Homemade Power Bank: An Easy DIY Guide. Power bank battery type

What Are Portable Power Banks?

Let’s get right to it. If there aren’t any outlets to plug into, what do you rely on for power? How do you charge the device you have and plan on continuing to use? The answer to that question is quite simple and is an increasingly popular industry, Portable Power, more specifically, Portable Power Banks.

If you want to stay powered you must be outfitted with a reliable source of reserve power that comes in a compact and easy to carry package. We are going to go over the most frequently asked questions and explain what portable power banks are.

What Are Portable Power Banks?

If you want to make an informed purchase, the best practice is to understand the basic terminology. A portable power bank is a battery which resides in a special case that has a specific circuit that controls power flow.

Much like a bank account where you deposit you hard earned cash and withdraw it later, a power bank allows you to store electrical energy and then use it later to charge your device. Before we get into what types of power banks there are, let’s understand the power that is stored within these units.

What Does mAh Stand for?

While these units come in all shapes and sizes, they also vary in power capacity, much like the variety of smartphones on the market.

The term you most often seen while researching these units is mAh. It’s an abbreviation for “milliampere hour,” and it’s a way to express the electrical capacity of smaller batteries. The A is capitalized because, under the International System of Units, “ampere” is always represented with a capital A. To put it simply, the mAh rating denotes capacity for power flow over time.

Now that we know what a power bank is and what the power that resides in them is, let’s take a look at what types of power banks there are.

What Types of Power Banks are There?

While there are various styles and brands that cater to a user’s specific needs, you can break down the types of portable power banks into three categories.

Universal Power Banks

These come in many sizes and configurations that cater to you device requirements. Some may feature both an AC outlet and USB ports plus USB-C, while others may only have a single USB option.

Solar-Charged Power Banks

These have photovoltaic panels which can charge the internal battery of the pack when placed in sunlight.

Battery Case (for your phone)

These typically attach to the back of your phone and, while convenient, they have narrow device compatibility. Portable power banks for your phone are typically smaller in power (mAh) and will only recharge your phone a couple of times before requiring a recharge of its own. Here are some of the top portable power banks according to Android Central.

How Many Times Can a Power Bank Charge my Device?

Here’s a question we see frequently and that can be answered with a formula as shown below.

(Labeled capacity of the power bank x 3.7 / output voltage of power bank) x 0.85 / battery capacity of device = Total number of recharges.

Now, that you have the formula all let’s try an example. We can use a 40,200 mAh power supply and an iPhone 8 which has a battery capacity of 1821 mAh.

(40,200 mAh x 3.7 / 5) x 0.85 / 1821 mAH = 13.8 recharges

First we have the labeled capacity for the power bank – 40,200 mAh

Second we multiply that by 3.7. This number is the average voltage you will find in a battery cell. We get this number normally by finding the midpoint between a fully charged cell and an empty cell.

Third step is dividing 148,740 (sum of 40,200 x 3.7) by 5. We divide by 5 because this is the average voltage output of a typical power bank.

We continue on to the fourth step which is multiplying 29,748 (sum of 148,740 / 5) by 0.85, which is the average efficiency of a power bank.

Yes, this means you will never get 100% of the total expected output.

Finally we divide 25,285.8 (the sum of 29,748 x 0.85) by the battery capacity of the desired device you are trying to charge, in this case the iPhone 8 is 1,821 mAh.

The final sum comes out to 13.8 and that is how many times you can recharge an iPhone 8 with a 40,200 mAh portable power supply.

There you have it. You now know what a power bank is, what power (mAh) is stored in a power bank, and how to calculate how many recharges your power bank can supply to whatever device you decide to use. If you have any questions feel free to leave a comment below and reach out for additional support. Keep an eye out for future posts!

Homemade Power Bank: An Easy DIY Guide

Hey, I am John, General manager of OurPCB. I am a responsible, intelligent and experienced business professional with an extensive background in the electronics industry.

