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Bring electric cars to the masses:battery technology

CloudTags: battery , battery technology , laptops,laptop batteries , electric cars,

400whkg battery pic 2 img 1028 Bring electric cars to the masses:battery technologyA startup working on battery technology says it’s developed a key breakthrough that could one day lead to an electric car that has a 300-mile range and could cost around $25,000 to $30,000. Envia Systems, backed by venture capitalists, General Motors, and the Department of Energy, plans to announce on Monday at the ARPA-E conference that the company has created a lithium ion battery that has an energy density of 400 watt-hours per kilogram, which Envia CEO Atul Kapadia told me in an interview could be the tipping point for bringing electric cars to mainstream car owner.

The secret sauce

Energy density is how much energy a battery can store and provide for the car with a given battery size — the more energy dense the battery, the less volume and weight is needed. For electric cars it is particularly important to have a high energy dense battery because electric cars need to be as light weight as possible (any extra weight just drains the battery faster), and batteries that are smaller and use less materials can also be lower in cost.

img 1132 anode powder cropped2 Bring electric cars to the masses:battery technologyKapadia tells me that current lithium ion batteries deliver an energy density of around 100 to 150 watt-hours per kilogram, while Envia’s battery can deliver 2.5 times that energy with about the same weight as the current electric cars that have hit the market. To build a 300-mile range electric car with standard lithium ion batteries, it would cost around $40,000 just for the batteries alone, says Kapadia.

Envia says with an energy density of 400 watt-hours per kilogram, its battery cell costs could be at $125 per kWh. Tesla CEO Elon Musk has said recently that he sees battery cells dropping in price to below $200 per kWh in the coming years. Current electric cars like the Volt have been reported to be closer to $500 to $600 per kWh, and the Nissan LEAF at $375 per kWh.

anode sem modified file06 Bring electric cars to the masses:battery technologyEnvia, founded in 2007 in the Palo Alto public library, began its business by developing technology for a low-cost cathode. A battery is made up of an anode on one side and a cathode on the other, with an electrolyte in between. For a lithium ion battery, lithium ions travel from the anode to the cathode through the electrolyte, creating a chemical reaction that allows electrons to be harvested along the way. After Envia developed its cathode technology, it started working on a silicon carbon anode, and then paired these two innovations together, with a high-voltage electroloyte.

Kapadia says the innovation is also important because many scientists have thought that the lithium ion battery had certain limits on how efficient and cheap it could get: “The rumors of the demise of lithium ion batteries are greatly exaggerated.”

Kapadia also says: “Gone are the days of relying on ancient consumer batteries for automobiles and stifling this revolution by making expensive electric cars.” And in case you didn’t get this reference, Tesla Motors uses small format standard lithium ion batteries like the ones found in laptops for its cars.

Getting the battery into cars

dsc010461 Bring electric cars to the masses:battery technologyCharging up the Volt
Envia is announcing at the ARPA-E conference that it has reached this 400 watt-hours per kilogram milestone in tests, but the company is still in the prototype stage, and an Envia battery will probably take about three years to move into the commercial auto market. Envia plans to work with battery and auto partners, potentially licensing or creating joint ventures to get the batteries manufactured. Kapadia tells me that Envia plans to avoid the capital intensive model of trying to be a startup that does all its own manufacturing.

General Motors is one of Envia’s high profile investors, and invested $7 million into Envia about a year ago. GM has said that Envia will provide battery technology for future generations of GM’s Volt electric car. Other investors in Envia include Japanese giant Asahi Kasei, Pangaea Ventures, and Redpoint Ventures.

Envia received a $4 million grant from the DOE’s ARPA-E program to attempt to hit the 400 watt-hour per kilogram milestone. Expect Envia to be touted throughout the ARPA-E event, as proof that its program is working to develop green innovation in the U.S.

 

Choosing Replacement Laptop Batteries Tips And Batteries Types

Choosing Replacement Laptop Batteries Tips And Batteries Types

CloudTags: Replacement Laptop Batteries , Tips , Batteries Types ,  batteries life , 484170-001 battery , Acer as07b41 , Sony vgp-bps2c batteries

Laptop batteries life is the major concern of laptop users. If the laptop batteries fail to work, users usually choose to buy a new one. And how to choose a right battery should also be taken into consideration. And this article is about the laptop battery types, maintenance tips and how to choose a battery replacement.

