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By Finn Peacock , Chartered Electrical Engineer, Fact Checked By Ronald Brakels
Last Updated: 3rd May 2024
So you’ve got quotes for a few different solar power systems. Everyone says they sell the best solar inverter – no surprises there. So how do you decide what brand and model to select in 2024?
Our solar inverter consumer reviews can help you choose what’s best for you – these reviews offer unbiased information based on the feedback of thousands of Australians using different makes and models.
Or you can pick the best inverters from our 2024 Installer’s Choice Awards, where some of the best installers in Australia reveal which inverters they’d put on their own home.
However, it’s good to first have some background information on what this important device does, the major manufacturers that produce them and various other aspects to consider. This guide will provide you with all the information you need to pick the best inverter for your requirements.
A solar inverter is a box of electronics that all the all the solar power produced by your panels will pass through before being transported to your home for use by your appliances; or in the case of surplus energy generated, to the mains grid. It really is the workhorse of the system.
The device also contains important safety shutdown electronics such as Anti-Islanding Protection.
For this and other reasons, it’s very important you choose a solar inverter up to the job and that offers the best performance for your money.
I’m guessing you don’t know one brand of solar inverter from another – you certainly aren’t alone. The simplest, quickest way I can think of to describe how each brand stacks up is to compare them to cars – because I’m also guessing most of you will know the difference between a Mercedes, a Ford and a Hyundai.
If you’re in a hurry and you don’t want to “geek out” over the technicalities – this chart I created will teach you enough to be dangerous when talking to shonky salespeople or evaluating quotes:
You can read more about the above brands (and many others), along with feedback from Australians who have had them installed in our solar inverter reviews section.
Towards the end of this page is a chart showing all the solar inverter brands I recommend that are currently available in Australia in 2024.
Now let’s get technical.
The following describes each type:
This is the most common type of inverter for residential use. All the solar inverters above (apart from Enphase) are string inverters. On a residential solar power system you generally have one per installation. It is called a string inverter because you connect strings of solar panels to it. These are wall-mounted, usually close to your meter box – but depending on the installation scenario it may be some distance away.
You can compare inverters side-by-side here.
These are massive inverters used for solar systems in the hundreds of kilowatts or even megawatts of capacity. They look like big metal cabinets and can handle up to megawatts of capacity per enclosure. You won’t find these as part of home installs; they are only used for large commercial installations or utility scale solar farms.
Microinverters are tiny solar inverters about the size of a paperback book. You need one per solar panel. You can read about the advantages of microinverters here – the main one being is they optimise each panel individually, delivering more energy.
Microinverters can be useful if you have partial shade conditions, although some of the more recent and better quality string inverters are handling these conditions better than they used to.
In my humble opinion, the best microinverter brand is Enphase.
Optimiser based systems provide similar performance benefits to microinverters, but by using a slightly different technology. An optimiser system requires a string inverter, but has optimisers attached to the back of each solar panel. These devices work to maximize each panel’s output under a variety of conditions.
Huawei and SolarEdge optimisers require you to optimise every panel in an array, but Tigo brand optimisers don’t (and are inverter agnostic), which keeps costs down. The Tigo option is particularly handy if you only have a couple of panels affected by shade.
Also known as multi-mode inverters, a hybrid inverter enables you to add batteries to your solar power system. The hybrid inverter interfaces with the battery using a technique called ‘DC coupling‘, and its electronics coordinate the charging and discharging of the battery.
There is a limited choice of hybrid inverters on the Australian market right now, but the range will grow as battery storage becomes more popular. We’ve listed all the makes and models we know about on this hybrid inverter comparison table. Check it out if you are considering buying batteries with your solar power system.
If you want to retrofit batteries to your solar power system or simply keep your battery system separate from your solar panels (i.e. not going through the same inverter), then a separate battery inverter is a good (but expensive) choice. This simply converts your battery power into 230V AC and feeds it into your home switchboard to reduce or potentially eliminate grid power use.
The first thing to look for when choosing a solar inverter is to see if it complies with the relevant Australian Standard (AS4777). You can quickly do this by checking out the Clean Energy Council’s approved products list.
All grid connected solar inverters certified for Australia should be on this list. If one you’re considering isn’t – don’t buy it (unless you live for danger!). The other reason for buying a solar inverter on the approved products list in the case of a full solar power system purchase is in order for your system to be eligible for Australia’s major solar subsidy, it must be on the list at the time of installation.
