How Long Will My Battery Last?

Battery life depends on many factors:

  • the battery chemistry
  • the quantity and quality of the load on the battery
  • the number of recharge cycles
  • the length of non-use
  • the age of the battery
  • the internal design of the battery
  • the usage

These are some of the basic factors that will dictate how long your battery will last. Personally I have seen some battery's capacity (ability to power a device) last for 36 months whereas other battery's last only 8 months. Road warriors (people who use their battery power 3-4 hours per day – or more – will generally use the useful life of their battery a lot quicker than those people who use their battery power about 10-15 minutes per day.

One thing for sure every battery will die. Battery Replacements however are easy to find however.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

Hard Reset or Soft Reset On Your iPAQ

There are two types of iPAQ Resets you can do: a soft reset and a hard reset. Many times a either a soft or hard reset is necessary after installing new hardware like a battery.

A soft reset stops all open programs and "reboots" your iPAQ. When the iPAQ powers back up, you'll start with all programs closed and the unit will be ready to use. The soft reset is intended to reset the iPAQ if it is malfunctioning or has become bogged down. A reset could also be necessary after some software is installed.

A soft reset are similar on all iPAQ models but there are definite differences from model to model. For example on the iPAQ 1900 Series Pocket PCs you can perfom a soft reset by pressing the tiny recessed button on the left-hand side of the unit. There is a reset nib in the stylus that can be found by unscrewing its top.

A hard reset on the other hand wipes the RAM and returns the iPAQ to its factory specs. In effect, after the hard reset, the Pocket PC will be just as it was when you purchased it. All data entered, preferences set or software installed on the Pocket PC after purchase will be lost after a hard reset and will have to transferred or reinstalled via ActiveSync.

Hard resets are similar on all iPAQ models but there are definite differences from model to model. For example on the iPAQ 1900 Series Pocket PCs a hard reset can be performed by pressing and holding the power button at the top of the unit while simultaneously pressing and holding tiny recessed reset button on the left-hand side of the unit. Make sure that you press and hold the power button before pressing and holding the reset button. Keep both buttons pressed for several seconds until the screen fades. Turn the unit back on. The iPAQ will now be as it was when it left the factory and you can start fresh.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

Battery Chemistry Types

Their exists today, for commercial consumption, 6 battery types. Their is considerable amount of work and investment dollars being poured into new fuel cell technology but as of today nothing is yet on the market. So of the battery types that are readily available they are as follows.

1. Nickel-cadmium batteries were first invented in 1899 and are a mature energy type with moderate energy density. Nickel-cadmium is used in batteries where long life, high discharge rate and extended temperature range is important. The main applications for nickel-cadium batteries are for two-way radios, biomedical equipment and power tools.

2. Nickel-metal-hydride batteries has a higher energy density compared to nickel-cadmium. Applications include mobile phones and laptop computers not much needs to be talked about here since nickel-metal hydride batteries are not too commonly used anymore for your portable consumer applications other than powertools to acheive higher battery capacities than NICD batteries.

3. Lead-acid batteries are the most economical portable power source for larger power applications where weight is of little concern. Lead-acid is the preferred choice for hospital equipment, wheelchairs, emergency lighting and UPS systems. The most common place where most of us find lead-acid batteries are in our personal vehicles. Automobiles, light trucks and vans almost always use a 12-volt, six cell, and negative grounded, lead acid automotive battery used to start gasoline or diesel engines. You will find lead-acid batteries in motorcycles, boats, snowmobiles, jet skis, farm tractors, lawn and garden tractors, SUVs, etc.

4. Lithium-ion batteries are widely used today since they offer significant benefits for portable consumers. Lithium is the lightest of all metals, it has the greatest electrochemical potential, and the largest energy density for its weight.The load characteristics of lithium are reasonably good in terms of discharge.The high cell voltage of 3.6 volts allows battery pack designs with only one cell versus three (less costly and compact). Lithium ion is a low maintenance battery with no memory and no scheduled cycling being required to prolong the battery’s life. And finally Lithium-ion cells cause little harm when disposed.