Tips Extend Your Laptop’s Battery Life Choosing Replacement Laptop Batteries Tips And Batteries TypesLiON batteries are now used in most new laptops. Unlike the NiMH battery, LiON laptop batteries have no memory effect. LiON batteries are also lighter than both NiCd and NiMH notebook batteries. Both of these advantages equal out to the Lithium Ion battery being the most popular and most expensive among the various notebook power sources.

Taking good care of your laptop battery is really important as you would love to have your laptop in working condition always. Most people use laptops these days at offices, hospitals, schools and colleges, etc. For all these people, it is really important to protect their documents and files that are stored on laptops. Only by protecting the batteries and taking good care of it; they can make sure all is well with their files and documents. Given below are some useful that will help you take good care of your laptop battery.

You can experience battery problems if you allow your battery to completely discharge outside the laptop. You should check the battery while it in storage so it will not be allowed to completely discharge. This could also prevent the laptop from accepting the battery when you place it back into the computer.

One thing you should consider when you choose a laptop battery is the reputability of the laptop batteries. There’re many laptop manufacturers on the market. If your budget is not so tight, then the best choice would be a battery made by the manufacturer of your laptop. But those batteries would be much more expensive than the average price in the market. Dell, for example, has been known to charge four times more than ones you can get elsewhere. Therefore, if you don’t want to pay the high premium price, you can get one from a different manufacturer.

Battery chargers of different compositions should never be used for your laptop. Different brands of chargers have connection ports and voltage settings of multiple types and may not necessarily suit your device. This could in turn affect the laptop battery. It is better to use the factory developed charger that was supplied to you along with the laptop. There’s one more thing you should be noted: be careful with the used or refurbished batteries. Because refurbished batteries do not hold as much power when compared to new batteries. Also, they can kick the bucket on you randomly since you really do not know how old the battery is.

 

laptop battery problems Choosing Replacement Laptop Batteries Tips And Batteries TypesBattery life is one of the most important things to consider in any electronic device. Laptops use a lot of power, so the quality of laptop batteries affects how long you can use your computer and how many programs you can run. If your laptop battery isn’t lasting as long as it used to or you find yourself charging more often, it may be time to replace it. Here are some tips for finding quality, compatible laptop batteries as a replacement.

Choosing Laptop Batteries:

  1.  Battery capacity: Laptop batteries will typically list their capacities in milliamp hours (mAh). A higher mAh rating means the battery will take longer to drain, giving your laptop a longer charge. Typically, laptop batteries will have 5000 mAh or more.
  2. Compare your old battery: When comparing new laptop batteries, it will be useful to look at the specifications of your old battery. Laptop batteries drain at different rates, depending on how many programs you are running and what type of components your computer uses. Compare the mAh rating of your old battery to new ones you look at. If you want the same battery life or better from your new laptop battery, make sure it’s rated at least as high as the old one.
  3. Battery materials: Lithium-ion is a fairly standard material for laptop batteries and other electronics. Lithium-ion has a good power-to-weight ratio and has no memory effect like some other battery materials.
  4. Prolonging battery life: It’s better not to store lithium-ion laptop batteries when they are completely dead. Plug your laptop in soon after the battery dies, or don’t let it die at all. Laptop batteries deteriorate faster when used at high temperatures, also. Using your laptop with computer accessories, like a lap desk with a cooling fan, can help prolong battery life.

 

How To Prolong Lithium-Based Batteries Life

How To Prolong Lithium-Based Batteries Life

CloudTags: Prolong , Lithium-based , Batteries life , laptop battery , Hp 510 battery life , Sony vgp-bps5 batteries

What Causes Lithium-ion to Age?

The lithium-ion battery works on ion movement between the positive and negative electrodes. In theory, such a mechanism should work forever, but shelf life, cycling and temperature affect the performance. Because batteries are used under many demanding environmental conditions, manufacturers take a conservative approach and specify a battery life between 300 and 500 discharge/charge cycles. Life cycle testing is easy to measure and is well understood by the user. Some organizations also add a date stamp of three to five years; however, this method is less reliable because it does not include the type of use.

Figure 1 illustrates the capacity drop of 11 Li-polymer batteries that have been cycled at a Cadex laboratory. The 1500mAh pouch cells were first charged to 4.20V/cell at 1C rate (1500mA) and allowed to saturate to 0.05C (75mA) as part of full charge procedure. The batteries were then discharged at 1500mA to 3.0V/cell, and the cycle was repeated.

lith12 How To Prolong Lithium Based Batteries Life

Figure 1: Capacity drop as part of cycling. A pool of new 1500mA Li-ionbatteries for smart phone istested on a Cadex C7400 battery analyzer. All 11 pouch packs show a starting capacity of 88–94 percent and decrease in capacity to 73–84 percent after 250 full discharge cycles (2010).

