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LiFePO4 12V 90AH LITHIUM BATTERY

€ 1,078.70

The DCS 12v 90ah Battery is a high-performance and durable power solution, designed specifically for engine bay installs. As a LiFePO4 12v 90ah Lithium Deep Cycle Battery, it provides exceptional deep cycle capabilities and longevity.

Optimised for engine bay installations, suitable for a wide range of vehicles, i.e., Hilux, Prado, Nissan’s, Mitsubishi’s, Land Rover Defenders etc…
Utilises DCS 3.2V 5.0 – 7.2Ah Cylindrical LFP cells, known for their stability and longevity.
Equipped with DCS BMS and Active CMS for over/under voltage, over current charge/discharge, and low/high-temperature protections.
Capable of a maximum discharge current of ≤200A, suitable for high-power needs
Meets Military Standards 810G vibration testing.
Encased in a PP flame-retardant case for enhanced safety and durability.
Weighs 10.30KGs and measures 260mm x 169mm x 210mm.
Operates effectively in a temperature range from -30°C to +110°C.
Offers exceptional cycle life with 2500 cycles at 100% Depth of Discharge (DOD).
Backed by a 3-year under bonnet warranty, emphasising its reliability and quality.

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SKU: DCS-90AH Category: LiFePO4 Lithium Batteries

Description
FAQ
BMS & CMS

Description

The DCS 12V 90ah lithium battery (LiFePO4) is engineered to meet high-demand energy needs with its robust specifications and advanced design. It operates at a nominal voltage of 12.8V with a nominal capacity of 90ah, ensuring consistent performance across diverse applications. The battery’s dimensions are compact, measuring 260mm in length, 169mm in width, and 210mm in height, making it suitable for a variety of settings. Depending on the inclusion of an MPPT (Maximum Power Point Tracking) controller, the weight varies between 10.30 kg and 11.90 kg.

This battery supports a cycling voltage range of 12.8V to 14.6V, with a charge voltage between 13.8V and 14.6V, and maintains a float voltage from 13.5V to 13.7V. It can handle a maximum charge current of 80A and a recommended charge current of up to 70A, while the maximum discharge current is a substantial 200A. Equipped with a built-in BMS, it offers automatic cell balancing and protection against over-discharge and charge, ensuring reliability and longevity.

This battery is constructed using 3.2V 5.0 – 7.2ah cylindrical LiFePO4 cells, offering exceptional cycle performance with 2500 cycles at 100% depth of discharge, maintaining ≥80% capacity retention at 25°C. It boasts an ingress protection rating of IP54, making it suitable for environments where dust and splashing water are concerns.

The operating temperature range is notably broad, from -30°C to 110°C, accommodating extreme conditions. Top-mounted M8 stainless steel/copper terminals provide durable and reliable connections. It supports parallel connections, enhancing its scalability for larger systems, and comes with a 3-year warranty.

Specifications:	–
Nominal Voltage	12.8V
Nominal Capacity (1Hr)	90Ah
Case Dimensions (L x W x H)	260mm x 169mm x 210mm
Weight \| RHP	10.30KGs (without MPPT)
Weight \| LHP	11.90KGs (with MPPT)
Cycling voltage	12.8~ 14.6V
Charge voltage	13.8 ~ 14.6V
Float Voltage	13.5 ~ 13.7V
Max Charge Current	80A
Recommended Charge Current	≤70A
Max Discharge Current	≤200A
BMS (built in)	Automatic cell balancing, over discharge/charge
Cell Chemistry	DCS 3.2V 5.0 – 7.2Ah Cylindrical (LifePO4)
Cycle Performance	2500 Cycles @ 100% DOD
LCA (Lithium Cranking Amps)	900A
Ingress Protection	IP54
Case	PP (flame retardant)
Operating temp Range	-30 to +110 degrees C
Terminals	Top Mount M8 Stainless steel / Copper
Parallel Connections Only	Yes
Warranty	3 years
Certifications	UN 38.3, UL 1642, IEC 62133 & 62619, CE

As a company committed to continuous product improvement, specifications may change without notice.

DCS High Performance 2C Charge & Discharge Curves

Charge Curve

DCS High Performance 2C Cylindrical Cells

Discharge Curves

Voltage (V)

Capacity (%)

Voltage (V)

Capacity (%)

DCS Bluetooth Technology powered by DCS LFP, this APP is only for DCS LFP batteries which is based on BLE 4.0 technology.

