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  • greenproductsolutionpr 11:41 am on May 16, 2011 Permalink | Reply
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    How does a lead Acid Battery Desulfator Circuit 

    Whenever a lead acid battery is discharged, electrolytes combine with lead on the batteryplates, forming lead sulfate. This process is normally reversed once the battery is charged. Not all are sulphate of lead, however, dissolved during the process of reloading. some gets crystallized on the plates of lead battery. This phenomenon is known as sulphation of the battery . The deeper and more time a battery is discharged, more the possibility is that lead sulfate to crystallize and reduce the area of the battery plates which may come into contact with the electrolyte. Over time, this accumulation of lead sulfate will cause your battery go dead.


    The good news is that there is an affordable way to resurrect your battery and it works like new once more. The solution is a process called battery reconditioning, which involves the use of a charger battery and a device called a desulfator of lead acid battery circuit. The name itself indicates that the device works by removing the accumulation of lead sulfate and bring your battery life. Please note, however, that a desulfator does not work on batteries with cells of short circuit and it cannot restore a worn plate of lead battery. Nevertheless, it can be very useful for those who want to maximize the use of their lead-acid batteries.


    The first necessary step in the battery reconditioning is the removal of the accumulation of lead sulfate. This step is also the one that requires a considerable amount of time, especially if the accumulation is already serious. As the amount of crystallization increases, so the voltage necessary to dissolve. The problem is that a lead acid battery can overheat and eventually explode if you put it through a constantly high voltage. For this reason, most battery desulfators use pulse technology of packaging that crystallized sulfate is affected by high tensions and the battery is protected against overheating.


    Normally, a lead acid battery has a maximum 6 megahertz resonance frequency, and when sufficient electrical impulses are continually sent in, the battery plates enter a rhythmic beat that causes the sulfate crystals to finally return to the electrolyte solution. According to the seriousness of the sulfation, the process can take weeks to complete. During this time, the battery must be connected to a charger set to the mode of NET load to ensure that it is not in deep discharge while it is be desulfated. You may notice the drop of tension as the desulphurization process unfolds. It is a normal reaction caused by being cleared of the plates of lead sulfate crystals.


    Battery reconditioning will not fail to save lot of money, which you otherwise spend on an expensive replacement. You can get even more savings by the construction of your own desulfator of lead acid battery circuit. Several different models of desulfator have been built and used for many years, and it is easy enough to find instructions step by step construction online. If you are a do-it-yourself enthusiast this can be an ideal option for you.


    Reconditioning batteries can save you thousands of dollars. I have actually put batteries as a side business (and it is very profitable). If you want to learn how to recondition batteries, see: lead-acid battery Desulfator.

     
  • greenproductsolutionpr 11:44 am on May 9, 2011 Permalink | Reply
    Tags: Battery Desulfator, , , how to recondition batteries,   

    The benefits of a Desulfator battery charger 

    You have an old car that you have not used for some time. One day, you decide to subscribe for a spin only to discover that the battery is dead. What do you do? You would probably start thinking about buying a new battery, just keep the car as a vintage collection or sell the car or not. However, you do not have another option yet, and it is to bring the car battery back to life with a battery desulfator charger.

    Check the battery charger that you currently have. If equipped with a function of “desulfate”, then that is good news for you. Otherwise, you may need to seek separate desulphurization circuit. Of course, you will need to ensure that first that the accumulation of crystals of lead sulfate is really the reason why the car of your battery is no longer works. It may be the most logical reason, since you left the car unused for a long time, but you can never be sure unless you check. If there are cracks in the batteryplates or box then, it is better to buy a new, but if the cause is really just sulfation and then you can proceed to try to revive through desulphurization.

    After reading this far, you might ask, “” the battery may have just gone in deep discharge, so peux I just normally load so it works again? “” Well, given that your battery car was left dead for a long time, you can really expect normal to return to full capacity pricing. In fact, normal pricing can even reach operating capacity (capacity sufficient to start the car). On the one hand, lead sulfate crystals must be withdrawn plates of lead batteryfirst if you hope never get your battery working as new again.

    STOP THROWING BATTERIES AWAY PREMATURELY!

