly to a battery. Instead, you need to invest in a charge controller to make sure the current and voltage for the battery are at the correct levels.
You can connect the solar panels directly to a power inverter and then connect it to your home grid. Alternatively, you can connect the inverter to the battery and then to the home power grid.
The inverter converts the solar energy into energy that is consumed at home. Every panel on your roof uses direct current (DC) and your home power uses alternating current (AC). The power inverter converts DC into AC power.
Link the inverter and the battery together. Try to find how to connect a solar panel to a battery and inverter diagram.
The wiring from the battery to a circuit breaker and an electrical shunt will be installed. Deliver DC current to the inverter at this point.
To avoid damage and overload, the circuit breaker and shunt will allow the current to break. The movement of electricity is controlled in this way.
Connect the inverter to your home’s AC fuse box. The inverter uses several transformers and switches to change DC electricity into AC current. Your home’s sockets and outlets are powered by these, and your electronics and appliances receive energy as a result.
If your solar or battery power runs out, connect the AC generator to the power inverter to give additional electricity. Solar energy is erratic, so if there are several weeks of overcast days, you risk using up all of your stored solar energy. To provide power, a backup source is necessary.
Load Side and Supply-Side Connection
There are two basic approaches when you connect a grid-tied solar panel system. You need to know how to connect solar panels to your house.
The most common is a load side connection. This is made after the main breaker.
The second approach is a line or supply-side connection. This is made before the main breaker.
Load Side Connection
The most typical way of connection is a load-side connection. The electrical panel receives a new circuit breaker or breaker. The dual-pole or double-space circuit breaker will be put in the place that is farthest away from the main breaker.
The PV solar system wires are then attached to this new solar breaker. Before connecting, a PV service disconnect box of the proper size must be utilized. A cheap external disconnect can be added, or some inverters already come with one.
With electrical tasks, there are numerous ways to complete them. A Supply or Line Side connection is a different type of utility connection.
Between the main service panel and the utility meter, a junction box is added. The junction box is then used to link the wires from the utility meter, the main breaker panel, and the PV solar.
Connection Requirements for Grids
There are many different requirements for connecting distributed generating systems. These include house, wind, or renewable energy systems, to the electrical grid.
However, connecting small renewable energy systems to the grid presents a common set of challenges for all power suppliers.
Therefore laws typically include safety and power quality, contracts, metering, and prices.
To learn about the exact requirements of your power provider, you must speak with them directly. Try contacting your state utilities commission or state utility consumer advocate group.
You can also contact your state consumer representation office, or state energy office. This is in case your power company does not have a designated employee to handle grid-connection requests.
You will need to buy some extra equipment so you can safely transport electricity to your loads. You also need to comply with your power provider’s grid-connection regulations. This is in addition to the principal small renewable energy system components. You might require the following supplies:
Before purchasing any component, you should speak with your power provider. This is to find out about its unique grid-connection requirements as they can differ.
Grid Safety Components
Power suppliers want to make sure that your system has components for power quality and safety. These elements include power conditioning equipment.
This guarantee that your power matches the voltage and frequency of the electricity flowing through the grid. It also ensures that it switches to disconnect your system from the grid in the event of a power surge or power outage.
Several organizations are creating national guidelines. These guidelines are for equipment manufacture, operation, and installation.
Your power provider will be aware of which standards apply to your situation and how to implement them.
Batteries for Grid Connected Homes
people are deciding to have solar homes that are still connected to the grid. They also utilize batteries to reduce their use of grid electricity due to the declining cost of lithium-ion batteries.
As a result, you gain the energy independence of living off the grid while also having the ability to switch back to grid power as necessary.
There are a few causes for this that you might consider.
If you have a net billing plan then using your own electricity instead of the grid will be more cost-effective. This is even with the additional cost of batteries.
If you experience a lot of blackouts where you live, then having batteries will enable you to keep your lights on during this time. Find out can you hook a solar panel directly to a battery.
Several different battery types are being developed by numerous manufacturers, specifically for the solar sector.
Now that you know how to connect solar panels to the grid, you can save money by doing it yourself. By using solar panels, you can be saving the amount of power that your power grid uses.
In the case of power surges or blackouts, you will be able to power some necessities in your home. You will also be able to safely transport electricity to your loads if you have the correct equipment and safety components.
Connecting solar panels to the grid can be an easy task if you have the right materials and tools. Once you have installed your solar system, you won’t have to worry about power outages again.
