5 Reasons Why Your Business Needs High power INR18650 batteries？

In the rapidly evolving landscape of modern energy storage solutions, the battery stands out as a pivotal innovation. Widely used across various applications, from consumer electronics to electric vehicles, this battery type offers distinct advantages that cater to both efficiency and reliability. This article delves into the details of the battery, including its defining characteristics, multiple advantages, classifications, maintenance practices, and key design considerations.

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Understanding the Battery

The battery is a type of lithium-ion rechargeable battery commonly utilized in a myriad of devices and applications. The name "" refers to the battery’s dimensions: 18mm in diameter and 65mm in length. Renowned for its energy density and long lifespan, the has become a preferred choice for many industries.

To illustrate its significance, consider an engineer working for "A well-known manufacturer" who needed a compact yet potent energy source for a new line of wireless power tools. The battery provided the perfect balance of size and output, enabling the creation of lightweight, high-performance tools that exceeded user expectations.

Advantages of the Battery

The battery offers several advantages that bolster its widespread use. Firstly, its high energy density allows for prolonged device operation on a single charge. This feature is particularly crucial for applications such as laptops and high-performance flashlights, where longevity is essential.

Moreover, this battery type provides a stable voltage output, which is vital for devices that require consistent power. This reliability in voltage is a key factor behind its integration in electric vehicles, where uniform power delivery is a necessity for optimal performance.

Another prominent advantage is its rechargeability. Unlike disposable batteries, the can be recharged numerous times, thus proving more cost-effective and environmentally friendly over its lifecycle.

Classifications of Batteries

batteries are classified into two main categories: Protected and Unprotected. Protected batteries are equipped with built-in safety circuits to prevent overcharging, over-discharging, and short circuits. This feature makes them ideal for everyday electronics where safety is paramount.

Unprotected batteries, on the other hand, lack these safety features and are generally used in applications where external protective measures are in place. They are often preferred in custom builds or high-drain devices that require a higher threshold of control in battery management systems.

Maintaining Your Battery

Proper maintenance of batteries is essential to maximize their life and performance. Regular checks should be performed to ensure they are not exposed to extreme temperatures, which can significantly shorten their lifespan and reliability.

Additionally, users should avoid deep discharges below 2.5V as this can trigger irreversible damage to the battery. Utilizing smart chargers designed for lithium-ion batteries can help maintain optimal health by providing a balanced charge without the risk of overcharging.

Design Considerations and Tips

When integrating batteries into energy storage solutions, several considerations must be taken into account. Designers should prioritize thermal management, as overheating can lead to safety hazards or reduced battery efficiency. Implementing ventilation or thermal sensors can mitigate this risk.

Another crucial aspect is ensuring compatibility with the device’s power requirements. By selecting a battery with the appropriate capacity and discharge rates, designers can optimize for longevity and reliability. For example, a power bank manufacturer once opted for batteries with higher mAh ratings to achieve longer battery life, meeting customer demand for extended usage times.

Finally, consider the end-user experience. Batteries with a consistent charge/discharge cycle and minimal memory effect can enhance user satisfaction by extending the device’s overall usability without frequent recharge interruptions.

Conclusion

The battery is an invaluable component in modern energy storage solutions, combining high energy density with reliability and versatility. Its application ranges from consumer electronics to industrial tools and electric vehicles, proving its adaptability and efficiency. By understanding its advantages, classifications, maintenance, and design considerations, manufacturers and consumers alike can leverage the power of batteries to fuel the future of energy storage technologies.

FAQs

Q:What is the primary use of batteries?

A: batteries are primarily used in devices requiring high energy density and long-lasting performance, such as laptops, flashlights, and electric vehicles.

Q:What are some key safety features of protected batteries?

A:Protected batteries include built-in circuits that prevent overcharging, over-discharging, and short circuits, ensuring safer operation in consumer electronics.

Q:Why should deep discharges be avoided with batteries?

A:Deep discharges can cause permanent damage to the battery, reducing its lifespan and efficiency. It is recommended to keep the voltage above 2.5V to maintain battery health.

This article tells you everything you need to know about batteries. We’ll talk about different types, features, charging, lifespans, and our recommendations for batteries and chargers.

What is an ?

An is a lithium ion rechargeable battery. Their proper name is “ cell”. The cell has voltage of 3.7v and has between mAh and mAh (mili-amp-hours).

s may have a voltage range between 2.5 volts and 4.2 volts, or a charging voltage of 4.2 volts, but the nominal voltage of a standard is 3.7 volts.

There are two types; protected and unprotected. We absolutely recommend protected cell batteries. Protected cells include a protection circuit that stops the cell from being overcharged.

Unprotected cells can be overcharged and burst and potentially cause a fire unless there are specific electronics to protect the battery. The popular LG HG2 and INR and Samsung 25r and 35e are UNPROTECTED batteries, only use them in a device designed to use unprotected s.

We also recommend you stick with high quality “brand name” s. Many knock off, no-name brands lie about high mAh (capacity).

