Notebook battery review

Dell XPS M1330 battery specs

Worries about running out of battery power? Power your DELL XPS M1330 with this 9-Cell Lithium-Ion Primary Battery from Dell. With a capacity of up to 85 WHr, the battery lets you work seamlessly when you are on the move for business trips or vacations. This battery provides uninterrupted reliable performance you need to get the most out of your system. This product has been tested and validated on Dell systems. It is supported by Dell Technical Support when used with a Dell system.

This product comes with 1 year limited warranty. For more information about laptop battery warranties, please click here: www.dell.com/warranty.

Device Type : laptop battery

Battery Enclosure Type: Internal

Technology : 9-cell lithium ion

Capacity : 85 Wh

Feartures :

85 WHr capacity lets you work seamlessly while on the move

Offers reliable power for dependable performance

Dell Part# : 312-0567

Work with : XPS M1330 battery

Customer Review

I have just ordered a replacement battery 14 months after getting the xps. This is Dell’s last chance. If this one quit after a year, it will be the last Dell I buy. If I am going to spend a few hundred each year, then I’ll just buy a cheaper laptop & replace it when it inevitably becomes obsolete.

The battery recharged quickly and lasted up to 5 hours, and then BOTH of the new XPS M1530 battery began to loose the ability to charge after about 12-14 months. They were purchased and used in like. This seems a very poor life span for several hundred dollars.

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How to Test  Laptop battery Charger

Laptop computers are one of the many items that we use that depends on a rechargeable laptop battery to keep it up and running. When your laptop fails to stay charged or to charge at all, it is time to troubleshoot the issue on your own before paying a professional. First test the charger to make sure that it is working properly.

You can test your laptop battery charger follow the below steps

Be sure that the charger is plugged into a working outlet and getting power.

Try to run the laptop from the laptop charger only; if it will not run off the charger alone then the charger is faulty or no longer any good to power the Sony VGP-BPS9. In some cases your laptop will run off the charger, but the charger will not be strong enough to charge the laptop. In this case you have a faulty charger.

Try charging your laptop with the laptop powered off. Sometimes the charger will charge the laptop when it is powered completely off, but not when it is on. If it only charges the Toshiba laptop battery when the laptop is off, then you have a faulty charger.

Check the Sony VGP-BPS8 for corrosion and/or leakage. If there is a sign of either corrosion or leakage you will need to stop attempting to use the battery pack and replace it immediately.

Test your charger with a voltmeter. If it is an AC charger of MacBook Pro 13 inch Battery,, set a voltmeter to 25 VAC. Make the contacts and probes touch, and look for a reading. If there is not a reading on the meter, the charger is not any good. For DC chargers, set a voltmeter to 25 VDC and make the contacts and probes touch. The meter should read at least 1V more than the chargers rating. If it does not, the probes need to be switched.

15 inch MacBook Pro Battery Tests:

AnandTech takes a look at the new MacBook Pro battery s released at WWDC last week and focuses on the new non-removable battery design. Apple first introduced the non-removable battery into the 17″ Unibody MacBook Pro last fall with mixed reactions from the community. Apple’s reasoning behind making the battery custom and non-removable has been the ability to incorporate a larger battery that will provide even longer battery life. They’ve also argued that most laptop owners do not carry spare batteries.

Anandtech does a good job exploring the technology behind the design:

Apple did some clever work on its own here. Standard lithium ion batteries are made up of cylindrical cells, similar to AA Laptop battery . The problem with these batteries is that they waste a lot of space within a notebook (try cramming a lot of cylinders into a box, you end up with wasted space). This wasted space translates into larger batteries than are necessary, which makes for larger notebooks.