Did You Find Our Blog Helpful? Then Consider Checking:
- How to Connect a Solar Panel to a Motor
- Solar Panel Disconnect
- How to Set Up Solar Panels Off Grid
- Two Charge Controllers One Solar Panel
- Batteries for Solar Panels
- How to Charge Multiple Batteries with One Solar Panel?
- How to Use Solar Panels During Power Outage
- How Many Solar Panels do I Need
- How to Calculate Solar Panel Battery and Inverter
- Solar Panels for Mobile Home
- Installing Solar Panels on Roof
- How Much Energy Does a Solar Panel Produce
- How to Choose Solar Panels
- Grid Tie Solar Panels
- How Many Solar Panels to Run a House Off Grid
ON-GRID VS. OFF-GRID SOLAR SYSTEM: ALL YOU NEED TO KNOW
As the demand for solar-powered systems continues to rise every year around the world, the technologies behind them are also improving at a staggering rate, and this bodes well for the future of energy. But for most people, the lack of knowledge on how to go about with switching to solar-powered systems is what is keeping them from adopting solar power.
We are going to delve into on-grid and off-grid solar systems, look at what they are, how they function, how they compare to each other, and all the other details that will be of help to anyone looking to install solar power. So stick around to the end to learn a few tips that will help you understand the whole setup better.
WHAT IS AN ON-GRID SOLAR SYSTEM?
An On-Grid solar power system is one that is tied directly to the local utility’s grid that you use for your daily needs. It is the system that is used for most residential houses around the world. This is due to the fact that the houses are completely covered in the event that there’s an overproduction or under-production of power. Basically, an On-Grid system is flexible and compensates for the variations of power without putting anything to risk.
Another standout feature of this system is that any excess energy that surpasses your needs is stored away in the grid, and this gives you a chance to build credit that you are allowed to cash out at any point in time through a convenient process called net-metering.
With this system, there’s no need to add an expensive power-saving battery to the entire setup, and this can help cut off your initial investment when it comes to setting up an on-grid system in your house.
How an On-Grid Solar System Works
The On-Grid solar system works in a very straightforward manner that is easy to understand, especially if you have some knowledge on how power is distributed to homes from the main power grid. The following is a simplified breakdown of how this works.
- The electricity flows from the grid-connected to the user’s house and from the user’s house back to the grid. This is the special feature that makes this system a very flexible and useful one among the ones that exist.
- The solar panels that are installed on the roof of the user’s house are directly tied to the grid. They convert the direct energy from the sun into electric energy in the form of a Direct Current.
- This Direct Current is then sent to the inverter, which then transforms the DC into an Alternating Current that can now be used for all the electrical news of the house. This AC is then routed back to the grid, where it is then used to supply the house for the day to day usage.
- At the same time, the inverter helps regulate the amount of voltage of the electricity being supplied to the house. This is because the power being supplied may exceed the needs of the house.
- The power is then routed through the net meter, where power consumption is recorded, and the consumer gets supplied with the bill at the end of the month.
Components Needed for an On-Grid System
- Inverter: This is what converts the Direct Current that the solar panel produces into an Alternating Current that can now power things around the house and outside. It is one of the must-have components needed for making everything work on the on-grid system.
- Array DC Disconnect: This is an emergency switch that is used to disconnect the power in the house when it comes to conducting maintenance and repairs. It disconnects the power straight from the solar panel even before the DC is converted to AC, and this increases safety, especially when dealing with emergencies.
- Power Meter: This is used by the system to maintain a tie to the utility grid by measuring the amount of electricity that you use from the power grid. This way, any surplus power produced is redirected back to the grid for use in other places or for storage for later use.
- Charge Controller: This is a charge regulator that is used to maintain the proper voltage used in charging for the system battery. This helps stop the batteries from getting overcharged as that may spoil them and cause them to degrade.
Benefits of On-Grid Solar Systems
There are a number of benefits that one can accrue from using the On-Grid system, and they include the following.
- No Electricity Bills: When you have your solar panels conn3cted to the grid, you will only pay for the surplus electricity that you end up using, something that rarely happens. The bill that’s generated at the end of the month only serves the purpose of determining if the surplus has been passed or not. If the electricity usage is less than the expected target, it is fed back into the grid.
- Easy to Maintain: Dealing with repairs and other important works on an on-grid system is much easier compared to other systems. It has the least number of electrical parts, and the installation is very simple. The lack of things like batteries further makes maintenance a very easy thing that can be handled by anyone with basic knowledge of electricity.
- Easy Synchronization: An on-grid system can be synchronized with other forms of electricity like diesel-powered generators. This increases the convenience as you can seamlessly switch to a backup power option when the solar power isn’t working.
