100Ah battery cost. 100ah battery cost

Exide 100AH Xpress Generator Battery (XP1000) 36Months

Authorised Dealer for Exide Delivery and Installation Support Immediate delivery available Buyback Price offered for Old Battery Discount available for Cash and Carry 20 Years Experience in this field Use buyback Coupon code OLDBB100 at checkout.

Buy Back Amount

To get buyback value for your old batteries Use this Buyback Coupon code at Checkout if you have the same Ah rating battery for replacement.

Call us and get Buyback Coupon code if you have different rating battery.

Description. Exide Xpress Generator and Four Wheeler Truck Batteries in Chennai.

Exide XPRESS battery the latest offering from Exide that promises superior Cranking Power at a fantastic price. This battery Withstands bumps and vibrations, Special polypropylene container with strengthening ribs makes the battery strong enough to withstand severe operating conditions and arduous vibrations in service. This is Maintenance-free and Requires topping up only once in 6 months. Special alloy ensures low water loss during high-temperature operations.

Exide is the top battery manufacturers in India providing a wide range of Generator and Truck batteries. This Exide Xpress XP1000 model Genset Short type FLAT Plates design battery is 12 Volts and 100Ah monoblock battery suitable for all types of Genset, Four Wheeler, Truck, Bus and Heavy Vehicle cranking applications. This battery comes with Magic eye to Easy to ascertain the state of the charge as well as electrolyte level of the battery.

Online purchase of battery allows the customer to enjoy Paperless Warranty through registration of the purchased battery.

FEATURES. Exide 12V, 100Ah Xpress XP1000 Battery

  • Factory charged, Ready for commissioning: Batteries supplied in the factory-charged condition
  • Easy maintenance
  • Higher Reliability.
  • Enhanced safety: Micro-porous filter disc in vent openings help arrest acid fumes and restrict spark propagation inside the battery
  • Improved cycle life: Double-clad separation in the form of a unique rib-free separator profile, reinforced with texturised glass mat, provides surface support to the active material, thereby improving cycle life and resistance to bumps and vibrations
  • Larger Electrolyte Volume Reduces Frequency of Water Topping. Maintenance-free: Requires topping up only once in 6 months. Special alloy ensures low water loss during high-temperature operations
  • Magic eye: Easy to ascertain the state of the charge as well as electrolyte level of the battery
  • Leak-resistant design: Side vented lid with electrolyte flow back system reduces the chance of electrolyte leakage during handling
  • Made for Indian environment: Use of special Hybrid Alloy System ensures that the battery can withstand the Indian environment and high under-bonnet temperatures
  • Quick recharge: Unique tree radial grid design, lower internal resistance and special paste chemistry enhance recharging capability of the battery during use

SPECIFICATIONS. Exide 12V, 100Ah XPRESS XP1000 Generator, Truck and Heavy Vehicle Battery

Brand Exide
Model XPRESS XP1000
Voltage 12V DC
Capacity 100Ah
Type of Battery Flat Plate
Vehicle support All Brands Generator, Trucks, Four wheeler and Heavy Vehicles.
Factory Charged Yes
Water Level Indicator Magic EYE indicator available
Maintenance Required ( Low Maintenance type )
Warranty 36 Months Warranty
Warranty Terms 18 Months Replacement and 18 Months pro rata
Dimensions (LWH) in mm 410 x 176 x 233 mm
Weight in Kgs (approx.) 27.5 Kgs
Electrolyte Volume 8 Litres
After-sales service Warranty Service support by Exide Industries Ltd

0ah battery cost

Product Description:

Each battery has built in PCM protection board from Over-discharge, Over-charge, Short Circuit etc….

LiFePO4 battery is Environmentally friendly, which will not destroy the ecological environment, also have no memory effects.

Have low internal resistance and high flat voltage characteristics during strong current discharge, which ensures a wider application field.

Provide long storage life with few limiting conditions. It offers problem-free charge after long storage, permitting to use in a wide range of applications.

Part Number LiFePO4 12V 100Ah Rechargeable Car Battery
MAIN PARAMETER
Rated Capacity 100Ah
Nominal Voltage 12.8V
Max Charge Voltage 14.6V
Discharge Cut Off Voltage 10V
Charging Current 50A
Max. Continuous Discharging Current 500A
Cycle Life ≥2000 cycles
Discharge Rate ≤3%
MECHANICAL SPECIFICATIONS
Dimensions (TWH) 318175190mm ±5mm / Customized
Weight 10.5Kg
Encapsulation Customized is available
OTHERS
Operating Temperature Charging: 0~45℃/Discharging:-20 ~60℃
Storage Temperature -10 ~ 45℃
Humidity 5% to 95% relative humidity
Certification CE/RoHS/MSDS/UN38.3
Main protection function Overcharge, over discharge, over current, short circuit, etc.
Delivery period 7-20 days, depending on stock and quantity.
Warranty One year
APPLICATIONS
1) Car, Automobile, Auto

Generally, what are Lithium-Ion Batteries? A. Lithium-ion batteries are rechargeable batteries in which lithium ions move from the anode to the cathode during discharging and back when charging. They are popular batteries for use in consumer electronics because they provide high energy density, possess no memory effect and have a slow loss of charge when not in use. These batteries come in a wide variety of shapes and sizes. Compared to lead-acid batteries, Lithium-ion batteries are lighter and provide a higher open circuit voltage, which allows for power transfer at lower currents. These batteries have the following characteristics:

Features of ionic Lithium-ion Deep Cycle Batteries:

Light weight, up to 80% less than a conventional, comparable energy storage lead-acid battery. Lasts 300-400% longer than lead-acid. Lower shelf discharge rate (2% vs. 5-8% /month). Drop-in replacement for your OEM battery. Expected 8-10 years of battery life. No explosive gasses during charging, no acid spills. Environmentally friendly, no lead or heavy metals. Safe to operate! The term “Lithium-ion” battery is a general term. There are many different chemistries for Lithium-Ion batteries including LiCoO2 (cylindrical cell), LiPo, and LiFePO4 (cylindrical/prismatic cell). Ionic mostly focuses on designing, manufacturing and marketing LiFePO4 batteries for its starter and deep cycle batteries.