DOWNLOAD APP (DCS LFP)

This App provides comprehensive monitoring for DCS LFP batteries, including:

SOC%
Time Remaining
Battery Pack Voltage, Power & Current
Battery Management MOSFET Temperature
Individual Cell Status with balancing indicators.
Connectivity distance up to 10 meters.

Available on Android & Apple Devices

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Available on the

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Pioneering the Future of Energy with Our Exceptional 90ah Battery. Our LiFePO4 12v 90ah Lithium Deep Cycle Battery Stands As A Paragon of Resilience.

Name: LiFePO4 12V 90AH LITHIUM BATTERY
SKU: DCS-90AH
Price: 1078.70 EUR
Availability: OutOfStock

90ah battery Are you tired of constantly replacing batteries that don’t last, or struggling with the inefficiency and bulkiness of traditional batteries? Do you seek a reliable, high-performance battery that can keep up with your demanding energy requirements? At DCS, we understand the challenges you face in finding the right battery solution for your energy needs. DCS offers the perfect solution with our LiFePO4 90ah battery.

Designed to address the common pain points of battery users, our product ensures longevity, efficiency, and superior performance. Whether you’re powering a recreational vehicle, a marine craft, or an off-grid energy system, our 12v 90ah lithium battery is engineered to meet your needs with excellence. Say goodbye to the frustrations of underperforming batteries and embrace the future of energy storage with DCS.

Exploring the Versatility of the 90ah Battery in Everyday Applications

The 90ah battery stands out for its remarkable versatility, seamlessly integrating into a variety of daily applications. From powering recreational vehicles to supporting solar energy systems, this battery type is known for its adaptability and reliability.

Its ability to provide consistent power output makes it ideal for a range of uses, including marine applications, portable power stations, and emergency backup systems. The compact size of the 90ah battery, coupled with its substantial energy capacity, ensures that it can fit into smaller spaces while still delivering the power needed for demanding tasks.

Is a 90ah Battery Suitable for Your High-Demand Energy Systems?

When it comes to high-demand energy systems, the 90ah battery emerges as a strong contender. Its robust construction and high energy density make it capable of handling intense power requirements, such as those found in advanced off-grid setups or heavy-duty commercial equipment.

The key to its suitability lies in its ability to deliver consistent power over extended periods, ensuring that your systems run smoothly and efficiently. Whether you’re powering a large RV, a sophisticated solar setup, or heavy machinery, the 90ah battery offers the resilience and longevity needed for such demanding applications.

90ah Battery – A Reliable Powerhouse for Diverse Energy Needs

The 90ah battery is a powerhouse of reliability, catering to a wide spectrum of energy needs. Its ability to provide stable and long-lasting power makes it an excellent choice for various applications, from outdoor adventures in RVs to critical backup systems in homes and businesses.

The battery’s deep cycle capabilities ensure that it can handle repeated charging and discharging cycles without significant loss of capacity, making it a dependable choice for long-term use. This reliability is especially crucial in scenarios where consistent power is non-negotiable, such as in medical equipment or critical communication devices.

How to Optimise Your Energy Setup with a 90ah Battery?

Optimising your energy setup with a 90ah battery involves understanding its capabilities and how they align with your power needs. Here are some key considerations;

Assess Your Power Requirements
Integration with Renewable Sources
Regular Maintenance
Temperature Management

Assess Your Power Requirements

Determine the energy consumption of your devices and systems to ensure the 90ah battery can meet these demands.

Integration with Renewable Sources

If you’re using solar panels or wind turbines, the 90ah battery can efficiently store and manage the energy generated, providing a steady power supply.

Regular Maintenance

To maximise the battery’s lifespan and performance, regular maintenance, such as checking connections and ensuring proper charging, is essential.

Temperature Management

Ensure the battery is operated within its recommended temperature range to maintain optimal performance.

Lithium Battery 12v 90ah – The Future of Efficient Energy Storage

The lithium battery 12v 90ah represents the future of efficient energy storage, offering significant advantages over traditional lead-acid batteries. Its lightweight design, coupled with a higher energy density, means more power is packed into a smaller package, making it ideal for applications where space and weight are critical factors.

Additionally, lithium batteries have a lower self-discharge rate, ensuring that the stored energy is available when needed. This makes them perfect for use in seasonal applications, like summer boating or winter storage, where the battery may not be regularly charged.

What are the Benefits of Upgrading to Lithium Battery 12v 90ah?