It’s also worth looking at the company behind the product – how long have they been around and what is their expertise?
This is a difficult question to answer, as grid connected inverters are mostly offered as part of a solar power system package. This component can represent around 20% of the cost of a system.
5kW solar inverters start at $1,000 for budget, single-phase models (e.g. Sungrow) and up to $2,000 for the premium single-phase models (e.g. Fronius or SMA). 5kW is the most common size and can accept up to 6.6kW of panels. I explain more about this below.
If you want a 3-phase, 5kW inverter you should add about $400 to those prices.
But whatever you do, never buy the cheapest solar inverter on the market! The really cheap products have no chance of lasting 15+ years in Australia. Trust me on this. It is difficult and expensive to design and manufacture a good solar inverter that will endure; particularly in Australia’s often harsh conditions. Never buy a bottom of the range product from a no-name brand. It is false economy as it just won’t last (rather like the companies selling them!).
There’s often some confusion around this question.
In general, at a minimum, the inverter needs to be able to handle the maximum power that your solar power system can generate. That usually means that if you want a 5kW solar power system, you get 5kW of panels and a 5kW solar inverter to suit. Simple eh? Actually, it can get a little more complicated than that. Let me explain.
Because of system losses in the panels, your solar inverter can actually be rated at up to 25% less (in AC kW) than your panel array. This means the panel capacity can be up to one-third larger than the inverter capacity. Confused? So were a number of installers for some time! The Clean Energy Council guidelines for solar inverter sizing changed a long while back, and I provide a detailed explanation of when ‘undersized’ inverters are allowed here.
A final word of caution: Be aware that solar inverters are rated in “DC input” and “AC output” terms. Make sure yours is also rated to suit the output of your solar panels in DC! (The previous link explains how to check this)
Some retailers will offer you a larger solar inverter so you can add extra panels at a later date. Before making a decision to buy one of these, you need to consider the following:
Solar panel technology is changing so rapidly that your current solar panels may not be available when you want to upgrade. Your inverter may not be able to accommodate the mismatch of solar panels, which may mean you’ll need to buy a new one. A way to overcome this potential problem is to perhaps consider a multi-string or a MPPT expandable solar inverter (see below).
In general, the best advice is to install as many solar panels as you can afford (and fit on your roof), and purchase a solar inverter to suit the maximum power of the system. This will be an inverter with 75% or more of the panel capacity.
What about the physical size of the solar inverter?
Grid connected inverters come in a variety of shapes, sizes and weight. The smallest string inverters are around the size of a large briefcase. The larger ones are around the size of a small travel case.
They are generally located as near as practicable to your electricity meter and should always be located in the shade for best performance. Note that this can also be a requirement of the warranty. If you don’t have a suitable shady spot, then you should have a simple shade cover made for it.
The best advice is to have a look at the solar inverter (or check out its specification sheet) and see whether it will fit near your electricity meter and what it will look like when installed.
Most grid connected inverters are weather-proof (generally IP65 rated) so they can be located in areas that may have some exposure to the elements. Other solar inverters are not weather-proof and may require the addition of a weather-proof cage (at extra cost to you) if it’s to be exposed to weather.
As a general rule, your solar inverter is a box of sensitive electronics and the better it is protected from heat and weather, the better it will perform and the longer it will last. As mentioned, it can also be a condition in the warranty that the unit is not installed where it will be in direct sunlight.
Check these aspects on the specification sheets or ask your retailer where they intend to install your solar inverter.
Typically, grid connected inverters have a lifespan ranging from 10 to 20 years. You should expect most good quality units to last 10 years minimum.
Solar inverters have warranties ranging from 5 to 12 years with an increasing number of manufacturers offering service warranty extensions to those willing to pay for them. Obviously, the longer the warranty the more protection you have.
Some manufacturers (like Fronius) are offering a “5 + 5” year warranty – where parts and labour are covered under warranty for the first 5 years, but only parts are covered for years 6-10. If your inverter conks out in year 7, you’ll need to pay around $300 in labour costs to replace the unit.
So check out the unit’s warranty and balance this against other features of your system to help you make an informed decision on which is the best solar inverter for you.