5. Lithium-ion-polymer batteries are very similar to lithium-ion, but with an even far more slimmer
geometry and simple packaging but of course with a higher cost per
watt/hours. Main applications are cell phones and PDAs. The lithium-polymer differentiates itself from the conventional battery in the type of electrolyte used (a plastic-like film that does not conduct electricity but allows ion exchange – electrically charged atoms or groups of atoms). The polymer electrolyte replaces the traditional porous separator, which is soaked with electrolyte. The dry polymer design offers simplifications with respect to fabrication, ruggedness, safety and thin-profile geometry. Cell thickness measures as little as one millimeter (0.039 inches). Lithium polymer can be formed and shaped in any way imagined. Commercial lithium-polymer batteries are hybrid cells that contain gelled electrolyte to enhance conductivity. Gelled electrolyte added to the lithium-ion-polymer replaces the porous separator. The gelled electrolyte is simply added to enhance ion conductivity.
Capacity is slightly less than that of the standard lithium-ion battery. Lithium-ion-polymer finds its market niche in wafer-thin geometries, such as PDA batteries. Lithium ion also offers improved safety – more resistant to overcharge; less chance for electrolyte leakage.

6. Reusable Alkaline – Its limited cycle life and low load current is compensated by long shelf life, making this battery ideal for portable entertainment devices and flashlights. Great batteries if you want to store on demand power for a emergencies.

Until next time – Dan Hagopian, BatteryShip.com

How Long Will My iPod Play

All these ipod batteries listed below can be found at BatteryShip.com. One word about these play times and that is the playtimes listed are dependent on how each consumer uses their iPod. Yes the use of accessories and iPod settings do effect these playtimes. However the playtimes listed below are a general guide.

The
ipod battery life of an ipod classic with a 2200 mAh, measured in hours
is UP TO 20 hours, or 79% longer than the original ipod classic battery.

The
ipod battery life of an ipod 3rd gen with a 850 mAh, measured in hours
is UP TO 13 hours or 35% longer than the original ipod 3rd gen battery.

The
ipod battery life of an ipod 4th gen with a 830 mAh, measured in hours
is UP TO 12 hours or 32% longer than the original ipod 4th gen battery.

The
ipod battery life of an ipod mini with a 500 mAh, measured in hours is
UP TO 6 hours or 25% longer than the original ipod mini battery.

The
ipod battery life of an ipod photo with a 900 mAh, measured in hours is
UP TO 14 hours or 29% longer than the original ipod photo battery.

Until next time – Dan Hagopian, BatteryShip.com

iPod Battery Diagnostics

Your iPod battery should last between 12 months and 36 months. This broad range exists because every person uses their iPod battery differently. Some use their ipod battery 10 hours per day 365 day a year and some use their ipod battery a couple of hours a week.

If your iPod battery needs a replacement then you have a simple option. Buy an ipod battery.

However there are a couple of easy diagnostics you can do on your own before spending under $20 for an ipod battery.

Is it really the iPod battery (or the iPod meter)? 

If you spend anytime in the Apple forums you will come across a common complaint that goes something like: ‘I charged my iPod for more than four hours and then when I turn it on, the battery meter says it only has about 25% (or less) charge. So I plugged it back in to charge overnight and it still says very little charge.’

The good news is is that your iPod is probably fine, fully charged, and ready to play for many uninterrupted hours. How is this possible when the ipod battery meter reads as if there is no battery charge whatsoever? Because the battery meter only approximates when you should recharge your ipod battery!

Some ipod battery meters will read empty but after about 20 minutes of use fills in the black bars to read more like the real capacity of the battery.

Since the meter is an approximation to indicate a need to recharge why then is my ipod powering down? If your battery is truly dead then buy another one and replace it yourself. If your battery is not dead then recalibrate the ipod battery meter. To re-calibrate, run the iPod until it shuts down. Recharge fully, using the AC power (mains) adapter, not a USB or Firewire port. Do not recharge until the iPod shuts down due to low battery again. This does not mean you have to leave it running for hours; use it normally, but hold off on any "top-off" recharges.

If recalibrating does not solve your problem, try resetting your iPod (method varies by model) and/or restoring it (be sure you have all of your music on your computer before doing this). Then repeat the full cycle of discharge and recharge.

iPod Battery Cycles

As preventive maintenance for your meter and battery, be sure your iPod gets about one full cycle per month. A battery recharge cycle is defined as one full charge all the way to maximum battery capacity followed by a complete discharge to the automatic shutdown point.

iPod batteries with a chemistry make-up of lithium ion or lithium polymer have the ability cycle 300-500 times on average. This means that you can cycle your battery 300-500 times on average before you must buy a new one.