Upgrading to a lithium battery 12v 90ah brings numerous benefits. Enlisted below are a few of the many benefits offered by DCS 90ah lithium battery;

Longer Lifespan: Lithium batteries typically last longer than traditional lead-acid batteries, reducing the need for frequent replacements.
Higher Efficiency: They charge faster and have a higher usable capacity, providing more usable energy.
Reduced Weight: Lithium batteries are significantly lighter, which is crucial for mobile applications like RVs and boats.
Low Maintenance: They require less upkeep, with no need for water top-ups or regular equalisation charges.
Eco-Friendly: Lithium batteries are more environmentally friendly, with no hazardous lead or acid.

Maximising Performance with DCS’s Lithium Battery 12v 90ah

Deep Cycle Systems (DCS) takes pride in offering a lithium battery 12v 90ah that maximises performance for various applications. This battery is engineered to provide a high power output while maintaining a compact and lightweight design, making it ideal for use in RVs, marine applications, and portable power systems.

The advanced technology used in DCS’s lithium batteries ensures efficient energy storage and prolonged battery life, making them a cost-effective solution in the long run. Additionally, these batteries are designed to be user-friendly, with easy installation and minimal maintenance requirements, ensuring a hassle-free experience for all users.

DCS 90 Amp Hour Deep Cycle Battery – Endurance Meets Innovation

DCS’s 90 amp hour deep cycle battery is where endurance meets innovation. This battery is designed to withstand the rigours of repeated deep discharge cycles, making it an ideal choice for applications that require a reliable and long-lasting power source. The innovative technology behind DCS’s deep cycle batteries ensures they deliver consistent performance, even under challenging conditions.

This makes them perfect for off-grid energy systems and marine applications and as a dependable power source for recreational vehicles. The robust construction of these batteries also means they can handle the vibrations and shocks typical in mobile applications, further enhancing their durability.

How Does the 90 Amp Hour Deep Cycle Battery Enhance Off-Grid Living?

The 90 amp hour deep cycle battery is a game-changer for off-grid living, providing a reliable and sustainable power source. Its ability to store large amounts of energy makes it ideal for solar or wind-powered systems, ensuring that electricity is available even when the sun isn’t shining or the wind isn’t blowing.

This battery’s deep cycle nature means it can handle the frequent charge and discharge cycles typical in off-grid setups without losing efficiency. For those living off-grid, this translates to a dependable power supply for daily needs, from lighting and refrigeration to powering tools and devices.

Harnessing the Power of a DCS 90 Amp Hour Deep Cycle Battery for Longevity

Harnessing the power of a DCS 90 amp hour deep cycle battery effectively ensures longevity and optimal performance. Here are some tips:

Proper Charging: Use a compatible charger and follow the recommended charging practices to maintain battery health.
Avoid Deep Discharges: Regularly discharging the battery too deeply can shorten its lifespan. It’s advisable to keep the discharge level within the recommended range.
Regular Checks: Periodically inspect the battery for any signs of wear or damage and ensure the connections are clean and tight.
Temperature Control: Store and use the battery in an environment within the recommended temperature range to prevent damage and maintain efficiency.

12v 90ah Battery – Compact Design, Powerful Output

The 12v 90ah battery stands out for its compact design and powerful output. This combination makes it an ideal choice for applications where space is at a premium but high power is required. Its compact size allows for flexible installation options, whether in tight spaces of a boat, an RV, or in portable power systems.

Despite its small footprint, this battery delivers a robust energy output, ensuring that your devices and systems run smoothly without any power hiccups. This balance of size and power is particularly beneficial in mobile applications where every inch of space counts.

Choosing the Right 12v 90ah Battery for Your Specific Needs

Selecting the right 12v 90ah battery for your specific needs involves considering several factors. The following are the factors you should consider while selecting a 12v 90ah battery;

Application: Determine the primary use of the battery – whether it’s for an RV, marine application, solar storage, or another purpose.
Power Requirements: Assess the energy demands of your devices and systems to ensure the battery can meet these needs.
Compatibility: Check that the battery is compatible with your existing equipment, including chargers and inverters.
Brand Reputation: Opt for a reputable brand like DCS, known for quality and reliability in battery technology.

Selecting the Best 12v 90ah Battery for Marine Applications

When it comes to marine applications, selecting the best 12v 90ah battery is crucial. The marine environment poses unique challenges, including exposure to moisture, salt, and constant movement. A high-quality 12v 90ah battery, like those offered by DCS, is designed to withstand these conditions, ensuring reliable performance and longevity.

Look for batteries with robust construction, resistance to vibration and shock, and the ability to perform in a wide range of temperatures. Additionally, consider the battery’s maintenance requirements and its compatibility with marine charging systems to ensure seamless integration into your boat’s power setup.

Why Choose the 12v 90ah Battery for Your Recreational Vehicle?