What are LiFePO4 (Lithium Iron Phosphate) Batteries? A. Lithium Iron Phosphate (LiFePO4) batteries provide several advantages over traditional Lithium-ion batteries based on LiCoO2 chemistry. LiFePO4 batteries provide much higher specific capacity, superior thermal and chemical stability, enhance safety, improve cost performance, enhanced charge and discharge rates, enhanced cycle life and come in a compact, lightweight package. LiFePO4 batteries an offer a cycle life of over 2,000 charge cycles!

Why should I get a ionic’s lithium-ion “Deep Cycle” energy storage battery? A. Lithium-ion batteries provide multiple advantages over standard lead-acid batteries for energy storage use that we’ll outline below:

Substantially Lighter – Lithium-ion batteries are just a fraction of the weight of the original lead-acid battery. Powerful – Lithium-ion batteries operate at a higher voltage than standard lead-acid batteries, giving you faster engine speed for longer durations. Lead-acid batteries drop to just 12.5V when only 20% of the battery capacity is used, but lithium-ion batteries provide over 12.8V even when only 20% of the battery capacity is left. Low Self-Discharge Rate– Lead-acid batteries lose 4%-25% of their charge every month depending on the quality of the plates and separators used. If you leave a vehicle unattended for a month, the lead-acid battery might lose too much power and the vehicle might not start. On the other hand, our lithium battery chemistry loses less than 3% of charge per month; you can go for several months without having to worry. Environmental Friendly– Ionic batteries contain no toxic substances. There is no poisonous lead or corrosive sulfuric acid and as a result, no possible way for an explosive gassing event that is common with lead-acid batteries. In addition, there is no need to maintain acid levels or worry about venting like traditional lead-acid batteries do. The only maintenance that ionic batteries require is ensuring that the battery never drains beyond 80% to ensure optimal life. Long Lasting– Cheap lead-acid batteries usually only last 1 to 2 years while gel and AGM lead-acid batteries last 3-5 years with proper maintenance. However, ionic’s lithium-ion batteries can provide 8-10 years of use, easily exceeding the life of any lead-acid battery. Battery life depends purely on proper operation and maintenance, so use common-sense and ensure the battery does not drain beyond 80% discharge. If you are replacing a lead-acid battery in two years or less due to deep cycling damage, you will save money in the long run moving to a ionic lithium-ion Fast Recharging – ionic’s lithium-ion batteries can accept charge current at up to 5 times faster than a lead-acid battery. What’s more, the charge efficiency is about 75% for lead-acid in contrast to 97% for ionic’s lithium-ion battery. That means less energy is needed to charge and causes less strain on your alternator.

What advantages does ionic “Deep Cycle Batteries” have over other batteries? A. ionic utilizes the latest advancements in lithium-ion battery technology along with custom features to provide you with the best battery for your vehicle:

Internal Cell Balancing Circuit – ionic batteries have a micro-processor controlled internal cell balancing board in each of its batteries designed to maximize the performance of each cell in the batteries. Battery Management System (BMS) – ionic lithium-ion Smart batteries contain a solid state switch that controls temperature volatility. This switch prevents overcharging and discharging, improving the overall lifespan performance and safety of the batteries. Quality Engineering – ionic’s innovation laboratory prides itself on the design and construction of its batteries utilizing the highest quality components in all phases of design and construction. The ionic built-in intelligent components guarantee the safety and quality of each ionic product. Prismatic Cells – Cylindrical cells only come in certain sizes which limits the possible shapes and sizes of the starter battery case designs. As such, batteries fit for many vehicles may be poor, or impossible as they are too wide or too tall and create internal hot spots. Ionic prismatic cells on the other hand, are rectangular packages which can be freely designed and sized according to the size requirements of the battery case. As such, ionic offers perfect drop-in fit in most vehicles along with having better thermal management properties.

How does ionic’s “Deep Cycle” capacity (Ah) rating compare to lead-acid Ah ratings? A. Ionic’s “Deep Cycle” batteries have true lithium capacity rating at 1C discharge rate meaning a 12Ah “Deep Cycle” lithium-ion battery will be able to provide 12A for 1 hour. On the other hand, most lead-acid batteries have a 20hr or 25hr rating printed for its Ah capacity meaning the same 12Ah lead-acid battery discharging in 1 hour would typically only provide 6Ah of useable energy. Going below 50% DOD will damage a lead-acid battery, even if they claim to be a deep discharge battery. Thus a 12Ah lithium battery would perform closer to a 48Ah lead-acid battery rating for higher discharge currents and life performance. Ionic’s lithium-ion batteries have 1/3 the internal resistance of a similar capacity lead-acid battery and they can be safely discharged to 90% DOD. Lead-acid internal resistance rises as they are discharged; the actual capacity which can be used may be as little as 20% of the mfg. rating. Discharging in excess will damage the lead-acid battery. Ionic’s lithium-ion batteries hold a higher voltage during discharge.

V-100AH Lithium-Ion Battery Pack(LFP)

BSLBATT 12V 100AH lithium battery, Up to 8000 Cycles, Built-in Smart BMS, Perfect for RV, Solar, Marine, Overland/Van, and Off-Grid Applications.

Product Specification:

  • MOQ: 10pcs
  • Delivery time: 15-20 working days
  • Capacity of supply : About 2 million KVAH each year
  • Color: Color customizable
  • Payment methods : L/C, D/P,T/T, PayPal, Western Union
  • Port : Guangzhou/Shenzhen

This 12V 100AH Lithium Ion Battery is plug and plays for starting or deep cycle applications including Marine, RV, Golf, Solar, Off-Grid, Propulsion, and other applications requiring a lightweight lithium battery to replace Lead Acid, Gel, or AGM Batteries.