When you have a flat battery or your battery is running low, and there’s no power for a quick charge. Then, all you need is a power bank or perhaps a homemade power bank. So, with a power bank, you can run your electronic devices for a long time without them getting a low battery. However, some questions surround the power bank, like how does it work? How can I make a power bank? How to build a power bank circuit? So, if you have those questions, then you’ve come to the right place. Here, we’ll show you everything you need to know about power banks, how a power bank works, and how to make one—and make it easy for you to understand. Are you ready? Then let’s begin.

What Is a Power Bank?

Two power banks with different USB port Simply put, power banks are battery banks. People get power banks for one purpose only—to recharge battery-powered electronic devices on the go. Power banks come in various sizes. Some have large battery capacities with big sizes, while some are small enough to fit your hands or s. Furthermore, there are different types of power banks you can pick. Also, size and battery capacity are two major features that differentiate power banks. However, there are some other things to look at when getting a power bank. With that in mind, here are the main types of USB power banks:

Types of USB Power Banks

Solar Power Banks

These kinds of power banks use solar energy to charge up. It’s possible because of the photovoltaic cells that convert sunlight into energy sources—for the power bank batteries. A solar power bank However, you can charge these power banks with a portable charger (USB) if you feel the solar charging is too slow.

Wireless Power Banks

Wireless power banks are one of the recent advancements in power bank technology. These types of power banks are capable of charging devices wirelessly. A wireless rechargeable power bank Simply put, the wireless power bank establishes a connection without a USB cable. But the device has to be wireless charging compatible; otherwise, it won’t work.

Standard Power Banks

These are the most prevalent or regular power banks in the market. You can get one online or at any of your local stores. A standard power bank Also, you can charge with a normal USB charger. Once you charge it fully, it can charge other battery-powered devices, even a laptop battery.

What Is the Charging and Current Capability of Power Banks?

The current and charging capacities of power banks are usually different. Previous generation power banks had small capacities of 1000mAh. On the other hand, recent devices come with a huge 25000mAh or more. over, most recent power banks dish out 2.5A currents that allow for fast charging with a portable charger.

The Rechargeable Batteries of Power Banks

All power banks have one thing in common: a rechargeable battery. These rechargeable batteries revolve around lithium technology. Currently, power banks use lithium-ion and lithium-polymer batteries. Lithium-ion batteries can store a lot of electrical charges in a specific volume. Plus, it’s cheaper to manufacture and has a longer lifespan. Modern Lithium-ion Battery On the other hand, lithium-polymer batteries don’t have a long life. Also, it’s more expensive to produce these batteries. Regardless of the battery type, power banks work well. But you need to find the perfect balance between performance and cost.

How Does a Power Bank Work?

As we mentioned earlier, there are different types of power banks. One of them includes a Ni-Cd power bank. This emergency charger pack circuit uses rechargeable 1.2v Ni-Cd cells batteries to dish out 4.8v—by arranging four of these cells. The structure of a Ni-Cd battery Plus, it makes this charger pack circuit the optimal charge of all kinds of mobile phones. However, if you build a 3.7V Li-Ion battery cell power bank, the voltage might not be suitable for charging a cell phone battery with the same voltage parameter. Why? Because connecting two similar batteries would create a situation where the cells exchange power to achieve an equilibrium condition. So, it means that both sides will get an equal amount of charge. Here’s an example: If you fully charge a 3.7V power bank to about 4.2v and then use it to charge a mobile phone with a drained 3.3v cell, both sides would try to reach a level = (3.3 4.2) / 2 = 3.75V by exchanging power. Nickel Cadmium Batteries Nevertheless, we can’t consider 3.75v as the full charge level—as most mobile phones require a full charge level of 4.2v for an optimal charge.

DIY Power Bank

Here’s a circuit diagram to help you understand how this power bank works:

Power bank circuit diagram

Source: Wikimedia Commons

The battery is our DIY power bank’s first component. So, we used a 18650 lithium-ion cell (18 mm in diameter and 65mm in height). Plus, these cells come with different capacities and are rechargeable with an output of 3.7v.

Next, we connected our TP4056 module to carry out a constant charger (CC) charging method.