Overnight Rundown

If you bought an ipod replacement battery and find that it seems to be losing its charge (running down) overnight don’t assume you have a bad battery. First check the alarm clock. Is it off or on? Keep it off overnight! Check the date and time – is it accurate or mysteriously off (indication that the iPod reset itself or the CPU entered into some type of loop and crashed and kept using power) – nothing to do with a defective battery.

Yes that is right the iPod CPU like any CPU on any computer can crash. When your iPod CPU crashes it goes into an endless loop and drains the battery a lot faster than when it is in normal or deep sleep. If this happens reset your iPod. What causes the crashes? Not precisely sure (corrupted software, corrupted song files, or something else beyond the battery). Again if this happens try and reset your iPod.

Another option is to delete the corrupted file (if you know which one it is) from your iPod and Library. If you do not know which file is corrupt then wipe the iPod hard drive clean of all files and begin from the beginning.

If it's frozen and the ipod battery seems to be dead force a reboot by letting your iPod battery drain entirely (a 24+ hour process), you need to let it run all the way down to force a reboot.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

iPod Battery Charging Tips

In order to get the best use out of your ipod battery it is well advised to fully charge it (called conditioning your ipod battery) prior to first using your ipod battery.

By the way there is no way that charging your battery for a super long time will add more amps to your ipod battery. That is silly. Volts and amps are set designs from the battery manufacturer.

The iPod stops charging once the battery is full. Never run your iPod battery all the way down actually the ipod will shut down before it happens. Also don’t leave your ipod battery uncharged for days on end as you could shorten your iPod battery life.

For best ipod battery life results, try not to use computer ports to charge your iPod – there may be a charging icon displayed but might not be adding much juice to your ipod battery.

iPod's have built-in, rechargeable lithium-ion and or lithium polymer batteries. To see what they look visit BatteryShip.com.

It takes about 4 hours to fully charge an ipod battery. You can fast-charge the battery to 80 percent capacity in 1 hour (2 hours for iPod (Click Wheel)). Charging the battery may take longer if you're using iPod as it charges.

The best way to charge your iPod is to use your iPod power adapter.

There is no need to "prime" your iPod battery. Just charge it until your battery indicator reads full.

You don't need to empty (completely drain) the battery before charging it. Lithium-based batteries, do not have a memory loss, as seen in nickel-based rechargeable batteries.

Your ipod battery stops charging when it's full. Leaving it connected won't charge it any more or add more power to it. And yes you can leave it It's perfectly fine to leave it connected so it can charge overnight.

The nice thing about lithium based batteries is that you can charge them whenever it's convenient. So charge your ipod when it suits you, you won't hurt it.

Your ipod battery will maintain a charge for about 1 month without being used. After a month of non-operation you may find that the battery will not be at it full capacity. Why because even when your ipod is not in use the ipod uses a very small amount of battery power to maintain the integrity of the overall system.

Regarding your ipod battery indicator, understand that the indicator is a mere approximation of power available.

All rechargeable batteries have a limited number of charge cycles and will eventually need to be replaced. iPod battery life will vary

Battery life and number of charge cycles vary by use and settings. As with other rechargeable batteries, you may eventually need to replace your battery. Lithium based batteries can be charged a finite number of times, as defined by charge cycle. A charge cycle means using all of the battery's power, but that doesn't necessarily mean using it during a single charge. Here is an example of 1 charge cycle: you listen to your iPod for a few hours one day, using half its power, and then recharge it fully. If you did the same thing the next day, it would count as one charge cycle, not two, so you may take several days to complete a cycle. Every time you cycle your battery you will diminish the battery's capacity. Battery cycles on lithium based batteries will range from 300-500 cycles. So you will get quite abit of use out of your ipod battery before you have to buy a new one.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

How to Fix Your iPod 5 Easy Repairs

If your iPod is not performing then you can perform 5 simple repair steps to get your iPod up and running. Remember that your iPod is a computer and computers do act up from time to time and no it is not always your ipod battery.

To repair your iPod follow the Five Rs:

1. Reset Your iPod.
2. Retry your iPod.
3. Restart your computer.
4. Reinstall your iPod software (using iPod updater).
5. Restore your iPod.

Resetting your iPod varys slightly on iPods but for the following iPods:

iPod mini
iPod mini (Second Generation)
iPod with color display (iPod photo)
iPod (Click Wheel)
iPod nano
Fifth Generation iPod (also known as iPod with video)

Then toggle the Hold switch on and off. (Slide it to Hold, then turn it off again.) Press and hold the Menu and Select buttons until the Apple logo appears, about 6 to 10 seconds. You may need to repeat this step.