This can be an important consideration if you’re intending to expand your solar power system in future. But it’s usually easier to either install all the panels you want from the start or, down the line, install a second separate solar system.
But if you do want an inverter that can accept additional panels in the future, one solution is to use a multiple MPPT (Maximum Power Point Tracking) inverter. These have multiple MPPT trackers and if one or more are left free it can allow the addition of extra solar panels at a later date. This will enable you to easily add a new string of panels (even if the new panels are not exactly the same as the original modules) to your current system.
Most solar inverters have display lights indicating whether the unit is on, off or in standby. They can also have digital displays (often scrolling displays) that indicate some or all of the following information:
Some of this information (e.g the total amount of energy generated) is also available on your meter.
Nearly all inverters also offer a data-logging feature enabling you to download information to a computer or transmit it over Bluetooth or your Wi-Fi network. This means you can see your power information on your PC, smartphone or on a special in-home display.
I personally don’t want to look in the meter box (or wait for the bill) to see if my system is performing properly. I want to have a remote monitor in the house that I can check every day. So I think remote monitoring / data logging is a must and most inverters these days offer it.
Inverter efficiency is a measure of how well a device converts the electricity it receives from the solar panels into power that can be used by your home or exported to the grid. Older grid connected transformer based solar inverters have an efficiency of around 93% or better, while the transformerless devices sold today are typically around 96% or better.
Normally higher efficiency is better, but some inverters – such as Fronius – have active cooling. This can increase the lifespan of the units but give them a slightly lower efficiency rating than inverters without it. So higher efficiency isn’t always better.
Most solar inverters supplied by reputable retailers in Australia are OK. But there are some horrible devices that have somehow managed to pass Australian compliance testing.
Before you consider buying a very cheap solar inverter – check out my ever growing list of solar inverter reviews. These reviews are submitted by Australians who have owned the inverter for at least 12 months. If there are lots of 1 and 2 star reviews, this usually means the components are failing in the first 12 months. Not a good sign!
For more ODM solar inverterinformation, please contact us. We will provide professional answers.
Also take a look at my solar inverter comparison table that compares features of lots of popular brands and models available in Australia.
It’s also worth checking some of the forums (such as Whirlpool) that discuss such topics.
Note: walk away if there is no written warranty offered on the solar inverter or no specification sheet is supplied. Make sure the organisation issuing the warranty has an Australian office – you don’t want to be calling Shanghai (or Munich) to get a new one!
The following chart shows solar inverter brands I recommend in 2024, the best in each category ranging from “budget” models on the left, to top-of-the-line on the right. See the criteria I based these recommendations on.
I also ask installers in the SolarQuotes network their opinion, both in terms of high-end and budget products. Find out what they voted the best solar inverters in 2024. These are products they would be happy to install on their own homes.
>>Next: What about these new fangled Micro Inverters? >>
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May 15, 2023
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A solar inverter is an essential component in any solar power system. It’s responsible for converting the DC electricity generated by solar panels into AC electricity. If you have chosen solar inverter for home, then you need to know about solar power inverters. The solar inverter transforms the energy generated by your solar panel system into a usable form.
Solar inverter kits enable using abundant solar energy for homes and businesses. By harnessing solar energy, solar energy reduces reliance on costly, climate-changing electricity.
When selecting a solar inverter for home, it’s important to consider a few factors. The first is the size of the hybrid solar inverter. Choose an inverter that handles solar panel output but avoids energy waste. It’s also important to choose a kit with high efficiency ratings, pick a high-efficiency kit to maximize solar panel output.
Another important factor to consider is the type of pv inverter. There are three main types of inverters: string inverters, micro inverters, and power optimizers. String inverters are the most common type and are typically in residential applications. Micro-inverters and power optimizers suit shaded or complex roofs.
Hire an expert to install a solar inverter for home if you’re not comfortable with the process. After installing the kit, you should properly maintain it to ensure it continues to function optimally. This includes regularly cleaning the solar panels, checking the wiring connections, and monitoring the performance of the inverter.
A variety of sizes are available for solar panel inverters. Watts(W) is a unit used to quantify inverter power, like solar panel power (W). When choosing the best hybrid inverter size, the installers will consider the size, the type of solar panels and any special circumstances at your installation site.