The average battery charge time is about 4 hours. Charge time can vary with amperage and voltage of the charger and the battery type.

Recommended Batteries

More info on the : Everything You Need to Know About the Battery

Various Battery Sizes

The following is a picture showing various battery sizes. The is cubic mm, the and AA are 700 cubic mm, the AAA is 467 cubic mm.

Note the ’s cannot be used in all AA devices unless they support both 3.7 and 1.5 volt batteries. The at cubic mm, is larger than the battery – the and is not interchangeable.

Comparing s to Other Common Batteries

 Terminology

A battery might say protected mode 3.7v mAh low self discharge for high drain devices. What does that all these features mean?

• “protected mode” means it has an overcharge and overdraw circuit protection built in (more info below).
• “3.7v” – is the optimal or peak voltage. It will drop as you use the battery.
• “ mAh” measures the amp hours the battery can provide. A higher number is better. The highest realistically available on an today is about mAh, anything higher than that is marketing hype.
• “Low self discharge” is a good thing. That means it will hold a charge in storage. The less it loses in storage the more charge will be left for you to run your flashlight or other device.
• “for high drain devices” – the battery is optimized for high drain devices. These are devices that use a lot of power very fast, such as RC toy car.

Protected vs Unprotected Batteries?

Protected batteries have an electronic circuit. The circuit is embedded in the cell packaging (battery casing) that protects the cell from “over charge”, heat or “over discharge”, over current and short circuit. A protected battery is safer than an unprotected battery (less likely to overheat, burst or start on fire).

Unprotected batteries are cheaper, but we do not recommend their use. Unprotected batteries should only be used where the load/draw and charging is externally monitored and controlled. The protected batteries normally have a “button top”, but check the specifications to make sure. Generally flat top batteries do not include the protection circuit.

If any battery is damaged or looks corroded or appears to be leaking, get rid of it at a battery recycling center. Be safe.

See “Battery Recycling – How to Recycle Different Battery Types and Corroded Batteries Safely“.

How much power does an have?

A 3.7v a mAh stores about 2 aH to max of 3.5 aH. It can store about 10 to 13 watt hours. A small air conditioning unit that can cool about BTU uses about watts per hour. So it would take more than 110 of the batteries to run the air conditioner for 1 hour.

For more information, please visit High power INR batteries.

In comparison you would need three 12v 40 amp car batteries. But 110 s are smaller than three car batteries.

How many times can you recharge an or other battery?

Recharge cycles vary and are limited. Think of it like a bucket. The trick is that the bucket also gets filled with a tiny bit of other junk over time, so there is less room. As the battery is reused (recharged), the battery degrades due to oxidation and electro-chemical degradation.

This happens to any rechargeable battery such as an , , , , AA, AAA or even a car battery. They can only be recharged a limited number of times.

You want to select rechargeable batteries that can be recharged many times. We specifically recommend ’s because they have the ability to be recharged 300 to as many as times.

How frequently should I recharge my ?

The way you recharge your battery impacts the life of the battery. If you can measure it, you want to deplete from 3.7v down it to about 3v before you recharge. If you are not sure, use the device until it indicates a battery needs to be replaced. For a flashlight, run it till the light is dim or goes out.

A good charger will tell you the voltage of the battery so you can eventually get a sense of the life of the battery in various devices. If you recharge too frequently you “use up” the life without a return.

Some people don’t let it dip below 3.3v (or even higher). Each brand and model of has different maximum cycles. So this is really a process of matching your device and usage to the life cycle of the battery.

Be aware that an battery that drops below 2.5v may “lock” the device so it can’t be used. The “lock” function happens in devices such as vaping devices.

How do I know my is Dying?

Here is a list of 7 ways you can tell if you need to get rid of an (or other rechargeable battery). Look through these to determine if your is nearing the end of its life and needs to be retired:

1. The battery will lose a charge on the shelf must faster than normal. It loses it’s charge after a couple of days or even worse overnight.
2. The battery gets hot when charging or discharging, warmer than normal.
3. You have used the battery frequently over 2 to 3 years.
4. The battery can hold less than 80% of its original capacity.
5. Recharge time gets abnormally long.
6. If there is ANY cracking or deformation in the battery.

These are the 6 signs your is dead and it is time to get a new one. If you ignore these warning signs you risk fire or even having the battery explode while being recharged.

How can I measure the quality of an if I am unsure of the age of a battery?

A trick is to buy one or two similar s and mark them “new” with a Sharpe (or label them A, B, C, etc). Then use them and compare their voltage and discharge rates with the questionable s.

Basically you are comparing good vs unknown this way.

You can also gauge temperature this way. Charge both the new and unknown one to see how hot the new one is compared to the one you are unsure of.

Battery Chemistry

There are a number of different chemical combinations for batteries. We recommend that you focus on protected mode, the chemistry can change and isn’t always reported. Many simply say Li-ION (meaning Lithium Ion).