    Desulfator is an electronic gadget than can reserve sulfation in lead acid batteries and further prevent sulfation in revived or new batteries. Sulfation or lead sulfate crystal build up on your battery plates is by far the most common cause of battery failure. Batteries are more often than not replaced long before the end of their designed lifespan.

    How Lead Sulfate Crystallization Occurs

    When the battery is in use (discharging), the lead acid dioxide plates in the battery react with the sulfuric acid to form lead sulfate and water. This chemical reaction can be represented by the following equation :

    Pb + PbO2 + 2 ( H2SO4) 2 ( PbSO4 ) + 2 ( H2O )

    The battery is recharged whwb iti is connected to the altenator of a Vechile. The lead sulfate and water would then be reverted to lead sulfate and sulfuric acid. Equation above representes the reaction :

    Pb + PbO2 + 2 ( H2SO4) 2 ( PbSO4 ) + 2 ( H2O )

    The battery is recharged whwb iti is connected to the altenator of a Vechile. The lead sulfate and water would then be reverted to lead sulfate and sulfuric acid. Equation above representes the reaction :

    2(PbSO4) + 2(H2O) Pb + PbO2 + 2(H2SO4)

    Generally, the amount of time the battery spends discharging greatly exceeds the amount of time it is being charged, as a vechile would parked for longer periods of time than when it is running. Hence, lead sulfate (PbSO4) and water is being formed faster than it can be reverted.  The lead sulfate produced by discharging of battery form a spongy soft coating on the lead plates. In time, a stronger covalent bond will form between the lead and the sulfate molecules, and the spongy lead sulfate now turns into a hard crystalline form.

     

    This tough coating now insulates the lead surface on the plates form from the electrolyte (sulfuric acid) and decreases the capacity of the battery, as there would be less contact between the plates and the acid.

     

    See How Your Car Battery Looks

     

    Battery Sulfation Proccess

    Sulfation Crystals

     

     

    HOW THE DESULFATOR WORKS

    Desulfator Circuit

    A battery desulfator charger works by sending signals of low frequency or “heartbeat” for deposits of Crystal on your plates of lead battery. These pulses cause the crystals to break down and convert lead and sulfuric acid. This clears up the batteryplates, and makes the available surface once more for the chemical reaction needed to draw enough electric charge for the service car. Given the high cost of new car batteries, this option certainly give you significant savings. Submitting your car batteries in this process at least once a month, it is a good way to make more power available for use. It also helps to ensure that the less energy is necessary to recharge the battery.

    The good thing about desulfating and recharge the batteries (usually called repackaging) is that it can be done not only to revive dead batteries, but also to extend the life of a currently operating battery and for normal maintenance. In addition, there are different models available for use on the different types and sizes of batteries. It is therefore advantageous and beneficial for you to keep a battery desulfator charger aside.

    Reconditioning batteries can save you thousands of dollars. I have actually put batteries as a side business (and it is very profitable).

    Battery desulfators are necessary if you want to start your own battery reconditioning of affairs. While you can buy a battery desulfator (or Nanopulser, such that it is also known), you can also do it yourself. Yes, with the right materials, you can make your own desulfator of lead acid battery that you can use to reload and restore state lead-acid battery. This is an easy project and you can use it for a number of types of batteries . If you’re ready here is how you can start.

    Prepare all the materials

    Make sure that all the necessary documents are ready. You will need:

    • a can of Altoids
    • Some double-sided tape
    • A perfboard (just a small piece)
    • adhesive copper sheet, two switches
    • two pots
    • a light emitting diode (led)
    • two resistances
    • one (FET) field effect transistor
    • bolt of glue and nylon.

    Select a work area

    Find a space to serve as your work area. Don’t forget that work with used batteries has its own set of health hazards, since they can infiltrate the gaseous hydrogen. Thus, make sure that you are working in an open space or a place with plenty of ventilation. Keep your working table treated and keep the batteries and other materials from far other flammable substances.

    Start working

    To begin to do the battery DIY desulfator, take the small piece of perfboard and attach to the bottom of the box. Then take a tape copper sheet and attach it on the edge of the perfboard. The adhesive copper sheet will act as a fieldbus. Take the switches, resistors, pots, FET, and LED and implement on the perfboard using glue. Take a few pieces of cardboard and affix their around the Commission perforated to act as an insulator for the desulfator.