The 12V 100AH lithium battery BSLBATT® offers high-level safety through the use of rhombus cells in Lithium Phosphate technology (LiFePO4 or LFP).

The BSLBATT® range has been designed to replace lead-acid batteries advantageously, by offering a quadruple energy density for an equivalent weight and size.

Thanks to its technology, the BSLBATT® 12V 100AH lithium battery can be installed in any position (vertically, lying on the side or head down).

The electrical parameters of the BSLBATT® 12V 100AH lithium battery are compatible in all respects with those of an AGM lead battery of 12V. In the vast majority of cases, the charging system can be kept the same and no additional accessories are required to perform the replacement.

The products BSLBATT® are light, compact, efficient and can be used for all types of uses and applications. BSLBATT® are designed to drop-in replacement of old generation batteries (Lead VRLA, AGM or OPZ batteries) in 12V, that are low performance and harmful to the environment (use of heavy metals and acid electrolytes).

Drop-in replacement for lead acid batteries – and more bang for your buck

Maintenance-free, modular, and lightweight

Holds a charge for up to 1 year without a load, and no need for a trickle charger – great for unattended storage

Longer life compare to lead acid battery

energy with 1/3 smaller size

Less than 3% self discharging

Built in safety protection

Protections: high/low voltage; short circuit; high/low temperature

Designed and assembled in Shenzhen, China

SPECIFICATIONS:

Items Parameter
Battery Type 12v 100ah Lithium Battery (LiFePO4)
Nominal Voltage 12V
Nominal Capacity 100Ah
Energy 1200 WH
Dimensions (L x W x H) 323173218MM
Weight 14KG
Case Material ABS/Iron case
Certifications CE/ISO/UN38.3/MSDS
Efficiency 99%
Self Discharge
Series Parallel Application max. 4 series or 4 parallel connected application
Peak Discharge Current 200 A
Continus Discharge Current 100 A
Operation Temperature Range -20~60℃
Voltage at end of Discharge 12.8 V
Working Voltage 10-14.4V
Discharge Temperature -4 to 140 ºF (-20 to 60 ºC)
Charge Temperature 32 to 113 ºF (0 to 45 ºC)
Storage Temperature 23 to 95 ºF (-5 to 35 ºC)
Cycle Life 2000 cycles
Self-Discharge Rate Residual capacity: ≤3%/month; ≤15%/years
Reversible capacity: ≤1.5%/month; ≤8%/years
Storage Temperature Humidity Range Less than 1 month:.20℃~35℃, 45%RH~75%RH
Less than 3 months:.10℃~35℃, 45%RH~75%RH
Recommended storage environment: 15℃~35℃,45%RH~75%RH

■ Product List

Models Voltage(V) Nominal Capacity(AH) Max.charge current(A) Weight(kg)/-5% Dimension(/-3mm) Cycle life DOD 100%
L(mm) W(mm) H(mm)
B-LFP12-40 12 40 20 6 195 130 168 >2000
B-LFP12-50 12 50 30 7 229 138 213 >2000
B-LFP12-80 12 80 30 12.8 262 167 212 >2000
B-LFP12-100 12 100 50 14 323 173 218 >2000
B-LFP12-120 12 120 60 16 323 173 218 >2000
B-LFP12-150 12 150 75 24 485 172 240 >2000
B-LFP12-170 12 170 85 26 485 172 240 >2000
B-LFP12-200 12 200 100 30 520 269 205 >2000
B-LFP12-240 12 240 120 34.2 520 269 208 >2000
B-LFP24-50 24 50 25 14.8 520 380 290 >2000
B-LFP24-100 24 100 50 28 520 450 350 >2000
B-LFP24-150 24 150 50 42 520 450 400 >2000
B-LFP24-200 24 200 50 56 520 380 290 >2000
B-LFP24-250 24 250 50 70 600 450 350 >2000
Because the model is numerous, only displays the part, may contact us to understand more!

Battery Management System:

The lithium batteries are supplied with Battery Management System that can monitor and optimize each single cell during charge and discharge, to protect the battery pack from damage agains over-charge, over-discharge, short circuit. The BMS helps to ensure safe and accurate running.

Items
Content Specification
Over Charge Over-charge protection for each cell 3.8±0.03V
Over-charge release for each cell 3.60±0.05V
Over-charge release method Under the release voltage
Over Discharge Over-discharge protection for each cell 2.3±0.05V
Over-discharge release for each cell 2.8±0.05V
Over-discharge release method Charge to recovery
Over Current Over discharge current protection 300A~500A
Protection delay time 50ms~200ms
Over current release method Delay about 8S after recovery
Short Circuit Do not short-circuit the electrodes Designed for 600A/500us
Battery Temperature Charge over temperature Protection @ 65±5℃
Release @ 50±5℃
Discharge over temperature Protection @ 65±5℃
Release @ 50±5℃
MOSFET over temperature Protection @ 103±10℃
Release @ 75±10℃
Mining Lift Trucks Remote Power
UPS Military Utility batteries
Solar Industrial Telecom
Marine RV

Safety:

BSLBATT® batteries are based on Lithium iron battery technology (LiFePO4). This is the safest Lithium technology available today. On top of that our bespoke casing and electronics further increase safety and durability.

Primary Competitive Advantages:

Origin Guarantee/Warranty Price Product Features Product Performance Prompt Delivery Quality Approvals Reputation Service Small Orders Accepted

INTERNAL STRUCTURE:

BSLBATT caring every detail of the lithium battery pack to assure you get the safest and durable battery using experience:

Main Export Markets:

Asia/Australasia Central/South America/Eastern Europe/Mid East/Africa North America/Western Europe

Best Affordable Lithium Ion Battery for Your RV

If you’ve been in the market for a deep-cycle lithium battery, you may have had a bit of sticker shock in seeing ranging from 700 to over 1000 for a 100 amp hour (Ah) battery. It’s a big investment, especially if you’re building out a solar setup for recreational vehicles (RV) that requires multiple batteries or upgrading your RV house battery to this newer, more reliable technology.