Choosing the DCS 12v 90ah battery for your recreational vehicle (RV) offers numerous benefits. Here are a few benefits offered by DCS 12v 90ah battery for RVs;

Consistent Power Supply: It ensures a steady and reliable power source for all your RV needs, from lighting to appliances.
Space-Saving Design: The compact size of the battery allows for more efficient use of space in your RV.
Durability: These batteries are built to withstand the rigours of road travel, including vibrations and temperature fluctuations.
Low Maintenance: With minimal maintenance requirements, you can spend more time enjoying your travels and less time worrying about your power source.

Incorporating a 12v 90ah battery into your RV setup enhances your travel experience by providing a dependable and efficient power solution.

90ah AGM – Traditional Reliability in Modern Times

The 90ah AGM (Absorbent Glass Mat) battery continues to be a reliable choice in the modern era, offering a blend of traditional technology and consistent performance. Known for their durability and maintenance-free design, these batteries are a staple in various applications, including automotive, marine, and backup power systems.

The AGM technology allows for a lower self-discharge rate compared to conventional lead-acid batteries, making them ideal for seasonal or infrequent use. Additionally, their spill-proof construction and resistance to vibration make them a safe and robust option for mobile and stationary applications alike.

While 90ah AGM batteries are known for their reliability and maintenance-free nature, at DCS, we’ve observed a growing preference for our advanced lithium alternatives. AGM batteries, with their traditional technology, offer consistent performance and are a staple in various applications. However, they don’t quite match the efficiency and longevity of our lithium batteries. At DCS, we focus on providing batteries that not only meet but exceed the demands of modern energy systems.

Comparing 90ah AGM with Advanced Lithium Alternatives

When comparing 90ah AGM batteries with advanced lithium alternatives, several key differences emerge. Some of them are enlisted below;

Weight and Size: Lithium batteries are typically lighter and more compact than AGM batteries, offering greater flexibility in installation and use.
Charging Efficiency: Lithium batteries charge faster and more efficiently, making them ideal for applications requiring quick energy replenishment.
Lifespan: Lithium batteries generally have a longer lifespan, reducing the need for frequent replacements.
Performance: Lithium batteries offer a more stable discharge curve, meaning more consistent power delivery throughout the discharge cycle.

These differences make our lithium batteries a more suitable choice for applications requiring quick energy replenishment and consistent power delivery. We’ve designed our lithium batteries to outperform AGM in almost every aspect, ensuring our customers get the best value for their investment.

Understanding the Longevity and Efficiency of 90ah AGM Batteries

90ah AGM batteries are renowned for their longevity and efficiency. Their sealed design minimises the risk of acid leakage and reduces the need for regular maintenance. These batteries are capable of enduring deep discharge cycles, making them suitable for applications where regular, deep discharging is required.

The efficiency of AGM batteries lies in their ability to retain charge for extended periods, coupled with a relatively low self-discharge rate. This makes them a reliable option for backup power systems and seasonal use where the battery may not be regularly charged.

While 90ah AGM batteries are known for their longevity and efficiency, at DCS, we’ve taken these attributes to the next level with our lithium battery range. Our lithium batteries offer enhanced longevity and superior efficiency compared to AGM batteries. This is part of our commitment to providing cutting-edge energy solutions that meet the evolving needs of our customers.

AGM 90ah – Does it Balance Efficiency and Durability

AGM 90ah batteries strike a balance between efficiency and durability. Their absorbent glass mat technology enhances their efficiency by reducing internal resistance and improving charge acceptance. This results in faster charging times and more effective power delivery. In terms of durability, these batteries are designed to withstand harsh conditions, including vibrations and temperature fluctuations, making them suitable for a wide range of environments. Their sealed construction also contributes to their durability, as it protects the internal components from external elements and potential damage.

At DCS, we believe in pushing the boundaries. Our lithium batteries not only match but surpass the efficiency and durability of AGM batteries. They are designed to withstand harsh conditions and provide stable power output, making them a more robust and reliable option for our customers.

The Role of AGM 90ah Batteries in Today’s Energy Solutions

AGM 90ah batteries play a significant role in traditional energy solutions, particularly in areas where reliable and maintenance-free power is essential. They are commonly used in off-grid solar systems, uninterruptible power supplies (UPS), and emergency lighting systems.

Their ability to provide stable power output and withstand frequent charge-discharge cycles makes them a preferred choice for these applications. Additionally, their spill-proof design and resistance to leakage make them safe for indoor use, further broadening their applicability in modern energy solutions.