They found the 15″ MacBook Pro battery got an additional 46% of battery capacity with no additional weight. Improvements were dramatic in their benchmark testing:

The new 15″ MacBook Pro battery clocked in at over 8 hours in their light load benchmark. The findings did carry over proportionately in their more intensive tests compared to the older models. Andandtech concludes with a very positive impression of Apple’s latest revision:

Ever since I first looked at the power consumption specs of Nehalem I thought it didn’t make any sense to buy a new, expensive notebook before Arrandale’s launch in Q4 2009/Q1 2010. While performance will definitely increase considerably with Arrandale, Apple just threw a huge wrench in my recommendation. The new MacBook Pro battery is near perfect today. If you need a new laptop now, thanks to its incredible battery life, I have no qualms recommending the new MBP.

Battery4.us: Great battery online shop in US

Last Friday, my dell 1520 battery died after used for 1 year (just 15days after its dell quality warranty). So I do not think I should pay 150$ for a New dell original 1 year warranty battery. I phoned to dell customer service that if they can recall the battery and repair the battery for me, but they say it will cost me 60-70 $. Oh I think it is worse than buying a new battery. But the 150$ is too expensive.

So I tried to search Dell 1520 battery replacement US in Google, and then I found a online shop specially for US www.battery4.us, I easily search the dell 1520 battery there, and after view its policy and shipping site, I found that it is a international battery factory and battery online shop, It also has its partner in German UK and CA. It owned a battery factory in Hongkong and produce the battery pack for many Electronic Company.

Then I sent a email to its customer service about the shipping time price and discount. They replied me after 5 minutes and reduce my battery shipping fee as the light battery weight and they use usps to ship the packpage. So I order the New Dell 1530 battery (1 year warranty and 30 days money back) just $68.71 and I received it 7days later, the new battery pack can last 3 hours. In all it is a satisfactory shopping in www.batetry4.us .

The online shop is a battery supermarket for la ptop battery, camera battery and battery grip. And they store most popular laptop battery as Acer, Apple, Dell, Compaq, HP, IBM, Sony Toshiba and so on. Their battery factory supply the all the newest laptop battery, camera battery and battery Grip, then let me list the popular battery model and codes for you, then you can find the suitable battery there.

Apple Laptop Battery
IBOOK G4 battery IBOOK G4 12-inch battery IBOOK G4 14-inch battery MacBook Pro battery MacBook Pro 13 battery MacBook Pro 15 battery MacBook Pro 17 battery PowerBook G4 battery PowerBook G4 12 battery PowerBook G4 17 battery PowerBook G4 15 battery PowerBook G4 15 battery

Dell Laptop battery :
Inspiron 1300 battery Inspiron 1420 battery Inspiron 1501 battery Inspiron 1520 battery inspiron 1525 battery Inspiron 6000 battery Inspiron 630m battery Inspiron 6400 battery Inspiron 9200 battery Inspiron 9300 battery Inspiron 9400 battery Inspiron E1505 battery Inspiron E1705 battery Inspiron Mini 9 (8.9 series) Latitude D410 battery Latitude D420 battery Latitude D430 battery Latitude D500 battery Latitude D510 battery Latitude D520 battery Latitude D600 battery Latitude D610 battery Latitude D620 battery Latitude D630 battery Latitude D800 battery Latitude D810 battery Latitude D820 battery Latitude D830 battery XPS M1210 battery XPS M1330 battery XPS M1530 battery XPS M1730 battery

HP & Compaq battery
HP 510 battery HP 530 battery Mini 1000 battery 2133 Mini-Note PC battery OmniBook XE3 battery Pavilion DV4 battery Pavilion DV5t battery Pavilion DV6 battery Pavilion DV1000 battery Pavilion DV2000 battery Pavilion DV4000 battery Pavilion DV6000 battery Pavilion DV8000 battery Pavilion DV9000 battery Pavilion ZV5000 battery Pavilion ZV6000 battery EVO N400C battery EVO N800 battery Presario 1200 battery Presario CQ45 battery Presario M2000 battery Presario R3000 battery Presario V2000 battery Presario V3000 battery

