SOLAR OFF GRID WITH LITHIUM BATTERIES IN PORTUGAL
Lithium battery off grid systems are a great alternative for grid connected electricty, and the technology keeps on improving. We noticed that people want to become more independent in their energy needs and therefore choose battery systems. One of the benefits for people to choose a battery system is the security it gives as it's more reliable and you will no longer suffer from power cuts from EDP.
In Portugal such systems work very well and they often need no or minimal backup. With lithium batteries the charge time is very fast and therefore as soon as there is sun coming trough the clouds the batteries will charge and in around one hour will be full.
There are different options for off grid solar systems with batteries. Please read below for more information.
Off grid systems have traditionally used DC coupled solar. This was an easy choice because batteries are also DC. As off-grid systems have become larger now also AC coupled solar is used. AC coupled solar systems use strings of solar panels configured in 100-600 Vdc strings going to a grid feed inverter which converts directly to 230 Vac.
AC and DC solar compared
An AC coupled solar system looks like this: A DC coupled solar system looks like this:
Advantages and disadvantages explained
DC is simpler to set up than AC
The big advantage of the DC solar system is its simplicity. It is a very ‘robust’ design that allows very reliable and efficient charging of batteries.
DC will work the battery harder than AC
In a DC system the inverter/charger will do all the work on supplying the 240V loads. The grid-feed inverters will support the AC Loads. Very large systems will typically have large loads. AC solar inverters can support these daytime loads and increase the sustained and total kW power that the system can supply.
AC allows for a larger solar array than DC
DC solar strings are typically much lower voltage and the wiring requirements are larger. Often only 2 or maybe up to 6 panels to a pair of 4-6 mm wires. In very large systems with 20 panels or more, this can require a lot of cable runs.If the solar array is very far away from the battery and other DC distribution, it is a lot more efficient with wire costs to run AC back, rather than low voltage DC.
DC is better for battery charging than AC
Victron DC MPPT control is very quick and very precise, much less than a second.
When the AC solar inverter MPPT is governed by a signal sent from the CCGX, and then inverted by the inverter/charger back to DC, there is additional delay and ‘chunkiness’ added to the charge profile.
Depending on the battery technology (lead acid or lithium) this can lead to other issues where the only charge supply source is the AC solar due to lack of fine current or voltage fidelity (e.g. inrush current and overshoot).
DC can recover from empty battery while AC can not (black start)
When a system reaches a critically low level of battery, many of the services shut off to protect the batteries from permanent damage. One of those services is the AC output of the battery inverter. This provides the grid forming service that the AC solar inverter requires to start up. So even though there is abundant solar, if the battery inverter has shut down, it will not be able to charge the batteries.
DC Solar does not require any other components to be active, and can charge dead flat batteries and be powered from the solar panels.
This is critically important in lithium batteries, where parasitic self discharge loads can permanently destroy a battery.
Heat is the enemy of all electronic equipment. The first thing to do is use the most efficient equipment available (efficiency is lost to heat).
Using a solar inverter removes some of the (daytime) load from battery inverter, and means it generates less heat.
We prefer to make systems with a combination of the 2, like this you have the best of both worlds
We design the system to your needs and budget. If you have any questions, get in contact.