Courtesy of Cadex

Designed for a smart phone, the packs were already a few months old at time of testing and none of the batteries made it to 100 percent. It is common to see lower than specified capacities and shelf life may have contributed to this. Manufacturers tend to overrate their batteries; they know that very few customers would complain. In our test, the expected capacity loss was uniform over the 250 cycles. All sample batteries performed as expected.

Similar to a mechanical device that wears out faster with heavy use, so also does the depth of discharge (DoD) determine the cycle count. The smaller the depth of discharge, the longer the battery will last. If at all possible, avoid frequent full discharges and charge more often between uses. If full discharges cannot be avoided, try utilizing a larger battery. Partial discharge on Li-ion is fine; there is no memory and the battery does not need periodic full discharge cycles other than to calibrate the fuel gauge on a smart battery.

Table 2 compares the number of discharge/charge cycles a battery can deliver at various DoD levels before lithium-ion is worn out. We assume end of life when the battery capacity drops to 70 percent. This is an arbitrary threshold that is application based.

Depth of discharge

Discharge cycles

 Table 2: Cycle life and depth of dischargeA partial discharge reduces stress and prolongs battery life. Elevated temperature and high currents also affect cycle life.

100% DoD

50% DoD

25% DoD

10% DoD

500

1500

2500

4700

Elevated temperature is anything that dwells above 30°C (86°F), and a high voltage is higher than 4.10V/cell. When estimating longevity, these conditions are difficult to assess because the battery state is in constant flux, and so is the temperature in which it operates. Exposing the battery to high temperature and being at full state-of-charge for an extended time can be more damaging than cycling. Manufacturers do not like to talk about these environmental conditions and release information only in confidence when so requested.Specifying battery life by the number of discharge cycles is not complete by itself; equally if not more important are temperature conditions and charging voltages. Lithium-ion suffers stress when exposed to heat and kept at a high charge voltage.

In this essay we do not depend on the manufacturer’s specifications alone but also listen to the comments of users. BatteryUniversity.com is an excellent sounding board to connect with the public and learn about reality. This approach might be unscientific, but it is genuine. When the critical mass speaks, the manufacturers listen. The voice of the multitude is in some ways stronger than laboratory tests performed in sheltered environments.

Let’s look at real-life situations and examine what stress a lithium-ion battery encounters. Most packs last three to five years, less if exposed to high heat and if kept at a full charge. Table 3 illustrates capacity loss as a function of temperature and state-of-charge. One can clearly see a performance drop of recoverable capacity caused by environmental conditions and not cycling. The worst condition is keeping a fully charged battery at elevated temperatures, which is the case when running a laptop on the power grid. Under these circumstances the battery will typically last for about two years, whether cycled or not. The pack does not die suddenly but will produce decreasing runtimes as part of aging.

Battery Temperature

Permanent capacity loss when
stored at 40% state-of-charge
(recommended storage charge level)

Permanent capacity loss when
stored at 100% state-of-charge
(typical user charge level)

0°C

25°C

40°C

60°C

2% loss in 1 year; 98% remaining

4% loss in 1 year; 96% remaining

15% loss in 1 year; 85% remaining

25% loss in 1 year 75%; remaining

6% loss in 1 year; 94% remaining

20% loss in 1 year; 80% remaining

35% loss in 1 year; 65% remaining

      40% loss in 3 months

Equally stressful is leaving a battery in a hot car, especially if exposed to the sun. When not in use, store the battery in a cool place. For long-term storage, manufacturers recommend a 40 percent charge. This allows for some self-discharge while still retaining sufficient charge to keep the protection circuit active. Finding the ideal state-of-charge is not easy; this would require a discharge unit with an appropriate cut-off. Users should not worry too much about the state-of-charge; a cool and dry place is more important.

Table 3: Permanent capacity loss of lithium‑ion as a function of temperature and charge level. High charge levels and elevated temperatures hasten permanent capacity loss. Newer designs may show improved results.
Batteries are also exposed to elevated temperature when charging with wireless chargers. The energy transfer from a charging mat to the portable device is 70 to 80 percent and the remaining 20 to 30 percent is lost mostly in heat. Placing a cellular phone on the heat generating charging mat stresses the battery more than if charged on a designated charger. We keep in mind that the mat will cool down once the battery is fully charged. Read more: Charging without wires.