    Now, drill a hole on the left side of the dialog box. The hole will accommodate wire be used for the deuslfator. Take a rubber washer and place it in the hole of the CAD – is to prevent the son to touch the metal when they cross the can. On the right side of the box of Altoids, three holes. Another hole on the lid of the box of Altoids of drilling. This hole on the lid of the top of the page will be used to observe the LED when the desulfator is used.

    After you define the Interior and exterior of the box of Altoids, you can now begin soldering wires. Choose the wires which are thick (but flexible). Let them pass through the hole on the left side of the box of altoids and solder them on electrolytic capacitors. Now, you can use the output lead wires and clips to connect them to the battery you want to restore.

    Enjoy It :)

     
  • greenproductsolutionpr 11:41 am on May 9, 2011 Permalink | Reply
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    Lithium-ion chemistry is portable power Batteries behind today 

    If you have a portable computer, the chances are very very good that it is likely powered by a lithium-ion (Li-ion) battery. This type of battery has found application in a wide variety of electronic devices for consumption, including PDAs and cell phones. They gained popularity for economic and technical reasons including their high load weight ratio.


    Lithium-ion batteries have replaced the nickel-cadmium (NiCd) batteries which have been first used to power laptops and batteries nickel-metal hydride (NiMH), which replaced portable NiCd battery technology. They have dominated the market of battery for laptops today because they are much lighter than other types of portable batteries, they retain their charge longer than the other technologies and because they do not suffer from the phenomenon of memory effect. A typical lithium-ion battery is twice the density of energy of a standard nickel cadmium batteries. In addition, the lithium-ion batteries have a voltage of single cell of 3.6 volts compared to 1.2 volts per cell of nickel-cadmium batteries.


    However, disadvantages to lithium-ion batteries include: the possibility that a failed battery pack can ignite in unfavourable conditions, are more sensitive to environments at high temperature than other battery technologies in their ability to hold their chargethey can fail if they are fully discharged, and chemistry to inherit the battery leads to degradation with age as opposed to the strongest correlation between failures of battery and older the chemistries of battery charge/discharge cycles. Computer lithium-ion batteries also require that protection circuits be incorporated into the block- batteries to monitor the battery charge and to provide the safe voltage and current levels, as well as ensure that the temperature of the battery remains in the safe operating range.


    Cylindrical lithium-ion battery cells are generally form, like the shape of tubular standard alkaline batteries. Multiple cells are locked in a plastic case and individual cells are connected to provide the appropriate output voltage and maximize storage capacity (rated in milliampere-hours note). Form cells prismatic lithium-ion are also available, but they are much smaller and are typically used in devices such as cell phones where weight and space is a primary consideration.


    There are several things that affect the life of a laptop lithium-ion battery. Battery degradation is accelerated by heat, to store the battery in an environment fee will extend its life. Generally, manufacturers recommend storage of about 60 ° F temperature for long term storage of lithium-ion batteries. These batteries, as indicated above, do not retain a memory of partial discharge cycles, full discharge cycles are not required. In fact, a partial bicycle of the battery will help extend its life. Lithium-ion batteries have a life span limited as the older battery technologies, but this is relatively independent of their load cycles and is mainly linked to their age. A typical battery will last only 2-3 years. This is true even if the battery remains unused, so it is important to not buy a laptop replacement battery until he is ready to be placed in service.


    The author has created a Web site for laptop replacement batteries provides tips and buying advice on batteries laptop good market. An article on the ratings of laptop battery deals in milliampere-hours and voltage specifications which are two of the Chief considerations in choosing a replacement laptop battery.

     
  • greenproductsolutionpr 11:41 am on May 2, 2011 Permalink | Reply
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    Clarify the battery myths and misconceptions 

    There are a number of different stories circulating the industry of the tool on the appropriate means to maintain and optimize the tool batteries. A battery, however, is an investment important and which must be protected and expanded wherever possible. The following information is intended to clarify some of these myths can help you to better understand and obtain the best performance of your batteries.