- Creates Profits: You can choose to sell the surplus electricity by supplying it to your neighbors at a cost. This can become a very good source of passive income as you will be earning money without lifting a finger.
- Cost-Effective Installation: The cost of setting up any solar system is not cheap; however, when compared to other systems, it is way much cheaper, and it comes with great long-term benefits. And when you consider the possibility of making money from it, it becomes a worthwhile investment.
Limitations of On-Grid Solar Systems
Despite their good reputation, On-Grid systems do come with their own limitations, and the most notable ones that you should be aware of are the following.
- They Lack Batteries: The lack of backup batteries may be good for cost-effectiveness, but it increases unreliability in situations where there’s not enough sun to generate electricity. Without storage batteries, you could find yourself in darkness for a very long time.
- There’s Less Incentive To Conserve The Energy: In some way, in situations where surplus power is not utilized properly, everything goes to waste, and this can come back to bite you when the sun eventually wanes at some point when seasons change.
WHAT IS AN OFF-GRID SOLAR SYSTEM?
When talking about Off-Grid setups, it simply means that you are not directly connected to the grid’s power system or any utility company that may be behind the management of electrical systems in your locality.
This is different from the on-grid system as you are independent. You generate the electricity you need in a self-sustaining way. However, it lacks some of the benefits that one would expect to find when using on-grid systems. The biggest among them is being forced to get an extra battery setup for storing any excess power that is generated. These cost a lot and are way too bulky, something that has discouraged many people from adopting solar power energy.
The power generated by the solar panel is consumed directly in the house, and any excess electricity is directed to the batteries for storage for later use. This is the kind of setup that is reserved for remote areas with no access to power grids. This is why they come with a backup mechanism that ensures the power is marinated and produced all throughout the year, no matter how bad the weather may turn out to be.
How an Off-Grid Solar System Works
An off-grid system is not connected to any grid system. The electricity produced is directly sent to the batteries for storage, and from that point, they are supplied to the house, where it powers all the common appliances. It is a very elaborate network of connectivity that links up the entire house with the needed electricity.
When the sunlight hits the solar panel, the energy is converted into electricity and sent directly to the batteries. This ensures that the batteries are continuously charged the more the electricity continues to stream in. Once the sun goes down, the house continues to receive the electricity directly from the batteries, and this continues for as long as the batteries have power in them.
Components Needed for an Off-Grid System
There are a couple of important components that are needed for an off-grid system to function as designed. All these components have to work with each other, and they include the following.
- Battery Bank: This is a system of batteries that are connected to each other by a neat network of wires and linked to a big power supplier. The main function of the battery bank is to store the excess electricity degenerated during the day for later use once the sun goes down. This is the only part of the off-grid system that makes setting it up expensive.
- Solar Charge Controller: This regulates how the battery bank is charged. The one thing that one has to be cautious about is overcharging the batteries, as that quickly reduces their lifespan. The solar charge controller ensures that the connection is stopped once the battery hits its charge capacity.
- Off-Grid Inverter: The main purpose of the inverter is to convert the direct current that is harnessed by the solar panels into alternating current that can now be used by all the electrical components in the house.
- DC Disconnect Switch: This is installed between the off-grid inverter and the battery bank, and it is used to switch off current between all the components at a moment’s notice for emergencies. It also comes in very handy for maintenance and troubleshooting.
- Back-up Generator: This is optional for those situations where the battery bank is damaged or is not damaged. Most run on diesel, but for most people who set up solar power systems in their homes they rarely have this as it is an added cost when you consider how expensive battery banks are.
Benefits of Off-Grid Solar Systems
The off-grid system comes with its own set of advantages that one can live with. Some of the most notable ones include the following.
- Self-Sustainable: There’s full independence that comes with using the off-grid system. You are not reliant on the grid and this means you control everything, from how the electricity is consumed and how it is stored. You have access to electricity even in seasons where there’s no sufficient sun.
- Cleaner and Cheaper: For most of the other systems to work, you require a backup option, and this comes in the form of diesel-run generators. These are not only bad for the environment but are extremely expensive to set up and run. Off-grid systems, on the other hand, are cheap to set up and are entirely reliant on the sun, the most renewable source of energy.
- Great for Remote Areas: Power grids are not as widespread as people may assume despite electricity being around for centuries. There are some areas that are not covered sufficiently enough to support any form of grid connection. This is where having an off-grid system comes in handy. All you would need to have things running is the basic equipment like a solar panel, long sunshine hours, and batteries for storage, and you are good to go.
