In our everyday life, batteries are incredibly vital. They can help you power your electrical appliances and equipment with the help of an inverter or UPS when the grid is down. Moreover, batteries can also help you go completely off-grid with the help of solar panels. Furthermore, batteries are essential for power vehicles such as RVs, boats, and electric cars. If you want to buy a battery, you should only get it from a recognised manufacturer of a 12 volt deep cycle battery.
What Is Lithium-Ion Battery?
In 1996, the lithium-ion battery was unveiled as a superior and safer replacement for lead-acid batteries. These batteries have established a solid reputation in various applications, including aircraft, marine systems, automobiles, households, and our standard electrical appliances.
Lithium iron phosphate is used in this battery’s cathode. In these batteries, graphite carbon also serves as the anode. Li-Ion receives a wide range of functions for automotive usage, limitless applications, and power supply due to non-compliance, no environmental concerns, amazing performance, long life, and excellent quality, among other factors. Additionally, a 12v deep cycle battery is cobalt-free.
Why Should You Not Use Lead Acid Batteries?
Using only 30% – 50% of the average “Deep Cycle” battery capacity for standard lead is generally considered prudent. This means that the 600 amp battery in operation only provides, at best, 300 amp hours of actual capacity. If you occasionally discharge the batteries beyond this, their life will be significantly shortened.
Limited Cycle Life
Even if you be careful not to overload your batteries, the lead acid batteries for deep-cycle applications are usually only suitable for 500-1000 cycles. Your batteries may need to be replaced sooner than two years of use if you often use your battery bank.
Slow and Inefficient Charging
The last 20% lead acid battery capacity cannot be charged “immediately”. The first 80% can quickly be “Bulk Charged” with a smart three-phase charger (especially AGM batteries can withstand current batch charge). But the drain phase starts, and the charging capacity decreases significantly.
This is not a big deal if you are charging overnight, but it is a big problem if you have to leave your generator running for hours (which can be noisy and expensive). If you rely upon the sun and the sun sets before the last 20% is completed, you may end up with batteries that can only be used up to 30%.
In addition to all the time wasted on the generator, lead acid batteries face another efficiency problem – wasting about 15% of their energy by failing to charge naturally. So if you give 100 amps power, you only save 85 amps. This can be very frustrating when charging using the solar system when trying to squeeze in as much efficiency on all amps as possible before sunset or cloud cover.
The sooner you discharge the lead acid battery of any kind, the less power you can get from it. This effect can be calculated using Peukert’s Law (coined by German scientist W. Peukert), which means that high current loads such as air conditioners, microwaves or input cooktops can lead to lead acid battery capacity delivering as little as -60% of its average volume. This is a massive loss of energy when you need it most.
Lead acid batteries release harmful acid gas while charging and should be contained in a sealed battery box that is drained. They should also be kept upright to avoid spilling battery acid. Lithium DCS batteries do not have these problems and can be installed in an aerated area. This is a big reason why lithium batteries are so well-liked by mariners.
A fully charged 12-volt lead acid battery starts at about 12.8 volts, but as it is discharged, the power output gradually decreases. Electricity drops below 12 volts when the battery has 35% of its remaining power, and some electrical equipment may fail to operate under a 12 volt supply. This “sag” effect can also lead to dim lighting.
Size and Weight
A standard 8D size battery commonly used by large battery banks is 20.5 ″ x 10.5 ″ x 9.5 ″. Choosing a specific 8D model, the Trojan 8D-AGM weighs 167lbs and offers 230 amp full capacity – leaving you with 115 hours of real-time operation and only 70 high-performance applications!
If you design a wide boondocking, you will need at least four 8Ds, or up to eight. That is a lot of weight you have to move, which affects your fuel economy. Also, if your rig has limited battery space, the batteries’ size will limit your capacity.
Why Choose Lithium Batteries?
Researchers can now turn different static gadgets, appliances, and devices into portable ones that can be powered by electrical energy stored in battery cells, thanks to the development of the lithium battery. Their mass and other flaws hampered the extensive applicability of traditional batteries. However, contemporary Li-ion energy storage technology has been refined to address every drawback of the prior generation. It has been around 150 years since the development of lead-acid batteries. The lithium-ion battery is the best deep cycle battery available right now, and it has new features to meet the demands of modern living.