If you are having difficulty resetting your iPod, set it on a flat surface. Make sure your finger that is pressing the Select button is not touching any part of the click wheel. Also make sure that you are pressing the Menu button toward the outside of the click wheel, and not near the center.

If the above steps did not work, try connecting your iPod to a power adapter and plug the power adapter into an electrical outlet, or connect your iPod to your computer. Make sure the computer is turned on and isn't set to go to sleep.

Retry your iPod with a different USB or FireWire port on your computer (the latest iPods can only be synced through USB).

Restart your computer, and make sure that you have the latest software updates installed.

Reinstall your iPod and iTunes software. You can download the latest versions of ipod updater and iTunes from their respective websites.

Restoring your iPod with the latest iPod Updater will erase all songs and files on your iPod and restore it back to its original settings. After restoring your iPod, you can transfer your music and files from your computer back to your iPod again.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

How Long will My iPod Video Play?

Is it true the ipod video (fifth gen ipod) will hold a charge for up to 20 hours? Let's see!

First of all the legal fine print on Apple's iPod page explicitly refers to the 60 Gb iPod Video only being able to play (hold a charge in the battery) up to 20 hours. I would bet with all of its legal woes on the horizon this claim from Apple that the "new iPod boasts up to 20 hours of battery life, five hours more than before" is legally valid in a controlled test environment.

But consumers don't live in a controlled test environment, which is why I would not be surprised if your new ipod video (fifth gen ipod) will NOT hold a charge for 20 hours.

The legal keyword here is "up to". So even if the battery lasts an hour Apple is legally covered!

On the new 5th Generation iPod battery performance has to now be measured with: music playback, photo playback, and video playback (on iPod screen or through a TV).

Apple claims that the new 30GB iPod will play music for 14 hours, photo and music slideshows for 3 hours, and iPod on-screen video for 2 hours. In a iLounge test they found that the new iPod Video played music for 15 hours and 30 minutes, photo slideshows for 2 hours and 32 minutes, on-iPod video for 2 hours and 10 minutes, and iPod-to-TV video for 3 hours and 10 minutes.

Apple also claims that the new 60GB iPod will play music for 20 hours, photo and music slideshows for 4 hours, and video for 3 hours. Again in In a iLounge test they found that the new iPod Video played music for 19 hours, 50 minutes, but exceeded Apple’s photo and video claims, playing a music photo slideshow for 4 hours, 47 minutes, iPod-screen video for 3 hours, 23 minutes, and on-TV video for a hefty 5 hours and 24 minutes.

But everyone may experience slightly different battery life play times. For example here is a situation from a user quoted from the Apple fourms:

"It is clear that when you use the click wheel a lot, you assume that your battery life gets smaller quickly. I had a problem with my ipod 5G 30Gb battery life : Firstly, I charged it (as soon as i received it) until the plug icon appeared on the screen (1h 30mn) . Then I listened music 'til it was fully discharged. The battery life was approximately 8hrs. Then, this battery life decreased to 5hrs last day. I called Applecare ; the guy told me to restore my ipod, then to let it discharge fully, and to refill it for 4 hrs even if the plug icon appear on the ipod screen. After that, I synchronized ipod to itunes and let it play allnight long to see the battery life now. It played music with default settings during 15hrs 'til it shut down. These are the Apple specifications for that ipod. My problem wasn't the battery, but the battery life calibration, which has not been done as it should."

The reality is all batteries including batteries designed specifically for iPods (regardless of generation) have a certain amount of capacity and once the full amount of the capacity has been used then your battery will stop working. This is the normal function of battery designs.

In fact consider this taken from Apple iPod Warranty Care: "Your one year warranty includes replacement coverage for a defective battery. You can extend your coverage to two years with AppleCare Protection Plan. During the second year, Apple will replace the battery if it drops below 50% of its original capacity. If it is out of warranty, Apple offers a battery replacement for $59, plus $6.95 shipping. Apple disposes your battery in an environmentally-friendly manner." So basically Apple is correctly telling you that your battery will die with time and use. No questions about that; and that Apple is telling you that your battery replacement plan will cost you a total of $59, plus $6.95 shipping. Folks: Before you pay that amount go to BatteryShip.com and replace your battery for far less!

The admittance by Apple that your ipod battery will dies is based on real limitations of the battery's internal design.

