Batteries or battery packs without an integrated inverter must be paired with an external, third-party inverter to connect to your solar panel system and home.
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One of the best-knownand most installedproducts in the market is the LG Chem RESU10H, a battery that does not come with an integrated inverter. It must be connected with a storage inverter to interface with your solar panel system and your home. It's most frequently connected with a SolarEdge StorEdge inverter, which has recently been upgraded to the EnergyHub inverter. The RESU 10H can be installed as a part of an AC or DC-coupled solar plus storage system. Because it only requires one inversion process (from DC to usable AC electricity in your home), it boasts one of the highest true round-trip efficiencies of any product in the market when looking at the energy ultimately usable in your home.
Another well-known battery cell manufacturer, SimpliPhi's products, must be paired with an external inverter. Its modular and stackable battery packs provide the storage alone but are "inverter agnostic," which is the industry's way of saying they work with anyone. Its most popular battery is the 3.8 kWh battery module, which can be stacked and nestled next to your inverter on the wall next to your electrical panel.
A more recent entrant into the energy storage space, the Hawai'i-based Blue Planet Energy's products are "grid-optional" batteries. The company integrates battery modules into a "cabinet" that houses and provides the electrical connections for each battery module. The Blue Ion 2.0their flagship residential productis a battery-module-filled cabinet that can integrate with several inverter brands, including Sol-Ark, Schneider, Enphase, and SolarEdge, in AC-coupled designs.
If you have a household solar system, your inverter probably performs several functions. In addition to converting your solar energy into AC power, it can monitor the system and provide a portal for communication with computer networks. Solar-plusbattery storage systems rely on advanced inverters to operate without any support from the grid in case of outages, if they are designed to do so.
Historically, electrical power has been predominantly generated by burning a fuel and creating steam, which then spins a turbine generator, which creates electricity. The motion of these generators produces AC power as the device rotates, which also sets the frequency, or the number of times the sine wave repeats. Power frequency is an important indicator for monitoring the health of the electrical grid. For instance, if there is too much loadtoo many devices consuming energythen energy is removed from the grid faster than it can be supplied. As a result, the turbines will slow down and the AC frequency will decrease. Because the turbines are massive spinning objects, they resist changes in the frequency just as all objects resist changes in their motion, a property known as inertia.
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As more solar systems are added to the grid, more inverters are being connected to the grid than ever before. Inverter-based generation can produce energy at any frequency and does not have the same inertial properties as steam-based generation, because there is no turbine involved. As a result, transitioning to an electrical grid with more inverters requires building smarter inverters that can respond to changes in frequency and other disruptions that occur during grid operations, and help stabilize the grid against those disruptions.
Grid operators manage electricity supply and demand on the electric system by providing a range of grid services. Grid services are activities grid operators perform to maintain system-wide balance and manage electricity transmission better.
When the grid stops behaving as expected, like when there are deviations in voltage or frequency, smart inverters can respond in various ways. In general, the standard for small inverters, such as those attached to a household solar system, is to remain on during or ride through small disruptions in voltage or frequency, and if the disruption lasts for a long time or is larger than normal, they will disconnect themselves from the grid and shut down. Frequency response is especially important because a drop in frequency is associated with generation being knocked offline unexpectedly. In response to a change in frequency, inverters are configured to change their power output to restore the standard frequency. Inverter-based resources might also respond to signals from an operator to change their power output as other supply and demand on the electrical system fluctuates, a grid service known as automatic generation control. In order to provide grid services, inverters need to have sources of power that they can control. This could be either generation, such as a solar panel that is currently producing electricity, or storage, like a battery system that can be used to provide power that was previously stored.
Another grid service that some advanced inverters can supply is grid-forming. Grid-forming inverters can start up a grid if it goes downa process known as black start. Traditional grid-following inverters require an outside signal from the electrical grid to determine when the switching will occur in order to produce a sine wave that can be injected into the power grid. In these systems, the power from the grid provides a signal that the inverter tries to match. More advanced grid-forming inverters can generate the signal themselves. For instance, a network of small solar panels might designate one of its inverters to operate in grid-forming mode while the rest follow its lead, like dance partners, forming a stable grid without any turbine-based generation.
Reactive power is one of the most important grid services inverters can provide. On the grid, voltage the force that pushes electric chargeis always switching back and forth, and so is the currentthe movement of the electric charge. Electrical power is maximized when voltage and current are synchronized. However, there may be times when the voltage and current have delays between their two alternating patterns like when a motor is running. If they are out of sync, some of the power flowing through the circuit cannot be absorbed by connected devices, resulting in a loss of efficiency. More total power will be needed to create the same amount of real powerthe power the loads can absorb. To counteract this, utilities supply reactive power, which brings the voltage and current back in sync and makes the electricity easier to consume. This reactive power is not used itself, but rather makes other power useful. Modern inverters can both provide and absorb reactive power to help grids balance this important resource. In addition, because reactive power is difficult to transport long distances, distributed energy resources like rooftop solar are especially useful sources of reactive power.
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