While AGM 90ah batteries have been a good option, at DCS, we’re focused on the future. Our lithium batteries are becoming increasingly popular in modern applications, offering a maintenance-free, safe, and more efficient alternative to traditional AGM batteries.

Can 90ah AGM Batteries Meet the Challenges of Modern Energy Requirements?

90ah AGM batteries can meet many of the challenges posed by modern energy requirements, especially in terms of reliability and safety. They are well-suited for systems that require a stable and secure power source, such as emergency backup systems and critical medical equipment. However, as energy demands evolve and become more sophisticated, the limitations of AGM technology in terms of energy density and charging speed may become apparent. In such cases, more advanced battery technologies, like lithium-ion, might be better suited to meet these growing demands.

At DCS, we offer lithium batteries that are better suited to meet the sophisticated demands of today’s energy landscape. They offer higher energy density, faster charging, and a longer lifespan, making them a more fitting choice for advanced energy systems.

AGM 90ah vs. Lithium 90ah – Which is the Better Investment for Long-Term Use?

At DCS, we often guide our customers through the decision-making process between AGM 90ah and lithium 90ah batteries. While AGM batteries may have a lower initial cost, our lithium batteries offer better long-term value. When considering AGM 90ah versus lithium 90ah batteries for long-term use, several factors come into play;

Initial Cost: AGM batteries are generally less expensive upfront compared to lithium batteries.
Lifespan and Performance: Lithium batteries offer a longer lifespan and more consistent performance over time, potentially offering better value in the long run.
Maintenance and Safety: AGM batteries are maintenance-free and have a robust, spill-proof design, while lithium batteries require more sophisticated management systems for safety.
Energy Efficiency: Lithium batteries have a higher energy density and are more efficient in terms of charging and discharging.

What Sets DCS’s Lithium Battery 12v 90ah Apart in the Market?

What sets DCS’s lithium battery 12v 90ah apart in the market is our commitment to innovation and quality. DCS’s lithium battery 12v 90ah stands out in the market for several reasons;

Advanced Technology: Incorporating the latest in lithium-ion technology, these batteries offer superior performance and longevity.
Compact and Lightweight Design: They are significantly lighter and more compact than traditional AGM batteries, providing greater flexibility in installation and use.
High Energy Efficiency: DCS’s lithium batteries are highly efficient, with a faster charging rate and a higher depth of discharge, maximising usable energy.
Safety and Reliability: Equipped with built-in safety features, these batteries ensure reliable operation under various conditions.
Environmental Considerations: DCS is committed to eco-friendly practices, making its lithium batteries a sustainable choice for conscious consumers.

LiFePO4 90Ah Battery Can Provide 200A Current by Fast Discharging

The LiFePO4 90Ah battery is uniquely capable of providing a 200A current through fast discharging, making it an exceptional power source for applications requiring a quick and substantial energy burst. This capability is especially beneficial in scenarios where high-power output is needed in a short duration, such as in power tools or emergency response equipment. The battery’s ability to rapidly discharge at such a high rate without compromising its integrity or lifespan sets it apart in the realm of high-demand power solutions.

Ideal for High-Demand Applications

This fast-discharging feature positions the LiFePO4 90Ah battery as an ideal choice for high-demand applications. Users can expect reliable, high-intensity power delivery when it’s most needed, ensuring that equipment performs optimally even under the most strenuous conditions. The combination of high capacity and rapid discharge rate makes this battery a versatile and dependable energy solution.

LiFePO4 90Ah is Suitable for Deep Cycle Operations

The LiFePO4 90Ah battery is specifically designed for deep cycle operations, making it highly suitable for applications that require consistent and long-duration power output. Its deep cycle capabilities mean it can be discharged and recharged repeatedly to a significant extent without losing efficiency. This endurance is essential for systems like renewable energy storage, marine applications, and recreational vehicles, where the battery is the primary power source over extended periods.

Reliable Energy for Extended Use

With its suitability for deep cycle operations, the LiFePO4 90Ah battery ensures that devices and systems run smoothly over longer periods, providing users with peace of mind and reliability.

Unlock the Power of Efficiency with DCS

Ready to revolutionise your energy experience? Don’t let outdated battery technology hold you back any longer. Embrace the future with DCS’s 12v 90ah lithium battery – your ultimate solution for reliable and efficient power. Whether it’s for your RV, marine adventures, or off-grid living, our battery is designed to meet the highest standards of performance and durability.