Size of the PV solar array
The size of your pv solar array is the main factor in determining the size of your solar inverter. A solar converter with sufficient capacity should convert the solar arrays’ DC electricity into AC electricity.
For instance, the inverter should have a power output of 5000W if you are constructing a solar panel system with a DC rating of 5kW.
On the inverter’s data sheet, the manufacturer will provide an array of capacities that are compatible with a particular inverter. Deploying an inverter that is either too big or small for its specifications will make the manufacturer’s warranties worthless.
Types of solar panel
The location and characteristics of your solar array will determine the size of your solar inverter. A solar array’s position, including the orientation and angle at which it is installed, will affect how much electricity it produces. The different types of solar panels have unique features which need to be considered before purchasing an inverter.
Four main types of solar panels are accessible in the market: these are monocrystalline, polycrystalline, PERC, and thin-film panels. Each one has its own pros and cons. However, the user needs to install the best solar panel that would suffice his needs and requirements.
Environmental factors
The amount of sunlight that can penetrate the solar array is the main concern for solar inverter installation. But environmental factors such as shadow and dust substantially impact the solar inverter capacity.
Professionals consider these elements when calculating the overall output of your solar panel system. You may use your system’s derating factor to estimate the quantity of electricity your solar panels will produce in an actual installation.
Solar panel systems that are sometimes shadowed, or face east rather than south are subject to a greater derating factor. If the solar panels derating factor is high enough, inverter capacity may be lower in relation to array size.
Understanding DC/AC ratio
DC/AC ratio is the installed DC capacity to the inverter’s AC power rating. Making a solar array larger than necessary can increase DC-to-AC conversion efficiency. This enables a better energy harvest when production is below the inverter’s rating, which it typically is throughout the day.
For the majority of designs, a DC/AC ratio of 1.25 is ideal. This is due to the fact that only 1% of the energy generated throughout the course of a photovoltaic (PV) array will have a power level greater than 80%. Combining a 9 kW PV array with a 7.6 kW AC converter will result in the best DC/AC ratio. It will result in the least amount of power loss.
When an inverter’s AC output rating is too low then it will result in power loss. The process is power limiting and is also termed inverter clipping.
Possible to self-install, but solar inverter installation is complex and risky. For these reasons, it is generally recommended to hire a professional to install the solar inverter.
Solar inverters convert solar panel DC to usable AC power for your home or business. Working with high-voltage electricity during this process can be hazardous if you are not with electrical work.
Furthermore, sizing and installing solar inverters correctly is essential to ensure optimal performance and safety. Choose a compatible inverter and design electrical systems to meet local codes and safety standards.
If self-installing, follow manufacturer instructions and safety guidelines closely. Permits and inspections may be required before connecting to the grid.
This will help ensure that your system is safe, reliable, and performing optimally.
Choosing a solar inverter kit for your home requires consideration of several factors, including the size of your solar system, your power consumption needs, and your budget. Here are some key steps to help you choose the right solar inverter kit for your home:
1.Determine the size of your solar system
The first step is to determine the size of your solar system, which is based on the amount of energy you need and the size of your roof or available space for solar panels. You’ll need to calculate the total wattage of your solar panels to determine the size of the inverter kit you need.
2.Decide on the type of inverter
There are three main types of inverters: string, micro, and power optimizers. String inverters, being the most common and cost-effective, require all panels to connect in a single string. As a result, if one panel is shading or has a problem, it can affect the entire system. Micro inverters and power optimizers, on the other hand, allow each panel to operate independently, which can increase overall system efficiency, but they are more expensive.
3.Consider the features you need
Different inverter kits offer different features, such as monitoring, backup power, and built-in surge protection. Consider which features are important to you and choose an inverter kit that offers those features.
4.Check the compatibility
Make sure that the inverter kit you choose is compatible with your solar panels and meets local codes and safety standards.
5.Compare prices and warranties
Compare the prices and warranties of different inverter kits from reputable manufacturers to find the best value for your budget.
6.Consult with a professional
Consult with a professional solar installer or provider to ensure that you choose the right inverter kit for your home and to ensure safe and proper installation.
By following these steps and doing your research, you can choose a solar inverter kit that is the right size and type for your solar system, meets your energy needs, and fits your budget.
If you are looking for more details, kindly visit commercial inverter.