Before I discuss the limitations of the battery's internal design there are external limitations that reduce the playtime of your iPod Video – personal usage. Yes running your iPod Video, even under normal usage, will reduce your iPod Video's playtime. Personal usage has way too many variables to describe here but in short – the way you use your iPod will determine, in part, how long your iPod battery will last.

Now on to the techincal internal battery design limitations…

Battery Capacity

The more the better (and more expensive), however there are a number technical limiations that force the iPod Video battery to cap off at where it is at.

A key requirement to know is the necessary battery capacity and runtime. This will define the overall physical size of the battery. Apple chose to ignore this rule and due to its desire to make the iPod as small as possible forced battery manufacturers to comply to the physical space limitations first instead of the runtime specifications. It traded capacity for space.

Capacity and runtime is measured in Amperes. Amps – or A – is an abbreviation of Ampere, a 19th century French scientist who was a pioneer in electricity research. Amps measure the volume of electrons passing through a wire in a one second. The electrical current is measured in amperes, where 1 ampere is the flow of 62,000,000,000,000,000,000 electrons per second!

Amp hours – or Ah – measures capacity. Amp hours is what is ultimately important to consumers as it is the capacity or amp hours that tells us how long we can expect a battery to deliver a charge before it runs out. As with all metric measurements, Amps can be divided into smaller (or larger) units by adding a prefix, in this case by adding an "m" to the amp hour we are renaming the amp hour to milli amp hour: mAh; (1Ah = 1000 mAh).

In addition when we consider the design capacity we must determine the chemical needed to insure that the necessary runtime will be met. Lithium is used because of its electrochemical properties. Lithium is part of the alkali family of metals a group of highly reactive metals. Li reacts steadily with water. In addition the per unit volume of lithium packs the greatest energy density and weight available for this grouping of reactive metals.

iPod batteries that have a chemistry design of either lithium ion or lithium polymer will over time regardless of usage will experience power loss to the point of non-functioning. In fact contained within your ipod battery is a design and chemistry make-up that impacts your battery life far more than your usage activity and there is no amount of conditioning you can do to prevent the ultimate power loss of your ipod battery.

Here is another situation from a user quoted from the Apple fourms:

"Recently, my iPod battery didnt seem to be lasting anywheres near 18 hours, so I tested it, and after about 4 hours the meter was still 3/4 of the way full, so i did the math and figure it was fine. My question is though, is it normal for the iPod to loose quite a bit of battery power without turning it on, because i lost about 1/8 of the life without using it for the past two days."

The reason why this occured is due to elevated self-discharge as we will see below but let's first continue on our discusson.

We know that batteries are rated by their voltage, their mAh, and of course the chemicals contained within. These three technical facts about your battery give some insight into the actual life of (energy stored within) your battery. But the length of time an ipod battery can operate is not linear to the amount of energy stored in the battery.

In fact their are four ongoing problems with your ipod battery that affects performance and the extended battery life of your ipod. They are: declining capacity, increasing internal resistance, elevated self-discharge, and premature voltage cut-off on discharge.

These are more complex issues that are beyond user control and are wholly contained within your ipod battery and within your ipod itself! As we will see these issues (declining capacity, increasing internal resistance, elevated self-discharge, and premature voltage cut-off on discharge) do more to cause iPod Battery Degradation and iPod Power Loss than your typical iPod owner could ever do.

Declining Capacity

Declining capacity is when the amount of charge a battery can hold gradually decreases due to usage, aging, and with some chemistry, lack of maintenance. iPod batteries are specified to deliver about 100 percent capacity when new but after usage and aging and lack of conditioning a iPod battery's capacity will drop. This is normal. If you are using an ipod battery (or any lithium-ion or lithium-polymer battery) when your battery's capacity reaches 60% to 70% the iPod battery will need to be replaced. Standard industry practice will warranty a battery above 80%. Below 80% typically means you have used the practical life of a battery. Thus the threshold by which a battery can be returned under warranty is typically 80%.

Loss of Charge Acceptance

The loss of charge acceptance of the Li ion/polymer batteries is due to cell oxidation. Cell oxidation is when the cells of the battery lose their electrons. This is a normal process of the battery charge creation process. In fact every time you use your ipod battery a loss of charge acceptance occurs (the charge loss allows your battery to power your ipod). Capacity loss is permanent. Li ion/polymer batteries cannot be restored with cycling or any other external means. The capacity loss is permanent because the metals used in the cells run for a specific time only and are being consumed during their service life.