There are actually a number of Li-Ion batteries. Here are some of the current “types”. Depending on your device type one might be better than the others.

1. LiFePO4 which is Lithium iron phosphate
   • also known as IFR or LFP or Li-phosphate
2. LiMn2O4 which is Lithium manganese oxide
   • also known as IMR or LMO or Li-manganese (high amp draw)
3. LiNiMnCoO2 which is Lithium manganese nickel
   • also known as INR or NMC (high amp draw)
4. LiNiCoAlO2 which is Lithium nickel cobalt aluminum oxide
   • also known as NCA or Li-aluminum
5. LiNiCoO2 which is Lithium nickel cobalt oxide
   • also known as NCO
6. LiCoO2 which is Lithium cobalt oxide
   • also known as ICR LCO Li-cobalt

What are batteries used for?

Flashlights, electronics, laptops, vaping and even some electric vehicles use s. The Tesla uses of these batteries. Many high lumen flashlights such as the Thrunite TC15 v3 (best buy) or Fenix PD36 TAC (mo43 durable) use the or the even larger flashlights like the Nitecore P20iX a lumen flashlight.

Laptops and other electronic devices use one or more ’s and have recharging electronics built in. ’s are also used in vaping (smoking) devices.

s are are generally Lithium Ion batteries. If you are familiar with electronics you can change out some battery packs manually, but be careful – using the wrong type of or using it incorrectly can cause a fire.

Which is the Best Battery?

Overall best battery – The Orbtronic battery. This is an 3.7v mAh Protected cell. This is a high drain battery. We like it but it is expensive.

Best low cost battery – The Olight ORB-186P26 mAh 3. The Panasonic is an 3.7v mAh Protected cell. This battery is less expensive and slightly lower amp hours than the Orbtronic. Also, this lower cost protected battery is still more expensive than the unprotected ones.

What is the best travel battery?

Nitecore NLR available directly from Nitecore. This is an 3.7v mAh protected cells with a built-in micro-USB charger. It is a few dollars more, but it allows you to charge it on the go and not have to carry a dedicated charger. The unit we have has slightly different packaging.

The cheapest decent one is the Titanium Innovations at mAh. It won’t last as long as the mAh Nitecore but is 1/2 the price.

What Brands are Best?

The Orbtronic, Olight, Samsung, LG, Panasonic, Surefire, ThruNite and Nitecore are good reliable rechargeable cells. Be sure to buy them from a reputable source such as BatteryJunction or direct from the manufacturer. Note: Amazon stopped selling s.

We don’t use the lower voltage and amperage s, because they have lower amp hours and low peak wattage and lower sustained wattage.

We are willing to pay a few more dollars for the longer life, higher capacity and better quality.

Battery Charger

batteries are rechargeable, so you will need a good charger. We use two different chargers.

The best battery charger is the Nitecore UMS4 Battery Charger because it can charge pretty much anything.

Specifically, it supports: lithium ion , , , , , , , , (the is also known as RCR123), , and Ni-MH and Ni-Cd AA, AAA, AAAA, C rechargeable batteries. This is our favorite charger for the s.

Our runner up and “best buy” is the XTAR X4 Charger. It is a USB powered charger. It charges the batteries with any USB power source. This unit is dependent on the power source, and is a bit more expensive.

It has an LCD display for charging status. A 2amp interface yields slower charge speeds. Even the 5amp is slow because it charges at .5 amps. We have used the XTAR and Nitecore with a Nektek solar panel that has a 2amp USB interface and it has worked well.

Flashlight

The best mid priced flashlight is the Thrunite TC15  lumen flashlight. It is about 1/2 the price of the PD36 and but a bit less bright. It is a GREAT buy (we have the older TN12 in emergency kits). We suggest two of these instead of one of the Fenix.

It has the following modes: Strobe (975 lumens for 226 minutes), Turbo (975 lumens for 126 minutes), High (652 lumens for 199minutes), Medium (266 lumens for 9.7 hrs), Low (19 lumens/177 hrs) and Firefly(0.29 lumens for 62 days) and it can charge itself with a USB power source. It is waterproof (IPX8) and has a max throw of 223m (764ft).

The toughest flashlight is the Fenix PD36 TAC. It is not cheap but it is durable and very bright, and has a pocket clip. The light level is lumens, and it is water resistant to IPX8. This is a “duty” quality flashlight.

The PD36 TAC offers five different brightness levels and strobe:

• Turbo: lumen – 1 hr 30 min
• High: lumen – 3 hr 15 min
• Medium: 350 Lumen (8hr 24min)
• Low 150 lumen – 18 hr 45 min
• Eco: 30 lumen – 160 hr
• STROBE (about 3hrs lumen)

It has a 300 yard or 274 meter throw.

Both the Fenix PD36 or the less expensive ThruNite TC15 are great LED Flashlights that use the powerful battery.

Contact us to discuss your requirements of Long-Circulating Sodium Battery Cells. Our experienced sales team can help you identify the options that best suit your needs.

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