- Safe From Power Cuts: You are your own boss when it comes to off-grid systems as you control everything on your own. There’s no power company that sets up a meter that keeps track of your usage for billing. Once you have set things up, there are no other charges that come knocking. You only need to worry about maintenance and repairs when the time for that comes.
Limitations of Off-Grid Solar Power Systems
Just like any other system, the off-grid setup has its own limitations that may cause a moment of consideration. These limitations include the following.
- High Cost: Setting up an off-grid system is very expensive when you factor in the cost of buying the battery bank, which is very necessary for the whole system to work efficiently. This cost is what may cause many people to avoid going with this option.
- Energy Waste: Any surplus energy that is produced when the sun decides to really come out will most likely go to waste. This happens when the battery reaches capacity much earlier. This type of waste is not good since it cannot even be harnessed by other people. Unless you chose to add more battery banks, which is another added cost.
- Unreliable in Bad Weather: When the weather goes cold for a very long time, the off-grid solar system will go offline for a very long time, and this can cause you a lot of problems if it is the only thing you depend on for your electrical needs.
- High Maintenance: The batteries used for backup require a lot of attention, and they also come with a very short lifespan. Without any proper maintenance, they degrade way too fast, and this can bring your solar panel project to a halt if you have no other means of replacing the batteries.
WHAT IS A HYBRID SOLAR SYSTEM?
There is another third type of solar system that combines the best features of the on-grid and off-grid systems to create an option that appeals to people who may want to have both systems but lack the funds to set them up at the same time.
Hybrid solar systems are both grid-tied, and at the same time, they come with bank batteries that you would normally find in an off-grid system. In a nutshell, you get full control of how you generate and use your electricity by having a system that allows you to tap into the best of both worlds.
How a Hybrid Solar System Works
A hybrid solar system works the same way as the other systems but with some little modifications that bring about great differences. It generates power by absorbing energy from the sun in the form of Direct Currents. This is then converted into an Alternating current, and it is immediately transferred into the grid.
From the grid, the power is then supplied to the house for direct use, and any surplus electricity is sent to the batteries for storage. Once the battery is full, the transfer is stopped and redirected back to the grid, where it can be used for other purposes or redirected to other locations that are connected to the grid.
Benefits of Hybrid Solar Systems
There are a couple of beneficial things that one can get from switching to a hybrid system, and the most notable ones include the following.
- Flexibility: You have the convenience of tapping into both the off-grid and on-grid systems without the limitations of either. You can have the power redirected back into the grid once the battery is full, and this eliminates wastage of power, and that saves on the cost.
- Expandable: There’s room for future expansion as it is highly customizable and allows for all kinds of modifications. If you ever plan on expanding the size of your property, a hybrid system is the easiest way to cover all the additional parts without having to create new systems from the ground up.
- Better Power Management: There’s better power management in hybrid systems as you are using some of the best components of both the off-grid and the on-grid systems. This makes it a very cost-effective solution for people who want a reliable power solution that doesn’t lead to wastage.
Limitations of Hybrid Solar Power Systems
Good as the system may be, it does have a few drawbacks that anyone looking to get one set up on their property should be on the lookout for. These drawbacks include the following.
- High Installation Costs: Setting up a hybrid system is much higher than both the on-grid and off-grid systems. It is almost the same as setting up both systems at the same time, and this requires the use of advanced components that don’t come cheap.
- High Maintenance Cost: The installation process is already complicated on its own, and when you factor in the maintenance and the repairs that you may need to have down the road, you find yourself dealing with a very complicated system that requires professional hands.
- Takes Too Much Space: The setup requires too much space to accommodate all the parts and the equipment needed to make things run. On top of setting up the panels on the roof. You also need to set up the bank battery and other important structures. This ends up costing a lot of money in the long run.
SOLAR POWER SYSTEM SAFETY MEASURES TO KEEP IN MIND
Solar energy may be harnessed from the sun, but it is just as potent and dangerous as any other form of electricity, and for this reason, there are some safety measures that people dealing with solar panels need to pay close attention to.
- You need to use junction boxes that provide safe housing for the writing to avoid any electrocution accidents that may occur. Junction boxes protect the wiring from any moisture and this ensures there are no fire hazards that crop up due to short-circuiting.
- When doing the setup in your house, ensure that the main power is switched off. Wiring involves the handling of naked wires and the opening of circuits, and if this is done when the power is on, there are a lot of electrocution hazards that could take place, leading to grievous injuries to those involved.