However, can you buy a well-built, feature-rich lithium battery, equally as reliable as some of the popular brands? We’ve recently reviewed the PowerUrsus 100Ah lithium iron phosphate battery (LiFiPo4) and found that it packs quite a punch, both in capacity and features, at a very approachable price point. So let’s take a closer look at what we found.

SAVE 15 with Coupon Code: M15

About Lithium-ion Batteries

If you don’t need to learn more about lithium batteries and are here for the PowerUrsus review, feel free to skip ahead to the review section.

Before we jump into the heart of the review, it’s important to understand a little more about a lithium Battery as compared to the standard lead-acid battery we’re all familiar with. While most of us use lithium battery technology every day, most prominently in our cell phones, lead acid batteries are still the most common deep cycle battery we find in our RVs, trolling motors, etc. There have been some advancements in lead acid battery technology, such as the introduction of AGM batteries and Gel Batteries, but they all function similarly. However, the lithium battery revolution is gaining traction as many people see the benefit of upgrading to this newer technology.

While a standard lead-acid battery uses lead plates and an electrolyte solution to maintain a charge, a lithium battery uses a new technology. This technology powers most consumer electronics, including the phone you might be using to read this article. The most common type of deep cycle lithium-Ion battery uses a Lithium Iron Phosphate (LiFePo4) chemistry. In these batteries, energy is stored in a lithium-ion phosphate solution rather than an electrolyte solution in traditional lead-acid batteries.

Since most of the weight of a traditional battery is due to the lead plates, a lithium battery will be much lighter. In addition, lithium batteries rely on inorganic phosphates, making them one of the safest and most fire-resistant batteries on the market, which is a good thing since most of us keep them in our s all day long.

One difference of a lithium battery is that it doesn’t give you a lot of warning before it dies. A Lithium battery will usually work until it doesn’t. While standard batteries may produce the telltale signs of a dying battery- lights dim, starting is sluggish, etc., a Lithium battery may seem fine one minute and then go completely dead the next. While it may sound like a negative, it means you’re using more of the battery capacity for a longer period of time (an overall plus), making them a great option for RV use.

Lithium batteries benefit from a deep discharge, meaning you can utilize most of the energy stored in the battery without damaging it. Because of this, combined with their fast-charging capabilities, safety features, lighter weight, and reliability, lithium batteries are a much better solution for applications required by RV owners, charging via solar panels, and uses that require a constant and steady power supply.

Lithium Batteries are Smart Batteries

Lithium batteries offer many benefits in delivering electricity, but they also have advanced controls for how they charge and store electricity. Since lithium batteries are more advanced and have unique charging parameters, most good ones have a robust built-in battery management system (BMS). The BMS is essentially the battery’s brain, managing each cell’s charge and discharge rates. A good BMS will also monitor other parameters, such as temperature, ensuring the battery will only charge when the conditions are adequate. This component will prevent damage to the battery if charged in extreme temperatures (cold and hot).

A well-built lithium battery will come with a well-designed and reliable BMS. Unfortunately, some less expensive lithium batteries will forgo this requirement or have a less-than-ideal system in place. So, when reviewing a battery, it’s critical to FOCUS on the BMS and the cell structure. The good news is that a well-built and designed battery will ensure that everything is designed to work together.

Lithium Battery Charging

Lithium batteries charge differently than a standard lead acid batteries. If you have an old analog charger sitting in your garage, it may charge the battery, but it’s not going to do it efficiently and can actually damage the battery. Luckily, newer digital chargers are equally as Smart as lithium batteries. Many will have a setting for lithium batteries, which provides a different type of voltage pattern optimized for lithium batteries.

If you spend money on a lithium battery, it’s advisable to upgrade your charger if it’s not designed for lithium cells. Likewise, if you rely on the charger in your RV when connected to shore power, ensure it’s capable of charging lithium batteries. Most newer RVs will be fine and be a drop-in replacement, but it’s important to check before you upgrade.

100ah, battery, cost

Lithium batteries are also the choice of individuals building a solar power system. While we won’t get into the details in this article, it’s important to note that your choice of battery is one of the most important components of harnessing and storing solar energy. In addition to a battery bank, you will need a solar charge controller, inverter, solar array, and of course, sunlight.

Benefits of Lithium Batteries

Lithium Batteries offer many benefits over a standard lead acid battery. First, they are very reliable and can be trusted to provide constant clean power to your devices. While they are more expensive, they ultimately have a lower system lifetime cost than any other battery chemistry available today. A lithium battery can last up to 10 times longer than a lead acid battery. That’s a long time, especially when boondocking or camping off the grid.

Lithium batteries are also lighter and can be smaller. While this may not be a huge selling point for a single battery in your RV, it can make a big difference if you design large solar systems in your rig. Lithium batteries are also sealed and can be safely used indoors, unlike lead-acid batteries.

100ah, battery, cost

One of the greatest benefits of a lithium Battery is the significant improvement you gain in discharge and charging efficiency. Lithium batteries can charge much faster than lead-acid batteries and can be discharged to a low state while still receiving constant power. This benefit not only adds reliability but can also protect the devices that are using electricity from the battery. Additionally, since you can use more of the stored energy in a lithium battery, you will have more usable capacity than the available lead-acid counterparts. This added capacity is one of the primary factors for choosing lithium-ion batteries.

In addition to a long run time, lithium ion batteries also have a long life. A typical cycle life of a quality lithium battery is over 3,000 discharge and recharge cycles. After this, the total capacity may diminish, but for most users, this is well over a 10-year lifespan if you were to drain it completely every day. So compared to lead acid batteries, these are the best choice if you’re looking for a long term battery system solution.

Negatives of lithium batteries

While it’s easy to point out the many benefits of lithium batteries, there are a few caveats. The first notable one is that lithium batteries can be very expensive when matched up against a similar-capacity lead acid battery. You can easily pay 5 to 10 times the cost of a lead acid battery to upgrade to lithium.

