How to Get a Cell Phone Battery to Last Longer
A cell phone without power is worth nothing, that's why it's vital to ensure that your array lasts for as long as your phone is connected to benefit. Of course, there are cell phone batteries available for nearly any model, but I am sure anyone out there would rather choose to have their first batter to last, than need to go incisive for a replacement array.
So lets chat about today what steps need to be done in order to get the most out of your first array and get it to last as long as you have your cell phone in use.
Let the Array Fully Charge Before it's First Use.
This step is doubtless the most known, but due to it being very vital we will place it first. New batteries should be fully charged before their first use to get most room. If your cell phone has Nickel based batteries you should at the start charge them for 16 hours and then run through 2 to 4 full charge-full discharge cycles. With Lithium Batteries, get them charged for about 5-6 hours. Make sure ignore the phone telltale you that the array is full, as this is not accurate before the array has undergone the initial charge.
Always Charge Your Phone Correctly.
Most new cell phones have lithium-ion batteries, while the older ones ordinarily have nickel based batteries. (Read the mark on the back of the array or in the technical specifications of your owner's manual to determine your array type)
Nickel-based batteries (NiCd and NiMH) have a phenomenon known as "memory effect." This means that if you charge the array only partially, eventually the array forgets that it can have a full charge. For cell-phones with nickel batteries make sure to discharge them absolutely once every two to three weeks, this will prolong the array life. (If you feel that your nickel-based array is "suffering" from the "memory effect", it can be reconditioned. In order to recondition the array absolutely discharge it, then absolutely rejuvenated (several times). This will help the array regain it's duration.
Lithium-ion batteries are absolutely different when it comes to charging. Lithium-ion batteries do not have the same memory effect. But, many devices that use lithium batteries have a meter that shows the user how much power has been left. Lithium-ions stain in the array, thus shortening its life. After a fastidious period of time, the array exhibits slightly different electronic properties, which the device can only detect when the array is absolutely discharged. This type of riddle is known as a virtual memory effect and it's "symptoms" are when you notice your array meter shows a high charge, then suddenly drops to low charge when the array is nearly dead. To preclude this from in the works, every thirty charging cycles, you should discharge lithium ion batteries until the phone gives a low array warning, then fully recharge it. (DO NOT fully discharge a lithium-ion array! Lithium-ion batteries' life is shortened every time you fully discharge them. Instead, charge them when the array meter shows one bar left.) This array reconditioning ensures that the array meter on your lithium ion mobile stays accurate. The virtual memory effect but does not affect the array room as in the nickel based batteries.
Batteries Should Be Kept Cool at All Times.
Batteries last peak if they are used near room warmth. Avoid leave-taking your phone in a hot car or in direct sunlight, and don't carry your phone in your pocket, where your body heat will raise its warmth, instead get physically a cell phone holster. Also make sure to check the array while it's charging, see if it feels hot. If it seems excessively hot, your mount may be out of order. Dredge up, that nothing wears on a array like extended exposure to high temperatures.
Keep Your Array Clean.
Make sure to clean the metal contacts on the array and on the phone. Over time, contacts accumulate dirt. The best way to clean them is by using a cotton swab and roughness alcohol. This will maximize the efficiency of energy conveying.
Author: Larry Jung
Condition Source: EzineArticles.com
Provided by: Programmable Difficulty Cooker