TP4056 Module Structure

Here, the charger applies constant current while increasing the voltage till it reaches the limit.

After that, the TP4056 applies a voltage equal to the maximum cell limit, which slowly reduces to the lower current threshold—with 3% of constant current.

Plus, this module has two LED indicators, which includes:

The first LED (L1) shines red when the power bank is charging
The second LED (L2) shines blue when the charging is complete

Furthermore, the battery in the power bank only provides 3.7v, and we needed more than that (up to 5v) to charge a mobile phone.

So, we connected a 3v to 5v boost converter board module, which increased the power bank’s overall output to 5v. Plus, the module comes with a universal USB female (type-A) port. And it has an indicator that lights up when there’s a current supply from the battery.

Finally, we connected a slide switch to turn on/off the power of the portable charger.

How to Make a Power Bank at Home

Now that you’re familiar with how a power bank works, it’s time to learn how to make one.

So, here are the steps you need to follow:

Step 1: Get Your Materials Ready

Here are the materials you need to build this circuit:

18650 Li-ion cells
Wires
Protective case
TP-4056
Soldering iron
Step up module
Solder wire

Step 2: Create Your Battery Pack

Before creating your battery pack, confirm that the voltage for the batteries is the same—especially if you’re using two or more batteries.

After confirming the voltages, use some hot glue or tape to join the batteries. Next, connect the matching battery terminals (anode to anode and cathode to cathode)—with wires. Finally, use your soldering iron to secure the wires.

Step 3: Build Your Circuit

Here, you connect the negative terminal (cathode) of the battery to the.ve terminal of the step-up module and TP-4056. Then, you merge the positive terminals (anodes) to the ve terminal. But that’s not all. You can adjust the step-up module’s output to 5v with a potentiometer. Finally, join the USB port to the step-up module’s output.

Step 4: Test and Fix Problems

You can now charge your mobile device.

This circuit only charges mobile phones that use less than 700mA. But thankfully, you can easily solve this problem by salvaging the PCB of an old power bank, preferably one with a 10,000 mAh capacity. Or, you can use a DC 0.9. 5V, 3V. 5V boost converter module to increase the capacity.

Step 5: Finish Touches

Install a new 5 mm white LED and push button with your soldering iron on the power bank’s PCB. By doing so, you add finishing touches.

Step 6: Cover Up the Circuit

Finally, don’t leave the circuit exposed. Hence, use a protective case to keep your circuit protected. You can use see-through covers or a standard power bank casing.

So, that’s how you make a simple power bank at home.

Final Words

Overall, the power bank is a digital product with growing features that allow users’ frequent use of smartphones. In addition, the extra power from a power bank can save you the trouble of looking for an AC outlet in certain scenarios.

However, constant use of the power bank could certainly reduce the runtime of the battery.

That’s why we wrote this article so you can learn how to make a portable DIY power bank as a spare power source for emergency purposes. over, it makes the power bank a cool project.

Additionally, you should consider working quality and battery protection when working with lithium batteries. That’s why we recommend the 18650 lithium-ion cells. Most of these cells have good protection as well as great quality.

If you need more information, feel free to contact us. We’ll be happy to help.

Our favourite portable chargers and power banks rated and reviewed, plus an in-depth buyer’s guide

by Matt Jones

In recent years, the rise of portable battery chargers or power banks has meant that heading into the great outdoors no longer means going off-grid. And being able to keep your devices charged even when you’re miles from the mains has some undeniable benefits. After all, a functioning phone can be a lifesaver in an emergency. We’ve tested ten of the best portable power banks and solar chargers for backpacking in a range of sizes and capacities. So whether you’re after a small, lightweight pal or a rugged, heavy-duty Hero, there should be something for you. This group test also includes three solar-powered chargers. These offer an alternative solution to the perennial power problem for adventurers planning to spend multiple days in the wilderness.

What Makes The Best Portable Power Pack?

Firstly, think about how much power you’re likely to need and how long you might be away from a power source. This will dictate what size power bank you need in terms of battery capacity, which is usually measured in milliamp hours (mAh).