PRODUCT RANGE

LITHIUM GOLF CART BATTERIES

Lithium Car Battery

lithium trolling motor battery

AGM LEAD ACID BATTERY

LITHIUM STARTER BATTERY

12V LAWN MOWER BATTERY

LITHIUM MOTORCYCLE BATTERY

lithium polymer battery

12 volt power supply

24v battery pack

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FAQ

Cell Safety Info - Why LiFePO4 (LFP)?

Lithium Ferrophosphate (LFP) is a flame retardant, stable, safe and proven cell chemistry that has a very good energy density around 325 Wh/L. This cell chemistry can be engineered for various applications by adjusting the ratio of elements to provide high performance characteristics. E.g. the DCS marine battery range runs 2C cells, which means our little 75Ah battery will discharge comfortably at 75Ah x 2C = 150A. The DCS 80Ah Extreme runs 10C cells which means the 80A can comfortably discharge at 80Ah x 10C = 800A but is of course limited to lower currents due the the Battery Management System.

LFP also has very good cycling durability between 2,000 ~ 12,000 cycles can be achieved depending on how well the cells are managed, and the lowest rate of capacity loss (aka greater calendar-life) compared to other lithium cell chemistries.

Why You Cannot Use A Vsr Between Two Different Batteries Capacities & Chemistries?

Battery cells are simply a bunch of resistors with the ability to store energy. A 100Ah battery pack has a different resistance characteristic compared to a 50Ah battery pack, that theoretical difference in resistance is 2:1. So if you connect a 100Ah battery in parallel to a 50Ah battery there is no way for these two batteries to equalise and therefore you can’t charge them correctly. So for example connecting a 60Ah calcium starting battery to a 120Ah AGM via a VSR (Voltage Sensing Relay) you cannot charge both batteries correctly and from that day onwards you are prematurely destroying both battery packs. Same theory applies with lithium’s it’s still a battery pack.

What’s the solution? A DC-DC charger, you now have a permanent point of isolation (meaning that both batteries are never connected to each other in parallel). The DC-DC charger takes the surplus power from battery A (engine) and chargers battery B (aux/house). This device now allows any battery capacity and or chemistry to be used.

What If Both Batteries Are The Same, Can I Run A Vsr Between Exactly The Same Two Batteries?

Yes you can, but lithium’s have a different voltage curve, so you would still need to use a programmable VSR to dial them in correctly. You would also need to ensure the batteries are programmed to never exceed a 10%SOC variance, any larger and you risk damaging the BMS's. These devices also draw a lot of power when engaged to so it’s best to run the two batteries in permanent parallel and run a load disconnect instead of a VSR.

The Advantages Of The Lithium Battery Cell Chemistry

Lithium battery cells have a super low resistance so are very easy to charge and very efficient. This level of efficiency means you can charge them at very high C rates. For example if you look at the charge rate of a 100Ah AGM battery the recommended charging current will be around 25A, which is a 0.25C charge rate. If you consider the DCS 12V 100Ah Lithium battery it can be charged at up to 70A which is a 0.70C charge rate. This means you no longer need to consider DC-DC chargers as you can connect our batteries directly to high power charging devices such as suitable alternators, or large buck boosters. For example our popular dual 90Ah battery system for boats and 4WD vehicles, can be connected to alternators up to 160A.

Why Can DCS Batteries Be Connected In Parallel Without Any External Communication System?

Because our batteries are internally voltage regulated and because our BMS has such a high sustainable peak discharge current they will do an amazing job of equalising very quickly.

Configuring Battery Systems Correctly in Parallel

When expanding battery packs in parallel to achieve larger capacity battery banks, does not mean that the charging and discharging capabilities are simply added together. For Example;

Considering 2 x DCS 12V 75Ah batteries connected in parallel, to make a 12V 150Ah battery bank. These batteries have a recommended charging current of 50A. So that would be 50A + 50A = 100A with two batteries in parallel. However you always have to work on a 20% safety margin for parallel connections, especially as batteries age over time. So it would be 100A less 20% = 80A. So it would be safe to configure chargers to a maximum of 80A.

The same 75Ah batteries have a maximum continuous discharging power output of 150A. So it’s 150A + 150A = 300A less 20% = 240A. 240A x 12V = 2.9kW. So for example these two batteries would be suitable to support a 3000W inverter.

Considering 2 x DCS 12V 180Ah batteries connected in parallel. Maximum charging current is 60A + 60A = 120A less 20% = 96A. It would be safe to configure chargers at a maximum of 96A.

The same 180Ah batteries have a maximum continuous discharging power output of 180A. So it’s 180A + 180A = 360A less 20% = 288A. 288A x 12V = 3.5kW. So for example these two 180Ah batteries would be able to support a 3500W inverter.