IBM & Lenovo
Thinkpad A20 battery Thinkpad R32 battery Thinkpad R40 battery Thinkpad R50 battery ThinkPad R60 battery ThinkPad R60e battery Thinkpad T20 battery Thinkpad T30 battery Thinkpad T40 battery Thinkpad T42 battery ThinkPad T60 battery ThinkPad T60p battery ThinkPad X60 battery ThinkPad X60 battery ThinkPad X60s battery ThinkPad Z60t battery Thinkpad R61 battery Thinkpad R61e battery Thinkpad T61 battery ThinkPad T61p battery ThinkPad X61 battery ThinkPad X61 Tablet ThinkPad X61s battery

Sony Laptop battery
Sony PCGA-BP1N Sony PCGA-BP2E Sony PCGA-BP2EA Sony PCGA-BP2S Sony PCGA-BP2V Sony PCGA-BP4V Sony PCGA-BP51 Sony PCGA-BP71 Sony PCGA-BP71A Sony VGP-BPL2 Sony VGP-BPS2 Sony VGP-BPS3 Sony VGP-BPS4 Sony VGP-BPS5 Sony VGP-BPS5A Sony VGP-BPS9 Vaio PCG-Z505 battery Vaio VGN-FS battery Vaio VGN-FT battery Vaio VGN-SZ battery

Toshiba Laptop battery
Toshiba PA2487UR Toshiba PA3107U-1BRS Toshiba PA3191U-1BRS Toshiba PA3383U-1BRS Toshiba PA3284U-1BRS Toshiba PA3285U-1BAS Toshiba PA3331U-1BRS Toshiba PA3356U-1BRS Toshiba PA3383U-1BRS Toshiba PA3384U-1BAS Toshiba PA3395U-1BRS Toshiba PA3399U-1BRS Toshiba PA3400U-1BRS Toshiba PA3420U-1BRS Toshiba PA3450U-1BRS Toshiba PA3451U-1BRS Toshiba PA3465U-1BRS

Rechargeable Batteries

With the rise in portable devices such as laptops, cell phones, MP3 players and cordless power tools, the need for rechargeable batteries has grown substantially in recent years. The concept of the rechargeable Laptop battery has been around since 1859, when French physicist Gaston Plante invented the lead acid cell, which would later become the world’s first rechargeable battery. That same chemistry is still used in today’s car battery.

The basic idea behind the rechargeable Dell laptop battery is simple: when electrical energy is applied to the battery, the electron flow from negative to positive that occurs during discharge is reversed and power is restored. This requires an adapter in the case of devices with built-in batteries or for standard nickel-cadmium or nickel-metal hydride batteries, the most common multi-use rechargeable XPS M1730 battery used today in your remote control, flashlight or digital camera.

Car batteries are one of the oldest kinds of rechargeable Sony VGP BPS8 batteries and in fact, the electric car predates its gas-powered cousin. In a standard car, there is a single lead-acid SLI battery that supplies power to the starter, lights and ignition system. The battery charger in this case is the alternator, a clever device that converts gasoline power to electrical energy and distributes it where needed. In electric and hybrid cars, traction batteries are used to power the vehicle down the road. Traction  Dell Inspiron e1505 Battery come in many varieties, from lead acid, to nickel-cadmium, nickel metal hydride and lithium ion.

The recharging rate has improved substantially over the years and is broken down into three categories:

Slow: 14-16 hours
Quick: 3-6 hours
Fast: Less than one hour
The rate of charge is determined by how much electrical current is allowed into the Powerbook G4 battery by the charger. Some batteries can handle higher voltage in a shorter amount of time without overheating, while others need a lesser voltage applied over a longer period of time. The quicker the rate of charge, the more chance there is of over charging, which can ruin a Toshiba PA3384U-1BRS battery’s chance of holding its charge. The key in avoiding an over charge is the ability to dissipate the charging current once maximum power has been reached. Most chargers have built-in voltage regulators do this, allowing you to safely leave your cell phone or computer plugged in overnight.

The speed and effectiveness of the charge depends largely on the quality of the charger iBook G4 battery itself. Chargers vary in performance based on the price tag and like most products you get what you pay for. Chargers are generally designed for specific cell chemistries, although newer universal chargers have sensors built in that identify the cell type and react appropriately. There are also smart chargers that use a microprocessor to monitor temperature, voltage and state of charge, which is the percentage of power available compared to Pavilion DV2000 battery full capacity.

