What are solar panels? How do solar panel systems work?

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What are solar panels? How do solar panel systems work?

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In 1954, scientists at Bell Telephone discovered that silicon, an element found in sand, created an electric charge when it was exposed to sunlight. This discovery led to the development of solar cells that captured the sun’s energy and turned it into electricity. Since then, the technology has evolved, and solar power systems now provide
incredibly attractive financial benefits for homeowners, businesses and non-profits across Australia.

Thanks to solar panels, we have access to an inexhaustible source of power – the sun. Throughout the day, the cells on your solar panels absorb the energy from sunlight. Circuits within the cells collect that energy and turn it into direct current (DC) electricity. The DC electricity is passed through a device called an inverter to convert it
to the alternating current (AC) electricity used by most homes and businesses. You can use that electricity in your home, store it with a solar battery, or send it back to the grid.

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Solar panels: how solar panels connect to the grid
how_solar_works

What components make up a solar panel system?
Solar PV systems have four main components:

1. Solar photovoltaic panels (“solar panels”)
2. Inverters
3. Racking and mounting system
4. Performance monitoring systems

Solar panels

Solar panels collect and convert the sun’s energy into electricity. They are a key component of a solar panel system. Most commonly available panels today are either poly-crystalline or mono-crystalline solar panels.

The key differences between poly- and mono-crystalline panels are in efficiency and cost.

Typically, mono-crystalline panels are more efficient (and thus more expensive) than poly-crystalline panels.

Micro-inverter vs. string: how inverter technology works with solar panels?

Inverters
The cells in your solar panels collect the sun’s energy and turn it into direct current (DC) electricity. Most homes and businesses, however, use alternating current (AC). Inverters change the DC electricity from your panels into usable AC electricity. There are three basic types of solar inverters.

String (or centralized) inverter: A single inverter is used to connect your entire array of solar panels to your electrical panel. String inverters are frequently the least expensive inverter option, and are a very durable technology that have historically been the most commonly installed inverter type. Multiple strings of panels can be connected to
each inverter, though, if the electricity production from one of the panels in a string drops (as may happen due to shading), it can temporarily reduce the performance of that whole string.

Micro-inverters: If you choose microinverters, one will be installed at each solar panel, which allows each panel to maximize production. If some of your panels are shaded at different times of day or if they aren’t all installed facing the same direction, microinverters will minimize performance issues. The cost of microinverters tends to be
higher than the cost of string inverters.

Power optimizers: Systems that use power optimizers are a hybrid of micro-inverter and string inverter systems. Like microinverters, power optimizers are installed at each panel. However, instead of converting the DC electricity from the solar panels into AC electricity, the optimizers “condition” the DC electricity before sending it to a
centralized inverter. Like microinverters, they perform well when one or more panels are shaded or if panels are installed facing different directions. Power optimizer systems tend to cost more than string inverter systems, but less than microinverter systems.

Racking and mounting systems
Racking and mounting systems are used to affix your solar panels either to your roof or to the ground. They also allow you to position your panels at an angle that is best for capturing the sun’s rays.

To perform at their best, solar panels should face north and be installed at an angle between 30 and 45 degrees (depending on how far you are from the equator). Panels facing east or west and at a pitch angle of five degrees or more will still work well, but will produce 10 to 20 percent less electricity than those installed under ideal
conditions.

There are two types of mounts: fixed mounts, in which the panels remain stationary, and track mounts, which allow panels to “follow” the sun as it moves across the sky during the day (single-axis track mounts) and during the changing seasons (dual-axis track mounts). Track mounts are only suitable for panels installed on the ground.

Performance monitoring systems

Performance monitoring systems provide you with detailed information about the performance of your solar panel system. With a monitoring system, you can measure and track the amount of electricity your system
produces on an hourly basis.

While some solar installers charge extra for installing a monitoring system, it can provide significant value over the lifetime of your solar panels. Monitoring systems help you identify any performance issues to ensure that you maximize the electricity production (and therefore the financial returns) of your solar panel system.

There are two types of monitoring systems:

On-site monitoring: The monitoring device is physically located on your property and records the amount of electricity produced.

Remote monitoring :Your solar PV system transmits its performance data to a monitoring service that you can access online or with a mobile device.

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ABN : 14 166 342 249

Imminent Solar Australia Pty Ltd

St; U1 19 Yiannis Crt Springvale Vic 3194

E-mail: sales@imminentsolar.com.au

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