Lithium batteries are also prone to damage from overcharging, so it’s important to have a quality BMS built into them. If you opt for a battery that’s not built well, you can end up with a very expensive paperweight.

Choosing a Deep Cycle Lithium Ion Battery

Battery Size:

One of the first decisions you’ll need to make when searching for a lithium battery is its size/capacity. For this, you’ll want to be looking at Amp Hours (Ah). A battery Ah rating will tell you how much amperage can be provided by the battery for one hour. So, a typical 100Ah battery can supply 100 amps for one hour or one amp for 100 hours. While it may seem a little confusing at first, it’s important to understand how battery capacity works so you can determine how much energy you need.

While I won’t go into many details in this article, we will look at one example to give you an idea of how it works. Most electronic devices measure their electricity usage in Watts. So, to measure this against a battery Ah, you need to do a simple conversion. All you need to do is multiply the battery voltage by the Ah rating. For example, if you have a common 12V 100Ah battery, multiply 12 x 100 to get the Watt Hours. You now know that you have a battery supplying 1200 Watts of electricity per hour.

Next, let’s look at a common device you may use in your RV- a television. A typical 40-inch HDTV will use about 230 Watts of electricity per hour. Your 100Ah 12V battery, as determined from the previous calculation, has a 1200Wh rating. So, if you take 1,200Wh and divide it by the TV usage (1200Wh/230W), you can estimate that you can run your TV for 5.2 hours before you exhaust your battery. Likewise, a 200Ah battery will provide 10.4 hours of watch time.

Be aware that these numbers are fairly basic. Many different conditions can impact your use. For example, some devices use varying levels of electricity. Also, some batteries can’t use all of the energy stored in the cells. For example, a Lead Acid Battery may only be capable of discharging to 50% of its capacity, so you need to cut that number in half. The great thing about lithium batteries, which makes them so attractive, is that they can be discharged close to 0%, meaning you can get a lot more juice out of them.

100ah, battery, cost

So, when selecting your battery capacity, it’s best to consider your usage needs first. For example, if you plan to live off the grid for several days and use a lot of electricity, you likely want a larger Ah battery or may want to run several of them in parallel. This setup is especially true if you’re planning to build a system that can power your RV’s air conditioner.

For this review, we’re testing a 100Ah battery, one of the most common sizes in RVs.

Battery Manufacturer:

When making such a big investment in a battery, it can be a little confusing to ensure you’re selecting a good-quality battery. If you search on Amazon, you will find dozens of deep-cycle lithium batteries with few reviews, varying prices, and sporadic documentation on the battery components. Even worse, it’s nearly impossible to determine the quality of the components used to build the battery.

On the opposite spectrum, if you do a deep dive into finding well-reviewed and quality batteries, you’ll likely be shocked by the sticker price and wonder if paying 800 for a single battery is worth it. Luckily, if you want to buy the best of the best and are willing to pay for it, you can be certain you’re getting a quality battery.

The challenge exists when you’re looking for something in the middle of the road that is reliable, built with good components, and affordable. This class is where the PowerUrsus thrives.

Honestly, I had never heard of PowerUrsus until they reached out to us asking us to review their battery. However, after receiving it, testing it, and doing some additional research on the build quality, we can confidently say that this appears to be a great battery for the price. So, let’s dive into the review.

PowerUrsus 100Ah Battery Review

SAVE 15 with Coupon Code: M15

Design, Housing, and Appearance

The most important part of the battery is under the hood, which makes selecting a quality battery challenging. However, poor housing assembly often indicates that the rest of the battery has much to be desired. Nevertheless, it has a nice lightweight design built around four battery cells.

The PowerUrsus housing is fairly basic, but it’s assembled well. This shortfall is probably the one thing I would suggest the manufacturer upgrades. Many lower-cost lithium batteries use a similar case with a different sticker. Unless you tear down the battery, it’s hard to differentiate between some of them. The standard black/orange case does not scream quality, but remember, it’s important not to judge a book by its cover.

In researching the battery, we found someone who tore apart the battery to get to the components and BMS. As a result, we learned that this is a well-built battery with good components packaged in a mediocre case. This fact is good news for this battery. However, PowerUrsus should consider upgrading the case to stand out from the poorly designed batteries using the same one. With that being said, rest assured that this battery is well-built, and the case is solid and provides good protection for the battery. This is more of an aesthetic suggestion.

Battery Management System (BMS)

As mentioned above, a lithium battery is not very reliable without a quality BMS. Luckily, the PowerUrsus battery offers a well-designed and capable one. Below are some of the protections offered by the built-in BMS.

Temperature Protection

A must-have feature in a deep-cycle battery is temperature protection. This feature is even more relevant in a lithium battery since charging a battery that is too cold or hot can damage it. The PowerUrsus battery has both a low and high-temperature sensor, preventing charging if it’s below freezing or hotter than 155 degrees F.

This safety feature is important for applications like an RV if you plan to use the RV in the winter. Without this protection, you could permanently damage your battery if you attempted to charge it on an extremely cold winter day.

Output Overvoltage Protection

The battery has a recommended discharge voltage of 10.8V to 12.4V, which will bode well for almost any application. However, if you have a situation where you experience a voltage spike, the battery will shut down the supply to prevent damage to the battery.

Overcharge Protection

While most quality chargers will monitor the battery’s charge and prevent damage from overcharging, having onboard overcharge protection is a good idea in the BMS. If you accidentally selected the wrong setting on your charger or used an old one not designed for lithium batteries, the onboard protection will prevent damage to the battery. Since overcharging is one thing that can damage the battery, I like to have redundancy for overcharging protection built into the charger and battery.

Output Overcurrent Protection

Another important protection feature of the BMS is its protection against overcurrent discharge. An unintended excess draw of current from a device can be dangerous, as the heat generated by the flow of electricity can be enough to start a fire. In addition, if you have a failing device or component in your electrical system, the battery will stop providing power if it senses a higher-than-normal current draw.