One common problem in nickel-cadmium rechargeable Discount laptop battery is something known as the memory effect. This is when the battery is continually recharged before it has discharged more than 50 percent of its power, causing it to essentially forget that it could fully discharge to begin with. Memory effect is caused by the formation of hard-to-dissolve cadmium crystals deep within the Discount laptop batteries. Cadmium crystals are an unavoidable by-product of discharge; the trick is to keep them small enough to be reformed as cadmium during the charging process. When a battery is not fully discharged, the crystals deep within the battery are not affected by the influx of electrical current, so they are not reformed as cadmium and can grow into the troublesome larger cadmium crystals. The battery will still function normally, but is maxed out at 50 percent. The memory effect can be avoided by fully cycling the battery once every two to three weeks by allowing it to discharge completely, and then fully recharge.

It’s important to remember that no  Dell inspiron 6400 battery, rechargeable or otherwise, will last forever. All batteries suffer from aging cells and the longer they are used, the less capacity they ultimately will have. Rechargeable batteries are still a great way to save money and reduce waste.

The secrets of battery runtime

Is the runtime of a portable device directly related to the size of the laptop battery? The answer should be ‘yes’ but in reality, the runtime is governed by other attributes than the specified capacity alone.

This paper examines the cause of unexpected downtime and short battery service life. We look at four renegades - declining capacity, increasing internal resistance, elevated self-discharge and premature voltage cut-off on discharge. We evaluate how these regenerative deficiencies affect nickel, lead and lithium-based batteries. Declining capacity The amount of charge a laptop battery can hold gradually decreases due to usage and aging. Specified to deliver 100% capacity when new, the battery should be replaced when the capacity drops to below 80% of the nominal rating. Some organizations may use different end-capacities as a minimal acceptable performance threshold.

The energy storage of a battery can be divided into three imaginary sections consisting of: available energy, the empty zone that can be refilled, and the unusable part (rock content) that increases with aging. Figure 1 illustrates these three sections.

Figure 1: Dell laptop Battery charge capacity.Three imaginary sections of a battery consisting of available energy, empty zone and rock content.

In nickel-based batteries, the so-called rock content is present in form of crystalline formation, also known as memory. Restoration is possible with a full discharge to one volt per cell. However, if no service is done for four months and longer, a full repair becomes increasingly more difficult the longer service is withheld. To prevent memory, nickel-based batteries should be deep-cycled once every one or two months. Nickel-cadmium and nickel-metal-hydride batteries are used for two-way radios, medical instruments and power tools.

Performance degradation of the lead-acid battery is caused by sulfation and grid corrosion. Sulfation is a thin layer that forms on the negative cell plate if the battery is being denied a fully saturated charge. Sulfation can, in part, be corrected with cycling and/or topping charge. The Battery grid corrosion, which occurs on the positive plate, is caused by over-charge. Lead-acid batteries are used for larger portable devices and wheeled applications.

Lithium-ion Toshiba laptop batteries lose capacity through cell oxidation, a process that occurs naturally during use and aging. The typical life span of lithium-ion is 2-3 years under normal use. Cool storage a 40% charge minimizes aging. An aged lithium-ion cannot be restored with cycling. Lithium-ion is found in cell phones and mobile computing.

Increasing internal Resistance The capacity of a Toshiba PA3384U-1BRS defines the stored energy - the internal resistance governs how much energy can be delivered at any given time. While a good battery is able to provide high current on demand, the voltage of a battery with elevated resistance collapses under a heavy load. Although the battery may hold sufficient capacity, the resulting voltage drop triggers the ‘low battery’ indicator and the equipment stops functioning. Heating the battery will momentarily increase the output by lowering the resistance.

A battery with high internal resistance may still perform adequately on a low current appliance such as a flashlight, portable CD player or wall clock. Digital Camera battery equipment, on the other hand, draw heavy current bursts. Figure 2 simulates low and high internal resistance with a free-flowing and restricted tap.

