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Rechargeable 15-inch MacBook Pro battery review

Almost a year has passed since Apple battery released its updated 15-inch MacBook Pro unibody aluminum design, SD card slot and a lithium-ion battery length eaturing
The MacBook Pro has the same dimensions as before (14.4 x 9.8 x 1 cm), weighs only 5.6 pounds heavier. The Apple MacBook Pro Core Duo "2.0 15" and features a 2.0 GHz Core Duo "processor (T2500), with two independent processor" cores "on a single silicon chip, a 2 MB shared" on chip " Level 2 cache, a 667 MHz front side bus, 512 MB or 1.0 GB DDR2 SDRAM 667 MHz PC2-5300, a 80.0 GB or 100.0 GB hard drive with Sudden Motion Sensor "technology and 4X single-layer DVD ± RW / CD-RW SuperDrive. It also includes an ATI Mobility Radeon X1600 graphics processor with 128 MB or 256 MB GDDR3 video memory.

Rechargeable battery 15-inch MacBook Pro specs :

Technology : 9Cell Li-Polymer
Capacity : 60Wh
Working time : 4-5 hours as Apple announce
Weight : 536g
Battery Code : Apple A1175, MA348, MA348*/A, MA348G/A, MA348J/A
Fit Model : Apple 15-Inch MacBook Pro battery series
Warranty: Limited 1 Year Warranty.

Rechargeable battery 15-inch MacBook Pro Recall

In August 2006, Apple discovered that some 15-inch MacBook Pro batteries and MacBook Pro 13-inch battery supplied to Apple did not meet our high standards for battery performance. Apple initiated a worldwide battery exchange program for certain rechargeable batteries that were sold for use with 15-inch MacBook Pro computer systems from February 2006 through May 2006. More info here : http://www.apple.com/support/macbookpro/batteryexchange/ http://www.batterystore.co.nz

Rechargeable battery 15-inch MacBook Pro Customer review :

If you follow the instructions in the manual, and cycle the battery once a week. You may have about 4 to 5 hours life of your MacBook Pro 17inch battery. I tried cycleing the battery and it really works and makes the battery life. But the key is to be carried out once per week.

These Apple A1175 batteries are terrible. I religiously-cycle batteries and I get about 9 months of them before I am up to about 1 to 1.5 hours. Unfortunately, the aftermarket is not much better. I'm glad that Apple is investing in battery technology, because these things are very expensive and suck.

I bought my MacBook Pro in August 2006 and my battery crashed on 15 November. I love my MacBook Pro but the battery is a disaster ...

I think the Apple laptop battery life is pretty good on the MacBook Pro I was in a three hour flight the other day and my Mac battery died shortly before landing. Other PC users around me had to close because of problems with the batteries for 45 minutes. After the flight actually had a contractor ask me what I have equipment and questions about the battery b / c I could not believe it took so long.
But in my opinion, this battery is extremely hot and more than one PC which I've worked on or the PowerBook I had until I upgraded. Therefore, be sure to wear pants or use a pillow when you use your laptop on the lap map!
The design is great for the MacBook Pro and then the battery, I only used a larger fan in the MacBook have to make it this cool thing. I think it is a failure of computer design and less on the battery, but.

The article Via laptop battery blog

The Toshiba Satellite U500 and U505 series notebooks are built with 13 inch display screen, Intel Core 2 Duo Processors, it should leave deep impression to many folks. The U405 is an excellent product in 2008, and now, the new Toshiba pa3399u 1brs laptop Satellite U505 is perfect as well.

Below is the specification for Toshiba Satellite U505:

1. Processor: Intel Core 2 Duo P7350 (2.0GHz, 1066MHz FSB, 3MB cache)
2. Memory: 4GB DDR2 SDRAM (800MHz)
3. Operation System: Windows Vista Home Premium SP1 (64-bit)
4. Storage: 400GB HDD (5400rpm, SATA)
5. Screen: 13.3-inch diagonal WXGA (glossy, 1280x800)
6. Graphics: Integrated Intel Graphics Media Accelerator 4500MHD
7. Optical drive: Slot-Loading DVD SuperMulti (+/- Double Layer) drive
8. Wireless: Intel 5100AGN
9. Dimensions: (W x D x H): 12.5" x 9.08" x 1.16"/1.50"
10. Weight: 4.75lb (not including weight of AC adapter).
11. Battery: High Capacity Lithium-Ion Toshiba pa3634u 1brs Battery (12-cell, 92Wh, 8500mAh)
12. Others: Texture Finish in Luxe Brown Premium

Toshiba pa3534u 1brs U505’s outline is featured with plastic material, Luxe Brown Premium finishing, there are textures around the palmrest and LCD, and it is formed by heavy pressure module. Many other cheap computers which made up of plastic material easy to generate squish sound, but U505 doesn’t.

The brand-new Toshiba pa3420u 1brs Satellite U500 and U505 series notebook feature a portable compact footprint similar to most laptops with a 13.3 inch screen, but we can’t say that this notebook is super protable, actually, it maybe one of the larger 13 inch laptops currently on the market. Toshiba U505 is not only thicker than the Apple's MacBook Air or Lenovo's ThinkPad X301, but also thicker and heavier than the DELL Studio XPS 13 or the 13-inch MacBook Pro.

The U505 screen is WXGA (1080 x 800), CCRL backlight are great. U505 did same with U405 on gloss and matte matching for the screen. So you won’t experience trouble the reflections except you sit under the direct sunlight and the Toshiba pa3450u 1brs screen brightness turns down.

As we know, there are many notebook factories already have begun to improve the display screen to 16:9 aspect ratio as LCD are also 16:9. But on U500 and U505 series, Toshiba still insist on the old 16:10 aspect ratio widescreen display. This character let U505 more seems like square-shaped.

U505 uses flat keys as Toshiba pa3421u 1brs decided to make them seems like an upside down "T" shape, this is not same as the former U405, so the new users have to take few times to familiar with the keys. The keyboard and touchpad backlighting are nice to help you see what you're typing in a dark environment.

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 inspiron 1300 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 Dell inspiron 1420 battery 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 Dell inspiron 1440 battery 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 Dell inspiron 15 battery 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 Dell inspiron 1501 battery battery voltage collapses and the equipment cuts off.

Nickel-cadmium offers very low internal resistance and delivers high current on demand Dell inspiron 1520 battery . 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 Dell inspiron 1525 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 Dell inspiron 1545 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 Dell inspiron 1720 battery 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 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 Dell inspiron 1721 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 Dell inspiron 630m 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/