The same formula applies for 3 or more batteries connected in parallel. In the case of our 180Ah batteries it would be 60A + 60A + 60A = 180A less 20% = 144A for maximum safe charging. 180A + 180A + 180A = 540A less 20% = 432A for maximum continuous discharge. 432A x 12V = 5.2kW. So these three batteries could support a 5000W inverter.

What Happens If I Fully Discharge My Battery To Empty?

The BMS will emergency open circuit the battery terminals to protect the cells. This means there is no longer any resistance in the system. The BMS needs a 12V supply with at least 1A of current to release and wakeup from a cell emergency protection state.

Most mains chargers with a lithium profile will do a slow recovery charge as will most solar regulators. Some chargers on the market today that are advertised as ‘lithium’ compatible still don’t have the firmware to do a slow recovery charge to release BMS’s. If you have a charger that will not wakeup the BMS, easiest way to wake it up is to connect a unregulated solar panel directly to the battery terminals, ensure all loads are disconnected before you do this. Having said that every system should have a suitable low cut off voltage to shutdown loads/accessories so that the batteries are not fully drained.

"Batteries cannot be left flat/empty, if the low voltage cutoff is triggered the battery pack should be fully charged as soon as possible. If access to a suitable charger is not possible, disconnect all loads from the battery terminals. The warranty will be void if the battery pack has been left in a low voltage cutoff state for longer than 14 days."

Most important thing is to isolate everything from the battery terminals, as cables/loads connected to the terminals causes more power drain as the FET gates have to remain closed to cull the accessory standby loads connected to the battery pack + offset BMS standby power consumption.

Battery Monitor Settings

Use the Following Settings:

Charged voltage 14.0V
Tail current 4%
Charged detection time 1min
Peukert 1.05
Charge efficiency 98%
Current threshold 0.1A
C rates: refer to the battery pack capacity

What Is The Best State/charge To Store These Batteries ?

Fully charge to 100% isolate everything from the terminals and leave for max 3 months and then cycle (fully discharge and fully charge) and leave again for 3 months etc…. Minimum 4 cycles per year to not effect the cells capacity.

What Soc Do Modern Smart Alternators Typically Charge Batteries To?

The reason many factory batteries fall over after 9/12 months is because modern/smart alternators typically drop the alternators voltage output to 13.5/13.6V. This voltage is not high enough to charge wet/calcium/lead acid batteries so from the getgo they are destined to fail prematurely. They are typically under charged to around ~80%SOC at these voltages.

So what happens when DCS Hybrid batteries are connected to smart alternators? Exactly the same thing they get charged to around the same 80%SOC. However because LFP has no memory effect that's perfectly fine. By only charging to 80% you are further improving the service life of our batteries. It's no not necessary to charge our batteries over 80%SOC. The only advantage is that you give the BMS a chance to detect full charge voltage and calibrate the SOC readout. So try to plug into mains once a week to fully charge your batteries, especially if your not running any fixed solar supply.

Recommended Charger Settings For Dcs 12v Batteries

Bulk: 14.4V
Float: 13.5V

SOC% Out - How to Reset?

When the battery pack is discharged down to 11.50V the BMS resets to 0%SOC and now is placed in a relearning state - the pack must be fully charged continuously without stopping to calibrate again. Charge it on a mains charger to 14.60V.

Depending on the usage pattern, best to fully cycle the batteries once every 3 months to give the cells a refresh. To fully cycle a 12V pack discharge to 11.50V and charge to 14.60V.

BMS & CMS

Designing lithium batteries is not only our bread and butter at DCS; we are so passionate about this safe, stable, robust, and high-performance cell chemistry that we decided to create our own line of Battery Management System (BMS) and Cell Management System (CMS) in 2015.

DCS BATTERY MANAGEMENT SYSTEM:

What was the goal? We started this project because all of the basic Chinese-designed BMSs are just protection boards, and it's difficult to call them a BMS when they don't do any cell balancing or provide any programmability for various parameters and cell control. Many of the Battery Management Systems we tested used poor PCB engineering design techniques and components. That meant that pushing above 100A was nearly impossible, and reliability was also questionable when using those Battery Management Systems.

In a nutshell, the design had to be tough and dependable for those who would use them in the field, with no room for error. Construction materials, coatings and surfaces, and assembly techniques are all important considerations when designing a reliable system. We assessed the expertise of all major leading manufacturers in Europe, Japan, the United States, and Korea after submitting our brief to them all. We ended up working with a leading and well-known Japanese semiconductor manufacturer.