Figure 2: Effects of internal battery resistance.A battery with low internal resistance is able to provide high current on demand. With elevated resistance, the Apple A1045 battery voltage collapses and the equipment cuts off.

Nickel-cadmium offers very low internal resistance and delivers high current on demand Apple A1078 . In comparison, nickel-metal-hydride starts with a slightly higher resistance and the readings increase rapidly after 300 to 400 cycles.

Lithium-ion has a slightly higher internal resistance than nickel-based batteries. The cobalt system tends to increase the internal resistance as part of aging whereas the manganese (spinel) maintains the resistance throughout Apple laptop battery life but loses capacity through chemical reaction. Cobalt and manganese are used for the positive electrodes.

High internal resistance will eventually render the battery useless. The energy may still be present but can no longer be delivered. This condition is permanent and cannot be reversed with cycling. Cool storage at a partial state-of-charged (40%) retards the aging process.

The internal resistance of Lead-acid batteries is very low. The A1175 A1185 battery responds well to short current bursts but has difficulty providing a high, sustained load. Over time, the internal resistance increases through sulfation and grid corrosion.

Elevated self-discharge

All HP laptop batteries suffer from self-discharge, of which nickel-based batteries are among the highest. The loss is asymptotical, meaning that the self-discharge is highest right after charge and then levels off. nickel-based batteries lose 10% to 15% of their capacity in the first 24 hours after charge, then 10% to 15% per month afterwards. One of the best batteries in terms of self-discharge is Lead-acid; it only self-discharges 5% per month. Unfortunately, this chemistry has the lowest energy density and is ill suited for portable applications. lithium-ion self-discharges about 5% in the first 24 hours and 1-2% afterwards. Adding the protection circuit increases the discharge by another 3% per month. The protection circuit assures that the voltage and current on each Apple Powerbook G4 battery cell does not exceed a safe limit. Figure 3 illustrates a battery with high self-discharge.

Figure 3: Effects of high load impedance.Self-discharge increases with age, high cycle count and elevated temperature. Discard a battery if the self-discharge reaches 30% in 24 hours.

The self-discharge on all battery chemistries increase at higher temperatures. Typically, the rate doubles with every 10°C (18°F). A noticeable energy loss occurs if a battery is left in a hot vehicle.

Aging and usage also affect self-discharge. nickel-metal-hydride is good for 300-400 cycles, whereas nickel-cadmium may last over 1000 cycles before high self-discharge affects the performance. An older nickel-based Sony laptop battery may lose its energy during the day through self-discharge rather than actual use. Discard a battery if the self-discharge reaches 30% in 24 hours.

Nothing can be done to reverse this deficiency. Factors that accelerate self-discharge are damaged separators induced by crystalline formation, allowing the packs to cook while charging, and high cycle count, which promotes swelling in the cell. Lead and lithium-based batteries do not increase the self-discharge with use in the same manner as their nickel-based cousins do. Premature voltage cut-off Not all stored battery power can be fully utilized. Some equipment cuts off before the designated end-of-discharge voltage is reached and precious battery energy remains unused. Applications demanding high current bursts push the battery voltage to an early cut-off. This is especially visible on iBook G4 battery with elevated internal resistance. The voltage recovers when the load is removed and the battery appears normal. Discharging such a battery on a moderate load with a battery analyzer to the respective end-of-discharge threshold will sometimes produce residual capacity readings of 30% and higher, jet the battery is inoperable in the equipment. Figure 4 illustrates high cut-off voltage.

Figure 4: Illustration of equipment with high cut-off voltage.Some portable devices do not utilize all available battery power and leave precious energy behind.

High internal battery resistance and the equipment itself are not the only cause of premature voltage cut-off - warm temperature also plays a role by lowering the battery voltage. Other reasons are shorted cells in a multi-cell battery pack and memory on nickel-based batteries.

The article is from http://www.batteryuniversity.com/