To help you out, note that it typically takes 2,500 to 3,500mAh to charge a modern smartphone (though many factors can affect power consumption). Charging a GPS unit or digital camera is likely to consume a similar amount of power, while charging a head torch, smartwatch or GoPro will consume much less. High-powered devices like tablets and laptops are the biggest drain on battery capacity.

Put simply, the larger the rated capacity (in mAh), the more juice the power bank can store – though the trade-off is increased size and weight. So if you’re only carrying a smartphone on a day walk and just want a back-up power source, look for a.sized battery charger. On the other hand, if you’re planning to spend multiple days in the wilderness carrying a number of different devices (like a GPS, phone, GoPro and digital camera), then you’re going to need one of the bigger power banks around (probably 20,000mAh).

To power multiple devices effectively you’ll also need a power bank that supports simultaneous charging, i.e. one that has at least two or more outlet ports. Many of the latest models also offer features such as quick charging through high-speed USB or USB-C connectivity, as well as in-built technologies to prevent over-charging and optimise charging efficiency.

Durable Power Banks

Also consider your environment. In damp, humid conditions or on expeditions you might need a waterproof and rugged power bank, which can cope with moisture or even complete immersion as well as bumps and knocks. If so, look for a product with a certified IP (International Protection) rating, which is usually expressed as two letters or numerals, e.g. IPX6 or IP67. This standard classifies the degree of protection provided against intrusion, dust, accidental contact and water.

“It typically takes 2,500 to 3,500mAh to charge a modern smartphone”

As well as being impact and water-resistant, power banks specifically designed for the great outdoors often have LED lights, so they can be used as torches. This can be a useful additional feature, as can power banks with integrated charging cables – so you don’t have to remember to bring separate cables with you.

Other devices have integrated or add-on solar panels, which offer the ability to top up the power using energy from the sun. Solar panels are becoming more efficient all the time, meaning that this is now a viable option for those planning to spend days or even weeks off-grid. Most solar panels trickle-charge a power bank over a period of several hours, but others can also be plugged directly into your device.

GP Batteries Charge AnyWay

Price: £29.99 Weight: 224g Capacity: 10,400mAh Dimensions (L x W x D): 81 x 64 x 25 mm

One of the most innovative bits of outdoor kit we’ve seen recently, The Charge AnyWay from GP Batteries is a 2-in-1 battery charger and power bank. It comes with 4 x nifty RecyKo rechargeable AA batteries. These batteries can all be used separately from the power bank. That means that with the power bank and these batteries, you’ve got the versatility to charge your smartphone or battery-powered devices like a headtorch. It’s easy to use too, thanks to a dual color LED indicator that displays charging status. In-built safety protection offers security against overheating, overloading or short circuits.

Pros: Lightweight, versatile, easy to use and eco-friendly, since it uses rechargeable batteries rather than a lithium ion cell, and reduces your reliance on single-use AA batteries. Cons: Not the speediest. It takes about 6 hours to fully charge the supplied 4 x AA RecyKo AA batteries. It’s also not as quick as other portable chargers when used as a power bank due to the 1A USB output.

Biolite Charge 20

Price: £40 Weight: 166g Capacity: 5,200mAh Dimensions (L x W x D): 108 x 44 x 20mm

The smallest power bank on test, the Biolite Charge 20 weighs under 200g and slides easily into a It has a 5,200mAh capacity – enough for about two smartphone charges. It is easy to operate. There’s just a single button that lights up a four-LED indicator telling you how much juice is left. There’s one micro-USB input and one 2.1A USB output, offering fairly swift charging. The stainless steel housing is sleek and durable, while a flip-top lid helps to protect the ports from dirt and moisture. The Charge 20 has an IPX6 rating, offering resistance to rain and spills. It is supplied with its own charging cable.

Pros: Lightweight, compact and durable. Just slip it into a and head out into the hills for peace of mind, knowing you can keep your phone alive throughout the day. Cons: Single outlet port and limited battery capacity means this little guy reaches his limits when it comes to charging bigger devices.