Internal Resistance

Internal resistance, known as impedance, determines the performance and runtime of a battery. It is a measure of opposition to a sinusoidal electric current. A high internal resistance curtails the flow of energy from the battery to a iPod device. The aging of the battery cells contributes, primarily, to the increase in resistance, not usage. Expect a typical life span of a Li ion/polymer battery to be one to three years, whether it is used or not. The internal resistance of the Li ion batteries cannot be improved with cycling (recharging). Cell oxidation, which causes high resistance, is non-reversible and is the ultimate cause of battery failure (energy may still be present in the battery, but it can no longer be delivered due to poor conductivity).

Elevated Self-Discharge

All batteries have an inherent self-discharge. The self-discharge on nickel-based batteries is 10 to 15 percent of its capacity in the first 24 hours after charge, followed by 10 to 15 percent every month thereafter. Li ion battery's self-discharges about five percent in the first 24 hours and one to two percent thereafter. At higher temperatures, the self-discharge on all battery chemistries increases. The self-discharge of a battery increases with age and usage. Once a battery exhibits high self-discharge, little can be done to reverse the effect.

Premature Voltage Cut-Off

Some iPods do not fully utilize the low-end voltage spectrum of an ipod battery. The ipod device itself cuts off before the designated end-of-discharge voltage is reached and battery power remains unused. For example, a ipod that is powered with a single-cell Li ion battery and is designed to cut-off at 3.7V may actually cut-off at 3.3V. Obviously the full potential of the battery and the device is lost (not utilized). Why? It could be something with elevated internal resistance and iPod operations at warm ambient temperatures. iPods that load the battery with current bursts are more receptive to premature voltage cut-off than analog equipment. High cut-off voltage is mostly equipment related, not battery.

So to sum up will your iPod Video play up to 20 hours – yes. Will it play for 20 hours straight – more than likely – no. So what do you do – accept it or don't buy the iPod.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

Technical Reasons Why iPod Batteries Die

iPod batteries that have a chemistry design of either lithium ion or lithium polymer will over time regardless of usage will experience power loss to the point of non-functioning. In fact contained within your ipod battery is a design and chemistry make-up that impacts your battery life far more than your usage activity and there is no amount of conditioning you can do to prevent the ultimate power loss of your ipod battery.

We know that batteries are rated by their voltage, their mAh, and of course the chemicals contained within. These three technical facts about your battery give some insight into the actual life of (energy stored within) your battery. But the length of time an ipod battery can operate is not linear to the amount of energy stored in the battery.

In fact their are four ongoing problems with your ipod battery that affects performance and the extended battery life of your ipod. They are: declining capacity, increasing internal resistance, elevated self-discharge, and premature voltage cut-off on discharge.

These are more complex issues that are beyond user control and are wholly contained within your ipod battery and within your ipod itself! As we will see these issues (declining capacity, increasing internal resistance, elevated self-discharge, and premature voltage cut-off on discharge) do more to cause iPod Battery Degradation and iPod Power Loss than your typical iPod owner could ever do.

Declining Capacity

Declining capacity is when the amount of charge a battery can hold gradually decreases due to usage, aging, and with some chemistry, lack of maintenance. iPod batteries are specified to deliver about 100 percent capacity when new but after usage and aging and lack of conditioning a iPod battery's capacity will drop. This is normal. If you are using an ipod battery (or any lithium-ion or lithium-polymer battery) when your battery's capacity reaches 60% to 70% the iPod battery will need to be replaced.

Standard industry practice will warranty a battery above 80%. Below 80% typically means you have used the practical life of a battery. Thus the threshold by which a battery can be returned under warranty is typically 80%.

Loss of Charge Acceptance

The loss of charge acceptance of the Li ion/polymer batteries is due to cell oxidation. Cell oxidation is when the cells of the battery lose their electrons. This is a normal process of the battery charge creation process. In fact every time you use your ipod battery a loss of charge acceptance occurs (the charge loss allows your battery to power your ipod). Capacity loss is permanent. Li ion/polymer batteries cannot be restored with cycling or any other external means. The capacity loss is permanent because the metals used in the cells run for a specific time only and are being consumed during their service life.

Internal Resistance

Internal resistance, known as impedance, determines the performance and runtime of a battery. It is a measure of opposition to a sinusoidal electric current. A high internal resistance curtails the flow of energy from the battery to a iPod device. The aging of the battery cells contributes, primarily, to the increase in resistance, not usage. Expect a typical life span of a Li ion/polymer battery to be one to three years, whether it is used or not. The internal resistance of the Li ion batteries cannot be improved with cycling (recharging). Cell oxidation, which causes high resistance, is non-reversible and is the ultimate cause of battery failure (energy may still be present in the battery, but it can no longer be delivered due to poor conductivity).