    -Frozen batteries:
    Do not put your batteries in the freezer! Artisans often damage their batteries while trying to keep their better maintained. Keep your batteries in a dry and temperate place is the absolute best way to keep them performing at their best. Freezing will help your batteries them not, in fact, this can be very dangerous. Bring your in-door batteries when possible, it is a good way to ensure that they are in a dry and temperate environment.


    -More tension – best battery:
    This is not always true. It is also good tool and battery that the effect of the performance of your tool. More specifically, engine, transmission and other tool able to produce the elements have a considerable effect on the way in which the battery transfers energy in tools of the parties. The quality of the magnets in the engine of the tool, its gears and chuck that, in turn, energy of transfers for the tool or the blade bits are all factors contributing to the effectiveness of your tool. Essentially, all of the tool itself, your bits or blades effects how your battery may transfer of energy in your tool. Although higher voltage batteries are more powerful, it is preferable to ensure that you use the tools of high quality and accessories to achieve the highest performance and higher quality work.


    - Battery memory effect:



    Effect frombattery , or a memory of lazy battery effect occurs in Nickel-Cadmium batteries) when a battery is unable to accept a charge complete because he has been repeatedly reloaded without having completely exhausted. The effect memory word comes the sense that the battery “Memorial” how many charge was depleted and began to accept only that much energy from the charger. This failure becomes less and less frequent as battery technology continues to improve, and as it turns out, these days, it may be more detrimental to your battery to deplete its front energy storage fully supersede. This can damage the cells of the batteryof preventing (in the same way) to hold a full charge. Ultimately, your battery may begin to running on one or two cells less it purports, it decreases the power battery and the battery life. Essentially, the best time to charge your battery is when it stops running well enough to finish your job smoothly and professionally. When your battery starts to slow down notably, load.


    -All chargers are also created:
    This is far from true. In General, professional Chargers will be cut after the battery has been completely loaded. In contrast, less-efficient Chargers keep forcing current through fully charged batteries. That charge continually causes a dangerous amount of heat buildup and decrease the batterylife. In short, be has some you use a high-performance loader, battery and for precautionary purposes, remove the battery of your charger once it was fully restored.


    -Rebuilding your Batteries:
    If the batteries should be reconstructed remain a completely ambiguous subject. When a battery rebuilt, it is generally impossible to know if the maintenance party used recycled cells to refurbish your batteryto. When considering that it costs the same to reconstruct a battery as it does to buy a new, it may not be worth the risk. The best option is to buy a new, certified battery plant and take your an old to a service centre to be recycled.

     
  • greenproductsolutionpr 11:41 am on May 2, 2011 Permalink | Reply
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    Save the life of the battery with battery Desulfator DIY 

    A 12 volt car battery is a useful for any motor vehicle component. Among the uses of this car of lead-acid battery are feed light and from the engine of a vehicle. He is responsible for the ignition of the engine of the vehicle as well. The battery is used to power an electric vehicle, and with this, this device is subject to maintenance charging and regular to keep useful as a generator of electricity.


    However, when a battery remains unused for a long period without any maintenance, it urges sulfation. Sulfation is the accumulation of crystals of sulfate on the battery plates. Time ago when the battery is subject to pricing insufficient as unplugged golf carts and rarely used cars, and in these cases a large reduction occurs mainly at the batterycapacity to produce energy. Large accumulations of sulfate in a battery Crystal will make unusable – that can cost you lots of money because you end up having to buy new. However, a desulfator can clean sulphate Crystal and recharge the battery in the process. It is useful to suivre DIY desulfator battery guide instructions.


    Battery desulfator DIY circuit can transform the reverse process and revive the new battery . This will save people to buy a new battery and the environment will be safe from the needless disposal of old batteries. Desulfatorsbattery can charge and restore a dead battery. It can be conveniently constructed using simply an Altoids can and may be ready to use at any time. An Altoids can is perfect to be a housing for the sulfator circuit. A battery of desulfating can take several days. However, the result is an expectation value. While in the process of desulfating, progress can easily be checked by measuring voltage. Appropriate care must be observed to prevent the formation of the toxin.