Goalzero Venture 70

Price: £136.95 Weight: 485g Capacity: 17,700mAh Dimensions (L x W x D): 170 x 103 x 29mm

The Goal Zero Venture 70 is a seriously rugged, waterproof power bank with an IP67 rating. It has a fairly generous 17,700mAh capacity – enough to charge a smartphone five times (though the manufacturer quotes up to six charges). The two high-speed 2.4A USB outputs can charge two devices simultaneously.

The Venture 70 also has a Smart charge feature that can identify different devices. It then applies the fastest charging profile possible, without risk of overheating or overcharging. It also allows pass-through charging. That means you can safely charge devices from the power bank even when it’s plugged into the mains. We also liked the built-in 65-lumen LED torch, which has two brightness settings and three strobe modes, including SOS.

Pros: Packed with useful features and some sophisticated internal tech. The extremely rugged, waterproof housing with integrated cables makes the Venture 70 a very practical option for the great outdoors. Cons: It’s the heaviest power bank in this round-up, and also the most expensive. If you really want to get the best out of the product you’ll need to read the instruction manual. That explains how to initiate the Smart charge sequence whenever you plug in a device for the first time.

Zendure A6PB

Price: £80 Weight: 392g Capacity: 20,100mAh Dimensions (L x W x D): 168 x 85 x 28mm

Zendure’s A6PB cutting-edge power bank is equipped with USB-C and 3.0A USB outlet ports for Rapid charging of two devices simultaneously. It has a generous 20,100mAh capacity, enough to fully charge an iPhone X 5½ times. We found that real-world performance matched the manufacturer’s claims. It also offers pass-through charging. Auto-detection means that devices start to charge as soon as they are plugged in. Adaptive charging automatically adjusts the output to charge your device at optimum speed. The A6PD also has in-built protection against short circuits, power surges, overheating and overcharging. It comes with a protective cloth pouch and USB cable.

Pros: With the quickest charge times of any power bank in this round-up, the A6PD is ideal for those with the latest devices who need their juice fast. Cons: Although housed in an extremely rugged composite case, this power bank does not carry an IP rating and is not waterproof.

GP Batteries M-Series MP15MA

Price: £34.99 Weight: 347g Capacity: 15,000mAh Dimensions (L x W x D): 140 x 75 x 24mm

With USB-C and twin 2.4A USB outputs, the GP Batteries M-series power bank supports the latest devices and offers speedy charging. You can charge up to three devices simultaneously. The 15,000mAh capacity gives a real-world performance of about four to five smartphone charges (though the manufacturer quotes six). It’s very simple and easy to use – a single button with four LED indicator lights and device auto-detection means you can just plug in and go. It is supplied with a 2-in-1 micro-USB and USB-C cable.

Pros: Striking a good balance between capacity, weight and size, this is a versatile all-rounder at a competitive price. For us, it’s the best value option in this test. The triple outlet ports are very useful, while USB-C input/output supports the latest devices and permits Rapid mains charging. Cons: Though the case features anti-slip rubber coated edges that may help to absorb minor impacts, the power bank does not carry an IP rating. Nor is it supplied with a protective pouch.

Outdoor Tech Kodiak Plus 2.0

Price: £59.99 Weight: 290g Capacity: 10,000mAh Dimensions (L x W x D): 123 x 88 x 28mm

Thanks to its IPX7 rating, this power bank by Outdoor Tech can be submerged in 3ft of water for up to 30 minutes. That makes it well-suited to the most demanding conditions. It also has a built-in 100-lumen torch with three light settings – another useful feature for the great outdoors. The design is compact and relatively lightweight, while the 10,000mAh capacity gives you real-world performance of a little over three full smartphone charges. However, although there are two USB outlet ports, only one of these supports high-speed charging. The Kodiak Plus 2.0 does not have charge-through capability either.

Pros: Very rugged construction and simple operation. We also like the bright LED flashlight for use around camp. Cons: While the 2.4A USB output is speedy, the slower 1.0A port is sluggish compared to the multiple high-speed charging options of other power banks here.