Elevated Self-Discharge

All batteries have an inherent self-discharge. The self-discharge on nickel-based batteries is 10 to 15 percent of its capacity in the first 24 hours after charge, followed by 10 to 15 percent every month thereafter. Li ion battery's self-discharges about five percent in the first 24 hours and one to two percent thereafter. At higher temperatures, the self-discharge on all battery chemistries increases. The self-discharge of a battery increases with age and usage. Once a battery exhibits high self-discharge, little can be done to reverse the effect.

Premature Voltage Cut-Off

Some iPods do not fully utilize the low-end voltage spectrum of an ipod battery. The ipod device itself cuts off before the designated end-of-discharge voltage is reached and battery power remains unused. For example, a ipod that is powered with a single-cell Li ion battery and is designed to cut-off at 3.7V may actually cut-off at 3.3V. Obviously the full potential of the battery and the device is lost (not utilized). Why? It could be something with elevated internal resistance and or iPod operations at warm ambient temperatures. iPods that load the battery with current bursts are more receptive to premature voltage cut-off than analog equipment. High cut-off voltage is mostly equipment related, not battery.

Until next time – Dan Hagopian, BatteryShip.com
Copyright © BatteryEducation.com. All rights reserved.

iPod Battery Technical Facts

Apple has shipped over 12 million iPods since their debut in October 2001. 12 million ipod users are now faced with an inevitable requirement which is: what do you do when your iPod battery dies?

Let's begin with the basics…

1. The ipod battery can be replaced by you. Go to www.Batteryship.com for detailed instructions. An ipod battery replacement can be done in just a few easy steps. iPod batteries begin at $9.99 for a 3rd gen and a mini. 4th gens, photos, video and the super capacity first gen are just a few dollars more.

2. iPod batteries last a long time, but like all batteries the longevity of a battery life depends on usage patterns. iPod batteries are made up of a lithium ion and or lithium polymer chemical compound. Etiher has a half life, a recharge cyle of between 300-500 charges. So depending on your particular usage pattern you could be using an ipod battery that is 3 years old or 18 months old.

3. iPod batteries like all batteries are rated by electrical specifications that include its volt and milliAmp hour rating. The most common voltage you will see for an iPod battery is 3.7 V. Volts as you may know is the electrical measure of energy potential. You can think of it as the pressure being exerted by all the electrons of an iPod battery's negative terminal as they try to move to the positive terminal.

Amps or A is an abbreviation of Ampere, a 19th century French scientist who was a pioneer in electricity research. Amps measure the volume of electrons passing through a wire in a one second. One Amp equals 6.25 x 1018 electrons per second.

Amp hours or Ah measures capacity. That is ultimately what we want to know about the ipod battery. Amp hours quantify how long a battery can deliver a certain amount of charge before it runs out. As with all metric measurements, Amps can be divided into smaller (or larger) units by adding a prefix. In the case of ipod batteries, a milliAmp hour (mAh) is most commonly used. Note that 1000 mAh is the same a 1 Ah. (Just as 1000mm equals 1 meter.) Note that Amp hours do not dictate the flow of electrons at any given moment. PDA batteries with a 1 Amp hour rating could deliver ½ Amp of current for 2 hours, or they could provide 2 Amps of current for ½ hour. The higher the mAh on the iPod battery the longer it will last and of course the more you will pay.

4. iPod Battery Meter. If you spend anytime in the Apple forums you will come across a common complaint that goes something like: ‘I charged my iPod for more than four hours and then when I turn it on, the battery meter says it only has about 25% (or less) charge. So I plugged it back in to charge overnight and it still says very little charge.’

The good news is is that your iPod is probably fine, fully charged, and ready to play for many uninterrupted hours. How is this possible when the ipod battery meter reads as if there is no battery charge whatsoever? Because the battery meter only approximates when you should recharge your ipod battery!

Some ipod battery meters will read empty but after about 20 minutes of use fills in the black bars to read more like the real capacity of the battery.