     


     


    Prepare components



    Fit a perf-Board at the bottom of an Altoids can with double-stick tape. Join perf-Board (lower edge) an adhesive sheet of bare copper as a fieldbus. In the face of perf-Board, set the following in the shorter possible wireless connections:


    -2 switches
    -Resistance 2
    -pots 2
    -1 field-effect transistor
    -light emitting diode 1


    Paste components their respective places. Place a thin piece of cardboard with double-stick tape on the inside of the can. This will serve as insulation between circuits of battery can desulfator.


    Drill holes
    Make a hole on the side (left) the can to accommodate the wire the battery desulfator (exit). Place a rubber around the hole puck to avoid the son to have contact with the can. Drill an additional three aeration holes to the right of the box. Another hole is necessary for the LED to be exposed.


    Son of brazing
    Choose thick wire flexible to use for the desulfator of the battery . Maintain a short cable to prevent the loss of the batterycables. Welding wire connecting with a soldering iron. Pliers long nose can use to keep constant wire while welding. Son of capacitors of soldering and use the tracks (exit) and clips to establish the connection to the battery of the desulfator battery circuit.


    The battery life can really be extended with a desulfator battery . Make one using guidelines available and desulfate your batteries today.


     

     
  • greenproductsolutionpr 11:41 am on March 21, 2011 Permalink | Reply
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    Replacement of old batteries AA with efficient energy and high capacity rechargeable batteries 

    Today, our consumer electronics are larger, faster and require more power than ever. Left without power cannot only be a troublesome nuisance, but it can also be expensive. Electronic devices are known for the use of batteries and excessive power.
    Purchase of batteries each month is expensive and leaving your electronics plugged runs until your electricity bill. This can weigh heavy on your estimates. To appease these frightening costs, you can chose from sources alternatives battery , high capacity batteries, rechargeable batteries and soon be solar powered batteries.
    High-capacity batteries are the latest craze for lovers of energy saving. The new high-capacity AA battery is not only to reduce purchases expensive battery but also improve battery longevity. Many batteries have been introduced in the senior doping market milliamp hour ratings and longer battery life. The last battery on the market will extend normal life to regular Rechargeable AA, therefore allowing you to use your electronic devices for long periods of time and much more efficiently. Latest batteries are up to 2700 mAh in a high-capacity format. It is truly remarkable for batteries of this type.
    Rechargeable batteries are an another excellent substitute for emery draining batteries. Using batteries rechargeable is not only to save electricity, but it will also reduce the production of waste. A battery can be used up to 1 000 times! Imagine throwing 1,000 single use batteries or a single rechargeable battery. The answer is clear that the rechargeable batteries are a better substitute and can help save the environment. These batteries will also save you. Single-use AA battery costs generally about $1, then as an AA rechargeable battery costs $ 5. When the calculation is made, you can see that you save $ 1,000 with each AA rechargeable batteries used.
    The next generation of batteries soon to hit the market will be solar powered. This eliminates almost all waste of conventional batteries. Sunlight will soon be used to support of your consumer electronics batteries and power. The image as a battery that is reusable and can be powered and charged by sunlight.
    Essentially, there are many viable ways to power your electronic devices, even if they are high energy consumers. Currently, the best way is to use high-capacity, rechargeable batteries. In the future when the technology is perfect solar batteries and Chargers will be the most favorable way to go. Not only you will eliminate waste products from the environment, but you will have more durable battery at a lower price. What more can a consumer request in a battery?
    My Friend Brandon Leibowitz is extremely well informed on ways to save the environment, particularly through the use of rechargeable batteries. Recently launched on the market are rechargeable batteries new high capacity AA TRUCell [http://www.accessorygenie.com/aa-rechargeable-2700-mah-trucell-batteries-single-pack-4-batteries-p-6476.html].