ABOUT US

OUR PRIMARY BMS OBJECTIVE WAS TO CREATE A

HIGH PERFORMANCE 200A BMS THAT COULD DO

Continuous operation at 200A using high-quality components
To have a minimal temperature increase at peak output current (these circuit boards are installed inside battery packs, they limit internal heat build-up that is crucial for the long life of the battery cells).
Designed for engine cranking applications, as it must deliver a minimum of 1200LCAs for 10 seconds (due to the limited voltage drop with suitable lithium cells, it is very easy to crank over modern engines). Most engines start in less than a second, so 10 seconds is plenty. CCAs do not apply to lithium batteries because this standard was designed for lead-acid batteries and required 30 seconds of cranking amps. When a lithium battery is controlled by a BMS, the correct terminology is LCA, which stands for Lithium Cranking Amps and is based on delivering 10 seconds of cranking amps.
Suitable for use in high-temperature applications such as engine compartments. It will be stable up to 180° C.
Comes with Bluetooth and WiFi connectivity to create a comprehensive app platform
MIL vibration standards are met (to open up the development of batteries for any application).

THIS IS TYPICAL CHINESE 100A 4S BMS DESIGN

THE DCS 4S 200A BMS

After three years of development, we were pleased with the circuit board stress testing and released the first batch of our newly developed BMSs across our entire 4S (12V) and 16S (48V) battery range in early 2018. Simultaneously, we hired an app development team to begin work on the software integration for our first app platform. In OCT 2019, the first GEN1 BLE DCS BMSs with Bluetooth chips were released. Our GEN2 BMSs were released in mid-2020, along with a more stable app platform with a new design scheme, after much tweaking on the hardware and software fronts. Our most recent GEN3 BLE BMSs were released in JAN 2021. The DCS LFP App monitoring system's accuracy and stability are now very mature and refined. Some new features have been added, including the ability to create custom battery names. With our comprehensive BLE DCS LFP App platform, we can produce our DCS BMS technology in any continuous rating range from 10A to 200A.

DCS CELL MANAGEMENT SYSTEM

It made no sense to combine the cell balancing system with the BMS after developing such an industry-leading and dependable BMS. So, based on our extensive experience designing and maintaining lithium batteries, we created a stand-alone CMS to complement our BMS. CMS? What? OK, so in the lithium world, there are two 'theories' of cell balancing: passive and active. Passive balancing is a low-cost, ineffective method of cell management that can cause resistors to burn in an attempt to bleed cell strings. Active cell balancing, on the other hand, is a more complex and efficient balancing technique that redistributes charge between battery cells during charge and discharge cycles.

Two Major Drawbacks to Passive Balancing

Heat: We don't want excessive heat to accumulate inside a battery pack. The less internal heat there is, the less impact the battery cells have over time. Resistors have a finite service life, and if they fail, the game is over because you have no cell management. However, they can fail in such a way that they continue to draw power and eventually destroy the cells.
Active balancing is the only way to manage lithium cells accurately. There are numerous ways to design an integrated circuit (IC) that actively manages cell strings. Over the years, DCS has tested well over ten different methods of active balancing ICs and, in the end, decided to develop our own active management circuit boards with the best-combined techniques based on our stress testing. Max, our in-house PCB design engineer, created our circuit boards to meet the following criteria;

High current flow (our latest boards now achieve 3.7A dynamic movement per channel)
Thermal management ensures the boards' dependability in harsh environments.
To ensure long-term reliability, be able to withstand maximum current and thermal loads.
Fail-safe design ensures that if any component fails, the battery pack is not compromised (it does not consume power from the battery cells).

We design all our own PCB hardware and the circuit boards are tested to withstand a minimum of 10 years of severe abuse. This video is the MIL-STD 810G Method 514.6 which includes 4 procedures for different modes of vibration.

THE DCS 16 CHANNEL CMS

There are some other software features and parameters that we cannot reveal to the public on this page, as well as some very fancy hardware. However, our latest 04-channel and 16-channel CMS's can easily manage up to 1000Ah battery banks. So, for example, if you wanted to use our 16 channel CMS's, you could run a 51.2V 1000Ah single battery pack, which means 51.2kWh in size! The DCS 15kWh batteries are just shy of 300Ah in capacity, so you can imagine how closely these batteries are monitored by CMS, which is why we back them with a 10-year / 80% capacity warranty. The DCS 16 channel 59.2A active cell balancing system is so effective that it will change the battery storage market forever. With this system, the lithium market will continue to dominate for the foreseeable future. All DCS batteries now include both our BMS and CMS circuit boards.