The voltage level to which the cells are charged also plays a role in extending longevity. For safety reasons, most lithium-ion cannot exceed 4.20V/cell. While a higher voltage would boost capacity, over-voltage shortens service life. Figure 4 demonstrates the increased capacity but shorter cycle life if Li-ion were allowed to exceed the 4.20V/cell limit. At 4.35V, the capacity would increase by 10 to 15 percent, but the cycle count would be cut in half. More critical than the extra capacity is reduced safety, which would be the results of a higher charge voltage.

lith2 How To Prolong Lithium Based Batteries Life  Figure 4: Effects on cycle life at elevated charge voltagesHigher charge voltages boost capacity but lower cycle life and compromise safety.

Chargers for cellular phones, laptops and digital cameras bring the Li-ion battery to 4.20V/cell. This allows maximum runtime, and the consumer wants nothing less than optimal use of the battery capacity. The industry, on the other hand, is more concerned with longevity and prefers lower voltage thresholds. Satellites and electric vehicles are examples where longevity is important.

We have limited information by how much lower charge voltages prolong battery life; this depends on many conditions, as we have learned. What we do know, however, is the capacities. At a charge to 4.10V/cell, the battery holds a capacity that is about 10 percent less than going all the way to 4.20V/cell. In terms of optimal longevity, a charge voltage limit of 3.92V/cell works best but the capacity would be low. Besides selecting the best-suited voltage thresholds, it is also important that the battery does not stay in the high-voltage stage for a long time and is allowed to drop after full charge has been reached.

The voltage threshold of commercial chargers cannot be changed, and making it adjustable would have advantages, especially for laptops as a means of prolonging battery life. When running on extended AC mode, the user would select the “long life” mode and the battery would charge to only, say, 4.05V/cell. This would get a capacity of about 80 percent. Before traveling the user would apply the “full charge mode” to bring the charge to 4.20V/cell. This saturation charge would take about an hour and would fill the battery to 100 percent capacity.

Realizing the stress on the battery, some laptop and cellular phone manufacturers choose an end-of-charge voltage that is less than 4.20V/cell. A slightly larger pack compensates for the reduced runtime. Another option to extend battery life is removing the pack from the laptop when running on the power grid. The Consumer Product Safety Commissionadvises the public to do this out of concern for overheating and causing a fire. Removing the battery has the disadvantage of losing unsaved work on power failure.

Heat buildup is always a concern and running a laptop in bed or on a pillow may contribute to this by restricting airflow. Not only will heat stress electronic components, elevated temperature causes the electrodes in the battery to react with the electrolyte and this will permanently lower the capacity. Placing a ruler or other object under the laptop to increase floor clearance improves air circulation around the enclosure and keeps the unit cooler.

The question is often asked: Should I disconnect my laptop from the power grid when not in use? Under normal circumstances this should not be necessary because once the lithium-ion battery is full, a correctly functioning charger will discontinue the charge and will only engage when the battery voltage drops to a low level. Most users do not remove the AC power, and I like to believe that this practice is safe.

Everyone wants to keep the battery as long as possible and use it in a way that is least stressful. This is not always feasible. Sometimes we need to run the battery in environments that are not conducive to optimal service life. As a doctor cannot predict how long a person will live based on diet and activity alone, so also does the life of a battery vary, and it can always be cut short by an unexpected failure. Batteries and humans share the same volatility.

To get a better understanding of what causes irreversible capacity loss in Li-ion batteries, several research laboratories* are performing forensic tests. Scientist dissected failed batteries to find suspected problem areas on the electrodes. Examining an unrolled 1.5-meter-long strip (5 feet) of metal tape coated with oxide reveals that the finely structured nanomaterials have coarsened. Further studies revealed that the lithium ions responsible to shuttle electric charge between the electrodes had diminished on the cathode and had permanently settled on the anode. This results in the cathode having a lower lithium concentration than a new example, a phenomenon that is irreversible. Knowing the reason for such capacity loss might enable battery manufacturers to produce future batteries with longer life spans.

Power loss through Protection Circuit

Besides common aging, a Li-ion battery can also fail because of undercharge. This occurs if a Li-ion pack is stored in a discharged condition. Self-discharge gradually lowers the voltage of the already discharged battery and the protection circuit cuts off between 2.20 and 2.90V/cell. Some chargers and battery analyzers (including those from Cadex) provide a wake-up feature, or “boost,” to re-energize and recharge these seemingly dead Li-ion batteries.