     
  • greenproductsolutionpr 8:33 pm on March 7, 2011 Permalink | Reply
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    The interesting thing on Lithium Batteries 

    The interesting thing about batteries is that you can make one out of a potato. Or a tomato. Or even a lemon or lime. In fact, any liquid or moist object that has enough ions to be electrically conductive can serve as the electrolyte for a cell (see Wikipedia.com). Basically, you just need to insert two electrodes made of different metals into the moist object and a chemical reaction occurs when the two metals react via the moist cell, aka: potato. Cool, huh? Of course, this type of “battery” is of no real practical use except to maybe power a small clock for a very short amount of time.
    A battery is basically stored chemical energy that is converted to usable electricity when the battery terminals are connected via some material that will transfer(conduct) and allow the two metals to chemically react. Like Nickel and Cadmium in a NiCad battery. Basically, the amount of energy you get (volts) is determined by how much “chemical reaction” you will get between the two metals. It is for this reason that Lithium batteries are the “latest and greatest” thing since powdered milk.
    Lithium is a highly reactive alkali metal. Lithium will literally react if left out in open, moist air. Combining with the hydrogen in the water molecules in the air it will turn from a whitish metal to a black tarnish before your very eyes. That is why when lithium is stored in it’s pure state, in is stored under oil to keep it from reacting. Lithium is also highly flammable, so if it is already burning, throwing water on it will only make it burn more. Lithium metal needs to be doused with special chemicals to put out the flames. Lithium is also the lightest weight metal (number 3 on the Periodic Table of elements). Those two features, light weight and lots of potential energy, make Lithium a great metal to use in a battery.
    Lithium’s highly reactive feature is also a downside in the battery making industry. Lithium batteries in computers have “ignited” because of their high reactivity. Dell Computers recently had a massive laptop battery recall (this very computer I am typing on was affected). Lithium batteries give off a lot of heat and have been known to self-combust. The recall cost the industry megabucks but Lithium’s advantages far outweigh it’s disadvantages and Lithium cell technology is advancing at a rapid pace. “In an interview with BusinessWeek on Feb. 16, Chief Executive Katsuaki Watanabe confirmed that Toyota’s third-generation hybrid cars, due out in late 2008 or early 2009, will use lithium-ion batteries. Lighter and more powerful than the current nickel metal hydride packs, the new batteries will help make for more fuel-efficient hybrids. … “We can develop the battery in time,” he says. … “We are now aiming at reducing, by half, both size and cost of the third-generation hybrid system,” says Watanabe.”
    For most people using batteries, the life of the battery is the most important aspect. How long will it last before I have to recharge/replace it? Basically, disposable batteries, lose from 10-20 percent of their original charge every year, more if stored at extremely high temperatures (battery life can be extended by storing them in a cool place). So the batteries that you buy at the Dollar Store will not necessarily last that long; always check the manufacturers date on the batteries that you are looking to purchase.
    Rechargeable batteries self-discharge more rapidly than disposable batteries – up to three percent per day. This rate can decrease in extreme temperatures so keep this in mind if you store your rechargeable, battery-operated power tools/flashlights in your garage. Rechargeable batteries also degrade through use. Low capacity Nickel Metal Hydride(NiMH) and Nickel Cadmium(NiCad) rechargeable batteries for example can be charged for approximately 1000 cycles before pooping out on you. Typically a longer, slower charge (overnight) will result in a longer battery lifespan.
    There is also what’s called the “memory effect” with regards to batteries. Memory effect happens in NiCad and NiMH batteries when crystals build up on the electrodes and decrease the active surface area that gets charged (wikipedia.com) . This happens when batteries do not get fully discharged before they are recharged. NiCad batteries should always be fully discharged before they are recharged because they suffer more from “memory effect” than NiMH so. The advantage of using Lithium Ion batteries is that like a young dog, they do not have a “memory effect”. Charge them whenever you want and they will always be fully charged, ready to run.
    To summarize the three most commonly used Power Tool Batteries in order of performance:
    3. NiMH:

    -performs the worst in cold temperatures

    -has the shortest run time

    -highest self-discharge level

    -lighter in weight than NiCad

    2. NiCad:

    -performs in cold temperatures to 20F

     

    -lower self-discharge rate than NiMH

     

    -has a lower self-discharge level than NiMH

     

    -heavier in weight

     

    -suffer the worst from “memory effect” if not fully discharged before charging.

