A somewhat outlandish idea a few years ago, the eight-hour notebook is moving closer to reality as promising trends in battery materials and power consumption converge. If all goes well, within three to four years, portable PCs could see battery life double from today's four-hour stretch.
Chipmaker Intel, in fact, is so bullish on the matter that it recently moved up a deadline for notebook makers by two years. It's now asking them to produce by 2008 thin and light notebooks that can run for eight hours without the use of additional external batteries, said Mooly Eden, vice president of the company's mobility group.
Notebooks are an area of keen interest for Intel and other processor companies. Chips for those systems generally sell at higher prices than their desktop counterparts, and are more profitable to boot. The notebook segment of the PC market is growing fast, and currently accounts for about 30 percent of the PC processors shipped.
Computer makers, meanwhile, are working on making notebooks lighter to help get the most life out of whatever type of battery they use.
Four hours is the current standard for thin notebooks, although that allotment remains elusive in real life.
"The spec says this, but it depends on some degree on usage," said Roger Kay, an analyst at IDC. "Batteries also don't have that life for long. They might have four hours at the beginning of the year, but if you start doing more multimedia, it might go down to 2.5 hours by the end of the year."
The biggest gains in battery life are likely to come from the guts of the batteries themselves.
For instance, start-up Zinc Matrix Power has devised a way to produce batteries out of zinc alkaline that can provide more energy than conventional lithium ion batteries but don't take up any more space inside a laptop, according to Mike Trainor, chief mobile technology evangelist at Intel.
Competitor Pionics has designed a lithium ion battery that could offer similar performance. Others are working on variations such as lithium polymer.
Can you say 'supercharged'?
"By changing the metals in the cathode you can change the capacity curve of the battery," Trainor said. "The next question is whether you can make a cathode with that mix of metals into mass production."
The equation for studying battery performance, Trainor said, is relatively straightforward: Divide the amount of energy stored in batteries -- measured in watt hours -- by the average power consumption of a notebook.
Today, a high-performance thin and light notebook (typically one that weighs less than 5 pounds) might come with batteries that can provide 58 watt hours of energy. The average power consumption of those notebooks, however, comes to 12 watts or more. Hence, battery life totals about four hours, at best.
The goal now is to boost capacity to 72 watt hours and reduce average power consumption to 9 watts.
"Internally, we call it 1-2-6: one watt for the processor, two for the chipset and six for the rest of the system. If you want to get to eight hours, we recommend integrated graphics in chipsets," Trainor said. "We can demonstrate lab-built batteries that can do 72 watt hours and we believe one or more companies will be in production in reasonable volumes" toward 2008.
Easy on the gas pedal
Other elements of a notebook also make a difference. For the last several years, component makers steadily increased energy efficiency in many parts. LCD manufacturers, for instance, started to sell panels that consumed only 3 watts of power on average, a substantial improvement. LCD panels typically account for about 30 percent of overall notebook power consumption.
Another recent improvement for screens comes in the form of Intel's Display Power Saving Technology. With it, the pixels in a digital picture or graphic image are opened wider than normal, which lets more light in. In ordinary circumstances, the added light would wash out the picture, but the chipset also turns down the light source inside the panel. In the end, the image looks the same, but overall power consumption eases back from 4.8 watts to 3.2 watts. (The technology in part derives from Taiwan's Toppoly, in which Intel Capital has made an investment.)
On the other hand, screens that use OLED, or organic light-emitting diode, technology may take awhile to reach notebooks. Cell phone manufacturers already use them. But cell phone screens are mostly dark -- only the numbers light up -- while notebook screens are generally fully lit. OLEDs, therefore, may not provide power consumption advantages, Trainor theorised.
The hard drive, which on average consumes about 8 percent of a notebook's overall power, will also see improvements. At Microsoft's WinHEC gathering earlier this spring, Samsung showed off a hard drive in which most data gets stored to flash memory first. With the addition of flash, the hard drive can hibernate most of the time, and thereby extend battery life of a notebook by a half hour or more, according to Samsung.
Intel's upcoming Yonah notebook chip, due in the first quarter of 2006, will also consume less power than current Pentium M processors, Eden said. In addition, chipsets will begin to include more energy efficiency technology. Chipsets typically cost far less than processors and the same degree of energy conservation has not been applied to them.
Competitor Via Technologies also recently came out with a power-efficient notebook chip, the C7.
Despite the changes, consumers aren't likely to see radical shifts in notebook design. Enthusiasm for fuel cells, for instance, appears to be waning.
Fuel cells are bulky, Trainor said, and more time and money will be required to shrink them. Energy efficiency will also have to be improved. In addition, fuel cell refills will cost money, in contrast with the seemingly no-cost charging of a lithium ion battery via a wall socket.
"It may be the next decade," Trainor said," before we see fuel cells inside the battery cavity."
Hello Dear Sir\Ma,
my name is Dr Mrs jenifer am a uk citizen and am a business woman that deals with electronics,such as pentium m laptop and phones all kind,
i will like to order for some item in your company and i will be very greatfull if your company can help me out rigth now am not in town i went to my store in west africa,to see how they are doing may be they need more item and when i got there i found out that they need some item there,so that is why i wnat to order some item from your company a friend introduce me to your company that you company can help mw to get it that is why i came to send you mail may be you will be able to help me out to get thet item,and also i will like to shipp the item to my store here in africa,and i will like you to shipp it via DHL,and i will be making my payment via credit card.and this it the item i want pentium m laptop 2.................qut.
please i await your responce.
Best Regerds.
Dr Mrs Jenifer