High Charging and Output Rate
These batteries are more efficient than lead batteries, which are only around 80% efficient when used, and have a rapid discharge rate.
These batteries have 5000 life cycles at an 80% supply rate without losing power. A lithium-ion DCS battery will last a very long time in contrast to the typical two-year lifespan of a lead-acid battery. Lithium-ion batteries have a long lifespan and can be used repeatedly when fully charged (approximately 5 hours).
Amazing Thermal Performance
Lithium-ion batteries can undoubtedly function in high-temperature environments, thanks to their wide operating temperature range (- 20°C to + 75°C) and high-temperature tolerance.
A lithium-ion deep cycle battery has a size of 2/3 that of a lead acid battery and weighs 1/3 as much. As a result, lithium batteries are lighter and more portable than lead batteries. They last longer on batteries and are maintenance-free, dry, sturdy, and lightweight.
Lithium-Iron Phosphate Batteries Are Environmentally Safe
Due to its resistance to abrasion, toughness, superior protection, affordability, and lengthy lifespan, lithium batteries are safe for the environment. It can be moved simply and without damaging the environment because of its lightweight construction and design.
What Is the Future of Lithium-Ion Batteries?
Lithium-ion batteries can power electronics and cars. The performance and durability of these batteries have been improved in response to the growing use of these batteries. The metallic backing anode of a lithium-ion battery can now be structurally greatly strengthened by adding a composite binder, paving the way for significantly more robust and powerful batteries and altering the course of the technology they power.
Recommended Manufacturer of Lithium Ion Battery
It is advised to get deep cycle batteries from Deep Cycle Systems, the leading lithium battery manufacturer in Australia. Lithium batteries from Deep Cycle Systems are more reliable for charging and discharging than other varieties. It has a long lifespan and may be fully depleted without harming the battery.
Features of Deep Cycle Systems lithium batteries
Approved To Mil Quality Standards
MIL vibration quality standards have been met with DCS batteries. Batteries’ durability and longevity are measured using these standards. These batteries passed the test, demonstrating that they are the best for extreme weather and powerful vibrations. Waterproof and dustproof DCS batteries are available. There is no way for dust, debris, or stones to get inside the battery.
Battery Management System
An integrated battery management system is a part of every DCS battery. Contrary to other firms’ fake BMS advertisements, this BMS battery will function as promised. Customers can access basic information about battery life, electricity, and further crucial details. This BMS links the battery with the client’s device to offer all battery-related data, and it is Wi-Fi and Bluetooth accessible.
PC Control and Monitoring
You can send and receive data using your PC with a DCS lithium ion deep cycle battery. You could use it to examine and alter parameters such as pressure, cut and restart levels, load signals, warning, AC yield voltage, battery voltage, and others.
Best For Solar Systems
DCS lithium-ion batteries are renowned for charging quickly and effectively. The solar panels’ smart choice provides them with a solution. DCS batteries support solar panels’ energy production by giving them strict charging limits.
While offering power generation for various applications, DCS batteries are lighter than lead-acid batteries. Compared to lead batteries, DCS batteries are dry, waterproof, and more secure.
Best For Marine Applications
The best batteries for marine applications are DCS batteries because they ensure excellent engine and motor rotation. Thanks to the water resistance, you won’t have to be concerned about water splashes. Boats, yachts, and canoes are just a few examples of the many applications for DCS batteries.
Best For Cars
For autos and recreational vehicles, lithium batteries work best. Battery power is lost when the ignition is turned on to start the car. Although there is a minor chance of power loss, lithium batteries provide exact performance. Because DCS deep cycle battery lithium, require no maintenance, individuals may travel far and safely without constantly worrying about their batteries.
Contemporary Lithium Cell Technology
Unlike other battery manufacturers, DCS batteries use innovative lithium cell development instead of renaming cells. Due to lithium cell technology, DCS has established itself as a top manufacturer of lithium-ion batteries.
Extreme temperature resistance is a feature of DCS batteries. They can tolerate both freezing temperatures and high temperatures.