    1. Lithium Ion: -lightest in weight

    -perform well in temperatures as low as zero degrees Farenheit

     

    -have the highest amount of life cycles

     

    -lowest self-discharge rate

     

    -have a more rapid charge time

     

    -do not suffer from the dreaded “memory effect”

     

    **BUT: permanent damage can occur to LiIon batteries if stored at too-low discharge level, so be careful and keep these charged well. Also, They start degrading as soon as they leave the factory. Be sure to check the manufacturers date on the batteries before you purchase.

    ::PLEASE RECYCLE YOUR BATTERIES::

    “Since their development over 250 years ago, [[batteries]] have remained among the most expensive energy sources, and their manufacturing consumes many valuable resources and often involves hazardous chemicals. For this reason most areas now have battery recycling services available to recover some of the more toxic (and sometimes valuable) materials from used batteries. Batteries may be harmful or fatal if swallowed. It is also important to prevent dangerous elements found in some batteries, such as ead, mercury, cadmium, from entering the environment.” – wikipedia.com

     
  • greenproductsolutionpr 8:20 pm on March 7, 2011 Permalink | Reply
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    New batteries? “Fresh” How are they? How old is the Stock of the battery? They will work? 

    Your Battery Look Like this? Off Course not but soon will be.


    My Question is ?


    You buy a new battery? If so, you might be inclined to ask about the age of the inventory of your provider of choice battery battery! In this regard is the age of the battery really matter?


    It is a good question to ask. A battery is a consumable product. Think about your favourite restaurant? Would you eat it if you knew that your salad of choice had ingredients which were 6 months old? Probably not! But with the batteries is such a thing as an old battery? The answer is Yes!


    You see batteries as a consumable have a life which means that a battery will last only a certain period of time until it was unusable. Now I am not on the decline of battery capacity. The decline in capacity is a natural process for the use of battery capacity decline after starting battery will degrade at the non-applicability. Technically speaking of capacity, it is when the amount of charge a battery can hold gradually decreases due to the use, aging and with some chemistry, lack of maintenance. PDA batteries, for example, are specified to provide approximately 100% capacity at the new, but after use and aging and lack of capacity of a battery conditioning pda will drop. This is normal. If you use a pda battery (or any battery lithium-ion or lithium-polymer) when the capacity of your battery reaches 60% to 70%, pda battery must be replaced. The standard practices of the industry will be guaranteed a greater than 80% battery. Less than 80% means that you have used the practical life of a battery. Thus, the threshold by which a battery can be returned under warranty is generally 80%.


    But when I talk about the lifetime of a battery that I take the floor entirely with a battery that is new. Let me be very clear and that a new battery is and is not set! This is not a new battery: battery which has been accused, connected to a device, was open or chemically activated in any way. Now be very careful with any event you can have when a battery could still be considered same new connected to a device, was open or chemically activated in no way after he was charged. Why?


    Inside of the battery itself, is a chemical reaction that produces electrons. The chemical reaction is designed for a single purpose: create a flow of electrons (i.e. electricity) by which the device is powered. The flow of electrons is measured (or moves at a speed) in amperes, where 1 ampere is the flux of electrons per second 62,000,000,000,000,000,000! Therefore once the chemical is enabled and the flow of electrons occurs, even for a second, the loss of power and battery degradation begins and there is no case. Once the battery degradation begins a battery is seen as its natural life and used to deplete in a matter of time.


    Now a new battery (a battery that has never accused, connected to a device, was opened or activated chemically in no way can have a lifetime of 36 months (under certain conditions).) My personal preference is to never buy a new battery who was sitting on the shelf more of 18 months. But once again, is simply a personal preference. Batteries which are left in extreme temperature will not long last and may degrade in a few weeks or less if the weather is really extreme. New batteries that are aged less than twelve months are your best choice because they represent your battery type “freshness”.


    Dan Hagopian
    You have permission to publish this article via electronic or print, free of charge, as long as the bylines are included in the link. Dan http://www.batteryship.com Hagopian is an electronic known author who specializes in portable power gadgets. His work found on the BatteryShip blog at http://www.batteryeducation.com , he wrote frequently on pda batteries, batteries ipod battery technology General for our mobile world, new fuel cell technology and power interesting related inventions. For more information please visit http://www.batteryship.com where you will also find battery replacement kits, smartphone batteries, twoway radio battery, battery bar code scanner, camera batteries and batteries camcorder.

     
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