- Ensure you use genuine parts, from the solar panels all the way to the internal wiring. To be on the safe side, ensure that you source all your materials from one company. This way, there will be some accountability involved when something goes wrong. Getting your stuff from different sources could only lead to trouble and loss of money.
- Ensure that the entire setup has an easy-to-access regulator that can be shut off immediately in bad weather. Most electrical accidents tend to happen when the weather is rough, and sometimes, leaving the electricity on, even when it is from the solar panel, can be dangerous.
The solar panel systems mentioned above are designed to address different news in different places. It is hard to make a verdict on the one that works best since it all comes down to personal preferences and the location where the setup is being installed. For more information on solar power systems, how they are manufactured, and how they operate, check out our website and have all your questions answered by our team of experts.
Full Description and 5 Riveting Benefits of an Off-Grid Solar System
It is no surprise you are on the search to understand, “What is an off-grid solar system?” Right now, off-grid power is an extremely “hot” topic (no pun intended, so hold the applause ) among the renewable energy community. So, naturally, you want to understand more of the innovative power behind off-grid solar.
This blog is going to spark your queries into full-fledged confidence on what all this off-grid talk is about and specifically answer, what is an off-grid solar system. Plus, how does off-grid solar system work, and divulge the benefits of an off-grid solar system.
Off-Grid Living = Off-Grid Solar.
Perhaps you are confused by the ambush of information on the web for an off-grid living when all the while you were hoping to understand off-grid solar. There are differences between the two, yet at the end of the day, they connect beautifully.
Let’s begin connecting those dots.
Prepare to be charged with newfound inspiration for off-grid solar power!
First, what is Off-Grid Living?
Off-Grid Living: Living independently without any public supplies of utilities such as water, heat, AC, electric, etc.
You might be planning to live or create a getaway zone for yourself where you don’t have to deal with society and avoid the system. It can be anything such as an RV, Cabin, or a two-story house with a small garden that is not dependent on the electricity grid.
Now, as a huge part of off-grid living, you will most likely need to get on the off-grid solar systems! Here is where you’ll get the idea of “off-grid-living” and how it is linked to the “off-grid solar” topic.
Second, What is Off-Grid Solar?
According to Energy Sage, the term off-grid can be defined as, …” living autonomously without reliance on a utility for power.”
Or as Merriam Webster puts it, “not connected to or served by publicly or privately managed utilities (such as electricity, gas, or water)”.
The Official Zonna Energy Off-Grid Solar Definition
Let’s cut to the chase with the official and simple Zonna Energy definition. Off-grid is functioning electrically without any connection to a mainline power supply.
Whoa! So, off-grid literally means no connection to your state or counties main electrical grid.
What is an Off-Grid Solar System?
An off-grid solar system permits electricity to be harnessed by solar panels and stored inside a battery without direct connection to the utility grid, providing an independent power supply to your home or business.
Basically, an off-grid solar system is a novel innovation which provides you independent energy harnessed by the sun. An off-grid solar system is made up of the following components.
Now that we answered, what is an off-grid solar system, lets dish out how off-grid solar energy systems actually work.
How Does Off-Grid Solar Work?
The ingenuity of an off-grid solar energy system is made-up of the efficiency of its components. A solar energy system’s solar panels, charge controllers, battery bank, and inverters all work together to provide your laptop or refrigerator energy, and this is how.
Off-grid solar energy systems work by…
- Solar Panels (PV array). Solar panels are set either on your rooftop or in an open yard or property space. The Sunlight is soaked up by the solar panels and transferred to the charge controllers.
- Charge Controllers. The charge controller is the “delivery man” between the solar panels, the inverters, and the battery bank. Charge controllers also act as a regulator, ensuring that the amount of power received through the solar panels does not overload the battery, instead keep the battery fully charged and top it off when needed. The charge controllers either deliver the energy directly as DC power to your lights or to the inverters to be converted into AC power for household appliances and all excess energy goes to the…
- Battery Bank. With the charge controllers feeding energy to the batteries, the battery bank acts as the heart of the off-grid solar system, as it stores up excess energy for cloudy days and nights, when needed it pumps electricity to the…
- Inverters. Lastly, inverters convert the DC (direct current) power into AC power which is passed on to be digested by your electronics or appliances as DC power and allows you to switch on the TV or fry up an egg.
Bam! Can you picture yourself eating that fried egg on a piece of toast with some sliced avocado? Reality check…that delicious sunny side up, was fried simply through the power of the sun. If that does not pull your self-sufficient cape out, get a load of the following benefits of an off-grid solar system!