Anker Powercore 20100

Price: £34.99 Weight: 353g Capacity: 20,100mAh Dimensions (L x W x D): 173 x 67 x 26mm

This slim-line power bank has two 2.4A USB outputs for high-speed charging, augmented by Anker’s PowerIQ Smart charge and voltage boost technology. This identifies your device and adjusts voltage output accordingly, while also compensating for cable resistance. It’s all intended to deliver the fastest possible charging speed, even when charging two devices simultaneously.

Real world performance was very good. The large 20,100mAh capacity gives five to seven smartphone charges, depending on the model. The Powercore 20100 also has built-in protection from power surges and short circuits. It comes with a micro USB cable and a travel pouch.

Pros: Slim design, simple to use and good performance. High battery capacity and competitively priced too. Cons: We wish it had a USB-C port. The only other real drawback is that the plastic case is not IP-rated against impact or moisture, meaning it’s not as tough as some other power banks we tested. Basically, don’t drop it or let it get wet!

Ravpower Xtreme RP-PB41

Price: £36.99 Weight: 459g Capacity: 26,800mAh Dimensions (L x W x D): 178 x 85 x 27mm

This Ravpower Xtreme power bank boasts triple 2.4A USB ports so you can charge three devices simultaneously at high speed. An impressive array of built-in technology protects against overheating, overcharging, short circuits and power surges. It also automatically adjusts charge output and voltage for optimum charging speeds. It’s incredibly simple to use, with a single button that displays a four-LED power indicator to let you know how much juice you have left. Not that you’re likely to run out, given the whopping 26,800mAh battery capacity. That gives you nine full charges for the iPhone X, which is impressive. It is supplied with a micro-USB cable and a travel pouch.

Pros: Huge battery capacity, multiple outlets, high-speed charging, easy to use and very well-priced. Cons: Inevitably, this power bank is fairly heavy. We also wish it had a USB-C port – though the latest 26800mAh Ravpower model (the PB058) has added this feature. Our only other negative is that this power bank isn’t IP-rated, so it isn’t as tough as some.

WakaWaka Power With Solar Panel And Link

Price: Power £49.99, Solar panel and link £79.99 Weight: Power 165g, Solar panel and link 751g Capacity: Power 3,000mAh, Solar panel and link max 10W output Dimensions (L x W x D): Power 125 x 83 x 21mm, Solar panel (folded) 170 x 170 x 28mm

A compact and lightweight power bank with an integrated solar panel that can fully recharge its 3,000mAh internal battery in 12-18 hours of sunlight. The WakaWaka Power has a single 2.1A USB output and a micro-USB input (so you can charge it from the mains too). In addition, the Power has a 70-lumen LED torch with four brightness settings and SOS mode. The 3,000mAh capacity gives you about 200 hours of light or one full smartphone charge, and charging speed is fairly swift. The power bank has a swivelling base that enables you to place it at almost any angle. This is ideal for positioning it as a camp lantern or adjusting the solar panel to ensure it is in direct sunlight.

To boost the capability, you can also add a separate folding solar panel with a max 10W output. It connects to the Power via a link box. This also has a second USB port so you can charge another device simultaneously. Setup is simpler than it sounds, and the Power’s LED indicators tell you how much juice it has left as well as how effectively it is charging from the sun.

Pros: It has a useful LED light and enough juice to give your smartphone a full charge. When coupled with the separate solar panel and link, its capabilities are drastically increased for off-grid trips. The 10W panel has a bigger output than any other solar charger we tested. Cons: The Power is obviously limited by its small 3,000mAh capacity, though WakaWaka also sell 5,000 and 10,000mAh power banks that are compatible with the solar panel and link. However, the key drawbacks of the system are cost and weight. Though it has a big 10W output, the solar panel is heavy, while the total cost of the Power, solar panel and link is nearly £130. And like all solar-powered systems, you’re obviously reliant on several hours of sunshine to get optimum results. The panel itself delivers solid performance though.

