By understanding the basic components of the power supply chain, you are well on your way to finding the right technology for your needs.
In short, you use or recharge your electronic device using power stored in aportable battery, which was received from an initial power source. Listed in actual order:
Power SOURCE |
→ |
Power STORAGE |
→ |
Power USE |
Energy source to charge the battery pack |
|
A portable battery pack to store energy |
|
Electronic device using stored energy |
Power Sources
Several sources of power can be used to charge up a power storage unit (battery pack) or your electronic device directly. The most common sources, from fastest to slowest:
- AC power (wall outlet)
- 12V DC (car charger)
- USB (any source: wall, car, computer or even the BioLite Wood Burning CampStove)
- Solar panel
- Kinetic motion
- Hydrogen fuel cell
To recharge your portable power pack when away from wall outlets, vehicles or USB output, you'll want a battery pack that can be recharged by solar power or another means.
Solar Energy
Tips on Choosing Solar Chargers
Several popular solar panel options are available:
- Panels only, either rigid or semi-flexible
- Panels with integrated storage batteries
- Panels with independent (separate) storage batteries
The main variables to consider:
Surface area: The larger the solar panel, the more sunlight it collects and the faster it gets converted to power stored in a battery. A smaller panel, though easier to pack, takes longer to charge a battery. Large surface area is also best for conditions such as cloud cover or the low-angled, low-intensity light in winter, or when logistical constraints limit how long you can have it exposed to sun. Charge times can vary from 4 to 16 hours of sunlight for the same battery, depending on surface area and light conditions.
Output capacity: Solar panels are rated in watts. The higher the number, the more electricity is generated during a given time period.
Semi-flexible or rigid panels: Semi-flexible solar panels can be folded or rolled up for easy transport and open up to provide a greater surface area than many rigid panels. Consider, too, a solar panel’s attachment options so you can securely attach it to your backpack, bike, kayak or tent.
Shop REI's selection of solar chargers.
Hydrogen Fuel Cells
The most recent innovation in portable power devices is to create electricity from hydrogen (a chemical reaction creates the electricity). This requires the use of a consumable hydrogen cartridge. The voltage it generates is low, but it is available anytime.
Power Storage (Battery Pack)
Key Specs for Portable Battery Packs
Storage capacity: This tells you how much charge the battery pack can store for use later to recharge your devices, before it in turn needs recharging.
By comparing the storage capacity of a portable battery to that of the battery in your device, you can get an idea of how many recharges you have available. This is usually stated in milliAmp hours (mAh) or Amp hours (Ah). For example, 2200 mAh = 2.2 Ah. Watt hours (wh) is another measure of capacity. To convert watt hours to mAh: (Wh /Volts) x 1000 = mAh
Tip: Transferring energy from one battery to another is not 100% electrically efficient. Thus, a power pack rated at 2000 mAh will not fully recharge a 1000 mAh electronics battery twice.
To recharge or top off your electronic device, you need a battery pack with enough storage capacity and enough output voltage to move energy into your device.
How much is enough? Find out the storage capacity of the battery in your device. For electronics with built-in batteries, check the technical specs to find the battery capacity. If your device uses only replaceable AA batteries, this is not an issue. Choose a battery pack that features these.
Power output: The output of the charger (measured in volts) must be equal to the input battery voltage requirement of your electronic device. If it’s lpwer, you may drain your device’s battery instead of charging it up. Oops!
Most portable battery packs will charge small personal electronics like cell phones and mp3 players, but relatively few can recharge a laptop battery.
Small electronic devices that can be charged with a USB cable need a 5V output rating. Larger electronic devices that require a DC power input (for example, laptops) may need a 12V – 24V output rating. This is available from the largest portable battery packs.
Battery technology: Portable battery packs vary in not only capacity and output, but also in technology, size and weight.
- NiMH (Nickel Metal Hydride) batteries are likely to be rechargeable AA or AAA batteries. A battery pack that uses these is a convenient option for devices that use replaceable batteries like a GPS, camera or headlamp. Instead of recharging your device, you simply swap out the batteries.
- Lithium-ion and lithium polymers are the most common type of portable battery packs, being the same technology as the built-in batteries in personal electronics.
- Lead acid batteries are large and heavy but provide the greatest power capacity and output.
Output connectors and adapter tips:
- If you buy a solar panel with an included battery—either integrated or independent—any necessary connectors between panel and battery will be included.
- If you buy a solar panel and battery individually, note what output connector it has and its suitability for charging your device directly (if recommended) or connecting to a separate battery pack. Your options may include a USB (standard, mini, micro), a connector (with a selection of adapter tips) or DC output with voltage control.
Power Use
How do you find the voltage input rating for your electronic device? 1) Look in your owner’s manual under technical specifications, or 2) Look for the voltage rating printed or stamped as “DC output” on the wall outlet charger that you likely got with your device. Then make sure your portable battery pack can deliver at least the same voltage.
Listed below are battery capacity and input voltage examples for selected electronic devices. Keep in mind that internal battery capacity varies between makes and models.
Personal Electronics |
Internal Battery Capacity |
Voltage Input Rating |
GPS with rechargeable |
2000 – 2400 mAh |
3.7 – 7.4V |
MP3 player |
600 – 1000 mAh |
3.7 V |
Cell phones |
850 mAh |
3.7 V |
Smartphones – power input using a brand-specific tip |
1000 – 1700 mAh |
3.7 V |
Smartphones – USB power input |
1700 – 2100 mAh |
5 V |
E readers / tablets – USB power input |
1250 – 4400 mAh |
5 V |
Netbooks, laptops – DC power input |
3500 – 6600 mAh |
8.5 -19.5 V |
Practical Considerations
Still deciding? Here are some REI staff expert tips that can help:
Trip duration: For a weekend trip, a battery pack may be plenty. However once it is used up, it becomes unproductive weight. Off-the-grid trips of a week or more are likely to need a solar charger or other generator.
Tip: Fully charge your devices and power pack right before your trip. Even if you did so a couple of weeks earlier, it doesn’t mean they are still holding a full charge.
Mode of travel: For a solar charger to be effective, it requires lengthy exposure to direct sunlight. Some activities like cycle touring and sea kayaking are well suited to “on-the-go” solar charging. Backpacking in open country can be suitable if you can orient the panel to face the sun. But if you are hiking under a deep forest canopy, there is not much point in strapping a solar charger to the top of your pack.
Battery type: If your electronic devices use only AA batteries, consider a solar charger that can boost up a spare set of batteries while others are in use in the device. This way you can rotate 2 sets of batteries instead of carrying spares.
Tip: Avoid completely draining a device’s battery before recharging it.
Size and weight: All chargers take up space and add weight. Is it worth it? Do you need unlimited power no matter what? Or is one emergency charge enough? The bigger (and heavier) a power pack, the more storage capacity it has to provide multiple charges. For solar chargers, consider their built-in attachment points: Can they be tied down or staked out so they don’t disappear in a wind gust?
Battery packs offer a supplement, not a guarantee. Do not assume that these products will bring your device’s battery up to a full charge.
All rechargeable batteries have a usable life that is usually measured in discharge/recharge cycles. Not all manufacturers provide this figure, but you can assume a battery pack will have a minimum life of 500 cycles, with up to 1,000 cycles being common.