Short Circuit Protection

Similar to overcurrent protection, a short circuit protection component will provide instant shutoff within 1 microsecond if it senses a large discharge, often a telltale sign of short circuits.

Over-Discharge Protection

While lithium deep cycle batteries can be drained close to zero, there is still a discharge threshold that you should avoid to preserve the life of a battery. You don’t need to worry about monitoring the battery discharge 24/7 because the over-discharge protection will cut off power when it gets critically low.

Using the batteries in Series

Like most LiFePo4 batteries, this one can be run in a series, allowing you to maximize a battery bank build for use cases like a solar power setup. You can connect a maximum of 4 100Ah batteries for a total of 400Ah. If you want or need to go bigger, you may want to upgrade to a 24, 36, or even 48-volt system. However, with the larger capacity comes a bigger expense.

Bluetooth Function

Unless you knew ahead of time that the battery connected via Bluetooth to an app, you wouldn’t know this by the documentation provided. At least in the test unit we received, there wasn’t anything in the box that mentioned the Bluetooth App. However, I already knew this was a feature, so when searching on their website, I found the link to download the app.

Connecting the battery via the Bluetooth controller was simple. All you have to do is search for the battery in your Bluetooth control panel, connect and open the app, and enter the name of the battery. The app is pretty simple, with no frills or bloated features. However, it worked great and provided all of the basic information we needed, such as battery capacity, charge status, life cycle usage, and battery health.

The Bluetooth signal on the battery was surprisingly strong. The test was conducted in the basement, but we connected to the battery on the second floor of the house. Seeing the capacity of the battery throughout the day-long test was very convenient. I expect the same will be true if you’re using it in your RV and curious about the state of charge of your battery. You won’t need to head outside with a volt meter to check on it.

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Testing the PowerUrsus 100Ah Lithium Ion Battery:

TEST 1: Charging Test

The first test we conducted was the charging time for the battery. The battery ships with around a 30% charge, but you’ll need to fully charge it before use. Using a 3.0 Amp battery charger supplied by PowerUrsus, the battery took about 23 hours to charge fully.

Following the test, we also charged it with a 10A charger, which, as expected, reduced the charging time significantly. It took about 10 hours to charge the battery from a fully drained state. The battery has a good charging management system that functions as it should.

Test 2: Battery Drain

With a fully charged battery, we ran a simple battery drain test. To accomplish this, we used a 55-watt Halogen lightbulb, similar to a car’s headlight. When doing the math, we determined that the light should draw about 4.58 amps. The convenient Bluetooth interface confirmed what we already knew when the load was applied to the battery.

With a 100Ah battery, the theoretical capacity should power this light for 21.8 hours. However, the designed capacity vs. the actual capacity of a battery is rarely exact. On the Bluetooth interface, PowerUrsus shows a designed and actual capacity of 100Ah, so the runtime should be pretty close for this new battery.

The test was operated at room temperature, providing a normal operating environment. With the fully charged battery, we connected the light with a simple 12v wire connection to both the positive and negative posts of the battery. We turned on the light, started the timer, and set up a nest camera to see when it cut out.

About 16 hours into the test, the inexpensive halogen light burned out. There was still 16 percent remaining on the battery, so we headed back out to Harbor Freight and picked up a replacement light. We connected everything and resumed the test.

However, after some head-scratching, we realized the new light was only pulling 4.1 amps as opposed to 4.5 amps of the previous one (9% less). It was the same exact light we used before, so we don’t know why it was pulling less amperage.

For the test to remain consistent, we needed to add an additional 36 minutes to the anticipated results. The new benchmark was now 23 hours.

Time-lapse of Battery Drain Test

We continued to let the light run until the battery was completely drained. We are happy to report that the battery lasted exactly 23 hours and 50 minutes. This exceeded the maximum time we anticipated the battery would last by nearly an hour. If the test came back anywhere between 22 and 23 hours, we would have been happy with the results. Instead, we were extremely impressed.

This runtime exceeded the expected results, meaning their advertised Ah ratings were spot on. This result is what we wanted to see from this controlled test, and we can confidently say that the battery delivers what it advertises.

Another interesting thing we noticed after fulling draining the battery was that the Bluetooth still worked. We were able to connect to the battery, fully exhausted, and see the information about the battery in the app. The app was displaying just under 12V, but the voltage meter was showing a low voltage, just above 4. We’re not 100% sure, but this may be the over-discharge protector kicking in, preventing an additional draw on the battery but displaying enough to run the Bluetooth and BMS features.

After the test, we put the battery back on the charger and got it ready for some additional work.

Test 3: Temperature Cut-Off Test

Since many people use their RV lithium batteries in low-temperature conditions, we wanted to test the BMS low-temperature cut-off for charging. To simulate cold temperatures, we took advantage of a deep freezer. While unconventional, the freezer provided good control of just under 0 degrees Fahrenheit and simulated the type of cold weather an RVer may experience dry camping in the Northeast in the heart of winter.

The battery has an operating temperature for discharge of.4 to 131 degrees Fahrenheit. However, it has a cut-off for charging of 32 degrees, meaning that the battery can still operate below freezing but won’t charge until the temperature is above freezing.

After keeping the battery in the freezer overnight and sufficiently cooling it to 0 degrees, we confirmed that it restricted charging until the battery was above freezing. Unfortunately, we didn’t test the high-temperature limit, which is good up until 155 degrees Fahrenheit, on paper.

We’re confident in the temperature limits stated by the manufacturer and feel that this is what makes this battery a good value. It’s important to have confidence in the battery’s internal BMS.

Longevity of the battery?

Unfortunately, this is something that we can’t test, but we will update this review over time as we continue to put the battery through some real-world testing. Nothing is causing us to believe that the battery will not last a long time and function as advertised. The battery has a greater than 3500 @ 80% depth of discharge (DOD) rating. This spec means that, at a minimum, you can run through a minimum of 3,500 discharge cycles, down to 80% of the battery’s capacity, before your battery shows diminished storage.