Freeloader Sixer Plus Supercharger Solar Panel

Price: Sixer £69.99, Supercharger £49.99 (or buy together as the Off Grid Adventurer bundle for £110) Weight: Sixer 250g, Supercharger 311g Capacity: Sixer 6,000mAh, Supercharger max 5W output Dimensions (L x W x D): Sixer 134 x 83 x 30mm, Supercharger 275 x 180 x 15mm

Another compact and relatively lightweight power bank with an integrated solar panel that can fully recharge its 6,000mAh internal battery in 28 hours of sunlight. However, with the Supercharger solar panel attached, charge time is reduced to around 8 hours, or 6 hours if all the solar panels are in direct sunlight. The Freeloader Sixer has a 2.1A USB output as well as integrated micro-USB and lightning cables, enabling up to three devices to be charged simultaneously.

Pros: Easy to use thanks to the LCD screen’s clear icons that indicate remaining battery life and charging source. We liked the integrated charging cables too. The 5W Supercharger solar panel is impressively thin and light. It also comes with Velcro straps to attach it to a rucksack. The solar cells are efficient enough to charge even in overcast conditions. That makes the system a good option for off-grid adventurers – provided you’ll see some sun. Cons: The integrated support stand used to position the Sixer is flimsy and snapped on test. Though marketed as impact- and water-resistant, it does not carry an IP-rating. It does have a rubberised cover to help protect against damage, but this needs to be removed to use the integrated charging cables.

Powertraveller Extreme Solar – Best In Test

Price: £115 Weight: Extreme 280g, Solar panel 284g Capacity: Extreme 12,000mAh, Solar panel max 5W output Dimensions (L x W x D): Extreme 140 x 78 x 28mm, Solar panel (folded) 275 x 180 x 15mm

This combination battery and solar charger kit consists of two components. There’s a 12,000mAh capacity power bank and a separate folding solar panel of clamshell design that delivers a max output of 5W. The power bank has a 2.0A USB output as well as a USB-C port and, uniquely among the power banks in this test, a 12V DC outlet. This makes the Powertraveller a versatile option for charging multiple devices quickly, from SLR cameras and GPS devices to the latest smartphones. It’s housed in a tough, rugged, waterproof case with an IP65 rating, meaning it is dust-proof and waterproof (though not immersible). The power bank also supports pass-through charging and is supplied with an array of cables to fit various devices.

The solar panel is compact and lightweight. It unfolds to 210 degrees and will charge in low light conditions. A flashing LED light shows green for optimum charging, red for lower-quality conditions. Handily it also comes with a Velcro strap that enables you to attach the panel to a rucksack.

Pros: Very versatile thanks to multiple outlets, including USB-C and a 12V DC output. Decent battery capacity gives up to five full smartphone charges. This is also the toughest solar charger on test, making it our preferred option for multi-day wilderness trips. Cons: Few drawbacks other than the standard proviso that applies to all solar-powered products – you’re obviously reliant on several hours of decent sunshine to get good performance. However, even when used as a standard power bank the Powertraveller performs extremely well.

Power Bank Market by Battery Type (Lithium Ion and Lithium Polymer), Power Rating (Up to 3000 mAh, 3,001. 8,000 mAh, 8,001. 20,000 mAh, and Above 20,000 mAh), Distribution Channel (Online and Offline), and Price Range (Low, Mid-Range, and Premium Range): Global Opportunity Analysis and Industry Forecast, 2020. 2027

The global power bank market size was valued at 17.41 billion in 2019, and is projected to reach 22.34 billion by 2027, registering a CAGR of 3.4% from 2020 to 2027.

The smartphones have become a crucial part of our day to day life and are equipped with powerful operating systems such as Android, Symbian, and iOS that allow the user to play games, run multimedia player, access video calling and stay connected to external world via high speed internet services, which leads to high consumption of battery in smartphone. Mobile power bank is a portable battery charging device by which the user can charge mobile devices anywhere and anytime. It is medium-sized electronic device comprising special battery with electronic circuits to control the power flow range. Mobile power banks allows the user to store the electrical energy depending on the capacity (mAh) to charge up small computing devices such as smartphone and tablet.