Since the meter is an approximation to indicate a need to recharge why then is my ipod powering down? If your battery is truly dead then buy another one and replace it yourself. If your battery is not dead then recalibrate the ipod battery meter. To re-calibrate, run the iPod until it shuts down. Recharge fully, using the AC power (mains) adapter, not a USB or Firewire port. Do not recharge until the iPod shuts down due to low battery again. This does not mean you have to leave it running for hours; use it normally, but hold off on any "top-off" recharges.

If recalibrating does not solve your problem, try resetting your iPod (method varies by model) and/or restoring it (be sure you have all of your music on your computer before doing this). Then repeat the full cycle of discharge and recharge.

5. With all that said your ipod battery will naturally degrade over time. How? Does it strictly have to do with my usage pattern? No not entirely. Contained within your ipod battery is a design and chemistry make-up that impacts your battery life far more than your usage activity and there is no amount of conditioning you can do to prevent the ultimate power loss of your pda battery.

For example we know that batteries are rated by their voltage, their mAh, and of course the chemicals contained within. These three technical facts about your battery give some insight into the actual life of (energy stored within) your battery.

But the length of time a pda battery can operate is not linear to the amount of energy stored in the battery. In fact their are four ongoing problems with all batteries that affect performance and the extended battery life of your ipod. They are: declining capacity, increasing internal resistance, elevated self-discharge, and premature voltage cut-off on discharge.

These are more complex issues that are beyond user control and are wholly contained within your ipod battery and within your device! As we will see these issues (declining capacity, increasing internal resistance, elevated self-discharge, and premature voltage cut-off on discharge) do more to cause an ipod battery Degradation and ipod power loss than your typical ipod owner could ever do.

Declining Capacity

Declining capacity is when the amount of charge a battery can hold gradually decreases due to usage, aging, and with some chemistry, lack of maintenance. iPod batteries are specified to deliver about 100 percent capacity when new but after usage and aging and lack of conditioning an ipod battery's capacity will drop. This is normal. If you are using an ipod battery (or any lithium-ion or lithium-polymer battery) when your battery's capacity reaches 60% to 70% the ipod battery will need to be replaced. Standard industry practice will warranty a battery above 80%. Below 80% typically means you have used the practical life of your ipod battery. Thus the threshold by which a battery can be returned under warranty is typically 80%.

Loss of Charge Acceptance

The loss of charge acceptance of the Li‑ion/polymer batteries is due to cell oxidation. Cell oxidation is when the cells of the battery lose their electrons. This is a normal process of the battery charge creation process. In fact every time you use your ipod battery a loss of charge acceptance occurs (the charge loss allows your battery to power your pda). Capacity loss is permanent. Li‑ion/polymer batteries cannot be restored with cycling or any other external means. The capacity loss is permanent because the metals used in the cells run for a specific time only and are being consumed during their service life.

Internal Resistance

Internal resistance, known as impedance, determines the performance and runtime of an ipod battery. It is a measure of opposition to a sinusoidal electric current. A high internal resistance curtails the flow of energy from the battery to an ipod device. The aging of the battery cells contributes, primarily, to the increase in resistance, not usage. Expect a typical life span of a Li‑ion battery to be one to three years, whether it is used or not. The internal resistance of the Li‑ion batteries cannot be improved with cycling (recharging). Cell oxidation, which causes high resistance, is non-reversible and is the ultimate cause of battery failure (energy may still be present in the battery, but it can no longer be delivered due to poor conductivity).

Elevated Self-Discharge

All batteries have an inherent self-discharge. The self-discharge on nickel-based batteries is 10 to 15 percent of its capacity in the first 24 hours after charge, followed by 10 to 15 percent every month thereafter. Li‑ion battery's self-discharges about five percent in the first 24 hours and one to two percent thereafter. At higher temperatures, the self-discharge on all battery chemistries increases. The self-discharge of a battery increases with age and usage. Once a battery exhibits high self-discharge, little can be done to reverse the effect.

Premature Voltage Cut-Off

Some ipods do not fully utilize the low-end voltage spectrum of an ipod battery. The ipod device itself cuts off before the designated end-of-discharge voltage is reached and battery power remains unused. For example, an ipod that is powered with a single-cell Li‑ion battery and is designed to cut-off at 3.7V may actually cut-off at 3.3V. Obviously the full potential of the battery and the device is lost (not utilized). Why? It could be something with elevated internal resistance and or using ipods at warm ambient temperatures. iPods that load the battery with current bursts are more receptive to premature voltage cut-off than analog equipment. High cut-off voltage is mostly equipment related, not battery.

Until next time – Dan Hagopian, BatteryShip.com
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