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ToggleSolar Inverter Prices in South Africa
The price of solar inverters very depending on the brand, type, and specifications, but they typically range from around R2,000 to over R80,000 However, it is important to note that the cost of the inverter is only one aspect to consider when installing a solar system. Other factors to consider include the size of the solar panel system, electricity usage, and the specific needs of the individual or business.
Solar Inverter | Price | status |
---|---|---|
3KVA Axpert Inverter MKS 25A 24V | R 5,495.00 | In Stock |
3KVA Growatt Inverter SPF3000TL 24V | R 6,999.00 | In Stock |
5KVA Axpert Inverter MKS 80A 48V | R 8,299.00 | In Stock |
5KVA Growatt Inverter SPF5000TL 48V | R 9,490.00 | In Stock |
5KVA Growatt Inverter SPF5000ES 48V | R 11,600.00 | In Stock |
Deye 5KW Hybrid Solar Inverter, 48V | R 23,000.00 | In Stock |
3.6kVa Goodwe ES Hybrid Inverter, 48V | R 24,500.00 | In Stock |
4.6kW Goodwe ES Hybrid Solar Inverter, 48V | R 26,800.00 | In Stock |
Deye 8KW Hybrid Solar Inverter, 48V | R 37,000.00 | In Stock |
Deye 12KW 3-Phase Hybrid Solar Inverter | R 38,850.00 | In Stock |
Please note that these prices are approximate and may change over time or based on different suppliers. It’s essential to research and compare prices from various suppliers to find the best deal for your specific needs. Don’t forget to factor in installation costs and potential government incentives or rebates that can help offset the overall cost of a solar inverter system.
Solar Inverters in South Africa
A solar inverter in South Africa is a device that converts the direct current (DC) output from solar panels into alternating current (AC) electricity that can be used by homes and businesses. Solar panels produce DC electricity, which is then converted into AC by the inverter so that it can be used by electrical appliances or fed back into the power grid.
There are several types of solar inverters in South Africa, including string inverters, microinverters, and power optimizers. String inverters are the most common type and are used in larger solar systems, while microinverters and power optimizers are used in smaller systems.
- Deve Inverters
- Growatt Inverters
- Expert Inverters
- Goodwe Inverters
Solar inverters in Cape Town are solely responsible for more operational functions than any other PV system component. These duties have continued to grow as systems get smarter and increase interaction with the utility grid. So what exactly does a solar inverter do?
- Convert DC to AC power
- Maximize power output
- Interface with the grid
- Report on power production
- Emure safe system operation
Types of Solar Inverters in South Africa
Solar Inverter technologies have changed a lot in recent years They are more advanced and have become much cheaper In addition to converting DC to AC, a new technology inverter provides a number of other capabilities and services to ensure that the inverter can operate at an optimal performance level.
These include data monitoring, advanced utility controls, applications, and system design engineering. Inverter manufacturers also provide post-installation services that are integral to maintaining energy production and a high level of performance.
There are different types of solar inverters in South Africa, To start with, we can break them down into three categories.
- Grid-Tied
- Off-Grid
- Hybrid
Grid-Tied inverter
off-Grid Inverter
Hybrid Inverter
Read more: Grid-Tied vs Off-Grid vs Hybrid
PWM vs MPPT Charge Controllers
PWM controllers – a switch that connects a solar array to a battery. The result is that the voltage of the array will be pulled down to near that of the battery.
MPPT controllers – more sophisticated and about 25% more efficient than the PWM as it will adjust its input voltage to harvest the maximum power from the solar array and then transform this power to supply the varying voltage requirement, of the battery plus load.
How Do Solar Invertors Work?
Choosing A Solar Invertor
Controlling Maximum Power Output
Solar inverters in South Africa are responsible for continually tracking your solar array’s voltage to figure out the maximum power at which your solar panels operate, ensuring the system produces the most and cleanest power at all times.
There are many different sizes available for inverters. The size required is dependent on the size of the solar panels installed. For example, a 5kW solar power system would require an inverter of similar or larger capacity At its most basic level, it must be equipped to manage the maximum amount of power the system could generate.
What is the Lifespan of a Solar Inverter?
The lifespan of a solar inverter can vary depending on a number of factors, including:
- Quality of the inverter
- Conditions it is exposed to
- How well it is maintained over time
In general, a high-quality solar inverter should last for at least 10 years, and many can last for up to 20 years or more with proper care.
One of the main factors that can affect the lifespan of a solar inverter is the quality of its components. Cheaper inverters often use lower-quality components that are more prone to failure which can result in a shorter lifespan overall On the other hand, higher-end inverters may use more durable components that are designed to last longer, even in harsh conditions.
Another factor that can affect the lifespan of a solar inverter is the environment it is installed Inverters that are exposed to extreme temperatures, high humidity, or other harsh conditions may experience more wear and tear over time, which can lead to a shorter lifespan Similarly, inverters that are exposed to direct sunlight or other forms of weathering may degrade more quickly than Bhose that are installed in more protected locations.
How do I Calculate What Size Inverter I Need?
To calculate the size of the inverter you need, there are a few key factors you will need to consider Here are the steps you can follow:
1: Determine your power requirements: First, you will need to calculate the total amount of power your system will need to supply This will include all of the electrical appliances and devices you plan to use, as well as any surge currents they may require.
2: Determine your voltage requirements: Next, you will need to determine the voltage of the batteries you plan to use. This will typically be either 12, 24, or 48 volts.
3: Calculate your total power requirements: Multiply your power requirements by the number of hours you plan to use the system each day This will give you your daily energy requirements in watt-hours (Wh).
4: Size your inverter: To determine the size of the inverter you need, you will need to choose one that is capable of handling your peak power demands. To do this, add up the maximum wattage of all of the devices you plan to use at the same time. Then, choose an inverter that is installed for at least this amount of power.
5: Consider efficiency: Finally, it’s important to consider the efficiency of the inverter you choose Inverters typically have an efficiency rating that indicates how much of the power they consume is converted into usable power To ensure that you get the most out of your system, look for an inverter with a high-efficiency rating.
By following these steps, you should be able to determine the size of inverter you need to power your system effectively and efficiently However, if you have any doubts or concerns, it’s always best to consult with a professional to ensure that you choose the right equipment for your needs.