Suppose you use your battery daily, completely discharging and charging your battery every 24 hours. In that case, the battery will last a minimum of 10 years before measurable degradation (that’s a lot of life cycles). Most people will never use the battery this hard. This rating is in line with similar batteries that you find at higher price points. The long-term use of this battery should be very good, especially if you take good care of it. As a plus, while we didn’t have any issues with the battery, communicating with PowerUrsus was very quick and is hopefully a sign of good customer service. I believe it is!

Conclusion:

The PowerUrsus 100Ah lithium battery is well-built and feature-rich. While it may not have the branding of some of the larger battery manufacturers, it holds its own with some of the best ones on the market. In addition, the manufacturer uses quality components, the first signal suggesting a high-quality build.

Connecting to the battery via Bluetooth is a nice feature and allows you to see how the battery operates when discharging or charging. The BMS has all the right features you would want in this battery style, and from what we can tell, it works flawlessly.

The one negative about the battery is the case. It uses a standard housing found in some of the lower-quality batteries. I’m assuming this is a cost-saving option for the manufacturer, as using a standard case probably saves some money on the build. For this reason, it’s a good idea to purchase this battery directly from the manufacturer, which can help ensure your getting the original battery and not a lesser-built one that looks similar. With that being said, there isn’t anything wrong with the case, and it’s assembled very well. A different look would just help it stand out as a premium battery, which it appears to be. Remember, the heart of the battery is the stuff you can’t see, so it’s important to ensure you order the correct one.

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The area where this battery excels is affordability. At about half the cost of some of the larger names in the industry, you’re getting a quality product that will run head-to-head with the more expensive competition (ever heard of Battle Born LiFePo batteries). It’s not the least expensive one you’ll find on the market, but it’s probably the most affordable one that invokes confidence in it doing what it advertises. If PowerUrsus continues to produce quality products like this one, they should have a long future ahead of them. In conclusion, we feel that the PowerUrsus 100 Ah LiFePo option is one of the best lithium RV batteries on the market, especially when factoring in its affordable cost.

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What’s next? Well, we were so impressed with the battery that we want to give it some additional testing at our off-the-grid cabin in North Central Pennsylvania. We have future plans to build out a solar power system there, and we’d love to test some of these batteries in parallel and give it a higher demand test with some real-world applications. If you want to see more, feel free to check back for some future updates.

Review: Redodo 12V 100Ah LiFePO4 Battery

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Deep cycle Lithium Iron Phosphate (LiFePO4) batteries are a great alternative to power stations because, for the most part, they cost less in terms of the capacity you’re getting. You’ll still be spending less, even adding on the cost of an inverter and a battery charger. There are also ways to use these types of deep-cycle batteries without an inverter and have a direct connection to what you want to power.

I‘m looking at this Redodo 12V 100Ah LiFePO4 battery in this review. This comes from a well-known brand on Amazon, and their batteries are on the lower price side. I have done a full video review of this battery, but if you want to read a review article and take a look at photos, this one is for you.

What comes in the Box

What you’re getting in the box with this Redodo 12V 100Ah battery are four post bolts, two positive and negative insulated covers, a manual, and a piece of paper that gives you some info about the dos and don’t for the battery. You do not get a battery charger in the box and have to purchase that separately, and that’s not a problem in this case because, in general, batteries like this don’t come with battery chargers in the first place.

Overall, what you’re getting with this Redodo battery is standard for these batteries, and it’s not missing anything vital. Including four post bolts is a great addition; the manual contains rich information, and the paper giving vital info is a nice touch.

Power Capacity

So to get the Watt Hour (Wh) capacity of this Redodo battery, you have to multiply 12V and 100Ah, and you end up with a 1280Wh capacity. So, yes, this Redodo battery does have a 1280Wh capacity, and that’s a lot of power; when you consider a power station with a 1280Wh capacity, you’re looking to spend about 1,000 or more, in this case, you’re spending way less. Go ahead and look at their product page for this battery to see how little you’d pay to get so much capacity.

Of course, with a power station, you get everything already put together and ready to use. Still, as I mentioned, you can choose your inverter and battery charger when you go with a battery like this, which is very low cost. Also, this is a LiFePO4 battery, which can last for about 4,000 charge cycles. LiFePO4 batteries are the way to go because you’re getting your money’s worth, as the battery will last much longer than Lead Acid batteries or regular Lithium-Ion batteries. You’re looking at many years of usage for this Redodo battery.

Also, when it comes to powering appliances for a 1280Wh capacity, you can power a 1W appliance for 1,280 hours or a 1280W appliance for 1 hour. So you have a lot more flexibility when it comes to the longevity of the capacity depending on what appliances you’re looking to power.

MakerHawk Battery Capacity Test

For the capacity test, I used a MakerHawk load test and connected the positive and negative clamps of the load test to the Redodo battery. I set the Voltage to about 12.8V and had the Amps set to about 10 Amps. I ran this test overnight to drain the capacity of this Redodo battery to 0%. After about 9 hours, I returned to the load tester turned off, and the battery was fully depleted of its capacity. What I ended up with was a 103Ah capacity and a 1,298Wh capacity. So on the Amp Hour (Ah) reading, I got a 103% efficiency rating, and on the Watt Hour (Wh) side, I got 101% efficiency. So this Redodo 100Ah battery has a 1280Wh capacity and a bit more, so you’re spending your money wisely for not only the capacity but also the many change cycles that come with a LiFePO4 type of battery.

Also, somebody mentioned in one of my battery capacity test videos that these batteries have a bit more capacity than they say they do to ensure they output the advertised capacity.

Output Charging:

Since this battery has a 1280Wh capacity, it has a 1280W continuous power output and a 1280W max input.