 

Update New Tips Increase Your Laptop’s Battery Life

Update New Tips Increase Your Laptop’s Battery Life 

CloudTags: Tips , Increase , Laptop Battery , Batteries Life , hp 484170-001 batteries , Hp pavilion dv4 laptop battery , Hp 6735s batteries

Laptops look after to lose their charm quickly as you’re constantly looking pro the next-door power outlet to charge up.  How sort out you keep your battery vacant pro as long as doable?  Here are 15 straightforward ways to sort out so. 

149 600x400.iStock 000004023220Small 300x200 Update New Tips Increase Your Laptop’s Battery Life 1. Defrag evenly –  The nearer your tricky drive does its bring about – a reduced amount of demand you are vacant to deposit on the tricky drive and your battery.  Make your tricky drive as efficient as doable by defragging it evenly. (but not while it’s on battery of way!) Mac OSX is better built to soubriquet disintegration so it could not be very applicable pro Apple systems. 

2. Dim your screen – Most laptops occur with the skill to dim your laptop screen.  Some even occur with ways to adjust CPU and cooling performance.  Cut them down to the lowest level you give tolerate to squeeze made known approximately superfluous battery juice. 

3. Cut down on programs running in the background.  Itunes, Desktop Search, and that.  All these add to the CPU load and graze down battery life.  Shut down all with the intention of isn’t crucial as you’re on battery. 

4. Cut down external devices – USB devices (including your mouse) & WiFi drain down your laptop battery.  Remove or push to them down as not in aid.  It goes lacking adage with the intention of charging other devices (like your iPod) with your laptop as on battery is a surefire way of quickly wiping made known the charge on your laptop battery. 

5. Add more RAM – This will allow you to process more with the reminiscence your laptop has, very than relying on virtual reminiscence.  Virtual reminiscence results in tricky drive aid, and is much a reduced amount of power efficient. Note with the intention of count more RAM will consume more energy, so this is generally applicable if you sort out need to run reminiscence intensive programs which in fact require gray treatment of virtual reminiscence. 

6. Run rancid a hard drive very than CD/DVD - equally power consuming as tricky gives are, compact disk and DVD gives are worse.  Even having lone in the drive give be power consuming.  They spin, taking power, even as they?About not actively being used.  Wherever doable, try to run on virtual gives using programs like Alcohol 120% very than optical ones. 

7.  Keep the battery contacts clean:  Clean your battery’s metal contacts each link of months with a cloth moistened with roughness alcohol.  This keeps the conveying of power from your battery more efficient. 

Tips Extend Your Laptop’s Battery Life 300x225 Update New Tips Increase Your Laptop’s Battery Life 8. Take trouble of your battery – Exercise the Battery.  Do not leave a charged battery quiescent pro long periods of calculate.  Once charged, you must by smallest amount aid the battery by smallest amount some time ago each two to three weeks. Also, sort out not consent to a Li-On battery completely discharge. (Discharing is single pro grown-up batteries with reminiscence effects) 

9. Hibernate not defend – Although introduction a laptop in defend mode saves approximately power and you give instantly resume everywhere you missing rancid, it doesn’t save anywhere as much power as the hibernate function does.  Hibernating a PC will in fact save your PC’s state as it is, and completely push to itself down. 

10. Keep operating warmth down – Your laptop operates more efficiently as it’s cooler.  Clean made known your air vents with a cloth or upright cleaner, or refer to approximately superfluous tips. 

11. Set up and optimize your power options – Go to ‘Power Options’ in your windows control panel and fit it up so with the intention of power treatment is optimized. 

12. Don’t multitask – Do lone business by a calculate as you’re on battery.  Rather than working on a database, let your email client run in the background and listening to your newest fit of MP3′s, fit your mind to lone business single.  If you don’t you’ll single drain made known your 484170-001 batteries previous to whatever thing gets concluded! 

13. Go straightforward on the PC hassle – The more you demand from your PC.  Passive activities like email and word dispensation consume much a reduced amount of power than gaming or before a live audience a DVD.  If you’ve got a single battery charge – pick your priorities wisely. 

14. Get physically a more efficient laptop -  Laptops are getting more and more efficient in nature to the top everywhere approximately manufacturers are discussion in this area all time long batteries.  Picking up a newer more efficient laptop to exchange an aging lone is ordinarily a quick manipulate. 

15. Prevent the Memory Effect – If you’re using a very old laptop, you’ll aspire to prevent the ‘memory effect’ – Keep the battery healthy by fully charging and at that time fully discharging it by smallest amount some time ago each two to three weeks. Exceptions to the imperative are Li-Ion batteries (which generally laptops have) which sort out not suffer from the reminiscence effect.