For our testing of this Redodo 100Ah battery, I used a Renogy 2000W Pure Sine Wave inverter. To clarify, you don’t have to use a 2000W inverter for this Redodo battery; in fact, using this inverter is way over the top. Instead, I would recommend a 1200W inverter or lower, depending on your budget and needs; however, in this case, I wanted to push this Redodo battery as far as possible to see what it is capable of. Also, when choosing an inverter, make sure that it’s a Pure Sine Wave inverter to ensure that your appliances run the way they’re supposed to.

Heater Test

So for the first test, I did with this battery through the inverter powering a Lasko heater. I had an electricity monitor connected to the inverter to tell me what was happening regarding Watt Hour (Wh) pulled from the battery and the wattage output the appliance was drawing. I set the Lasko heater to low first and ended up with an 850W output; this is not a problem for the Redodo battery to handle as it’s capable of a 1280W continuous power output. After running it at low for about a minute, I set the heater to high, and the output jumped to about 1400W. With a 1400W output, the heater is over the 1280W output of this Redodo battery, but it still keeps running.

I kept running the Lasko heater for 47 minutes until the battery was completely depleted. So you can run a 1400W load from an inverter using this Redodo battery, and it can handle it for nearly an hour. Also, I got an AC capacity of 1,100Wh, which is a 86% efficiency rating when it comes to using an inverter with the battery; this type of conversion through an AC outlet is better than most power stations.

Electric Cooktop Toaster Oven Test

For the next test, I used a 1000W electric cooktop and placed a saucepan with four cups of water on top to see how fast I could boil water and how much capacity I use up. The cooktop pulled about 950W; it took about 8 minutes for the water to boil and used up 120Wh of the Redodo battery’s capacity. So you can easily cook with a high enough wattage inverter using this battery, and you won’t lose much capacity.

For the final test, I used a toaster oven to power from this battery and inverter. I set the toaster oven to 450 ° F and had to run it for about 10 minutes. The toaster oven pulled 1170W and used about 120Wh capacity from this Redodo battery. So you can easily have food toasted with this battery, too.

Overall, a 12V/100Ah battery is best to own. Going lower on the Amp Hour (Ah) scale means having lower wattage usage and less capacity to use, which ultimately means a shorter runtime. Going with a higher capacity battery means spending more, but at the same time, you get so much more capacity and wattage usage. That said, 100Ah batteries are the sweet spot for price and function.

Recharging the Battery:

You can use any 14.4V or 14.6V battery charger to recharge this Redodo 100Ah battery. In my case, I used an Ampere Time 10 Amp battery charger to recharge the unit. This is one of the lowest-cost battery chargers you can get, but it’s also one of the slowest ways to recharge. This Ampere Time 10 Amp battery charger works the same way as any other one. I just attached the negative and positive clamps to the negative and positive terminals on this Redodo battery, and it began charging.

The light on the Ampere Time battery charger turns red to indicate that it’s charging, and then it turns green to indicate that the battery is fully recharged and charging stops. Of course, as I mentioned before, a 10 Amp battery charger is relatively slow, and going from 0% to 100% will take about 10 – 12 hours.

Size and Weight:

This Redodo 100Ah battery has a length of 13 inches, a width of 6.7 inches, and a height of 8.4 inches. The battery weighs 25 pounds. So it’s not a large battery, but it has some weight. The battery does have a handle strap that makes it easier to move around, and you can also easily remove the handle if you want.

Functional Components:

In this case, when it came to using the battery with the Renogy 2000W inverter, I connected the negative and positive terminal cables from the inverter to the battery. Once the terminal ends were screwed onto the battery, I could turn on the inverter and power the appliances.

Structure and Material:

The build quality of this Redodo battery is good. The battery has an IP65 water resistance rating, meaning it can withstand rain and high-pressure jets but cannot withstand water submersion. The casing is solid, and I couldn’t find any flaws with its build quality. However, you shouldn’t drop this battery, as I’m not sure if the casing can survive a fall, as most batteries are not exactly built up to that standard.

Tech:

For the technical build, this Redodo battery has overcharge, over-discharge, temperature, short circuit, and all other protections to ensure that it performs smoothly and that you’re safe. In my heater test, when I had the heater running at about 1400W, this battery could keep supplying power to the Renogy inverter. If the battery got too hot, it would automatically shut off, but that didn’t happen in my test, as it could fully deplete its capacity.

Reliability

The testing I’ve conducted from the MakerHawk load tester and the Renogy inverter shows that this Redodo 100Ah battery is very reliable. It has the capacity it says it has a little more. Also, it uses a LiFePO4 battery cell which gives many charge cycles that allow the battery to last for many years. On the inverter side, I could power a Lasko heater at 1400W, above the 1280W that this battery is capable of. The inverter AC capacity pulled 86% efficiency from this Redodo battery.

So, this is very reliable for a 100Ah LiFePO4 battery.

Summary:

This 1280Wh capacity is precisely what you’re getting, and just a bit more because of the load test I ran. This battery can also handle loads over its 1280W max continuous output, as I ran a 1400W load for nearly an hour.

This battery is pretty small, but it does weigh 25 pounds. The removable handle does make it easier to carry the battery. Connecting the inverter was very easy, and recharging was simple, too.

The build quality of this Redodo battery is solid because of its IP65 water resistance rating. It also has many technical protections that ensure it will be safe, such as overload, short circuit, and temperature control protections.

If you want an all-around reliable battery, a 100Ah battery is the one to go with, as it has tons of capacity, power input, and output capabilities, and it comes at an affordable price compared to a 1280Wh power station.

Redodo 12V 100Ah LiFePO4 Battery Specs

Conclusion:

This Redodo 12V 100Ah LiFePO4 battery is an excellent choice because it’s exactly what it says it is. This 1280Wh battery can supply more than 1280W of power through an inverter; of course, you shouldn’t do that frequently with a battery like this, but I was able to run 1400W for almost an hour. Also, for a 1280Wh capacity and even adding on the cost of an inverter and a battery charger, this Redodo battery can be a better choice than an equivalent power station.

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